// -*- 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 * * 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. * */ #include #include "common/config.h" #include "common/errno.h" #include "common/ceph_argparse.h" #include "common/ceph_json.h" #include "common/common_init.h" #include "common/TracepointProvider.h" #include "common/hobject.h" #include "include/rados/librados.h" #include "include/rados/librados.hpp" #include "include/types.h" #include #include "librados/AioCompletionImpl.h" #include "librados/IoCtxImpl.h" #include "librados/PoolAsyncCompletionImpl.h" #include "librados/RadosClient.h" #include "librados/RadosXattrIter.h" #include "librados/ListObjectImpl.h" #include #include #include #include #include #include #include #ifdef WITH_LTTNG #define TRACEPOINT_DEFINE #define TRACEPOINT_PROBE_DYNAMIC_LINKAGE #include "tracing/librados.h" #undef TRACEPOINT_PROBE_DYNAMIC_LINKAGE #undef TRACEPOINT_DEFINE #else #define tracepoint(...) #endif using std::string; using std::map; using std::set; using std::vector; using std::list; using std::runtime_error; #define dout_subsys ceph_subsys_rados #undef dout_prefix #define dout_prefix *_dout << "librados: " #define RADOS_LIST_MAX_ENTRIES 1024 namespace { TracepointProvider::Traits tracepoint_traits("librados_tp.so", "rados_tracing"); uint8_t get_checksum_op_type(rados_checksum_type_t type) { switch (type) { case LIBRADOS_CHECKSUM_TYPE_XXHASH32: return CEPH_OSD_CHECKSUM_OP_TYPE_XXHASH32; case LIBRADOS_CHECKSUM_TYPE_XXHASH64: return CEPH_OSD_CHECKSUM_OP_TYPE_XXHASH64; case LIBRADOS_CHECKSUM_TYPE_CRC32C: return CEPH_OSD_CHECKSUM_OP_TYPE_CRC32C; default: return -1; } } } // anonymous namespace /* * Structure of this file * * RadosClient and the related classes are the internal implementation of librados. * Above that layer sits the C API, found in include/rados/librados.h, and * the C++ API, found in include/rados/librados.hpp * * The C++ API sometimes implements things in terms of the C API. * Both the C++ and C API rely on RadosClient. * * Visually: * +--------------------------------------+ * | C++ API | * +--------------------+ | * | C API | | * +--------------------+-----------------+ * | RadosClient | * +--------------------------------------+ */ namespace librados { struct ObjectOperationImpl { ::ObjectOperation o; real_time rt; real_time *prt; ObjectOperationImpl() : prt(NULL) {} }; } size_t librados::ObjectOperation::size() { ::ObjectOperation *o = &impl->o; return o->size(); } static void set_op_flags(::ObjectOperation *o, int flags) { int rados_flags = 0; if (flags & LIBRADOS_OP_FLAG_EXCL) rados_flags |= CEPH_OSD_OP_FLAG_EXCL; if (flags & LIBRADOS_OP_FLAG_FAILOK) rados_flags |= CEPH_OSD_OP_FLAG_FAILOK; if (flags & LIBRADOS_OP_FLAG_FADVISE_RANDOM) rados_flags |= CEPH_OSD_OP_FLAG_FADVISE_RANDOM; if (flags & LIBRADOS_OP_FLAG_FADVISE_SEQUENTIAL) rados_flags |= CEPH_OSD_OP_FLAG_FADVISE_SEQUENTIAL; if (flags & LIBRADOS_OP_FLAG_FADVISE_WILLNEED) rados_flags |= CEPH_OSD_OP_FLAG_FADVISE_WILLNEED; if (flags & LIBRADOS_OP_FLAG_FADVISE_DONTNEED) rados_flags |= CEPH_OSD_OP_FLAG_FADVISE_DONTNEED; if (flags & LIBRADOS_OP_FLAG_FADVISE_NOCACHE) rados_flags |= CEPH_OSD_OP_FLAG_FADVISE_NOCACHE; o->set_last_op_flags(rados_flags); } //deprcated void librados::ObjectOperation::set_op_flags(ObjectOperationFlags flags) { ::set_op_flags(&impl->o, (int)flags); } void librados::ObjectOperation::set_op_flags2(int flags) { ::ObjectOperation *o = &impl->o; ::set_op_flags(o, flags); } void librados::ObjectOperation::cmpext(uint64_t off, bufferlist &cmp_bl, int *prval) { ::ObjectOperation *o = &impl->o; o->cmpext(off, cmp_bl, prval); } void librados::ObjectOperation::cmpxattr(const char *name, uint8_t op, const bufferlist& v) { ::ObjectOperation *o = &impl->o; o->cmpxattr(name, op, CEPH_OSD_CMPXATTR_MODE_STRING, v); } void librados::ObjectOperation::cmpxattr(const char *name, uint8_t op, uint64_t v) { ::ObjectOperation *o = &impl->o; bufferlist bl; ::encode(v, bl); o->cmpxattr(name, op, CEPH_OSD_CMPXATTR_MODE_U64, bl); } void librados::ObjectOperation::assert_version(uint64_t ver) { ::ObjectOperation *o = &impl->o; o->assert_version(ver); } void librados::ObjectOperation::assert_exists() { ::ObjectOperation *o = &impl->o; o->stat(NULL, (ceph::real_time*) NULL, NULL); } void librados::ObjectOperation::exec(const char *cls, const char *method, bufferlist& inbl) { ::ObjectOperation *o = &impl->o; o->call(cls, method, inbl); } void librados::ObjectOperation::exec(const char *cls, const char *method, bufferlist& inbl, bufferlist *outbl, int *prval) { ::ObjectOperation *o = &impl->o; o->call(cls, method, inbl, outbl, NULL, prval); } class ObjectOpCompletionCtx : public Context { librados::ObjectOperationCompletion *completion; bufferlist bl; public: explicit ObjectOpCompletionCtx(librados::ObjectOperationCompletion *c) : completion(c) {} void finish(int r) override { completion->handle_completion(r, bl); delete completion; } bufferlist *outbl() { return &bl; } }; void librados::ObjectOperation::exec(const char *cls, const char *method, bufferlist& inbl, librados::ObjectOperationCompletion *completion) { ::ObjectOperation *o = &impl->o; ObjectOpCompletionCtx *ctx = new ObjectOpCompletionCtx(completion); o->call(cls, method, inbl, ctx->outbl(), ctx, NULL); } void librados::ObjectReadOperation::stat(uint64_t *psize, time_t *pmtime, int *prval) { ::ObjectOperation *o = &impl->o; o->stat(psize, pmtime, prval); } void librados::ObjectReadOperation::stat2(uint64_t *psize, struct timespec *pts, int *prval) { ::ObjectOperation *o = &impl->o; o->stat(psize, pts, prval); } void librados::ObjectReadOperation::read(size_t off, uint64_t len, bufferlist *pbl, int *prval) { ::ObjectOperation *o = &impl->o; o->read(off, len, pbl, prval, NULL); } void librados::ObjectReadOperation::sparse_read(uint64_t off, uint64_t len, std::map *m, bufferlist *data_bl, int *prval) { ::ObjectOperation *o = &impl->o; o->sparse_read(off, len, m, data_bl, prval); } void librados::ObjectReadOperation::checksum(rados_checksum_type_t type, const bufferlist &init_value_bl, uint64_t off, size_t len, size_t chunk_size, bufferlist *pbl, int *prval) { ::ObjectOperation *o = &impl->o; o->checksum(get_checksum_op_type(type), init_value_bl, off, len, chunk_size, pbl, prval, nullptr); } void librados::ObjectReadOperation::tmap_get(bufferlist *pbl, int *prval) { ::ObjectOperation *o = &impl->o; o->tmap_get(pbl, prval); } void librados::ObjectReadOperation::getxattr(const char *name, bufferlist *pbl, int *prval) { ::ObjectOperation *o = &impl->o; o->getxattr(name, pbl, prval); } void librados::ObjectReadOperation::omap_get_vals( const std::string &start_after, const std::string &filter_prefix, uint64_t max_return, std::map *out_vals, int *prval) { ::ObjectOperation *o = &impl->o; o->omap_get_vals(start_after, filter_prefix, max_return, out_vals, nullptr, prval); } void librados::ObjectReadOperation::omap_get_vals2( const std::string &start_after, const std::string &filter_prefix, uint64_t max_return, std::map *out_vals, bool *pmore, int *prval) { ::ObjectOperation *o = &impl->o; o->omap_get_vals(start_after, filter_prefix, max_return, out_vals, pmore, prval); } void librados::ObjectReadOperation::omap_get_vals( const std::string &start_after, uint64_t max_return, std::map *out_vals, int *prval) { ::ObjectOperation *o = &impl->o; o->omap_get_vals(start_after, "", max_return, out_vals, nullptr, prval); } void librados::ObjectReadOperation::omap_get_vals2( const std::string &start_after, uint64_t max_return, std::map *out_vals, bool *pmore, int *prval) { ::ObjectOperation *o = &impl->o; o->omap_get_vals(start_after, "", max_return, out_vals, pmore, prval); } void librados::ObjectReadOperation::omap_get_keys( const std::string &start_after, uint64_t max_return, std::set *out_keys, int *prval) { ::ObjectOperation *o = &impl->o; o->omap_get_keys(start_after, max_return, out_keys, nullptr, prval); } void librados::ObjectReadOperation::omap_get_keys2( const std::string &start_after, uint64_t max_return, std::set *out_keys, bool *pmore, int *prval) { ::ObjectOperation *o = &impl->o; o->omap_get_keys(start_after, max_return, out_keys, pmore, prval); } void librados::ObjectReadOperation::omap_get_header(bufferlist *bl, int *prval) { ::ObjectOperation *o = &impl->o; o->omap_get_header(bl, prval); } void librados::ObjectReadOperation::omap_get_vals_by_keys( const std::set &keys, std::map *map, int *prval) { ::ObjectOperation *o = &impl->o; o->omap_get_vals_by_keys(keys, map, prval); } void librados::ObjectOperation::omap_cmp( const std::map > &assertions, int *prval) { ::ObjectOperation *o = &impl->o; o->omap_cmp(assertions, prval); } void librados::ObjectReadOperation::list_watchers( list *out_watchers, int *prval) { ::ObjectOperation *o = &impl->o; o->list_watchers(out_watchers, prval); } void librados::ObjectReadOperation::list_snaps( snap_set_t *out_snaps, int *prval) { ::ObjectOperation *o = &impl->o; o->list_snaps(out_snaps, prval); } void librados::ObjectReadOperation::is_dirty(bool *is_dirty, int *prval) { ::ObjectOperation *o = &impl->o; o->is_dirty(is_dirty, prval); } int librados::IoCtx::omap_get_vals(const std::string& oid, const std::string& orig_start_after, const std::string& filter_prefix, uint64_t max_return, std::map *out_vals) { bool first = true; string start_after = orig_start_after; bool more = true; while (max_return > 0 && more) { std::map out; ObjectReadOperation op; op.omap_get_vals2(start_after, filter_prefix, max_return, &out, &more, nullptr); bufferlist bl; int ret = operate(oid, &op, &bl); if (ret < 0) { return ret; } if (more) { if (out.empty()) { return -EINVAL; // wth } start_after = out.rbegin()->first; } if (out.size() <= max_return) { max_return -= out.size(); } else { max_return = 0; } if (first) { out_vals->swap(out); first = false; } else { out_vals->insert(out.begin(), out.end()); out.clear(); } } return 0; } int librados::IoCtx::omap_get_vals2( const std::string& oid, const std::string& start_after, const std::string& filter_prefix, uint64_t max_return, std::map *out_vals, bool *pmore) { ObjectReadOperation op; int r; op.omap_get_vals2(start_after, filter_prefix, max_return, out_vals, pmore, &r); bufferlist bl; int ret = operate(oid, &op, &bl); if (ret < 0) return ret; return r; } void librados::ObjectReadOperation::getxattrs(map *pattrs, int *prval) { ::ObjectOperation *o = &impl->o; o->getxattrs(pattrs, prval); } void librados::ObjectWriteOperation::mtime(time_t *pt) { if (pt) { impl->rt = ceph::real_clock::from_time_t(*pt); impl->prt = &impl->rt; } } void librados::ObjectWriteOperation::mtime2(struct timespec *pts) { if (pts) { impl->rt = ceph::real_clock::from_timespec(*pts); impl->prt = &impl->rt; } } void librados::ObjectWriteOperation::create(bool exclusive) { ::ObjectOperation *o = &impl->o; o->create(exclusive); } void librados::ObjectWriteOperation::create(bool exclusive, const std::string& category) // unused { ::ObjectOperation *o = &impl->o; o->create(exclusive); } void librados::ObjectWriteOperation::write(uint64_t off, const bufferlist& bl) { ::ObjectOperation *o = &impl->o; bufferlist c = bl; o->write(off, c); } void librados::ObjectWriteOperation::write_full(const bufferlist& bl) { ::ObjectOperation *o = &impl->o; bufferlist c = bl; o->write_full(c); } void librados::ObjectWriteOperation::writesame(uint64_t off, uint64_t write_len, const bufferlist& bl) { ::ObjectOperation *o = &impl->o; bufferlist c = bl; o->writesame(off, write_len, c); } void librados::ObjectWriteOperation::append(const bufferlist& bl) { ::ObjectOperation *o = &impl->o; bufferlist c = bl; o->append(c); } void librados::ObjectWriteOperation::remove() { ::ObjectOperation *o = &impl->o; o->remove(); } void librados::ObjectWriteOperation::truncate(uint64_t off) { ::ObjectOperation *o = &impl->o; o->truncate(off); } void librados::ObjectWriteOperation::zero(uint64_t off, uint64_t len) { ::ObjectOperation *o = &impl->o; o->zero(off, len); } void librados::ObjectWriteOperation::rmxattr(const char *name) { ::ObjectOperation *o = &impl->o; o->rmxattr(name); } void librados::ObjectWriteOperation::setxattr(const char *name, const bufferlist& v) { ::ObjectOperation *o = &impl->o; o->setxattr(name, v); } void librados::ObjectWriteOperation::omap_set( const map &map) { ::ObjectOperation *o = &impl->o; o->omap_set(map); } void librados::ObjectWriteOperation::omap_set_header(const bufferlist &bl) { bufferlist c = bl; ::ObjectOperation *o = &impl->o; o->omap_set_header(c); } void librados::ObjectWriteOperation::omap_clear() { ::ObjectOperation *o = &impl->o; o->omap_clear(); } void librados::ObjectWriteOperation::omap_rm_keys( const std::set &to_rm) { ::ObjectOperation *o = &impl->o; o->omap_rm_keys(to_rm); } void librados::ObjectWriteOperation::copy_from(const std::string& src, const IoCtx& src_ioctx, uint64_t src_version) { copy_from2(src, src_ioctx, src_version, 0); } void librados::ObjectWriteOperation::copy_from2(const std::string& src, const IoCtx& src_ioctx, uint64_t src_version, uint32_t src_fadvise_flags) { ::ObjectOperation *o = &impl->o; o->copy_from(object_t(src), src_ioctx.io_ctx_impl->snap_seq, src_ioctx.io_ctx_impl->oloc, src_version, 0, src_fadvise_flags); } void librados::ObjectWriteOperation::undirty() { ::ObjectOperation *o = &impl->o; o->undirty(); } void librados::ObjectReadOperation::cache_flush() { ::ObjectOperation *o = &impl->o; o->cache_flush(); } void librados::ObjectReadOperation::cache_try_flush() { ::ObjectOperation *o = &impl->o; o->cache_try_flush(); } void librados::ObjectReadOperation::cache_evict() { ::ObjectOperation *o = &impl->o; o->cache_evict(); } void librados::ObjectWriteOperation::set_redirect(const std::string& tgt_obj, const IoCtx& tgt_ioctx, uint64_t tgt_version) { ::ObjectOperation *o = &impl->o; o->set_redirect(object_t(tgt_obj), tgt_ioctx.io_ctx_impl->snap_seq, tgt_ioctx.io_ctx_impl->oloc, tgt_version); } void librados::ObjectWriteOperation::tmap_put(const bufferlist &bl) { ::ObjectOperation *o = &impl->o; bufferlist c = bl; o->tmap_put(c); } void librados::ObjectWriteOperation::tmap_update(const bufferlist& cmdbl) { ::ObjectOperation *o = &impl->o; bufferlist c = cmdbl; o->tmap_update(c); } void librados::ObjectWriteOperation::selfmanaged_snap_rollback(snap_t snapid) { ::ObjectOperation *o = &impl->o; o->rollback(snapid); } // You must specify the snapid not the name normally used with pool snapshots void librados::ObjectWriteOperation::snap_rollback(snap_t snapid) { ::ObjectOperation *o = &impl->o; o->rollback(snapid); } void librados::ObjectWriteOperation::set_alloc_hint( uint64_t expected_object_size, uint64_t expected_write_size) { ::ObjectOperation *o = &impl->o; o->set_alloc_hint(expected_object_size, expected_write_size, 0); } void librados::ObjectWriteOperation::set_alloc_hint2( uint64_t expected_object_size, uint64_t expected_write_size, uint32_t flags) { ::ObjectOperation *o = &impl->o; o->set_alloc_hint(expected_object_size, expected_write_size, flags); } void librados::ObjectWriteOperation::cache_pin() { ::ObjectOperation *o = &impl->o; o->cache_pin(); } void librados::ObjectWriteOperation::cache_unpin() { ::ObjectOperation *o = &impl->o; o->cache_unpin(); } librados::WatchCtx:: ~WatchCtx() { } librados::WatchCtx2:: ~WatchCtx2() { } struct librados::ObjListCtx { librados::IoCtxImpl dupctx; librados::IoCtxImpl *ctx; Objecter::NListContext *nlc; bool legacy_list_api; ObjListCtx(IoCtxImpl *c, Objecter::NListContext *nl, bool legacy=false) : nlc(nl), legacy_list_api(legacy) { // Get our own private IoCtxImpl so that namespace setting isn't // changed by caller between uses. ctx = &dupctx; dupctx.dup(*c); } ~ObjListCtx() { ctx = NULL; delete nlc; } }; ///////////////////////////// NObjectIteratorImpl ///////////////////////////// librados::NObjectIteratorImpl::NObjectIteratorImpl(ObjListCtx *ctx_) : ctx(ctx_) { } librados::NObjectIteratorImpl::~NObjectIteratorImpl() { ctx.reset(); } librados::NObjectIteratorImpl::NObjectIteratorImpl(const NObjectIteratorImpl &rhs) { *this = rhs; } librados::NObjectIteratorImpl& librados::NObjectIteratorImpl::operator=(const librados::NObjectIteratorImpl &rhs) { if (&rhs == this) return *this; if (rhs.ctx.get() == NULL) { ctx.reset(); return *this; } Objecter::NListContext *list_ctx = new Objecter::NListContext(*rhs.ctx->nlc); ctx.reset(new ObjListCtx(rhs.ctx->ctx, list_ctx)); cur_obj = rhs.cur_obj; return *this; } bool librados::NObjectIteratorImpl::operator==(const librados::NObjectIteratorImpl& rhs) const { if (ctx.get() == NULL) { if (rhs.ctx.get() == NULL) return true; return rhs.ctx->nlc->at_end(); } if (rhs.ctx.get() == NULL) { // Redundant but same as ObjectIterator version if (ctx.get() == NULL) return true; return ctx->nlc->at_end(); } return ctx.get() == rhs.ctx.get(); } bool librados::NObjectIteratorImpl::operator!=(const librados::NObjectIteratorImpl& rhs) const { return !(*this == rhs); } const librados::ListObject& librados::NObjectIteratorImpl::operator*() const { return cur_obj; } const librados::ListObject* librados::NObjectIteratorImpl::operator->() const { return &cur_obj; } librados::NObjectIteratorImpl& librados::NObjectIteratorImpl::operator++() { get_next(); return *this; } librados::NObjectIteratorImpl librados::NObjectIteratorImpl::operator++(int) { librados::NObjectIteratorImpl ret(*this); get_next(); return ret; } uint32_t librados::NObjectIteratorImpl::seek(uint32_t pos) { uint32_t r = rados_nobjects_list_seek(ctx.get(), pos); get_next(); return r; } uint32_t librados::NObjectIteratorImpl::seek(const ObjectCursor& cursor) { uint32_t r = rados_nobjects_list_seek_cursor(ctx.get(), (rados_object_list_cursor)cursor.c_cursor); get_next(); return r; } librados::ObjectCursor librados::NObjectIteratorImpl::get_cursor() { librados::ObjListCtx *lh = (librados::ObjListCtx *)ctx.get(); librados::ObjectCursor oc; oc.set(lh->ctx->nlist_get_cursor(lh->nlc)); return oc; } void librados::NObjectIteratorImpl::set_filter(const bufferlist &bl) { assert(ctx); ctx->nlc->filter = bl; } void librados::NObjectIteratorImpl::get_next() { const char *entry, *key, *nspace; if (ctx->nlc->at_end()) return; int ret = rados_nobjects_list_next(ctx.get(), &entry, &key, &nspace); if (ret == -ENOENT) { return; } else if (ret) { ostringstream oss; oss << "rados returned " << cpp_strerror(ret); throw std::runtime_error(oss.str()); } if (cur_obj.impl == NULL) cur_obj.impl = new ListObjectImpl(); cur_obj.impl->nspace = nspace; cur_obj.impl->oid = entry; cur_obj.impl->locator = key ? key : string(); } uint32_t librados::NObjectIteratorImpl::get_pg_hash_position() const { return ctx->nlc->get_pg_hash_position(); } ///////////////////////////// NObjectIterator ///////////////////////////// librados::NObjectIterator::NObjectIterator(ObjListCtx *ctx_) { impl = new NObjectIteratorImpl(ctx_); } librados::NObjectIterator::~NObjectIterator() { delete impl; } librados::NObjectIterator::NObjectIterator(const NObjectIterator &rhs) { if (rhs.impl == NULL) { impl = NULL; return; } impl = new NObjectIteratorImpl(); *impl = *(rhs.impl); } librados::NObjectIterator& librados::NObjectIterator::operator=(const librados::NObjectIterator &rhs) { if (rhs.impl == NULL) { delete impl; impl = NULL; return *this; } if (impl == NULL) impl = new NObjectIteratorImpl(); *impl = *(rhs.impl); return *this; } bool librados::NObjectIterator::operator==(const librados::NObjectIterator& rhs) const { if (impl && rhs.impl) { return *impl == *(rhs.impl); } else { return impl == rhs.impl; } } bool librados::NObjectIterator::operator!=(const librados::NObjectIterator& rhs) const { return !