// -*- 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) 2011 New Dream Network * * 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/int_types.h" #include #include "common/deleter.h" #include "common/dout.h" #include "common/errno.h" #include "common/TracepointProvider.h" #include "include/Context.h" #include "cls/rbd/cls_rbd_client.h" #include "cls/rbd/cls_rbd_types.h" #include "librbd/Features.h" #include "librbd/ImageCtx.h" #include "librbd/ImageState.h" #include "librbd/internal.h" #include "librbd/Operations.h" #include "librbd/Utils.h" #include "librbd/api/Config.h" #include "librbd/api/DiffIterate.h" #include "librbd/api/Group.h" #include "librbd/api/Image.h" #include "librbd/api/Io.h" #include "librbd/api/Migration.h" #include "librbd/api/Mirror.h" #include "librbd/api/Namespace.h" #include "librbd/api/Pool.h" #include "librbd/api/PoolMetadata.h" #include "librbd/api/Snapshot.h" #include "librbd/api/Trash.h" #include "librbd/io/AioCompletion.h" #include "librbd/io/ReadResult.h" #include #include #include #ifdef WITH_LTTNG #define TRACEPOINT_DEFINE #define TRACEPOINT_PROBE_DYNAMIC_LINKAGE #include "tracing/librbd.h" #undef TRACEPOINT_PROBE_DYNAMIC_LINKAGE #undef TRACEPOINT_DEFINE #else #define tracepoint(...) #endif #define dout_subsys ceph_subsys_rbd #undef dout_prefix #define dout_prefix *_dout << "librbd: " using std::string; using std::vector; using ceph::bufferlist; using librados::snap_t; using librados::IoCtx; namespace { TracepointProvider::Traits tracepoint_traits("librbd_tp.so", "rbd_tracing"); struct UserBufferDeleter : public deleter::impl { CephContext* cct; librbd::io::AioCompletion* aio_completion; UserBufferDeleter(CephContext* cct, librbd::io::AioCompletion* aio_completion) : deleter::impl(deleter()), cct(cct), aio_completion(aio_completion) { aio_completion->block(cct); } ~UserBufferDeleter() override { aio_completion->unblock(cct); } }; static auto create_write_raw(librbd::ImageCtx *ictx, const char *buf, size_t len, librbd::io::AioCompletion* aio_completion) { if (ictx->disable_zero_copy || aio_completion == nullptr) { // must copy the buffer if writeback/writearound cache is in-use (or using // non-AIO) return buffer::copy(buf, len); } // avoid copying memory for AIO operations, but possibly delay completions // until the last reference to the user's memory has been released return ceph::unique_leakable_ptr( buffer::claim_buffer( len, const_cast(buf), deleter(new UserBufferDeleter(ictx->cct, aio_completion)))); } static int get_iovec_length(const struct iovec *iov, int iovcnt, size_t &len) { len = 0; if (iovcnt <= 0) { return -EINVAL; } for (int i = 0; i < iovcnt; ++i) { const struct iovec &io = iov[i]; // check for overflow if (len + io.iov_len < len) { return -EINVAL; } len += io.iov_len; } return 0; } static bufferlist iovec_to_bufferlist(librbd::ImageCtx *ictx, const struct iovec *iov, int iovcnt, librbd::io::AioCompletion* aio_completion) { bufferlist bl; for (int i = 0; i < iovcnt; ++i) { const struct iovec &io = iov[i]; bl.push_back(create_write_raw(ictx, static_cast(io.iov_base), io.iov_len, aio_completion)); } return bl; } CephContext* get_cct(IoCtx &io_ctx) { return reinterpret_cast(io_ctx.cct()); } librbd::io::AioCompletion* get_aio_completion(librbd::RBD::AioCompletion *comp) { return reinterpret_cast(comp->pc); } struct C_AioCompletion : public Context { CephContext *cct; librbd::io::aio_type_t aio_type; librbd::io::AioCompletion* aio_comp; C_AioCompletion(librbd::ImageCtx *ictx, librbd::io::aio_type_t aio_type, librbd::io::AioCompletion* aio_comp) : cct(ictx->cct), aio_type(aio_type), aio_comp(aio_comp) { aio_comp->init_time(ictx, aio_type); aio_comp->get(); } virtual ~C_AioCompletion() { aio_comp->put(); } void finish(int r) override { ldout(cct, 20) << "C_AioCompletion::finish: r=" << r << dendl; if (r < 0) { aio_comp->fail(r); } else { aio_comp->complete(); } } }; struct C_OpenComplete : public C_AioCompletion { librbd::ImageCtx *ictx; void **ictxp; C_OpenComplete(librbd::ImageCtx *ictx, librbd::io::AioCompletion* comp, void **ictxp) : C_AioCompletion(ictx, librbd::io::AIO_TYPE_OPEN, comp), ictx(ictx), ictxp(ictxp) { } void finish(int r) override { ldout(cct, 20) << "C_OpenComplete::finish: r=" << r << dendl; if (r < 0) { *ictxp = nullptr; } else { *ictxp = ictx; } C_AioCompletion::finish(r); } }; struct C_OpenAfterCloseComplete : public Context { librbd::ImageCtx *ictx; librbd::io::AioCompletion* comp; void **ictxp; C_OpenAfterCloseComplete(librbd::ImageCtx *ictx, librbd::io::AioCompletion* comp, void **ictxp) : ictx(ictx), comp(comp), ictxp(ictxp) { } void finish(int r) override { ldout(ictx->cct, 20) << "C_OpenAfterCloseComplete::finish: r=" << r << dendl; *ictxp = nullptr; ictx->state->open(0, new C_OpenComplete(ictx, comp, ictxp)); } }; struct C_UpdateWatchCB : public librbd::UpdateWatchCtx { rbd_update_callback_t watch_cb; void *arg; uint64_t handle = 0; C_UpdateWatchCB(rbd_update_callback_t watch_cb, void *arg) : watch_cb(watch_cb), arg(arg) { } void handle_notify() override { watch_cb(arg); } }; struct C_QuiesceWatchCB : public librbd::QuiesceWatchCtx { rbd_update_callback_t quiesce_cb; rbd_update_callback_t unquiesce_cb; void *arg; uint64_t handle = 0; C_QuiesceWatchCB(rbd_update_callback_t quiesce_cb, rbd_update_callback_t unquiesce_cb, void *arg) : quiesce_cb(quiesce_cb), unquiesce_cb(unquiesce_cb), arg(arg) { } void handle_quiesce() override { quiesce_cb(arg); } void handle_unquiesce() override { unquiesce_cb(arg); } }; void group_image_status_cpp_to_c(const librbd::group_image_info_t &cpp_info, rbd_group_image_info_t *c_info) { c_info->name = strdup(cpp_info.name.c_str()); c_info->pool = cpp_info.pool; c_info->state = cpp_info.state; } void group_info_cpp_to_c(const librbd::group_info_t &cpp_info, rbd_group_info_t *c_info) { c_info->name = strdup(cpp_info.name.c_str()); c_info->pool = cpp_info.pool; } void group_snap_info_cpp_to_c(const librbd::group_snap_info_t &cpp_info, rbd_group_snap_info_t *c_info) { c_info->name = strdup(cpp_info.name.c_str()); c_info->state = cpp_info.state; } void mirror_image_info_cpp_to_c(const librbd::mirror_image_info_t &cpp_info, rbd_mirror_image_info_t *c_info) { c_info->global_id = strdup(cpp_info.global_id.c_str()); c_info->state = cpp_info.state; c_info->primary = cpp_info.primary; } int get_local_mirror_image_site_status( const librbd::mirror_image_global_status_t& status, librbd::mirror_image_site_status_t* local_status) { auto it = std::find_if(status.site_statuses.begin(), status.site_statuses.end(), [](const librbd::mirror_image_site_status_t& s) { return (s.mirror_uuid == cls::rbd::MirrorImageSiteStatus::LOCAL_MIRROR_UUID); }); if (it == status.site_statuses.end()) { return -ENOENT; } *local_status = *it; return 0; } #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wdeprecated-declarations" int mirror_image_global_status_cpp_to_c( const librbd::mirror_image_global_status_t &cpp_status, rbd_mirror_image_status_t *c_status) { c_status->name = strdup(cpp_status.name.c_str()); mirror_image_info_cpp_to_c(cpp_status.info, &c_status->info); librbd::mirror_image_site_status_t local_status; int r = get_local_mirror_image_site_status(cpp_status, &local_status); if (r < 0) { return r; } c_status->state = local_status.state; c_status->description = strdup(local_status.description.c_str()); c_status->last_update = local_status.last_update; c_status->up = local_status.up; return 0; } #pragma GCC diagnostic pop void mirror_image_global_status_cpp_to_c( const librbd::mirror_image_global_status_t &cpp_status, rbd_mirror_image_global_status_t *c_status) { c_status->name = strdup(cpp_status.name.c_str()); mirror_image_info_cpp_to_c(cpp_status.info, &c_status->info); c_status->site_statuses_count = cpp_status.site_statuses.size(); c_status->site_statuses = (rbd_mirror_image_site_status_t*)calloc( cpp_status.site_statuses.size(), sizeof(rbd_mirror_image_site_status_t)); auto idx = 0U; for (auto it = cpp_status.site_statuses.begin(); it != cpp_status.site_statuses.end(); ++it) { auto& s_status = c_status->site_statuses[idx++]; s_status.mirror_uuid = strdup(it->mirror_uuid.c_str()); s_status.state = it->state; s_status.description = strdup(it->description.c_str()); s_status.last_update = it->last_update; s_status.up = it->up; } } void trash_image_info_cpp_to_c(const librbd::trash_image_info_t &cpp_info, rbd_trash_image_info_t *c_info) { c_info->id = strdup(cpp_info.id.c_str()); c_info->name = strdup(cpp_info.name.c_str()); c_info->source = cpp_info.source; c_info->deletion_time = cpp_info.deletion_time; c_info->deferment_end_time = cpp_info.deferment_end_time; } void config_option_cpp_to_c(const librbd::config_option_t &cpp_option, rbd_config_option_t *c_option) { c_option->name = strdup(cpp_option.name.c_str()); c_option->value = strdup(cpp_option.value.c_str()); c_option->source = cpp_option.source; } void config_option_cleanup(rbd_config_option_t &option) { free(option.name); free(option.value); } struct C_MirrorImageGetInfo : public Context { rbd_mirror_image_info_t *mirror_image_info; Context *on_finish; librbd::mirror_image_info_t cpp_mirror_image_info; C_MirrorImageGetInfo(rbd_mirror_image_info_t *mirror_image_info, Context *on_finish) : mirror_image_info(mirror_image_info), on_finish(on_finish) { } void finish(int r) override { if (r < 0) { on_finish->complete(r); return; } mirror_image_info_cpp_to_c(cpp_mirror_image_info, mirror_image_info); on_finish->complete(0); } }; struct C_MirrorImageGetGlobalStatus : public Context { rbd_mirror_image_global_status_t *mirror_image_global_status; Context *on_finish; librbd::mirror_image_global_status_t cpp_mirror_image_global_status; C_MirrorImageGetGlobalStatus( rbd_mirror_image_global_status_t *mirror_image_global_status, Context *on_finish) : mirror_image_global_status(mirror_image_global_status), on_finish(on_finish) { } void finish(int r) override { if (r < 0) { on_finish->complete(r); return; } mirror_image_global_status_cpp_to_c(cpp_mirror_image_global_status, mirror_image_global_status); on_finish->complete(0); } }; #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wdeprecated-declarations" struct C_MirrorImageGetStatus : public Context { librbd::mirror_image_status_t *mirror_image_status_cpp = nullptr; rbd_mirror_image_status_t *mirror_image_status = nullptr; Context *on_finish; librbd::mirror_image_global_status_t cpp_mirror_image_global_status; C_MirrorImageGetStatus(rbd_mirror_image_status_t *mirror_image_status, Context *on_finish) : mirror_image_status(mirror_image_status), on_finish(on_finish) { } C_MirrorImageGetStatus(librbd::mirror_image_status_t *mirror_image_status, Context *on_finish) : mirror_image_status_cpp(mirror_image_status), on_finish(on_finish) { } void finish(int r) override { if (r < 0) { on_finish->complete(r); return; } if (mirror_image_status != nullptr) { r = mirror_image_global_status_cpp_to_c(cpp_mirror_image_global_status, mirror_image_status); } else if (mirror_image_status_cpp != nullptr) { librbd::mirror_image_site_status_t local_status; r = get_local_mirror_image_site_status(cpp_mirror_image_global_status, &local_status); if (r >= 0) { *mirror_image_status_cpp = { cpp_mirror_image_global_status.name, cpp_mirror_image_global_status.info, local_status.state, local_status.description, local_status.last_update, local_status.up}; } } on_finish->complete(r); } }; #pragma GCC diagnostic pop } // anonymous namespace namespace librbd { ProgressContext::~ProgressContext() { } class CProgressContext : public ProgressContext { public: CProgressContext(librbd_progress_fn_t fn, void *data) : m_fn(fn), m_data(data) { } int update_progress(uint64_t offset, uint64_t src_size) override { return m_fn(offset, src_size, m_data); } private: librbd_progress_fn_t m_fn; void *m_data; }; /* * Pool stats */ PoolStats::PoolStats() { rbd_pool_stats_create(&pool_stats); } PoolStats::~PoolStats() { rbd_pool_stats_destroy(pool_stats); } int PoolStats::add(rbd_pool_stat_option_t option, uint64_t* opt_val) { return rbd_pool_stats_option_add_uint64(pool_stats, option, opt_val); } /* * RBD */ RBD::RBD() { } RBD::~RBD() { } void RBD::version(int *major, int *minor, int *extra) { rbd_version(major, minor, extra); } int RBD::open(IoCtx& io_ctx, Image& image, const char *name) { return open(io_ctx, image, name, NULL); } int RBD::open_by_id(IoCtx& io_ctx, Image& image, const char *id) { return open_by_id(io_ctx, image, id, nullptr); } int RBD::open(IoCtx& io_ctx, Image& image, const char *name, const char *snap_name) { ImageCtx *ictx = new ImageCtx(name, "", snap_name, io_ctx, false); TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, open_image_enter, ictx, ictx->name.c_str(), ictx->id.c_str(), ictx->snap_name.c_str(), ictx->read_only); if (image.ctx != NULL) { reinterpret_cast(image.ctx)->state->close(); image.ctx = NULL; } int r = ictx->state->open(0); if (r < 0) { tracepoint(librbd, open_image_exit, r); return r; } image.ctx = (image_ctx_t) ictx; tracepoint(librbd, open_image_exit, 0); return 0; } int RBD::open_by_id(IoCtx& io_ctx, Image& image, const char *id, const char *snap_name) { ImageCtx *ictx = new ImageCtx("", id, snap_name, io_ctx, false); TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, open_image_by_id_enter, ictx, ictx->id.c_str(), ictx->snap_name.c_str(), ictx->read_only); if (image.ctx != nullptr) { reinterpret_cast(image.ctx)->state->close(); image.ctx = nullptr; } int r = ictx->state->open(0); if (r < 0) { tracepoint(librbd, open_image_by_id_exit, r); return r; } image.ctx = (image_ctx_t) ictx; tracepoint(librbd, open_image_by_id_exit, 0); return 0; } int RBD::aio_open(IoCtx& io_ctx, Image& image, const char *name, const char *snap_name, RBD::AioCompletion *c) { ImageCtx *ictx = new ImageCtx(name, "", snap_name, io_ctx, false); TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, aio_open_image_enter, ictx, ictx->name.c_str(), ictx->id.c_str(), ictx->snap_name.c_str(), ictx->read_only, c->pc); if (image.ctx != NULL) { reinterpret_cast(image.ctx)->state->close( new C_OpenAfterCloseComplete(ictx, get_aio_completion(c), &image.ctx)); } else { ictx->state->open(0, new C_OpenComplete(ictx, get_aio_completion(c), &image.ctx)); } tracepoint(librbd, aio_open_image_exit, 0); return 0; } int RBD::aio_open_by_id(IoCtx& io_ctx, Image& image, const char *id, const char *snap_name, RBD::AioCompletion *c) { ImageCtx *ictx = new ImageCtx("", id, snap_name, io_ctx, false); TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, aio_open_image_by_id_enter, ictx, ictx->id.c_str(), ictx->snap_name.c_str(), ictx->read_only, c->pc); if (image.ctx != nullptr) { reinterpret_cast(image.ctx)->state->close( new C_OpenAfterCloseComplete(ictx, get_aio_completion(c), &image.ctx)); } else { ictx->state->open(0, new C_OpenComplete(ictx, get_aio_completion(c), &image.ctx)); } tracepoint(librbd, aio_open_image_by_id_exit, 0); return 0; } int RBD::open_read_only(IoCtx& io_ctx, Image& image, const char *name, const char *snap_name) { ImageCtx *ictx = new ImageCtx(name, "", snap_name, io_ctx, true); TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, open_image_enter, ictx, ictx->name.c_str(), ictx->id.c_str(), ictx->snap_name.c_str(), ictx->read_only); if (image.ctx != NULL) { reinterpret_cast(image.ctx)->state->close(); image.ctx = NULL; } int r = ictx->state->open(0); if (r < 0) { tracepoint(librbd, open_image_exit, r); return r; } image.ctx = (image_ctx_t) ictx; tracepoint(librbd, open_image_exit, 0); return 0; } int RBD::open_by_id_read_only(IoCtx& io_ctx, Image& image, const char *id, const char *snap_name) { ImageCtx *ictx = new ImageCtx("", id, snap_name, io_ctx, true); TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, open_image_by_id_enter, ictx, ictx->id.c_str(), ictx->snap_name.c_str(), ictx->read_only); if (image.ctx != nullptr) { reinterpret_cast(image.ctx)->state->close(); image.ctx = nullptr; } int r = ictx->state->open(0); if (r < 0) { tracepoint(librbd, open_image_by_id_exit, r); return r; } image.ctx = (image_ctx_t) ictx; tracepoint(librbd, open_image_by_id_exit, 0); return 0; } int RBD::aio_open_read_only(IoCtx& io_ctx, Image& image, const char *name, const char *snap_name, RBD::AioCompletion *c) { ImageCtx *ictx = new ImageCtx(name, "", snap_name, io_ctx, true); TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, aio_open_image_enter, ictx, ictx->name.c_str(), ictx->id.c_str(), ictx->snap_name.c_str(), ictx->read_only, c->pc); if (image.ctx != NULL) { reinterpret_cast(image.ctx)->state->close( new C_OpenAfterCloseComplete(ictx, get_aio_completion(c), &image.ctx)); } else { ictx->state->open(0, new C_OpenComplete(ictx, get_aio_completion(c), &image.ctx)); } tracepoint(librbd, aio_open_image_exit, 0); return 0; } int RBD::aio_open_by_id_read_only(IoCtx& io_ctx, Image& image, const char *id, const char *snap_name, RBD::AioCompletion *c) { ImageCtx *ictx = new ImageCtx("", id, snap_name, io_ctx, true); TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, aio_open_image_by_id_enter, ictx, ictx->id.c_str(), ictx->snap_name.c_str(), ictx->read_only, c->pc); if (image.ctx != nullptr) { reinterpret_cast(image.ctx)->state->close( new C_OpenAfterCloseComplete(ictx, get_aio_completion(c), &image.ctx)); } else { ictx->state->open(0, new C_OpenComplete(ictx, get_aio_completion(c), &image.ctx)); } tracepoint(librbd, aio_open_image_by_id_exit, 0); return 0; } int RBD::features_to_string(uint64_t features, std::string *str_features) { std::stringstream err; *str_features = librbd::rbd_features_to_string(features, &err); if (!err.str().empty()) { return -EINVAL; } return 0; } int RBD::features_from_string(const std::string str_features, uint64_t *features) { std::stringstream err; *features = librbd::rbd_features_from_string(str_features, &err); if (!err.str().empty()) { return -EINVAL; } return 0; } int RBD::create(IoCtx& io_ctx, const char *name, uint64_t size, int *order) { TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, create_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), name, size, *order); int r = librbd::create(io_ctx, name, size, order); tracepoint(librbd, create_exit, r, *order); return r; } int RBD::create2(IoCtx& io_ctx, const char *name, uint64_t size, uint64_t features, int *order) { TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, create2_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), name, size, features, *order); int r = librbd::create(io_ctx, name, size, false, features, order, 0, 0); tracepoint(librbd, create2_exit, r, *order); return r; } int RBD::create3(IoCtx& io_ctx, const char *name, uint64_t size, uint64_t features, int *order, uint64_t stripe_unit, uint64_t stripe_count) { TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, create3_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), name, size, features, *order, stripe_unit, stripe_count); int r = librbd::create(io_ctx, name, size, false, features, order, stripe_unit, stripe_count); tracepoint(librbd, create3_exit, r, *order); return r; } int RBD::create4(IoCtx& io_ctx, const char *name, uint64_t size, ImageOptions& opts) { TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, create4_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), name, size, opts.opts); int r = librbd::create(io_ctx, name, "", size, opts, "", "", false); tracepoint(librbd, create4_exit, r); return r; } int RBD::clone(IoCtx& p_ioctx, const char *p_name, const char *p_snap_name, IoCtx& c_ioctx, const char *c_name, uint64_t features, int *c_order) { TracepointProvider::initialize(get_cct(p_ioctx)); tracepoint(librbd, clone_enter, p_ioctx.get_pool_name().c_str(), p_ioctx.get_id(), p_name, p_snap_name, c_ioctx.get_pool_name().c_str(), c_ioctx.get_id(), c_name, features); int r = librbd::clone(p_ioctx, p_name, p_snap_name, c_ioctx, c_name, features, c_order, 0, 0); tracepoint(librbd, clone_exit, r, *c_order); return r; } int RBD::clone2(IoCtx& p_ioctx, const char *p_name, const char *p_snap_name, IoCtx& c_ioctx, const char *c_name, uint64_t features, int *c_order, uint64_t stripe_unit, int stripe_count) { TracepointProvider::initialize(get_cct(p_ioctx)); tracepoint(librbd, clone2_enter, p_ioctx.get_pool_name().c_str(), p_ioctx.get_id(), p_name, p_snap_name, c_ioctx.get_pool_name().c_str(), c_ioctx.get_id(), c_name, features, stripe_unit, stripe_count); int