// -*- mode:C++; tab-width:8; c-basic-offset:2; indent-tabs-mode:t -*- // vim: ts=8 sw=2 smarttab #ifndef CEPH_CLS_LOCK_CLIENT_H #define CEPH_CLS_LOCK_CLIENT_H #include #include "include/rados/librados_fwd.hpp" #include "cls/lock/cls_lock_types.h" namespace rados { namespace cls { namespace lock { extern void lock(librados::ObjectWriteOperation *rados_op, const std::string& name, ClsLockType type, const std::string& cookie, const std::string& tag, const std::string& description, const utime_t& duration, uint8_t flags); extern int lock(librados::IoCtx *ioctx, const std::string& oid, const std::string& name, ClsLockType type, const std::string& cookie, const std::string& tag, const std::string& description, const utime_t& duration, uint8_t flags); extern void unlock(librados::ObjectWriteOperation *rados_op, const std::string& name, const std::string& cookie); extern int unlock(librados::IoCtx *ioctx, const std::string& oid, const std::string& name, const std::string& cookie); extern int aio_unlock(librados::IoCtx *ioctx, const std::string& oid, const std::string& name, const std::string& cookie, librados::AioCompletion *completion); extern void break_lock(librados::ObjectWriteOperation *op, const std::string& name, const std::string& cookie, const entity_name_t& locker); extern int break_lock(librados::IoCtx *ioctx, const std::string& oid, const std::string& name, const std::string& cookie, const entity_name_t& locker); extern int list_locks(librados::IoCtx *ioctx, const std::string& oid, list *locks); extern void get_lock_info_start(librados::ObjectReadOperation *rados_op, const std::string& name); extern int get_lock_info_finish(ceph::bufferlist::const_iterator *out, map *lockers, ClsLockType *type, std::string *tag); extern int get_lock_info(librados::IoCtx *ioctx, const std::string& oid, const std::string& name, map *lockers, ClsLockType *type, std::string *tag); extern void assert_locked(librados::ObjectOperation *rados_op, const std::string& name, ClsLockType type, const std::string& cookie, const std::string& tag); extern void set_cookie(librados::ObjectWriteOperation *rados_op, const std::string& name, ClsLockType type, const std::string& cookie, const std::string& tag, const std::string& new_cookie); class Lock { std::string name; std::string cookie; std::string tag; std::string description; utime_t duration; uint8_t flags; public: Lock(const std::string& _n) : name(_n), flags(0) {} void set_cookie(const std::string& c) { cookie = c; } void set_tag(const std::string& t) { tag = t; } void set_description(const std::string& desc) { description = desc; } void set_duration(const utime_t& e) { duration = e; } void set_duration(const ceph::timespan& d) { duration = utime_t(ceph::real_clock::zero() + d); } void set_may_renew(bool renew) { if (renew) { flags |= LOCK_FLAG_MAY_RENEW; flags &= ~LOCK_FLAG_MUST_RENEW; // if may then not must } else { flags &= ~LOCK_FLAG_MAY_RENEW; } } void set_must_renew(bool renew) { if (renew) { flags |= LOCK_FLAG_MUST_RENEW; flags &= ~LOCK_FLAG_MAY_RENEW; // if must then not may } else { flags &= ~LOCK_FLAG_MUST_RENEW; } } void assert_locked_shared(librados::ObjectOperation *rados_op); void assert_locked_exclusive(librados::ObjectOperation *rados_op); void assert_locked_exclusive_ephemeral(librados::ObjectOperation *rados_op); /* ObjectWriteOperation */ void lock_shared(librados::ObjectWriteOperation *ioctx); void lock_exclusive(librados::ObjectWriteOperation *ioctx); // Be careful when using an exclusive ephemeral lock; it is // intended strictly for cases when a lock object exists // solely for a lock in a given process and the object is no // longer needed when the lock is unlocked or expired, as the // cls back-end will make an effort to delete it. void lock_exclusive_ephemeral(librados::ObjectWriteOperation *ioctx); void unlock(librados::ObjectWriteOperation *ioctx); void break_lock(librados::ObjectWriteOperation *ioctx, const entity_name_t& locker); /* IoCtx */ int lock_shared(librados::IoCtx *ioctx, const std::string& oid); int lock_exclusive(librados::IoCtx *ioctx, const std::string& oid); // NB: see above comment on exclusive ephemeral locks int lock_exclusive_ephemeral(librados::IoCtx *ioctx, const std::string& oid); int unlock(librados::IoCtx *ioctx, const std::string& oid); int break_lock(librados::IoCtx *ioctx, const std::string& oid, const entity_name_t& locker); }; } // namespace lock } // namespace cls } // namespace rados #endif