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|
// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*-
// vim: ts=8 sw=2 smarttab
/*
* Ceph - scalable distributed file system
*
* Copyright (C) 2004-2012 Sage Weil <sage@newdream.net>
*
* This is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License version 2.1, as published by the Free Software
* Foundation. See file COPYING.
*
*/
#ifndef CEPH_LIBRADOS_H
#define CEPH_LIBRADOS_H
#ifdef __cplusplus
extern "C" {
#endif
#include <netinet/in.h>
#if defined(__linux__)
#include <linux/types.h>
#elif defined(__FreeBSD__)
#include <sys/types.h>
#endif
#include <unistd.h>
#include <string.h>
#include "rados_types.h"
#include <sys/time.h>
#ifndef CEPH_OSD_TMAP_SET
/* These are also defined in rados.h and objclass.h. Keep them in sync! */
#define CEPH_OSD_TMAP_HDR 'h'
#define CEPH_OSD_TMAP_SET 's'
#define CEPH_OSD_TMAP_CREATE 'c'
#define CEPH_OSD_TMAP_RM 'r'
#endif
#define LIBRADOS_VER_MAJOR 3
#define LIBRADOS_VER_MINOR 0
#define LIBRADOS_VER_EXTRA 0
#define LIBRADOS_VERSION(maj, min, extra) ((maj << 16) + (min << 8) + extra)
#define LIBRADOS_VERSION_CODE LIBRADOS_VERSION(LIBRADOS_VER_MAJOR, LIBRADOS_VER_MINOR, LIBRADOS_VER_EXTRA)
#define LIBRADOS_SUPPORTS_WATCH 1
#define LIBRADOS_SUPPORTS_SERVICES 1
#define LIBRADOS_SUPPORTS_GETADDRS 1
#define LIBRADOS_SUPPORTS_APP_METADATA 1
/* RADOS lock flags
* They are also defined in cls_lock_types.h. Keep them in sync!
*/
#define LIBRADOS_LOCK_FLAG_RENEW (1u<<0)
#define LIBRADOS_LOCK_FLAG_MAY_RENEW LIBRADOS_LOCK_FLAG_RENEW
#define LIBRADOS_LOCK_FLAG_MUST_RENEW (1u<<1)
/*
* Constants for rados_write_op_create().
*/
#define LIBRADOS_CREATE_EXCLUSIVE 1
#define LIBRADOS_CREATE_IDEMPOTENT 0
/*
* Flags that can be set on a per-op basis via
* rados_read_op_set_flags() and rados_write_op_set_flags().
*/
enum {
// fail a create operation if the object already exists
LIBRADOS_OP_FLAG_EXCL = 0x1,
// allow the transaction to succeed even if the flagged op fails
LIBRADOS_OP_FLAG_FAILOK = 0x2,
// indicate read/write op random
LIBRADOS_OP_FLAG_FADVISE_RANDOM = 0x4,
// indicate read/write op sequential
LIBRADOS_OP_FLAG_FADVISE_SEQUENTIAL = 0x8,
// indicate read/write data will be accessed in the near future (by someone)
LIBRADOS_OP_FLAG_FADVISE_WILLNEED = 0x10,
// indicate read/write data will not accessed in the near future (by anyone)
LIBRADOS_OP_FLAG_FADVISE_DONTNEED = 0x20,
// indicate read/write data will not accessed again (by *this* client)
LIBRADOS_OP_FLAG_FADVISE_NOCACHE = 0x40,
// optionally support FUA (force unit access) on write requests
LIBRADOS_OP_FLAG_FADVISE_FUA = 0x80,
};
#define CEPH_RADOS_API
/**
* @name xattr comparison operations
* Operators for comparing xattrs on objects, and aborting the
* rados_read_op or rados_write_op transaction if the comparison
* fails.
*
* @{
*/
enum {
LIBRADOS_CMPXATTR_OP_EQ = 1,
LIBRADOS_CMPXATTR_OP_NE = 2,
LIBRADOS_CMPXATTR_OP_GT = 3,
LIBRADOS_CMPXATTR_OP_GTE = 4,
LIBRADOS_CMPXATTR_OP_LT = 5,
LIBRADOS_CMPXATTR_OP_LTE = 6
};
/** @} */
/**
* @name Operation Flags
* Flags for rados_read_op_operate(), rados_write_op_operate(),
* rados_aio_read_op_operate(), and rados_aio_write_op_operate().
* See librados.hpp for details.
* @{
*/
enum {
LIBRADOS_OPERATION_NOFLAG = 0,
LIBRADOS_OPERATION_BALANCE_READS = 1,
LIBRADOS_OPERATION_LOCALIZE_READS = 2,
LIBRADOS_OPERATION_ORDER_READS_WRITES = 4,
LIBRADOS_OPERATION_IGNORE_CACHE = 8,
LIBRADOS_OPERATION_SKIPRWLOCKS = 16,
LIBRADOS_OPERATION_IGNORE_OVERLAY = 32,
/* send requests to cluster despite the cluster or pool being marked
full; ops will either succeed (e.g., delete) or return EDQUOT or
ENOSPC. */
LIBRADOS_OPERATION_FULL_TRY = 64,
/*
* Mainly for delete op
*/
LIBRADOS_OPERATION_FULL_FORCE = 128,
LIBRADOS_OPERATION_IGNORE_REDIRECT = 256,
LIBRADOS_OPERATION_ORDERSNAP = 512,
/* enable/allow >0 return values and payloads on write/update */
LIBRADOS_OPERATION_RETURNVEC = 1024,
};
/** @} */
/**
* @name Alloc hint flags
* Flags for rados_write_op_alloc_hint2() and rados_set_alloc_hint2()
* indicating future IO patterns.
* @{
*/
enum {
LIBRADOS_ALLOC_HINT_FLAG_SEQUENTIAL_WRITE = 1,
LIBRADOS_ALLOC_HINT_FLAG_RANDOM_WRITE = 2,
LIBRADOS_ALLOC_HINT_FLAG_SEQUENTIAL_READ = 4,
LIBRADOS_ALLOC_HINT_FLAG_RANDOM_READ = 8,
LIBRADOS_ALLOC_HINT_FLAG_APPEND_ONLY = 16,
LIBRADOS_ALLOC_HINT_FLAG_IMMUTABLE = 32,
LIBRADOS_ALLOC_HINT_FLAG_SHORTLIVED = 64,
LIBRADOS_ALLOC_HINT_FLAG_LONGLIVED = 128,
LIBRADOS_ALLOC_HINT_FLAG_COMPRESSIBLE = 256,
LIBRADOS_ALLOC_HINT_FLAG_INCOMPRESSIBLE = 512,
};
/** @} */
typedef enum {
LIBRADOS_CHECKSUM_TYPE_XXHASH32 = 0,
LIBRADOS_CHECKSUM_TYPE_XXHASH64 = 1,
LIBRADOS_CHECKSUM_TYPE_CRC32C = 2
} rados_checksum_type_t;
/*
* snap id contants
*/
#define LIBRADOS_SNAP_HEAD UINT64_C(-2)
#define LIBRADOS_SNAP_DIR UINT64_C(-1)
/**
* @typedef rados_t
*
* A handle for interacting with a RADOS cluster. It encapsulates all
* RADOS client configuration, including username, key for
* authentication, logging, and debugging. Talking to different clusters
* -- or to the same cluster with different users -- requires
* different cluster handles.
*/
#ifndef VOIDPTR_RADOS_T
#define VOIDPTR_RADOS_T
typedef void *rados_t;
#endif //VOIDPTR_RADOS_T
/**
* @typedef rados_config_t
*
* A handle for the ceph configuration context for the rados_t cluster
* instance. This can be used to share configuration context/state
* (e.g., logging configuration) between librados instance.
*
* @warning The config context does not have independent reference
* counting. As such, a rados_config_t handle retrieved from a given
* rados_t is only valid as long as that rados_t.
*/
typedef void *rados_config_t;
/**
* @typedef rados_ioctx_t
*
* An io context encapsulates a few settings for all I/O operations
* done on it:
* - pool - set when the io context is created (see rados_ioctx_create())
* - snapshot context for writes (see
* rados_ioctx_selfmanaged_snap_set_write_ctx())
* - snapshot id to read from (see rados_ioctx_snap_set_read())
* - object locator for all single-object operations (see
* rados_ioctx_locator_set_key())
* - namespace for all single-object operations (see
* rados_ioctx_set_namespace()). Set to LIBRADOS_ALL_NSPACES
* before rados_nobjects_list_open() will list all objects in all
* namespaces.
*
* @warning Changing any of these settings is not thread-safe -
* librados users must synchronize any of these changes on their own,
* or use separate io contexts for each thread
*/
typedef void *rados_ioctx_t;
/**
* @typedef rados_list_ctx_t
*
* An iterator for listing the objects in a pool.
* Used with rados_nobjects_list_open(),
* rados_nobjects_list_next(), rados_nobjects_list_next2(), and
* rados_nobjects_list_close().
*/
typedef void *rados_list_ctx_t;
/**
* @typedef rados_object_list_cursor
*
* The cursor used with rados_enumerate_objects
* and accompanying methods.
*/
typedef void * rados_object_list_cursor;
/**
* @struct rados_object_list_item
*
* The item populated by rados_object_list in
* the results array.
*/
typedef struct {
/// oid length
size_t oid_length;
/// name of the object
char *oid;
/// namespace length
size_t nspace_length;
/// the object namespace
char *nspace;
/// locator length
size_t locator_length;
/// object locator
char *locator;
} rados_object_list_item;
/**
* @typedef rados_snap_t
* The id of a snapshot.
*/
typedef uint64_t rados_snap_t;
/**
* @typedef rados_xattrs_iter_t
* An iterator for listing extended attrbutes on an object.
* Used with rados_getxattrs(), rados_getxattrs_next(), and
* rados_getxattrs_end().
*/
typedef void *rados_xattrs_iter_t;
/**
* @typedef rados_omap_iter_t
* An iterator for listing omap key/value pairs on an object.
* Used with rados_read_op_omap_get_keys(), rados_read_op_omap_get_vals(),
* rados_read_op_omap_get_vals_by_keys(), rados_omap_get_next(), and
* rados_omap_get_end().
*/
typedef void *rados_omap_iter_t;
/**
* @struct rados_pool_stat_t
* Usage information for a pool.
*/
struct rados_pool_stat_t {
/// space used in bytes
uint64_t num_bytes;
/// space used in KB
uint64_t num_kb;
/// number of objects in the pool
uint64_t num_objects;
/// number of clones of objects
uint64_t num_object_clones;
/// num_objects * num_replicas
uint64_t num_object_copies;
/// number of objects missing on primary
uint64_t num_objects_missing_on_primary;
/// number of objects found on no OSDs
uint64_t num_objects_unfound;
/// number of objects replicated fewer times than they should be
/// (but found on at least one OSD)
uint64_t num_objects_degraded;
/// number of objects read
uint64_t num_rd;
/// objects read in KB
uint64_t num_rd_kb;
/// number of objects written
uint64_t num_wr;
/// objects written in KB
uint64_t num_wr_kb;
/// bytes originally provided by user
uint64_t num_user_bytes;
/// bytes passed compression
uint64_t compressed_bytes_orig;
/// bytes resulted after compression
uint64_t compressed_bytes;
/// bytes allocated at storage
uint64_t compressed_bytes_alloc;
};
/**
* @struct rados_cluster_stat_t
* Cluster-wide usage information
*/
struct rados_cluster_stat_t {
/// total device size
uint64_t kb;
/// total used
uint64_t kb_used;
/// total available/free
uint64_t kb_avail;
/// number of objects
uint64_t num_objects;
};
/**
* @typedef rados_write_op_t
*
* An object write operation stores a number of operations which can be
* executed atomically. For usage, see:
* - Creation and deletion: rados_create_write_op() rados_release_write_op()
* - Extended attribute manipulation: rados_write_op_cmpxattr()
* rados_write_op_cmpxattr(), rados_write_op_setxattr(),
* rados_write_op_rmxattr()
* - Object map key/value pairs: rados_write_op_omap_set(),
* rados_write_op_omap_rm_keys(), rados_write_op_omap_clear(),
* rados_write_op_omap_cmp()
* - Object properties: rados_write_op_assert_exists(),
* rados_write_op_assert_version()
* - Creating objects: rados_write_op_create()
* - IO on objects: rados_write_op_append(), rados_write_op_write(), rados_write_op_zero
* rados_write_op_write_full(), rados_write_op_writesame(), rados_write_op_remove,
* rados_write_op_truncate(), rados_write_op_zero(), rados_write_op_cmpext()
* - Hints: rados_write_op_set_alloc_hint()
* - Performing the operation: rados_write_op_operate(), rados_aio_write_op_operate()
*/
typedef void *rados_write_op_t;
/**
* @typedef rados_read_op_t
*
* An object read operation stores a number of operations which can be
* executed atomically. For usage, see:
* - Creation and deletion: rados_create_read_op() rados_release_read_op()
* - Extended attribute manipulation: rados_read_op_cmpxattr(),
* rados_read_op_getxattr(), rados_read_op_getxattrs()
* - Object map key/value pairs: rados_read_op_omap_get_vals(),
* rados_read_op_omap_get_keys(), rados_read_op_omap_get_vals_by_keys(),
* rados_read_op_omap_cmp()
* - Object properties: rados_read_op_stat(), rados_read_op_assert_exists(),
* rados_read_op_assert_version()
* - IO on objects: rados_read_op_read(), rados_read_op_checksum(),
* rados_read_op_cmpext()
* - Custom operations: rados_read_op_exec(), rados_read_op_exec_user_buf()
* - Request properties: rados_read_op_set_flags()
* - Performing the operation: rados_read_op_operate(),
* rados_aio_read_op_operate()
*/
typedef void *rados_read_op_t;
/**
* @typedef rados_completion_t
* Represents the state of an asynchronous operation - it contains the
* return value once the operation completes, and can be used to block
* until the operation is complete or safe.
*/
typedef void *rados_completion_t;
/**
* @struct blkin_trace_info
* blkin trace information for Zipkin tracing
*/
struct blkin_trace_info;
/**
* Get the version of librados.
*
* The version number is major.minor.extra. Note that this is
* unrelated to the Ceph version number.
*
* TODO: define version semantics, i.e.:
* - incrementing major is for backwards-incompatible changes
* - incrementing minor is for backwards-compatible changes
* - incrementing extra is for bug fixes
*
* @param major where to store the major version number
* @param minor where to store the minor version number
* @param extra where to store the extra version number
*/
CEPH_RADOS_API void rados_version(int *major, int *minor, int *extra);
/**
* @name Setup and Teardown
* These are the first and last functions to that should be called
* when using librados.
*
* @{
*/
/**
* Create a handle for communicating with a RADOS cluster.
*
* Ceph environment variables are read when this is called, so if
* $CEPH_ARGS specifies everything you need to connect, no further
* configuration is necessary.
*
* @param cluster where to store the handle
* @param id the user to connect as (i.e. admin, not client.admin)
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_create(rados_t *cluster, const char * const id);
/**
* Extended version of rados_create.
*
* Like rados_create, but
* 1) don't assume 'client\.'+id; allow full specification of name
* 2) allow specification of cluster name
* 3) flags for future expansion
*/
CEPH_RADOS_API int rados_create2(rados_t *pcluster,
const char *const clustername,
const char * const name, uint64_t flags);
/**
* Initialize a cluster handle from an existing configuration.
*
* Share configuration state with another rados_t instance.