r = librbd::clone(p_ioctx, p_name, p_snap_name, c_ioctx, c_name, features, c_order, stripe_unit, stripe_count); tracepoint(librbd, clone2_exit, r, *c_order); return r; } int RBD::clone3(IoCtx& p_ioctx, const char *p_name, const char *p_snap_name, IoCtx& c_ioctx, const char *c_name, ImageOptions& c_opts) { TracepointProvider::initialize(get_cct(p_ioctx)); tracepoint(librbd, clone3_enter, p_ioctx.get_pool_name().c_str(), p_ioctx.get_id(), p_name, p_snap_name, c_ioctx.get_pool_name().c_str(), c_ioctx.get_id(), c_name, c_opts.opts); int r = librbd::clone(p_ioctx, nullptr, p_name, p_snap_name, c_ioctx, nullptr, c_name, c_opts, "", ""); tracepoint(librbd, clone3_exit, r); return r; } int RBD::remove(IoCtx& io_ctx, const char *name) { TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, remove_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), name); librbd::NoOpProgressContext prog_ctx; int r = librbd::api::Image<>::remove(io_ctx, name, prog_ctx); tracepoint(librbd, remove_exit, r); return r; } int RBD::remove_with_progress(IoCtx& io_ctx, const char *name, ProgressContext& pctx) { TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, remove_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), name); int r = librbd::api::Image<>::remove(io_ctx, name, pctx); tracepoint(librbd, remove_exit, r); return r; } int RBD::trash_move(IoCtx &io_ctx, const char *name, uint64_t delay) { TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, trash_move_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), name); int r = librbd::api::Trash<>::move(io_ctx, RBD_TRASH_IMAGE_SOURCE_USER, name, delay); tracepoint(librbd, trash_move_exit, r); return r; } int RBD::trash_get(IoCtx &io_ctx, const char *id, trash_image_info_t *info) { return librbd::api::Trash<>::get(io_ctx, id, info); } int RBD::trash_list(IoCtx &io_ctx, vector &entries) { TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, trash_list_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id()); int r = librbd::api::Trash<>::list(io_ctx, entries, true); #ifdef WITH_LTTNG if (r >= 0) { for (const auto& entry : entries) { tracepoint(librbd, trash_list_entry, entry.id.c_str()); } } #endif tracepoint(librbd, trash_list_exit, r, r); return r; } int RBD::trash_remove(IoCtx &io_ctx, const char *image_id, bool force) { TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, trash_remove_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), image_id, force); librbd::NoOpProgressContext prog_ctx; int r = librbd::api::Trash<>::remove(io_ctx, image_id, force, prog_ctx); tracepoint(librbd, trash_remove_exit, r); return r; } int RBD::trash_remove_with_progress(IoCtx &io_ctx, const char *image_id, bool force, ProgressContext &pctx) { TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, trash_remove_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), image_id, force); int r = librbd::api::Trash<>::remove(io_ctx, image_id, force, pctx); tracepoint(librbd, trash_remove_exit, r); return r; } int RBD::trash_restore(IoCtx &io_ctx, const char *id, const char *name) { TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, trash_undelete_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), id, name); int r = librbd::api::Trash<>::restore( io_ctx, librbd::api::Trash<>::ALLOWED_RESTORE_SOURCES, id, name); tracepoint(librbd, trash_undelete_exit, r); return r; } int RBD::trash_purge(IoCtx &io_ctx, time_t expire_ts, float threshold) { TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, trash_purge_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), expire_ts, threshold); NoOpProgressContext nop_pctx; int r = librbd::api::Trash<>::purge(io_ctx, expire_ts, threshold, nop_pctx); tracepoint(librbd, trash_purge_exit, r); return r; } int RBD::trash_purge_with_progress(IoCtx &io_ctx, time_t expire_ts, float threshold, ProgressContext &pctx) { TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, trash_purge_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), expire_ts, threshold); int r = librbd::api::Trash<>::purge(io_ctx, expire_ts, threshold, pctx); tracepoint(librbd, trash_purge_exit, r); return r; } int RBD::namespace_create(IoCtx& io_ctx, const char *namespace_name) { return librbd::api::Namespace<>::create(io_ctx, namespace_name); } int RBD::namespace_remove(IoCtx& io_ctx, const char *namespace_name) { return librbd::api::Namespace<>::remove(io_ctx, namespace_name); } int RBD::namespace_list(IoCtx& io_ctx, std::vector* namespace_names) { return librbd::api::Namespace<>::list(io_ctx, namespace_names); } int RBD::namespace_exists(IoCtx& io_ctx, const char *namespace_name, bool *exists) { return librbd::api::Namespace<>::exists(io_ctx, namespace_name, exists); } int RBD::pool_init(IoCtx& io_ctx, bool force) { return librbd::api::Pool<>::init(io_ctx, force); } int RBD::pool_stats_get(IoCtx& io_ctx, PoolStats* stats) { auto pool_stat_options = reinterpret_cast::StatOptions*>(stats->pool_stats); return librbd::api::Pool<>::get_stats(io_ctx, pool_stat_options); } int RBD::list(IoCtx& io_ctx, vector& names) { std::vector image_specs; int r = list2(io_ctx, &image_specs); if (r < 0) { return r; } names.clear(); for (auto& it : image_specs) { names.push_back(it.name); } return 0; } int RBD::list2(IoCtx& io_ctx, std::vector *images) { TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, list_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id()); int r = librbd::api::Image<>::list_images(io_ctx, images); #ifdef WITH_LTTNG if (r >= 0) { for (auto& it : *images) { tracepoint(librbd, list_entry, it.name.c_str()); } } #endif tracepoint(librbd, list_exit, r, r); return r; } int RBD::rename(IoCtx& src_io_ctx, const char *srcname, const char *destname) { TracepointProvider::initialize(get_cct(src_io_ctx)); tracepoint(librbd, rename_enter, src_io_ctx.get_pool_name().c_str(), src_io_ctx.get_id(), srcname, destname); int r = librbd::rename(src_io_ctx, srcname, destname); tracepoint(librbd, rename_exit, r); return r; } int RBD::migration_prepare(IoCtx& io_ctx, const char *image_name, IoCtx& dest_io_ctx, const char *dest_image_name, ImageOptions& opts) { TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, migration_prepare_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), image_name, dest_io_ctx.get_pool_name().c_str(), dest_io_ctx.get_id(), dest_image_name, opts.opts); int r = librbd::api::Migration<>::prepare(io_ctx, image_name, dest_io_ctx, dest_image_name, opts); tracepoint(librbd, migration_prepare_exit, r); return r; } int RBD::migration_prepare_import(const char *source_spec, IoCtx& dest_io_ctx, const char *dest_image_name, ImageOptions& opts) { return librbd::api::Migration<>::prepare_import(source_spec, dest_io_ctx, dest_image_name, opts); } int RBD::migration_execute(IoCtx& io_ctx, const char *image_name) { TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, migration_execute_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), image_name); librbd::NoOpProgressContext prog_ctx; int r = librbd::api::Migration<>::execute(io_ctx, image_name, prog_ctx); tracepoint(librbd, migration_execute_exit, r); return r; } int RBD::migration_execute_with_progress(IoCtx& io_ctx, const char *image_name, librbd::ProgressContext &prog_ctx) { TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, migration_execute_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), image_name); int r = librbd::api::Migration<>::execute(io_ctx, image_name, prog_ctx); tracepoint(librbd, migration_execute_exit, r); return r; } int RBD::migration_abort(IoCtx& io_ctx, const char *image_name) { TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, migration_abort_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), image_name); librbd::NoOpProgressContext prog_ctx; int r = librbd::api::Migration<>::abort(io_ctx, image_name, prog_ctx); tracepoint(librbd, migration_abort_exit, r); return r; } int RBD::migration_abort_with_progress(IoCtx& io_ctx, const char *image_name, librbd::ProgressContext &prog_ctx) { TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, migration_abort_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), image_name); int r = librbd::api::Migration<>::abort(io_ctx, image_name, prog_ctx); tracepoint(librbd, migration_abort_exit, r); return r; } int RBD::migration_commit(IoCtx& io_ctx, const char *image_name) { TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, migration_commit_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), image_name); librbd::NoOpProgressContext prog_ctx; int r = librbd::api::Migration<>::commit(io_ctx, image_name, prog_ctx); tracepoint(librbd, migration_commit_exit, r); return r; } int RBD::migration_commit_with_progress(IoCtx& io_ctx, const char *image_name, librbd::ProgressContext &prog_ctx) { TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, migration_commit_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), image_name); int r = librbd::api::Migration<>::commit(io_ctx, image_name, prog_ctx); tracepoint(librbd, migration_commit_exit, r); return r; } int RBD::migration_status(IoCtx& io_ctx, const char *image_name, image_migration_status_t *status, size_t status_size) { TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, migration_status_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), image_name); if (status_size != sizeof(image_migration_status_t)) { tracepoint(librbd, migration_status_exit, -ERANGE); return -ERANGE; } int r = librbd::api::Migration<>::status(io_ctx, image_name, status); tracepoint(librbd, migration_status_exit, r); return r; } int RBD::mirror_mode_get(IoCtx& io_ctx, rbd_mirror_mode_t *mirror_mode) { return librbd::api::Mirror<>::mode_get(io_ctx, mirror_mode); } int RBD::mirror_mode_set(IoCtx& io_ctx, rbd_mirror_mode_t mirror_mode) { return librbd::api::Mirror<>::mode_set(io_ctx, mirror_mode); } int RBD::mirror_uuid_get(IoCtx& io_ctx, std::string* mirror_uuid) { return librbd::api::Mirror<>::uuid_get(io_ctx, mirror_uuid); } int RBD::mirror_site_name_get(librados::Rados& rados, std::string* site_name) { return librbd::api::Mirror<>::site_name_get(rados, site_name); } int RBD::mirror_site_name_set(librados::Rados& rados, const std::string& site_name) { return librbd::api::Mirror<>::site_name_set(rados, site_name); } int RBD::mirror_peer_bootstrap_create(IoCtx& io_ctx, std::string* token) { return librbd::api::Mirror<>::peer_bootstrap_create(io_ctx, token); } int RBD::mirror_peer_bootstrap_import(IoCtx& io_ctx, rbd_mirror_peer_direction_t direction, const std::string& token) { return librbd::api::Mirror<>::peer_bootstrap_import(io_ctx, direction, token); } int RBD::mirror_peer_site_add(IoCtx& io_ctx, std::string *uuid, mirror_peer_direction_t direction, const std::string &site_name, const std::string &client_name) { return librbd::api::Mirror<>::peer_site_add( io_ctx, uuid, direction, site_name, client_name); } int RBD::mirror_peer_site_remove(IoCtx& io_ctx, const std::string &uuid) { return librbd::api::Mirror<>::peer_site_remove(io_ctx, uuid); } int RBD::mirror_peer_site_list( IoCtx& io_ctx, std::vector *peer_sites) { return librbd::api::Mirror<>::peer_site_list(io_ctx, peer_sites); } int RBD::mirror_peer_site_set_client_name( IoCtx& io_ctx, const std::string &uuid, const std::string &client_name) { return librbd::api::Mirror<>::peer_site_set_client(io_ctx, uuid, client_name); } int RBD::mirror_peer_site_set_name(IoCtx& io_ctx, const std::string &uuid, const std::string &site_name) { return librbd::api::Mirror<>::peer_site_set_name(io_ctx, uuid, site_name); } int RBD::mirror_peer_site_set_direction(IoCtx& io_ctx, const std::string& uuid, mirror_peer_direction_t direction) { return librbd::api::Mirror<>::peer_site_set_direction(io_ctx, uuid, direction); } int RBD::mirror_peer_site_get_attributes( IoCtx& io_ctx, const std::string &uuid, std::map *key_vals) { return librbd::api::Mirror<>::peer_site_get_attributes(io_ctx, uuid, key_vals); } int RBD::mirror_peer_site_set_attributes( IoCtx& io_ctx, const std::string &uuid, const std::map& key_vals) { return librbd::api::Mirror<>::peer_site_set_attributes(io_ctx, uuid, key_vals); } int RBD::mirror_image_global_status_list( IoCtx& io_ctx, const std::string &start_id, size_t max, std::map *global_statuses) { return librbd::api::Mirror<>::image_global_status_list( io_ctx, start_id, max, global_statuses); } #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wdeprecated-declarations" int RBD::mirror_peer_add(IoCtx& io_ctx, std::string *uuid, const std::string &cluster_name, const std::string &client_name) { return librbd::api::Mirror<>::peer_site_add( io_ctx, uuid, RBD_MIRROR_PEER_DIRECTION_RX_TX, cluster_name, client_name); } int RBD::mirror_peer_remove(IoCtx& io_ctx, const std::string &uuid) { return librbd::api::Mirror<>::peer_site_remove(io_ctx, uuid); } int RBD::mirror_peer_list(IoCtx& io_ctx, std::vector *peers) { std::vector peer_sites; int r = librbd::api::Mirror<>::peer_site_list(io_ctx, &peer_sites); if (r < 0) { return r; } peers->clear(); peers->reserve(peer_sites.size()); for (auto& peer_site : peer_sites) { peers->push_back({peer_site.uuid, peer_site.site_name, peer_site.client_name}); } return 0; } int RBD::mirror_peer_set_client(IoCtx& io_ctx, const std::string &uuid, const std::string &client_name) { return librbd::api::Mirror<>::peer_site_set_client(io_ctx, uuid, client_name); } int RBD::mirror_peer_set_cluster(IoCtx& io_ctx, const std::string &uuid, const std::string &cluster_name) { return librbd::api::Mirror<>::peer_site_set_name(io_ctx, uuid, cluster_name); } int RBD::mirror_peer_get_attributes( IoCtx& io_ctx, const std::string &uuid, std::map *key_vals) { return librbd::api::Mirror<>::peer_site_get_attributes(io_ctx, uuid, key_vals); } int RBD::mirror_peer_set_attributes( IoCtx& io_ctx, const std::string &uuid, const std::map& key_vals) { return librbd::api::Mirror<>::peer_site_set_attributes(io_ctx, uuid, key_vals); } int RBD::mirror_image_status_list(IoCtx& io_ctx, const std::string &start_id, size_t max, std::map *images) { std::map global_statuses; int r = librbd::api::Mirror<>::image_global_status_list( io_ctx, start_id, max, &global_statuses); if (r < 0) { return r; } images->clear(); for (auto &[id, global_status] : global_statuses) { if (global_status.site_statuses.empty() || global_status.site_statuses[0].mirror_uuid != cls::rbd::MirrorImageSiteStatus::LOCAL_MIRROR_UUID) { continue; } auto& site_status = global_status.site_statuses[0]; (*images)[id] = mirror_image_status_t{ global_status.name, global_status.info, site_status.state, site_status.description, site_status.last_update, site_status.up}; } return 0; } #pragma GCC diagnostic pop int RBD::mirror_image_status_summary(IoCtx& io_ctx, std::map *states) { return librbd::api::Mirror<>::image_status_summary(io_ctx, states); } int RBD::mirror_image_instance_id_list(IoCtx& io_ctx, const std::string &start_id, size_t max, std::map *instance_ids) { return librbd::api::Mirror<>::image_instance_id_list(io_ctx, start_id, max, instance_ids); } int RBD::mirror_image_info_list( IoCtx& io_ctx, mirror_image_mode_t *mode_filter, const std::string &start_id, size_t max, std::map> *entries) { return librbd::api::Mirror<>::image_info_list(io_ctx, mode_filter, start_id, max, entries); } int RBD::group_create(IoCtx& io_ctx, const char *group_name) { TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, group_create_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), group_name); int r = librbd::api::Group<>::create(io_ctx, group_name); tracepoint(librbd, group_create_exit, r); return r; } int RBD::group_remove(IoCtx& io_ctx, const char *group_name) { TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, group_remove_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), group_name); int r = librbd::api::Group<>::remove(io_ctx, group_name); tracepoint(librbd, group_remove_exit, r); return r; } int RBD::group_list(IoCtx& io_ctx, vector *names) { TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, group_list_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id()); int r = librbd::api::Group<>::list(io_ctx, names); if (r >= 0) { for (auto itr : *names) { tracepoint(librbd, group_list_entry, itr.c_str()); } } tracepoint(librbd, group_list_exit, r); return r; } int RBD::group_rename(IoCtx& io_ctx, const char *src_name, const char *dest_name) { TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, group_rename_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), src_name, dest_name); int r = librbd::api::Group<>::rename(io_ctx, src_name, dest_name); tracepoint(librbd, group_rename_exit, r); return r; } int RBD::group_image_add(IoCtx& group_ioctx, const char *group_name, IoCtx& image_ioctx, const char *image_name) { TracepointProvider::initialize(get_cct(group_ioctx)); tracepoint(librbd, group_image_add_enter, group_ioctx.get_pool_name().c_str(), group_ioctx.get_id(), group_name, image_ioctx.get_pool_name().c_str(), image_ioctx.get_id(), image_name); int r = librbd::api::Group<>::image_add(group_ioctx, group_name, image_ioctx, image_name); tracepoint(librbd, group_image_add_exit, r); return r; } int RBD::group_image_remove(IoCtx& group_ioctx, const char *group_name, IoCtx& image_ioctx, const char *image_name) { TracepointProvider::initialize(get_cct(group_ioctx)); tracepoint(librbd, group_image_remove_enter, group_ioctx.get_pool_name().c_str(), group_ioctx.get_id(), group_name, image_ioctx.get_pool_name().c_str(), image_ioctx.get_id(), image_name); int r = librbd::api::Group<>::image_remove(group_ioctx, group_name, image_ioctx, image_name); tracepoint(librbd, group_image_remove_exit, r); return r; } int RBD::group_image_remove_by_id(IoCtx& group_ioctx, const char *group_name, IoCtx& image_ioctx, const char *image_id) { TracepointProvider::initialize(get_cct(group_ioctx)); tracepoint(librbd, group_image_remove_by_id_enter, group_ioctx.get_pool_name().c_str(), group_ioctx.get_id(), group_name, image_ioctx.get_pool_name().c_str(), image_ioctx.get_id(), image_id); int r = librbd::api::Group<>::image_remove_by_id(group_ioctx, group_name, image_ioctx, image_id); tracepoint(librbd, group_image_remove_by_id_exit, r); return r; } int RBD::group_image_list(IoCtx& group_ioctx, const char *group_name, std::vector *images, size_t group_image_info_size) { TracepointProvider::initialize(get_cct(group_ioctx)); tracepoint(librbd, group_image_list_enter, group_ioctx.get_pool_name().c_str(), group_ioctx.get_id(), group_name); if (group_image_info_size != sizeof(group_image_info_t)) { tracepoint(librbd, group_image_list_exit, -ERANGE); return -ERANGE; } int r = librbd::api::Group<>::image_list(group_ioctx, group_name, images); tracepoint(librbd, group_image_list_exit, r); return r; } int RBD::group_snap_create(IoCtx& group_ioctx, const char *group_name, const char *snap_name) { TracepointProvider::initialize(get_cct(group_ioctx)); tracepoint(librbd, group_snap_create_enter, group_ioctx.get_pool_name().c_str(), group_ioctx.get_id(), group_name, snap_name); int r = librbd::api::Group<>::snap_create(group_ioctx, group_name, snap_name, 0); tracepoint(librbd, group_snap_create_exit, r); return r; } int RBD::group_snap_create2(IoCtx& group_ioctx, const char *group_name, const char *snap_name, uint32_t flags) { TracepointProvider::initialize(get_cct(group_ioctx)); tracepoint(librbd, group_snap_create_enter, group_ioctx.get_pool_name().c_str(), group_ioctx.get_id(), group_name, snap_name); int r = librbd::api::Group<>::snap_create(group_ioctx, group_name, snap_name, flags); tracepoint(librbd, group_snap_create_exit, r); return r; } int RBD::group_snap_remove(IoCtx& group_ioctx, const char *group_name, const char *snap_name) { TracepointProvider::initialize(get_cct(group_ioctx)); tracepoint(librbd, group_snap_remove_enter, group_ioctx.get_pool_name().c_str(), group_ioctx.get_id(), group_name, snap_name); int r = librbd::api::Group<>::snap_remove(group_ioctx, group_name, snap_name); tracepoint(librbd, group_snap_remove_exit, r); return r; } int RBD::group_snap_list(IoCtx& group_ioctx, const char *group_name, std::vector *snaps, size_t group_snap_info_size) { TracepointProvider::initialize(get_cct(group_ioctx)); tracepoint(librbd, group_snap_list_enter, group_ioctx.get_pool_name().c_str(), group_ioctx.get_id(), group_name); if (group_snap_info_size != sizeof(group_snap_info_t)) { tracepoint(librbd, group_snap_list_exit, -ERANGE); return -ERANGE; } int r = librbd::api::Group<>::snap_list(group_ioctx, group_name, snaps); tracepoint(librbd, group_snap_list_exit, r); return r; } int RBD::group_snap_rename(IoCtx& group_ioctx, const char *group_name, const char *old_snap_name, const char *new_snap_name) { TracepointProvider::initialize(get_cct(group_ioctx)); tracepoint(librbd, group_snap_rename_enter, group_ioctx.get_pool_name().c_str(), group_ioctx.get_id(), group_name, old_snap_name, new_snap_name); int r = librbd::api::Group<>::snap_rename(group_ioctx, group_name, old_snap_name, new_snap_name); tracepoint(librbd, group_snap_list_exit, r); return r; } int RBD::group_snap_rollback(IoCtx& group_ioctx, const char *group_name, const char *snap_name) { TracepointProvider::initialize(get_cct(group_ioctx)); tracepoint(librbd, group_snap_rollback_enter, group_ioctx.get_pool_name().c_str(), group_ioctx.get_id(), group_name, snap_name); librbd::NoOpProgressContext prog_ctx; int r = librbd::api::Group<>::snap_rollback(group_ioctx, group_name, snap_name, prog_ctx); tracepoint(librbd, group_snap_rollback_exit, r); return r; } int RBD::group_snap_rollback_with_progress(IoCtx& group_ioctx, const char *group_name, const char *snap_name, ProgressContext& prog_ctx) { TracepointProvider::initialize(get_cct(group_ioctx)); tracepoint(librbd, group_snap_rollback_enter, group_ioctx.get_pool_name().c_str(), group_ioctx.get_id(), group_name, snap_name); int r = librbd::api::Group<>::snap_rollback(group_ioctx, group_name, snap_name, prog_ctx); tracepoint(librbd, group_snap_rollback_exit, r); return r; } int RBD::pool_metadata_get(IoCtx& ioctx, const std::string &key, std::string *value) { int r = librbd::api::PoolMetadata<>::get(ioctx, key, value); return r; } int RBD::pool_metadata_set(IoCtx& ioctx, const std::string &key, const std::string &value) { int r = librbd::api::PoolMetadata<>::set(ioctx, key, value); return r; } int RBD::pool_metadata_remove(IoCtx& ioctx, const std::string &key) { int r = librbd::api::PoolMetadata<>::remove(ioctx, key); return r; } int RBD::pool_metadata_list(IoCtx& ioctx, const std::string &start, uint64_t max, map *pairs) { int r = librbd::api::PoolMetadata<>::list(ioctx, start, max, pairs); return r; } int RBD::config_list(IoCtx& io_ctx, std::vector *options) { return librbd::api::Config<>::list(io_ctx, options); } RBD::AioCompletion::AioCompletion(void *cb_arg, callback_t complete_cb) { auto aio_comp = librbd::io::AioCompletion::create( cb_arg, complete_cb, this); aio_comp->external_callback = true; pc = reinterpret_cast(aio_comp); } bool RBD::AioCompletion::is_complete() { librbd::io::AioCompletion *c = (librbd::io::AioCompletion *)pc; return c->is_complete(); } int RBD::AioCompletion::wait_for_complete() { librbd::io::AioCompletion *c = (librbd::io::AioCompletion *)pc; return c->wait_for_complete(); } ssize_t RBD::AioCompletion::get_return_value() { librbd::io::AioCompletion *c = (librbd::io::AioCompletion *)pc; return c->get_return_value(); } void *RBD::AioCompletion::get_arg() { librbd::io::AioCompletion *c = (librbd::io::AioCompletion *)pc; return c->get_arg(); } void RBD::AioCompletion::release() { librbd::io::AioCompletion *c = (librbd::io::AioCompletion *)pc; c->release(); delete this; } /* ImageOptions */ ImageOptions::ImageOptions() { librbd::image_options_create(&opts); } ImageOptions::ImageOptions(rbd_image_options_t opts_) { librbd::image_options_create_ref(&opts, opts_); } ImageOptions::ImageOptions(const ImageOptions &imgopts) { librbd::image_options_copy(&opts, imgopts); } ImageOptions::~ImageOptions() { librbd::image_options_destroy(opts); } int ImageOptions::set(int optname, const std::string& optval) { return librbd::image_options_set(opts, optname, optval); } int ImageOptions::set(int optname, uint64_t optval) { return librbd::image_options_set(opts, optname, optval); } int ImageOptions::get(int optname, std::string* optval) const { return librbd::image_options_get(opts, optname, optval); } int ImageOptions::get(int optname, uint64_t* optval) const { return librbd::image_options_get(opts, optname, optval); } int ImageOptions::is_set(int optname, bool* is_set) { return librbd::image_options_is_set(opts, optname, is_set); } int ImageOptions::unset(int optname) { return librbd::image_options_unset(opts, optname); } void ImageOptions::clear() { librbd::image_options_clear(opts); } bool ImageOptions::empty() const { return librbd::image_options_is_empty(opts); } /* Image */ Image::Image() : ctx(NULL) { } Image::~Image() { close(); } int Image::close() { int r = 0; if (ctx) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, close_image_enter, ictx, ictx->name.c_str(), ictx->id.c_str()); r = ictx->state->close(); ctx = NULL; tracepoint(librbd, close_image_exit, r); } return r; } int Image::aio_close(RBD::AioCompletion *c) { if (!ctx) { return -EINVAL; } ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, aio_close_image_enter, ictx, ictx->name.c_str(), ictx->id.c_str(), c->pc); ictx->state->close(new C_AioCompletion(ictx, librbd::io::AIO_TYPE_CLOSE, get_aio_completion(c))); ctx = NULL; tracepoint(librbd, aio_close_image_exit, 0); return 0; } int Image::resize(uint64_t size) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, resize_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, size); librbd::NoOpProgressContext prog_ctx; int r = ictx->operations->resize(size, true, prog_ctx); tracepoint(librbd, resize_exit, r); return r; } int Image::resize2(uint64_t size, bool allow_shrink, librbd::ProgressContext& pctx) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, resize_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, size); int r = ictx->operations->resize(size, allow_shrink, pctx); tracepoint(librbd, resize_exit, r); return r; } int Image::resize_with_progress(uint64_t size, librbd::ProgressContext& pctx) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, resize_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, size); int r = ictx->operations->resize(size, true, pctx); tracepoint(librbd, resize_exit, r); return r; } int Image::stat(image_info_t& info, size_t infosize) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, stat_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only); int r = librbd::info(ictx, info, infosize); tracepoint(librbd, stat_exit, r, &info); return r; } int Image::old_format(uint8_t *old) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, get_old_format_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only); int r = librbd::get_old_format(ictx, old); tracepoint(librbd, get_old_format_exit, r, *old); return r; } int Image::size(uint64_t *size) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, get_size_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only); int r = librbd::get_size(ictx, size); tracepoint(librbd, get_size_exit, r, *size); return r; } int Image::get_group(group_info_t *group_info, size_t group_info_size) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, image_get_group_enter, ictx->name.c_str()); if (group_info_size != sizeof(group_info_t)) { tracepoint(librbd, image_get_group_exit, -ERANGE); return -ERANGE; } int r = librbd::api::Group<>::image_get_group(ictx, group_info); tracepoint(librbd, image_get_group_exit, r); return r; } int Image::features(uint64_t *features) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, get_features_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only); int r = librbd::get_features(ictx, features); tracepoint(librbd, get_features_exit, r, *features); return r; } int Image::update_features(uint64_t features, bool enabled) { ImageCtx *ictx = reinterpret_cast(ctx); tracepoint(librbd, update_features_enter, ictx, features, enabled); int r = ictx->operations->update_features(features, enabled); tracepoint(librbd, update_features_exit, r); return r; } int Image::get_op_features(uint64_t *op_features) { ImageCtx *ictx = (ImageCtx *)ctx; return librbd::api::Image<>::get_op_features(ictx, op_features); } uint64_t Image::get_stripe_unit() const { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, get_stripe_unit_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only); uint64_t stripe_unit = ictx->get_stripe_unit(); tracepoint(librbd, get_stripe_unit_exit, 0, stripe_unit); return stripe_unit; } uint64_t Image::get_stripe_count() const { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, get_stripe_count_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only); uint64_t stripe_count = ictx->get_stripe_count(); tracepoint(librbd, get_stripe_count_exit, 0, stripe_count); return stripe_count; } int Image::get_create_timestamp(struct timespec *timestamp) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, get_create_timestamp_enter, ictx, ictx->name.c_str(), ictx->read_only); utime_t time = ictx->get_create_timestamp(); time.to_timespec(timestamp); tracepoint(librbd, get_create_timestamp_exit, 0, timestamp); return 0; } int Image::get_access_timestamp(struct timespec *timestamp) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, get_access_timestamp_enter, ictx, ictx->name.c_str(), ictx->read_only); { std::shared_lock timestamp_locker{ictx->timestamp_lock}; utime_t time = ictx->get_access_timestamp(); time.to_timespec(timestamp); } tracepoint(librbd, get_access_timestamp_exit, 0, timestamp); return 0; } int Image::get_modify_timestamp(struct timespec *timestamp) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, get_modify_timestamp_enter, ictx, ictx->name.c_str(), ictx->read_only); { std::shared_lock timestamp_locker{ictx->timestamp_lock}; utime_t time = ictx->get_modify_timestamp(); time.to_timespec(timestamp); } tracepoint(librbd, get_modify_timestamp_exit, 0, timestamp); return 0; } int Image::overlap(uint64_t *overlap) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, get_overlap_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only); int r = librbd::get_overlap(ictx, overlap); tracepoint(librbd, get_overlap_exit, r, *overlap); return r; } int Image::get_name(std::string *name) { ImageCtx *ictx = reinterpret_cast(ctx); *name = ictx->name; return 0; } int Image::get_id(std::string *id) { ImageCtx *ictx = reinterpret_cast(ctx); if (ictx->old_format) { return -EINVAL; } *id = ictx->id; return 0; } std::string Image::get_block_name_prefix() { ImageCtx *ictx = reinterpret_cast(ctx); return ictx->object_prefix; } int64_t Image::get_data_pool_id() { ImageCtx *ictx = reinterpret_cast(ctx); return librbd::api::Image<>::get_data_pool_id(ictx); } int Image::parent_info(string *parent_pool_name, string *parent_name, string *parent_snap_name) { librbd::linked_image_spec_t parent_image; librbd::snap_spec_t parent_snap; int r = get_parent(&parent_image, &parent_snap); if (r >= 0) { if (parent_pool_name != nullptr) { *parent_pool_name = parent_image.pool_name; } if (parent_name != nullptr) { *parent_name = parent_image.image_name; } if (parent_snap_name != nullptr) { *parent_snap_name = parent_snap.name; } } return r; } int Image::parent_info2(string *parent_pool_name, string *parent_name, string *parent_id, string *parent_snap_name) { librbd::linked_image_spec_t parent_image; librbd::snap_spec_t parent_snap; int r = get_parent(&parent_image, &parent_snap); if (r >= 0) { if (parent_pool_name != nullptr) { *parent_pool_name = parent_image.pool_name; } if (parent_name != nullptr) { *parent_name = parent_image.image_name; } if (parent_id != nullptr) { *parent_id = parent_image.image_id; } if (parent_snap_name != nullptr) { *parent_snap_name = parent_snap.name; } } return r; } int Image::get_parent(linked_image_spec_t *parent_image, snap_spec_t *parent_snap) { auto ictx = reinterpret_cast(ctx); tracepoint(librbd, get_parent_info_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only); int r = librbd::api::Image<>::get_parent(ictx, parent_image, parent_snap); tracepoint(librbd, get_parent_info_exit, r, parent_image->pool_name.c_str(), parent_image->image_name.c_str(), parent_image->image_id.c_str(), parent_snap->name.c_str()); return r; } int Image::get_migration_source_spec(std::string* source_spec) { auto ictx = reinterpret_cast(ctx); return librbd::api::Migration<>::get_source_spec(ictx, source_spec); } int Image::get_flags(uint64_t *flags) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, get_flags_enter, ictx); int r = librbd::get_flags(ictx, flags); tracepoint(librbd, get_flags_exit, ictx, r, *flags); return r; } int Image::set_image_notification(int fd, int type) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, set_image_notification_enter, ictx, fd, type); int r = librbd::set_image_notification(ictx, fd, type); tracepoint(librbd, set_image_notification_exit, ictx, r); return r; } int Image::is_exclusive_lock_owner(bool *is_owner) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, is_exclusive_lock_owner_enter, ictx); int r = librbd::is_exclusive_lock_owner(ictx, is_owner); tracepoint(librbd, is_exclusive_lock_owner_exit, ictx, r, *is_owner); return r; } int Image::lock_acquire(rbd_lock_mode_t lock_mode) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, lock_acquire_enter, ictx, lock_mode); int r = librbd::lock_acquire(ictx, lock_mode); tracepoint(librbd, lock_acquire_exit, ictx, r); return r; } int Image::lock_release() { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, lock_release_enter, ictx); int r = librbd::lock_release(ictx); tracepoint(librbd, lock_release_exit, ictx, r); return r; } int Image::lock_get_owners(rbd_lock_mode_t *lock_mode, std::list *lock_owners) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, lock_get_owners_enter, ictx); int r = librbd::lock_get_owners(ictx, lock_mode, lock_owners); tracepoint(librbd, lock_get_owners_exit, ictx, r); return r; } int Image::lock_break(rbd_lock_mode_t lock_mode, const std::string &lock_owner) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, lock_break_enter, ictx, lock_mode, lock_owner.c_str()); int r = librbd::lock_break(ictx, lock_mode, lock_owner); tracepoint(librbd, lock_break_exit, ictx, r); return r; } int Image::rebuild_object_map(ProgressContext &prog_ctx) { ImageCtx *ictx = reinterpret_cast(ctx); return ictx->operations->rebuild_object_map(prog_ctx); } int Image::check_object_map(ProgressContext &prog_ctx) { ImageCtx *ictx = reinterpret_cast(ctx); return ictx->operations->check_object_map(prog_ctx); } int Image::copy(IoCtx& dest_io_ctx, const char *destname) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, copy_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, dest_io_ctx.get_pool_name().c_str(), dest_io_ctx.get_id(), destname); ImageOptions opts; librbd::NoOpProgressContext prog_ctx; int r = librbd::copy(ictx, dest_io_ctx, destname, opts, prog_ctx, 0); tracepoint(librbd, copy_exit, r); return r; } int Image::copy2(Image& dest) { ImageCtx *srcctx = (ImageCtx *)ctx; ImageCtx *destctx = (ImageCtx *)dest.ctx; tracepoint(librbd, copy2_enter, srcctx, srcctx->name.c_str(), srcctx->snap_name.c_str(), srcctx->read_only, destctx, destctx->name.c_str(), destctx->snap_name.c_str(), destctx->read_only); librbd::NoOpProgressContext prog_ctx; int r = librbd::copy(srcctx, destctx, prog_ctx, 0); tracepoint(librbd, copy2_exit, r); return r; } int Image::copy3(IoCtx& dest_io_ctx, const char *destname, ImageOptions& opts) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, copy3_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, dest_io_ctx.get_pool_name().c_str(), dest_io_ctx.get_id(), destname, opts.opts); librbd::NoOpProgressContext prog_ctx; int r = librbd::copy(ictx, dest_io_ctx, destname, opts, prog_ctx, 0); tracepoint(librbd, copy3_exit, r); return r; } int Image::copy4(IoCtx& dest_io_ctx, const char *destname, ImageOptions& opts, size_t sparse_size) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, copy4_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, dest_io_ctx.get_pool_name().c_str(), dest_io_ctx.get_id(), destname, opts.opts, sparse_size); librbd::NoOpProgressContext prog_ctx; int r = librbd::copy(ictx, dest_io_ctx, destname, opts, prog_ctx, sparse_size); tracepoint(librbd, copy4_exit, r); return r; } int Image::copy_with_progress(IoCtx& dest_io_ctx, const char *destname, librbd::ProgressContext &pctx) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, copy_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, dest_io_ctx.get_pool_name().c_str(), dest_io_ctx.get_id(), destname); ImageOptions opts; int r = librbd::copy(ictx, dest_io_ctx, destname, opts, pctx, 0); tracepoint(librbd, copy_exit, r); return r; } int Image::copy_with_progress2(Image& dest, librbd::ProgressContext &pctx) { ImageCtx *srcctx = (ImageCtx *)ctx; ImageCtx *destctx = (ImageCtx *)dest.ctx; tracepoint(librbd, copy2_enter, srcctx, srcctx->name.c_str(), srcctx->snap_name.c_str(), srcctx->read_only, destctx, destctx->name.c_str(), destctx->snap_name.c_str(), destctx->read_only); int r = librbd::copy(srcctx, destctx, pctx, 0); tracepoint(librbd, copy2_exit, r); return r; } int Image::copy_with_progress3(IoCtx& dest_io_ctx, const char *destname, ImageOptions& opts, librbd::ProgressContext &pctx) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, copy3_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, dest_io_ctx.get_pool_name().c_str(), dest_io_ctx.get_id(), destname, opts.opts); int r = librbd::copy(ictx, dest_io_ctx, destname, opts, pctx, 0); tracepoint(librbd, copy3_exit, r); return r; } int Image::copy_with_progress4(IoCtx& dest_io_ctx, const char *destname, ImageOptions& opts, librbd::ProgressContext &pctx, size_t sparse_size) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, copy4_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, dest_io_ctx.get_pool_name().c_str(), dest_io_ctx.get_id(), destname, opts.opts, sparse_size); int r = librbd::copy(ictx, dest_io_ctx, destname, opts, pctx, sparse_size); tracepoint(librbd, copy4_exit, r); return r; } int Image::deep_copy(IoCtx& dest_io_ctx, const char *destname, ImageOptions& opts) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, deep_copy_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, dest_io_ctx.get_pool_name().c_str(), dest_io_ctx.get_id(), destname, opts.opts); librbd::NoOpProgressContext prog_ctx; int r = librbd::api::Image<>::deep_copy(ictx, dest_io_ctx, destname, opts, prog_ctx); tracepoint(librbd, deep_copy_exit, r); return r; } int Image::deep_copy_with_progress(IoCtx& dest_io_ctx, const char *destname, ImageOptions& opts, librbd::ProgressContext &prog_ctx) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, deep_copy_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, dest_io_ctx.get_pool_name().c_str(), dest_io_ctx.get_id(), destname, opts.opts); int r = librbd::api::Image<>::deep_copy(ictx, dest_io_ctx, destname, opts, prog_ctx); tracepoint(librbd, deep_copy_exit, r); return r; } int Image::encryption_format(encryption_format_t format, encryption_options_t opts, size_t opts_size) { ImageCtx *ictx = (ImageCtx *)ctx; return librbd::api::Image<>::encryption_format( ictx, format, opts, opts_size, false); } int Image::encryption_load(encryption_format_t format, encryption_options_t opts, size_t opts_size) { ImageCtx *ictx = (ImageCtx *)ctx; return librbd::api::Image<>::encryption_load( ictx, format, opts, opts_size, false); } int Image::flatten() { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, flatten_enter, ictx, ictx->name.c_str(), ictx->id.c_str()); librbd::NoOpProgressContext prog_ctx; int r = ictx->operations->flatten(prog_ctx); tracepoint(librbd, flatten_exit, r); return r; } int Image::flatten_with_progress(librbd::ProgressContext& prog_ctx) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, flatten_enter, ictx, ictx->name.c_str(), ictx->id.c_str()); int r = ictx->operations->flatten(prog_ctx); tracepoint(librbd, flatten_exit, r); return r; } int Image::sparsify(size_t sparse_size) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, sparsify_enter, ictx, ictx->name.c_str(), sparse_size, ictx->id.c_str()); librbd::NoOpProgressContext prog_ctx; int r = ictx->operations->sparsify(sparse_size, prog_ctx); tracepoint(librbd, sparsify_exit, r); return r; } int Image::sparsify_with_progress(size_t