(*this == rhs); } const librados::ListObject& librados::NObjectIterator::operator*() const { assert(impl); return *(impl->get_listobjectp()); } const librados::ListObject* librados::NObjectIterator::operator->() const { assert(impl); return impl->get_listobjectp(); } librados::NObjectIterator& librados::NObjectIterator::operator++() { assert(impl); impl->get_next(); return *this; } librados::NObjectIterator librados::NObjectIterator::operator++(int) { librados::NObjectIterator ret(*this); impl->get_next(); return ret; } uint32_t librados::NObjectIterator::seek(uint32_t pos) { assert(impl); return impl->seek(pos); } uint32_t librados::NObjectIterator::seek(const ObjectCursor& cursor) { assert(impl); return impl->seek(cursor); } librados::ObjectCursor librados::NObjectIterator::get_cursor() { assert(impl); return impl->get_cursor(); } void librados::NObjectIterator::set_filter(const bufferlist &bl) { impl->set_filter(bl); } void librados::NObjectIterator::get_next() { assert(impl); impl->get_next(); } uint32_t librados::NObjectIterator::get_pg_hash_position() const { assert(impl); return impl->get_pg_hash_position(); } const librados::NObjectIterator librados::NObjectIterator::__EndObjectIterator(NULL); ///////////////////////////// PoolAsyncCompletion ////////////////////////////// int librados::PoolAsyncCompletion::PoolAsyncCompletion::set_callback(void *cb_arg, rados_callback_t cb) { PoolAsyncCompletionImpl *c = (PoolAsyncCompletionImpl *)pc; return c->set_callback(cb_arg, cb); } int librados::PoolAsyncCompletion::PoolAsyncCompletion::wait() { PoolAsyncCompletionImpl *c = (PoolAsyncCompletionImpl *)pc; return c->wait(); } bool librados::PoolAsyncCompletion::PoolAsyncCompletion::is_complete() { PoolAsyncCompletionImpl *c = (PoolAsyncCompletionImpl *)pc; return c->is_complete(); } int librados::PoolAsyncCompletion::PoolAsyncCompletion::get_return_value() { PoolAsyncCompletionImpl *c = (PoolAsyncCompletionImpl *)pc; return c->get_return_value(); } void librados::PoolAsyncCompletion::PoolAsyncCompletion::release() { PoolAsyncCompletionImpl *c = (PoolAsyncCompletionImpl *)pc; c->release(); delete this; } ///////////////////////////// AioCompletion ////////////////////////////// int librados::AioCompletion::AioCompletion::set_complete_callback(void *cb_arg, rados_callback_t cb) { AioCompletionImpl *c = (AioCompletionImpl *)pc; return c->set_complete_callback(cb_arg, cb); } int librados::AioCompletion::AioCompletion::set_safe_callback(void *cb_arg, rados_callback_t cb) { AioCompletionImpl *c = (AioCompletionImpl *)pc; return c->set_safe_callback(cb_arg, cb); } int librados::AioCompletion::AioCompletion::wait_for_complete() { AioCompletionImpl *c = (AioCompletionImpl *)pc; return c->wait_for_complete(); } int librados::AioCompletion::AioCompletion::wait_for_safe() { AioCompletionImpl *c = (AioCompletionImpl *)pc; return c->wait_for_safe(); } bool librados::AioCompletion::AioCompletion::is_complete() { AioCompletionImpl *c = (AioCompletionImpl *)pc; return c->is_complete(); } bool librados::AioCompletion::AioCompletion::is_safe() { AioCompletionImpl *c = (AioCompletionImpl *)pc; return c->is_safe(); } int librados::AioCompletion::AioCompletion::wait_for_complete_and_cb() { AioCompletionImpl *c = (AioCompletionImpl *)pc; return c->wait_for_complete_and_cb(); } int librados::AioCompletion::AioCompletion::wait_for_safe_and_cb() { AioCompletionImpl *c = (AioCompletionImpl *)pc; return c->wait_for_safe_and_cb(); } bool librados::AioCompletion::AioCompletion::is_complete_and_cb() { AioCompletionImpl *c = (AioCompletionImpl *)pc; return c->is_complete_and_cb(); } bool librados::AioCompletion::AioCompletion::is_safe_and_cb() { AioCompletionImpl *c = (AioCompletionImpl *)pc; return c->is_safe_and_cb(); } int librados::AioCompletion::AioCompletion::get_return_value() { AioCompletionImpl *c = (AioCompletionImpl *)pc; return c->get_return_value(); } int librados::AioCompletion::AioCompletion::get_version() { AioCompletionImpl *c = (AioCompletionImpl *)pc; return c->get_version(); } uint64_t librados::AioCompletion::AioCompletion::get_version64() { AioCompletionImpl *c = (AioCompletionImpl *)pc; return c->get_version(); } void librados::AioCompletion::AioCompletion::release() { AioCompletionImpl *c = (AioCompletionImpl *)pc; c->release(); delete this; } ///////////////////////////// IoCtx ////////////////////////////// librados::IoCtx::IoCtx() : io_ctx_impl(NULL) { } void librados::IoCtx::from_rados_ioctx_t(rados_ioctx_t p, IoCtx &io) { IoCtxImpl *io_ctx_impl = (IoCtxImpl*)p; io.io_ctx_impl = io_ctx_impl; if (io_ctx_impl) { io_ctx_impl->get(); } } librados::IoCtx::IoCtx(const IoCtx& rhs) { io_ctx_impl = rhs.io_ctx_impl; if (io_ctx_impl) { io_ctx_impl->get(); } } librados::IoCtx& librados::IoCtx::operator=(const IoCtx& rhs) { if (io_ctx_impl) io_ctx_impl->put(); io_ctx_impl = rhs.io_ctx_impl; io_ctx_impl->get(); return *this; } librados::IoCtx::~IoCtx() { close(); } void librados::IoCtx::close() { if (io_ctx_impl) io_ctx_impl->put(); io_ctx_impl = 0; } void librados::IoCtx::dup(const IoCtx& rhs) { if (io_ctx_impl) io_ctx_impl->put(); io_ctx_impl = new IoCtxImpl(); io_ctx_impl->get(); io_ctx_impl->dup(*rhs.io_ctx_impl); } int librados::IoCtx::set_auid(uint64_t auid_) { return io_ctx_impl->pool_change_auid(auid_); } int librados::IoCtx::set_auid_async(uint64_t auid_, PoolAsyncCompletion *c) { return io_ctx_impl->pool_change_auid_async(auid_, c->pc); } int librados::IoCtx::get_auid(uint64_t *auid_) { return rados_ioctx_pool_get_auid(io_ctx_impl, auid_); } bool librados::IoCtx::pool_requires_alignment() { return io_ctx_impl->client->pool_requires_alignment(get_id()); } int librados::IoCtx::pool_requires_alignment2(bool *requires) { return io_ctx_impl->client->pool_requires_alignment2(get_id(), requires); } uint64_t librados::IoCtx::pool_required_alignment() { return io_ctx_impl->client->pool_required_alignment(get_id()); } int librados::IoCtx::pool_required_alignment2(uint64_t *alignment) { return io_ctx_impl->client->pool_required_alignment2(get_id(), alignment); } std::string librados::IoCtx::get_pool_name() { std::string s; io_ctx_impl->client->pool_get_name(get_id(), &s); return s; } std::string librados::IoCtx::get_pool_name() const { return io_ctx_impl->get_cached_pool_name(); } uint64_t librados::IoCtx::get_instance_id() const { return io_ctx_impl->client->get_instance_id(); } int librados::IoCtx::create(const std::string& oid, bool exclusive) { object_t obj(oid); return io_ctx_impl->create(obj, exclusive); } int librados::IoCtx::create(const std::string& oid, bool exclusive, const std::string& category) // unused { object_t obj(oid); return io_ctx_impl->create(obj, exclusive); } int librados::IoCtx::write(const std::string& oid, bufferlist& bl, size_t len, uint64_t off) { object_t obj(oid); return io_ctx_impl->write(obj, bl, len, off); } int librados::IoCtx::append(const std::string& oid, bufferlist& bl, size_t len) { object_t obj(oid); return io_ctx_impl->append(obj, bl, len); } int librados::IoCtx::write_full(const std::string& oid, bufferlist& bl) { object_t obj(oid); return io_ctx_impl->write_full(obj, bl); } int librados::IoCtx::writesame(const std::string& oid, bufferlist& bl, size_t write_len, uint64_t off) { object_t obj(oid); return io_ctx_impl->writesame(obj, bl, write_len, off); } int librados::IoCtx::read(const std::string& oid, bufferlist& bl, size_t len, uint64_t off) { object_t obj(oid); return io_ctx_impl->read(obj, bl, len, off); } int librados::IoCtx::checksum(const std::string& oid, rados_checksum_type_t type, const bufferlist &init_value_bl, size_t len, uint64_t off, size_t chunk_size, bufferlist *pbl) { object_t obj(oid); return io_ctx_impl->checksum(obj, get_checksum_op_type(type), init_value_bl, len, off, chunk_size, pbl); } int librados::IoCtx::remove(const std::string& oid) { object_t obj(oid); return io_ctx_impl->remove(obj); } int librados::IoCtx::remove(const std::string& oid, int flags) { object_t obj(oid); return io_ctx_impl->remove(obj, flags); } int librados::IoCtx::trunc(const std::string& oid, uint64_t size) { object_t obj(oid); return io_ctx_impl->trunc(obj, size); } int librados::IoCtx::mapext(const std::string& oid, uint64_t off, size_t len, std::map& m) { object_t obj(oid); return io_ctx_impl->mapext(obj, off, len, m); } int librados::IoCtx::cmpext(const std::string& oid, uint64_t off, bufferlist& cmp_bl) { object_t obj(oid); return io_ctx_impl->cmpext(obj, off, cmp_bl); } int librados::IoCtx::sparse_read(const std::string& oid, std::map& m, bufferlist& bl, size_t len, uint64_t off) { object_t obj(oid); return io_ctx_impl->sparse_read(obj, m, bl, len, off); } int librados::IoCtx::getxattr(const std::string& oid, const char *name, bufferlist& bl) { object_t obj(oid); return io_ctx_impl->getxattr(obj, name, bl); } int librados::IoCtx::getxattrs(const std::string& oid, map& attrset) { object_t obj(oid); return io_ctx_impl->getxattrs(obj, attrset); } int librados::IoCtx::setxattr(const std::string& oid, const char *name, bufferlist& bl) { object_t obj(oid); return io_ctx_impl->setxattr(obj, name, bl); } int librados::IoCtx::rmxattr(const std::string& oid, const char *name) { object_t obj(oid); return io_ctx_impl->rmxattr(obj, name); } int librados::IoCtx::stat(const std::string& oid, uint64_t *psize, time_t *pmtime) { object_t obj(oid); return io_ctx_impl->stat(obj, psize, pmtime); } int librados::IoCtx::stat2(const std::string& oid, uint64_t *psize, struct timespec *pts) { object_t obj(oid); return io_ctx_impl->stat2(obj, psize, pts); } int librados::IoCtx::exec(const std::string& oid, const char *cls, const char *method, bufferlist& inbl, bufferlist& outbl) { object_t obj(oid); return io_ctx_impl->exec(obj, cls, method, inbl, outbl); } int librados::IoCtx::tmap_update(const std::string& oid, bufferlist& cmdbl) { object_t obj(oid); return io_ctx_impl->tmap_update(obj, cmdbl); } int librados::IoCtx::tmap_put(const std::string& oid, bufferlist& bl) { object_t obj(oid); return io_ctx_impl->tmap_put(obj, bl); } int librados::IoCtx::tmap_get(const std::string& oid, bufferlist& bl) { object_t obj(oid); return io_ctx_impl->tmap_get(obj, bl); } int librados::IoCtx::tmap_to_omap(const std::string& oid, bool nullok) { object_t obj(oid); return io_ctx_impl->tmap_to_omap(obj, nullok); } int librados::IoCtx::omap_get_vals(const std::string& oid, const std::string& start_after, uint64_t max_return, std::map *out_vals) { return omap_get_vals(oid, start_after, string(), max_return, out_vals); } int librados::IoCtx::omap_get_vals2( const std::string& oid, const std::string& start_after, uint64_t max_return, std::map *out_vals, bool *pmore) { ObjectReadOperation op; int r; op.omap_get_vals2(start_after, max_return, out_vals, pmore, &r); bufferlist bl; int ret = operate(oid, &op, &bl); if (ret < 0) return ret; return r; } int librados::IoCtx::omap_get_keys(const std::string& oid, const std::string& orig_start_after, uint64_t max_return, std::set *out_keys) { bool first = true; string start_after = orig_start_after; bool more = true; while (max_return > 0 && more) { std::set out; ObjectReadOperation op; op.omap_get_keys2(start_after, max_return, &out, &more, nullptr); bufferlist bl; int ret = operate(oid, &op, &bl); if (ret < 0) { return ret; } if (more) { if (out.empty()) { return -EINVAL; // wth } start_after = *out.rbegin(); } if (out.size() <= max_return) { max_return -= out.size(); } else { max_return = 0; } if (first) { out_keys->swap(out); first = false; } else { out_keys->insert(out.begin(), out.end()); out.clear(); } } return 0; } int librados::IoCtx::omap_get_keys2( const std::string& oid, const std::string& start_after, uint64_t max_return, std::set *out_keys, bool *pmore) { ObjectReadOperation op; int r; op.omap_get_keys2(start_after, max_return, out_keys, pmore, &r); bufferlist bl; int ret = operate(oid, &op, &bl); if (ret < 0) return ret; return r; } int librados::IoCtx::omap_get_header(const std::string& oid, bufferlist *bl) { ObjectReadOperation op; int r; op.omap_get_header(bl, &r); bufferlist b; int ret = operate(oid, &op, &b); if (ret < 0) return ret; return r; } int librados::IoCtx::omap_get_vals_by_keys(const std::string& oid, const std::set& keys, std::map *vals) { ObjectReadOperation op; int r; bufferlist bl; op.omap_get_vals_by_keys(keys, vals, &r); int ret = operate(oid, &op, &bl); if (ret < 0) return ret; return r; } int librados::IoCtx::omap_set(const std::string& oid, const map& m) { ObjectWriteOperation op; op.omap_set(m); return operate(oid, &op); } int librados::IoCtx::omap_set_header(const std::string& oid, const bufferlist& bl) { ObjectWriteOperation op; op.omap_set_header(bl); return operate(oid, &op); } int librados::IoCtx::omap_clear(const std::string& oid) { ObjectWriteOperation op; op.omap_clear(); return operate(oid, &op); } int librados::IoCtx::omap_rm_keys(const std::string& oid, const std::set& keys) { ObjectWriteOperation op; op.omap_rm_keys(keys); return operate(oid, &op); } static int translate_flags(int flags) { int op_flags = 0; if (flags & librados::OPERATION_BALANCE_READS) op_flags |= CEPH_OSD_FLAG_BALANCE_READS; if (flags & librados::OPERATION_LOCALIZE_READS) op_flags |= CEPH_OSD_FLAG_LOCALIZE_READS; if (flags & librados::OPERATION_ORDER_READS_WRITES) op_flags |= CEPH_OSD_FLAG_RWORDERED; if (flags & librados::OPERATION_IGNORE_CACHE) op_flags |= CEPH_OSD_FLAG_IGNORE_CACHE; if (flags & librados::OPERATION_SKIPRWLOCKS) op_flags |= CEPH_OSD_FLAG_SKIPRWLOCKS; if (flags & librados::OPERATION_IGNORE_OVERLAY) op_flags |= CEPH_OSD_FLAG_IGNORE_OVERLAY; if (flags & librados::OPERATION_FULL_TRY) op_flags |= CEPH_OSD_FLAG_FULL_TRY; if (flags & librados::OPERATION_FULL_FORCE) op_flags |= CEPH_OSD_FLAG_FULL_FORCE; if (flags & librados::OPERATION_IGNORE_REDIRECT) op_flags |= CEPH_OSD_FLAG_IGNORE_REDIRECT; return op_flags; } int librados::IoCtx::operate(const std::string& oid, librados::ObjectWriteOperation *o) { object_t obj(oid); return io_ctx_impl->operate(obj, &o->impl->o, (ceph::real_time *)o->impl->prt); } int librados::IoCtx::operate(const std::string& oid, librados::ObjectReadOperation *o, bufferlist *pbl) { object_t obj(oid); return io_ctx_impl->operate_read(obj, &o->impl->o, pbl); } int librados::IoCtx::aio_operate(const std::string& oid, AioCompletion *c, librados::ObjectWriteOperation *o) { object_t obj(oid); return io_ctx_impl->aio_operate(obj, &o->impl->o, c->pc, io_ctx_impl->snapc, 0); } int librados::IoCtx::aio_operate(const std::string& oid, AioCompletion *c, ObjectWriteOperation *o, int flags) { object_t obj(oid); return io_ctx_impl->aio_operate(obj, &o->impl->o, c->pc, io_ctx_impl->snapc, translate_flags(flags)); } int librados::IoCtx::aio_operate(const std::string& oid, AioCompletion *c, librados::ObjectWriteOperation *o, snap_t snap_seq, std::vector& snaps) { object_t obj(oid); vector snv; snv.resize(snaps.size()); for (size_t i = 0; i < snaps.size(); ++i) snv[i] = snaps[i]; SnapContext snapc(snap_seq, snv); return io_ctx_impl->aio_operate(obj, &o->impl->o, c->pc, snapc, 0); } int librados::IoCtx::aio_operate(const std::string& oid, AioCompletion *c, librados::ObjectWriteOperation *o, snap_t snap_seq, std::vector& snaps, const blkin_trace_info *trace_info) { object_t obj(oid); vector snv; snv.resize(snaps.size()); for (size_t i = 0; i < snaps.size(); ++i) snv[i] = snaps[i]; SnapContext snapc(snap_seq, snv); return io_ctx_impl->aio_operate(obj, &o->impl->o, c->pc, snapc, 0, trace_info); } int librados::IoCtx::aio_operate(const std::string& oid, AioCompletion *c, librados::ObjectReadOperation *o, bufferlist *pbl) { object_t obj(oid); return io_ctx_impl->aio_operate_read(obj, &o->impl->o, c->pc, 0, pbl); } // deprecated int librados::IoCtx::aio_operate(const std::string& oid, AioCompletion *c, librados::ObjectReadOperation *o, snap_t snapid_unused_deprecated, int flags, bufferlist *pbl) { object_t obj(oid); int op_flags = 0; if (flags & OPERATION_BALANCE_READS) op_flags |= CEPH_OSD_FLAG_BALANCE_READS; if (flags & OPERATION_LOCALIZE_READS) op_flags |= CEPH_OSD_FLAG_LOCALIZE_READS; if (flags & OPERATION_ORDER_READS_WRITES) op_flags |= CEPH_OSD_FLAG_RWORDERED; return io_ctx_impl->aio_operate_read(obj, &o->impl->o, c->pc, op_flags, pbl); } int librados::IoCtx::aio_operate(const std::string& oid, AioCompletion *c, librados::ObjectReadOperation *o, int flags, bufferlist *pbl) { object_t obj(oid); return io_ctx_impl->aio_operate_read(obj, &o->impl->o, c->pc, translate_flags(flags), pbl); } int librados::IoCtx::aio_operate(const std::string& oid, AioCompletion *c, librados::ObjectReadOperation *o, int flags, bufferlist *pbl, const blkin_trace_info *trace_info) { object_t obj(oid); return io_ctx_impl->aio_operate_read(obj, &o->impl->o, c->pc, translate_flags(flags), pbl, trace_info); } void librados::IoCtx::snap_set_read(snap_t seq) { io_ctx_impl->set_snap_read(seq); } int librados::IoCtx::selfmanaged_snap_set_write_ctx(snap_t seq, vector& snaps) { vector snv; snv.resize(snaps.size()); for (unsigned i=0; iset_snap_write_context(seq, snv); } int librados::IoCtx::snap_create(const char *snapname) { return io_ctx_impl->snap_create(snapname); } int librados::IoCtx::snap_lookup(const char *name, snap_t *snapid) { return io_ctx_impl->snap_lookup(name, snapid); } int librados::IoCtx::snap_get_stamp(snap_t snapid, time_t *t) { return io_ctx_impl->snap_get_stamp(snapid, t); } int librados::IoCtx::snap_get_name(snap_t snapid, std::string *s) { return io_ctx_impl->snap_get_name(snapid, s); } int librados::IoCtx::snap_remove(const char *snapname) { return io_ctx_impl->snap_remove(snapname); } int librados::IoCtx::snap_list(std::vector *snaps) { return io_ctx_impl->snap_list(snaps); } int librados::IoCtx::snap_rollback(const std::string& oid, const char *snapname) { return io_ctx_impl->rollback(oid, snapname); } // Deprecated name kept for backward compatibility int librados::IoCtx::rollback(const std::string& oid, const char *snapname) { return snap_rollback(oid, snapname); } int librados::IoCtx::selfmanaged_snap_create(uint64_t *snapid) { return io_ctx_impl->selfmanaged_snap_create(snapid); } void librados::IoCtx::aio_selfmanaged_snap_create(uint64_t *snapid, AioCompletion *c) { io_ctx_impl->aio_selfmanaged_snap_create(snapid, c->pc); } int librados::IoCtx::selfmanaged_snap_remove(uint64_t snapid) { return io_ctx_impl->selfmanaged_snap_remove(snapid); } void librados::IoCtx::aio_selfmanaged_snap_remove(uint64_t snapid, AioCompletion *c) { io_ctx_impl->aio_selfmanaged_snap_remove(snapid, c->pc); } int librados::IoCtx::selfmanaged_snap_rollback(const std::string& oid, uint64_t snapid) { return io_ctx_impl->selfmanaged_snap_rollback_object(oid, io_ctx_impl->snapc, snapid); } int librados::IoCtx::lock_exclusive(const std::string &oid, const std::string &name, const std::string &cookie, const std::string &description, struct timeval * duration, uint8_t flags) { utime_t dur = utime_t(); if (duration) dur.set_from_timeval(duration); return rados::cls::lock::lock(this, oid, name, LOCK_EXCLUSIVE, cookie, "", description, dur, flags); } int librados::IoCtx::lock_shared(const std::string &oid, const std::string &name, const std::string &cookie, const std::string &tag, const std::string &description, struct timeval * duration, uint8_t flags) { utime_t dur = utime_t(); if (duration) dur.set_from_timeval(duration); return rados::cls::lock::lock(this, oid, name, LOCK_SHARED, cookie, tag, description, dur, flags); } int librados::IoCtx::unlock(const std::string &oid, const std::string &name, const std::string &cookie) { return rados::cls::lock::unlock(this, oid, name, cookie); } struct AioUnlockCompletion : public librados::ObjectOperationCompletion { librados::AioCompletionImpl *completion; AioUnlockCompletion(librados::AioCompletion *c) : completion(c->pc) { completion->get(); }; void handle_completion(int r, bufferlist& outbl) override { rados_callback_t cb = completion->callback_complete; void *cb_arg = completion->callback_complete_arg; cb(completion, cb_arg); completion->lock.Lock(); completion->callback_complete = NULL; completion->cond.Signal(); completion->put_unlock(); } }; int librados::IoCtx::aio_unlock(const std::string &oid, const std::string &name, const std::string &cookie, AioCompletion *c) { return rados::cls::lock::aio_unlock(this, oid, name, cookie, c); } int librados::IoCtx::break_lock(const std::string &oid, const std::string &name, const std::string &client, const std::string &cookie) { entity_name_t locker; if (!locker.parse(client)) return -EINVAL; return rados::cls::lock::break_lock(this, oid, name, cookie, locker); } int librados::IoCtx::list_lockers(const std::string &oid, const std::string &name, int *exclusive, std::string *tag, std::list *lockers) { std::list tmp_lockers; map rados_lockers; std::string tmp_tag; ClsLockType tmp_type; int r = rados::cls::lock::get_lock_info(this, oid, name, &rados_lockers, &tmp_type, &tmp_tag); if (r < 0) return r; map::iterator map_it; for (map_it = rados_lockers.begin(); map_it != rados_lockers.end(); ++map_it) { librados::locker_t locker; locker.client = stringify(map_it->first.locker); locker.cookie = map_it->first.cookie; locker.address = stringify(map_it->second.addr); tmp_lockers.push_back(locker); } if (lockers) *lockers = tmp_lockers; if (tag) *tag = tmp_tag; if (exclusive) { if (tmp_type == LOCK_EXCLUSIVE) *exclusive = 1; else *exclusive = 0; } return tmp_lockers.size(); } librados::NObjectIterator librados::IoCtx::nobjects_begin() { bufferlist bl; return nobjects_begin(bl); } librados::NObjectIterator librados::IoCtx::nobjects_begin( const bufferlist &filter) { rados_list_ctx_t listh; rados_nobjects_list_open(io_ctx_impl, &listh); NObjectIterator iter((ObjListCtx*)listh); if (filter.length() > 0) { iter.set_filter(filter); } iter.get_next(); return iter; } librados::NObjectIterator librados::IoCtx::nobjects_begin(uint32_t pos) { bufferlist bl; return nobjects_begin(pos, bl); } librados::NObjectIterator librados::IoCtx::nobjects_begin( uint32_t pos, const bufferlist &filter) { rados_list_ctx_t listh; rados_nobjects_list_open(io_ctx_impl, &listh); NObjectIterator iter((ObjListCtx*)listh); if (filter.length() > 0) { iter.set_filter(filter); } iter.seek(pos); return iter; } librados::NObjectIterator librados::IoCtx::nobjects_begin(const ObjectCursor& cursor) { bufferlist bl; return nobjects_begin(cursor, bl); } librados::NObjectIterator librados::IoCtx::nobjects_begin( const ObjectCursor& cursor, const bufferlist &filter) { rados_list_ctx_t listh; rados_nobjects_list_open(io_ctx_impl, &listh); NObjectIterator iter((ObjListCtx*)listh); if (filter.length() > 0) { iter.set_filter(filter); } iter.seek(cursor); return iter; } const librados::NObjectIterator& librados::IoCtx::nobjects_end() const { return NObjectIterator::__EndObjectIterator; } int librados::IoCtx::hit_set_list(uint32_t hash, AioCompletion *c, std::list< std::pair > *pls) { return io_ctx_impl->hit_set_list(hash, c->pc, pls); } int librados::IoCtx::hit_set_get(uint32_t hash, AioCompletion *c, time_t stamp, bufferlist *pbl) { return io_ctx_impl->hit_set_get(hash, c->pc, stamp, pbl); } uint64_t librados::IoCtx::get_last_version() { return io_ctx_impl->last_version(); } int librados::IoCtx::aio_read(const std::string& oid, librados::AioCompletion *c, bufferlist *pbl, size_t len, uint64_t off) { return io_ctx_impl->aio_read(oid, c->pc, pbl, len, off, io_ctx_impl->snap_seq); } int librados::IoCtx::aio_read(const std::string& oid, librados::AioCompletion *c, bufferlist *pbl, size_t len, uint64_t off, uint64_t snapid) { return io_ctx_impl->aio_read(oid, c->pc, pbl, len, off, snapid); } int librados::IoCtx::aio_exec(const std::string& oid, librados::AioCompletion *c, const char *cls, const char *method, bufferlist& inbl, bufferlist *outbl) { object_t obj(oid); return io_ctx_impl->aio_exec(obj, c->pc, cls, method, inbl, outbl); } int librados::IoCtx::aio_cmpext(const std::string& oid, librados::AioCompletion *c, uint64_t off, bufferlist& cmp_bl) { return io_ctx_impl->aio_cmpext(oid, c->pc, off, cmp_bl); } int librados::IoCtx::aio_sparse_read(const std::string& oid, librados::AioCompletion *c, std::map *m, bufferlist *data_bl, size_t len, uint64_t off) { return io_ctx_impl->aio_sparse_read(oid, c->pc, m, data_bl, len, off, io_ctx_impl->snap_seq); } int librados::IoCtx::aio_sparse_read(const std::string& oid, librados::AioCompletion *c, std::map *m, bufferlist *data_bl, size_t len, uint64_t off, uint64_t snapid) { return io_ctx_impl->aio_sparse_read(oid, c->pc, m, data_bl, len, off, snapid); } int librados::IoCtx::aio_write(const std::string& oid, librados::AioCompletion *c, const bufferlist& bl, size_t len, uint64_t off) { return io_ctx_impl->aio_write(oid, c->pc, bl, len, off); } int librados::IoCtx::aio_append(const std::string& oid, librados::AioCompletion *c, const bufferlist& bl, size_t len) { return io_ctx_impl->aio_append(oid, c->pc, bl, len); } int librados::IoCtx::aio_write_full(const std::string& oid, librados::AioCompletion *c, const bufferlist& bl) { object_t obj(oid); return io_ctx_impl->aio_write_full(obj, c->pc, bl); } int librados::IoCtx::aio_writesame(const std::string& oid, librados::AioCompletion *c, const bufferlist& bl, size_t write_len, uint64_t off) { return io_ctx_impl->aio_writesame(oid, c->pc, bl, write_len, off); } int librados::IoCtx::aio_remove(const std::string& oid, librados::AioCompletion *c) { return io_ctx_impl->aio_remove(oid, c->pc); } int librados::IoCtx::aio_remove(const std::string& oid, librados::AioCompletion *c, int flags) { return io_ctx_impl->aio_remove(oid, c->pc, flags); } int librados::IoCtx::aio_flush_async(librados::AioCompletion *c) { io_ctx_impl->flush_aio_writes_async(c->pc); return 0; } int librados::IoCtx::aio_flush() { io_ctx_impl->flush_aio_writes(); return 0; } struct AioGetxattrDataPP { AioGetxattrDataPP(librados::AioCompletionImpl *c, bufferlist *_bl) : bl(_bl), completion(c) {} bufferlist *bl; struct librados::C_AioCompleteAndSafe completion; }; static void rados_aio_getxattr_completepp(rados_completion_t c, void *arg) { AioGetxattrDataPP *cdata = reinterpret_cast(arg); int rc = rados_aio_get_return_value(c); if (rc >= 0) { rc = cdata->bl->length(); } cdata->completion.finish(rc); delete cdata; } int librados::IoCtx::aio_getxattr(const std::string& oid, librados::AioCompletion *c, const char *name, bufferlist& bl) { // create data object to be passed to async callback AioGetxattrDataPP *cdata = new AioGetxattrDataPP(c->pc, &bl); if (!cdata) { return -ENOMEM; } // create completion callback librados::AioCompletionImpl *comp = new librados::AioCompletionImpl; comp->set_complete_callback(cdata, rados_aio_getxattr_completepp); // call actual getxattr from IoCtxImpl object_t obj(oid); return io_ctx_impl->aio_getxattr(obj, comp, name, bl); } int librados::IoCtx::aio_getxattrs(const std::string& oid, AioCompletion *c, map& attrset) { object_t obj(oid); return io_ctx_impl->aio_getxattrs(obj, c->pc, attrset); } int librados::IoCtx::aio_setxattr(const std::string& oid, AioCompletion *c, const char *name, bufferlist& bl) { object_t obj(oid); return io_ctx_impl->aio_setxattr(obj, c->pc, name, bl); } int librados::IoCtx::aio_rmxattr(const std::string& oid, AioCompletion *c, const char *name) { object_t obj(oid); return io_ctx_impl->aio_rmxattr(obj, c->pc, name); } int librados::IoCtx::aio_stat(const std::string& oid, librados::AioCompletion *c, uint64_t *psize, time_t *pmtime) { object_t obj(oid); return io_ctx_impl->aio_stat(obj, c->pc, psize, pmtime); } int librados::IoCtx::aio_cancel(librados::AioCompletion *c) { return io_ctx_impl->aio_cancel(c->pc); } int librados::IoCtx::watch(const string& oid, uint64_t ver, uint64_t *cookie, librados::WatchCtx *ctx) { object_t obj(oid); return io_ctx_impl->watch(obj, cookie, ctx, NULL); } int librados::IoCtx::watch2(const string& oid, uint64_t *cookie, librados::WatchCtx2 *ctx2) { object_t obj(oid); return io_ctx_impl->watch(obj, cookie, NULL, ctx2); } int librados::IoCtx::watch3(const string& oid, uint64_t *cookie, librados::WatchCtx2 *ctx2, uint32_t timeout) { object_t obj(oid); return io_ctx_impl->watch(obj, cookie, NULL, ctx2, timeout); } int librados::IoCtx::aio_watch(const string& oid, AioCompletion *c, uint64_t *cookie, librados::WatchCtx2 *ctx2) { object_t obj(oid); return io_ctx_impl->aio_watch(obj, c->pc, cookie, NULL, ctx2); } int librados::IoCtx::aio_watch2(const string& oid, AioCompletion *c, uint64_t *cookie, librados::WatchCtx2 *ctx2, uint32_t timeout) { object_t obj(oid); return io_ctx_impl->aio_watch(obj, c->pc, cookie, NULL, ctx2, timeout); } int librados::IoCtx::unwatch(const string& oid, uint64_t handle) { return io_ctx_impl->unwatch(handle); } int librados::IoCtx::unwatch2(uint64_t handle) { return io_ctx_impl->unwatch(handle); } int librados::IoCtx::aio_unwatch(uint64_t handle, AioCompletion *c) { return io_ctx_impl->aio_unwatch(handle, c->pc); } int librados::IoCtx::watch_check(uint64_t handle) { return io_ctx_impl->watch_check(handle); } int librados::IoCtx::notify(const string& oid, uint64_t ver, bufferlist& bl) { object_t obj(oid); return io_ctx_impl->notify(obj, bl, 0, NULL, NULL, NULL); } int librados::IoCtx::notify2(const string& oid, bufferlist& bl, uint64_t timeout_ms, bufferlist *preplybl) { object_t obj(oid); return io_ctx_impl->notify(obj, bl, timeout_ms, preplybl, NULL, NULL); } int librados::IoCtx::aio_notify(const string& oid, AioCompletion *c, bufferlist& bl, uint64_t timeout_ms, bufferlist *preplybl) { object_t obj(oid); return io_ctx_impl->aio_notify(obj, c->pc, bl, timeout_ms, preplybl, NULL, NULL); } void librados::IoCtx::notify_ack(const std::string& o, uint64_t notify_id, uint64_t handle, bufferlist& bl) { io_ctx_impl->notify_ack(o, notify_id, handle, bl); } int librados::IoCtx::list_watchers(const std::string& oid, std::list *out_watchers) { ObjectReadOperation op; int r; op.list_watchers(out_watchers, &r); bufferlist bl; int ret = operate(oid, &op, &bl); if (ret < 0) return ret; return r; } int librados::IoCtx::list_snaps(const std::string& oid, snap_set_t *out_snaps) { ObjectReadOperation op; int r; if (io_ctx_impl->snap_seq != CEPH_SNAPDIR) return -EINVAL; op.list_snaps(out_snaps, &r); bufferlist bl; int ret = operate(oid, &op, &bl); if (ret < 0) return ret; return r; } void librados::IoCtx::set_notify_timeout(uint32_t timeout) { io_ctx_impl->set_notify_timeout(timeout); } int librados::IoCtx::set_alloc_hint(const std::string& o, uint64_t expected_object_size, uint64_t expected_write_size) { object_t oid(o); return io_ctx_impl->set_alloc_hint(oid, expected_object_size, expected_write_size, 0); } int librados::IoCtx::set_alloc_hint2(const std::string& o, uint64_t expected_object_size, uint64_t expected_write_size, uint32_t flags) { object_t oid(o); return io_ctx_impl->set_alloc_hint(oid, expected_object_size, expected_write_size, flags); } void librados::IoCtx::set_assert_version(uint64_t ver) { io_ctx_impl->set_assert_version(ver); } void librados::IoCtx::locator_set_key(const string& key) { io_ctx_impl->oloc.key = key; } void librados::IoCtx::set_namespace(const string& nspace) { io_ctx_impl->oloc.nspace = nspace; } int64_t librados::IoCtx::get_id() { return io_ctx_impl->get_id(); } uint32_t librados::IoCtx::get_object_hash_position(const std::string& oid) { uint32_t hash; int r = io_ctx_impl->get_object_hash_position(oid, &hash); if (r < 0) hash = 0; return hash; } uint32_t librados::IoCtx::get_object_pg_hash_position(const std::string& oid) { uint32_t hash; int r = io_ctx_impl->get_object_pg_hash_position(oid, &hash); if (r < 0) hash = 0; return hash; } int librados::IoCtx::get_object_hash_position2( const std::string& oid, uint32_t *hash_position) { return io_ctx_impl->get_object_hash_position(oid, hash_position); } int librados::IoCtx::get_object_pg_hash_position2( const std::string& oid, uint32_t *pg_hash_position) { return io_ctx_impl->get_object_pg_hash_position(oid, pg_hash_position); } librados::config_t librados::IoCtx::cct() { return (config_t)io_ctx_impl->client->cct; } librados::IoCtx::IoCtx(IoCtxImpl *io_ctx_impl_) : io_ctx_impl(io_ctx_impl_) { } void librados::IoCtx::set_osdmap_full_try() { io_ctx_impl->objecter->set_osdmap_full_try(); } void librados::IoCtx::unset_osdmap_full_try() { io_ctx_impl->objecter->unset_osdmap_full_try(); } ///////////////////////////// Rados ////////////////////////////// void librados::Rados::version(int *major, int *minor, int *extra) { rados_version(major, minor, extra); } librados::Rados::Rados() : client(NULL) { } librados::Rados::Rados(IoCtx &ioctx) { client = ioctx.io_ctx_impl->client; assert(client != NULL); client->get(); } librados::Rados::~Rados() { shutdown(); } int librados::Rados::init(const char * const id) { return rados_create((rados_t *)&client, id); } int librados::Rados::init2(const char * const name, const char * const clustername, uint64_t flags) { return rados_create2((rados_t *)&client, clustername, name, flags); } int librados::Rados::init_with_context(config_t cct_) { return rados_create_with_context((rados_t *)&client, (rados_config_t)cct_); } int librados::Rados::connect() { return client->connect(); } librados::config_t librados::Rados::cct() { return (config_t)client->cct; } int librados::Rados::watch_flush() { if (!client) return -EINVAL; return client->watch_flush(); } int librados::Rados::aio_watch_flush(AioCompletion *c) { if (!client) return -EINVAL; return client->async_watch_flush(c->pc); } void librados::Rados::shutdown() { if (!client) return; if (client->put()) { client->shutdown(); delete client; client = NULL; } } uint64_t librados::Rados::get_instance_id() { return client->get_instance_id(); } int librados::Rados::conf_read_file(const char * const path) const { return rados_conf_read_file((rados_t)client, path); } int librados::Rados::conf_parse_argv(int argc, const char ** argv) const { return rados_conf_parse_argv((rados_t)client, argc, argv); } int librados::Rados::conf_parse_argv_remainder(int argc, const char ** argv, const char ** remargv) const { return rados_conf_parse_argv_remainder((rados_t)client, argc, argv, remargv); } int librados::Rados::conf_parse_env(const char *name) const { return rados_conf_parse_env((rados_t)client, name); } int librados::Rados::conf_set(const char *option, const char *value) { return rados_conf_set((rados_t)client, option, value); } int librados::Rados::conf_get(const char *option, std::string &val) { char *str = NULL; md_config_t *conf = client->cct->_conf; int ret = conf->get_val(option, &str, -1); if (ret) { free(str); return ret; } val = str; free(str); return 0; } int librados::Rados::service_daemon_register( const std::string& service, ///< service name (e.g., 'rgw') const std::string& name, ///< daemon name (e.g., 'gwfoo') const std::map& metadata) ///< static metadata about daemon { return client->service_daemon_register(service, name, metadata); } int librados::Rados::service_daemon_update_status( const std::map& status) { return client->service_daemon_update_status(status); } int librados::Rados::pool_create(const char *name) { string str(name); return client->pool_create(str); } int librados::Rados::pool_create(const char *name, uint64_t auid) { string str(name); return client->pool_create(str, auid); } int librados::Rados::pool_create(const char *name, uint64_t auid, __u8 crush_rule) { string str(name); return client->pool_create(str, auid, crush_rule); } int librados::Rados::pool_create_async(const char *name, PoolAsyncCompletion *c) { string str(name); return client->pool_create_async(str, c->pc); } int librados::Rados::pool_create_async(const char *name, uint64_t auid, PoolAsyncCompletion *c) { string str(name); return client->pool_create_async(str, c->pc, auid); } int librados::Rados::pool_create_async(const char *name, uint64_t auid, __u8 crush_rule, PoolAsyncCompletion *c) { string str(name); return client->pool_create_async(str, c->pc, auid, crush_rule); } int librados::Rados::pool_get_base_tier(int64_t pool_id, int64_t* base_tier) { tracepoint(librados, rados_pool_get_base_tier_enter, (rados_t)client, pool_id); int retval = client->pool_get_base_tier(pool_id, base_tier); tracepoint(librados, rados_pool_get_base_tier_exit, retval, *base_tier); return retval; } int librados::Rados::pool_delete(const char *name) { return client->pool_delete(name); } int librados::Rados::pool_delete_async(const char *name, PoolAsyncCompletion *c) { return client->pool_delete_async(name, c->pc); } int librados::Rados::pool_list(std::list& v) { std::list > pools; int r = client->pool_list(pools); if (r < 0) { return r; } v.clear(); for (std::list >::iterator it = pools.begin(); it != pools.end(); ++it) { v.push_back(it->second); } return 0; } int librados::Rados::pool_list2(std::list >& v) { return client->pool_list(v); } int64_t librados::Rados::pool_lookup(const char *name) { return client->lookup_pool(name); } int librados::Rados::pool_reverse_lookup(int64_t id, std::string *name) { return client->pool_get_name(id, name); } int librados::Rados::mon_command(string cmd, const bufferlist& inbl, bufferlist *outbl, string *outs) { vector cmdvec; cmdvec.push_back(cmd); return client->mon_command(cmdvec, inbl, outbl, outs); } int librados::Rados::osd_command(int osdid, std::string cmd, const bufferlist& inbl, bufferlist *outbl, std::string *outs) { vector cmdvec; cmdvec.push_back(cmd); return client->osd_command(osdid, cmdvec, inbl, outbl, outs); } int librados::Rados::mgr_command(std::string cmd, const bufferlist& inbl, bufferlist *outbl, std::string *outs) { vector cmdvec; cmdvec.push_back(cmd); return client->mgr_command(cmdvec, inbl, outbl, outs); } int librados::Rados::pg_command(const char *pgstr, std::string cmd, const bufferlist& inbl, bufferlist *outbl, std::string *outs) { vector cmdvec; cmdvec.push_back(cmd); pg_t pgid; if (!pgid.parse(pgstr)) return -EINVAL; return client->pg_command(pgid, cmdvec, inbl, outbl, outs); } int librados::Rados::ioctx_create(const char *name, IoCtx &io) { rados_ioctx_t p; int ret = rados_ioctx_create((rados_t)client, name, &p); if (ret) return ret; io.close(); io.io_ctx_impl = (IoCtxImpl*)p; return 0; } int librados::Rados::ioctx_create2(int64_t pool_id, IoCtx &io) { rados_ioctx_t p; int ret = rados_ioctx_create2((rados_t)client, pool_id, &p); if (ret) return ret; io.close(); io.io_ctx_impl = (IoCtxImpl*)p; return 0; } void librados::Rados::test_blacklist_self(bool set) { client->blacklist_self(set); } int librados::Rados::get_pool_stats(std::list& v, stats_map& result) { map rawresult; int r = client->get_pool_stats(v, rawresult); for (map::iterator p = rawresult.begin(); p != rawresult.end(); ++p) { pool_stat_t& pv = result[p->first]; object_stat_sum_t *sum = &p->second.stats.sum; pv.num_kb = SHIFT_ROUND_UP(sum->num_bytes, 10); pv.num_bytes = sum->num_bytes; pv.num_objects = sum->num_objects; pv.num_object_clones = sum->num_object_clones; pv.num_object_copies = sum->num_object_copies; pv.num_objects_missing_on_primary = sum->num_objects_missing_on_primary; pv.num_objects_unfound = sum->num_objects_unfound; pv.num_objects_degraded = sum->num_objects_degraded; pv.num_rd = sum->num_rd; pv.num_rd_kb = sum->num_rd_kb; pv.num_wr = sum->num_wr; pv.num_wr_kb = sum->num_wr_kb; } return r; } int librados::Rados::get_pool_stats(std::list& v, std::map& result) { stats_map m; int r = get_pool_stats(v, m); if (r < 0) return r; for (map::iterator p = m.begin(); p != m.end(); ++p) { result[p->first][string()] = p->second; } return r; } int librados::Rados::get_pool_stats(std::list& v, string& category, // unused std::map& result) { return -EOPNOTSUPP; } bool librados::Rados::get_pool_is_selfmanaged_snaps_mode(const std::string& pool) { return client->get_pool_is_selfmanaged_snaps_mode(pool); } int librados::Rados::cluster_stat(cluster_stat_t& result) { ceph_statfs stats; int r = client->get_fs_stats(stats); result.kb = stats.kb; result.kb_used = stats.kb_used; result.kb_avail = stats.kb_avail; result.num_objects = stats.num_objects; return r; } int librados::Rados::cluster_fsid(string *fsid) { return client->get_fsid(fsid); } namespace librados { struct PlacementGroupImpl { pg_t pgid; }; PlacementGroup::PlacementGroup() : impl{new PlacementGroupImpl} {} PlacementGroup::PlacementGroup(const PlacementGroup& pg) : impl{new PlacementGroupImpl} { impl->pgid = pg.impl->pgid; } PlacementGroup::~PlacementGroup() {} bool PlacementGroup::parse(const char* s) { return impl->pgid.parse(s); } } std::ostream& librados::operator<<(std::ostream& out, const librados::PlacementGroup& pg) { return out << pg.impl->pgid; } namespace { int decode_json(JSONObj *obj, pg_t& pg) { string pg_str; JSONDecoder::decode_json("pgid", pg_str, obj); if (pg.parse(pg_str.c_str())) { return 0; } else { return -EINVAL; } } int get_inconsistent_pgs(librados::RadosClient& client, int64_t pool_id, std::vector* pgs) { vector cmd = { "{\"prefix\": \"pg ls\"," "\"pool\": " + std::to_string(pool_id) + "," "\"states\": [\"inconsistent\"]," "\"format\": \"json\"}" }; bufferlist inbl, outbl; string outstring; int ret = client.mgr_command(cmd, inbl, &outbl, &outstring); if (ret) { return ret; } if (!outbl.length()) { // no pg returned return ret; } JSONParser parser; if (!parser.parse(outbl.c_str(), outbl.length())) { return -EINVAL; } if (!parser.is_array()) { return -EINVAL; } vector v = parser.get_array_elements(); for (auto i : v) { JSONParser pg_json; if (!pg_json.parse(i.c_str(), i.length())) { return -EINVAL; } librados::PlacementGroup pg; if (decode_json(&pg_json, pg.impl->pgid)) { return -EINVAL; } pgs->emplace_back(pg); } return 0; } } int librados::Rados::get_inconsistent_pgs(int64_t pool_id, std::vector* pgs) { return ::get_inconsistent_pgs(*client, pool_id, pgs); } int librados::Rados::get_inconsistent_objects(const PlacementGroup& pg, const object_id_t &start_after, unsigned max_return, AioCompletion *c, std::vector* objects, uint32_t* interval) { IoCtx ioctx; const pg_t pgid = pg.impl->pgid; int r = ioctx_create2(pgid.pool(), ioctx); if (r < 0) { return r; } return ioctx.io_ctx_impl->get_inconsistent_objects(pgid, start_after, max_return, c->pc, objects, interval); } int librados::Rados::get_inconsistent_snapsets(const PlacementGroup& pg, const object_id_t &start_after, unsigned max_return, AioCompletion *c, std::vector* snapsets, uint32_t* interval) { IoCtx ioctx; const pg_t pgid = pg.impl->pgid; int r = ioctx_create2(pgid.pool(), ioctx); if (r < 0) { return r; } return ioctx.io_ctx_impl->get_inconsistent_snapsets(pgid, start_after, max_return, c->pc, snapsets, interval); } int librados::Rados::wait_for_latest_osdmap() { return client->wait_for_latest_osdmap(); } int librados::Rados::blacklist_add(const std::string& client_address, uint32_t expire_seconds) { return client->blacklist_add(client_address, expire_seconds); } librados::PoolAsyncCompletion *librados::Rados::pool_async_create_completion() { PoolAsyncCompletionImpl *c = new PoolAsyncCompletionImpl; return new PoolAsyncCompletion(c); } librados::AioCompletion *librados::Rados::aio_create_completion() { AioCompletionImpl *c = new AioCompletionImpl; return new AioCompletion(c); } librados::AioCompletion *librados::Rados::aio_create_completion(void *cb_arg, callback_t cb_complete, callback_t cb_safe) { AioCompletionImpl *c; int r = rados_aio_create_completion(cb_arg, cb_complete, cb_safe, (void**)&c); assert(r == 0); return new AioCompletion(c); } librados::ObjectOperation::ObjectOperation() { impl = new ObjectOperationImpl; } librados::ObjectOperation::~ObjectOperation() { delete impl; } ///////////////////////////// C API ////////////////////////////// static CephContext *rados_create_cct(const char * const clustername, CephInitParameters *iparams) { // missing things compared to global_init: // g_ceph_context, g_conf, g_lockdep, signal handlers CephContext *cct = common_preinit(*iparams, CODE_ENVIRONMENT_LIBRARY, 0); if (clustername) cct->_conf->cluster = clustername; cct->_conf->parse_env(); // environment variables override cct->_conf->apply_changes(NULL); TracepointProvider::initialize(cct); return cct; } extern "C" int rados_create(rados_t *pcluster, const char * const id) { CephInitParameters iparams(CEPH_ENTITY_TYPE_CLIENT); if (id) { iparams.name.set(CEPH_ENTITY_TYPE_CLIENT, id); } CephContext *cct = rados_create_cct("", &iparams); tracepoint(librados, rados_create_enter, id); *pcluster = reinterpret_cast(new librados::RadosClient(cct)); tracepoint(librados, rados_create_exit, 0, *pcluster); cct->put(); return 0; } // as above, but // 1) don't assume 'client.'; name is a full type.id namestr // 2) allow setting clustername // 3) flags is for future expansion (maybe some of the global_init() // behavior is appropriate for some consumers of librados, for instance) extern "C" int rados_create2(rados_t *pcluster, const char *const clustername, const char * const name, uint64_t flags) { // client is assumed, but from_str will override int retval = 0; CephInitParameters iparams(CEPH_ENTITY_TYPE_CLIENT); if (!name || !iparams.name.from_str(name)) { retval = -EINVAL; } CephContext *cct = rados_create_cct(clustername, &iparams); tracepoint(librados, rados_create2_enter, clustername, name, flags); if (retval == 0) { *pcluster = reinterpret_cast(new librados::RadosClient(cct)); } tracepoint(librados, rados_create2_exit, retval, *pcluster); cct->put(); return retval; } /* This function is intended for use by Ceph daemons. These daemons have * already called global_init and want to use that particular configuration for * their cluster. */ extern "C" int rados_create_with_context(rados_t *pcluster, rados_config_t cct_) { CephContext *cct = (CephContext *)cct_; TracepointProvider::initialize(cct); tracepoint(librados, rados_create_with_context_enter, cct_); librados::RadosClient *radosp = new librados::RadosClient(cct); *pcluster = (void *)radosp; tracepoint(librados, rados_create_with_context_exit, 0, *pcluster); return 0; } extern "C" rados_config_t rados_cct(rados_t cluster) { tracepoint(librados, rados_cct_enter, cluster); librados::RadosClient *client = (librados::RadosClient *)cluster; rados_config_t retval = (rados_config_t)client->cct; tracepoint(librados, rados_cct_exit, retval); return retval; } extern "C" int rados_connect(rados_t cluster) { tracepoint(librados, rados_connect_enter, cluster); librados::RadosClient *client = (librados::RadosClient *)cluster; int retval = client->connect(); tracepoint(librados, rados_connect_exit, retval); return retval; } extern "C" void rados_shutdown(rados_t cluster) { tracepoint(librados, rados_shutdown_enter, cluster); librados::RadosClient *radosp = (librados::RadosClient *)cluster; radosp->shutdown(); delete radosp; tracepoint(librados, rados_shutdown_exit); } extern "C" uint64_t rados_get_instance_id(rados_t cluster) { tracepoint(librados, rados_get_instance_id_enter, cluster); librados::RadosClient *client = (librados::RadosClient *)cluster; uint64_t retval = client->get_instance_id(); tracepoint(librados, rados_get_instance_id_exit, retval); return retval; } extern "C" void rados_version(int *major, int *minor, int *extra) { tracepoint(librados, rados_version_enter, major, minor, extra); if (major) *major = LIBRADOS_VER_MAJOR; if (minor) *minor = LIBRADOS_VER_MINOR; if (extra) *extra = LIBRADOS_VER_EXTRA; tracepoint(librados, rados_version_exit, LIBRADOS_VER_MAJOR, LIBRADOS_VER_MINOR, LIBRADOS_VER_EXTRA); } // -- config -- extern "C" int rados_conf_read_file(rados_t cluster, const char *path_list) { tracepoint(librados, rados_conf_read_file_enter, cluster, path_list); librados::RadosClient *client = (librados::RadosClient *)cluster; md_config_t *conf = client->cct->_conf; ostringstream warnings; int ret = conf->parse_config_files(path_list, &warnings, 0); if (ret) { if (warnings.tellp() > 0) lderr(client->cct) << warnings.str() << dendl; client->cct->_conf->complain_about_parse_errors(client->cct); tracepoint(librados, rados_conf_read_file_exit, ret); return ret; } conf->parse_env(); // environment variables override conf->apply_changes(NULL); client->cct->_conf->complain_about_parse_errors(client->cct); tracepoint(librados, rados_conf_read_file_exit, 0); return 0; } extern "C" int rados_conf_parse_argv(rados_t cluster, int argc, const char **argv) { tracepoint(librados, rados_conf_parse_argv_enter, cluster, argc); int i; for(i = 0; i < argc; i++) { tracepoint(librados, rados_conf_parse_argv_arg, argv[i]); } librados::RadosClient *client = (librados::RadosClient *)cluster; md_config_t *conf = client->cct->_conf; vector args; argv_to_vec(argc, argv, args); int ret = conf->parse_argv(args); if (ret) { tracepoint(librados, rados_conf_parse_argv_exit, ret); return ret; } conf->apply_changes(NULL); tracepoint(librados, rados_conf_parse_argv_exit, 0); return 0; } // like above, but return the remainder of argv to contain remaining // unparsed args. Must be allocated to at least argc by caller. // remargv will contain n <= argc pointers to original argv[], the end // of which may be NULL extern "C" int rados_conf_parse_argv_remainder(rados_t cluster, int argc, const char **argv, const char **remargv) { tracepoint(librados, rados_conf_parse_argv_remainder_enter, cluster, argc); unsigned int i; for(i = 0; i < (unsigned int) argc; i++) { tracepoint(librados, rados_conf_parse_argv_remainder_arg, argv[i]); } librados::RadosClient *client = (librados::RadosClient *)cluster; md_config_t *conf = client->cct->_conf; vector args; for (int i=0; iparse_argv(args); if (ret) { tracepoint(librados, rados_conf_parse_argv_remainder_exit, ret); return ret; } conf->apply_changes(NULL); assert(args.size() <= (unsigned int)argc); for (i = 0; i < (unsigned int)argc; ++i) { if (i < args.size()) remargv[i] = args[i]; else remargv[i] = (const char *)NULL; tracepoint(librados, rados_conf_parse_argv_remainder_remarg, remargv[i]); } tracepoint(librados, rados_conf_parse_argv_remainder_exit, 0); return 0; } extern "C" int rados_conf_parse_env(rados_t cluster, const char *env) { tracepoint(librados, rados_conf_parse_env_enter, cluster, env); librados::RadosClient *client = (librados::RadosClient *)cluster; md_config_t *conf = client->cct->_conf; vector args; env_to_vec(args, env); int ret = conf->parse_argv(args); if (ret) { tracepoint(librados, rados_conf_parse_env_exit, ret); return ret; } conf->apply_changes(NULL); tracepoint(librados, rados_conf_parse_env_exit, 0); return 0; } extern "C" int rados_conf_set(rados_t cluster, const char *option, const char *value) { tracepoint(librados, rados_conf_set_enter, cluster, option, value); librados::RadosClient *client = (librados::RadosClient *)cluster; md_config_t *conf = client->cct->_conf; int ret = conf->set_val(option, value); if (ret) { tracepoint(librados, rados_conf_set_exit, ret); return ret; } conf->apply_changes(NULL); tracepoint(librados, rados_conf_set_exit, 0); return 0; } /* cluster info */ extern "C" int rados_cluster_stat(rados_t cluster, rados_cluster_stat_t *result) { tracepoint(librados, rados_cluster_stat_enter, cluster); librados::RadosClient *client = (librados::RadosClient *)cluster; ceph_statfs stats; int r = client->get_fs_stats(stats); result->kb = stats.kb; result->kb_used = stats.kb_used; result->kb_avail = stats.kb_avail; result->num_objects = stats.num_objects; tracepoint(librados, rados_cluster_stat_exit, r, result->kb, result->kb_used, result->kb_avail, result->num_objects); return r; } extern "C" int rados_conf_get(rados_t cluster, const char *option, char *buf, size_t len) { tracepoint(librados, rados_conf_get_enter, cluster, option, len); char *tmp = buf; librados::RadosClient *client = (librados::RadosClient *)cluster; md_config_t *conf = client->cct->_conf; int retval = conf->get_val(option, &tmp, len); tracepoint(librados, rados_conf_get_exit, retval, retval ? "" : option); return retval; } extern "C" int64_t rados_pool_lookup(rados_t cluster, const char *name) { tracepoint(librados, rados_pool_lookup_enter, cluster, name); librados::RadosClient *radosp = (librados::RadosClient *)cluster; int64_t retval = radosp->lookup_pool(name); tracepoint(librados, rados_pool_lookup_exit, retval); return retval; } extern "C" int rados_pool_reverse_lookup(rados_t cluster, int64_t id, char *buf, size_t maxlen) { tracepoint(librados, rados_pool_reverse_lookup_enter, cluster, id, maxlen); librados::RadosClient *radosp = (librados::RadosClient *)cluster; std::string name; int r = radosp->pool_get_name(id, &name); if (r < 0) { tracepoint(librados, rados_pool_reverse_lookup_exit, r, ""); return r; } if (name.length() >= maxlen) { tracepoint(librados, rados_pool_reverse_lookup_exit, -ERANGE, ""); return -ERANGE; } strcpy(buf, name.c_str()); int retval = name.length(); tracepoint(librados, rados_pool_reverse_lookup_exit, retval, buf); return retval; } extern "C" int rados_cluster_fsid(rados_t cluster, char *buf, size_t maxlen) { tracepoint(librados, rados_cluster_fsid_enter, cluster, maxlen); librados::RadosClient *radosp = (librados::RadosClient *)cluster; std::string fsid; radosp->get_fsid(&fsid); if (fsid.length() >= maxlen) { tracepoint(librados, rados_cluster_fsid_exit, -ERANGE, ""); return -ERANGE; } strcpy(buf, fsid.c_str()); int retval = fsid.length(); tracepoint(librados, rados_cluster_fsid_exit, retval, buf); return retval; } extern "C" int rados_wait_for_latest_osdmap(rados_t cluster) { tracepoint(librados, rados_wait_for_latest_osdmap_enter, cluster); librados::RadosClient *radosp = (librados::RadosClient *)cluster; int retval = radosp->wait_for_latest_osdmap(); tracepoint(librados, rados_wait_for_latest_osdmap_exit, retval); return retval; } extern "C" int rados_blacklist_add(rados_t cluster, char *client_address, uint32_t expire_seconds) { librados::RadosClient *radosp = (librados::RadosClient *)cluster; return radosp->blacklist_add(client_address, expire_seconds); } extern "C" int rados_application_enable(rados_ioctx_t io, const char *app_name, int force) { librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; return ctx->application_enable(app_name, force != 0); } extern "C" int rados_application_list(rados_ioctx_t io, char *values, size_t *values_len) { librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; std::set app_names; int r = ctx->application_list(&app_names); if (r < 0) { return r; } size_t total_len = 0; for (auto app_name : app_names) { total_len += app_name.size() + 1; } if (*values_len < total_len) { *values_len = total_len; return -ERANGE; } char *values_p = values; for (auto app_name : app_names) { size_t len = app_name.size() + 1; strncpy(values_p, app_name.c_str(), len); values_p += len; } *values_p = '\0'; *values_len = total_len; return 0; } extern "C" int rados_application_metadata_get(rados_ioctx_t io, const char *app_name, const char *key, char *value, size_t *value_len) { librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; std::string value_str; int r = ctx->application_metadata_get(app_name, key, &value_str); if (r < 0) { return r; } size_t len = value_str.size() + 1; if (*value_len < len) { *value_len = len; return -ERANGE; } strncpy(value, value_str.c_str(), len); *value_len = len; return 0; } extern "C" int rados_application_metadata_set(rados_ioctx_t io, const char *app_name, const char *key, const char *value) { librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; return ctx->application_metadata_set(app_name, key, value); } extern "C" int rados_application_metadata_remove(rados_ioctx_t io, const char *app_name, const char *key) { librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; return ctx->application_metadata_remove(app_name, key); } extern "C" int rados_application_metadata_list(rados_ioctx_t io, const char *app_name, char *keys, size_t *keys_len, char *values, size_t *vals_len) { librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; std::map metadata; int r = ctx->application_metadata_list(app_name, &metadata); if (r < 0) { return r; } size_t total_key_len = 0; size_t total_val_len = 0; for (auto pair : metadata) { total_key_len += pair.first.size() + 1; total_val_len += pair.second.size() + 1; } if (*keys_len < total_key_len || *vals_len < total_val_len) { *keys_len = total_key_len; *vals_len = total_val_len; return -ERANGE; } char *keys_p = keys; char *vals_p = values; for (auto pair : metadata) { size_t key_len = pair.first.size() + 1; strncpy(keys_p, pair.first.c_str(), key_len); keys_p += key_len; size_t val_len = pair.second.size() + 1; strncpy(vals_p, pair.second.c_str(), val_len); vals_p += val_len; } *keys_p = '\0'; *keys_len = total_key_len; *vals_p = '\0'; *vals_len = total_val_len; return 0; } extern "C" int rados_pool_list(rados_t cluster, char *buf, size_t len) { tracepoint(librados, rados_pool_list_enter, cluster, len); librados::RadosClient *client = (librados::RadosClient *)cluster; std::list > pools; int r = client->pool_list(pools); if (r < 0) { tracepoint(librados, rados_pool_list_exit, r); return r; } if (len > 0 && !buf) { tracepoint(librados, rados_pool_list_exit, -EINVAL); return -EINVAL; } char *b = buf; if (b) memset(b, 0, len); int needed = 0; std::list >::const_iterator i = pools.begin(); std::list >::const_iterator p_end = pools.end(); for (; i != p_end; ++i) { int rl = i->second.length() + 1; if (len < (unsigned)rl) break; const char* pool = i->second.c_str(); tracepoint(librados, rados_pool_list_pool, pool); if (b) { strncat(b, pool, rl); b += rl; } needed += rl; len -= rl; } for (; i != p_end; ++i) { int rl = i->second.length() + 1; needed += rl; } int retval = needed + 1; tracepoint(librados, rados_pool_list_exit, retval); return retval; } CEPH_RADOS_API int rados_inconsistent_pg_list(rados_t cluster, int64_t pool_id, char *buf, size_t len) { tracepoint(librados, rados_inconsistent_pg_list_enter, cluster, pool_id, len); librados::RadosClient *client = (librados::RadosClient *)cluster; std::vector pgs; int r = ::get_inconsistent_pgs(*client, pool_id, &pgs); if (r < 0) { tracepoint(librados, rados_inconsistent_pg_list_exit, r); return r; } if (len > 0 && !buf) { tracepoint(librados, rados_inconsistent_pg_list_exit, -EINVAL); return -EINVAL; } char *b = buf; if (b) memset(b, 0, len); int needed = 0; for (const auto pg : pgs) { std::ostringstream ss; ss << pg; auto s = ss.str(); unsigned rl = s.length() + 1; if (b && len >= rl) { tracepoint(librados, rados_inconsistent_pg_list_pg, s.c_str()); strncat(b, s.c_str(), rl); b += rl; len -= rl; } needed += rl; } int retval = needed + 1; tracepoint(librados, rados_inconsistent_pg_list_exit, retval); return retval; } static void dict_to_map(const char *dict, std::map* dict_map) { while (*dict != '\0') { const char* key = dict; dict += strlen(key) + 1; const char* value = dict; dict += strlen(value) + 1; (*dict_map)[key] = value; } } CEPH_RADOS_API int rados_service_register(rados_t cluster, const char *service, const char *daemon, const char *metadata_dict) { librados::RadosClient *client = (librados::RadosClient *)cluster; std::map metadata; dict_to_map(metadata_dict, &metadata); return client->service_daemon_register(service, daemon, metadata); } CEPH_RADOS_API int rados_service_update_status(rados_t cluster, const char *status_dict) { librados::RadosClient *client = (librados::RadosClient *)cluster; std::map status; dict_to_map(status_dict, &status); return client->service_daemon_update_status(status); } static void do_out_buffer(bufferlist& outbl, char **outbuf, size_t *outbuflen) { if (outbuf) { if (outbl.length() > 0) { *outbuf = (char *)malloc(outbl.length()); memcpy(*outbuf, outbl.c_str(), outbl.length()); } else { *outbuf = NULL; } } if (outbuflen) *outbuflen = outbl.length(); } static void do_out_buffer(string& outbl, char **outbuf, size_t *outbuflen) { if (outbuf) { if (outbl.length() > 0) { *outbuf = (char *)malloc(outbl.length()); memcpy(*outbuf, outbl.c_str(), outbl.length()); } else { *outbuf = NULL; } } if (outbuflen) *outbuflen = outbl.length(); } extern "C" int rados_ping_monitor(rados_t cluster, const char *mon_id, char **outstr, size_t *outstrlen) { tracepoint(librados, rados_ping_monitor_enter, cluster, mon_id); librados::RadosClient *client = (librados::RadosClient *)cluster; string str; if (!mon_id) { tracepoint(librados, rados_ping_monitor_exit, -EINVAL, NULL, NULL); return -EINVAL; } int ret = client->ping_monitor(mon_id, &str); if (ret == 0) { do_out_buffer(str, outstr, outstrlen); } tracepoint(librados, rados_ping_monitor_exit, ret, ret < 0 ? NULL : outstr, ret < 0 ? NULL : outstrlen); return ret; } extern "C" 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) { tracepoint(librados, rados_mon_command_enter, cluster, cmdlen, inbuf, inbuflen); librados::RadosClient *client = (librados::RadosClient *)cluster; bufferlist inbl; bufferlist outbl; string outstring; vector cmdvec; for (size_t i = 0; i < cmdlen; i++) { tracepoint(librados, rados_mon_command_cmd, cmd[i]); cmdvec.push_back(cmd[i]); } inbl.append(inbuf, inbuflen); int ret = client->mon_command(cmdvec, inbl, &outbl, &outstring); do_out_buffer(outbl, outbuf, outbuflen); do_out_buffer(outstring, outs, outslen); tracepoint(librados, rados_mon_command_exit, ret, outbuf, outbuflen, outs, outslen); return ret; } extern "C" 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) { tracepoint(librados, rados_mon_command_target_enter, cluster, name, cmdlen, inbuf, inbuflen); librados::RadosClient *client = (librados::RadosClient *)cluster; bufferlist inbl; bufferlist outbl; string outstring; vector cmdvec; // is this a numeric id? char *endptr; errno = 0; long rank = strtol(name, &endptr, 10); if ((errno == ERANGE && (rank == LONG_MAX || rank == LONG_MIN)) || (errno != 0 && rank == 0) || endptr == name || // no digits *endptr != '\0') { // extra characters rank = -1; } for (size_t i = 0; i < cmdlen; i++) { tracepoint(librados, rados_mon_command_target_cmd, cmd[i]); cmdvec.push_back(cmd[i]); } inbl.append(inbuf, inbuflen); int ret; if (rank >= 0) ret = client->mon_command(rank, cmdvec, inbl, &outbl, &outstring); else ret = client->mon_command(name, cmdvec, inbl, &outbl, &outstring); do_out_buffer(outbl, outbuf, outbuflen); do_out_buffer(outstring, outs, outslen); tracepoint(librados, rados_mon_command_target_exit, ret, outbuf, outbuflen, outs, outslen); return ret; } extern "C" 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) { tracepoint(librados, rados_osd_command_enter, cluster, osdid, cmdlen, inbuf, inbuflen); librados::RadosClient *client = (librados::RadosClient *)cluster; bufferlist inbl; bufferlist outbl; string outstring; vector cmdvec; for (size_t i = 0; i < cmdlen; i++) { tracepoint(librados, rados_osd_command_cmd, cmd[i]); cmdvec.push_back(cmd[i]); } inbl.append(inbuf, inbuflen); int ret = client->osd_command(osdid, cmdvec, inbl, &outbl, &outstring); do_out_buffer(outbl, outbuf, outbuflen); do_out_buffer(outstring, outs, outslen); tracepoint(librados, rados_osd_command_exit, ret, outbuf, outbuflen, outs, outslen); return ret; } extern "C" 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) { tracepoint(librados, rados_mgr_command_enter, cluster, cmdlen, inbuf, inbuflen); librados::RadosClient *client = (librados::RadosClient *)cluster; bufferlist inbl; bufferlist outbl; string outstring; vector cmdvec; for (size_t i = 0; i < cmdlen; i++) { tracepoint(librados, rados_mgr_command_cmd, cmd[i]); cmdvec.push_back(cmd[i]); } inbl.append(inbuf, inbuflen); int ret = client->mgr_command(cmdvec, inbl, &outbl, &outstring); do_out_buffer(outbl, outbuf, outbuflen); do_out_buffer(outstring, outs, outslen); tracepoint(librados, rados_mgr_command_exit, ret, outbuf, outbuflen, outs, outslen); return ret; } extern "C" 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) { tracepoint(librados, rados_pg_command_enter, cluster, pgstr, cmdlen, inbuf, inbuflen); librados::RadosClient *client = (librados::RadosClient *)cluster; bufferlist inbl; bufferlist outbl; string outstring; pg_t pgid; vector cmdvec; for (size_t i = 0; i < cmdlen; i++) { tracepoint(librados, rados_pg_command_cmd, cmd[i]); cmdvec.push_back(cmd[i]); } inbl.append(inbuf, inbuflen); if (!pgid.parse(pgstr)) return -EINVAL; int ret = client->pg_command(pgid, cmdvec, inbl, &outbl, &outstring); do_out_buffer(outbl, outbuf, outbuflen); do_out_buffer(outstring, outs, outslen); tracepoint(librados, rados_pg_command_exit, ret, outbuf, outbuflen, outs, outslen); return ret; } extern "C" void rados_buffer_free(char *buf) { tracepoint(librados, rados_buffer_free_enter, buf); if (buf) free(buf); tracepoint(librados, rados_buffer_free_exit); } extern "C" int rados_monitor_log(rados_t cluster, const char *level, rados_log_callback_t cb, void *arg) { tracepoint(librados, rados_monitor_log_enter, cluster, level, cb, arg); librados::RadosClient *client = (librados::RadosClient *)cluster; int retval = client->monitor_log(level, cb, nullptr, arg); tracepoint(librados, rados_monitor_log_exit, retval); return retval; } extern "C" int rados_monitor_log2(rados_t cluster, const char *level, rados_log_callback2_t cb, void *arg) { tracepoint(librados, rados_monitor_log2_enter, cluster, level, cb, arg); librados::RadosClient *client = (librados::RadosClient *)cluster; int retval = client->monitor_log(level, nullptr, cb, arg); tracepoint(librados, rados_monitor_log2_exit, retval); return retval; } extern "C" int rados_ioctx_create(rados_t cluster, const char *name, rados_ioctx_t *io) { tracepoint(librados, rados_ioctx_create_enter, cluster, name); librados::RadosClient *client = (librados::RadosClient *)cluster; librados::IoCtxImpl *ctx; int r = client->create_ioctx(name, &ctx); if (r < 0) { tracepoint(librados, rados_ioctx_create_exit, r, NULL); return r; } *io = ctx; ctx->get(); tracepoint(librados, rados_ioctx_create_exit, 0, ctx); return 0; } extern "C" int rados_ioctx_create2(rados_t cluster, int64_t pool_id, rados_ioctx_t *io) { tracepoint(librados, rados_ioctx_create2_enter, cluster, pool_id); librados::RadosClient *client = (librados::RadosClient *)cluster; librados::IoCtxImpl *ctx; int r = client->create_ioctx(pool_id, &ctx); if (r < 0) { tracepoint(librados, rados_ioctx_create2_exit, r, NULL); return r; } *io = ctx; ctx->get(); tracepoint(librados, rados_ioctx_create2_exit, 0, ctx); return 0; } extern "C" void rados_ioctx_destroy(rados_ioctx_t io) { tracepoint(librados, rados_ioctx_destroy_enter, io); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; ctx->put(); tracepoint(librados, rados_ioctx_destroy_exit); } extern "C" int rados_ioctx_pool_stat(rados_ioctx_t io, struct rados_pool_stat_t *stats) { tracepoint(librados, rados_ioctx_pool_stat_enter, io); librados::IoCtxImpl *io_ctx_impl = (librados::IoCtxImpl *)io; list ls; std::string pool_name; int err = io_ctx_impl->client->pool_get_name(io_ctx_impl->get_id(), &pool_name); if (err) { tracepoint(librados, rados_ioctx_pool_stat_exit, err, stats); return err; } ls.push_back(pool_name); map rawresult; err = io_ctx_impl->client->get_pool_stats(ls, rawresult); if (err) { tracepoint(librados, rados_ioctx_pool_stat_exit, err, stats); return err; } ::pool_stat_t& r = rawresult[pool_name]; stats->num_kb = SHIFT_ROUND_UP(r.stats.sum.num_bytes, 10); stats->num_bytes = r.stats.sum.num_bytes; stats->num_objects = r.stats.sum.num_objects; stats->num_object_clones = r.stats.sum.num_object_clones; stats->num_object_copies = r.stats.sum.num_object_copies; stats->num_objects_missing_on_primary = r.stats.sum.num_objects_missing_on_primary; stats->num_objects_unfound = r.stats.sum.num_objects_unfound; stats->num_objects_degraded = r.stats.sum.num_objects_degraded + r.stats.sum.num_objects_misplaced; // FIXME: this is imprecise stats->num_rd = r.stats.sum.num_rd; stats->num_rd_kb = r.stats.sum.num_rd_kb; stats->num_wr = r.stats.sum.num_wr; stats->num_wr_kb = r.stats.sum.num_wr_kb; tracepoint(librados, rados_ioctx_pool_stat_exit, 0, stats); return 0; } extern "C" rados_config_t rados_ioctx_cct(rados_ioctx_t io) { tracepoint(librados, rados_ioctx_cct_enter, io); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; rados_config_t retval = (rados_config_t)ctx->client->cct; tracepoint(librados, rados_ioctx_cct_exit, retval); return retval; } extern "C" void rados_ioctx_snap_set_read(rados_ioctx_t io, rados_snap_t seq) { tracepoint(librados, rados_ioctx_snap_set_read_enter, io, seq); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; ctx->set_snap_read((snapid_t)seq); tracepoint(librados, rados_ioctx_snap_set_read_exit); } extern "C" int rados_ioctx_selfmanaged_snap_set_write_ctx(rados_ioctx_t io, rados_snap_t seq, rados_snap_t *snaps, int num_snaps) { tracepoint(librados, rados_ioctx_selfmanaged_snap_set_write_ctx_enter, io, seq, snaps, num_snaps); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; vector snv; snv.resize(num_snaps); for (int i=0; iset_snap_write_context((snapid_t)seq, snv); tracepoint(librados, rados_ioctx_selfmanaged_snap_set_write_ctx_exit, retval); return retval; } extern "C" int rados_write(rados_ioctx_t io, const char *o, const char *buf, size_t len, uint64_t off) { tracepoint(librados, rados_write_enter, io, o, buf, len, off); if (len > UINT_MAX/2) return -E2BIG; librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); bufferlist bl; bl.append(buf, len); int retval = ctx->write(oid, bl, len, off); tracepoint(librados, rados_write_exit, retval); return retval; } extern "C" int rados_append(rados_ioctx_t io, const char *o, const char *buf, size_t len) { tracepoint(librados, rados_append_enter, io, o, buf, len); if (len > UINT_MAX/2) return -E2BIG; librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); bufferlist bl; bl.append(buf, len); int retval = ctx->append(oid, bl, len); tracepoint(librados, rados_append_exit, retval); return retval; } extern "C" int rados_write_full(rados_ioctx_t io, const char *o, const char *buf, size_t len) { tracepoint(librados, rados_write_full_enter, io, o, buf, len); if (len > UINT_MAX/2) return -E2BIG; librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); bufferlist bl; bl.append(buf, len); int retval = ctx->write_full(oid, bl); tracepoint(librados, rados_write_full_exit, retval); return retval; } extern "C" int rados_writesame(rados_ioctx_t io, const char *o, const char *buf, size_t data_len, size_t write_len, uint64_t off) { tracepoint(librados, rados_writesame_enter, io, o, buf, data_len, write_len, off); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); bufferlist bl; bl.append(buf, data_len); int retval = ctx->writesame(oid, bl, write_len, off); tracepoint(librados, rados_writesame_exit, retval); return retval; } extern "C" int rados_trunc(rados_ioctx_t io, const char *o, uint64_t size) { tracepoint(librados, rados_trunc_enter, io, o, size); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); int retval = ctx->trunc(oid, size); tracepoint(librados, rados_trunc_exit, retval); return retval; } extern "C" int rados_remove(rados_ioctx_t io, const char *o) { tracepoint(librados, rados_remove_enter, io, o); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); int retval = ctx->remove(oid); tracepoint(librados, rados_remove_exit, retval); return retval; } extern "C" int rados_read(rados_ioctx_t io, const char *o, char *buf, size_t len, uint64_t off) { tracepoint(librados, rados_read_enter, io, o, buf, len, off); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; int ret; object_t oid(o); bufferlist bl; bufferptr bp = buffer::create_static(len, buf); bl.push_back(bp); ret = ctx->read(oid, bl, len, off); if (ret >= 0) { if (bl.length() > len) { tracepoint(librados, rados_read_exit, -ERANGE, NULL); return -ERANGE; } if (!bl.is_provided_buffer(buf)) bl.copy(0, bl.length(), buf); ret = bl.length(); // hrm :/ } tracepoint(librados, rados_read_exit, ret, buf); return ret; } extern "C" int rados_checksum(rados_ioctx_t io, const char *o, 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) { tracepoint(librados, rados_checksum_enter, io, o, type, init_value, init_value_len, len, off, chunk_size); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); bufferlist init_value_bl; init_value_bl.append(init_value, init_value_len); bufferlist checksum_bl; int retval = ctx->checksum(oid, get_checksum_op_type(type), init_value_bl, len, off, chunk_size, &checksum_bl); if (retval >= 0) { if (checksum_bl.length() > checksum_len) { tracepoint(librados, rados_checksum_exit, -ERANGE, NULL, 0); return -ERANGE; } checksum_bl.copy(0, checksum_bl.length(), pchecksum); } tracepoint(librados, rados_checksum_exit, retval, pchecksum, checksum_len); return retval; } extern "C" uint64_t rados_get_last_version(rados_ioctx_t io) { tracepoint(librados, rados_get_last_version_enter, io); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; uint64_t retval = ctx->last_version(); tracepoint(librados, rados_get_last_version_exit, retval); return retval; } extern "C" int rados_pool_create(rados_t cluster, const char *name) { tracepoint(librados, rados_pool_create_enter, cluster, name); librados::RadosClient *radosp = (librados::RadosClient *)cluster; string sname(name); int retval = radosp->pool_create(sname); tracepoint(librados, rados_pool_create_exit, retval); return retval; } extern "C" int rados_pool_create_with_auid(rados_t cluster, const char *name, uint64_t auid) { tracepoint(librados, rados_pool_create_with_auid_enter, cluster, name, auid); librados::RadosClient *radosp = (librados::RadosClient *)cluster; string sname(name); int retval = radosp->pool_create(sname, auid); tracepoint(librados, rados_pool_create_with_auid_exit, retval); return retval; } extern "C" int rados_pool_create_with_crush_rule(rados_t cluster, const char *name, __u8 crush_rule_num) { tracepoint(librados, rados_pool_create_with_crush_rule_enter, cluster, name, crush_rule_num); librados::RadosClient *radosp = (librados::RadosClient *)cluster; string sname(name); int retval = radosp->pool_create(sname, 0, crush_rule_num); tracepoint(librados, rados_pool_create_with_crush_rule_exit, retval); return retval; } extern "C" int rados_pool_create_with_all(rados_t cluster, const char *name, uint64_t auid, __u8 crush_rule_num) { tracepoint(librados, rados_pool_create_with_all_enter, cluster, name, auid, crush_rule_num); librados::RadosClient *radosp = (librados::RadosClient *)cluster; string sname(name); int retval = radosp->pool_create(sname, auid, crush_rule_num); tracepoint(librados, rados_pool_create_with_all_exit, retval); return retval; } extern "C" int rados_pool_get_base_tier(rados_t cluster, int64_t pool_id, int64_t* base_tier) { tracepoint(librados, rados_pool_get_base_tier_enter, cluster, pool_id); librados::RadosClient *client = (librados::RadosClient *)cluster; int retval = client->pool_get_base_tier(pool_id, base_tier); tracepoint(librados, rados_pool_get_base_tier_exit, retval, *base_tier); return retval; } extern "C" int rados_pool_delete(rados_t cluster, const char *pool_name) { tracepoint(librados, rados_pool_delete_enter, cluster, pool_name); librados::RadosClient *client = (librados::RadosClient *)cluster; int retval = client->pool_delete(pool_name); tracepoint(librados, rados_pool_delete_exit, retval); return retval; } extern "C" int rados_ioctx_pool_set_auid(rados_ioctx_t io, uint64_t auid) { tracepoint(librados, rados_ioctx_pool_set_auid_enter, io, auid); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; int retval = ctx->pool_change_auid(auid); tracepoint(librados, rados_ioctx_pool_set_auid_exit, retval); return retval; } extern "C" int rados_ioctx_pool_get_auid(rados_ioctx_t io, uint64_t *auid) { tracepoint(librados, rados_ioctx_pool_get_auid_enter, io); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; int retval = ctx->client->pool_get_auid(ctx->get_id(), (unsigned long long *)auid); tracepoint(librados, rados_ioctx_pool_get_auid_exit, retval, *auid); return retval; } extern "C" int rados_ioctx_pool_requires_alignment(rados_ioctx_t io) { tracepoint(librados, rados_ioctx_pool_requires_alignment_enter, io); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; int retval = ctx->client->pool_requires_alignment(ctx->get_id()); tracepoint(librados, rados_ioctx_pool_requires_alignment_exit, retval); return retval; } extern "C" int rados_ioctx_pool_requires_alignment2(rados_ioctx_t io, int *requires) { tracepoint(librados, rados_ioctx_pool_requires_alignment_enter2, io); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; bool requires_alignment; int retval = ctx->client->pool_requires_alignment2(ctx->get_id(), &requires_alignment); tracepoint(librados, rados_ioctx_pool_requires_alignment_exit2, retval, requires_alignment); if (requires) *requires = requires_alignment; return retval; } extern "C" uint64_t rados_ioctx_pool_required_alignment(rados_ioctx_t io) { tracepoint(librados, rados_ioctx_pool_required_alignment_enter, io); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; uint64_t retval = ctx->client->pool_required_alignment(ctx->get_id()); tracepoint(librados, rados_ioctx_pool_required_alignment_exit, retval); return retval; } extern "C" int rados_ioctx_pool_required_alignment2(rados_ioctx_t io, uint64_t *alignment) { tracepoint(librados, rados_ioctx_pool_required_alignment_enter2, io); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; int retval = ctx->client->pool_required_alignment2(ctx->get_id(), alignment); tracepoint(librados, rados_ioctx_pool_required_alignment_exit2, retval, *alignment); return retval; } extern "C" void rados_ioctx_locator_set_key(rados_ioctx_t io, const char *key) { tracepoint(librados, rados_ioctx_locator_set_key_enter, io, key); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; if (key) ctx->oloc.key = key; else ctx->oloc.key = ""; tracepoint(librados, rados_ioctx_locator_set_key_exit); } extern "C" void rados_ioctx_set_namespace(rados_ioctx_t io, const char *nspace) { tracepoint(librados, rados_ioctx_set_namespace_enter, io, nspace); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; if (nspace) ctx->oloc.nspace = nspace; else ctx->oloc.nspace = ""; tracepoint(librados, rados_ioctx_set_namespace_exit); } extern "C" rados_t rados_ioctx_get_cluster(rados_ioctx_t io) { tracepoint(librados, rados_ioctx_get_cluster_enter, io); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; rados_t retval = (rados_t)ctx->client; tracepoint(librados, rados_ioctx_get_cluster_exit, retval); return retval; } extern "C" int64_t rados_ioctx_get_id(rados_ioctx_t io) { tracepoint(librados, rados_ioctx_get_id_enter, io); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; int64_t retval = ctx->get_id(); tracepoint(librados, rados_ioctx_get_id_exit, retval); return retval; } extern "C" int rados_ioctx_get_pool_name(rados_ioctx_t io, char *s, unsigned maxlen) { tracepoint(librados, rados_ioctx_get_pool_name_enter, io, maxlen); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; std::string pool_name; int err = ctx->client->pool_get_name(ctx->get_id(), &pool_name); if (err) { tracepoint(librados, rados_ioctx_get_pool_name_exit, err, ""); return err; } if (pool_name.length() >= maxlen) { tracepoint(librados, rados_ioctx_get_pool_name_exit, -ERANGE, ""); return -ERANGE; } strcpy(s, pool_name.c_str()); int retval = pool_name.length(); tracepoint(librados, rados_ioctx_get_pool_name_exit, retval, s); return retval; } // snaps extern "C" int rados_ioctx_snap_create(rados_ioctx_t io, const char *snapname) { tracepoint(librados, rados_ioctx_snap_create_enter, io, snapname); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; int retval = ctx->snap_create(snapname); tracepoint(librados, rados_ioctx_snap_create_exit, retval); return retval; } extern "C" int rados_ioctx_snap_remove(rados_ioctx_t io, const char *snapname) { tracepoint(librados, rados_ioctx_snap_remove_enter, io, snapname); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; int retval = ctx->snap_remove(snapname); tracepoint(librados, rados_ioctx_snap_remove_exit, retval); return retval; } extern "C" int rados_ioctx_snap_rollback(rados_ioctx_t io, const char *oid, const char *snapname) { tracepoint(librados, rados_ioctx_snap_rollback_enter, io, oid, snapname); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; int retval = ctx->rollback(oid, snapname); tracepoint(librados, rados_ioctx_snap_rollback_exit, retval); return retval; } // Deprecated name kept for backward compatibility extern "C" int rados_rollback(rados_ioctx_t io, const char *oid, const char *snapname) { return rados_ioctx_snap_rollback(io, oid, snapname); } extern "C" int rados_ioctx_selfmanaged_snap_create(rados_ioctx_t io, uint64_t *snapid) { tracepoint(librados, rados_ioctx_selfmanaged_snap_create_enter, io); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; int retval = ctx->selfmanaged_snap_create(snapid); tracepoint(librados, rados_ioctx_selfmanaged_snap_create_exit, retval, *snapid); return retval; } extern "C" void rados_aio_ioctx_selfmanaged_snap_create(rados_ioctx_t io, rados_snap_t *snapid, rados_completion_t completion) { tracepoint(librados, rados_ioctx_selfmanaged_snap_create_enter, io); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; librados::AioCompletionImpl *c = (librados::AioCompletionImpl*)completion; ctx->aio_selfmanaged_snap_create(snapid, c); tracepoint(librados, rados_ioctx_selfmanaged_snap_create_exit, 0, 0); } extern "C" int rados_ioctx_selfmanaged_snap_remove(rados_ioctx_t io, uint64_t snapid) { tracepoint(librados, rados_ioctx_selfmanaged_snap_remove_enter, io, snapid); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; int retval = ctx->selfmanaged_snap_remove(snapid); tracepoint(librados, rados_ioctx_selfmanaged_snap_remove_exit, retval); return retval; } extern "C" void rados_aio_ioctx_selfmanaged_snap_remove(rados_ioctx_t io, rados_snap_t snapid, rados_completion_t completion) { tracepoint(librados, rados_ioctx_selfmanaged_snap_remove_enter, io, snapid); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; librados::AioCompletionImpl *c = (librados::AioCompletionImpl*)completion; ctx->aio_selfmanaged_snap_remove(snapid, c); tracepoint(librados, rados_ioctx_selfmanaged_snap_remove_exit, 0); } extern "C" int rados_ioctx_selfmanaged_snap_rollback(rados_ioctx_t io, const char *oid, uint64_t snapid) { tracepoint(librados, rados_ioctx_selfmanaged_snap_rollback_enter, io, oid, snapid); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; int retval = ctx->selfmanaged_snap_rollback_object(oid, ctx->snapc, snapid); tracepoint(librados, rados_ioctx_selfmanaged_snap_rollback_exit, retval); return retval; } extern "C" int rados_ioctx_snap_list(rados_ioctx_t io, rados_snap_t *snaps, int maxlen) { tracepoint(librados, rados_ioctx_snap_list_enter, io, maxlen); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; vector snapvec; int r = ctx->snap_list(&snapvec); if (r < 0) { tracepoint(librados, rados_ioctx_snap_list_exit, r, snaps, 0); return r; } if ((int)snapvec.size() <= maxlen) { for (unsigned i=0; isnap_lookup(name, (uint64_t *)id); tracepoint(librados, rados_ioctx_snap_lookup_exit, retval, *id); return retval; } extern "C" int rados_ioctx_snap_get_name(rados_ioctx_t io, rados_snap_t id, char *name, int maxlen) { tracepoint(librados, rados_ioctx_snap_get_name_enter, io, id, maxlen); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; std::string sname; int r = ctx->snap_get_name(id, &sname); if (r < 0) { tracepoint(librados, rados_ioctx_snap_get_name_exit, r, ""); return r; } if ((int)sname.length() >= maxlen) { int retval = -ERANGE; tracepoint(librados, rados_ioctx_snap_get_name_exit, retval, ""); return retval; } strncpy(name, sname.c_str(), maxlen); tracepoint(librados, rados_ioctx_snap_get_name_exit, 0, name); return 0; } extern "C" int rados_ioctx_snap_get_stamp(rados_ioctx_t io, rados_snap_t id, time_t *t) { tracepoint(librados, rados_ioctx_snap_get_stamp_enter, io, id); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; int retval = ctx->snap_get_stamp(id, t); tracepoint(librados, rados_ioctx_snap_get_stamp_exit, retval, *t); return retval; } extern "C" int rados_cmpext(rados_ioctx_t io, const char *o, const char *cmp_buf, size_t cmp_len, uint64_t off) { tracepoint(librados, rados_cmpext_enter, io, o, cmp_buf, cmp_len, off); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; int ret; object_t oid(o); bufferlist cmp_bl; cmp_bl.append(cmp_buf, cmp_len); ret = ctx->cmpext(oid, off, cmp_bl); tracepoint(librados, rados_cmpext_exit, ret); return ret; } extern "C" int rados_getxattr(rados_ioctx_t io, const char *o, const char *name, char *buf, size_t len) { tracepoint(librados, rados_getxattr_enter, io, o, name, len); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; int ret; object_t oid(o); bufferlist bl; bl.push_back(buffer::create_static(len, buf)); ret = ctx->getxattr(oid, name, bl); if (ret >= 0) { if (bl.length() > len) { tracepoint(librados, rados_getxattr_exit, -ERANGE, buf, 0); return -ERANGE; } if (!bl.is_provided_buffer(buf)) bl.copy(0, bl.length(), buf); ret = bl.length(); } tracepoint(librados, rados_getxattr_exit, ret, buf, ret); return ret; } extern "C" int rados_getxattrs(rados_ioctx_t io, const char *oid, rados_xattrs_iter_t *iter) { tracepoint(librados, rados_getxattrs_enter, io, oid); librados::RadosXattrsIter *it = new librados::RadosXattrsIter(); if (!it) { tracepoint(librados, rados_getxattrs_exit, -ENOMEM, NULL); return -ENOMEM; } librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t obj(oid); int ret = ctx->getxattrs(obj, it->attrset); if (ret) { delete it; tracepoint(librados, rados_getxattrs_exit, ret, NULL); return ret; } it->i = it->attrset.begin(); librados::RadosXattrsIter **iret = (librados::RadosXattrsIter**)iter; *iret = it; *iter = it; tracepoint(librados, rados_getxattrs_exit, 0, *iter); return 0; } extern "C" int rados_getxattrs_next(rados_xattrs_iter_t iter, const char **name, const char **val, size_t *len) { tracepoint(librados, rados_getxattrs_next_enter, iter); librados::RadosXattrsIter *it = static_cast(iter); if (it->i == it->attrset.end()) { *name = NULL; *val = NULL; *len = 0; tracepoint(librados, rados_getxattrs_next_exit, 0, NULL, NULL, 0); return 0; } free(it->val); const std::string &s(it->i->first); *name = s.c_str(); bufferlist &bl(it->i->second); size_t bl_len = bl.length(); if (!bl_len) { // malloc(0) is not guaranteed to return a valid pointer *val = (char *)NULL; } else { it->val = (char*)malloc(bl_len); if (!it->val) { tracepoint(librados, rados_getxattrs_next_exit, -ENOMEM, *name, NULL, 0); return -ENOMEM; } memcpy(it->val, bl.c_str(), bl_len); *val = it->val; } *len = bl_len; ++it->i; tracepoint(librados, rados_getxattrs_next_exit, 0, *name, *val, *len); return 0; } extern "C" void rados_getxattrs_end(rados_xattrs_iter_t iter) { tracepoint(librados, rados_getxattrs_end_enter, iter); librados::RadosXattrsIter *it = static_cast(iter); delete it; tracepoint(librados, rados_getxattrs_end_exit); } extern "C" int rados_setxattr(rados_ioctx_t io, const char *o, const char *name, const char *buf, size_t len) { tracepoint(librados, rados_setxattr_enter, io, o, name, buf, len); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); bufferlist bl; bl.append(buf, len); int retval = ctx->setxattr(oid, name, bl); tracepoint(librados, rados_setxattr_exit, retval); return retval; } extern "C" int rados_rmxattr(rados_ioctx_t io, const char *o, const char *name) { tracepoint(librados, rados_rmxattr_enter, io, o, name); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); int retval = ctx->rmxattr(oid, name); tracepoint(librados, rados_rmxattr_exit, retval); return retval; } extern "C" int rados_stat(rados_ioctx_t io, const char *o, uint64_t *psize, time_t *pmtime) { tracepoint(librados, rados_stat_enter, io, o); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); int retval = ctx->stat(oid, psize, pmtime); tracepoint(librados, rados_stat_exit, retval, psize, pmtime); return retval; } extern "C" int rados_tmap_update(rados_ioctx_t io, const char *o, const char *cmdbuf, size_t cmdbuflen) { tracepoint(librados, rados_tmap_update_enter, io, o, cmdbuf, cmdbuflen); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); bufferlist cmdbl; cmdbl.append(cmdbuf, cmdbuflen); int retval = ctx->tmap_update(oid, cmdbl); tracepoint(librados, rados_tmap_update_exit, retval); return retval; } extern "C" int rados_tmap_put(rados_ioctx_t io, const char *o, const char *buf, size_t buflen) { tracepoint(librados, rados_tmap_put_enter, io, o, buf, buflen); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); bufferlist bl; bl.append(buf, buflen); int retval = ctx->tmap_put(oid, bl); tracepoint(librados, rados_tmap_put_exit, retval); return retval; } extern "C" int rados_tmap_get(rados_ioctx_t io, const char *o, char *buf, size_t buflen) { tracepoint(librados, rados_tmap_get_enter, io, o, buflen); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); bufferlist bl; int r = ctx->tmap_get(oid, bl); if (r < 0) { tracepoint(librados, rados_tmap_get_exit, r, buf, 0); return r; } if (bl.length() > buflen) { tracepoint(librados, rados_tmap_get_exit, -ERANGE, buf, 0); return -ERANGE; } bl.copy(0, bl.length(), buf); int retval = bl.length(); tracepoint(librados, rados_tmap_get_exit, retval, buf, retval); return retval; } extern "C" int rados_tmap_to_omap(rados_ioctx_t io, const char *o, bool nullok) { tracepoint(librados, rados_tmap_to_omap_enter, io, o, nullok); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); int retval = ctx->tmap_to_omap(oid, nullok); tracepoint(librados, rados_tmap_to_omap_exit, retval); return retval; } extern "C" int rados_exec(rados_ioctx_t io, const char *o, const char *cls, const char *method, const char *inbuf, size_t in_len, char *buf, size_t out_len) { tracepoint(librados, rados_exec_enter, io, o, cls, method, inbuf, in_len, out_len); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); bufferlist inbl, outbl; int ret; inbl.append(inbuf, in_len); ret = ctx->exec(oid, cls, method, inbl, outbl); if (ret >= 0) { if (outbl.length()) { if (outbl.length() > out_len) { tracepoint(librados, rados_exec_exit, -ERANGE, buf, 0); return -ERANGE; } outbl.copy(0, outbl.length(), buf); ret = outbl.length(); // hrm :/ } } tracepoint(librados, rados_exec_exit, ret, buf, ret); return ret; } extern "C" rados_object_list_cursor rados_object_list_begin(rados_ioctx_t io) { librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; hobject_t *result = new hobject_t(ctx->objecter->enumerate_objects_begin()); return (rados_object_list_cursor)result; } extern "C" rados_object_list_cursor rados_object_list_end(rados_ioctx_t io) { librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; hobject_t *result = new hobject_t(ctx->objecter->enumerate_objects_end()); return (rados_object_list_cursor)result; } extern "C" int rados_object_list_is_end( rados_ioctx_t io, rados_object_list_cursor cur) { hobject_t *hobj = (hobject_t*)cur; return hobj->is_max(); } extern "C" void rados_object_list_cursor_free( rados_ioctx_t io, rados_object_list_cursor cur) { hobject_t *hobj = (hobject_t*)cur; delete hobj; } extern "C" int rados_object_list_cursor_cmp( rados_ioctx_t io, rados_object_list_cursor lhs_cur, rados_object_list_cursor rhs_cur) { hobject_t *lhs = (hobject_t*)lhs_cur; hobject_t *rhs = (hobject_t*)rhs_cur; return cmp(*lhs, *rhs); } extern "C" int rados_object_list(rados_ioctx_t io, const rados_object_list_cursor start, const rados_object_list_cursor finish, const size_t result_item_count, const char *filter_buf, const size_t filter_buf_len, rados_object_list_item *result_items, rados_object_list_cursor *next) { assert(next); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; // Zero out items so that they will be safe to free later memset(result_items, 0, sizeof(rados_object_list_item) * result_item_count); std::list result; hobject_t next_hash; bufferlist filter_bl; if (filter_buf != nullptr) { filter_bl.append(filter_buf, filter_buf_len); } C_SaferCond cond; ctx->objecter->enumerate_objects( ctx->poolid, ctx->oloc.nspace, *((hobject_t*)start), *((hobject_t*)finish), result_item_count, filter_bl, &result, &next_hash, &cond); hobject_t *next_hobj = (hobject_t*)(*next); assert(next_hobj); int r = cond.wait(); if (r < 0) { *next_hobj = hobject_t::get_max(); return r; } assert(result.size() <= result_item_count); // Don't overflow! int k = 0; for (std::list::iterator i = result.begin(); i != result.end(); ++i) { rados_object_list_item &item = result_items[k++]; do_out_buffer(i->oid, &item.oid, &item.oid_length); do_out_buffer(i->nspace, &item.nspace, &item.nspace_length); do_out_buffer(i->locator, &item.locator, &item.locator_length); } *next_hobj = next_hash; return result.size(); } extern "C" void rados_object_list_free( const size_t result_size, rados_object_list_item *results) { assert(results); for (unsigned int i = 0; i < result_size; ++i) { rados_buffer_free(results[i].oid); rados_buffer_free(results[i].locator); rados_buffer_free(results[i].nspace); } } /* list objects */ extern "C" int rados_nobjects_list_open(rados_ioctx_t io, rados_list_ctx_t *listh) { librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; tracepoint(librados, rados_nobjects_list_open_enter, io); Objecter::NListContext *h = new Objecter::NListContext; h->pool_id = ctx->poolid; h->pool_snap_seq = ctx->snap_seq; h->nspace = ctx->oloc.nspace; // After dropping compatibility need nspace *listh = (void *)new librados::ObjListCtx(ctx, h); tracepoint(librados, rados_nobjects_list_open_exit, 0, *listh); return 0; } extern "C" void rados_nobjects_list_close(rados_list_ctx_t h) { tracepoint(librados, rados_nobjects_list_close_enter, h); librados::ObjListCtx *lh = (librados::ObjListCtx *)h; delete lh; tracepoint(librados, rados_nobjects_list_close_exit); } extern "C" uint32_t rados_nobjects_list_seek(rados_list_ctx_t listctx, uint32_t pos) { librados::ObjListCtx *lh = (librados::ObjListCtx *)listctx; tracepoint(librados, rados_nobjects_list_seek_enter, listctx, pos); uint32_t r = lh->ctx->nlist_seek(lh->nlc, pos); tracepoint(librados, rados_nobjects_list_seek_exit, r); return r; } extern "C" uint32_t rados_nobjects_list_seek_cursor(rados_list_ctx_t listctx, rados_object_list_cursor cursor) { librados::ObjListCtx *lh = (librados::ObjListCtx *)listctx; tracepoint(librados, rados_nobjects_list_seek_cursor_enter, listctx); uint32_t r = lh->ctx->nlist_seek(lh->nlc, cursor); tracepoint(librados, rados_nobjects_list_seek_cursor_exit, r); return r; } extern "C" int rados_nobjects_list_get_cursor(rados_list_ctx_t listctx, rados_object_list_cursor *cursor) { librados::ObjListCtx *lh = (librados::ObjListCtx *)listctx; tracepoint(librados, rados_nobjects_list_get_cursor_enter, listctx); *cursor = lh->ctx->nlist_get_cursor(lh->nlc); tracepoint(librados, rados_nobjects_list_get_cursor_exit, 0); return 0; } extern "C" uint32_t rados_nobjects_list_get_pg_hash_position( rados_list_ctx_t listctx) { librados::ObjListCtx *lh = (librados::ObjListCtx *)listctx; tracepoint(librados, rados_nobjects_list_get_pg_hash_position_enter, listctx); uint32_t retval = lh->nlc->get_pg_hash_position(); tracepoint(librados, rados_nobjects_list_get_pg_hash_position_exit, retval); return retval; } extern "C" int rados_nobjects_list_next(rados_list_ctx_t listctx, const char **entry, const char **key, const char **nspace) { tracepoint(librados, rados_nobjects_list_next_enter, listctx); librados::ObjListCtx *lh = (librados::ObjListCtx *)listctx; Objecter::NListContext *h = lh->nlc; // if the list is non-empty, this method has been called before if (!h->list.empty()) // so let's kill the previously-returned object h->list.pop_front(); if (h->list.empty()) { int ret = lh->ctx->nlist(lh->nlc, RADOS_LIST_MAX_ENTRIES); if (ret < 0) { tracepoint(librados, rados_nobjects_list_next_exit, ret, NULL, NULL, NULL); return ret; } if (h->list.empty()) { tracepoint(librados, rados_nobjects_list_next_exit, -ENOENT, NULL, NULL, NULL); return -ENOENT; } } *entry = h->list.front().oid.c_str(); if (key) { if (h->list.front().locator.size()) *key = h->list.front().locator.c_str(); else *key = NULL; } if (nspace) *nspace = h->list.front().nspace.c_str(); tracepoint(librados, rados_nobjects_list_next_exit, 0, *entry, key, nspace); return 0; } /* * removed legacy v2 list objects stubs * * thse return -ENOTSUP where possible. */ extern "C" int rados_objects_list_open( rados_ioctx_t io, rados_list_ctx_t *ctx) { return -ENOTSUP; } extern "C" uint32_t rados_objects_list_get_pg_hash_position( rados_list_ctx_t ctx) { return 0; } extern "C" uint32_t rados_objects_list_seek( rados_list_ctx_t ctx, uint32_t pos) { return 0; } extern "C" int rados_objects_list_next( rados_list_ctx_t ctx, const char **entry, const char **key) { return -ENOTSUP; } extern "C" void rados_objects_list_close( rados_list_ctx_t ctx) { } // ------------------------- // aio extern "C" int rados_aio_create_completion(void *cb_arg, rados_callback_t cb_complete, rados_callback_t cb_safe, rados_completion_t *pc) { tracepoint(librados, rados_aio_create_completion_enter, cb_arg, cb_complete, cb_safe); librados::AioCompletionImpl *c = new librados::AioCompletionImpl; if (cb_complete) c->set_complete_callback(cb_arg, cb_complete); if (cb_safe) c->set_safe_callback(cb_arg, cb_safe); *pc = c; tracepoint(librados, rados_aio_create_completion_exit, 0, *pc); return 0; } extern "C" int rados_aio_wait_for_complete(rados_completion_t c) { tracepoint(librados, rados_aio_wait_for_complete_enter, c); int retval = ((librados::AioCompletionImpl*)c)->wait_for_complete(); tracepoint(librados, rados_aio_wait_for_complete_exit, retval); return retval; } extern "C" int rados_aio_wait_for_safe(rados_completion_t c) { tracepoint(librados, rados_aio_wait_for_safe_enter, c); int retval = ((librados::AioCompletionImpl*)c)->wait_for_safe(); tracepoint(librados, rados_aio_wait_for_safe_exit, retval); return retval; } extern "C" int rados_aio_is_complete(rados_completion_t c) { tracepoint(librados, rados_aio_is_complete_enter, c); int retval = ((librados::AioCompletionImpl*)c)->is_complete(); tracepoint(librados, rados_aio_is_complete_exit, retval); return retval; } extern "C" int rados_aio_is_safe(rados_completion_t c) { tracepoint(librados, rados_aio_is_safe_enter, c); int retval = ((librados::AioCompletionImpl*)c)->is_safe(); tracepoint(librados, rados_aio_is_safe_exit, retval); return retval; } extern "C" int rados_aio_wait_for_complete_and_cb(rados_completion_t c) { tracepoint(librados, rados_aio_wait_for_complete_and_cb_enter, c); int retval = ((librados::AioCompletionImpl*)c)->wait_for_complete_and_cb(); tracepoint(librados, rados_aio_wait_for_complete_and_cb_exit, retval); return retval; } extern "C" int rados_aio_wait_for_safe_and_cb(rados_completion_t c) { tracepoint(librados, rados_aio_wait_for_safe_and_cb_enter, c); int retval = ((librados::AioCompletionImpl*)c)->wait_for_safe_and_cb(); tracepoint(librados, rados_aio_wait_for_safe_and_cb_exit, retval); return retval; } extern "C" int rados_aio_is_complete_and_cb(rados_completion_t c) { tracepoint(librados, rados_aio_is_complete_and_cb_enter, c); int retval = ((librados::AioCompletionImpl*)c)->is_complete_and_cb(); tracepoint(librados, rados_aio_is_complete_and_cb_exit, retval); return retval; } extern "C" int rados_aio_is_safe_and_cb(rados_completion_t c) { tracepoint(librados, rados_aio_is_safe_and_cb_enter, c); int retval = ((librados::AioCompletionImpl*)c)->is_safe_and_cb(); tracepoint(librados, rados_aio_is_safe_and_cb_exit, retval); return retval; } extern "C" int rados_aio_get_return_value(rados_completion_t c) { tracepoint(librados, rados_aio_get_return_value_enter, c); int retval = ((librados::AioCompletionImpl*)c)->get_return_value(); tracepoint(librados, rados_aio_get_return_value_exit, retval); return retval; } extern "C" uint64_t rados_aio_get_version(rados_completion_t c) { tracepoint(librados, rados_aio_get_version_enter, c); uint64_t retval = ((librados::AioCompletionImpl*)c)->get_version(); tracepoint(librados, rados_aio_get_version_exit, retval); return retval; } extern "C" void rados_aio_release(rados_completion_t c) { tracepoint(librados, rados_aio_release_enter, c); ((librados::AioCompletionImpl*)c)->put(); tracepoint(librados, rados_aio_release_exit); } extern "C" int rados_aio_read(rados_ioctx_t io, const char *o, rados_completion_t completion, char *buf, size_t len, uint64_t off) { tracepoint(librados, rados_aio_read_enter, io, o, completion, len, off); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); int retval = ctx->aio_read(oid, (librados::AioCompletionImpl*)completion, buf, len, off, ctx->snap_seq); tracepoint(librados, rados_aio_read_exit, retval); return retval; } #ifdef WITH_BLKIN extern "C" int rados_aio_read_traced(rados_ioctx_t io, const char *o, rados_completion_t completion, char *buf, size_t len, uint64_t off, struct blkin_trace_info *info) { tracepoint(librados, rados_aio_read_enter, io, o, completion, len, off); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); int retval = ctx->aio_read(oid, (librados::AioCompletionImpl*)completion, buf, len, off, ctx->snap_seq, info); tracepoint(librados, rados_aio_read_exit, retval); return retval; } #endif extern "C" int rados_aio_write(rados_ioctx_t io, const char *o, rados_completion_t completion, const char *buf, size_t len, uint64_t off) { tracepoint(librados, rados_aio_write_enter, io, o, completion, buf, len, off); if (len > UINT_MAX/2) return -E2BIG; librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); bufferlist bl; bl.append(buf, len); int retval = ctx->aio_write(oid, (librados::AioCompletionImpl*)completion, bl, len, off); tracepoint(librados, rados_aio_write_exit, retval); return retval; } #ifdef WITH_BLKIN extern "C" int rados_aio_write_traced(rados_ioctx_t io, const char *o, rados_completion_t completion, const char *buf, size_t len, uint64_t off, struct blkin_trace_info *info) { tracepoint(librados, rados_aio_write_enter, io, o, completion, buf, len, off); if (len > UINT_MAX/2) return -E2BIG; librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); bufferlist bl; bl.append(buf, len); int retval = ctx->aio_write(oid, (librados::AioCompletionImpl*)completion, bl, len, off, info); tracepoint(librados, rados_aio_write_exit, retval); return retval; } #endif extern "C" int rados_aio_append(rados_ioctx_t io, const char *o, rados_completion_t completion, const char *buf, size_t len) { tracepoint(librados, rados_aio_append_enter, io, o, completion, buf, len); if (len > UINT_MAX/2) return -E2BIG; librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); bufferlist bl; bl.append(buf, len); int retval = ctx->aio_append(oid, (librados::AioCompletionImpl*)completion, bl, len); tracepoint(librados, rados_aio_append_exit, retval); return retval; } extern "C" int rados_aio_write_full(rados_ioctx_t io, const char *o, rados_completion_t completion, const char *buf, size_t len) { tracepoint(librados, rados_aio_write_full_enter, io, o, completion, buf, len); if (len > UINT_MAX/2) return -E2BIG; librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); bufferlist bl; bl.append(buf, len); int retval = ctx->aio_write_full(oid, (librados::AioCompletionImpl*)completion, bl); tracepoint(librados, rados_aio_write_full_exit, retval); return retval; } extern "C" int rados_aio_writesame(rados_ioctx_t io, const char *o, rados_completion_t completion, const char *buf, size_t data_len, size_t write_len, uint64_t off) { tracepoint(librados, rados_aio_writesame_enter, io, o, completion, buf, data_len, write_len, off); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); bufferlist bl; bl.append(buf, data_len); int retval = ctx->aio_writesame(o, (librados::AioCompletionImpl*)completion, bl, write_len, off); tracepoint(librados, rados_aio_writesame_exit, retval); return retval; } extern "C" int rados_aio_remove(rados_ioctx_t io, const char *o, rados_completion_t completion) { tracepoint(librados, rados_aio_remove_enter, io, o, completion); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); int retval = ctx->aio_remove(oid, (librados::AioCompletionImpl*)completion); tracepoint(librados, rados_aio_remove_exit, retval); return retval; } extern "C" int rados_aio_flush_async(rados_ioctx_t io, rados_completion_t completion) { tracepoint(librados, rados_aio_flush_async_enter, io, completion); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; ctx->flush_aio_writes_async((librados::AioCompletionImpl*)completion); tracepoint(librados, rados_aio_flush_async_exit, 0); return 0; } extern "C" int rados_aio_flush(rados_ioctx_t io) { tracepoint(librados, rados_aio_flush_enter, io); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; ctx->flush_aio_writes(); tracepoint(librados, rados_aio_flush_exit, 0); return 0; } struct AioGetxattrData { AioGetxattrData(char* buf, rados_completion_t c, size_t l) : user_buf(buf), len(l), user_completion((librados::AioCompletionImpl*)c) {} bufferlist bl; char* user_buf; size_t len; struct librados::C_AioCompleteAndSafe user_completion; }; static void rados_aio_getxattr_complete(rados_completion_t c, void *arg) { AioGetxattrData *cdata = reinterpret_cast(arg); int rc = rados_aio_get_return_value(c); if (rc >= 0) { if (cdata->bl.length() > cdata->len) { rc = -ERANGE; } else { if (!cdata->bl.is_provided_buffer(cdata->user_buf)) cdata->bl.copy(0, cdata->bl.length(), cdata->user_buf); rc = cdata->bl.length(); } } cdata->user_completion.finish(rc); delete cdata; } extern "C" int rados_aio_getxattr(rados_ioctx_t io, const char *o, rados_completion_t completion, const char *name, char *buf, size_t len) { tracepoint(librados, rados_aio_getxattr_enter, io, o, completion, name, len); // create data object to be passed to async callback AioGetxattrData *cdata = new AioGetxattrData(buf, completion, len); if (!cdata) { tracepoint(librados, rados_aio_getxattr_exit, -ENOMEM, NULL, 0); return -ENOMEM; } cdata->bl.push_back(buffer::create_static(len, buf)); // create completion callback librados::AioCompletionImpl *c = new librados::AioCompletionImpl; c->set_complete_callback(cdata, rados_aio_getxattr_complete); // call async getxattr of IoCtx librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); int ret = ctx->aio_getxattr(oid, c, name, cdata->bl); tracepoint(librados, rados_aio_getxattr_exit, ret, buf, ret); return ret; } namespace { struct AioGetxattrsData { AioGetxattrsData(rados_completion_t c, rados_xattrs_iter_t *_iter) : iter(_iter), user_completion((librados::AioCompletionImpl*)c) { it = new librados::RadosXattrsIter(); } ~AioGetxattrsData() { if (it) delete it; } librados::RadosXattrsIter *it; rados_xattrs_iter_t *iter; struct librados::C_AioCompleteAndSafe user_completion; }; } static void rados_aio_getxattrs_complete(rados_completion_t c, void *arg) { AioGetxattrsData *cdata = reinterpret_cast(arg); int rc = rados_aio_get_return_value(c); if (rc) { cdata->user_completion.finish(rc); } else { cdata->it->i = cdata->it->attrset.begin(); *cdata->iter = cdata->it; cdata->it = 0; cdata->user_completion.finish(0); } delete cdata; } extern "C" int rados_aio_getxattrs(rados_ioctx_t io, const char *oid, rados_completion_t completion, rados_xattrs_iter_t *iter) { tracepoint(librados, rados_aio_getxattrs_enter, io, oid, completion); // create data object to be passed to async callback AioGetxattrsData *cdata = new AioGetxattrsData(completion, iter); if (!cdata) { tracepoint(librados, rados_getxattrs_exit, -ENOMEM, NULL); return -ENOMEM; } // create completion callback librados::AioCompletionImpl *c = new librados::AioCompletionImpl; c->set_complete_callback(cdata, rados_aio_getxattrs_complete); // call