*
* @param cluster where to store the handle
* @param cct the existing configuration to use
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_create_with_context(rados_t *cluster,
rados_config_t cct);
/**
* Ping the monitor with ID mon_id, storing the resulting reply in
* buf (if specified) with a maximum size of len.
*
* The result buffer is allocated on the heap; the caller is
* expected to release that memory with rados_buffer_free(). The
* buffer and length pointers can be NULL, in which case they are
* not filled in.
*
* @param cluster cluster handle
* @param mon_id [in] ID of the monitor to ping
* @param outstr [out] double pointer with the resulting reply
* @param outstrlen [out] pointer with the size of the reply in outstr
*/
CEPH_RADOS_API int rados_ping_monitor(rados_t cluster, const char *mon_id,
char **outstr, size_t *outstrlen);
/**
* Connect to the cluster.
*
* @note BUG: Before calling this, calling a function that communicates with the
* cluster will crash.
*
* @pre The cluster handle is configured with at least a monitor
* address. If cephx is enabled, a client name and secret must also be
* set.
*
* @post If this succeeds, any function in librados may be used
*
* @param cluster The cluster to connect to.
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_connect(rados_t cluster);
/**
* Disconnects from the cluster.
*
* For clean up, this is only necessary after rados_connect() has
* succeeded.
*
* @warning This does not guarantee any asynchronous writes have
* completed. To do that, you must call rados_aio_flush() on all open
* io contexts.
*
* @warning We implicitly call rados_watch_flush() on shutdown. If
* there are watches being used, this should be done explicitly before
* destroying the relevant IoCtx. We do it here as a safety measure.
*
* @post the cluster handle cannot be used again
*
* @param cluster the cluster to shutdown
*/
CEPH_RADOS_API void rados_shutdown(rados_t cluster);
/** @} init */
/**
* @name Configuration
* These functions read and update Ceph configuration for a cluster
* handle. Any configuration changes must be done before connecting to
* the cluster.
*
* Options that librados users might want to set include:
* - mon_host
* - auth_supported
* - key, keyfile, or keyring when using cephx
* - log_file, log_to_stderr, err_to_stderr, and log_to_syslog
* - debug_rados, debug_objecter, debug_monc, debug_auth, or debug_ms
*
* See docs.ceph.com for information about available configuration options`
*
* @{
*/
/**
* Configure the cluster handle using a Ceph config file
*
* If path is NULL, the default locations are searched, and the first
* found is used. The locations are:
* - $CEPH_CONF (environment variable)
* - /etc/ceph/ceph.conf
* - ~/.ceph/config
* - ceph.conf (in the current working directory)
*
* @pre rados_connect() has not been called on the cluster handle
*
* @param cluster cluster handle to configure
* @param path path to a Ceph configuration file
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_conf_read_file(rados_t cluster, const char *path);
/**
* Configure the cluster handle with command line arguments
*
* argv can contain any common Ceph command line option, including any
* configuration parameter prefixed by '--' and replacing spaces with
* dashes or underscores. For example, the following options are equivalent:
* - --mon-host 10.0.0.1:6789
* - --mon_host 10.0.0.1:6789
* - -m 10.0.0.1:6789
*
* @pre rados_connect() has not been called on the cluster handle
*
* @param cluster cluster handle to configure
* @param argc number of arguments in argv
* @param argv arguments to parse
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_conf_parse_argv(rados_t cluster, int argc,
const char **argv);
/**
* Configure the cluster handle with command line arguments, returning
* any remainders. Same rados_conf_parse_argv, except for extra
* remargv argument to hold returns unrecognized arguments.
*
* @pre rados_connect() has not been called on the cluster handle
*
* @param cluster cluster handle to configure
* @param argc number of arguments in argv
* @param argv arguments to parse
* @param remargv char* array for returned unrecognized arguments
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_conf_parse_argv_remainder(rados_t cluster, int argc,
const char **argv,
const char **remargv);
/**
* Configure the cluster handle based on an environment variable
*
* The contents of the environment variable are parsed as if they were
* Ceph command line options. If var is NULL, the CEPH_ARGS
* environment variable is used.
*
* @pre rados_connect() has not been called on the cluster handle
*
* @note BUG: this is not threadsafe - it uses a static buffer
*
* @param cluster cluster handle to configure
* @param var name of the environment variable to read
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_conf_parse_env(rados_t cluster, const char *var);
/**
* Set a configuration option
*
* @pre rados_connect() has not been called on the cluster handle
*
* @param cluster cluster handle to configure
* @param option option to set
* @param value value of the option
* @returns 0 on success, negative error code on failure
* @returns -ENOENT when the option is not a Ceph configuration option
*/
CEPH_RADOS_API int rados_conf_set(rados_t cluster, const char *option,
const char *value);
/**
* Get the value of a configuration option
*
* @param cluster configuration to read
* @param option which option to read
* @param buf where to write the configuration value
* @param len the size of buf in bytes
* @returns 0 on success, negative error code on failure
* @returns -ENAMETOOLONG if the buffer is too short to contain the
* requested value
*/
CEPH_RADOS_API int rados_conf_get(rados_t cluster, const char *option,
char *buf, size_t len);
/** @} config */
/**
* Read usage info about the cluster
*
* This tells you total space, space used, space available, and number
* of objects. These are not updated immediately when data is written,
* they are eventually consistent.
*
* @param cluster cluster to query
* @param result where to store the results
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_cluster_stat(rados_t cluster,
struct rados_cluster_stat_t *result);
/**
* Get the fsid of the cluster as a hexadecimal string.
*
* The fsid is a unique id of an entire Ceph cluster.
*
* @param cluster where to get the fsid
* @param buf where to write the fsid
* @param len the size of buf in bytes (should be 37)
* @returns 0 on success, negative error code on failure
* @returns -ERANGE if the buffer is too short to contain the
* fsid
*/
CEPH_RADOS_API int rados_cluster_fsid(rados_t cluster, char *buf, size_t len);
/**
* Get/wait for the most recent osdmap
*
* @param cluster the cluster to shutdown
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_wait_for_latest_osdmap(rados_t cluster);
/**
* @name Pools
*
* RADOS pools are separate namespaces for objects. Pools may have
* different crush rules associated with them, so they could have
* differing replication levels or placement strategies. RADOS
* permissions are also tied to pools - users can have different read,
* write, and execute permissions on a per-pool basis.
*
* @{
*/
/**
* List pools
*
* Gets a list of pool names as NULL-terminated strings. The pool
* names will be placed in the supplied buffer one after another.
* After the last pool name, there will be two 0 bytes in a row.
*
* If len is too short to fit all the pool name entries we need, we will fill
* as much as we can.
*
* Buf may be null to determine the buffer size needed to list all pools.
*
* @param cluster cluster handle
* @param buf output buffer
* @param len output buffer length
* @returns length of the buffer we would need to list all pools
*/
CEPH_RADOS_API int rados_pool_list(rados_t cluster, char *buf, size_t len);
/**
* List inconsistent placement groups of the given pool
*
* Gets a list of inconsistent placement groups as NULL-terminated strings.
* The placement group names will be placed in the supplied buffer one after
* another. After the last name, there will be two 0 types in a row.
*
* If len is too short to fit all the placement group entries we need, we will
* fill as much as we can.
*
* @param cluster cluster handle
* @param pool pool ID
* @param buf output buffer
* @param len output buffer length
* @returns length of the buffer we would need to list all pools
*/
CEPH_RADOS_API int rados_inconsistent_pg_list(rados_t cluster, int64_t pool,
char *buf, size_t len);
/**
* Get a configuration handle for a rados cluster handle
*
* This handle is valid only as long as the cluster handle is valid.
*
* @param cluster cluster handle
* @returns config handle for this cluster
*/
CEPH_RADOS_API rados_config_t rados_cct(rados_t cluster);
/**
* Get a global id for current instance
*
* This id is a unique representation of current connection to the cluster
*
* @param cluster cluster handle
* @returns instance global id
*/
CEPH_RADOS_API uint64_t rados_get_instance_id(rados_t cluster);
/**
* Gets the minimum compatible OSD version
*
* @param cluster cluster handle
* @param require_osd_release [out] minimum compatible OSD version
* based upon the current features
* @returns 0 on sucess, negative error code on failure
*/
CEPH_RADOS_API int rados_get_min_compatible_osd(rados_t cluster,
int8_t* require_osd_release);
/**
* Gets the minimum compatible client version
*
* @param cluster cluster handle
* @param min_compat_client [out] minimum compatible client version
* based upon the current features
* @param require_min_compat_client [out] required minimum client version
* based upon explicit setting
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_get_min_compatible_client(rados_t cluster,
int8_t* min_compat_client,
int8_t* require_min_compat_client);
/**
* Create an io context
*
* The io context allows you to perform operations within a particular
* pool. For more details see rados_ioctx_t.
*
* @param cluster which cluster the pool is in
* @param pool_name name of the pool
* @param ioctx where to store the io context
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_ioctx_create(rados_t cluster, const char *pool_name,
rados_ioctx_t *ioctx);
CEPH_RADOS_API int rados_ioctx_create2(rados_t cluster, int64_t pool_id,
rados_ioctx_t *ioctx);
/**
* The opposite of rados_ioctx_create
*
* This just tells librados that you no longer need to use the io context.
* It may not be freed immediately if there are pending asynchronous
* requests on it, but you should not use an io context again after
* calling this function on it.
*
* @warning This does not guarantee any asynchronous
* writes have completed. You must call rados_aio_flush()
* on the io context before destroying it to do that.
*
* @warning If this ioctx is used by rados_watch, the caller needs to
* be sure that all registered watches are disconnected via
* rados_unwatch() and that rados_watch_flush() is called. This
* ensures that a racing watch callback does not make use of a
* destroyed ioctx.
*
* @param io the io context to dispose of
*/
CEPH_RADOS_API void rados_ioctx_destroy(rados_ioctx_t io);
/**
* Get configuration handle for a pool handle
*
* @param io pool handle
* @returns rados_config_t for this cluster
*/
CEPH_RADOS_API rados_config_t rados_ioctx_cct(rados_ioctx_t io);
/**
* Get the cluster handle used by this rados_ioctx_t
* Note that this is a weak reference, and should not
* be destroyed via rados_shutdown().
*
* @param io the io context
* @returns the cluster handle for this io context
*/
CEPH_RADOS_API rados_t rados_ioctx_get_cluster(rados_ioctx_t io);
/**
* Get pool usage statistics
*
* Fills in a rados_pool_stat_t after querying the cluster.
*
* @param io determines which pool to query
* @param stats where to store the results
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_ioctx_pool_stat(rados_ioctx_t io,
struct rados_pool_stat_t *stats);
/**
* Get the id of a pool
*
* @param cluster which cluster the pool is in
* @param pool_name which pool to look up
* @returns id of the pool
* @returns -ENOENT if the pool is not found
*/
CEPH_RADOS_API int64_t rados_pool_lookup(rados_t cluster,
const char *pool_name);
/**
* Get the name of a pool
*
* @param cluster which cluster the pool is in
* @param id the id of the pool
* @param buf where to store the pool name
* @param maxlen size of buffer where name will be stored
* @returns length of string stored, or -ERANGE if buffer too small
*/
CEPH_RADOS_API int rados_pool_reverse_lookup(rados_t cluster, int64_t id,
char *buf, size_t maxlen);
/**
* Create a pool with default settings
*
* The default crush rule is rule 0.
*
* @param cluster the cluster in which the pool will be created
* @param pool_name the name of the new pool
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_pool_create(rados_t cluster, const char *pool_name);
/**
* Create a pool owned by a specific auid.
*
* DEPRECATED: auid support has been removed, and this call will be removed in a future
* release.
*
* @param cluster the cluster in which the pool will be created
* @param pool_name the name of the new pool
* @param auid the id of the owner of the new pool
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_pool_create_with_auid(rados_t cluster,
const char *pool_name,
uint64_t auid)
__attribute__((deprecated));
/**
* Create a pool with a specific CRUSH rule
*
* @param cluster the cluster in which the pool will be created
* @param pool_name the name of the new pool
* @param crush_rule_num which rule to use for placement in the new pool1
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_pool_create_with_crush_rule(rados_t cluster,
const char *pool_name,
uint8_t crush_rule_num);
/**
* Create a pool with a specific CRUSH rule and auid
*
* DEPRECATED: auid support has been removed and this call will be removed
* in a future release.
*
* This is a combination of rados_pool_create_with_crush_rule() and
* rados_pool_create_with_auid().
*
* @param cluster the cluster in which the pool will be created
* @param pool_name the name of the new pool
* @param crush_rule_num which rule to use for placement in the new pool2
* @param auid the id of the owner of the new pool
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_pool_create_with_all(rados_t cluster,
const char *pool_name,
uint64_t auid,
uint8_t crush_rule_num)
__attribute__((deprecated));
/**
* Returns the pool that is the base tier for this pool.
*
* The return value is the ID of the pool that should be used to read from/write to.
* If tiering is not set up for the pool, returns \c pool.
*
* @param cluster the cluster the pool is in
* @param pool ID of the pool to query
* @param base_tier [out] base tier, or \c pool if tiering is not configured
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_pool_get_base_tier(rados_t cluster, int64_t pool,
int64_t* base_tier);
/**
* Delete a pool and all data inside it
*
* The pool is removed from the cluster immediately,
* but the actual data is deleted in the background.
*
* @param cluster the cluster the pool is in
* @param pool_name which pool to delete
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_pool_delete(rados_t cluster, const char *pool_name);
/**
* Attempt to change an io context's associated auid "owner"
*
* DEPRECATED: auid support has been removed and this call has no effect.
*
* Requires that you have write permission on both the current and new
* auid.
*
* @param io reference to the pool to change.
* @param auid the auid you wish the io to have.
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_ioctx_pool_set_auid(rados_ioctx_t io, uint64_t auid)
__attribute__((deprecated));
/**
* Get the auid of a pool
*
* DEPRECATED: auid support has been removed and this call always reports
* CEPH_AUTH_UID_DEFAULT (-1).
* @param io pool to query
* @param auid where to store the auid
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_ioctx_pool_get_auid(rados_ioctx_t io, uint64_t *auid)
__attribute__((deprecated));
/* deprecated, use rados_ioctx_pool_requires_alignment2 instead */
CEPH_RADOS_API int rados_ioctx_pool_requires_alignment(rados_ioctx_t io)
__attribute__((deprecated));
/**
* Test whether the specified pool requires alignment or not.
*
* @param io pool to query
* @param req 1 if alignment is supported, 0 if not.
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_ioctx_pool_requires_alignment2(rados_ioctx_t io,
int *req);
/* deprecated, use rados_ioctx_pool_required_alignment2 instead */
CEPH_RADOS_API uint64_t rados_ioctx_pool_required_alignment(rados_ioctx_t io)
__attribute__((deprecated));
/**
* Get the alignment flavor of a pool
*
* @param io pool to query
* @param alignment where to store the alignment flavor
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_ioctx_pool_required_alignment2(rados_ioctx_t io,
uint64_t *alignment);
/**
* Get the pool id of the io context
*
* @param io the io context to query
* @returns the id of the pool the io context uses
*/
CEPH_RADOS_API int64_t rados_ioctx_get_id(rados_ioctx_t io);
/**
* Get the pool name of the io context
*
* @param io the io context to query
* @param buf pointer to buffer where name will be stored
* @param maxlen size of buffer where name will be stored
* @returns length of string stored, or -ERANGE if buffer too small
*/
CEPH_RADOS_API int rados_ioctx_get_pool_name(rados_ioctx_t io, char *buf,
unsigned maxlen);
/** @} pools */
/**
* @name Object Locators
*
* @{
*/
/**
* Set the key for mapping objects to pgs within an io context.