sparse_size, librbd::ProgressContext& prog_ctx) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, sparsify_enter, ictx, ictx->name.c_str(), sparse_size, ictx->id.c_str()); int r = ictx->operations->sparsify(sparse_size, prog_ctx); tracepoint(librbd, sparsify_exit, r); return r; } int Image::list_children(set > *children) { std::vector images; int r = list_children3(&images); if (r < 0) { return r; } for (auto& image : images) { if (!image.trash) { children->insert({image.pool_name, image.image_name}); } } return 0; } int Image::list_children2(vector *children) { std::vector images; int r = list_children3(&images); if (r < 0) { return r; } for (auto& image : images) { children->push_back({ .pool_name = image.pool_name, .image_name = image.image_name, .image_id = image.image_id, .trash = image.trash}); } return 0; } int Image::list_children3(std::vector *images) { auto ictx = reinterpret_cast(ctx); tracepoint(librbd, list_children_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only); int r = librbd::api::Image<>::list_children(ictx, images); #ifdef WITH_LTTNG if (r >= 0) { for (auto& it : *images) { tracepoint(librbd, list_children_entry, it.pool_name.c_str(), it.image_name.c_str()); } } #endif tracepoint(librbd, list_children_exit, r); return r; } int Image::list_descendants(std::vector *images) { auto ictx = reinterpret_cast(ctx); images->clear(); int r = librbd::api::Image<>::list_descendants(ictx, {}, images); return r; } int Image::list_lockers(std::list *lockers, bool *exclusive, string *tag) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, list_lockers_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only); int r = librbd::list_lockers(ictx, lockers, exclusive, tag); if (r >= 0) { for (std::list::const_iterator it = lockers->begin(); it != lockers->end(); ++it) { tracepoint(librbd, list_lockers_entry, it->client.c_str(), it->cookie.c_str(), it->address.c_str()); } } tracepoint(librbd, list_lockers_exit, r); return r; } int Image::lock_exclusive(const string& cookie) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, lock_exclusive_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, cookie.c_str()); int r = librbd::lock(ictx, true, cookie, ""); tracepoint(librbd, lock_exclusive_exit, r); return r; } int Image::lock_shared(const string& cookie, const std::string& tag) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, lock_shared_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, cookie.c_str(), tag.c_str()); int r = librbd::lock(ictx, false, cookie, tag); tracepoint(librbd, lock_shared_exit, r); return r; } int Image::unlock(const string& cookie) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, unlock_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, cookie.c_str()); int r = librbd::unlock(ictx, cookie); tracepoint(librbd, unlock_exit, r); return r; } int Image::break_lock(const string& client, const string& cookie) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, break_lock_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, client.c_str(), cookie.c_str()); int r = librbd::break_lock(ictx, client, cookie); tracepoint(librbd, break_lock_exit, r); return r; } int Image::snap_create(const char *snap_name) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, snap_create_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, snap_name); auto flags = librbd::util::get_default_snap_create_flags(ictx); librbd::NoOpProgressContext prog_ctx; int r = librbd::api::Snapshot<>::create(ictx, snap_name, flags, prog_ctx); tracepoint(librbd, snap_create_exit, r); return r; } int Image::snap_create2(const char *snap_name, uint32_t flags, ProgressContext& prog_ctx) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, snap_create_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, snap_name); int r = librbd::api::Snapshot<>::create(ictx, snap_name, flags, prog_ctx); tracepoint(librbd, snap_create_exit, r); return r; } int Image::snap_remove(const char *snap_name) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, snap_remove_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, snap_name); librbd::NoOpProgressContext prog_ctx; int r = librbd::api::Snapshot<>::remove(ictx, snap_name, 0, prog_ctx); tracepoint(librbd, snap_remove_exit, r); return r; } int Image::snap_remove2(const char *snap_name, uint32_t flags, ProgressContext& pctx) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, snap_remove2_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, snap_name, flags); int r = librbd::api::Snapshot<>::remove(ictx, snap_name, flags, pctx); tracepoint(librbd, snap_remove_exit, r); return r; } int Image::snap_remove_by_id(uint64_t snap_id) { ImageCtx *ictx = (ImageCtx *)ctx; return librbd::api::Snapshot<>::remove(ictx, snap_id); } int Image::snap_rollback(const char *snap_name) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, snap_rollback_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, snap_name); librbd::NoOpProgressContext prog_ctx; int r = ictx->operations->snap_rollback(cls::rbd::UserSnapshotNamespace(), snap_name, prog_ctx); tracepoint(librbd, snap_rollback_exit, r); return r; } int Image::snap_rename(const char *srcname, const char *dstname) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, snap_rename_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, srcname, dstname); int r = ictx->operations->snap_rename(srcname, dstname); tracepoint(librbd, snap_rename_exit, r); return r; } int Image::snap_rollback_with_progress(const char *snap_name, ProgressContext& prog_ctx) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, snap_rollback_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, snap_name); int r = ictx->operations->snap_rollback(cls::rbd::UserSnapshotNamespace(), snap_name, prog_ctx); tracepoint(librbd, snap_rollback_exit, r); return r; } int Image::snap_protect(const char *snap_name) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, snap_protect_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, snap_name); int r = ictx->operations->snap_protect(cls::rbd::UserSnapshotNamespace(), snap_name); tracepoint(librbd, snap_protect_exit, r); return r; } int Image::snap_unprotect(const char *snap_name) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, snap_unprotect_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, snap_name); int r = ictx->operations->snap_unprotect(cls::rbd::UserSnapshotNamespace(), snap_name); tracepoint(librbd, snap_unprotect_exit, r); return r; } int Image::snap_is_protected(const char *snap_name, bool *is_protected) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, snap_is_protected_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, snap_name); int r = librbd::api::Snapshot<>::is_protected(ictx, snap_name, is_protected); tracepoint(librbd, snap_is_protected_exit, r, *is_protected ? 1 : 0); return r; } int Image::snap_list(vector& snaps) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, snap_list_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, &snaps); int r = librbd::api::Snapshot<>::list(ictx, snaps); if (r >= 0) { for (int i = 0, n = snaps.size(); i < n; i++) { tracepoint(librbd, snap_list_entry, snaps[i].id, snaps[i].size, snaps[i].name.c_str()); } } tracepoint(librbd, snap_list_exit, r, snaps.size()); if (r >= 0) { // A little ugly, but the C++ API doesn't need a Image::snap_list_end, // and we want the tracepoints to mirror the C API tracepoint(librbd, snap_list_end_enter, &snaps); tracepoint(librbd, snap_list_end_exit); } return r; } bool Image::snap_exists(const char *snap_name) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, snap_exists_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, snap_name); bool exists; int r = librbd::api::Snapshot<>::exists(ictx, cls::rbd::UserSnapshotNamespace(), snap_name, &exists); tracepoint(librbd, snap_exists_exit, r, exists); if (r < 0) { // lie to caller since we don't know the real answer yet. return false; } return exists; } // A safer verion of snap_exists. int Image::snap_exists2(const char *snap_name, bool *exists) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, snap_exists_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, snap_name); int r = librbd::api::Snapshot<>::exists(ictx, cls::rbd::UserSnapshotNamespace(), snap_name, exists); tracepoint(librbd, snap_exists_exit, r, *exists); return r; } int Image::snap_get_timestamp(uint64_t snap_id, struct timespec *timestamp) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, snap_get_timestamp_enter, ictx, ictx->name.c_str()); int r = librbd::api::Snapshot<>::get_timestamp(ictx, snap_id, timestamp); tracepoint(librbd, snap_get_timestamp_exit, r); return r; } int Image::snap_get_limit(uint64_t *limit) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, snap_get_limit_enter, ictx, ictx->name.c_str()); int r = librbd::api::Snapshot<>::get_limit(ictx, limit); tracepoint(librbd, snap_get_limit_exit, r, *limit); return r; } int Image::snap_get_namespace_type(uint64_t snap_id, snap_namespace_type_t *namespace_type) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, snap_get_namespace_type_enter, ictx, ictx->name.c_str()); int r = librbd::api::Snapshot<>::get_namespace_type(ictx, snap_id, namespace_type); tracepoint(librbd, snap_get_namespace_type_exit, r); return r; } int Image::snap_get_group_namespace(uint64_t snap_id, snap_group_namespace_t *group_snap, size_t group_snap_size) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, snap_get_group_namespace_enter, ictx, ictx->name.c_str()); if (group_snap_size != sizeof(snap_group_namespace_t)) { tracepoint(librbd, snap_get_group_namespace_exit, -ERANGE); return -ERANGE; } int r = librbd::api::Snapshot<>::get_group_namespace(ictx, snap_id, group_snap); tracepoint(librbd, snap_get_group_namespace_exit, r); return r; } int Image::snap_get_trash_namespace(uint64_t snap_id, std::string* original_name) { ImageCtx *ictx = (ImageCtx *)ctx; return librbd::api::Snapshot<>::get_trash_namespace(ictx, snap_id, original_name); } int Image::snap_get_mirror_namespace( uint64_t snap_id, snap_mirror_namespace_t *mirror_snap, size_t mirror_snap_size) { ImageCtx *ictx = (ImageCtx *)ctx; if (mirror_snap_size != sizeof(snap_mirror_namespace_t)) { return -ERANGE; } int r = librbd::api::Snapshot<>::get_mirror_namespace( ictx, snap_id, mirror_snap); return r; } int Image::snap_set_limit(uint64_t limit) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, snap_set_limit_enter, ictx, ictx->name.c_str(), limit); int r = ictx->operations->snap_set_limit(limit); tracepoint(librbd, snap_set_limit_exit, r); return r; } int Image::snap_set(const char *snap_name) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, snap_set_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, snap_name); int r = librbd::api::Image<>::snap_set( ictx, cls::rbd::UserSnapshotNamespace(), snap_name); tracepoint(librbd, snap_set_exit, r); return r; } int Image::snap_set_by_id(uint64_t snap_id) { ImageCtx *ictx = (ImageCtx *)ctx; return librbd::api::Image<>::snap_set(ictx, snap_id); } int Image::snap_get_name(uint64_t snap_id, std::string *snap_name) { ImageCtx *ictx = (ImageCtx *)ctx; return librbd::api::Snapshot<>::get_name(ictx, snap_id, snap_name); } int Image::snap_get_id(const std::string snap_name, uint64_t *snap_id) { ImageCtx *ictx = (ImageCtx *)ctx; return librbd::api::Snapshot<>::get_id(ictx, snap_name, snap_id); } ssize_t Image::read(uint64_t ofs, size_t len, bufferlist& bl) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, read_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, ofs, len); bufferptr ptr(len); bl.push_back(std::move(ptr)); int r = api::Io<>::read(*ictx, ofs, len, io::ReadResult{&bl}, 0); tracepoint(librbd, read_exit, r); return r; } ssize_t Image::read2(uint64_t ofs, size_t len, bufferlist& bl, int op_flags) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, read2_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, ofs, len, op_flags); bufferptr ptr(len); bl.push_back(std::move(ptr)); int r = api::Io<>::read(*ictx, ofs, len, io::ReadResult{&bl}, op_flags); tracepoint(librbd, read_exit, r); return r; } int64_t Image::read_iterate(uint64_t ofs, size_t len, int (*cb)(uint64_t, size_t, const char *, void *), void *arg) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, read_iterate_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, ofs, len); int64_t r = librbd::read_iterate(ictx, ofs, len, cb, arg); tracepoint(librbd, read_iterate_exit, r); return r; } int Image::read_iterate2(uint64_t ofs, uint64_t len, int (*cb)(uint64_t, size_t, const char *, void *), void *arg) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, read_iterate2_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, ofs, len); int64_t r = librbd::read_iterate(ictx, ofs, len, cb, arg); if (r > 0) r = 0; tracepoint(librbd, read_iterate2_exit, r); return (int)r; } int Image::diff_iterate(const char *fromsnapname, uint64_t ofs, uint64_t len, int (*cb)(uint64_t, size_t, int, void *), void *arg) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, diff_iterate_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, fromsnapname, ofs, len, true, false); int r = librbd::api::DiffIterate<>::diff_iterate(ictx, cls::rbd::UserSnapshotNamespace(), fromsnapname, ofs, len, true, false, cb, arg); tracepoint(librbd, diff_iterate_exit, r); return r; } int Image::diff_iterate2(const char *fromsnapname, uint64_t ofs, uint64_t len, bool include_parent, bool whole_object, int (*cb)(uint64_t, size_t, int, void *), void *arg) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, diff_iterate_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, fromsnapname, ofs, len, include_parent, whole_object); int r = librbd::api::DiffIterate<>::diff_iterate(ictx, cls::rbd::UserSnapshotNamespace(), fromsnapname, ofs, len, include_parent, whole_object, cb, arg); tracepoint(librbd, diff_iterate_exit, r); return r; } ssize_t Image::write(uint64_t ofs, size_t len, bufferlist& bl) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, write_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, ofs, len, bl.length() < len ? NULL : bl.c_str()); if (bl.length() < len) { tracepoint(librbd, write_exit, -EINVAL); return -EINVAL; } int r = api::Io<>::write(*ictx, ofs, len, bufferlist{bl}, 0); tracepoint(librbd, write_exit, r); return r; } ssize_t Image::write2(uint64_t ofs, size_t len, bufferlist& bl, int op_flags) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, write2_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, ofs, len, bl.length() < len ? NULL : bl.c_str(), op_flags); if (bl.length() < len) { tracepoint(librbd, write_exit, -EINVAL); return -EINVAL; } int r = api::Io<>::write(*ictx, ofs, len, bufferlist{bl}, op_flags); tracepoint(librbd, write_exit, r); return r; } int Image::discard(uint64_t ofs, uint64_t len) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, discard_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, ofs, len); if (len > static_cast(std::numeric_limits::max())) { tracepoint(librbd, discard_exit, -EINVAL); return -EINVAL; } int r = api::Io<>::discard( *ictx, ofs, len, ictx->discard_granularity_bytes); tracepoint(librbd, discard_exit, r); return r; } ssize_t Image::writesame(uint64_t ofs, size_t len, bufferlist& bl, int op_flags) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, writesame_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, ofs, len, bl.length() == 0 ? NULL : bl.c_str(), bl.length(), op_flags); if (bl.length() == 0 || len % bl.length() || len > static_cast(std::numeric_limits::max())) { tracepoint(librbd, writesame_exit, -EINVAL); return -EINVAL; } bool discard_zero = ictx->config.get_val("rbd_discard_on_zeroed_write_same"); if (discard_zero && bl.is_zero()) { int r = api::Io<>::write_zeroes(*ictx, ofs, len, 0U, op_flags); tracepoint(librbd, writesame_exit, r); return r; } int r = api::Io<>::write_same(*ictx, ofs, len, bufferlist{bl}, op_flags); tracepoint(librbd, writesame_exit, r); return r; } ssize_t Image::write_zeroes(uint64_t ofs, size_t len, int zero_flags, int op_flags) { ImageCtx *ictx = (ImageCtx *)ctx; return api::Io<>::write_zeroes(*ictx, ofs, len, zero_flags, op_flags); } ssize_t Image::compare_and_write(uint64_t ofs, size_t len, ceph::bufferlist &cmp_bl, ceph::bufferlist& bl, uint64_t *mismatch_off, int op_flags) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, compare_and_write_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, ofs, len, cmp_bl.length() < len ? NULL : cmp_bl.c_str(), bl.length() < len ? NULL : bl.c_str(), op_flags); if (bl.length() < len) { tracepoint(librbd, write_exit, -EINVAL); return -EINVAL; } int r = api::Io<>::compare_and_write( *ictx, ofs, len, bufferlist{cmp_bl}, bufferlist{bl}, mismatch_off, op_flags); tracepoint(librbd, compare_and_write_exit, r); return r; } int Image::aio_write(uint64_t off, size_t len, bufferlist& bl, RBD::AioCompletion *c) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, aio_write_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, off, len, bl.length() < len ? NULL : bl.c_str(), c->pc); if (bl.length() < len) { tracepoint(librbd, aio_write_exit, -EINVAL); return -EINVAL; } api::Io<>::aio_write(*ictx, get_aio_completion(c), off, len, bufferlist{bl}, 0, true); tracepoint(librbd, aio_write_exit, 0); return 0; } int Image::aio_write2(uint64_t off, size_t len, bufferlist& bl, RBD::AioCompletion *c, int op_flags) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, aio_write2_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, off, len, bl.length() < len ? NULL : bl.c_str(), c->pc, op_flags); if (bl.length() < len) { tracepoint(librbd, aio_write_exit, -EINVAL); return -EINVAL; } api::Io<>::aio_write(*ictx, get_aio_completion(c), off, len, bufferlist{bl}, op_flags, true); tracepoint(librbd, aio_write_exit, 0); return 0; } int Image::aio_read(uint64_t off, size_t len, bufferlist& bl, RBD::AioCompletion *c) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, aio_read_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, off, len, bl.c_str(), c->pc); ldout(ictx->cct, 10) << "Image::aio_read() buf=" << (void *)bl.c_str() << "~" << (void *)(bl.c_str() + len - 1) << dendl; api::Io<>::aio_read(*ictx, get_aio_completion(c), off, len, io::ReadResult{&bl}, 0, true); tracepoint(librbd, aio_read_exit, 0); return 0; } int Image::aio_read2(uint64_t off, size_t len, bufferlist& bl, RBD::AioCompletion *c, int op_flags) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, aio_read2_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, off, len, bl.c_str(), c->pc, op_flags); ldout(ictx->cct, 10) << "Image::aio_read() buf=" << (void *)bl.c_str() << "~" << (void *)(bl.c_str() + len - 1) << dendl; api::Io<>::aio_read(*ictx, get_aio_completion(c), off, len, io::ReadResult{&bl}, op_flags, true); tracepoint(librbd, aio_read_exit, 0); return 0; } int Image::flush() { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, flush_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only); int r = api::Io<>::flush(*ictx); tracepoint(librbd, flush_exit, r); return r; } int Image::aio_flush(RBD::AioCompletion *c) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, aio_flush_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, c->pc); api::Io<>::aio_flush(*ictx, get_aio_completion(c), true); tracepoint(librbd, aio_flush_exit, 0); return 0; } int Image::aio_discard(uint64_t off, uint64_t len, RBD::AioCompletion *c) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, aio_discard_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, off, len, c->pc); api::Io<>::aio_discard( *ictx, get_aio_completion(c), off, len, ictx->discard_granularity_bytes, true); tracepoint(librbd, aio_discard_exit, 0); return 0; } int Image::aio_writesame(uint64_t off, size_t len, bufferlist& bl, RBD::AioCompletion *c, int op_flags) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, aio_writesame_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, off, len, bl.length() <= len ? NULL : bl.c_str(), bl.length(), c->pc, op_flags); if (bl.length() == 0 || len % bl.length()) { tracepoint(librbd, aio_writesame_exit, -EINVAL); return -EINVAL; } bool discard_zero = ictx->config.get_val("rbd_discard_on_zeroed_write_same"); if (discard_zero && bl.is_zero()) { api::Io<>::aio_write_zeroes(*ictx, get_aio_completion(c), off, len, 0U, op_flags, true); tracepoint(librbd, aio_writesame_exit, 0); return 0; } api::Io<>::aio_write_same(*ictx, get_aio_completion(c), off, len, bufferlist{bl}, op_flags, true); tracepoint(librbd, aio_writesame_exit, 0); return 0; } int Image::aio_write_zeroes(uint64_t off, size_t len, RBD::AioCompletion *c, int zero_flags, int op_flags) { ImageCtx *ictx = (ImageCtx *)ctx; api::Io<>::aio_write_zeroes(*ictx, get_aio_completion(c), off, len, zero_flags, op_flags, true); return 0; } int Image::aio_compare_and_write(uint64_t off, size_t len, ceph::bufferlist& cmp_bl, ceph::bufferlist& bl, RBD::AioCompletion *c, uint64_t *mismatch_off, int op_flags) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, aio_compare_and_write_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, off, len, cmp_bl.length() < len ? NULL : cmp_bl.c_str(), bl.length() < len ? NULL : bl.c_str(), c->pc, op_flags); if (bl.length() < len) { tracepoint(librbd, compare_and_write_exit, -EINVAL); return -EINVAL; } api::Io<>::aio_compare_and_write(*ictx, get_aio_completion(c), off, len, bufferlist{cmp_bl}, bufferlist{bl}, mismatch_off, op_flags, false); tracepoint(librbd, aio_compare_and_write_exit, 0); return 0; } int Image::invalidate_cache() { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, invalidate_cache_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only); int r = librbd::invalidate_cache(ictx); tracepoint(librbd, invalidate_cache_exit, r); return r; } int Image::poll_io_events(RBD::AioCompletion **comps, int numcomp) { io::AioCompletion *cs[numcomp]; ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, poll_io_events_enter, ictx, numcomp); int r = librbd::poll_io_events(ictx, cs, numcomp); tracepoint(librbd, poll_io_events_exit, r); if (r > 0) { for (int i = 0; i < r; ++i) comps[i] = (RBD::AioCompletion *)cs[i]->rbd_comp; } return r; } int Image::metadata_get(const std::string &key, std::string *value) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, metadata_get_enter, ictx, key.c_str()); int r = librbd::metadata_get(ictx, key, value); if (r < 0) { tracepoint(librbd, metadata_get_exit, r, key.c_str(), NULL); } else { tracepoint(librbd, metadata_get_exit, r, key.c_str(), value->c_str()); } return r; } int Image::metadata_set(const std::string &key, const std::string &value) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, metadata_set_enter, ictx, key.c_str(), value.c_str()); int r = ictx->operations->metadata_set(key, value); tracepoint(librbd, metadata_set_exit, r); return r; } int Image::metadata_remove(const std::string &key) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, metadata_remove_enter, ictx, key.c_str()); int r = ictx->operations->metadata_remove(key); tracepoint(librbd, metadata_remove_exit, r); return r; } int Image::metadata_list(const std::string &start, uint64_t max, map *pairs) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, metadata_list_enter, ictx); int r = librbd::metadata_list(ictx, start, max, pairs); if (r >= 0) { for (map::iterator it = pairs->begin(); it != pairs->end(); ++it) { tracepoint(librbd, metadata_list_entry, it->first.c_str(), it->second.c_str()); } } tracepoint(librbd, metadata_list_exit, r); return r; } int Image::mirror_image_enable() { return mirror_image_enable2(RBD_MIRROR_IMAGE_MODE_JOURNAL); } int Image::mirror_image_enable2(mirror_image_mode_t mode) { ImageCtx *ictx = (ImageCtx *)ctx; return librbd::api::Mirror<>::image_enable(ictx, mode, false); } int Image::mirror_image_disable(bool force) { ImageCtx *ictx = (ImageCtx *)ctx; return librbd::api::Mirror<>::image_disable(ictx, force); } int Image::mirror_image_promote(bool force) { ImageCtx *ictx = (ImageCtx *)ctx; return librbd::api::Mirror<>::image_promote(ictx, force); } int Image::mirror_image_demote() { ImageCtx *ictx = (ImageCtx *)ctx; return librbd::api::Mirror<>::image_demote(ictx); } int Image::mirror_image_resync() { ImageCtx *ictx = (ImageCtx *)ctx; return librbd::api::Mirror<>::image_resync(ictx); } int Image::mirror_image_create_snapshot(uint64_t *snap_id) { ImageCtx *ictx = (ImageCtx *)ctx; auto flags = librbd::util::get_default_snap_create_flags(ictx); return librbd::api::Mirror<>::image_snapshot_create(ictx, flags, snap_id); } int Image::mirror_image_create_snapshot2(uint32_t flags, uint64_t *snap_id) { ImageCtx *ictx = (ImageCtx *)ctx; return librbd::api::Mirror<>::image_snapshot_create(ictx, flags, snap_id); } int Image::mirror_image_get_info(mirror_image_info_t *mirror_image_info, size_t info_size) { ImageCtx *ictx = (ImageCtx *)ctx; if (sizeof(mirror_image_info_t) != info_size) { return -ERANGE; } return librbd::api::Mirror<>::image_get_info(ictx, mirror_image_info); } int Image::mirror_image_get_mode(mirror_image_mode_t *mode) { ImageCtx *ictx = (ImageCtx *)ctx; return librbd::api::Mirror<>::image_get_mode(ictx, mode); } int Image::mirror_image_get_global_status( mirror_image_global_status_t *mirror_image_global_status, size_t status_size) { ImageCtx *ictx = (ImageCtx *)ctx; if (sizeof(mirror_image_global_status_t) != status_size) { return -ERANGE; } return librbd::api::Mirror<>::image_get_global_status( ictx, mirror_image_global_status); } #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wdeprecated-declarations" int Image::mirror_image_get_status(mirror_image_status_t *mirror_image_status, size_t status_size) { ImageCtx *ictx = (ImageCtx *)ctx; if (sizeof(mirror_image_status_t) != status_size) { return -ERANGE; } mirror_image_global_status_t mirror_image_global_status; int r = librbd::api::Mirror<>::image_get_global_status( ictx, &mirror_image_global_status); if (r < 0) { return r; } librbd::mirror_image_site_status_t local_status; r = get_local_mirror_image_site_status(mirror_image_global_status, &local_status); if (r < 0) { return r; } *mirror_image_status = mirror_image_status_t{ mirror_image_global_status.name, mirror_image_global_status.info, local_status.state, local_status.description, local_status.last_update, local_status.up}; return 0; } #pragma GCC diagnostic pop int Image::mirror_image_get_instance_id(std::string *instance_id) { ImageCtx *ictx = (ImageCtx *)ctx; return librbd::api::Mirror<>::image_get_instance_id(ictx, instance_id); } int Image::aio_mirror_image_promote(bool force, RBD::AioCompletion *c) { ImageCtx *ictx = (ImageCtx *)ctx; librbd::api::Mirror<>::image_promote( ictx, force, new C_AioCompletion(ictx, librbd::io::AIO_TYPE_GENERIC, get_aio_completion(c))); return 0; } int Image::aio_mirror_image_demote(RBD::AioCompletion *c) { ImageCtx *ictx = (ImageCtx *)ctx; librbd::api::Mirror<>::image_demote( ictx, new C_AioCompletion(ictx, librbd::io::AIO_TYPE_GENERIC, get_aio_completion(c))); return 0; } int Image::aio_mirror_image_get_info(mirror_image_info_t *mirror_image_info, size_t info_size, RBD::AioCompletion *c) { ImageCtx *ictx = (ImageCtx *)ctx; if (sizeof(mirror_image_info_t) != info_size) { return -ERANGE; } librbd::api::Mirror<>::image_get_info( ictx, mirror_image_info, new C_AioCompletion(ictx, librbd::io::AIO_TYPE_GENERIC, get_aio_completion(c))); return 0; } int Image::aio_mirror_image_get_mode(mirror_image_mode_t *mode, RBD::AioCompletion *c) { ImageCtx *ictx = (ImageCtx *)ctx; librbd::api::Mirror<>::image_get_mode( ictx, mode, new C_AioCompletion(ictx, librbd::io::AIO_TYPE_GENERIC, get_aio_completion(c))); return 0; } int Image::aio_mirror_image_get_global_status( mirror_image_global_status_t *status, size_t status_size, RBD::AioCompletion *c) { ImageCtx *ictx = (ImageCtx *)ctx; if (sizeof(mirror_image_global_status_t) != status_size) { return -ERANGE; } librbd::api::Mirror<>::image_get_global_status( ictx, status, new C_AioCompletion(ictx, librbd::io::AIO_TYPE_GENERIC, get_aio_completion(c))); return 0; } #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wdeprecated-declarations" int Image::aio_mirror_image_get_status(mirror_image_status_t *status, size_t status_size, RBD::AioCompletion *c) { ImageCtx *ictx = (ImageCtx *)ctx; if (sizeof(mirror_image_status_t) != status_size) { return -ERANGE; } auto ctx = new C_MirrorImageGetStatus( status, new C_AioCompletion(ictx, librbd::io::AIO_TYPE_GENERIC, get_aio_completion(c))); librbd::api::Mirror<>::image_get_global_status( ictx, &ctx->cpp_mirror_image_global_status, ctx); return 0; } #pragma GCC diagnostic pop int Image::aio_mirror_image_create_snapshot(uint32_t flags, uint64_t *snap_id, RBD::AioCompletion *c) { ImageCtx *ictx = (ImageCtx *)ctx; librbd::api::Mirror<>::image_snapshot_create( ictx, flags, snap_id, new C_AioCompletion(ictx, librbd::io::AIO_TYPE_GENERIC, get_aio_completion(c))); return 0; } int Image::update_watch(UpdateWatchCtx *wctx, uint64_t *handle) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, update_watch_enter, ictx, wctx); int r = ictx->state->register_update_watcher(wctx, handle); tracepoint(librbd, update_watch_exit, r, *handle); return r; } int Image::update_unwatch(uint64_t handle) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, update_unwatch_enter, ictx, handle); int r = ictx->state->unregister_update_watcher(handle); tracepoint(librbd, update_unwatch_exit, r); return r; } int Image::list_watchers(std::list &watchers) { ImageCtx *ictx = (ImageCtx *)ctx; tracepoint(librbd, list_watchers_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only); int r = librbd::list_watchers(ictx, watchers); #ifdef WITH_LTTNG if (r >= 0) { for (auto &watcher : watchers) { tracepoint(librbd, list_watchers_entry, watcher.addr.c_str(), watcher.id, watcher.cookie); } } #endif tracepoint(librbd, list_watchers_exit, r, watchers.size()); return r; } int Image::config_list(std::vector *options) { ImageCtx *ictx = (ImageCtx *)ctx; return librbd::api::Config<>::list(ictx, options); } int Image::quiesce_watch(QuiesceWatchCtx *wctx, uint64_t *handle) { ImageCtx *ictx = (ImageCtx *)ctx; int r = ictx->state->register_quiesce_watcher(wctx, handle); return r; } int Image::quiesce_unwatch(uint64_t handle) { ImageCtx *ictx = (ImageCtx *)ctx; int r = ictx->state->unregister_quiesce_watcher(handle); return r; } void Image::quiesce_complete(uint64_t handle, int r) { ImageCtx *ictx = (ImageCtx *)ctx; ictx->state->quiesce_complete(handle, r); } } // namespace librbd extern "C" void rbd_version(int *major, int *minor, int *extra) { if (major) *major = LIBRBD_VER_MAJOR; if (minor) *minor = LIBRBD_VER_MINOR; if (extra) *extra = LIBRBD_VER_EXTRA; } extern "C" void rbd_image_options_create(rbd_image_options_t* opts) { librbd::image_options_create(opts); } extern "C" void rbd_image_options_destroy(rbd_image_options_t opts) { librbd::image_options_destroy(opts); } extern "C" int rbd_image_options_set_string(rbd_image_options_t opts, int optname, const char* optval) { return librbd::image_options_set(opts, optname, optval); } extern "C" int rbd_image_options_set_uint64(rbd_image_options_t opts, int optname, uint64_t optval) { return librbd::image_options_set(opts, optname, optval); } extern "C" int rbd_image_options_get_string(rbd_image_options_t opts, int optname, char* optval, size_t maxlen) { std::string optval_; int r = librbd::image_options_get(opts, optname, &optval_); if (r < 0) { return r; } if (optval_.size() >= maxlen) { return -E2BIG; } strncpy(optval, optval_.c_str(), maxlen); return 0; } extern "C" int rbd_image_options_get_uint64(rbd_image_options_t opts, int optname, uint64_t* optval) { return librbd::image_options_get(opts, optname, optval); } extern "C" int rbd_image_options_is_set(rbd_image_options_t opts, int optname, bool* is_set) { return librbd::image_options_is_set(opts, optname, is_set); } extern "C" int rbd_image_options_unset(rbd_image_options_t opts, int optname) { return librbd::image_options_unset(opts, optname); } extern "C" void rbd_image_options_clear(rbd_image_options_t opts) { librbd::image_options_clear(opts); } extern "C" int rbd_image_options_is_empty(rbd_image_options_t opts) { return librbd::image_options_is_empty(opts); } /* pool mirroring */ extern "C" int rbd_mirror_site_name_get(rados_t cluster, char *name, size_t *max_len) { librados::Rados rados; librados::Rados::from_rados_t(cluster, rados); std::string site_name; int r = librbd::api::Mirror<>::site_name_get(rados, &site_name); if (r < 0) { return r; } auto total_len = site_name.size() + 1; if (*max_len < total_len) { *max_len = total_len; return -ERANGE; } *max_len = total_len; strcpy(name, site_name.c_str()); return 0; } extern "C" int rbd_mirror_site_name_set(rados_t cluster, const char *name) { librados::Rados rados; librados::Rados::from_rados_t(cluster, rados); return librbd::api::Mirror<>::site_name_set(rados, name); } extern "C" int rbd_mirror_mode_get(rados_ioctx_t p, rbd_mirror_mode_t *mirror_mode) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); return librbd::api::Mirror<>::mode_get(io_ctx, mirror_mode); } extern "C" int rbd_mirror_mode_set(rados_ioctx_t p, rbd_mirror_mode_t mirror_mode) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); return librbd::api::Mirror<>::mode_set(io_ctx, mirror_mode); } extern "C" int rbd_mirror_uuid_get(rados_ioctx_t p, char *mirror_uuid, size_t *max_len) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); std::string mirror_uuid_str; int r = librbd::api::Mirror<>::uuid_get(io_ctx, &mirror_uuid_str); if (r < 0) { return r; } auto total_len = mirror_uuid_str.size() + 1; if (*max_len < total_len) { *max_len = total_len; return -ERANGE; } *max_len = total_len; strcpy(mirror_uuid, mirror_uuid_str.c_str()); return 0; } extern "C" int rbd_mirror_peer_bootstrap_create(rados_ioctx_t p, char *token, size_t *max_len) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); std::string token_str; int r = librbd::api::Mirror<>::peer_bootstrap_create(io_ctx, &token_str); if (r < 0) { return r; } auto total_len = token_str.size() + 1; if (*max_len < total_len) { *max_len = total_len; return -ERANGE; } *max_len = total_len; strcpy(token, token_str.c_str()); return 0; } extern "C" int rbd_mirror_peer_bootstrap_import( rados_ioctx_t p, rbd_mirror_peer_direction_t direction, const char *token) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); return librbd::api::Mirror<>::peer_bootstrap_import(io_ctx, direction, token); } extern "C" int rbd_mirror_peer_site_add(rados_ioctx_t p, char *uuid, size_t uuid_max_length, rbd_mirror_peer_direction_t direction, const char *site_name, const char *client_name) { static const std::size_t UUID_LENGTH = 36; librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); if (uuid_max_length < UUID_LENGTH + 1) { return -E2BIG; } std::string uuid_str; int r = librbd::api::Mirror<>::peer_site_add(io_ctx, &uuid_str, direction, site_name, client_name); if (r >= 0) { strncpy(uuid, uuid_str.c_str(), uuid_max_length); uuid[uuid_max_length - 1] = '\0'; } return r; } extern "C" int rbd_mirror_peer_site_remove(rados_ioctx_t p, const char *uuid) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); int r = librbd::api::Mirror<>::peer_site_remove(io_ctx, uuid); return r; } extern "C" int rbd_mirror_peer_site_list( rados_ioctx_t p, rbd_mirror_peer_site_t *peers, int *max_peers) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); std::vector peer_vector; int r = librbd::api::Mirror<>::peer_site_list(io_ctx, &peer_vector); if (r < 0) { return r; } if (*max_peers < static_cast(peer_vector.size())) { *max_peers = static_cast(peer_vector.size()); return -ERANGE; } for (int i = 0; i < static_cast(peer_vector.size()); ++i) { peers[i].uuid = strdup(peer_vector[i].uuid.c_str()); peers[i].direction = peer_vector[i].direction; peers[i].site_name = strdup(peer_vector[i].site_name.c_str()); peers[i].mirror_uuid = strdup(peer_vector[i].mirror_uuid.c_str()); peers[i].client_name = strdup(peer_vector[i].client_name.c_str()); } *max_peers = static_cast(peer_vector.size()); return 0; } extern "C" void rbd_mirror_peer_site_list_cleanup(rbd_mirror_peer_site_t *peers, int max_peers) { for (int i = 0; i < max_peers; ++i) { free(peers[i].uuid); free(peers[i].site_name); free(peers[i].mirror_uuid); free(peers[i].client_name); } } extern "C" int rbd_mirror_peer_site_set_client_name( rados_ioctx_t p, const char *uuid, const char *client_name) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); return librbd::api::Mirror<>::peer_site_set_client(io_ctx, uuid, client_name); } extern "C" int rbd_mirror_peer_site_set_name( rados_ioctx_t p, const char *uuid, const char *site_name) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); return librbd::api::Mirror<>::peer_site_set_name(io_ctx, uuid, site_name); } extern "C" int rbd_mirror_peer_site_set_direction( rados_ioctx_t p, const char *uuid, rbd_mirror_peer_direction_t direction) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); return librbd::api::Mirror<>::peer_site_set_direction(io_ctx, uuid, direction); } extern "C" int rbd_mirror_peer_site_get_attributes( rados_ioctx_t p, const char *uuid, char *keys, size_t *max_key_len, char *values, size_t *max_val_len, size_t *key_value_count) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); std::map attributes; int r = librbd::api::Mirror<>::peer_site_get_attributes( io_ctx, uuid, &attributes); if (r < 0) { return r; } size_t key_total_len = 0, val_total_len = 0; for (auto& it : attributes) { key_total_len += it.first.size() + 1; val_total_len += it.second.length() + 1; } bool too_short = ((*max_key_len < key_total_len) || (*max_val_len < val_total_len)); *max_key_len = key_total_len; *max_val_len = val_total_len; *key_value_count = attributes.size(); if (too_short) { return -ERANGE; } char *keys_p = keys; char *values_p = values; for (auto& it : attributes) { strncpy(keys_p, it.first.c_str(), it.first.size() + 1); keys_p += it.first.size() + 1; strncpy(values_p, it.second.c_str(), it.second.length() + 1); values_p += it.second.length() + 1; } return 0; } extern "C" int rbd_mirror_peer_site_set_attributes( rados_ioctx_t p, const char *uuid, const char *keys, const char *values, size_t count) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); std::map attributes; for (size_t i = 0; i < count; ++i) { const char* key = keys; keys += strlen(key) + 1; const char* value = values; values += strlen(value) + 1; attributes[key] = value; } return librbd::api::Mirror<>::peer_site_set_attributes( io_ctx, uuid, attributes); } extern "C" int rbd_mirror_image_global_status_list(rados_ioctx_t p, const char *start_id, size_t max, char **image_ids, rbd_mirror_image_global_status_t *images, size_t *len) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); std::map cpp_images; int r = librbd::api::Mirror<>::image_global_status_list( io_ctx, start_id, max, &cpp_images); if (r < 0) { return r; } size_t i = 0; for (auto &it : cpp_images) { ceph_assert(i < max); const std::string &image_id = it.first; image_ids[i] = strdup(image_id.c_str()); mirror_image_global_status_cpp_to_c(it.second, &images[i]); i++; } *len = i; return 0; } extern "C" void rbd_mirror_image_global_status_cleanup( rbd_mirror_image_global_status_t *global_status) { free(global_status->name); rbd_mirror_image_get_info_cleanup(&global_status->info); for (auto idx = 0U; idx < global_status->site_statuses_count; ++idx) { free(global_status->site_statuses[idx].mirror_uuid); free(global_status->site_statuses[idx].description); } free(global_status->site_statuses); } extern "C" void rbd_mirror_image_global_status_list_cleanup( char **image_ids, rbd_mirror_image_global_status_t *images, size_t len) { for (size_t i = 0; i < len; i++) { free(image_ids[i]); rbd_mirror_image_global_status_cleanup(&images[i]); } } #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wdeprecated-declarations" extern "C" int rbd_mirror_peer_add(rados_ioctx_t p, char *uuid, size_t uuid_max_length, const char *cluster_name, const char *client_name) { return rbd_mirror_peer_site_add( p, uuid, uuid_max_length, RBD_MIRROR_PEER_DIRECTION_RX_TX, cluster_name, client_name); } extern "C" int rbd_mirror_peer_remove(rados_ioctx_t p, const char *uuid) { return rbd_mirror_peer_site_remove(p, uuid); } extern "C" int rbd_mirror_peer_list(rados_ioctx_t p, rbd_mirror_peer_t *peers, int *max_peers) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); std::vector peer_vector; int r = librbd::api::Mirror<>::peer_site_list(io_ctx, &peer_vector); if (r < 0) { return