async getxattrs of IoCtx librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t obj(oid); int ret = ctx->aio_getxattrs(obj, c, cdata->it->attrset); tracepoint(librados, rados_aio_getxattrs_exit, ret, cdata->it); return ret; } extern "C" int rados_aio_setxattr(rados_ioctx_t io, const char *o, rados_completion_t completion, const char *name, const char *buf, size_t len) { tracepoint(librados, rados_aio_setxattr_enter, io, o, completion, name, buf, len); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); bufferlist bl; bl.append(buf, len); int retval = ctx->aio_setxattr(oid, (librados::AioCompletionImpl*)completion, name, bl); tracepoint(librados, rados_aio_setxattr_exit, retval); return retval; } extern "C" int rados_aio_rmxattr(rados_ioctx_t io, const char *o, rados_completion_t completion, const char *name) { tracepoint(librados, rados_aio_rmxattr_enter, io, o, completion, name); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); int retval = ctx->aio_rmxattr(oid, (librados::AioCompletionImpl*)completion, name); tracepoint(librados, rados_aio_rmxattr_exit, retval); return retval; } extern "C" int rados_aio_stat(rados_ioctx_t io, const char *o, rados_completion_t completion, uint64_t *psize, time_t *pmtime) { tracepoint(librados, rados_aio_stat_enter, io, o, completion); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); int retval = ctx->aio_stat(oid, (librados::AioCompletionImpl*)completion, psize, pmtime); tracepoint(librados, rados_aio_stat_exit, retval); return retval; } extern "C" 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) { tracepoint(librados, rados_aio_cmpext_enter, io, o, completion, cmp_buf, cmp_len, off); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); int retval = ctx->aio_cmpext(oid, (librados::AioCompletionImpl*)completion, cmp_buf, cmp_len, off); tracepoint(librados, rados_aio_cmpext_exit, retval); return retval; } extern "C" int rados_aio_cancel(rados_ioctx_t io, rados_completion_t completion) { librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; return ctx->aio_cancel((librados::AioCompletionImpl*)completion); } extern "C" int rados_aio_exec(rados_ioctx_t io, const char *o, rados_completion_t completion, const char *cls, const char *method, const char *inbuf, size_t in_len, char *buf, size_t out_len) { tracepoint(librados, rados_aio_exec_enter, io, o, completion); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); bufferlist inbl; inbl.append(inbuf, in_len); int retval = ctx->aio_exec(oid, (librados::AioCompletionImpl*)completion, cls, method, inbl, buf, out_len); tracepoint(librados, rados_aio_exec_exit, retval); return retval; } struct C_WatchCB : public librados::WatchCtx { rados_watchcb_t wcb; void *arg; C_WatchCB(rados_watchcb_t _wcb, void *_arg) : wcb(_wcb), arg(_arg) {} void notify(uint8_t opcode, uint64_t ver, bufferlist& bl) override { wcb(opcode, ver, arg); } }; extern "C" int rados_watch(rados_ioctx_t io, const char *o, uint64_t ver, uint64_t *handle, rados_watchcb_t watchcb, void *arg) { tracepoint(librados, rados_watch_enter, io, o, ver, watchcb, arg); uint64_t *cookie = handle; librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); C_WatchCB *wc = new C_WatchCB(watchcb, arg); int retval = ctx->watch(oid, cookie, wc, NULL, true); tracepoint(librados, rados_watch_exit, retval, *handle); return retval; } struct C_WatchCB2 : public librados::WatchCtx2 { rados_watchcb2_t wcb; rados_watcherrcb_t errcb; void *arg; C_WatchCB2(rados_watchcb2_t _wcb, rados_watcherrcb_t _errcb, void *_arg) : wcb(_wcb), errcb(_errcb), arg(_arg) {} void handle_notify(uint64_t notify_id, uint64_t cookie, uint64_t notifier_gid, bufferlist& bl) override { wcb(arg, notify_id, cookie, notifier_gid, bl.c_str(), bl.length()); } void handle_error(uint64_t cookie, int err) override { if (errcb) errcb(arg, cookie, err); } }; extern "C" int rados_watch2(rados_ioctx_t io, const char *o, uint64_t *handle, rados_watchcb2_t watchcb, rados_watcherrcb_t watcherrcb, void *arg) { return rados_watch3(io, o, handle, watchcb, watcherrcb, 0, arg); } extern "C" int rados_watch3(rados_ioctx_t io, const char *o, uint64_t *handle, rados_watchcb2_t watchcb, rados_watcherrcb_t watcherrcb, uint32_t timeout, void *arg) { tracepoint(librados, rados_watch3_enter, io, o, handle, watchcb, timeout, arg); int ret; if (!watchcb || !o || !handle) { ret = -EINVAL; } else { uint64_t *cookie = handle; librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); C_WatchCB2 *wc = new C_WatchCB2(watchcb, watcherrcb, arg); ret = ctx->watch(oid, cookie, NULL, wc, timeout, true); } tracepoint(librados, rados_watch3_exit, ret, handle ? *handle : 0); return ret; } extern "C" 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) { return rados_aio_watch2(io, o, completion, handle, watchcb, watcherrcb, 0, arg); } extern "C" 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) { tracepoint(librados, rados_aio_watch2_enter, io, o, completion, handle, watchcb, timeout, arg); int ret; if (!completion || !watchcb || !o || !handle) { ret = -EINVAL; } else { uint64_t *cookie = handle; librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); librados::AioCompletionImpl *c = reinterpret_cast(completion); C_WatchCB2 *wc = new C_WatchCB2(watchcb, watcherrcb, arg); ret = ctx->aio_watch(oid, c, cookie, NULL, wc, timeout, true); } tracepoint(librados, rados_aio_watch2_exit, ret, handle ? *handle : 0); return ret; } extern "C" int rados_unwatch(rados_ioctx_t io, const char *o, uint64_t handle) { tracepoint(librados, rados_unwatch_enter, io, o, handle); uint64_t cookie = handle; librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; int retval = ctx->unwatch(cookie); tracepoint(librados, rados_unwatch_exit, retval); return retval; } extern "C" int rados_unwatch2(rados_ioctx_t io, uint64_t handle) { tracepoint(librados, rados_unwatch2_enter, io, handle); uint64_t cookie = handle; librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; int retval = ctx->unwatch(cookie); tracepoint(librados, rados_unwatch2_exit, retval); return retval; } extern "C" int rados_aio_unwatch(rados_ioctx_t io, uint64_t handle, rados_completion_t completion) { tracepoint(librados, rados_aio_unwatch_enter, io, handle, completion); uint64_t cookie = handle; librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; librados::AioCompletionImpl *c = reinterpret_cast(completion); int retval = ctx->aio_unwatch(cookie, c); tracepoint(librados, rados_aio_unwatch_exit, retval); return retval; } extern "C" int rados_watch_check(rados_ioctx_t io, uint64_t handle) { tracepoint(librados, rados_watch_check_enter, io, handle); uint64_t cookie = handle; librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; int retval = ctx->watch_check(cookie); tracepoint(librados, rados_watch_check_exit, retval); return retval; } extern "C" int rados_notify(rados_ioctx_t io, const char *o, uint64_t ver, const char *buf, int buf_len) { tracepoint(librados, rados_notify_enter, io, o, ver, buf, buf_len); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); bufferlist bl; if (buf) { bufferptr p = buffer::create(buf_len); memcpy(p.c_str(), buf, buf_len); bl.push_back(p); } int retval = ctx->notify(oid, bl, 0, NULL, NULL, NULL); tracepoint(librados, rados_notify_exit, retval); return retval; } extern "C" 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) { tracepoint(librados, rados_notify2_enter, io, o, buf, buf_len, timeout_ms); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); bufferlist bl; if (buf) { bufferptr p = buffer::create(buf_len); memcpy(p.c_str(), buf, buf_len); bl.push_back(p); } int ret = ctx->notify(oid, bl, timeout_ms, NULL, reply_buffer, reply_buffer_len); tracepoint(librados, rados_notify2_exit, ret); return ret; } extern "C" 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) { tracepoint(librados, rados_aio_notify_enter, io, o, completion, buf, buf_len, timeout_ms); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); bufferlist bl; if (buf) { bl.push_back(buffer::copy(buf, buf_len)); } librados::AioCompletionImpl *c = reinterpret_cast(completion); int ret = ctx->aio_notify(oid, c, bl, timeout_ms, NULL, reply_buffer, reply_buffer_len); tracepoint(librados, rados_aio_notify_exit, ret); return ret; } extern "C" int rados_notify_ack(rados_ioctx_t io, const char *o, uint64_t notify_id, uint64_t handle, const char *buf, int buf_len) { tracepoint(librados, rados_notify_ack_enter, io, o, notify_id, handle, buf, buf_len); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); bufferlist bl; if (buf) { bufferptr p = buffer::create(buf_len); memcpy(p.c_str(), buf, buf_len); bl.push_back(p); } ctx->notify_ack(oid, notify_id, handle, bl); tracepoint(librados, rados_notify_ack_exit, 0); return 0; } extern "C" int rados_watch_flush(rados_t cluster) { tracepoint(librados, rados_watch_flush_enter, cluster); librados::RadosClient *client = (librados::RadosClient *)cluster; int retval = client->watch_flush(); tracepoint(librados, rados_watch_flush_exit, retval); return retval; } extern "C" int rados_aio_watch_flush(rados_t cluster, rados_completion_t completion) { tracepoint(librados, rados_aio_watch_flush_enter, cluster, completion); librados::RadosClient *client = (librados::RadosClient *)cluster; librados::AioCompletionImpl *c = (librados::AioCompletionImpl*)completion; int retval = client->async_watch_flush(c); tracepoint(librados, rados_aio_watch_flush_exit, retval); return retval; } extern "C" int rados_set_alloc_hint(rados_ioctx_t io, const char *o, uint64_t expected_object_size, uint64_t expected_write_size) { tracepoint(librados, rados_set_alloc_hint_enter, io, o, expected_object_size, expected_write_size); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); int retval = ctx->set_alloc_hint(oid, expected_object_size, expected_write_size, 0); tracepoint(librados, rados_set_alloc_hint_exit, retval); return retval; } extern "C" 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) { tracepoint(librados, rados_set_alloc_hint2_enter, io, o, expected_object_size, expected_write_size, flags); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); int retval = ctx->set_alloc_hint(oid, expected_object_size, expected_write_size, flags); tracepoint(librados, rados_set_alloc_hint2_exit, retval); return retval; } extern "C" int rados_lock_exclusive(rados_ioctx_t io, const char * o, const char * name, const char * cookie, const char * desc, struct timeval * duration, uint8_t flags) { tracepoint(librados, rados_lock_exclusive_enter, io, o, name, cookie, desc, duration, flags); librados::IoCtx ctx; librados::IoCtx::from_rados_ioctx_t(io, ctx); int retval = ctx.lock_exclusive(o, name, cookie, desc, duration, flags); tracepoint(librados, rados_lock_exclusive_exit, retval); return retval; } extern "C" 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) { tracepoint(librados, rados_lock_shared_enter, io, o, name, cookie, tag, desc, duration, flags); librados::IoCtx ctx; librados::IoCtx::from_rados_ioctx_t(io, ctx); int retval = ctx.lock_shared(o, name, cookie, tag, desc, duration, flags); tracepoint(librados, rados_lock_shared_exit, retval); return retval; } extern "C" int rados_unlock(rados_ioctx_t io, const char *o, const char *name, const char *cookie) { tracepoint(librados, rados_unlock_enter, io, o, name, cookie); librados::IoCtx ctx; librados::IoCtx::from_rados_ioctx_t(io, ctx); int retval = ctx.unlock(o, name, cookie); tracepoint(librados, rados_unlock_exit, retval); return retval; } extern "C" int rados_aio_unlock(rados_ioctx_t io, const char *o, const char *name, const char *cookie, rados_completion_t completion) { tracepoint(librados, rados_aio_unlock_enter, io, o, name, cookie, completion); librados::IoCtx ctx; librados::IoCtx::from_rados_ioctx_t(io, ctx); librados::AioCompletionImpl *comp = (librados::AioCompletionImpl*)completion; librados::AioCompletion c(comp); int retval = ctx.aio_unlock(o, name, cookie, &c); tracepoint(librados, rados_aio_unlock_exit, retval); return retval; } extern "C" 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) { tracepoint(librados, rados_list_lockers_enter, io, o, name, *tag_len, *clients_len, *cookies_len, *addrs_len); librados::IoCtx ctx; librados::IoCtx::from_rados_ioctx_t(io, ctx); std::string name_str = name; std::string oid = o; std::string tag_str; int tmp_exclusive; std::list lockers; int r = ctx.list_lockers(oid, name_str, &tmp_exclusive, &tag_str, &lockers); if (r < 0) { tracepoint(librados, rados_list_lockers_exit, r, *exclusive, "", *tag_len, *clients_len, *cookies_len, *addrs_len); return r; } size_t clients_total = 0; size_t cookies_total = 0; size_t addrs_total = 0; list::const_iterator it; for (it = lockers.begin(); it != lockers.end(); ++it) { clients_total += it->client.length() + 1; cookies_total += it->cookie.length() + 1; addrs_total += it->address.length() + 1; } bool too_short = ((clients_total > *clients_len) || (cookies_total > *cookies_len) || (addrs_total > *addrs_len) || (tag_str.length() + 1 > *tag_len)); *clients_len = clients_total; *cookies_len = cookies_total; *addrs_len = addrs_total; *tag_len = tag_str.length() + 1; if (too_short) { tracepoint(librados, rados_list_lockers_exit, -ERANGE, *exclusive, "", *tag_len, *clients_len, *cookies_len, *addrs_len); return -ERANGE; } strcpy(tag, tag_str.c_str()); char *clients_p = clients; char *cookies_p = cookies; char *addrs_p = addrs; for (it = lockers.begin(); it != lockers.end(); ++it) { strcpy(clients_p, it->client.c_str()); strcpy(cookies_p, it->cookie.c_str()); strcpy(addrs_p, it->address.c_str()); tracepoint(librados, rados_list_lockers_locker, clients_p, cookies_p, addrs_p); clients_p += it->client.length() + 1; cookies_p += it->cookie.length() + 1; addrs_p += it->address.length() + 1; } if (tmp_exclusive) *exclusive = 1; else *exclusive = 0; int retval = lockers.size(); tracepoint(librados, rados_list_lockers_exit, retval, *exclusive, tag, *tag_len, *clients_len, *cookies_len, *addrs_len); return retval; } extern "C" int rados_break_lock(rados_ioctx_t io, const char *o, const char *name, const char *client, const char *cookie) { tracepoint(librados, rados_break_lock_enter, io, o, name, client, cookie); librados::IoCtx ctx; librados::IoCtx::from_rados_ioctx_t(io, ctx); int retval = ctx.break_lock(o, name, client, cookie); tracepoint(librados, rados_break_lock_exit, retval); return retval; } extern "C" rados_write_op_t rados_create_write_op() { tracepoint(librados, rados_create_write_op_enter); rados_write_op_t retval = new (std::nothrow)::ObjectOperation; tracepoint(librados, rados_create_write_op_exit, retval); return retval; } extern "C" void rados_release_write_op(rados_write_op_t write_op) { tracepoint(librados, rados_release_write_op_enter, write_op); delete (::ObjectOperation*)write_op; tracepoint(librados, rados_release_write_op_exit); } extern "C" void rados_write_op_set_flags(rados_write_op_t write_op, int flags) { tracepoint(librados, rados_write_op_set_flags_enter, write_op, flags); set_op_flags((::ObjectOperation *)write_op, flags); tracepoint(librados, rados_write_op_set_flags_exit); } extern "C" void rados_write_op_assert_version(rados_write_op_t write_op, uint64_t ver) { tracepoint(librados, rados_write_op_assert_version_enter, write_op, ver); ((::ObjectOperation *)write_op)->assert_version(ver); tracepoint(librados, rados_write_op_assert_version_exit); } extern "C" void rados_write_op_assert_exists(rados_write_op_t write_op) { tracepoint(librados, rados_write_op_assert_exists_enter, write_op); ((::ObjectOperation *)write_op)->stat(NULL, (ceph::real_time *)NULL, NULL); tracepoint(librados, rados_write_op_assert_exists_exit); } extern "C" void rados_write_op_cmpext(rados_write_op_t write_op, const char *cmp_buf, size_t cmp_len, uint64_t off, int *prval) { tracepoint(librados, rados_write_op_cmpext_enter, write_op, cmp_buf, cmp_len, off, prval); ((::ObjectOperation *)write_op)->cmpext(off, cmp_len, cmp_buf, prval); tracepoint(librados, rados_write_op_cmpext_exit); } extern "C" 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) { tracepoint(librados, rados_write_op_cmpxattr_enter, write_op, name, comparison_operator, value, value_len); bufferlist bl; bl.append(value, value_len); ((::ObjectOperation *)write_op)->cmpxattr(name, comparison_operator, CEPH_OSD_CMPXATTR_MODE_STRING, bl); tracepoint(librados, rados_write_op_cmpxattr_exit); } static void rados_c_omap_cmp(ObjectOperation *op, const char *key, uint8_t comparison_operator, const char *val, size_t val_len, int *prval) { bufferlist bl; bl.append(val, val_len); std::map > assertions; assertions[key] = std::make_pair(bl, comparison_operator); op->omap_cmp(assertions, prval); } extern "C" 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) { tracepoint(librados, rados_write_op_omap_cmp_enter, write_op, key, comparison_operator, val, val_len, prval); rados_c_omap_cmp((::ObjectOperation *)write_op, key, comparison_operator, val, val_len, prval); tracepoint(librados, rados_write_op_omap_cmp_exit); } extern "C" void rados_write_op_setxattr(rados_write_op_t write_op, const char *name, const char *value, size_t value_len) { tracepoint(librados, rados_write_op_setxattr_enter, write_op, name, value, value_len); bufferlist bl; bl.append(value, value_len); ((::ObjectOperation *)write_op)->setxattr(name, bl); tracepoint(librados, rados_write_op_setxattr_exit); } extern "C" void rados_write_op_rmxattr(rados_write_op_t write_op, const char *name) { tracepoint(librados, rados_write_op_rmxattr_enter, write_op, name); ((::ObjectOperation *)write_op)->rmxattr(name); tracepoint(librados, rados_write_op_rmxattr_exit); } extern "C" void rados_write_op_create(rados_write_op_t write_op, int exclusive, const char* category) // unused { tracepoint(librados, rados_write_op_create_enter, write_op, exclusive); ::ObjectOperation *oo = (::ObjectOperation *) write_op; oo->create(!!exclusive); tracepoint(librados, rados_write_op_create_exit); } extern "C" void rados_write_op_write(rados_write_op_t write_op, const char *buffer, size_t len, uint64_t offset) { tracepoint(librados, rados_write_op_write_enter, write_op, buffer, len, offset); bufferlist bl; bl.append(buffer,len); ((::ObjectOperation *)write_op)->write(offset, bl); tracepoint(librados, rados_write_op_write_exit); } extern "C" void rados_write_op_write_full(rados_write_op_t write_op, const char *buffer, size_t len) { tracepoint(librados, rados_write_op_write_full_enter, write_op, buffer, len); bufferlist bl; bl.append(buffer,len); ((::ObjectOperation *)write_op)->write_full(bl); tracepoint(librados, rados_write_op_write_full_exit); } extern "C" 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) { tracepoint(librados, rados_write_op_writesame_enter, write_op, buffer, data_len, write_len, offset); bufferlist bl; bl.append(buffer, data_len); ((::ObjectOperation *)write_op)->writesame(offset, write_len, bl); tracepoint(librados, rados_write_op_writesame_exit); } extern "C" void rados_write_op_append(rados_write_op_t write_op, const char *buffer, size_t len) { tracepoint(librados, rados_write_op_append_enter, write_op, buffer, len); bufferlist bl; bl.append(buffer,len); ((::ObjectOperation *)write_op)->append(bl); tracepoint(librados, rados_write_op_append_exit); } extern "C" void rados_write_op_remove(rados_write_op_t write_op) { tracepoint(librados, rados_write_op_remove_enter, write_op); ((::ObjectOperation *)write_op)->remove(); tracepoint(librados, rados_write_op_remove_exit); } extern "C" void rados_write_op_truncate(rados_write_op_t write_op, uint64_t offset) { tracepoint(librados, rados_write_op_truncate_enter, write_op, offset); ((::ObjectOperation *)write_op)->truncate(offset); tracepoint(librados, rados_write_op_truncate_exit); } extern "C" void rados_write_op_zero(rados_write_op_t write_op, uint64_t offset, uint64_t len) { tracepoint(librados, rados_write_op_zero_enter, write_op, offset, len); ((::ObjectOperation *)write_op)->zero(offset, len); tracepoint(librados, rados_write_op_zero_exit); } extern "C" 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) { tracepoint(librados, rados_write_op_exec_enter, write_op, cls, method, in_buf, in_len, prval); bufferlist inbl; inbl.append(in_buf, in_len); ((::ObjectOperation *)write_op)->call(cls, method, inbl, NULL, NULL, prval); tracepoint(librados, rados_write_op_exec_exit); } extern "C" 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) { tracepoint(librados, rados_write_op_omap_set_enter, write_op, num); std::map entries; for (size_t i = 0; i < num; ++i) { tracepoint(librados, rados_write_op_omap_set_entry, keys[i], vals[i], lens[i]); bufferlist bl(lens[i]); bl.append(vals[i], lens[i]); entries[keys[i]] = bl; } ((::ObjectOperation *)write_op)->omap_set(entries); tracepoint(librados, rados_write_op_omap_set_exit); } extern "C" void rados_write_op_omap_rm_keys(rados_write_op_t write_op, char const* const* keys, size_t keys_len) { tracepoint(librados, rados_write_op_omap_rm_keys_enter, write_op, keys_len); for(size_t i = 0; i < keys_len; i++) { tracepoint(librados, rados_write_op_omap_rm_keys_entry, keys[i]); } std::set to_remove(keys, keys + keys_len); ((::ObjectOperation *)write_op)->omap_rm_keys(to_remove); tracepoint(librados, rados_write_op_omap_rm_keys_exit); } extern "C" void rados_write_op_omap_clear(rados_write_op_t write_op) { tracepoint(librados, rados_write_op_omap_clear_enter, write_op); ((::ObjectOperation *)write_op)->omap_clear(); tracepoint(librados, rados_write_op_omap_clear_exit); } extern "C" void rados_write_op_set_alloc_hint(rados_write_op_t write_op, uint64_t expected_object_size, uint64_t expected_write_size) { tracepoint(librados, rados_write_op_set_alloc_hint_enter, write_op, expected_object_size, expected_write_size); ((::ObjectOperation *)write_op)->set_alloc_hint(expected_object_size, expected_write_size, 0); tracepoint(librados, rados_write_op_set_alloc_hint_exit); } extern "C" 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) { tracepoint(librados, rados_write_op_set_alloc_hint2_enter, write_op, expected_object_size, expected_write_size, flags); ((::ObjectOperation *)write_op)->set_alloc_hint(expected_object_size, expected_write_size, flags); tracepoint(librados, rados_write_op_set_alloc_hint2_exit); } extern "C" int rados_write_op_operate(rados_write_op_t write_op, rados_ioctx_t io, const char *oid, time_t *mtime, int flags) { tracepoint(librados, rados_write_op_operate_enter, write_op, io, oid, mtime, flags); object_t obj(oid); ::ObjectOperation *oo = (::ObjectOperation *) write_op; librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; ceph::real_time *prt = NULL; ceph::real_time rt; if (mtime) { rt = ceph::real_clock::from_time_t(*mtime); prt = &rt; } int retval = ctx->operate(obj, oo, prt, translate_flags(flags)); tracepoint(librados, rados_write_op_operate_exit, retval); return retval; } extern "C" int rados_write_op_operate2(rados_write_op_t write_op, rados_ioctx_t io, const char *oid, struct timespec *ts, int flags) { tracepoint(librados, rados_write_op_operate2_enter, write_op, io, oid, ts, flags); object_t obj(oid); ::ObjectOperation *oo = (::ObjectOperation *) write_op; librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; ceph::real_time *prt = NULL; ceph::real_time rt; if (ts) { rt = ceph::real_clock::from_timespec(*ts); prt = &rt; } int retval = ctx->operate(obj, oo, prt, translate_flags(flags)); tracepoint(librados, rados_write_op_operate_exit, retval); return retval; } extern "C" 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) { tracepoint(librados, rados_aio_write_op_operate_enter, write_op, io, completion, oid, mtime, flags); object_t obj(oid); ::ObjectOperation *oo = (::ObjectOperation *) write_op; librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; librados::AioCompletionImpl *c = (librados::AioCompletionImpl*)completion; int retval = ctx->aio_operate(obj, oo, c, ctx->snapc, translate_flags(flags)); tracepoint(librados, rados_aio_write_op_operate_exit, retval); return retval; } extern "C" rados_read_op_t rados_create_read_op() { tracepoint(librados, rados_create_read_op_enter); rados_read_op_t retval = new (std::nothrow)::ObjectOperation; tracepoint(librados, rados_create_read_op_exit, retval); return retval; } extern "C" void rados_release_read_op(rados_read_op_t read_op) { tracepoint(librados, rados_release_read_op_enter, read_op); delete (::ObjectOperation *)read_op; tracepoint(librados, rados_release_read_op_exit); } extern "C" void rados_read_op_set_flags(rados_read_op_t read_op, int flags) { tracepoint(librados, rados_read_op_set_flags_enter, read_op, flags); set_op_flags((::ObjectOperation *)read_op, flags); tracepoint(librados, rados_read_op_set_flags_exit); } extern "C" void rados_read_op_assert_version(rados_read_op_t read_op, uint64_t ver) { tracepoint(librados, rados_read_op_assert_version_enter, read_op, ver); ((::ObjectOperation *)read_op)->assert_version(ver); tracepoint(librados, rados_read_op_assert_version_exit); } extern "C" void rados_read_op_assert_exists(rados_read_op_t read_op) { tracepoint(librados, rados_read_op_assert_exists_enter, read_op); ((::ObjectOperation *)read_op)->stat(NULL, (ceph::real_time *)NULL, NULL); tracepoint(librados, rados_read_op_assert_exists_exit); } extern "C" void rados_read_op_cmpext(rados_read_op_t read_op, const char *cmp_buf, size_t cmp_len, uint64_t off, int *prval) { tracepoint(librados, rados_read_op_cmpext_enter, read_op, cmp_buf, cmp_len, off, prval); ((::ObjectOperation *)read_op)->cmpext(off, cmp_len, cmp_buf, prval); tracepoint(librados, rados_read_op_cmpext_exit); } extern "C" 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) { tracepoint(librados, rados_read_op_cmpxattr_enter, read_op, name, comparison_operator, value, value_len); bufferlist bl; bl.append(value, value_len); ((::ObjectOperation *)read_op)->cmpxattr(name, comparison_operator, CEPH_OSD_CMPXATTR_MODE_STRING, bl); tracepoint(librados, rados_read_op_cmpxattr_exit); } extern "C" 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) { tracepoint(librados, rados_read_op_omap_cmp_enter, read_op, key, comparison_operator, val, val_len, prval); rados_c_omap_cmp((::ObjectOperation *)read_op, key, comparison_operator, val, val_len, prval); tracepoint(librados, rados_read_op_omap_cmp_exit); } extern "C" void rados_read_op_stat(rados_read_op_t read_op, uint64_t *psize, time_t *pmtime, int *prval) { tracepoint(librados, rados_read_op_stat_enter, read_op, psize, pmtime, prval); ((::ObjectOperation *)read_op)->stat(psize, pmtime, prval); tracepoint(librados, rados_read_op_stat_exit); } class C_bl_to_buf : public Context { char *out_buf; size_t out_len; size_t *bytes_read; int *prval; public: bufferlist out_bl; C_bl_to_buf(char *out_buf, size_t out_len, size_t *bytes_read, int *prval) : out_buf(out_buf), out_len(out_len), bytes_read(bytes_read), prval(prval) {} void finish(int r) override { if (out_bl.length() > out_len) { if (prval) *prval = -ERANGE; if (bytes_read) *bytes_read = 0; return; } if (bytes_read) *bytes_read = out_bl.length(); if (out_buf && !out_bl.is_provided_buffer(out_buf)) out_bl.copy(0, out_bl.length(), out_buf); } }; extern "C" void rados_read_op_read(rados_read_op_t read_op, uint64_t offset, size_t len, char *buf, size_t *bytes_read, int *prval) { tracepoint(librados, rados_read_op_read_enter, read_op, offset, len, buf, bytes_read, prval); C_bl_to_buf *ctx = new C_bl_to_buf(buf, len, bytes_read, prval); ctx->out_bl.push_back(buffer::create_static(len, buf)); ((::ObjectOperation *)read_op)->read(offset, len, &ctx->out_bl, prval, ctx); tracepoint(librados, rados_read_op_read_exit); } extern "C" 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) { tracepoint(librados, rados_read_op_checksum_enter, read_op, type, init_value, init_value_len, offset, len, chunk_size); bufferlist init_value_bl; init_value_bl.append(init_value, init_value_len); C_bl_to_buf *ctx = nullptr; if (pchecksum != nullptr) { ctx = new C_bl_to_buf(pchecksum, checksum_len, nullptr, prval); } ((::ObjectOperation *)read_op)->checksum(get_checksum_op_type(type), init_value_bl, offset, len, chunk_size, (ctx ? &ctx->out_bl : nullptr), prval, ctx); tracepoint(librados, rados_read_op_checksum_exit); } class C_out_buffer : public Context { char **out_buf; size_t *out_len; public: bufferlist out_bl; C_out_buffer(char **out_buf, size_t *out_len) : out_buf(out_buf), out_len(out_len) {} void finish(int r) override { // ignore r since we don't know the meaning of return values // from custom class methods do_out_buffer(out_bl, out_buf, out_len); } }; extern "C" 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) { tracepoint(librados, rados_read_op_exec_enter, read_op, cls, method, in_buf, in_len, out_buf, out_len, prval); bufferlist inbl; inbl.append(in_buf, in_len); C_out_buffer *ctx = new C_out_buffer(out_buf, out_len); ((::ObjectOperation *)read_op)->call(cls, method, inbl, &ctx->out_bl, ctx, prval); tracepoint(librados, rados_read_op_exec_exit); } extern "C" 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) { tracepoint(librados, rados_read_op_exec_user_buf_enter, read_op, cls, method, in_buf, in_len, out_buf, out_len, used_len, prval); C_bl_to_buf *ctx = new C_bl_to_buf(out_buf, out_len, used_len, prval); bufferlist inbl; inbl.append(in_buf, in_len); ((::ObjectOperation *)read_op)->call(cls, method, inbl, &ctx->out_bl, ctx, prval); tracepoint(librados, rados_read_op_exec_user_buf_exit); } struct RadosOmapIter { std::map values; std::map::iterator i; }; class C_OmapIter : public Context { RadosOmapIter *iter; public: explicit C_OmapIter(RadosOmapIter *iter) : iter(iter) {} void finish(int r) override { iter->i = iter->values.begin(); } }; class C_XattrsIter : public Context { librados::RadosXattrsIter *iter; public: explicit C_XattrsIter(librados::RadosXattrsIter *iter) : iter(iter) {} void finish(int r) override { iter->i = iter->attrset.begin(); } }; extern "C" void rados_read_op_getxattrs(rados_read_op_t read_op, rados_xattrs_iter_t *iter, int *prval) { tracepoint(librados, rados_read_op_getxattrs_enter, read_op, prval); librados::RadosXattrsIter *xattrs_iter = new librados::RadosXattrsIter; ((::ObjectOperation *)read_op)->getxattrs(&xattrs_iter->attrset, prval); ((::ObjectOperation *)read_op)->add_handler(new C_XattrsIter(xattrs_iter)); *iter = xattrs_iter; tracepoint(librados, rados_read_op_getxattrs_exit, *iter); } extern "C" 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) { tracepoint(librados, rados_read_op_omap_get_vals_enter, read_op, start_after, filter_prefix, max_return, prval); RadosOmapIter *omap_iter = new RadosOmapIter; const char *start = start_after ? start_after : ""; const char *filter = filter_prefix ? filter_prefix : ""; ((::ObjectOperation *)read_op)->omap_get_vals( start, filter, max_return, &omap_iter->values, nullptr, prval); ((::ObjectOperation *)read_op)->add_handler(new C_OmapIter(omap_iter)); *iter = omap_iter; tracepoint(librados, rados_read_op_omap_get_vals_exit, *iter); } extern "C" 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) { tracepoint(librados, rados_read_op_omap_get_vals_enter, read_op, start_after, filter_prefix, max_return, prval); RadosOmapIter *omap_iter = new RadosOmapIter; const char *start = start_after ? start_after : ""; const char *filter = filter_prefix ? filter_prefix : ""; ((::ObjectOperation *)read_op)->omap_get_vals( start, filter, max_return, &omap_iter->values, (bool*)pmore, prval); ((::ObjectOperation *)read_op)->add_handler(new C_OmapIter(omap_iter)); *iter = omap_iter; tracepoint(librados, rados_read_op_omap_get_vals_exit, *iter); } struct C_OmapKeysIter : public Context { RadosOmapIter *iter; std::set keys; explicit C_OmapKeysIter(RadosOmapIter *iter) : iter(iter) {} void finish(int r) override { // map each key to an empty bl for (std::set::const_iterator i = keys.begin(); i != keys.end(); ++i) { iter->values[*i]; } iter->i = iter->values.begin(); } }; extern "C" 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) { tracepoint(librados, rados_read_op_omap_get_keys_enter, read_op, start_after, max_return, prval); RadosOmapIter *omap_iter = new RadosOmapIter; C_OmapKeysIter *ctx = new C_OmapKeysIter(omap_iter); ((::ObjectOperation *)read_op)->omap_get_keys( start_after ? start_after : "", max_return, &ctx->keys, nullptr, prval); ((::ObjectOperation *)read_op)->add_handler(ctx); *iter = omap_iter; tracepoint(librados, rados_read_op_omap_get_keys_exit, *iter); } extern "C" 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) { tracepoint(librados, rados_read_op_omap_get_keys_enter, read_op, start_after, max_return, prval); RadosOmapIter *omap_iter = new RadosOmapIter; C_OmapKeysIter *ctx = new C_OmapKeysIter(omap_iter); ((::ObjectOperation *)read_op)->omap_get_keys( start_after ? start_after : "", max_return, &ctx->keys, (bool*)pmore, prval); ((::ObjectOperation *)read_op)->add_handler(ctx); *iter = omap_iter; tracepoint(librados, rados_read_op_omap_get_keys_exit, *iter); } extern "C" 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) { tracepoint(librados, rados_read_op_omap_get_vals_by_keys_enter, read_op, keys, keys_len, iter, prval); std::set to_get(keys, keys + keys_len); RadosOmapIter *omap_iter = new RadosOmapIter; ((::ObjectOperation *)read_op)->omap_get_vals_by_keys(to_get, &omap_iter->values, prval); ((::ObjectOperation *)read_op)->add_handler(new C_OmapIter(omap_iter)); *iter = omap_iter; tracepoint(librados, rados_read_op_omap_get_vals_by_keys_exit, *iter); } extern "C" int rados_omap_get_next(rados_omap_iter_t iter, char **key, char **val, size_t *len) { tracepoint(librados, rados_omap_get_next_enter, iter); RadosOmapIter *it = static_cast(iter); if (it->i == it->values.end()) { *key = NULL; *val = NULL; *len = 0; tracepoint(librados, rados_omap_get_next_exit, 0, key, val, len); return 0; } if (key) *key = (char*)it->i->first.c_str(); if (val) *val = it->i->second.c_str(); if (len) *len = it->i->second.length(); ++it->i; tracepoint(librados, rados_omap_get_next_exit, 0, key, val, len); return 0; } extern "C" void rados_omap_get_end(rados_omap_iter_t iter) { tracepoint(librados, rados_omap_get_end_enter, iter); RadosOmapIter *it = static_cast(iter); delete it; tracepoint(librados, rados_omap_get_end_exit); } extern "C" int rados_read_op_operate(rados_read_op_t read_op, rados_ioctx_t io, const char *oid, int flags) { tracepoint(librados, rados_read_op_operate_enter, read_op, io, oid, flags); object_t obj(oid); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; int retval = ctx->operate_read(obj, (::ObjectOperation *)read_op, NULL, translate_flags(flags)); tracepoint(librados, rados_read_op_operate_exit, retval); return retval; } extern "C" 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) { tracepoint(librados, rados_aio_read_op_operate_enter, read_op, io, completion, oid, flags); object_t obj(oid); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; librados::AioCompletionImpl *c = (librados::AioCompletionImpl*)completion; int retval = ctx->aio_operate_read(obj, (::ObjectOperation *)read_op, c, translate_flags(flags), NULL); tracepoint(librados, rados_aio_read_op_operate_exit, retval); return retval; } extern "C" int rados_cache_pin(rados_ioctx_t io, const char *o) { tracepoint(librados, rados_cache_pin_enter, io, o); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); int retval = ctx->cache_pin(oid); tracepoint(librados, rados_cache_pin_exit, retval); return retval; } extern "C" int rados_cache_unpin(rados_ioctx_t io, const char *o) { tracepoint(librados, rados_cache_unpin_enter, io, o); librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; object_t oid(o); int retval = ctx->cache_unpin(oid); tracepoint(librados, rados_cache_unpin_exit, retval); return retval; } ///////////////////////////// ListObject ////////////////////////////// librados::ListObject::ListObject() : impl(NULL) { } librados::ListObject::ListObject(librados::ListObjectImpl *i): impl(i) { } librados::ListObject::ListObject(const ListObject& rhs) { if (rhs.impl == NULL) { impl = NULL; return; } impl = new ListObjectImpl(); *impl = *(rhs.impl); } librados::ListObject& librados::ListObject::operator=(const ListObject& rhs) { if (rhs.impl == NULL) { delete impl; impl = NULL; return *this; } if (impl == NULL) impl = new ListObjectImpl(); *impl = *(rhs.impl); return *this; } librados::ListObject::~ListObject() { if (impl) delete impl; impl = NULL; } const std::string& librados::ListObject::get_nspace() const { return impl->get_nspace(); } const std::string& librados::ListObject::get_oid() const { return impl->get_oid(); } const std::string& librados::ListObject::get_locator() const { return impl->get_locator(); } std::ostream& librados::operator<<(std::ostream& out, const librados::ListObject& lop) { out << *(lop.impl); return out; } 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) { librados::IoCtxImpl *ctx = (librados::IoCtxImpl *)io; assert(split_start); assert(split_finish); hobject_t *split_start_hobj = (hobject_t*)(*split_start); hobject_t *split_finish_hobj = (hobject_t*)(*split_finish); assert(split_start_hobj); assert(split_finish_hobj); hobject_t *start_hobj = (hobject_t*)(start); hobject_t *finish_hobj = (hobject_t*)(finish); ctx->object_list_slice( *start_hobj, *finish_hobj, n, m, split_start_hobj, split_finish_hobj); } librados::ObjectCursor::ObjectCursor() { c_cursor = (rados_object_list_cursor)new hobject_t(); } librados::ObjectCursor::~ObjectCursor() { hobject_t *h = (hobject_t *)c_cursor; delete h; } librados::ObjectCursor::ObjectCursor(rados_object_list_cursor c) { if (!c) { c_cursor = nullptr; } else { c_cursor = (rados_object_list_cursor)new hobject_t(*(hobject_t *)c); } } librados::ObjectCursor& librados::ObjectCursor::operator=(const librados::ObjectCursor& rhs) { if (rhs.c_cursor != nullptr) { hobject_t *h = (hobject_t*)rhs.c_cursor; c_cursor = (rados_object_list_cursor)(new hobject_t(*h)); } else { c_cursor = nullptr; } return *this; } bool librados::ObjectCursor::operator<(const librados::ObjectCursor &rhs) const { const hobject_t lhs_hobj = (c_cursor == nullptr) ? hobject_t() : *((hobject_t*)c_cursor); const hobject_t rhs_hobj = (rhs.c_cursor == nullptr) ? hobject_t() : *((hobject_t*)(rhs.c_cursor)); return lhs_hobj < rhs_hobj; } bool librados::ObjectCursor::operator==(const librados::ObjectCursor &rhs) const { const hobject_t lhs_hobj = (c_cursor == nullptr) ? hobject_t() : *((hobject_t*)c_cursor); const hobject_t rhs_hobj = (rhs.c_cursor == nullptr) ? hobject_t() : *((hobject_t*)(rhs.c_cursor)); return cmp(lhs_hobj, rhs_hobj) == 0; } librados::ObjectCursor::ObjectCursor(const librados::ObjectCursor &rhs) { *this = rhs; } librados::ObjectCursor librados::IoCtx::object_list_begin() { hobject_t *h = new hobject_t(io_ctx_impl->objecter->enumerate_objects_begin()); ObjectCursor oc; oc.set((rados_object_list_cursor)h); return oc; } librados::ObjectCursor librados::IoCtx::object_list_end() { hobject_t *h = new hobject_t(io_ctx_impl->objecter->enumerate_objects_end()); librados::ObjectCursor oc; oc.set((rados_object_list_cursor)h); return oc; } void librados::ObjectCursor::set(rados_object_list_cursor c) { delete (hobject_t*)c_cursor; c_cursor = c; } string librados::ObjectCursor::to_str() const { stringstream ss; ss << *(hobject_t *)c_cursor; return ss.str(); } bool librados::ObjectCursor::from_str(const string& s) { if (s.empty()) { *(hobject_t *)c_cursor = hobject_t(); return true; } return ((hobject_t *)c_cursor)->parse(s); } CEPH_RADOS_API std::ostream& librados::operator<<(std::ostream& os, const librados::ObjectCursor& oc) { if (oc.c_cursor) { os << *(hobject_t *)oc.c_cursor; } else { os << hobject_t(); } return os; } bool librados::IoCtx::object_list_is_end(const ObjectCursor &oc) { hobject_t *h = (hobject_t *)oc.c_cursor; return h->is_max(); } int librados::IoCtx::object_list(const ObjectCursor &start, const ObjectCursor &finish, const size_t result_item_count, const bufferlist &filter, std::vector *result, ObjectCursor *next) { assert(result != nullptr); assert(next != nullptr); result->clear(); C_SaferCond cond; hobject_t next_hash; std::list obj_result; io_ctx_impl->objecter->enumerate_objects( io_ctx_impl->poolid, io_ctx_impl->oloc.nspace, *((hobject_t*)start.c_cursor), *((hobject_t*)finish.c_cursor), result_item_count, filter, &obj_result, &next_hash, &cond); int r = cond.wait(); if (r < 0) { next->set((rados_object_list_cursor)(new hobject_t(hobject_t::get_max()))); return r; } next->set((rados_object_list_cursor)(new hobject_t(next_hash))); for (std::list::iterator i = obj_result.begin(); i != obj_result.end(); ++i) { ObjectItem oi; oi.oid = i->oid; oi.nspace = i->nspace; oi.locator = i->locator; result->push_back(oi); } return obj_result.size(); } void librados::IoCtx::object_list_slice( const ObjectCursor start, const ObjectCursor finish, const size_t n, const size_t m, ObjectCursor *split_start, ObjectCursor *split_finish) { assert(split_start != nullptr); assert(split_finish != nullptr); io_ctx_impl->object_list_slice( *((hobject_t*)(start.c_cursor)), *((hobject_t*)(finish.c_cursor)), n, m, (hobject_t*)(split_start->c_cursor), (hobject_t*)(split_finish->c_cursor)); } int librados::IoCtx::application_enable(const std::string& app_name, bool force) { return io_ctx_impl->application_enable(app_name, force); } int librados::IoCtx::application_enable_async(const std::string& app_name, bool force, PoolAsyncCompletion *c) { io_ctx_impl->application_enable_async(app_name, force, c->pc); return 0; } int librados::IoCtx::application_list(std::set *app_names) { return io_ctx_impl->application_list(app_names); } int librados::IoCtx::application_metadata_get(const std::string& app_name, const std::string &key, std::string* value) { return io_ctx_impl->application_metadata_get(app_name, key, value); } int librados::IoCtx::application_metadata_set(const std::string& app_name, const std::string &key, const std::string& value) { return io_ctx_impl->application_metadata_set(app_name, key, value); } int librados::IoCtx::application_metadata_remove(const std::string& app_name, const std::string &key) { return io_ctx_impl->application_metadata_remove(app_name, key); } int librados::IoCtx::application_metadata_list(const std::string& app_name, std::map *values) { return io_ctx_impl->application_metadata_list(app_name, values); }