*
* The key is used instead of the object name to determine which
* placement groups an object is put in. This affects all subsequent
* operations of the io context - until a different locator key is
* set, all objects in this io context will be placed in the same pg.
*
* @param io the io context to change
* @param key the key to use as the object locator, or NULL to discard
* any previously set key
*/
CEPH_RADOS_API void rados_ioctx_locator_set_key(rados_ioctx_t io,
const char *key);
/**
* Set the namespace for objects within an io context
*
* The namespace specification further refines a pool into different
* domains. The mapping of objects to pgs is also based on this
* value.
*
* @param io the io context to change
* @param nspace the name to use as the namespace, or NULL use the
* default namespace
*/
CEPH_RADOS_API void rados_ioctx_set_namespace(rados_ioctx_t io,
const char *nspace);
/**
* Get the namespace for objects within the io context
*
* @param io the io context to query
* @param buf pointer to buffer where name will be stored
* @param maxlen size of buffer where name will be stored
* @returns length of string stored, or -ERANGE if buffer too small
*/
CEPH_RADOS_API int rados_ioctx_get_namespace(rados_ioctx_t io, char *buf,
unsigned maxlen);
/** @} obj_loc */
/**
* @name Listing Objects
* @{
*/
/**
* Start listing objects in a pool
*
* @param io the pool to list from
* @param ctx the handle to store list context in
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_nobjects_list_open(rados_ioctx_t io,
rados_list_ctx_t *ctx);
/**
* Return hash position of iterator, rounded to the current PG
*
* @param ctx iterator marking where you are in the listing
* @returns current hash position, rounded to the current pg
*/
CEPH_RADOS_API uint32_t rados_nobjects_list_get_pg_hash_position(rados_list_ctx_t ctx);
/**
* Reposition object iterator to a different hash position
*
* @param ctx iterator marking where you are in the listing
* @param pos hash position to move to
* @returns actual (rounded) position we moved to
*/
CEPH_RADOS_API uint32_t rados_nobjects_list_seek(rados_list_ctx_t ctx,
uint32_t pos);
/**
* Reposition object iterator to a different position
*
* @param ctx iterator marking where you are in the listing
* @param cursor position to move to
* @returns rounded position we moved to
*/
CEPH_RADOS_API uint32_t rados_nobjects_list_seek_cursor(rados_list_ctx_t ctx,
rados_object_list_cursor cursor);
/**
* Reposition object iterator to a different position
*
* The returned handle must be released with rados_object_list_cursor_free().
*
* @param ctx iterator marking where you are in the listing
* @param cursor where to store cursor
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_nobjects_list_get_cursor(rados_list_ctx_t ctx,
rados_object_list_cursor *cursor);
/**
* Get the next object name and locator in the pool
*
* *entry and *key are valid until next call to rados_nobjects_list_*
*
* @param ctx iterator marking where you are in the listing
* @param entry where to store the name of the entry
* @param key where to store the object locator (set to NULL to ignore)
* @param nspace where to store the object namespace (set to NULL to ignore)
* @returns 0 on success, negative error code on failure
* @returns -ENOENT when there are no more objects to list
*/
CEPH_RADOS_API int rados_nobjects_list_next(rados_list_ctx_t ctx,
const char **entry,
const char **key,
const char **nspace);
/**
* Get the next object name, locator and their sizes in the pool
*
* The sizes allow to list objects with \0 (the NUL character)
* in .e.g *entry. Is is unusual see such object names but a bug
* in a client has risen the need to handle them as well.
* *entry and *key are valid until next call to rados_nobjects_list_*
*
* @param ctx iterator marking where you are in the listing
* @param entry where to store the name of the entry
* @param key where to store the object locator (set to NULL to ignore)
* @param nspace where to store the object namespace (set to NULL to ignore)
* @param entry_size where to store the size of name of the entry
* @param key_size where to store the size of object locator (set to NULL to ignore)
* @param nspace_size where to store the size of object namespace (set to NULL to ignore)
* @returns 0 on success, negative error code on failure
* @returns -ENOENT when there are no more objects to list
*/
CEPH_RADOS_API int rados_nobjects_list_next2(rados_list_ctx_t ctx,
const char **entry,
const char **key,
const char **nspace,
size_t *entry_size,
size_t *key_size,
size_t *nspace_size);
/**
* Close the object listing handle.
*
* This should be called when the handle is no longer needed.
* The handle should not be used after it has been closed.
*
* @param ctx the handle to close
*/
CEPH_RADOS_API void rados_nobjects_list_close(rados_list_ctx_t ctx);
/**
* Get cursor handle pointing to the *beginning* of a pool.
*
* This is an opaque handle pointing to the start of a pool. It must
* be released with rados_object_list_cursor_free().
*
* @param io ioctx for the pool
* @returns handle for the pool, NULL on error (pool does not exist)
*/
CEPH_RADOS_API rados_object_list_cursor rados_object_list_begin(
rados_ioctx_t io);
/**
* Get cursor handle pointing to the *end* of a pool.
*
* This is an opaque handle pointing to the start of a pool. It must
* be released with rados_object_list_cursor_free().
*
* @param io ioctx for the pool
* @returns handle for the pool, NULL on error (pool does not exist)
*/
CEPH_RADOS_API rados_object_list_cursor rados_object_list_end(rados_ioctx_t io);
/**
* Check if a cursor has reached the end of a pool
*
* @param io ioctx
* @param cur cursor
* @returns 1 if the cursor has reached the end of the pool, 0 otherwise
*/
CEPH_RADOS_API int rados_object_list_is_end(rados_ioctx_t io,
rados_object_list_cursor cur);
/**
* Release a cursor
*
* Release a cursor. The handle may not be used after this point.
*
* @param io ioctx
* @param cur cursor
*/
CEPH_RADOS_API void rados_object_list_cursor_free(rados_ioctx_t io,
rados_object_list_cursor cur);
/**
* Compare two cursor positions
*
* Compare two cursors, and indicate whether the first cursor precedes,
* matches, or follows the second.
*
* @param io ioctx
* @param lhs first cursor
* @param rhs second cursor
* @returns -1, 0, or 1 for lhs < rhs, lhs == rhs, or lhs > rhs
*/
CEPH_RADOS_API int rados_object_list_cursor_cmp(rados_ioctx_t io,
rados_object_list_cursor lhs, rados_object_list_cursor rhs);
/**
* @return the number of items set in the results array
*/
CEPH_RADOS_API int rados_object_list(rados_ioctx_t io,
const rados_object_list_cursor start,
const rados_object_list_cursor finish,
const size_t result_size,
const char *filter_buf,
const size_t filter_buf_len,
rados_object_list_item *results,
rados_object_list_cursor *next);
CEPH_RADOS_API void rados_object_list_free(
const size_t result_size,
rados_object_list_item *results);
/**
* Obtain cursors delineating a subset of a range. Use this
* when you want to split up the work of iterating over the
* global namespace. Expected use case is when you are iterating
* in parallel, with `m` workers, and each worker taking an id `n`.
*
* @param io ioctx
* @param start start of the range to be sliced up (inclusive)
* @param finish end of the range to be sliced up (exclusive)
* @param n which of the m chunks you would like to get cursors for
* @param m how many chunks to divide start-finish into
* @param split_start cursor populated with start of the subrange (inclusive)
* @param split_finish cursor populated with end of the subrange (exclusive)
*/
CEPH_RADOS_API void rados_object_list_slice(rados_ioctx_t io,
const rados_object_list_cursor start,
const rados_object_list_cursor finish,
const size_t n,
const size_t m,
rados_object_list_cursor *split_start,
rados_object_list_cursor *split_finish);
/** @} Listing Objects */
/**
* @name Snapshots
*
* RADOS snapshots are based upon sequence numbers that form a
* snapshot context. They are pool-specific. The snapshot context
* consists of the current snapshot sequence number for a pool, and an
* array of sequence numbers at which snapshots were taken, in
* descending order. Whenever a snapshot is created or deleted, the
* snapshot sequence number for the pool is increased. To add a new
* snapshot, the new snapshot sequence number must be increased and
* added to the snapshot context.
*
* There are two ways to manage these snapshot contexts:
* -# within the RADOS cluster
* These are called pool snapshots, and store the snapshot context
* in the OSDMap. These represent a snapshot of all the objects in
* a pool.
* -# within the RADOS clients
* These are called self-managed snapshots, and push the
* responsibility for keeping track of the snapshot context to the
* clients. For every write, the client must send the snapshot
* context. In librados, this is accomplished with
* rados_selfmanaged_snap_set_write_ctx(). These are more
* difficult to manage, but are restricted to specific objects
* instead of applying to an entire pool.
*
* @{
*/
/**
* Create a pool-wide snapshot
*
* @param io the pool to snapshot
* @param snapname the name of the snapshot
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_ioctx_snap_create(rados_ioctx_t io,
const char *snapname);
/**
* Delete a pool snapshot
*
* @param io the pool to delete the snapshot from
* @param snapname which snapshot to delete
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_ioctx_snap_remove(rados_ioctx_t io,
const char *snapname);
/**
* Rollback an object to a pool snapshot
*
* The contents of the object will be the same as
* when the snapshot was taken.
*
* @param io the pool in which the object is stored
* @param oid the name of the object to rollback
* @param snapname which snapshot to rollback to
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_ioctx_snap_rollback(rados_ioctx_t io, const char *oid,
const char *snapname);
/**
* @warning Deprecated: Use rados_ioctx_snap_rollback() instead
*/
CEPH_RADOS_API int rados_rollback(rados_ioctx_t io, const char *oid,
const char *snapname)
__attribute__((deprecated));
/**
* Set the snapshot from which reads are performed.
*
* Subsequent reads will return data as it was at the time of that
* snapshot.
*
* @param io the io context to change
* @param snap the id of the snapshot to set, or LIBRADOS_SNAP_HEAD for no
* snapshot (i.e. normal operation)
*/
CEPH_RADOS_API void rados_ioctx_snap_set_read(rados_ioctx_t io,
rados_snap_t snap);
/**
* Allocate an ID for a self-managed snapshot
*
* Get a unique ID to put in the snaphot context to create a
* snapshot. A clone of an object is not created until a write with
* the new snapshot context is completed.
*
* @param io the pool in which the snapshot will exist
* @param snapid where to store the newly allocated snapshot ID
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_ioctx_selfmanaged_snap_create(rados_ioctx_t io,
rados_snap_t *snapid);
CEPH_RADOS_API void
rados_aio_ioctx_selfmanaged_snap_create(rados_ioctx_t io,
rados_snap_t *snapid,
rados_completion_t completion);
/**
* Remove a self-managed snapshot
*
* This increases the snapshot sequence number, which will cause
* snapshots to be removed lazily.
*
* @param io the pool in which the snapshot will exist
* @param snapid where to store the newly allocated snapshot ID
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_ioctx_selfmanaged_snap_remove(rados_ioctx_t io,
rados_snap_t snapid);
CEPH_RADOS_API void
rados_aio_ioctx_selfmanaged_snap_remove(rados_ioctx_t io,
rados_snap_t snapid,
rados_completion_t completion);
/**
* Rollback an object to a self-managed snapshot
*
* The contents of the object will be the same as
* when the snapshot was taken.
*
* @param io the pool in which the object is stored
* @param oid the name of the object to rollback
* @param snapid which snapshot to rollback to
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_ioctx_selfmanaged_snap_rollback(rados_ioctx_t io,
const char *oid,
rados_snap_t snapid);
/**
* Set the snapshot context for use when writing to objects
*
* This is stored in the io context, and applies to all future writes.
*
* @param io the io context to change
* @param seq the newest snapshot sequence number for the pool
* @param snaps array of snapshots in sorted by descending id
* @param num_snaps how many snaphosts are in the snaps array
* @returns 0 on success, negative error code on failure
* @returns -EINVAL if snaps are not in descending order
*/
CEPH_RADOS_API int rados_ioctx_selfmanaged_snap_set_write_ctx(rados_ioctx_t io,
rados_snap_t seq,
rados_snap_t *snaps,
int num_snaps);
/**
* List all the ids of pool snapshots
*
* If the output array does not have enough space to fit all the
* snapshots, -ERANGE is returned and the caller should retry with a
* larger array.
*
* @param io the pool to read from
* @param snaps where to store the results
* @param maxlen the number of rados_snap_t that fit in the snaps array
* @returns number of snapshots on success, negative error code on failure
* @returns -ERANGE is returned if the snaps array is too short
*/
CEPH_RADOS_API int rados_ioctx_snap_list(rados_ioctx_t io, rados_snap_t *snaps,
int maxlen);
/**
* Get the id of a pool snapshot
*
* @param io the pool to read from
* @param name the snapshot to find
* @param id where to store the result
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_ioctx_snap_lookup(rados_ioctx_t io, const char *name,
rados_snap_t *id);
/**
* Get the name of a pool snapshot
*
* @param io the pool to read from
* @param id the snapshot to find
* @param name where to store the result
* @param maxlen the size of the name array
* @returns 0 on success, negative error code on failure
* @returns -ERANGE if the name array is too small
*/
CEPH_RADOS_API int rados_ioctx_snap_get_name(rados_ioctx_t io, rados_snap_t id,
char *name, int maxlen);
/**
* Find when a pool snapshot occurred
*
* @param io the pool the snapshot was taken in
* @param id the snapshot to lookup
* @param t where to store the result
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_ioctx_snap_get_stamp(rados_ioctx_t io, rados_snap_t id,
time_t *t);
/** @} Snapshots */
/**
* @name Synchronous I/O
* Writes are replicated to a number of OSDs based on the
* configuration of the pool they are in. These write functions block
* until data is in memory on all replicas of the object they're
* writing to - they are equivalent to doing the corresponding
* asynchronous write, and the calling
* rados_ioctx_wait_for_complete(). For greater data safety, use the
* asynchronous functions and rados_aio_wait_for_safe().
*
* @{
*/
/**
* Return the version of the last object read or written to.
*
* This exposes the internal version number of the last object read or
* written via this io context
*
* @param io the io context to check
* @returns last read or written object version
*/
CEPH_RADOS_API uint64_t rados_get_last_version(rados_ioctx_t io);
/**
* Write *len* bytes from *buf* into the *oid* object, starting at
* offset *off*. The value of *len* must be <= UINT_MAX/2.
*
* @note This will never return a positive value not equal to len.
* @param io the io context in which the write will occur
* @param oid name of the object
* @param buf data to write
* @param len length of the data, in bytes
* @param off byte offset in the object to begin writing at
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_write(rados_ioctx_t io, const char *oid,
const char *buf, size_t len, uint64_t off);
/**
* Write *len* bytes from *buf* into the *oid* object. The value of
* *len* must be <= UINT_MAX/2.
*
* The object is filled with the provided data. If the object exists,
* it is atomically truncated and then written.
*
* @param io the io context in which the write will occur
* @param oid name of the object
* @param buf data to write
* @param len length of the data, in bytes
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_write_full(rados_ioctx_t io, const char *oid,
const char *buf, size_t len);
/**
* Write the same *data_len* bytes from *buf* multiple times into the
* *oid* object. *write_len* bytes are written in total, which must be
* a multiple of *data_len*. The value of *write_len* and *data_len*
* must be <= UINT_MAX/2.
*
* @param io the io context in which the write will occur
* @param oid name of the object
* @param buf data to write
* @param data_len length of the data, in bytes
* @param write_len the total number of bytes to write
* @param off byte offset in the object to begin writing at
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_writesame(rados_ioctx_t io, const char *oid,
const char *buf, size_t data_len,
size_t write_len, uint64_t off);
/**
* Append *len* bytes from *buf* into the *oid* object. The value of
* *len* must be <= UINT_MAX/2.