r; } if (*max_peers < static_cast(peer_vector.size())) { *max_peers = static_cast(peer_vector.size()); return -ERANGE; } for (int i = 0; i < static_cast(peer_vector.size()); ++i) { peers[i].uuid = strdup(peer_vector[i].uuid.c_str()); peers[i].cluster_name = strdup(peer_vector[i].site_name.c_str()); peers[i].client_name = strdup(peer_vector[i].client_name.c_str()); } *max_peers = static_cast(peer_vector.size()); return 0; } extern "C" void rbd_mirror_peer_list_cleanup(rbd_mirror_peer_t *peers, int max_peers) { for (int i = 0; i < max_peers; ++i) { free(peers[i].uuid); free(peers[i].cluster_name); free(peers[i].client_name); } } extern "C" int rbd_mirror_peer_set_client(rados_ioctx_t p, const char *uuid, const char *client_name) { return rbd_mirror_peer_site_set_client_name(p, uuid, client_name); } extern "C" int rbd_mirror_peer_set_cluster(rados_ioctx_t p, const char *uuid, const char *cluster_name) { return rbd_mirror_peer_site_set_name(p, uuid, cluster_name); } extern "C" int rbd_mirror_peer_get_attributes( rados_ioctx_t p, const char *uuid, char *keys, size_t *max_key_len, char *values, size_t *max_val_len, size_t *key_value_count) { return rbd_mirror_peer_site_get_attributes( p, uuid, keys, max_key_len, values, max_val_len, key_value_count); } extern "C" int rbd_mirror_peer_set_attributes( rados_ioctx_t p, const char *uuid, const char *keys, const char *values, size_t count) { return rbd_mirror_peer_site_set_attributes( p, uuid, keys, values, count); } extern "C" int rbd_mirror_image_status_list(rados_ioctx_t p, const char *start_id, size_t max, char **image_ids, rbd_mirror_image_status_t *images, size_t *len) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); std::map cpp_images; int r = librbd::api::Mirror<>::image_global_status_list( io_ctx, start_id, max, &cpp_images); if (r < 0) { return r; } size_t i = 0; for (auto &it : cpp_images) { ceph_assert(i < max); const std::string &image_id = it.first; image_ids[i] = strdup(image_id.c_str()); mirror_image_global_status_cpp_to_c(it.second, &images[i]); i++; } *len = i; return 0; } extern "C" void rbd_mirror_image_status_list_cleanup(char **image_ids, rbd_mirror_image_status_t *images, size_t len) { for (size_t i = 0; i < len; i++) { free(image_ids[i]); free(images[i].name); rbd_mirror_image_get_info_cleanup(&images[i].info); free(images[i].description); } } #pragma GCC diagnostic pop extern "C" int rbd_mirror_image_status_summary(rados_ioctx_t p, rbd_mirror_image_status_state_t *states, int *counts, size_t *maxlen) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); std::map states_; int r = librbd::api::Mirror<>::image_status_summary(io_ctx, &states_); if (r < 0) { return r; } size_t i = 0; for (auto &it : states_) { if (i == *maxlen) { return -ERANGE; } states[i] = it.first; counts[i] = it.second; i++; } *maxlen = i; return 0; } extern "C" int rbd_mirror_image_instance_id_list( rados_ioctx_t p, const char *start_id, size_t max, char **image_ids, char **instance_ids, size_t *len) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); std::map cpp_instance_ids; int r = librbd::api::Mirror<>::image_instance_id_list(io_ctx, start_id, max, &cpp_instance_ids); if (r < 0) { return r; } size_t i = 0; for (auto &it : cpp_instance_ids) { ceph_assert(i < max); image_ids[i] = strdup(it.first.c_str()); instance_ids[i] = strdup(it.second.c_str()); i++; } *len = i; return 0; } extern "C" void rbd_mirror_image_instance_id_list_cleanup( char **image_ids, char **instance_ids, size_t len) { for (size_t i = 0; i < len; i++) { free(image_ids[i]); free(instance_ids[i]); } } extern "C" int rbd_mirror_image_info_list( rados_ioctx_t p, rbd_mirror_image_mode_t *mode_filter, const char *start_id, size_t max, char **image_ids, rbd_mirror_image_mode_t *mode_entries, rbd_mirror_image_info_t *info_entries, size_t *num_entries) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); std::map> cpp_entries; int r = librbd::api::Mirror<>::image_info_list(io_ctx, mode_filter, start_id, max, &cpp_entries); if (r < 0) { return r; } ceph_assert(cpp_entries.size() <= max); for (auto &it : cpp_entries) { *(image_ids++) = strdup(it.first.c_str()); *(mode_entries++) = it.second.first; mirror_image_info_cpp_to_c(it.second.second, info_entries++); } *num_entries = cpp_entries.size(); return 0; } extern "C" void rbd_mirror_image_info_list_cleanup( char **image_ids, rbd_mirror_image_info_t *info_entries, size_t num_entries) { for (size_t i = 0; i < num_entries; i++) { free(*(image_ids++)); rbd_mirror_image_get_info_cleanup(info_entries++); } } /* helpers */ extern "C" void rbd_image_spec_cleanup(rbd_image_spec_t *image) { free(image->id); free(image->name); } extern "C" void rbd_image_spec_list_cleanup(rbd_image_spec_t *images, size_t num_images) { for (size_t idx = 0; idx < num_images; ++idx) { rbd_image_spec_cleanup(&images[idx]); } } extern "C" void rbd_linked_image_spec_cleanup(rbd_linked_image_spec_t *image) { free(image->pool_name); free(image->pool_namespace); free(image->image_id); free(image->image_name); } extern "C" void rbd_linked_image_spec_list_cleanup( rbd_linked_image_spec_t *images, size_t num_images) { for (size_t idx = 0; idx < num_images; ++idx) { rbd_linked_image_spec_cleanup(&images[idx]); } } extern "C" void rbd_snap_spec_cleanup(rbd_snap_spec_t *snap) { free(snap->name); } /* images */ extern "C" int rbd_list(rados_ioctx_t p, char *names, size_t *size) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, list_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id()); std::vector cpp_image_specs; int r = librbd::api::Image<>::list_images(io_ctx, &cpp_image_specs); if (r < 0) { tracepoint(librbd, list_exit, r, *size); return r; } size_t expected_size = 0; for (auto& it : cpp_image_specs) { expected_size += it.name.size() + 1; } if (*size < expected_size) { *size = expected_size; tracepoint(librbd, list_exit, -ERANGE, *size); return -ERANGE; } if (names == NULL) { tracepoint(librbd, list_exit, -EINVAL, *size); return -EINVAL; } for (auto& it : cpp_image_specs) { const char* name = it.name.c_str(); tracepoint(librbd, list_entry, name); strcpy(names, name); names += strlen(names) + 1; } tracepoint(librbd, list_exit, (int)expected_size, *size); return (int)expected_size; } extern "C" int rbd_list2(rados_ioctx_t p, rbd_image_spec_t *images, size_t *size) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, list_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id()); // FIPS zeroization audit 20191117: this memset is not security related. memset(images, 0, sizeof(*images) * *size); std::vector cpp_image_specs; int r = librbd::api::Image<>::list_images(io_ctx, &cpp_image_specs); if (r < 0) { tracepoint(librbd, list_exit, r, *size); return r; } size_t expected_size = cpp_image_specs.size(); if (*size < expected_size) { *size = expected_size; tracepoint(librbd, list_exit, -ERANGE, *size); return -ERANGE; } *size = expected_size; for (size_t idx = 0; idx < expected_size; ++idx) { images[idx].id = strdup(cpp_image_specs[idx].id.c_str()); images[idx].name = strdup(cpp_image_specs[idx].name.c_str()); } tracepoint(librbd, list_exit, 0, *size); return 0; } extern "C" int rbd_create(rados_ioctx_t p, const char *name, uint64_t size, int *order) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, create_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), name, size, *order); int r = librbd::create(io_ctx, name, size, order); tracepoint(librbd, create_exit, r, *order); return r; } extern "C" int rbd_create2(rados_ioctx_t p, const char *name, uint64_t size, uint64_t features, int *order) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, create2_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), name, size, features, *order); int r = librbd::create(io_ctx, name, size, false, features, order, 0, 0); tracepoint(librbd, create2_exit, r, *order); return r; } extern "C" int rbd_create3(rados_ioctx_t p, const char *name, uint64_t size, uint64_t features, int *order, uint64_t stripe_unit, uint64_t stripe_count) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, create3_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), name, size, features, *order, stripe_unit, stripe_count); int r = librbd::create(io_ctx, name, size, false, features, order, stripe_unit, stripe_count); tracepoint(librbd, create3_exit, r, *order); return r; } extern "C" int rbd_create4(rados_ioctx_t p, const char *name, uint64_t size, rbd_image_options_t opts) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, create4_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), name, size, opts); librbd::ImageOptions opts_(opts); int r = librbd::create(io_ctx, name, "", size, opts_, "", "", false); tracepoint(librbd, create4_exit, r); return r; } extern "C" int rbd_clone(rados_ioctx_t p_ioctx, const char *p_name, const char *p_snap_name, rados_ioctx_t c_ioctx, const char *c_name, uint64_t features, int *c_order) { librados::IoCtx p_ioc, c_ioc; librados::IoCtx::from_rados_ioctx_t(p_ioctx, p_ioc); librados::IoCtx::from_rados_ioctx_t(c_ioctx, c_ioc); TracepointProvider::initialize(get_cct(p_ioc)); tracepoint(librbd, clone_enter, p_ioc.get_pool_name().c_str(), p_ioc.get_id(), p_name, p_snap_name, c_ioc.get_pool_name().c_str(), c_ioc.get_id(), c_name, features); int r = librbd::clone(p_ioc, p_name, p_snap_name, c_ioc, c_name, features, c_order, 0, 0); tracepoint(librbd, clone_exit, r, *c_order); return r; } extern "C" int rbd_clone2(rados_ioctx_t p_ioctx, const char *p_name, const char *p_snap_name, rados_ioctx_t c_ioctx, const char *c_name, uint64_t features, int *c_order, uint64_t stripe_unit, int stripe_count) { librados::IoCtx p_ioc, c_ioc; librados::IoCtx::from_rados_ioctx_t(p_ioctx, p_ioc); librados::IoCtx::from_rados_ioctx_t(c_ioctx, c_ioc); TracepointProvider::initialize(get_cct(p_ioc)); tracepoint(librbd, clone2_enter, p_ioc.get_pool_name().c_str(), p_ioc.get_id(), p_name, p_snap_name, c_ioc.get_pool_name().c_str(), c_ioc.get_id(), c_name, features, stripe_unit, stripe_count); int r = librbd::clone(p_ioc, p_name, p_snap_name, c_ioc, c_name, features, c_order, stripe_unit, stripe_count); tracepoint(librbd, clone2_exit, r, *c_order); return r; } extern "C" int rbd_clone3(rados_ioctx_t p_ioctx, const char *p_name, const char *p_snap_name, rados_ioctx_t c_ioctx, const char *c_name, rbd_image_options_t c_opts) { librados::IoCtx p_ioc, c_ioc; librados::IoCtx::from_rados_ioctx_t(p_ioctx, p_ioc); librados::IoCtx::from_rados_ioctx_t(c_ioctx, c_ioc); TracepointProvider::initialize(get_cct(p_ioc)); tracepoint(librbd, clone3_enter, p_ioc.get_pool_name().c_str(), p_ioc.get_id(), p_name, p_snap_name, c_ioc.get_pool_name().c_str(), c_ioc.get_id(), c_name, c_opts); librbd::ImageOptions c_opts_(c_opts); int r = librbd::clone(p_ioc, nullptr, p_name, p_snap_name, c_ioc, nullptr, c_name, c_opts_, "", ""); tracepoint(librbd, clone3_exit, r); return r; } extern "C" int rbd_remove(rados_ioctx_t p, const char *name) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, remove_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), name); librbd::NoOpProgressContext prog_ctx; int r = librbd::api::Image<>::remove(io_ctx, name, prog_ctx); tracepoint(librbd, remove_exit, r); return r; } extern "C" int rbd_remove_with_progress(rados_ioctx_t p, const char *name, librbd_progress_fn_t cb, void *cbdata) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, remove_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), name); librbd::CProgressContext prog_ctx(cb, cbdata); int r = librbd::api::Image<>::remove(io_ctx, name, prog_ctx); tracepoint(librbd, remove_exit, r); return r; } extern "C" int rbd_trash_move(rados_ioctx_t p, const char *name, uint64_t delay) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, trash_move_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), name); int r = librbd::api::Trash<>::move(io_ctx, RBD_TRASH_IMAGE_SOURCE_USER, name, delay); tracepoint(librbd, trash_move_exit, r); return r; } extern "C" int rbd_trash_get(rados_ioctx_t io, const char *id, rbd_trash_image_info_t *info) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(io, io_ctx); librbd::trash_image_info_t cpp_info; int r = librbd::api::Trash<>::get(io_ctx, id, &cpp_info); if (r < 0) { return r; } trash_image_info_cpp_to_c(cpp_info, info); return 0; } extern "C" void rbd_trash_get_cleanup(rbd_trash_image_info_t *info) { free(info->id); free(info->name); } extern "C" int rbd_trash_list(rados_ioctx_t p, rbd_trash_image_info_t *entries, size_t *num_entries) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, trash_list_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id()); // FIPS zeroization audit 20191117: this memset is not security related. memset(entries, 0, sizeof(*entries) * *num_entries); vector cpp_entries; int r = librbd::api::Trash<>::list(io_ctx, cpp_entries, true); if (r < 0) { tracepoint(librbd, trash_list_exit, r, *num_entries); return r; } if (*num_entries < cpp_entries.size()) { *num_entries = cpp_entries.size(); tracepoint(librbd, trash_list_exit, -ERANGE, *num_entries); return -ERANGE; } int i=0; for (const auto &entry : cpp_entries) { trash_image_info_cpp_to_c(entry, &entries[i++]); } *num_entries = cpp_entries.size(); return *num_entries; } extern "C" void rbd_trash_list_cleanup(rbd_trash_image_info_t *entries, size_t num_entries) { for (size_t i=0; i < num_entries; i++) { rbd_trash_get_cleanup(&entries[i]); } } extern "C" int rbd_trash_purge(rados_ioctx_t io, time_t expire_ts, float threshold) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(io, io_ctx); TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, trash_purge_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), expire_ts, threshold); librbd::NoOpProgressContext nop_pctx; int r = librbd::api::Trash<>::purge(io_ctx, expire_ts, threshold, nop_pctx); tracepoint(librbd, trash_purge_exit, r); return r; } extern "C" int rbd_trash_purge_with_progress(rados_ioctx_t io, time_t expire_ts, float threshold, librbd_progress_fn_t cb, void* cbdata) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(io, io_ctx); TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, trash_purge_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), expire_ts, threshold); librbd::CProgressContext pctx(cb, cbdata); int r = librbd::api::Trash<>::purge(io_ctx, expire_ts, threshold, pctx); tracepoint(librbd, trash_purge_exit, r); return r; } extern "C" int rbd_trash_remove(rados_ioctx_t p, const char *image_id, bool force) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, trash_remove_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), image_id, force); librbd::NoOpProgressContext prog_ctx; int r = librbd::api::Trash<>::remove(io_ctx, image_id, force, prog_ctx); tracepoint(librbd, trash_remove_exit, r); return r; } extern "C" int rbd_trash_remove_with_progress(rados_ioctx_t p, const char *image_id, bool force, librbd_progress_fn_t cb, void *cbdata) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, trash_remove_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), image_id, force); librbd::CProgressContext prog_ctx(cb, cbdata); int r = librbd::api::Trash<>::remove(io_ctx, image_id, force, prog_ctx); tracepoint(librbd, trash_remove_exit, r); return r; } extern "C" int rbd_trash_restore(rados_ioctx_t p, const char *id, const char *name) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, trash_undelete_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), id, name); int r = librbd::api::Trash<>::restore( io_ctx, librbd::api::Trash<>::ALLOWED_RESTORE_SOURCES, id, name); tracepoint(librbd, trash_undelete_exit, r); return r; } extern "C" int rbd_namespace_create(rados_ioctx_t io, const char *namespace_name) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(io, io_ctx); return librbd::api::Namespace<>::create(io_ctx, namespace_name); } extern "C" int rbd_namespace_remove(rados_ioctx_t io, const char *namespace_name) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(io, io_ctx); return librbd::api::Namespace<>::remove(io_ctx, namespace_name); } extern "C" int rbd_namespace_list(rados_ioctx_t io, char *names, size_t *size) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(io, io_ctx); if (names == nullptr || size == nullptr) { return -EINVAL; } std::vector cpp_names; int r = librbd::api::Namespace<>::list(io_ctx, &cpp_names); if (r < 0) { return r; } size_t expected_size = 0; for (size_t i = 0; i < cpp_names.size(); i++) { expected_size += cpp_names[i].size() + 1; } if (*size < expected_size) { *size = expected_size; return -ERANGE; } *size = expected_size; for (int i = 0; i < (int)cpp_names.size(); i++) { const char* name = cpp_names[i].c_str(); strcpy(names, name); names += strlen(names) + 1; } return (int)expected_size; } extern "C" int rbd_namespace_exists(rados_ioctx_t io, const char *namespace_name, bool *exists) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(io, io_ctx); return librbd::api::Namespace<>::exists(io_ctx, namespace_name, exists); } extern "C" int rbd_pool_init(rados_ioctx_t io, bool force) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(io, io_ctx); return librbd::api::Pool<>::init(io_ctx, force); } extern "C" void rbd_pool_stats_create(rbd_pool_stats_t *stats) { *stats = reinterpret_cast( new librbd::api::Pool<>::StatOptions{}); } extern "C" void rbd_pool_stats_destroy(rbd_pool_stats_t stats) { auto pool_stat_options = reinterpret_cast::StatOptions*>(stats); delete pool_stat_options; } extern "C" int rbd_pool_stats_option_add_uint64(rbd_pool_stats_t stats, int stat_option, uint64_t* stat_val) { auto pool_stat_options = reinterpret_cast::StatOptions*>(stats); return librbd::api::Pool<>::add_stat_option( pool_stat_options, static_cast(stat_option), stat_val); } extern "C" int rbd_pool_stats_get( rados_ioctx_t io, rbd_pool_stats_t pool_stats) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(io, io_ctx); auto pool_stat_options = reinterpret_cast::StatOptions*>(pool_stats); return librbd::api::Pool<>::get_stats(io_ctx, pool_stat_options); } extern "C" int rbd_copy(rbd_image_t image, rados_ioctx_t dest_p, const char *destname) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; librados::IoCtx dest_io_ctx; librados::IoCtx::from_rados_ioctx_t(dest_p, dest_io_ctx); tracepoint(librbd, copy_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, dest_io_ctx.get_pool_name().c_str(), dest_io_ctx.get_id(), destname); librbd::ImageOptions opts; librbd::NoOpProgressContext prog_ctx; int r = librbd::copy(ictx, dest_io_ctx, destname, opts, prog_ctx, 0); tracepoint(librbd, copy_exit, r); return r; } extern "C" int rbd_copy2(rbd_image_t srcp, rbd_image_t destp) { librbd::ImageCtx *src = (librbd::ImageCtx *)srcp; librbd::ImageCtx *dest = (librbd::ImageCtx *)destp; tracepoint(librbd, copy2_enter, src, src->name.c_str(), src->snap_name.c_str(), src->read_only, dest, dest->name.c_str(), dest->snap_name.c_str(), dest->read_only); librbd::NoOpProgressContext prog_ctx; int r = librbd::copy(src, dest, prog_ctx, 0); tracepoint(librbd, copy2_exit, r); return r; } extern "C" int rbd_copy3(rbd_image_t image, rados_ioctx_t dest_p, const char *destname, rbd_image_options_t c_opts) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; librados::IoCtx dest_io_ctx; librados::IoCtx::from_rados_ioctx_t(dest_p, dest_io_ctx); tracepoint(librbd, copy3_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, dest_io_ctx.get_pool_name().c_str(), dest_io_ctx.get_id(), destname, c_opts); librbd::ImageOptions c_opts_(c_opts); librbd::NoOpProgressContext prog_ctx; int r = librbd::copy(ictx, dest_io_ctx, destname, c_opts_, prog_ctx, 0); tracepoint(librbd, copy3_exit, r); return r; } extern "C" int rbd_copy4(rbd_image_t image, rados_ioctx_t dest_p, const char *destname, rbd_image_options_t c_opts, size_t sparse_size) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; librados::IoCtx dest_io_ctx; librados::IoCtx::from_rados_ioctx_t(dest_p, dest_io_ctx); tracepoint(librbd, copy4_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, dest_io_ctx.get_pool_name().c_str(), dest_io_ctx.get_id(), destname, c_opts, sparse_size); librbd::ImageOptions c_opts_(c_opts); librbd::NoOpProgressContext prog_ctx; int r = librbd::copy(ictx, dest_io_ctx, destname, c_opts_, prog_ctx, sparse_size); tracepoint(librbd, copy4_exit, r); return