*
* @param io the context to operate in
* @param oid the name of the object
* @param buf the data to append
* @param len length of buf (in bytes)
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_append(rados_ioctx_t io, const char *oid,
const char *buf, size_t len);
/**
* Read data from an object
*
* The io context determines the snapshot to read from, if any was set
* by rados_ioctx_snap_set_read().
*
* @param io the context in which to perform the read
* @param oid the name of the object to read from
* @param buf where to store the results
* @param len the number of bytes to read
* @param off the offset to start reading from in the object
* @returns number of bytes read on success, negative error code on
* failure
*/
CEPH_RADOS_API int rados_read(rados_ioctx_t io, const char *oid, char *buf,
size_t len, uint64_t off);
/**
* Compute checksum from object data
*
* The io context determines the snapshot to checksum, if any was set
* by rados_ioctx_snap_set_read(). The length of the init_value and
* resulting checksum are dependent upon the checksum type:
*
* XXHASH64: le64
* XXHASH32: le32
* CRC32C: le32
*
* The checksum result is encoded the following manner:
*
* le32 num_checksum_chunks
* {
* leXX checksum for chunk (where XX = appropriate size for the checksum type)
* } * num_checksum_chunks
*
* @param io the context in which to perform the checksum
* @param oid the name of the object to checksum
* @param type the checksum algorithm to utilize
* @param init_value the init value for the algorithm
* @param init_value_len the length of the init value
* @param len the number of bytes to checksum
* @param off the offset to start checksumming in the object
* @param chunk_size optional length-aligned chunk size for checksums
* @param pchecksum where to store the checksum result
* @param checksum_len the number of bytes available for the result
* @return negative error code on failure
*/
CEPH_RADOS_API int rados_checksum(rados_ioctx_t io, const char *oid,
rados_checksum_type_t type,
const char *init_value, size_t init_value_len,
size_t len, uint64_t off, size_t chunk_size,
char *pchecksum, size_t checksum_len);
/**
* Delete an object
*
* @note This does not delete any snapshots of the object.
*
* @param io the pool to delete the object from
* @param oid the name of the object to delete
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_remove(rados_ioctx_t io, const char *oid);
/**
* Resize an object
*
* If this enlarges the object, the new area is logically filled with
* zeroes. If this shrinks the object, the excess data is removed.
*
* @param io the context in which to truncate
* @param oid the name of the object
* @param size the new size of the object in bytes
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_trunc(rados_ioctx_t io, const char *oid,
uint64_t size);
/**
* Compare an on-disk object range with a buffer
*
* @param io the context in which to perform the comparison
* @param o name of the object
* @param cmp_buf buffer containing bytes to be compared with object contents
* @param cmp_len length to compare and size of @c cmp_buf in bytes
* @param off object byte offset at which to start the comparison
* @returns 0 on success, negative error code on failure,
* (-MAX_ERRNO - mismatch_off) on mismatch
*/
CEPH_RADOS_API int rados_cmpext(rados_ioctx_t io, const char *o,
const char *cmp_buf, size_t cmp_len,
uint64_t off);
/**
* @name Xattrs
* Extended attributes are stored as extended attributes on the files
* representing an object on the OSDs. Thus, they have the same
* limitations as the underlying filesystem. On ext4, this means that
* the total data stored in xattrs cannot exceed 4KB.
*
* @{
*/
/**
* Get the value of an extended attribute on an object.
*
* @param io the context in which the attribute is read
* @param o name of the object
* @param name which extended attribute to read
* @param buf where to store the result
* @param len size of buf in bytes
* @returns length of xattr value on success, negative error code on failure
*/
CEPH_RADOS_API int rados_getxattr(rados_ioctx_t io, const char *o,
const char *name, char *buf, size_t len);
/**
* Set an extended attribute on an object.
*
* @param io the context in which xattr is set
* @param o name of the object
* @param name which extended attribute to set
* @param buf what to store in the xattr
* @param len the number of bytes in buf
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_setxattr(rados_ioctx_t io, const char *o,
const char *name, const char *buf,
size_t len);
/**
* Delete an extended attribute from an object.
*
* @param io the context in which to delete the xattr
* @param o the name of the object
* @param name which xattr to delete
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_rmxattr(rados_ioctx_t io, const char *o,
const char *name);
/**
* Start iterating over xattrs on an object.
*
* @post iter is a valid iterator
*
* @param io the context in which to list xattrs
* @param oid name of the object
* @param iter where to store the iterator
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_getxattrs(rados_ioctx_t io, const char *oid,
rados_xattrs_iter_t *iter);
/**
* Get the next xattr on the object
*
* @pre iter is a valid iterator
*
* @post name is the NULL-terminated name of the next xattr, and val
* contains the value of the xattr, which is of length len. If the end
* of the list has been reached, name and val are NULL, and len is 0.
*
* @param iter iterator to advance
* @param name where to store the name of the next xattr
* @param val where to store the value of the next xattr
* @param len the number of bytes in val
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_getxattrs_next(rados_xattrs_iter_t iter,
const char **name, const char **val,
size_t *len);
/**
* Close the xattr iterator.
*
* iter should not be used after this is called.
*
* @param iter the iterator to close
*/
CEPH_RADOS_API void rados_getxattrs_end(rados_xattrs_iter_t iter);
/** @} Xattrs */
/**
* Get the next omap key/value pair on the object
*
* @pre iter is a valid iterator
*
* @post key and val are the next key/value pair. key is
* null-terminated, and val has length len. If the end of the list has
* been reached, key and val are NULL, and len is 0. key and val will
* not be accessible after rados_omap_get_end() is called on iter, so
* if they are needed after that they should be copied.
*
* @param iter iterator to advance
* @param key where to store the key of the next omap entry
* @param val where to store the value of the next omap entry
* @param len where to store the number of bytes in val
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_omap_get_next(rados_omap_iter_t iter,
char **key,
char **val,
size_t *len);
/**
* Get the next omap key/value pair on the object. Note that it's
* perfectly safe to mix calls to rados_omap_get_next and
* rados_omap_get_next2.
*
* @pre iter is a valid iterator
*
* @post key and val are the next key/value pair. key has length
* keylen and val has length vallen. If the end of the list has
* been reached, key and val are NULL, and keylen and vallen is 0.
* key and val will not be accessible after rados_omap_get_end()
* is called on iter, so if they are needed after that they
* should be copied.
*
* @param iter iterator to advance
* @param key where to store the key of the next omap entry
* @param val where to store the value of the next omap entry
* @param key_len where to store the number of bytes in key
* @param val_len where to store the number of bytes in val
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_omap_get_next2(rados_omap_iter_t iter,
char **key,
char **val,
size_t *key_len,
size_t *val_len);
/**
* Return number of elements in the iterator
*
* @param iter the iterator of which to return the size
*/
CEPH_RADOS_API unsigned int rados_omap_iter_size(rados_omap_iter_t iter);
/**
* Close the omap iterator.
*
* iter should not be used after this is called.
*
* @param iter the iterator to close
*/
CEPH_RADOS_API void rados_omap_get_end(rados_omap_iter_t iter);
/**
* Get object size and most recent update time from the OSD.
*
* @param io ioctx
* @param o object name
* @param psize where to store object size
* @param pmtime where to store modification time
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_stat(rados_ioctx_t io, const char *o, uint64_t *psize,
time_t *pmtime);
CEPH_RADOS_API int rados_stat2(rados_ioctx_t io, const char *o, uint64_t *psize,
struct timespec *pmtime);
/**
* Execute an OSD class method on an object
*
* The OSD has a plugin mechanism for performing complicated
* operations on an object atomically. These plugins are called
* classes. This function allows librados users to call the custom
* methods. The input and output formats are defined by the class.
* Classes in ceph.git can be found in src/cls subdirectories
*
* @param io the context in which to call the method
* @param oid the object to call the method on
* @param cls the name of the class
* @param method the name of the method
* @param in_buf where to find input
* @param in_len length of in_buf in bytes
* @param buf where to store output
* @param out_len length of buf in bytes
* @returns the length of the output, or
* -ERANGE if out_buf does not have enough space to store it (For methods that return data). For
* methods that don't return data, the return value is
* method-specific.
*/
CEPH_RADOS_API int rados_exec(rados_ioctx_t io, const char *oid,
const char *cls, const char *method,
const char *in_buf, size_t in_len, char *buf,
size_t out_len);
/** @} Synchronous I/O */
/**
* @name Asynchronous I/O
* Read and write to objects without blocking.
*
* @{
*/
/**
* @typedef rados_callback_t
* Callbacks for asynchrous operations take two parameters:
* - cb the completion that has finished
* - arg application defined data made available to the callback function
*/
typedef void (*rados_callback_t)(rados_completion_t cb, void *arg);
/**
* Constructs a completion to use with asynchronous operations
*
* The complete and safe callbacks correspond to operations being
* acked and committed, respectively. The callbacks are called in
* order of receipt, so the safe callback may be triggered before the
* complete callback, and vice versa. This is affected by journalling
* on the OSDs.
*
* TODO: more complete documentation of this elsewhere (in the RADOS docs?)
*
* @note Read operations only get a complete callback.
* @note BUG: this should check for ENOMEM instead of throwing an exception
*
* @param cb_arg application-defined data passed to the callback functions
* @param cb_complete the function to be called when the operation is
* in memory on all replicas
* @param cb_safe the function to be called when the operation is on
* stable storage on all replicas
* @param pc where to store the completion
* @returns 0
*/
CEPH_RADOS_API int rados_aio_create_completion(void *cb_arg,
rados_callback_t cb_complete,
rados_callback_t cb_safe,
rados_completion_t *pc);
/**
* Constructs a completion to use with asynchronous operations
*
* The complete callback corresponds to operation being acked.
*
* @note BUG: this should check for ENOMEM instead of throwing an exception
*
* @param cb_arg application-defined data passed to the callback functions
* @param cb_complete the function to be called when the operation is committed
* on all replicas
* @param pc where to store the completion
* @returns 0
*/
CEPH_RADOS_API int rados_aio_create_completion2(void *cb_arg,
rados_callback_t cb_complete,
rados_completion_t *pc);
/**
* Block until an operation completes
*
* This means it is in memory on all replicas.
*
* @note BUG: this should be void
*
* @param c operation to wait for
* @returns 0
*/
CEPH_RADOS_API int rados_aio_wait_for_complete(rados_completion_t c);
/**
* Block until an operation is safe
*
* This means it is on stable storage on all replicas.
*
* @note BUG: this should be void
*
* @param c operation to wait for
* @returns 0
*/
CEPH_RADOS_API int rados_aio_wait_for_safe(rados_completion_t c)
__attribute__((deprecated));
/**
* Has an asynchronous operation completed?
*
* @warning This does not imply that the complete callback has
* finished
*
* @param c async operation to inspect
* @returns whether c is complete
*/
CEPH_RADOS_API int rados_aio_is_complete(rados_completion_t c);
/**
* Is an asynchronous operation safe?
*
* @warning This does not imply that the safe callback has
* finished
*
* @param c async operation to inspect
* @returns whether c is safe
*/
CEPH_RADOS_API int rados_aio_is_safe(rados_completion_t c);
/**
* Block until an operation completes and callback completes
*
* This means it is in memory on all replicas and can be read.
*
* @note BUG: this should be void
*
* @param c operation to wait for
* @returns 0
*/
CEPH_RADOS_API int rados_aio_wait_for_complete_and_cb(rados_completion_t c);
/**
* Block until an operation is safe and callback has completed
*
* This means it is on stable storage on all replicas.
*
* @note BUG: this should be void
*
* @param c operation to wait for
* @returns 0
*/
CEPH_RADOS_API int rados_aio_wait_for_safe_and_cb(rados_completion_t c)
__attribute__((deprecated));
/**
* Has an asynchronous operation and callback completed
*
* @param c async operation to inspect
* @returns whether c is complete
*/
CEPH_RADOS_API int rados_aio_is_complete_and_cb(rados_completion_t c);
/**
* Is an asynchronous operation safe and has the callback completed
*
* @param c async operation to inspect
* @returns whether c is safe
*/
CEPH_RADOS_API int rados_aio_is_safe_and_cb(rados_completion_t c);
/**
* Get the return value of an asychronous operation
*
* The return value is set when the operation is complete or safe,
* whichever comes first.
*
* @pre The operation is safe or complete
*
* @note BUG: complete callback may never be called when the safe
* message is received before the complete message
*
* @param c async operation to inspect
* @returns return value of the operation
*/
CEPH_RADOS_API int rados_aio_get_return_value(rados_completion_t c);
/**
* Get the internal object version of the target of an asychronous operation
*
* The return value is set when the operation is complete or safe,
* whichever comes first.
*
* @pre The operation is safe or complete
*
* @note BUG: complete callback may never be called when the safe
* message is received before the complete message
*
* @param c async operation to inspect
* @returns version number of the asychronous operation's target
*/
CEPH_RADOS_API uint64_t rados_aio_get_version(rados_completion_t c);
/**
* Release a completion
*
* Call this when you no longer need the completion. It may not be
* freed immediately if the operation is not acked and committed.
*
* @param c completion to release
*/
CEPH_RADOS_API void rados_aio_release(rados_completion_t c);
/**
* Write data to an object asynchronously
*
* Queues the write and returns. The return value of the completion
* will be 0 on success, negative error code on failure.
*
* @param io the context in which the write will occur
* @param oid name of the object
* @param completion what to do when the write is safe and complete
* @param buf data to write
* @param len length of the data, in bytes
* @param off byte offset in the object to begin writing at
* @returns 0 on success, -EROFS if the io context specifies a snap_seq
* other than LIBRADOS_SNAP_HEAD
*/
CEPH_RADOS_API int rados_aio_write(rados_ioctx_t io, const char *oid,
rados_completion_t completion,
const char *buf, size_t len, uint64_t off);
/**
* Asynchronously append data to an object
*
* Queues the append and returns.
*
* The return value of the completion will be 0 on success, negative
* error code on failure.
*
* @param io the context to operate in
* @param oid the name of the object
* @param completion what to do when the append is safe and complete
* @param buf the data to append
* @param len length of buf (in bytes)
* @returns 0 on success, -EROFS if the io context specifies a snap_seq
* other than LIBRADOS_SNAP_HEAD
*/
CEPH_RADOS_API int rados_aio_append(rados_ioctx_t io, const char *oid,
rados_completion_t completion,
const char *buf, size_t len);
/**
* Asynchronously write an entire object
*
* The object is filled with the provided data. If the object exists,
* it is atomically truncated and then written.
* Queues the write_full and returns.
*
* The return value of the completion will be 0 on success, negative
* error code on failure.
*
* @param io the io context in which the write will occur
* @param oid name of the object
* @param completion what to do when the write_full is safe and complete
* @param buf data to write
* @param len length of the data, in bytes
* @returns 0 on success, -EROFS if the io context specifies a snap_seq
* other than LIBRADOS_SNAP_HEAD
*/
CEPH_RADOS_API int rados_aio_write_full(rados_ioctx_t io, const char *oid,
rados_completion_t completion,
const char *buf, size_t len);
/**
* Asynchronously write the same buffer multiple times
*
* Queues the writesame and returns.
*
* The return value of the completion will be 0 on success, negative
* error code on failure.
*
* @param io the io context in which the write will occur
* @param oid name of the object
* @param completion what to do when the writesame is safe and complete
* @param buf data to write
* @param data_len length of the data, in bytes
* @param write_len the total number of bytes to write
* @param off byte offset in the object to begin writing at
* @returns 0 on success, -EROFS if the io context specifies a snap_seq
* other than LIBRADOS_SNAP_HEAD
*/
CEPH_RADOS_API int rados_aio_writesame(rados_ioctx_t io, const char *oid,
rados_completion_t completion,
const char *buf, size_t data_len,
size_t write_len, uint64_t off);
/**
* Asynchronously remove an object
*
* Queues the remove and returns.
*
* The return value of the completion will be 0 on success, negative
* error code on failure.
*
* @param io the context to operate in
* @param oid the name of the object
* @param completion what to do when the remove is safe and complete
* @returns 0 on success, -EROFS if the io context specifies a snap_seq
* other than LIBRADOS_SNAP_HEAD
*/
CEPH_RADOS_API int rados_aio_remove(rados_ioctx_t io, const char *oid,
rados_completion_t completion);
/**
* Asynchronously read data from an object
*
* The io context determines the snapshot to read from, if any was set
* by rados_ioctx_snap_set_read().
*
* The return value of the completion will be number of bytes read on
* success, negative error code on failure.
*
* @note only the 'complete' callback of the completion will be called.
*
* @param io the context in which to perform the read
* @param oid the name of the object to read from
* @param completion what to do when the read is complete
* @param buf where to store the results
* @param len the number of bytes to read
* @param off the offset to start reading from in the object
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_aio_read(rados_ioctx_t io, const char *oid,
rados_completion_t completion,
char *buf, size_t len, uint64_t off);
/**
* Block until all pending writes in an io context are safe
*
* This is not equivalent to calling rados_aio_wait_for_safe() on all
* write completions, since this waits for the associated callbacks to
* complete as well.
*
* @note BUG: always returns 0, should be void or accept a timeout
*
* @param io the context to flush
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_aio_flush(rados_ioctx_t io);
/**
* Schedule a callback for when all currently pending
* aio writes are safe. This is a non-blocking version of
* rados_aio_flush().
*
* @param io the context to flush
* @param completion what to do when the writes are safe
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_aio_flush_async(rados_ioctx_t io,
rados_completion_t completion);
/**
* Asynchronously get object stats (size/mtime)
*
* @param io ioctx
* @param o object name
* @param completion what to do when the stat is complete
* @param psize where to store object size
* @param pmtime where to store modification time
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_aio_stat(rados_ioctx_t io, const char *o,
rados_completion_t completion,
uint64_t *psize, time_t *pmtime);
CEPH_RADOS_API int rados_aio_stat2(rados_ioctx_t io, const char *o,
rados_completion_t completion,
uint64_t *psize, struct timespec *pmtime);
/**
* Asynchronously compare an on-disk object range with a buffer
*
* @param io the context in which to perform the comparison
* @param o the name of the object to compare with
* @param completion what to do when the comparison is complete
* @param cmp_buf buffer containing bytes to be compared with object contents
* @param cmp_len length to compare and size of @c cmp_buf in bytes
* @param off object byte offset at which to start the comparison
* @returns 0 on success, negative error code on failure,
* (-MAX_ERRNO - mismatch_off) on mismatch
*/
CEPH_RADOS_API int rados_aio_cmpext(rados_ioctx_t io, const char *o,
rados_completion_t completion,
const char *cmp_buf,
size_t cmp_len,
uint64_t off);
/**
* Cancel async operation
*
* @param io ioctx
* @param completion completion handle
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_aio_cancel(rados_ioctx_t io,
rados_completion_t completion);
/**
* Asynchronously execute an OSD class method on an object
*
* The OSD has a plugin mechanism for performing complicated
* operations on an object atomically. These plugins are called
* classes. This function allows librados users to call the custom
* methods. The input and output formats are defined by the class.
* Classes in ceph.git can be found in src/cls subdirectories
*
* @param io the context in which to call the method
* @param o name of the object
* @param completion what to do when the exec completes
* @param cls the name of the class
* @param method the name of the method
* @param in_buf where to find input
* @param in_len length of in_buf in bytes
* @param buf where to store output
* @param out_len length of buf in bytes
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_aio_exec(rados_ioctx_t io, const char *o,
rados_completion_t completion,
const char *cls, const char *method,
const char *in_buf, size_t in_len,
char *buf, size_t out_len);
/** @} Asynchronous I/O */
/**
* @name Asynchronous Xattrs
* Extended attributes are stored as extended attributes on the files
* representing an object on the OSDs. Thus, they have the same
* limitations as the underlying filesystem. On ext4, this means that
* the total data stored in xattrs cannot exceed 4KB.
*
* @{
*/
/**
* Asynchronously get the value of an extended attribute on an object.
*
* @param io the context in which the attribute is read
* @param o name of the object
* @param completion what to do when the getxattr completes
* @param name which extended attribute to read
* @param buf where to store the result
* @param len size of buf in bytes
* @returns length of xattr value on success, negative error code on failure
*/
CEPH_RADOS_API int rados_aio_getxattr(rados_ioctx_t io, const char *o,
rados_completion_t completion,
const char *name, char *buf, size_t len);
/**
* Asynchronously set an extended attribute on an object.
*
* @param io the context in which xattr is set
* @param o name of the object
* @param completion what to do when the setxattr completes
* @param name which extended attribute to set
* @param buf what to store in the xattr
* @param len the number of bytes in buf
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_aio_setxattr(rados_ioctx_t io, const char *o,
rados_completion_t completion,
const char *name, const char *buf,
size_t len);
/**
* Asynchronously delete an extended attribute from an object.
*
* @param io the context in which to delete the xattr
* @param o the name of the object
* @param completion what to do when the rmxattr completes
* @param name which xattr to delete
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_aio_rmxattr(rados_ioctx_t io, const char *o,
rados_completion_t completion,
const char *name);
/**
* Asynchronously start iterating over xattrs on an object.
*
* @post iter is a valid iterator
*
* @param io the context in which to list xattrs
* @param oid name of the object
* @param completion what to do when the getxattrs completes
* @param iter where to store the iterator
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_aio_getxattrs(rados_ioctx_t io, const char *oid,
rados_completion_t completion,
rados_xattrs_iter_t *iter);
/** @} Asynchronous Xattrs */
/**
* @name Watch/Notify
*
* Watch/notify is a protocol to help communicate among clients. It
* can be used to sychronize client state. All that's needed is a
* well-known object name (for example, rbd uses the header object of
* an image).
*
* Watchers register an interest in an object, and receive all
* notifies on that object. A notify attempts to communicate with all
* clients watching an object, and blocks on the notifier until each
* client responds or a timeout is reached.
*
* See rados_watch() and rados_notify() for more details.
*
* @{
*/
/**
* @typedef rados_watchcb_t
*
* Callback activated when a notify is received on a watched
* object.
*
* @param opcode undefined
* @param ver version of the watched object
* @param arg application-specific data
*
* @note BUG: opcode is an internal detail that shouldn't be exposed
* @note BUG: ver is unused
*/
typedef void (*rados_watchcb_t)(uint8_t opcode, uint64_t ver, void *arg);
/**
* @typedef rados_watchcb2_t
*
* Callback activated when a notify is received on a watched
* object.
*
* @param arg opaque user-defined value provided to rados_watch2()
* @param notify_id an id for this notify event
* @param handle the watcher handle we are notifying
* @param notifier_id the unique client id for the notifier
* @param data payload from the notifier
* @param data_len length of payload buffer
*/
typedef void (*rados_watchcb2_t)(void *arg,
uint64_t notify_id,
uint64_t handle,
uint64_t notifier_id,
void *data,
size_t data_len);
/**
* @typedef rados_watcherrcb_t
*
* Callback activated when we encounter an error with the watch session.
* This can happen when the location of the objects moves within the
* cluster and we fail to register our watch with the new object location,
* or when our connection with the object OSD is otherwise interrupted and
* we may have missed notify events.
*
* @param pre opaque user-defined value provided to rados_watch2()
* @param cookie the internal id assigned to the watch session
* @param err error code
*/
typedef void (*rados_watcherrcb_t)(void *pre, uint64_t cookie, int err);
/**
* Register an interest in an object
*
* A watch operation registers the client as being interested in
* notifications on an object. OSDs keep track of watches on
* persistent storage, so they are preserved across cluster changes by
* the normal recovery process. If the client loses its connection to
* the primary OSD for a watched object, the watch will be removed
* after 30 seconds. Watches are automatically reestablished when a new
* connection is made, or a placement group switches OSDs.
*
* @note BUG: librados should provide a way for watchers to notice connection resets
* @note BUG: the ver parameter does not work, and -ERANGE will never be returned
* (See URL tracker.ceph.com/issues/2592)
*
* @param io the pool the object is in
* @param o the object to watch
* @param ver expected version of the object
* @param cookie where to store the internal id assigned to this watch
* @param watchcb what to do when a notify is received on this object
* @param arg application defined data to pass when watchcb is called
* @returns 0 on success, negative error code on failure
* @returns -ERANGE if the version of the object is greater than ver
*/
CEPH_RADOS_API int rados_watch(rados_ioctx_t io, const char *o, uint64_t ver,
uint64_t *cookie,
rados_watchcb_t watchcb, void *arg)
__attribute__((deprecated));
/**
* Register an interest in an object
*
* A watch operation registers the client as being interested in
* notifications on an object. OSDs keep track of watches on
* persistent storage, so they are preserved across cluster changes by
* the normal recovery process. If the client loses its connection to the
* primary OSD for a watched object, the watch will be removed after
* a timeout configured with osd_client_watch_timeout.
* Watches are automatically reestablished when a new
* connection is made, or a placement group switches OSDs.
*
* @param io the pool the object is in
* @param o the object to watch
* @param cookie where to store the internal id assigned to this watch
* @param watchcb what to do when a notify is received on this object
* @param watcherrcb what to do when the watch session encounters an error
* @param arg opaque value to pass to the callback
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_watch2(rados_ioctx_t io, const char *o, uint64_t *cookie,
rados_watchcb2_t watchcb,
rados_watcherrcb_t watcherrcb,
void *arg);
/**
* Register an interest in an object
*
* A watch operation registers the client as being interested in
* notifications on an object. OSDs keep track of watches on
* persistent storage, so they are preserved across cluster changes by
* the normal recovery process. Watches are automatically reestablished when a new
* connection is made, or a placement group switches OSDs.
*
* @param io the pool the object is in
* @param o the object to watch
* @param cookie where to store the internal id assigned to this watch
* @param watchcb what to do when a notify is received on this object
* @param watcherrcb what to do when the watch session encounters an error
* @param timeout how many seconds the connection will keep after disconnection
* @param arg opaque value to pass to the callback
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_watch3(rados_ioctx_t io, const char *o, uint64_t *cookie,
rados_watchcb2_t watchcb,
rados_watcherrcb_t watcherrcb,
uint32_t timeout,
void *arg);
/**
* Asynchronous register an interest in an object
*
* A watch operation registers the client as being interested in
* notifications on an object. OSDs keep track of watches on
* persistent storage, so they are preserved across cluster changes by
* the normal recovery process. If the client loses its connection to
* the primary OSD for a watched object, the watch will be removed
* after 30 seconds. Watches are automatically reestablished when a new
* connection is made, or a placement group switches OSDs.
*
* @param io the pool the object is in
* @param o the object to watch
* @param completion what to do when operation has been attempted
* @param handle where to store the internal id assigned to this watch
* @param watchcb what to do when a notify is received on this object
* @param watcherrcb what to do when the watch session encounters an error
* @param arg opaque value to pass to the callback
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_aio_watch(rados_ioctx_t io, const char *o,
rados_completion_t completion, uint64_t *handle,
rados_watchcb2_t watchcb,
rados_watcherrcb_t watcherrcb,
void *arg);
/**
* Asynchronous register an interest in an object
*
* A watch operation registers the client as being interested in
* notifications on an object. OSDs keep track of watches on
* persistent storage, so they are preserved across cluster changes by
* the normal recovery process. If the client loses its connection to
* the primary OSD for a watched object, the watch will be removed
* after the number of seconds that configured in timeout parameter.
* Watches are automatically reestablished when a new
* connection is made, or a placement group switches OSDs.
*
* @param io the pool the object is in
* @param o the object to watch
* @param completion what to do when operation has been attempted
* @param handle where to store the internal id assigned to this watch
* @param watchcb what to do when a notify is received on this object
* @param watcherrcb what to do when the watch session encounters an error
* @param timeout how many seconds the connection will keep after disconnection
* @param arg opaque value to pass to the callback
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_aio_watch2(rados_ioctx_t io, const char *o,
rados_completion_t completion, uint64_t *handle,
rados_watchcb2_t watchcb,
rados_watcherrcb_t watcherrcb,
uint32_t timeout,
void *arg);
/**
* Check on the status of a watch
*
* Return the number of milliseconds since the watch was last confirmed.
* Or, if there has been an error, return that.
*
* If there is an error, the watch is no longer valid, and should be
* destroyed with rados_unwatch2(). The the user is still interested
* in the object, a new watch should be created with rados_watch2().
*
* @param io the pool the object is in
* @param cookie the watch handle
* @returns ms since last confirmed on success, negative error code on failure
*/
CEPH_RADOS_API int rados_watch_check(rados_ioctx_t io, uint64_t cookie);
/**
* Unregister an interest in an object
*
* Once this completes, no more notifies will be sent to us for this
* watch. This should be called to clean up unneeded watchers.
*
* @param io the pool the object is in
* @param o the name of the watched object (ignored)
* @param cookie which watch to unregister
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_unwatch(rados_ioctx_t io, const char *o, uint64_t cookie)
__attribute__((deprecated));
/**
* Unregister an interest in an object
*
* Once this completes, no more notifies will be sent to us for this
* watch. This should be called to clean up unneeded watchers.
*
* @param io the pool the object is in
* @param cookie which watch to unregister
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_unwatch2(rados_ioctx_t io, uint64_t cookie);
/**
* Asynchronous unregister an interest in an object
*
* Once this completes, no more notifies will be sent to us for this
* watch. This should be called to clean up unneeded watchers.
*
* @param io the pool the object is in
* @param completion what to do when operation has been attempted
* @param cookie which watch to unregister
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_aio_unwatch(rados_ioctx_t io, uint64_t cookie,
rados_completion_t completion);
/**
* Sychronously notify watchers of an object
*
* This blocks until all watchers of the object have received and
* reacted to the notify, or a timeout is reached.
*
* @note BUG: the timeout is not changeable via the C API
* @note BUG: the bufferlist is inaccessible in a rados_watchcb_t
*
* @param io the pool the object is in
* @param o the name of the object
* @param ver obsolete - just pass zero
* @param buf data to send to watchers
* @param buf_len length of buf in bytes
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_notify(rados_ioctx_t io, const char *o, uint64_t ver,
const char *buf, int buf_len)
__attribute__((deprecated));
/**
* Sychronously notify watchers of an object
*
* This blocks until all watchers of the object have received and
* reacted to the notify, or a timeout is reached.
*
* The reply buffer is optional. If specified, the client will get
* back an encoded buffer that includes the ids of the clients that
* acknowledged the notify as well as their notify ack payloads (if
* any). Clients that timed out are not included. Even clients that
* do not include a notify ack payload are included in the list but
* have a 0-length payload associated with them. The format:
*
* le32 num_acks
* {
* le64 gid global id for the client (for client.1234 that's 1234)
* le64 cookie cookie for the client
* le32 buflen length of reply message buffer
* u8 * buflen payload
* } * num_acks
* le32 num_timeouts
* {
* le64 gid global id for the client
* le64 cookie cookie for the client
* } * num_timeouts
*
* Note: There may be multiple instances of the same gid if there are
* multiple watchers registered via the same client.
*
* Note: The buffer must be released with rados_buffer_free() when the
* user is done with it.
*
* Note: Since the result buffer includes clients that time out, it
* will be set even when rados_notify() returns an error code (like
* -ETIMEDOUT).
*
* @param io the pool the object is in
* @param completion what to do when operation has been attempted
* @param o the name of the object
* @param buf data to send to watchers
* @param buf_len length of buf in bytes
* @param timeout_ms notify timeout (in ms)
* @param reply_buffer pointer to reply buffer pointer (free with rados_buffer_free)
* @param reply_buffer_len pointer to size of reply buffer
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_aio_notify(rados_ioctx_t io, const char *o,
rados_completion_t completion,
const char *buf, int buf_len,
uint64_t timeout_ms, char **reply_buffer,
size_t *reply_buffer_len);
CEPH_RADOS_API int rados_notify2(rados_ioctx_t io, const char *o,
const char *buf, int buf_len,
uint64_t timeout_ms,
char **reply_buffer, size_t *reply_buffer_len);
/**
* Decode a notify response
*
* Decode a notify response (from rados_aio_notify() call) into acks and
* timeout arrays.
*
* @param reply_buffer buffer from rados_aio_notify() call
* @param reply_buffer_len reply_buffer length
* @param acks pointer to struct notify_ack_t pointer
* @param nr_acks pointer to ack count
* @param timeouts pointer to notify_timeout_t pointer
* @param nr_timeouts pointer to timeout count
* @returns 0 on success
*/
CEPH_RADOS_API int rados_decode_notify_response(char *reply_buffer, size_t reply_buffer_len,
struct notify_ack_t **acks, size_t *nr_acks,
struct notify_timeout_t **timeouts, size_t *nr_timeouts);
/**
* Free notify allocated buffer
*
* Release memory allocated by rados_decode_notify_response() call
*
* @param acks notify_ack_t struct (from rados_decode_notify_response())
* @param nr_acks ack count
* @param timeouts notify_timeout_t struct (from rados_decode_notify_response())
*/
CEPH_RADOS_API void rados_free_notify_response(struct notify_ack_t *acks, size_t nr_acks,
struct notify_timeout_t *timeouts);
/**
* Acknolwedge receipt of a notify
*
* @param io the pool the object is in
* @param o the name of the object
* @param notify_id the notify_id we got on the watchcb2_t callback
* @param cookie the watcher handle
* @param buf payload to return to notifier (optional)
* @param buf_len payload length
* @returns 0 on success
*/
CEPH_RADOS_API int rados_notify_ack(rados_ioctx_t io, const char *o,
uint64_t notify_id, uint64_t cookie,
const char *buf, int buf_len);
/**
* Flush watch/notify callbacks
*
* This call will block until all pending watch/notify callbacks have
* been executed and the queue is empty. It should usually be called
* after shutting down any watches before shutting down the ioctx or
* librados to ensure that any callbacks do not misuse the ioctx (for
* example by calling rados_notify_ack after the ioctx has been
* destroyed).
*
* @param cluster the cluster handle
*/
CEPH_RADOS_API int rados_watch_flush(rados_t cluster);
/**
* Flush watch/notify callbacks
*
* This call will be nonblock, and the completion will be called
* until all pending watch/notify callbacks have been executed and
* the queue is empty. It should usually be called after shutting
* down any watches before shutting down the ioctx or
* librados to ensure that any callbacks do not misuse the ioctx (for
* example by calling rados_notify_ack after the ioctx has been
* destroyed).
*
* @param cluster the cluster handle
* @param completion what to do when operation has been attempted
*/
CEPH_RADOS_API int rados_aio_watch_flush(rados_t cluster, rados_completion_t completion);
/** @} Watch/Notify */
/**
* Pin an object in the cache tier
*
* When an object is pinned in the cache tier, it stays in the cache
* tier, and won't be flushed out.
*
* @param io the pool the object is in
* @param o the object id
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_cache_pin(rados_ioctx_t io, const char *o);
/**
* Unpin an object in the cache tier
*
* After an object is unpinned in the cache tier, it can be flushed out
*
* @param io the pool the object is in
* @param o the object id
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_cache_unpin(rados_ioctx_t io, const char *o);
/**
* @name Hints
*
* @{
*/
/**
* Set allocation hint for an object
*
* This is an advisory operation, it will always succeed (as if it was
* submitted with a LIBRADOS_OP_FLAG_FAILOK flag set) and is not
* guaranteed to do anything on the backend.
*
* @param io the pool the object is in
* @param o the name of the object
* @param expected_object_size expected size of the object, in bytes
* @param expected_write_size expected size of writes to the object, in bytes
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_set_alloc_hint(rados_ioctx_t io, const char *o,
uint64_t expected_object_size,
uint64_t expected_write_size);
/**
* Set allocation hint for an object
*
* This is an advisory operation, it will always succeed (as if it was
* submitted with a LIBRADOS_OP_FLAG_FAILOK flag set) and is not
* guaranteed to do anything on the backend.
*
* @param io the pool the object is in
* @param o the name of the object
* @param expected_object_size expected size of the object, in bytes
* @param expected_write_size expected size of writes to the object, in bytes
* @param flags hints about future IO patterns
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_set_alloc_hint2(rados_ioctx_t io, const char *o,
uint64_t expected_object_size,
uint64_t expected_write_size,
uint32_t flags);
/** @} Hints */
/**
* @name Object Operations
*
* A single rados operation can do multiple operations on one object
* atomically. The whole operation will succeed or fail, and no partial
* results will be visible.
*
* Operations may be either reads, which can return data, or writes,
* which cannot. The effects of writes are applied and visible all at
* once, so an operation that sets an xattr and then checks its value
* will not see the updated value.
*
* @{
*/
/**
* Create a new rados_write_op_t write operation. This will store all actions
* to be performed atomically. You must call rados_release_write_op when you are
* finished with it.
*
* @note the ownership of a write operartion is passed to the function
* performing the operation, so the same instance of @c rados_write_op_t
* cannot be used again after being performed.
*
* @returns non-NULL on success, NULL on memory allocation error.
*/
CEPH_RADOS_API rados_write_op_t rados_create_write_op(void);
/**
* Free a rados_write_op_t, must be called when you're done with it.
* @param write_op operation to deallocate, created with rados_create_write_op
*/
CEPH_RADOS_API void rados_release_write_op(rados_write_op_t write_op);
/**
* Set flags for the last operation added to this write_op.
* At least one op must have been added to the write_op.
* @param write_op operation to add this action to
* @param flags see librados.h constants beginning with LIBRADOS_OP_FLAG
*/
CEPH_RADOS_API void rados_write_op_set_flags(rados_write_op_t write_op,
int flags);
/**
* Ensure that the object exists before writing
* @param write_op operation to add this action to
*/
CEPH_RADOS_API void rados_write_op_assert_exists(rados_write_op_t write_op);
/**
* Ensure that the object exists and that its internal version
* number is equal to "ver" before writing. "ver" should be a
* version number previously obtained with rados_get_last_version().
* - If the object's version is greater than the asserted version
* then rados_write_op_operate will return -ERANGE instead of
* executing the op.
* - If the object's version is less than the asserted version
* then rados_write_op_operate will return -EOVERFLOW instead
* of executing the op.
* @param write_op operation to add this action to
* @param ver object version number
*/
CEPH_RADOS_API void rados_write_op_assert_version(rados_write_op_t write_op, uint64_t ver);
/**
* Ensure that given object range (extent) satisfies comparison.
*
* @param write_op operation to add this action to
* @param cmp_buf buffer containing bytes to be compared with object contents
* @param cmp_len length to compare and size of @c cmp_buf in bytes
* @param off object byte offset at which to start the comparison
* @param prval returned result of comparison, 0 on success, negative error code
* on failure, (-MAX_ERRNO - mismatch_off) on mismatch
*/
CEPH_RADOS_API void rados_write_op_cmpext(rados_write_op_t write_op,
const char *cmp_buf,
size_t cmp_len,
uint64_t off,
int *prval);
/**
* Ensure that given xattr satisfies comparison.
* If the comparison is not satisfied, the return code of the
* operation will be -ECANCELED
* @param write_op operation to add this action to
* @param name name of the xattr to look up
* @param comparison_operator currently undocumented, look for
* LIBRADOS_CMPXATTR_OP_EQ in librados.h
* @param value buffer to compare actual xattr value to
* @param value_len length of buffer to compare actual xattr value to
*/
CEPH_RADOS_API void rados_write_op_cmpxattr(rados_write_op_t write_op,
const char *name,
uint8_t comparison_operator,
const char *value,
size_t value_len);
/**
* Ensure that the an omap value satisfies a comparison,
* with the supplied value on the right hand side (i.e.
* for OP_LT, the comparison is actual_value < value.
*
* @param write_op operation to add this action to
* @param key which omap value to compare
* @param comparison_operator one of LIBRADOS_CMPXATTR_OP_EQ,
LIBRADOS_CMPXATTR_OP_LT, or LIBRADOS_CMPXATTR_OP_GT
* @param val value to compare with
* @param val_len length of value in bytes
* @param prval where to store the return value from this action
*/
CEPH_RADOS_API void rados_write_op_omap_cmp(rados_write_op_t write_op,
const char *key,
uint8_t comparison_operator,
const char *val,
size_t val_len,
int *prval);
/**
* Ensure that the an omap value satisfies a comparison,
* with the supplied value on the right hand side (i.e.
* for OP_LT, the comparison is actual_value < value.
*
* @param write_op operation to add this action to
* @param key which omap value to compare
* @param comparison_operator one of LIBRADOS_CMPXATTR_OP_EQ,
LIBRADOS_CMPXATTR_OP_LT, or LIBRADOS_CMPXATTR_OP_GT
* @param val value to compare with
* @param key_len length of key in bytes
* @param val_len length of value in bytes
* @param prval where to store the return value from this action
*/
CEPH_RADOS_API void rados_write_op_omap_cmp2(rados_write_op_t write_op,
const char *key,
uint8_t comparison_operator,
const char *val,
size_t key_len,
size_t val_len,
int *prval);
/**
* Set an xattr
* @param write_op operation to add this action to
* @param name name of the xattr
* @param value buffer to set xattr to
* @param value_len length of buffer to set xattr to
*/
CEPH_RADOS_API void rados_write_op_setxattr(rados_write_op_t write_op,
const char *name,
const char *value,
size_t value_len);
/**
* Remove an xattr
* @param write_op operation to add this action to
* @param name name of the xattr to remove
*/
CEPH_RADOS_API void rados_write_op_rmxattr(rados_write_op_t write_op,
const char *name);
/**
* Create the object
* @param write_op operation to add this action to
* @param exclusive set to either LIBRADOS_CREATE_EXCLUSIVE or
LIBRADOS_CREATE_IDEMPOTENT
* will error if the object already exists.
* @param category category string (DEPRECATED, HAS NO EFFECT)
*/
CEPH_RADOS_API void rados_write_op_create(rados_write_op_t write_op,
int exclusive,
const char* category);
/**
* Write to offset
* @param write_op operation to add this action to
* @param offset offset to write to
* @param buffer bytes to write
* @param len length of buffer
*/
CEPH_RADOS_API void rados_write_op_write(rados_write_op_t write_op,
const char *buffer,
size_t len,
uint64_t offset);
/**
* Write whole object, atomically replacing it.
* @param write_op operation to add this action to
* @param buffer bytes to write
* @param len length of buffer
*/
CEPH_RADOS_API void rados_write_op_write_full(rados_write_op_t write_op,
const char *buffer,
size_t len);
/**
* Write the same buffer multiple times
* @param write_op operation to add this action to
* @param buffer bytes to write
* @param data_len length of buffer
* @param write_len total number of bytes to write, as a multiple of @c data_len
* @param offset offset to write to
*/
CEPH_RADOS_API void rados_write_op_writesame(rados_write_op_t write_op,
const char *buffer,
size_t data_len,
size_t write_len,
uint64_t offset);
/**
* Append to end of object.
* @param write_op operation to add this action to
* @param buffer bytes to write
* @param len length of buffer
*/
CEPH_RADOS_API void rados_write_op_append(rados_write_op_t write_op,
const char *buffer,
size_t len);
/**
* Remove object
* @param write_op operation to add this action to
*/
CEPH_RADOS_API void rados_write_op_remove(rados_write_op_t write_op);
/**
* Truncate an object
* @param write_op operation to add this action to
* @param offset Offset to truncate to
*/
CEPH_RADOS_API void rados_write_op_truncate(rados_write_op_t write_op,
uint64_t offset);
/**
* Zero part of an object
* @param write_op operation to add this action to
* @param offset Offset to zero
* @param len length to zero
*/
CEPH_RADOS_API void rados_write_op_zero(rados_write_op_t write_op,
uint64_t offset,
uint64_t len);
/**
* Execute an OSD class method on an object
* See rados_exec() for general description.
*
* @param write_op operation to add this action to
* @param cls the name of the class
* @param method the name of the method
* @param in_buf where to find input
* @param in_len length of in_buf in bytes
* @param prval where to store the return value from the method
*/
CEPH_RADOS_API void rados_write_op_exec(rados_write_op_t write_op,
const char *cls,
const char *method,
const char *in_buf,
size_t in_len,
int *prval);
/**
* Set key/value pairs on an object
*
* @param write_op operation to add this action to
* @param keys array of null-terminated char arrays representing keys to set
* @param vals array of pointers to values to set
* @param lens array of lengths corresponding to each value
* @param num number of key/value pairs to set
*/
CEPH_RADOS_API void rados_write_op_omap_set(rados_write_op_t write_op,
char const* const* keys,
char const* const* vals,
const size_t *lens,
size_t num);
/**
* Set key/value pairs on an object
*
* @param write_op operation to add this action to
* @param keys array of null-terminated char arrays representing keys to set
* @param vals array of pointers to values to set
* @param key_lens array of lengths corresponding to each key
* @param val_lens array of lengths corresponding to each value
* @param num number of key/value pairs to set
*/
CEPH_RADOS_API void rados_write_op_omap_set2(rados_write_op_t write_op,
char const* const* keys,
char const* const* vals,
const size_t *key_lens,
const size_t *val_lens,
size_t num);
/**
* Remove key/value pairs from an object
*
* @param write_op operation to add this action to
* @param keys array of null-terminated char arrays representing keys to remove
* @param keys_len number of key/value pairs to remove
*/
CEPH_RADOS_API void rados_write_op_omap_rm_keys(rados_write_op_t write_op,
char const* const* keys,
size_t keys_len);
/**
* Remove key/value pairs from an object
*
* @param write_op operation to add this action to
* @param keys array of char arrays representing keys to remove
* @param key_lens array of size_t values representing length of each key
* @param keys_len number of key/value pairs to remove
*/
CEPH_RADOS_API void rados_write_op_omap_rm_keys2(rados_write_op_t write_op,
char const* const* keys,
const size_t* key_lens,
size_t keys_len);
/**
* Remove key/value pairs from an object whose keys are in the range
* [key_begin, key_end)
*
* @param write_op operation to add this action to
* @param key_begin the lower bound of the key range to remove
* @param key_begin_len length of key_begin
* @param key_end the upper bound of the key range to remove
* @param key_end_len length of key_end
*/
CEPH_RADOS_API void rados_write_op_omap_rm_range2(rados_write_op_t write_op,
const char *key_begin,
size_t key_begin_len,
const char *key_end,
size_t key_end_len);
/**
* Remove all key/value pairs from an object
*
* @param write_op operation to add this action to
*/
CEPH_RADOS_API void rados_write_op_omap_clear(rados_write_op_t write_op);
/**
* Set allocation hint for an object
*
* @param write_op operation to add this action to
* @param expected_object_size expected size of the object, in bytes
* @param expected_write_size expected size of writes to the object, in bytes
*/
CEPH_RADOS_API void rados_write_op_set_alloc_hint(rados_write_op_t write_op,
uint64_t expected_object_size,
uint64_t expected_write_size);
/**
* Set allocation hint for an object
*
* @param write_op operation to add this action to
* @param expected_object_size expected size of the object, in bytes
* @param expected_write_size expected size of writes to the object, in bytes
* @param flags hints about future IO patterns
*/
CEPH_RADOS_API void rados_write_op_set_alloc_hint2(rados_write_op_t write_op,
uint64_t expected_object_size,
uint64_t expected_write_size,
uint32_t flags);
/**
* Perform a write operation synchronously
* @param write_op operation to perform
* @param io the ioctx that the object is in
* @param oid the object id
* @param mtime the time to set the mtime to, NULL for the current time
* @param flags flags to apply to the entire operation (LIBRADOS_OPERATION_*)
*/
CEPH_RADOS_API int rados_write_op_operate(rados_write_op_t write_op,
rados_ioctx_t io,
const char *oid,
time_t *mtime,
int flags);
/**
* Perform a write operation synchronously
* @param write_op operation to perform
* @param io the ioctx that the object is in
* @param oid the object id
* @param mtime the time to set the mtime to, NULL for the current time
* @param flags flags to apply to the entire operation (LIBRADOS_OPERATION_*)
*/
CEPH_RADOS_API int rados_write_op_operate2(rados_write_op_t write_op,
rados_ioctx_t io,
const char *oid,
struct timespec *mtime,
int flags);
/**
* Perform a write operation asynchronously
* @param write_op operation to perform
* @param io the ioctx that the object is in
* @param completion what to do when operation has been attempted
* @param oid the object id
* @param mtime the time to set the mtime to, NULL for the current time
* @param flags flags to apply to the entire operation (LIBRADOS_OPERATION_*)
*/
CEPH_RADOS_API int rados_aio_write_op_operate(rados_write_op_t write_op,
rados_ioctx_t io,
rados_completion_t completion,
const char *oid,
time_t *mtime,
int flags);
/**
* Perform a write operation asynchronously
* @param write_op operation to perform
* @param io the ioctx that the object is in
* @param completion what to do when operation has been attempted
* @param oid the object id
* @param mtime the time to set the mtime to, NULL for the current time
* @param flags flags to apply to the entire operation (LIBRADOS_OPERATION_*)
*/
CEPH_RADOS_API int rados_aio_write_op_operate2(rados_write_op_t write_op,
rados_ioctx_t io,
rados_completion_t completion,
const char *oid,
struct timespec *mtime,
int flags);
/**
* Create a new rados_read_op_t read operation. This will store all
* actions to be performed atomically. You must call
* rados_release_read_op when you are finished with it (after it
* completes, or you decide not to send it in the first place).
*
* @note the ownership of a read operartion is passed to the function
* performing the operation, so the same instance of @c rados_read_op_t
* cannot be used again after being performed.
*
* @returns non-NULL on success, NULL on memory allocation error.
*/
CEPH_RADOS_API rados_read_op_t rados_create_read_op(void);
/**
* Free a rados_read_op_t, must be called when you're done with it.
* @param read_op operation to deallocate, created with rados_create_read_op
*/
CEPH_RADOS_API void rados_release_read_op(rados_read_op_t read_op);
/**
* Set flags for the last operation added to this read_op.
* At least one op must have been added to the read_op.
* @param read_op operation to add this action to
* @param flags see librados.h constants beginning with LIBRADOS_OP_FLAG
*/
CEPH_RADOS_API void rados_read_op_set_flags(rados_read_op_t read_op, int flags);
/**
* Ensure that the object exists before reading
* @param read_op operation to add this action to
*/
CEPH_RADOS_API void rados_read_op_assert_exists(rados_read_op_t read_op);
/**
* Ensure that the object exists and that its internal version
* number is equal to "ver" before reading. "ver" should be a
* version number previously obtained with rados_get_last_version().
* - If the object's version is greater than the asserted version
* then rados_read_op_operate will return -ERANGE instead of
* executing the op.
* - If the object's version is less than the asserted version
* then rados_read_op_operate will return -EOVERFLOW instead
* of executing the op.
* @param read_op operation to add this action to
* @param ver object version number
*/
CEPH_RADOS_API void rados_read_op_assert_version(rados_read_op_t read_op, uint64_t ver);
/**
* Ensure that given object range (extent) satisfies comparison.
*
* @param read_op operation to add this action to
* @param cmp_buf buffer containing bytes to be compared with object contents
* @param cmp_len length to compare and size of @c cmp_buf in bytes
* @param off object byte offset at which to start the comparison
* @param prval returned result of comparison, 0 on success, negative error code
* on failure, (-MAX_ERRNO - mismatch_off) on mismatch
*/
CEPH_RADOS_API void rados_read_op_cmpext(rados_read_op_t read_op,
const char *cmp_buf,
size_t cmp_len,
uint64_t off,
int *prval);
/**
* Ensure that the an xattr satisfies a comparison
* If the comparison is not satisfied, the return code of the
* operation will be -ECANCELED
* @param read_op operation to add this action to
* @param name name of the xattr to look up
* @param comparison_operator currently undocumented, look for
* LIBRADOS_CMPXATTR_OP_EQ in librados.h
* @param value buffer to compare actual xattr value to
* @param value_len length of buffer to compare actual xattr value to
*/
CEPH_RADOS_API void rados_read_op_cmpxattr(rados_read_op_t read_op,
const char *name,
uint8_t comparison_operator,
const char *value,
size_t value_len);
/**
* Start iterating over xattrs on an object.
*
* @param read_op operation to add this action to
* @param iter where to store the iterator
* @param prval where to store the return value of this action
*/
CEPH_RADOS_API void rados_read_op_getxattrs(rados_read_op_t read_op,
rados_xattrs_iter_t *iter,
int *prval);
/**
* Ensure that the an omap value satisfies a comparison,
* with the supplied value on the right hand side (i.e.
* for OP_LT, the comparison is actual_value < value.
*
* @param read_op operation to add this action to
* @param key which omap value to compare
* @param comparison_operator one of LIBRADOS_CMPXATTR_OP_EQ,
LIBRADOS_CMPXATTR_OP_LT, or LIBRADOS_CMPXATTR_OP_GT
* @param val value to compare with
* @param val_len length of value in bytes
* @param prval where to store the return value from this action
*/
CEPH_RADOS_API void rados_read_op_omap_cmp(rados_read_op_t read_op,
const char *key,
uint8_t comparison_operator,
const char *val,
size_t val_len,
int *prval);
/**
* Ensure that the an omap value satisfies a comparison,
* with the supplied value on the right hand side (i.e.
* for OP_LT, the comparison is actual_value < value.
*
* @param read_op operation to add this action to
* @param key which omap value to compare
* @param comparison_operator one of LIBRADOS_CMPXATTR_OP_EQ,
LIBRADOS_CMPXATTR_OP_LT, or LIBRADOS_CMPXATTR_OP_GT
* @param val value to compare with
* @param key_len length of key in bytes
* @param val_len length of value in bytes
* @param prval where to store the return value from this action
*/
CEPH_RADOS_API void rados_read_op_omap_cmp2(rados_read_op_t read_op,
const char *key,
uint8_t comparison_operator,
const char *val,
size_t key_len,
size_t val_len,
int *prval);
/**
* Get object size and mtime
* @param read_op operation to add this action to
* @param psize where to store object size
* @param pmtime where to store modification time
* @param prval where to store the return value of this action
*/
CEPH_RADOS_API void rados_read_op_stat(rados_read_op_t read_op,
uint64_t *psize,
time_t *pmtime,
int *prval);
CEPH_RADOS_API void rados_read_op_stat2(rados_read_op_t read_op,
uint64_t *psize,
struct timespec *pmtime,
int *prval);
/**
* Read bytes from offset into buffer.
*
* prlen will be filled with the number of bytes read if successful.
* A short read can only occur if the read reaches the end of the
* object.
*
* @param read_op operation to add this action to
* @param offset offset to read from
* @param len length of buffer
* @param buffer where to put the data
* @param bytes_read where to store the number of bytes read by this action
* @param prval where to store the return value of this action
*/
CEPH_RADOS_API void rados_read_op_read(rados_read_op_t read_op,
uint64_t offset,
size_t len,
char *buffer,
size_t *bytes_read,
int *prval);
/**
* Compute checksum from object data
*
* @param read_op operation to add this action to
* @param type the checksum algorithm to utilize
* @param init_value the init value for the algorithm
* @param init_value_len the length of the init value
* @param offset the offset to start checksumming in the object
* @param len the number of bytes to checksum
* @param chunk_size optional length-aligned chunk size for checksums
* @param pchecksum where to store the checksum result for this action
* @param checksum_len the number of bytes available for the result
* @param prval where to store the return value for this action
*/
CEPH_RADOS_API void rados_read_op_checksum(rados_read_op_t read_op,
rados_checksum_type_t type,
const char *init_value,
size_t init_value_len,
uint64_t offset, size_t len,
size_t chunk_size, char *pchecksum,
size_t checksum_len, int *prval);
/**
* Execute an OSD class method on an object
* See rados_exec() for general description.
*
* The output buffer is allocated on the heap; the caller is
* expected to release that memory with rados_buffer_free(). The
* buffer and length pointers can all be NULL, in which case they are
* not filled in.
*
* @param read_op operation to add this action to
* @param cls the name of the class
* @param method the name of the method
* @param in_buf where to find input
* @param in_len length of in_buf in bytes
* @param out_buf where to put librados-allocated output buffer
* @param out_len length of out_buf in bytes
* @param prval where to store the return value from the method
*/
CEPH_RADOS_API void rados_read_op_exec(rados_read_op_t read_op,
const char *cls,
const char *method,
const char *in_buf,
size_t in_len,
char **out_buf,
size_t *out_len,
int *prval);
/**
* Execute an OSD class method on an object
* See rados_exec() for general description.
*
* If the output buffer is too small, prval will
* be set to -ERANGE and used_len will be 0.
*
* @param read_op operation to add this action to
* @param cls the name of the class
* @param method the name of the method
* @param in_buf where to find input
* @param in_len length of in_buf in bytes
* @param out_buf user-provided buffer to read into
* @param out_len length of out_buf in bytes
* @param used_len where to store the number of bytes read into out_buf
* @param prval where to store the return value from the method
*/
CEPH_RADOS_API void rados_read_op_exec_user_buf(rados_read_op_t read_op,
const char *cls,
const char *method,
const char *in_buf,
size_t in_len,
char *out_buf,
size_t out_len,
size_t *used_len,
int *prval);
/**
* Start iterating over key/value pairs on an object.
*
* They will be returned sorted by key.
*
* @param read_op operation to add this action to
* @param start_after list keys starting after start_after
* @param filter_prefix list only keys beginning with filter_prefix
* @param max_return list no more than max_return key/value pairs
* @param iter where to store the iterator
* @param prval where to store the return value from this action
*/
CEPH_RADOS_API void rados_read_op_omap_get_vals(rados_read_op_t read_op,
const char *start_after,
const char *filter_prefix,
uint64_t max_return,
rados_omap_iter_t *iter,
int *prval)
__attribute__((deprecated)); /* use v2 below */
/**
* Start iterating over key/value pairs on an object.
*
* They will be returned sorted by key.
*
* @param read_op operation to add this action to
* @param start_after list keys starting after start_after
* @param filter_prefix list only keys beginning with filter_prefix
* @param max_return list no more than max_return key/value pairs
* @param iter where to store the iterator
* @param pmore flag indicating whether there are more keys to fetch
* @param prval where to store the return value from this action
*/
CEPH_RADOS_API void rados_read_op_omap_get_vals2(rados_read_op_t read_op,
const char *start_after,
const char *filter_prefix,
uint64_t max_return,
rados_omap_iter_t *iter,
unsigned char *pmore,
int *prval);
/**
* Start iterating over keys on an object.
*
* They will be returned sorted by key, and the iterator
* will fill in NULL for all values if specified.
*
* @param read_op operation to add this action to
* @param start_after list keys starting after start_after
* @param max_return list no more than max_return keys
* @param iter where to store the iterator
* @param prval where to store the return value from this action
*/
CEPH_RADOS_API void rados_read_op_omap_get_keys(rados_read_op_t read_op,
const char *start_after,
uint64_t max_return,
rados_omap_iter_t *iter,
int *prval)
__attribute__((deprecated)); /* use v2 below */
/**
* Start iterating over keys on an object.
*
* They will be returned sorted by key, and the iterator
* will fill in NULL for all values if specified.
*
* @param read_op operation to add this action to
* @param start_after list keys starting after start_after
* @param max_return list no more than max_return keys
* @param iter where to store the iterator
* @param pmore flag indicating whether there are more keys to fetch
* @param prval where to store the return value from this action
*/
CEPH_RADOS_API void rados_read_op_omap_get_keys2(rados_read_op_t read_op,
const char *start_after,
uint64_t max_return,
rados_omap_iter_t *iter,
unsigned char *pmore,
int *prval);
/**
* Start iterating over specific key/value pairs
*
* They will be returned sorted by key.
*
* @param read_op operation to add this action to
* @param keys array of pointers to null-terminated keys to get
* @param keys_len the number of strings in keys
* @param iter where to store the iterator
* @param prval where to store the return value from this action
*/
CEPH_RADOS_API void rados_read_op_omap_get_vals_by_keys(rados_read_op_t read_op,
char const* const* keys,
size_t keys_len,
rados_omap_iter_t *iter,
int *prval);
/**
* Start iterating over specific key/value pairs
*
* They will be returned sorted by key.
*
* @param read_op operation to add this action to
* @param keys array of pointers to keys to get
* @param num_keys the number of strings in keys
* @param key_lens array of size_t's describing each key len (in bytes)
* @param iter where to store the iterator
* @param prval where to store the return value from this action
*/
CEPH_RADOS_API void rados_read_op_omap_get_vals_by_keys2(rados_read_op_t read_op,
char const* const* keys,
size_t num_keys,
const size_t* key_lens,
rados_omap_iter_t *iter,
int *prval);
/**
* Perform a read operation synchronously
* @param read_op operation to perform
* @param io the ioctx that the object is in
* @param oid the object id
* @param flags flags to apply to the entire operation (LIBRADOS_OPERATION_*)
*/
CEPH_RADOS_API int rados_read_op_operate(rados_read_op_t read_op,
rados_ioctx_t io,
const char *oid,
int flags);
/**
* Perform a read operation asynchronously
* @param read_op operation to perform
* @param io the ioctx that the object is in
* @param completion what to do when operation has been attempted
* @param oid the object id
* @param flags flags to apply to the entire operation (LIBRADOS_OPERATION_*)
*/
CEPH_RADOS_API int rados_aio_read_op_operate(rados_read_op_t read_op,
rados_ioctx_t io,
rados_completion_t completion,
const char *oid,
int flags);
/** @} Object Operations */
/**
* Take an exclusive lock on an object.
*
* @param io the context to operate in
* @param oid the name of the object
* @param name the name of the lock
* @param cookie user-defined identifier for this instance of the lock
* @param desc user-defined lock description
* @param duration the duration of the lock. Set to NULL for infinite duration.
* @param flags lock flags
* @returns 0 on success, negative error code on failure
* @returns -EBUSY if the lock is already held by another (client, cookie) pair
* @returns -EEXIST if the lock is already held by the same (client, cookie) pair
*/
CEPH_RADOS_API int rados_lock_exclusive(rados_ioctx_t io, const char * oid,
const char * name, const char * cookie,
const char * desc,
struct timeval * duration,
uint8_t flags);
/**
* Take a shared lock on an object.
*
* @param io the context to operate in
* @param o the name of the object
* @param name the name of the lock
* @param cookie user-defined identifier for this instance of the lock
* @param tag The tag of the lock
* @param desc user-defined lock description
* @param duration the duration of the lock. Set to NULL for infinite duration.
* @param flags lock flags
* @returns 0 on success, negative error code on failure
* @returns -EBUSY if the lock is already held by another (client, cookie) pair
* @returns -EEXIST if the lock is already held by the same (client, cookie) pair
*/
CEPH_RADOS_API int rados_lock_shared(rados_ioctx_t io, const char * o,
const char * name, const char * cookie,
const char * tag, const char * desc,
struct timeval * duration, uint8_t flags);
/**
* Release a shared or exclusive lock on an object.
*
* @param io the context to operate in
* @param o the name of the object
* @param name the name of the lock
* @param cookie user-defined identifier for the instance of the lock
* @returns 0 on success, negative error code on failure
* @returns -ENOENT if the lock is not held by the specified (client, cookie) pair
*/
CEPH_RADOS_API int rados_unlock(rados_ioctx_t io, const char *o,
const char *name, const char *cookie);
/**
* Asynchronous release a shared or exclusive lock on an object.
*
* @param io the context to operate in
* @param o the name of the object
* @param name the name of the lock
* @param cookie user-defined identifier for the instance of the lock
* @param completion what to do when operation has been attempted
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_aio_unlock(rados_ioctx_t io, const char *o,
const char *name, const char *cookie,
rados_completion_t completion);
/**
* List clients that have locked the named object lock and information about
* the lock.
*
* The number of bytes required in each buffer is put in the
* corresponding size out parameter. If any of the provided buffers
* are too short, -ERANGE is returned after these sizes are filled in.
*
* @param io the context to operate in
* @param o the name of the object
* @param name the name of the lock
* @param exclusive where to store whether the lock is exclusive (1) or shared (0)
* @param tag where to store the tag associated with the object lock
* @param tag_len number of bytes in tag buffer
* @param clients buffer in which locker clients are stored, separated by '\0'
* @param clients_len number of bytes in the clients buffer
* @param cookies buffer in which locker cookies are stored, separated by '\0'
* @param cookies_len number of bytes in the cookies buffer
* @param addrs buffer in which locker addresses are stored, separated by '\0'
* @param addrs_len number of bytes in the clients buffer
* @returns number of lockers on success, negative error code on failure
* @returns -ERANGE if any of the buffers are too short
*/
CEPH_RADOS_API ssize_t rados_list_lockers(rados_ioctx_t io, const char *o,
const char *name, int *exclusive,
char *tag, size_t *tag_len,
char *clients, size_t *clients_len,
char *cookies, size_t *cookies_len,
char *addrs, size_t *addrs_len);
/**
* Releases a shared or exclusive lock on an object, which was taken by the
* specified client.
*
* @param io the context to operate in
* @param o the name of the object
* @param name the name of the lock
* @param client the client currently holding the lock
* @param cookie user-defined identifier for the instance of the lock
* @returns 0 on success, negative error code on failure
* @returns -ENOENT if the lock is not held by the specified (client, cookie) pair
* @returns -EINVAL if the client cannot be parsed
*/
CEPH_RADOS_API int rados_break_lock(rados_ioctx_t io, const char *o,
const char *name, const char *client,
const char *cookie);
/**
* Blocklists the specified client from the OSDs
*
* @param cluster cluster handle
* @param client_address client address
* @param expire_seconds number of seconds to blocklist (0 for default)
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_blocklist_add(rados_t cluster,
char *client_address,
uint32_t expire_seconds);
CEPH_RADOS_API int rados_blacklist_add(rados_t cluster,
char *client_address,
uint32_t expire_seconds)
__attribute__((deprecated));
/**
* Gets addresses of the RADOS session, suitable for blocklisting.
*
* @param cluster cluster handle
* @param addrs the output string.
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_getaddrs(rados_t cluster, char** addrs);
CEPH_RADOS_API void rados_set_osdmap_full_try(rados_ioctx_t io)
__attribute__((deprecated));
CEPH_RADOS_API void rados_unset_osdmap_full_try(rados_ioctx_t io)
__attribute__((deprecated));
CEPH_RADOS_API void rados_set_pool_full_try(rados_ioctx_t io);
CEPH_RADOS_API void rados_unset_pool_full_try(rados_ioctx_t io);
/**
* Enable an application on a pool
*
* @param io pool ioctx
* @param app_name application name
* @param force 0 if only single application per pool
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_application_enable(rados_ioctx_t io,
const char *app_name, int force);
/**
* List all enabled applications
*
* If the provided buffer is too short, the required length is filled in and
* -ERANGE is returned. Otherwise, the buffers are filled with the application
* names, with a '\0' after each.
*
* @param io pool ioctx
* @param values buffer in which to store application names
* @param values_len number of bytes in values buffer
* @returns 0 on success, negative error code on failure
* @returns -ERANGE if either buffer is too short
*/
CEPH_RADOS_API int rados_application_list(rados_ioctx_t io, char *values,
size_t *values_len);
/**
* Get application metadata value from pool
*
* @param io pool ioctx
* @param app_name application name
* @param key metadata key
* @param value result buffer
* @param value_len maximum len of value
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_application_metadata_get(rados_ioctx_t io,
const char *app_name,
const char *key, char *value,
size_t *value_len);
/**
* Set application metadata on a pool
*
* @param io pool ioctx
* @param app_name application name
* @param key metadata key
* @param value metadata key
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_application_metadata_set(rados_ioctx_t io,
const char *app_name,
const char *key,
const char *value);
/**
* Remove application metadata from a pool
*
* @param io pool ioctx
* @param app_name application name
* @param key metadata key
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_application_metadata_remove(rados_ioctx_t io,
const char *app_name,
const char *key);
/**
* List all metadata key/value pairs associated with an application.
*
* This iterates over all metadata, key_len and val_len are filled in
* with the number of bytes put into the keys and values buffers.
*
* If the provided buffers are too short, the required lengths are filled
* in and -ERANGE is returned. Otherwise, the buffers are filled with
* the keys and values of the metadata, with a '\0' after each.
*
* @param io pool ioctx
* @param app_name application name
* @param keys buffer in which to store key names
* @param key_len number of bytes in keys buffer
* @param values buffer in which to store values
* @param vals_len number of bytes in values buffer
* @returns 0 on success, negative error code on failure
* @returns -ERANGE if either buffer is too short
*/
CEPH_RADOS_API int rados_application_metadata_list(rados_ioctx_t io,
const char *app_name,
char *keys, size_t *key_len,
char *values,
size_t *vals_len);
/**
* @name Mon/OSD/PG Commands
*
* These interfaces send commands relating to the monitor, OSD, or PGs.
*
* @{
*/
/**
* Send monitor command.
*
* @note Takes command string in carefully-formatted JSON; must match
* defined commands, types, etc.
*
* The result buffers are allocated on the heap; the caller is
* expected to release that memory with rados_buffer_free(). The
* buffer and length pointers can all be NULL, in which case they are
* not filled in.
*
* @param cluster cluster handle
* @param cmd an array of char *'s representing the command
* @param cmdlen count of valid entries in cmd
* @param inbuf any bulk input data (crush map, etc.)
* @param inbuflen input buffer length
* @param outbuf double pointer to output buffer
* @param outbuflen pointer to output buffer length
* @param outs double pointer to status string
* @param outslen pointer to status string length
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_mon_command(rados_t cluster, const char **cmd,
size_t cmdlen, const char *inbuf,
size_t inbuflen, char **outbuf,
size_t *outbuflen, char **outs,
size_t *outslen);
/**
* Send ceph-mgr command.
*
* @note Takes command string in carefully-formatted JSON; must match
* defined commands, types, etc.
*
* The result buffers are allocated on the heap; the caller is
* expected to release that memory with rados_buffer_free(). The
* buffer and length pointers can all be NULL, in which case they are
* not filled in.
*
* @param cluster cluster handle
* @param cmd an array of char *'s representing the command
* @param cmdlen count of valid entries in cmd
* @param inbuf any bulk input data (crush map, etc.)
* @param inbuflen input buffer length
* @param outbuf double pointer to output buffer
* @param outbuflen pointer to output buffer length
* @param outs double pointer to status string
* @param outslen pointer to status string length
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_mgr_command(rados_t cluster, const char **cmd,
size_t cmdlen, const char *inbuf,
size_t inbuflen, char **outbuf,
size_t *outbuflen, char **outs,
size_t *outslen);
/**
* Send ceph-mgr tell command.
*
* @note Takes command string in carefully-formatted JSON; must match
* defined commands, types, etc.
*
* The result buffers are allocated on the heap; the caller is
* expected to release that memory with rados_buffer_free(). The
* buffer and length pointers can all be NULL, in which case they are
* not filled in.
*
* @param cluster cluster handle
* @param name mgr name to target
* @param cmd an array of char *'s representing the command
* @param cmdlen count of valid entries in cmd
* @param inbuf any bulk input data (crush map, etc.)
* @param inbuflen input buffer length
* @param outbuf double pointer to output buffer
* @param outbuflen pointer to output buffer length
* @param outs double pointer to status string
* @param outslen pointer to status string length
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_mgr_command_target(
rados_t cluster,
const char *name,
const char **cmd,
size_t cmdlen, const char *inbuf,
size_t inbuflen, char **outbuf,
size_t *outbuflen, char **outs,
size_t *outslen);
/**
* Send monitor command to a specific monitor.
*
* @note Takes command string in carefully-formatted JSON; must match
* defined commands, types, etc.
*
* The result buffers are allocated on the heap; the caller is
* expected to release that memory with rados_buffer_free(). The
* buffer and length pointers can all be NULL, in which case they are
* not filled in.
*
* @param cluster cluster handle
* @param name target monitor's name
* @param cmd an array of char *'s representing the command
* @param cmdlen count of valid entries in cmd
* @param inbuf any bulk input data (crush map, etc.)
* @param inbuflen input buffer length
* @param outbuf double pointer to output buffer
* @param outbuflen pointer to output buffer length
* @param outs double pointer to status string
* @param outslen pointer to status string length
* @returns 0 on success, negative error code on failure
*/
CEPH_RADOS_API int rados_mon_command_target(rados_t cluster, const char *name,
const char **cmd, size_t cmdlen,
const char *inbuf, size_t inbuflen,
char **outbuf, size_t *outbuflen,
char **outs, size_t *outslen);
/**
* free a rados-allocated buffer
*
* Release memory allocated by librados calls like rados_mon_command().
*
* @param buf buffer pointer
*/
CEPH_RADOS_API void rados_buffer_free(char *buf);
CEPH_RADOS_API int rados_osd_command(rados_t cluster, int osdid,
const char **cmd, size_t cmdlen,
const char *inbuf, size_t inbuflen,
char **outbuf, size_t *outbuflen,
char **outs, size_t *outslen);
CEPH_RADOS_API int rados_pg_command(rados_t cluster, const char *pgstr,
const char **cmd, size_t cmdlen,
const char *inbuf, size_t inbuflen,
char **outbuf, size_t *outbuflen,
char **outs, size_t *outslen);
/*
* This is not a doxygen comment leadin, because doxygen breaks on
* a typedef with function params and returns, and I can't figure out
* how to fix it.
*
* Monitor cluster log
*
* Monitor events logged to the cluster log. The callback get each
* log entry both as a single formatted line and with each field in a
* separate arg.
*
* Calling with a cb argument of NULL will deregister any previously
* registered callback.
*
* @param cluster cluster handle
* @param level minimum log level (debug, info, warn|warning, err|error)
* @param cb callback to run for each log message. It MUST NOT block
* nor call back into librados.
* @param arg void argument to pass to cb
*
* @returns 0 on success, negative code on error
*/
typedef void (*rados_log_callback_t)(void *arg,
const char *line,
const char *who,
uint64_t sec, uint64_t nsec,
uint64_t seq, const char *level,
const char *msg);
/*
* This is not a doxygen comment leadin, because doxygen breaks on
* a typedef with function params and returns, and I can't figure out
* how to fix it.
*
* Monitor cluster log
*
* Monitor events logged to the cluster log. The callback get each
* log entry both as a single formatted line and with each field in a
* separate arg.
*
* Calling with a cb argument of NULL will deregister any previously
* registered callback.
*
* @param cluster cluster handle
* @param level minimum log level (debug, info, warn|warning, err|error)
* @param cb callback to run for each log message. It MUST NOT block
* nor call back into librados.
* @param arg void argument to pass to cb
*
* @returns 0 on success, negative code on error
*/
typedef void (*rados_log_callback2_t)(void *arg,
const char *line,
const char *channel,
const char *who,
const char *name,
uint64_t sec, uint64_t nsec,
uint64_t seq, const char *level,
const char *msg);
CEPH_RADOS_API int rados_monitor_log(rados_t cluster, const char *level,
rados_log_callback_t cb, void *arg);
CEPH_RADOS_API int rados_monitor_log2(rados_t cluster, const char *level,
rados_log_callback2_t cb, void *arg);
/**
* register daemon instance for a service
*
* Register us as a daemon providing a particular service. We identify
* the service (e.g., 'rgw') and our instance name (e.g., 'rgw.$hostname').
* The metadata is a map of keys and values with arbitrary static metdata
* for this instance. The encoding is a series of NULL-terminated strings,
* alternating key names and values, terminating with an empty key name.
* For example, "foo\0bar\0this\0that\0\0" is the dict {foo=bar,this=that}.
*
* For the lifetime of the librados instance, regular beacons will be sent
* to the cluster to maintain our registration in the service map.
*
* @param cluster handle
* @param service service name
* @param daemon daemon instance name
* @param metadata_dict static daemon metadata dict
*/
CEPH_RADOS_API int rados_service_register(
rados_t cluster,
const char *service,
const char *daemon,
const char *metadata_dict);
/**
* update daemon status
*
* Update our mutable status information in the service map.
*
* The status dict is encoded the same way the daemon metadata is encoded
* for rados_service_register. For example, "foo\0bar\0this\0that\0\0" is
* {foo=bar,this=that}.
*
* @param cluster rados cluster handle
* @param status_dict status dict
*/
CEPH_RADOS_API int rados_service_update_status(
rados_t cluster,
const char *status_dict);
/** @} Mon/OSD/PG commands */
/*
* These methods are no longer supported and return -ENOTSUP where possible.
*/
CEPH_RADOS_API int rados_objects_list_open(
rados_ioctx_t io,
rados_list_ctx_t *ctx) __attribute__((deprecated));
CEPH_RADOS_API uint32_t rados_objects_list_get_pg_hash_position(
rados_list_ctx_t ctx) __attribute__((deprecated));
CEPH_RADOS_API uint32_t rados_objects_list_seek(
rados_list_ctx_t ctx,
uint32_t pos) __attribute__((deprecated));
CEPH_RADOS_API int rados_objects_list_next(
rados_list_ctx_t ctx,
const char **entry,
const char **key) __attribute__((deprecated));
CEPH_RADOS_API void rados_objects_list_close(
rados_list_ctx_t ctx) __attribute__((deprecated));
#ifdef __cplusplus
}
#endif
#endif
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