r; } extern "C" int rbd_copy_with_progress(rbd_image_t image, rados_ioctx_t dest_p, const char *destname, librbd_progress_fn_t fn, void *data) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; librados::IoCtx dest_io_ctx; librados::IoCtx::from_rados_ioctx_t(dest_p, dest_io_ctx); tracepoint(librbd, copy_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, dest_io_ctx.get_pool_name().c_str(), dest_io_ctx.get_id(), destname); librbd::ImageOptions opts; librbd::CProgressContext prog_ctx(fn, data); int ret = librbd::copy(ictx, dest_io_ctx, destname, opts, prog_ctx, 0); tracepoint(librbd, copy_exit, ret); return ret; } extern "C" int rbd_copy_with_progress2(rbd_image_t srcp, rbd_image_t destp, librbd_progress_fn_t fn, void *data) { librbd::ImageCtx *src = (librbd::ImageCtx *)srcp; librbd::ImageCtx *dest = (librbd::ImageCtx *)destp; tracepoint(librbd, copy2_enter, src, src->name.c_str(), src->snap_name.c_str(), src->read_only, dest, dest->name.c_str(), dest->snap_name.c_str(), dest->read_only); librbd::CProgressContext prog_ctx(fn, data); int ret = librbd::copy(src, dest, prog_ctx, 0); tracepoint(librbd, copy2_exit, ret); return ret; } extern "C" int rbd_copy_with_progress3(rbd_image_t image, rados_ioctx_t dest_p, const char *destname, rbd_image_options_t dest_opts, librbd_progress_fn_t fn, void *data) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; librados::IoCtx dest_io_ctx; librados::IoCtx::from_rados_ioctx_t(dest_p, dest_io_ctx); tracepoint(librbd, copy3_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, dest_io_ctx.get_pool_name().c_str(), dest_io_ctx.get_id(), destname, dest_opts); librbd::ImageOptions dest_opts_(dest_opts); librbd::CProgressContext prog_ctx(fn, data); int ret = librbd::copy(ictx, dest_io_ctx, destname, dest_opts_, prog_ctx, 0); tracepoint(librbd, copy3_exit, ret); return ret; } extern "C" int rbd_copy_with_progress4(rbd_image_t image, rados_ioctx_t dest_p, const char *destname, rbd_image_options_t dest_opts, librbd_progress_fn_t fn, void *data, size_t sparse_size) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; librados::IoCtx dest_io_ctx; librados::IoCtx::from_rados_ioctx_t(dest_p, dest_io_ctx); tracepoint(librbd, copy4_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, dest_io_ctx.get_pool_name().c_str(), dest_io_ctx.get_id(), destname, dest_opts, sparse_size); librbd::ImageOptions dest_opts_(dest_opts); librbd::CProgressContext prog_ctx(fn, data); int ret = librbd::copy(ictx, dest_io_ctx, destname, dest_opts_, prog_ctx, sparse_size); tracepoint(librbd, copy4_exit, ret); return ret; } extern "C" int rbd_deep_copy(rbd_image_t image, rados_ioctx_t dest_p, const char *destname, rbd_image_options_t c_opts) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; librados::IoCtx dest_io_ctx; librados::IoCtx::from_rados_ioctx_t(dest_p, dest_io_ctx); tracepoint(librbd, deep_copy_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, dest_io_ctx.get_pool_name().c_str(), dest_io_ctx.get_id(), destname, c_opts); librbd::ImageOptions opts(c_opts); librbd::NoOpProgressContext prog_ctx; int r = librbd::api::Image<>::deep_copy(ictx, dest_io_ctx, destname, opts, prog_ctx); tracepoint(librbd, deep_copy_exit, r); return r; } extern "C" int rbd_deep_copy_with_progress(rbd_image_t image, rados_ioctx_t dest_p, const char *destname, rbd_image_options_t dest_opts, librbd_progress_fn_t fn, void *data) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; librados::IoCtx dest_io_ctx; librados::IoCtx::from_rados_ioctx_t(dest_p, dest_io_ctx); tracepoint(librbd, deep_copy_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, dest_io_ctx.get_pool_name().c_str(), dest_io_ctx.get_id(), destname, dest_opts); librbd::ImageOptions opts(dest_opts); librbd::CProgressContext prog_ctx(fn, data); int ret = librbd::api::Image<>::deep_copy(ictx, dest_io_ctx, destname, opts, prog_ctx); tracepoint(librbd, deep_copy_exit, ret); return ret; } extern "C" int rbd_encryption_format(rbd_image_t image, rbd_encryption_format_t format, rbd_encryption_options_t opts, size_t opts_size) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; return librbd::api::Image<>::encryption_format( ictx, format, opts, opts_size, true); } extern "C" int rbd_encryption_load(rbd_image_t image, rbd_encryption_format_t format, rbd_encryption_options_t opts, size_t opts_size) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; return librbd::api::Image<>::encryption_load( ictx, format, opts, opts_size, true); } extern "C" int rbd_flatten(rbd_image_t image) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, flatten_enter, ictx, ictx->name.c_str(), ictx->id.c_str()); librbd::NoOpProgressContext prog_ctx; int r = ictx->operations->flatten(prog_ctx); tracepoint(librbd, flatten_exit, r); return r; } extern "C" int rbd_flatten_with_progress(rbd_image_t image, librbd_progress_fn_t cb, void *cbdata) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, flatten_enter, ictx, ictx->name.c_str(), ictx->id.c_str()); librbd::CProgressContext prog_ctx(cb, cbdata); int r = ictx->operations->flatten(prog_ctx); tracepoint(librbd, flatten_exit, r); return r; } extern "C" int rbd_sparsify(rbd_image_t image, size_t sparse_size) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, sparsify_enter, ictx, ictx->name.c_str(), sparse_size, ictx->id.c_str()); librbd::NoOpProgressContext prog_ctx; int r = ictx->operations->sparsify(sparse_size, prog_ctx); tracepoint(librbd, sparsify_exit, r); return r; } extern "C" int rbd_sparsify_with_progress(rbd_image_t image, size_t sparse_size, librbd_progress_fn_t cb, void *cbdata) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, sparsify_enter, ictx, ictx->name.c_str(), sparse_size, ictx->id.c_str()); librbd::CProgressContext prog_ctx(cb, cbdata); int r = ictx->operations->sparsify(sparse_size, prog_ctx); tracepoint(librbd, sparsify_exit, r); return r; } extern "C" int rbd_rename(rados_ioctx_t src_p, const char *srcname, const char *destname) { librados::IoCtx src_io_ctx; librados::IoCtx::from_rados_ioctx_t(src_p, src_io_ctx); TracepointProvider::initialize(get_cct(src_io_ctx)); tracepoint(librbd, rename_enter, src_io_ctx.get_pool_name().c_str(), src_io_ctx.get_id(), srcname, destname); int r = librbd::rename(src_io_ctx, srcname, destname); tracepoint(librbd, rename_exit, r); return r; } extern "C" int rbd_migration_prepare(rados_ioctx_t p, const char *image_name, rados_ioctx_t dest_p, const char *dest_image_name, rbd_image_options_t opts_) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); librados::IoCtx dest_io_ctx; librados::IoCtx::from_rados_ioctx_t(dest_p, dest_io_ctx); tracepoint(librbd, migration_prepare_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), image_name, dest_io_ctx.get_pool_name().c_str(), dest_io_ctx.get_id(), dest_image_name, opts_); librbd::ImageOptions opts(opts_); int r = librbd::api::Migration<>::prepare(io_ctx, image_name, dest_io_ctx, dest_image_name, opts); tracepoint(librbd, migration_prepare_exit, r); return r; } extern "C" int rbd_migration_prepare_import( const char *source_spec, rados_ioctx_t dest_p, const char *dest_image_name, rbd_image_options_t opts_) { librados::IoCtx dest_io_ctx; librados::IoCtx::from_rados_ioctx_t(dest_p, dest_io_ctx); librbd::ImageOptions opts(opts_); return librbd::api::Migration<>::prepare_import(source_spec, dest_io_ctx, dest_image_name, opts); } extern "C" int rbd_migration_execute(rados_ioctx_t p, const char *image_name) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, migration_execute_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), image_name); librbd::NoOpProgressContext prog_ctx; int r = librbd::api::Migration<>::execute(io_ctx, image_name, prog_ctx); tracepoint(librbd, migration_execute_exit, r); return r; } extern "C" int rbd_migration_execute_with_progress(rados_ioctx_t p, const char *name, librbd_progress_fn_t fn, void *data) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, migration_execute_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), name); librbd::CProgressContext prog_ctx(fn, data); int r = librbd::api::Migration<>::execute(io_ctx, name, prog_ctx); tracepoint(librbd, migration_execute_exit, r); return r; } extern "C" int rbd_migration_abort(rados_ioctx_t p, const char *image_name) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, migration_abort_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), image_name); librbd::NoOpProgressContext prog_ctx; int r = librbd::api::Migration<>::abort(io_ctx, image_name, prog_ctx); tracepoint(librbd, migration_abort_exit, r); return r; } extern "C" int rbd_migration_abort_with_progress(rados_ioctx_t p, const char *name, librbd_progress_fn_t fn, void *data) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, migration_abort_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), name); librbd::CProgressContext prog_ctx(fn, data); int r = librbd::api::Migration<>::abort(io_ctx, name, prog_ctx); tracepoint(librbd, migration_abort_exit, r); return r; } extern "C" int rbd_migration_commit(rados_ioctx_t p, const char *image_name) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, migration_commit_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), image_name); librbd::NoOpProgressContext prog_ctx; int r = librbd::api::Migration<>::commit(io_ctx, image_name, prog_ctx); tracepoint(librbd, migration_commit_exit, r); return r; } extern "C" int rbd_migration_commit_with_progress(rados_ioctx_t p, const char *name, librbd_progress_fn_t fn, void *data) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, migration_commit_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), name); librbd::CProgressContext prog_ctx(fn, data); int r = librbd::api::Migration<>::commit(io_ctx, name, prog_ctx); tracepoint(librbd, migration_commit_exit, r); return r; } extern "C" int rbd_migration_status(rados_ioctx_t p, const char *image_name, rbd_image_migration_status_t *status, size_t status_size) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, migration_status_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), image_name); if (status_size != sizeof(rbd_image_migration_status_t)) { tracepoint(librbd, migration_status_exit, -ERANGE); return -ERANGE; } librbd::image_migration_status_t cpp_status; int r = librbd::api::Migration<>::status(io_ctx, image_name, &cpp_status); if (r >= 0) { status->source_pool_id = cpp_status.source_pool_id; status->source_pool_namespace = strdup(cpp_status.source_pool_namespace.c_str()); status->source_image_name = strdup(cpp_status.source_image_name.c_str()); status->source_image_id = strdup(cpp_status.source_image_id.c_str()); status->dest_pool_id = cpp_status.dest_pool_id; status->dest_pool_namespace = strdup(cpp_status.dest_pool_namespace.c_str()); status->dest_image_name = strdup(cpp_status.dest_image_name.c_str()); status->dest_image_id = strdup(cpp_status.dest_image_id.c_str()); status->state = cpp_status.state; status->state_description = strdup(cpp_status.state_description.c_str()); } tracepoint(librbd, migration_status_exit, r); return r; } extern "C" void rbd_migration_status_cleanup(rbd_image_migration_status_t *s) { free(s->source_pool_namespace); free(s->source_image_name); free(s->source_image_id); free(s->dest_pool_namespace); free(s->dest_image_name); free(s->dest_image_id); free(s->state_description); } extern "C" int rbd_pool_metadata_get(rados_ioctx_t p, const char *key, char *value, size_t *vallen) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); string val_s; int r = librbd::api::PoolMetadata<>::get(io_ctx, key, &val_s); if (*vallen < val_s.size() + 1) { r = -ERANGE; *vallen = val_s.size() + 1; } else { strncpy(value, val_s.c_str(), val_s.size() + 1); } return r; } extern "C" int rbd_pool_metadata_set(rados_ioctx_t p, const char *key, const char *value) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); int r = librbd::api::PoolMetadata<>::set(io_ctx, key, value); return r; } extern "C" int rbd_pool_metadata_remove(rados_ioctx_t p, const char *key) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); int r = librbd::api::PoolMetadata<>::remove(io_ctx, key); return r; } extern "C" int rbd_pool_metadata_list(rados_ioctx_t p, const char *start, uint64_t max, char *key, size_t *key_len, char *value, size_t *val_len) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); map pairs; int r = librbd::api::PoolMetadata<>::list(io_ctx, start, max, &pairs); if (r < 0) { return r; } size_t key_total_len = 0, val_total_len = 0; for (auto &it : pairs) { key_total_len += it.first.size() + 1; val_total_len += it.second.length() + 1; } if (*key_len < key_total_len || *val_len < val_total_len) { *key_len = key_total_len; *val_len = val_total_len; return -ERANGE; } *key_len = key_total_len; *val_len = val_total_len; char *key_p = key, *value_p = value; for (auto &it : pairs) { strncpy(key_p, it.first.c_str(), it.first.size() + 1); key_p += it.first.size() + 1; strncpy(value_p, it.second.c_str(), it.second.length()); value_p += it.second.length(); *value_p = '\0'; value_p++; } return 0; } extern "C" int rbd_config_pool_list(rados_ioctx_t p, rbd_config_option_t *options, int *max_options) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); std::vector option_vector; int r = librbd::api::Config<>::list(io_ctx, &option_vector); if (r < 0) { return r; } if (*max_options < static_cast(option_vector.size())) { *max_options = static_cast(option_vector.size()); return -ERANGE; } for (int i = 0; i < static_cast(option_vector.size()); ++i) { config_option_cpp_to_c(option_vector[i], &options[i]); } *max_options = static_cast(option_vector.size()); return 0; } extern "C" void rbd_config_pool_list_cleanup(rbd_config_option_t *options, int max_options) { for (int i = 0; i < max_options; ++i) { config_option_cleanup(options[i]); } } extern "C" int rbd_open(rados_ioctx_t p, const char *name, rbd_image_t *image, const char *snap_name) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); TracepointProvider::initialize(get_cct(io_ctx)); librbd::ImageCtx *ictx = new librbd::ImageCtx(name, "", snap_name, io_ctx, false); tracepoint(librbd, open_image_enter, ictx, ictx->name.c_str(), ictx->id.c_str(), ictx->snap_name.c_str(), ictx->read_only); int r = ictx->state->open(0); if (r >= 0) { *image = (rbd_image_t)ictx; } tracepoint(librbd, open_image_exit, r); return r; } extern "C" int rbd_open_by_id(rados_ioctx_t p, const char *id, rbd_image_t *image, const char *snap_name) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); TracepointProvider::initialize(get_cct(io_ctx)); librbd::ImageCtx *ictx = new librbd::ImageCtx("", id, snap_name, io_ctx, false); tracepoint(librbd, open_image_enter, ictx, ictx->name.c_str(), ictx->id.c_str(), ictx->snap_name.c_str(), ictx->read_only); int r = ictx->state->open(0); if (r >= 0) { *image = (rbd_image_t)ictx; } tracepoint(librbd, open_image_exit, r); return r; } extern "C" int rbd_aio_open(rados_ioctx_t p, const char *name, rbd_image_t *image, const char *snap_name, rbd_completion_t c) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); TracepointProvider::initialize(get_cct(io_ctx)); librbd::ImageCtx *ictx = new librbd::ImageCtx(name, "", snap_name, io_ctx, false); librbd::RBD::AioCompletion *comp = (librbd::RBD::AioCompletion *)c; tracepoint(librbd, aio_open_image_enter, ictx, ictx->name.c_str(), ictx->id.c_str(), ictx->snap_name.c_str(), ictx->read_only, comp->pc); ictx->state->open(0, new C_OpenComplete(ictx, get_aio_completion(comp), image)); tracepoint(librbd, aio_open_image_exit, 0); return 0; } extern "C" int rbd_aio_open_by_id(rados_ioctx_t p, const char *id, rbd_image_t *image, const char *snap_name, rbd_completion_t c) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); TracepointProvider::initialize(get_cct(io_ctx)); librbd::ImageCtx *ictx = new librbd::ImageCtx("", id, snap_name, io_ctx, false); librbd::RBD::AioCompletion *comp = (librbd::RBD::AioCompletion *)c; tracepoint(librbd, aio_open_image_enter, ictx, ictx->name.c_str(), ictx->id.c_str(), ictx->snap_name.c_str(), ictx->read_only, comp->pc); ictx->state->open(0, new C_OpenComplete(ictx, get_aio_completion(comp), image)); tracepoint(librbd, aio_open_image_exit, 0); return 0; } extern "C" int rbd_open_read_only(rados_ioctx_t p, const char *name, rbd_image_t *image, const char *snap_name) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); TracepointProvider::initialize(get_cct(io_ctx)); librbd::ImageCtx *ictx = new librbd::ImageCtx(name, "", snap_name, io_ctx, true); tracepoint(librbd, open_image_enter, ictx, ictx->name.c_str(), ictx->id.c_str(), ictx->snap_name.c_str(), ictx->read_only); int r = ictx->state->open(0); if (r >= 0) { *image = (rbd_image_t)ictx; } tracepoint(librbd, open_image_exit, r); return r; } extern "C" int rbd_open_by_id_read_only(rados_ioctx_t p, const char *id, rbd_image_t *image, const char *snap_name) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); TracepointProvider::initialize(get_cct(io_ctx)); librbd::ImageCtx *ictx = new librbd::ImageCtx("", id, snap_name, io_ctx, true); tracepoint(librbd, open_image_enter, ictx, ictx->name.c_str(), ictx->id.c_str(), ictx->snap_name.c_str(), ictx->read_only); int r = ictx->state->open(0); if (r >= 0) { *image = (rbd_image_t)ictx; } tracepoint(librbd, open_image_exit, r); return r; } extern "C" int rbd_aio_open_read_only(rados_ioctx_t p, const char *name, rbd_image_t *image, const char *snap_name, rbd_completion_t c) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); TracepointProvider::initialize(get_cct(io_ctx)); librbd::ImageCtx *ictx = new librbd::ImageCtx(name, "", snap_name, io_ctx, true); librbd::RBD::AioCompletion *comp = (librbd::RBD::AioCompletion *)c; tracepoint(librbd, aio_open_image_enter, ictx, ictx->name.c_str(), ictx->id.c_str(), ictx->snap_name.c_str(), ictx->read_only, comp->pc); ictx->state->open(0, new C_OpenComplete(ictx, get_aio_completion(comp), image)); tracepoint(librbd, aio_open_image_exit, 0); return 0; } extern "C" int rbd_aio_open_by_id_read_only(rados_ioctx_t p, const char *id, rbd_image_t *image, const char *snap_name, rbd_completion_t c) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); TracepointProvider::initialize(get_cct(io_ctx)); librbd::ImageCtx *ictx = new librbd::ImageCtx("", id, snap_name, io_ctx, true); librbd::RBD::AioCompletion *comp = (librbd::RBD::AioCompletion *)c; tracepoint(librbd, aio_open_image_enter, ictx, ictx->name.c_str(), ictx->id.c_str(), ictx->snap_name.c_str(), ictx->read_only, comp->pc); ictx->state->open(0, new C_OpenComplete(ictx, get_aio_completion(comp), image)); tracepoint(librbd, aio_open_image_exit, 0); return 0; } extern "C" int rbd_features_to_string(uint64_t features, char *str_features, size_t *size) { std::stringstream err; std::string get_str_features = librbd::rbd_features_to_string(features, &err); if (!err.str().empty()) { return -EINVAL; } uint64_t expected_size = get_str_features.size(); if (*size <= expected_size) { *size = expected_size + 1; return -ERANGE; } strncpy(str_features, get_str_features.c_str(), expected_size); str_features[expected_size] = '\0'; *size = expected_size + 1; return 0; } extern "C" int rbd_features_from_string(const char *str_features, uint64_t *features) { std::stringstream err; *features = librbd::rbd_features_from_string(str_features, &err); if (!err.str().empty()) { return -EINVAL; } return 0; } extern "C" int rbd_close(rbd_image_t image) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, close_image_enter, ictx, ictx->name.c_str(), ictx->id.c_str()); int r = ictx->state->close(); tracepoint(librbd, close_image_exit, r); return r; } extern "C" int rbd_aio_close(rbd_image_t image, rbd_completion_t c) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; librbd::RBD::AioCompletion *comp = (librbd::RBD::AioCompletion *)c; tracepoint(librbd, aio_close_image_enter, ictx, ictx->name.c_str(), ictx->id.c_str(), comp->pc); ictx->state->close(new C_AioCompletion(ictx, librbd::io::AIO_TYPE_CLOSE, get_aio_completion(comp))); tracepoint(librbd, aio_close_image_exit, 0); return 0; } extern "C" int rbd_resize(rbd_image_t image, uint64_t size) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, resize_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, size); librbd::NoOpProgressContext prog_ctx; int r = ictx->operations->resize(size, true, prog_ctx); tracepoint(librbd, resize_exit, r); return r; } extern "C" int rbd_resize2(rbd_image_t image, uint64_t size, bool allow_shrink, librbd_progress_fn_t cb, void *cbdata) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, resize_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, size); librbd::CProgressContext prog_ctx(cb, cbdata); int r = ictx->operations->resize(size, allow_shrink, prog_ctx); tracepoint(librbd, resize_exit, r); return r; } extern "C" int rbd_resize_with_progress(rbd_image_t image, uint64_t size, librbd_progress_fn_t cb, void *cbdata) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, resize_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, size); librbd::CProgressContext prog_ctx(cb, cbdata); int r = ictx->operations->resize(size, true, prog_ctx); tracepoint(librbd, resize_exit, r); return r; } extern "C" int rbd_stat(rbd_image_t image, rbd_image_info_t *info, size_t infosize) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, stat_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only); int r = librbd::info(ictx, *info, infosize); tracepoint(librbd, stat_exit, r, info); return r; } extern "C" int rbd_get_old_format(rbd_image_t image, uint8_t *old) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, get_old_format_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only); int r = librbd::get_old_format(ictx, old); tracepoint(librbd, get_old_format_exit, r, *old); return r; } extern "C" int rbd_get_size(rbd_image_t image, uint64_t *size) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, get_size_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only); int r = librbd::get_size(ictx, size); tracepoint(librbd, get_size_exit, r, *size); return r; } extern "C" int rbd_get_features(rbd_image_t image, uint64_t *features) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, get_features_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only); int r = librbd::get_features(ictx, features); tracepoint(librbd, get_features_exit, r, *features); return r; } extern "C" int rbd_update_features(rbd_image_t image, uint64_t features, uint8_t enabled) { librbd::ImageCtx *ictx = reinterpret_cast(image); bool features_enabled = enabled != 0; tracepoint(librbd, update_features_enter, ictx, features, features_enabled); int r = ictx->operations->update_features(features, features_enabled); tracepoint(librbd, update_features_exit, r); return r; } extern "C" int rbd_get_op_features(rbd_image_t image, uint64_t *op_features) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; return librbd::api::Image<>::get_op_features(ictx, op_features); } extern "C" int rbd_get_stripe_unit(rbd_image_t image, uint64_t *stripe_unit) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, get_stripe_unit_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only); *stripe_unit = ictx->get_stripe_unit(); tracepoint(librbd, get_stripe_unit_exit, 0, *stripe_unit); return 0; } extern "C" int rbd_get_stripe_count(rbd_image_t image, uint64_t *stripe_count) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, get_stripe_count_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only); *stripe_count = ictx->get_stripe_count(); tracepoint(librbd, get_stripe_count_exit, 0, *stripe_count); return 0; } extern "C" int rbd_get_create_timestamp(rbd_image_t image, struct timespec *timestamp) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, get_create_timestamp_enter, ictx, ictx->name.c_str(), ictx->read_only); utime_t time = ictx->get_create_timestamp(); time.to_timespec(timestamp); tracepoint(librbd, get_create_timestamp_exit, 0, timestamp); return 0; } extern "C" int rbd_get_access_timestamp(rbd_image_t image, struct timespec *timestamp) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, get_access_timestamp_enter, ictx, ictx->name.c_str(), ictx->read_only); utime_t time = ictx->get_access_timestamp(); time.to_timespec(timestamp); tracepoint(librbd, get_access_timestamp_exit, 0, timestamp); return 0; } extern "C" int rbd_get_modify_timestamp(rbd_image_t image, struct timespec *timestamp) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, get_modify_timestamp_enter, ictx, ictx->name.c_str(), ictx->read_only); utime_t time = ictx->get_modify_timestamp(); time.to_timespec(timestamp); tracepoint(librbd, get_modify_timestamp_exit, 0, timestamp); return 0; } extern "C" int rbd_get_overlap(rbd_image_t image, uint64_t *overlap) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, get_overlap_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only); int r = librbd::get_overlap(ictx, overlap); tracepoint(librbd, get_overlap_exit, r, *overlap); return r; } extern "C" int rbd_get_name(rbd_image_t image, char *name, size_t *name_len) { librbd::ImageCtx *ictx = reinterpret_cast(image); if (*name_len <= ictx->name.size()) { *name_len = ictx->name.size() + 1; return -ERANGE; } strncpy(name, ictx->name.c_str(), ictx->name.size()); name[ictx->name.size()] = '\0'; *name_len = ictx->name.size() + 1; return 0; } extern "C" int rbd_get_id(rbd_image_t image, char *id, size_t id_len) { librbd::ImageCtx *ictx = reinterpret_cast(image); if (ictx->old_format) { return -EINVAL; } if (ictx->id.size() >= id_len) { return -ERANGE; } strncpy(id, ictx->id.c_str(), id_len - 1); id[id_len - 1] = '\0'; return 0; } extern "C" int rbd_get_block_name_prefix(rbd_image_t image, char *prefix, size_t prefix_len) { librbd::ImageCtx *ictx = reinterpret_cast(image); if (ictx->object_prefix.size() >= prefix_len) { return -ERANGE; } strncpy(prefix, ictx->object_prefix.c_str(), prefix_len - 1); prefix[prefix_len - 1] = '\0'; return 0; } extern "C" int64_t rbd_get_data_pool_id(rbd_image_t image) { librbd::ImageCtx *ictx = reinterpret_cast(image); return librbd::api::Image<>::get_data_pool_id(ictx); } extern "C" int rbd_get_parent_info(rbd_image_t image, char *parent_pool_name, size_t ppool_namelen, char *parent_name, size_t pnamelen, char *parent_snap_name, size_t psnap_namelen) { auto ictx = reinterpret_cast(image); tracepoint(librbd, get_parent_info_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only); librbd::linked_image_spec_t parent_image; librbd::snap_spec_t parent_snap; int r = librbd::api::Image<>::get_parent(ictx, &parent_image, &parent_snap); if (r >= 0) { if (parent_pool_name) { if (parent_image.pool_name.length() + 1 > ppool_namelen) { r = -ERANGE; } else { strcpy(parent_pool_name, parent_image.pool_name.c_str()); } } if (parent_name) { if (parent_image.image_name.length() + 1 > pnamelen) { r = -ERANGE; } else { strcpy(parent_name, parent_image.image_name.c_str()); } } if (parent_snap_name) { if (parent_snap.name.length() + 1 > psnap_namelen) { r = -ERANGE; } else { strcpy(parent_snap_name, parent_snap.name.c_str()); } } } if (r < 0) { tracepoint(librbd, get_parent_info_exit, r, NULL, NULL, NULL, NULL); return r; } tracepoint(librbd, get_parent_info_exit, r, parent_image.pool_name.c_str(), parent_image.image_name.c_str(), parent_image.image_id.c_str(), parent_snap.name.c_str()); return 0; } extern "C" int rbd_get_parent_info2(rbd_image_t image, char *parent_pool_name, size_t ppool_namelen, char *parent_name, size_t pnamelen, char *parent_id, size_t pidlen, char *parent_snap_name, size_t psnap_namelen) { auto ictx = reinterpret_cast(image); tracepoint(librbd, get_parent_info_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only); librbd::linked_image_spec_t parent_image; librbd::snap_spec_t parent_snap; int r = librbd::api::Image<>::get_parent(ictx, &parent_image, &parent_snap); if (r >= 0) { if (parent_pool_name) { if (parent_image.pool_name.length() + 1 > ppool_namelen) { r = -ERANGE; } else { strcpy(parent_pool_name, parent_image.pool_name.c_str()); } } if (parent_name) { if (parent_image.image_name.length() + 1 > pnamelen) { r = -ERANGE; } else { strcpy(parent_name, parent_image.image_name.c_str()); } } if (parent_id) { if (parent_image.image_id.length() + 1 > pidlen) { r = -ERANGE; } else { strcpy(parent_id, parent_image.image_id.c_str()); } } if (parent_snap_name) { if (parent_snap.name.length() + 1 > psnap_namelen) { r = -ERANGE; } else { strcpy(parent_snap_name, parent_snap.name.c_str()); } } } if (r < 0) { tracepoint(librbd, get_parent_info_exit, r, NULL, NULL, NULL, NULL); return r; } tracepoint(librbd, get_parent_info_exit, r, parent_image.pool_name.c_str(), parent_image.image_name.c_str(), parent_image.image_id.c_str(), parent_snap.name.c_str()); return 0; } extern "C" int rbd_get_parent(rbd_image_t image, rbd_linked_image_spec_t *parent_image, rbd_snap_spec_t *parent_snap) { auto ictx = reinterpret_cast(image); tracepoint(librbd, get_parent_info_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only); librbd::linked_image_spec_t cpp_parent_image; librbd::snap_spec_t cpp_parent_snap; int r = librbd::api::Image<>::get_parent(ictx, &cpp_parent_image, &cpp_parent_snap); if (r < 0) { // FIPS zeroization audit 20191117: these memsets are not security related. memset(parent_image, 0, sizeof(rbd_linked_image_spec_t)); memset(parent_snap, 0, sizeof(rbd_snap_spec_t)); } else { *parent_image = { .pool_id = cpp_parent_image.pool_id, .pool_name = strdup(cpp_parent_image.pool_name.c_str()), .pool_namespace = strdup(cpp_parent_image.pool_namespace.c_str()), .image_id = strdup(cpp_parent_image.image_id.c_str()), .image_name = strdup(cpp_parent_image.image_name.c_str()), .trash = cpp_parent_image.trash}; *parent_snap = { .id = cpp_parent_snap.id, .namespace_type = cpp_parent_snap.namespace_type, .name = strdup(cpp_parent_snap.name.c_str())}; } tracepoint(librbd, get_parent_info_exit, r, parent_image->pool_name, parent_image->image_name, parent_image->image_id, parent_snap->name); return r; } extern "C" int rbd_get_migration_source_spec(rbd_image_t image, char* source_spec, size_t* max_len) { auto ictx = reinterpret_cast(image); std::string cpp_source_spec; int r = librbd::api::Migration<>::get_source_spec(ictx, &cpp_source_spec); if (r < 0) { return r; } size_t expected_size = cpp_source_spec.size(); if (expected_size >= *max_len) { *max_len = expected_size + 1; return -ERANGE; } strncpy(source_spec, cpp_source_spec.c_str(), expected_size); source_spec[expected_size] = '\0'; *max_len = expected_size + 1; return 0; } extern "C" int rbd_get_flags(rbd_image_t image, uint64_t *flags) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, get_flags_enter, ictx); int r = librbd::get_flags(ictx, flags); tracepoint(librbd, get_flags_exit, ictx, r, *flags); return r; } extern "C" int rbd_get_group(rbd_image_t image, rbd_group_info_t *group_info, size_t group_info_size) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, image_get_group_enter, ictx->name.c_str()); if (group_info_size != sizeof(rbd_group_info_t)) { tracepoint(librbd, image_get_group_exit, -ERANGE); return -ERANGE; } librbd::group_info_t cpp_group_info; int r = librbd::api::Group<>::image_get_group(ictx, &cpp_group_info); if (r >= 0) { group_info_cpp_to_c(cpp_group_info, group_info); } else { group_info->name = NULL; } tracepoint(librbd, image_get_group_exit, r); return r; } extern "C" int rbd_set_image_notification(rbd_image_t image, int fd, int type) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, set_image_notification_enter, ictx, fd, type); int r = librbd::set_image_notification(ictx, fd, type); tracepoint(librbd, set_image_notification_exit, ictx, r); return r; } extern "C" int rbd_is_exclusive_lock_owner(rbd_image_t image, int *is_owner) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, is_exclusive_lock_owner_enter, ictx); bool owner; int r = librbd::is_exclusive_lock_owner(ictx, &owner); *is_owner = owner ? 1 : 0; tracepoint(librbd, is_exclusive_lock_owner_exit, ictx, r, *is_owner); return r; } extern "C" int rbd_lock_acquire(rbd_image_t image, rbd_lock_mode_t lock_mode) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, lock_acquire_enter, ictx, lock_mode); int r = librbd::lock_acquire(ictx, lock_mode); tracepoint(librbd, lock_acquire_exit, ictx, r); return r; } extern "C" int rbd_lock_release(rbd_image_t image) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, lock_release_enter, ictx); int r = librbd::lock_release(ictx); tracepoint(librbd, lock_release_exit, ictx, r); return r; } extern "C" int rbd_lock_get_owners(rbd_image_t image, rbd_lock_mode_t *lock_mode, char **lock_owners, size_t *max_lock_owners) { librbd::ImageCtx *ictx = reinterpret_cast(image); tracepoint(librbd, lock_get_owners_enter, ictx); // FIPS zeroization audit 20191117: this memset is not security related. memset(lock_owners, 0, sizeof(*lock_owners) * *max_lock_owners); std::list lock_owner_list; int r = librbd::lock_get_owners(ictx, lock_mode, &lock_owner_list); if (r >= 0) { if (*max_lock_owners >= lock_owner_list.size()) { *max_lock_owners = 0; for (auto &lock_owner : lock_owner_list) { lock_owners[(*max_lock_owners)++] = strdup(lock_owner.c_str()); } } else { *max_lock_owners = lock_owner_list.size(); r = -ERANGE; } } tracepoint(librbd, lock_get_owners_exit, ictx, r); return r; } extern "C" void rbd_lock_get_owners_cleanup(char **lock_owners, size_t lock_owner_count) { for (size_t i = 0; i < lock_owner_count; ++i) { free(lock_owners[i]); } } extern "C" int rbd_lock_break(rbd_image_t image, rbd_lock_mode_t lock_mode, const char *lock_owner) { librbd::ImageCtx *ictx = reinterpret_cast(image); tracepoint(librbd, lock_break_enter, ictx, lock_mode, lock_owner); int r = librbd::lock_break(ictx, lock_mode, lock_owner); tracepoint(librbd, lock_break_exit, ictx, r); return r; } extern "C" int rbd_rebuild_object_map(rbd_image_t image, librbd_progress_fn_t cb, void *cbdata) { librbd::ImageCtx *ictx = reinterpret_cast(image); librbd::CProgressContext prog_ctx(cb, cbdata); return ictx->operations->rebuild_object_map(prog_ctx); } /* snapshots */ extern "C" int rbd_snap_create(rbd_image_t image, const char *snap_name) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, snap_create_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, snap_name); auto flags = librbd::util::get_default_snap_create_flags(ictx); librbd::NoOpProgressContext prog_ctx; int r = librbd::api::Snapshot<>::create(ictx, snap_name, flags, prog_ctx); tracepoint(librbd, snap_create_exit, r); return r; } extern "C" int rbd_snap_create2(rbd_image_t image, const char *snap_name, uint32_t flags, librbd_progress_fn_t cb, void *cbdata) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, snap_create_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, snap_name); librbd::CProgressContext prog_ctx(cb, cbdata); int r = librbd::api::Snapshot<>::create(ictx, snap_name, flags, prog_ctx); tracepoint(librbd, snap_create_exit, r); return r; } extern "C" int rbd_snap_rename(rbd_image_t image, const char *srcname, const char *dstname) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, snap_rename_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, srcname, dstname); int r = ictx->operations->snap_rename(srcname, dstname); tracepoint(librbd, snap_rename_exit, r); return r; } extern "C" int rbd_snap_remove(rbd_image_t image, const char *snap_name) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, snap_remove_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, snap_name); librbd::NoOpProgressContext prog_ctx; int r = librbd::api::Snapshot<>::remove(ictx, snap_name, 0, prog_ctx); tracepoint(librbd, snap_remove_exit, r); return r; } extern "C" int rbd_snap_remove2(rbd_image_t image, const char *snap_name, uint32_t flags, librbd_progress_fn_t cb, void *cbdata) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, snap_remove2_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, snap_name, flags); librbd::CProgressContext prog_ctx(cb, cbdata); int r = librbd::api::Snapshot<>::remove(ictx, snap_name, flags, prog_ctx); tracepoint(librbd, snap_remove_exit, r); return r; } extern "C" int rbd_snap_remove_by_id(rbd_image_t image, uint64_t snap_id) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; return librbd::api::Snapshot<>::remove(ictx, snap_id); } extern "C" int rbd_snap_rollback(rbd_image_t image, const char *snap_name) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, snap_rollback_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, snap_name); librbd::NoOpProgressContext prog_ctx; int r = ictx->operations->snap_rollback(cls::rbd::UserSnapshotNamespace(), snap_name, prog_ctx); tracepoint(librbd, snap_rollback_exit, r); return r; } extern "C" int rbd_snap_rollback_with_progress(rbd_image_t image, const char *snap_name, librbd_progress_fn_t cb, void *cbdata) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, snap_rollback_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, snap_name); librbd::CProgressContext prog_ctx(cb, cbdata); int r = ictx->operations->snap_rollback(cls::rbd::UserSnapshotNamespace(), snap_name, prog_ctx); tracepoint(librbd, snap_rollback_exit, r); return r; } extern "C" int rbd_snap_list(rbd_image_t image, rbd_snap_info_t *snaps, int *max_snaps) { vector cpp_snaps; librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, snap_list_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, snaps); if (!max_snaps) { tracepoint(librbd, snap_list_exit, -EINVAL, 0); return -EINVAL; } // FIPS zeroization audit 20191117: this memset is not security related. memset(snaps, 0, sizeof(*snaps) * *max_snaps); int r = librbd::api::Snapshot<>::list(ictx, cpp_snaps); if (r == -ENOENT) { tracepoint(librbd, snap_list_exit, 0, *max_snaps); return 0; } if (r < 0) { tracepoint(librbd, snap_list_exit, r, *max_snaps); return r; } if (*max_snaps < (int)cpp_snaps.size() + 1) { *max_snaps = (int)cpp_snaps.size() + 1; tracepoint(librbd, snap_list_exit, -ERANGE, *max_snaps); return -ERANGE; } int i; for (i = 0; i < (int)cpp_snaps.size(); i++) { snaps[i].id = cpp_snaps[i].id; snaps[i].size = cpp_snaps[i].size; snaps[i].name = strdup(cpp_snaps[i].name.c_str()); if (!snaps[i].name) { for (int j = 0; j < i; j++) free((void *)snaps[j].name); tracepoint(librbd, snap_list_exit, -ENOMEM, *max_snaps); return -ENOMEM; } tracepoint(librbd, snap_list_entry, snaps[i].id, snaps[i].size, snaps[i].name); } snaps[i].id = 0; snaps[i].size = 0; snaps[i].name = NULL; r = (int)cpp_snaps.size(); tracepoint(librbd, snap_list_exit, r, *max_snaps); return r; } extern "C" void rbd_snap_list_end(rbd_snap_info_t *snaps) { tracepoint(librbd, snap_list_end_enter, snaps); while (snaps->name) { free((void *)snaps->name); snaps++; } tracepoint(librbd, snap_list_end_exit); } extern "C" int rbd_snap_protect(rbd_image_t image, const char *snap_name) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, snap_protect_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, snap_name); int r = ictx->operations->snap_protect(cls::rbd::UserSnapshotNamespace(), snap_name); tracepoint(librbd, snap_protect_exit, r); return r; } extern "C" int rbd_snap_unprotect(rbd_image_t image, const char *snap_name) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, snap_unprotect_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, snap_name); int r = ictx->operations->snap_unprotect(cls::rbd::UserSnapshotNamespace(), snap_name); tracepoint(librbd, snap_unprotect_exit, r); return r; } extern "C" int rbd_snap_is_protected(rbd_image_t image, const char *snap_name, int *is_protected) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, snap_is_protected_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, snap_name); bool protected_snap; int r = librbd::api::Snapshot<>::is_protected(ictx, snap_name, &protected_snap); if (r < 0) { tracepoint(librbd, snap_is_protected_exit, r, *is_protected ? 1 : 0); return r; } *is_protected = protected_snap ? 1 : 0; tracepoint(librbd, snap_is_protected_exit, 0, *is_protected ? 1 : 0); return 0; } extern "C" int rbd_snap_get_limit(rbd_image_t image, uint64_t *limit) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, snap_get_limit_enter, ictx, ictx->name.c_str()); int r = librbd::api::Snapshot<>::get_limit(ictx, limit); tracepoint(librbd, snap_get_limit_exit, r, *limit); return r; } extern "C" int rbd_snap_exists(rbd_image_t image, const char *snapname, bool *exists) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, snap_exists_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, snapname); int r = librbd::api::Snapshot<>::exists(ictx, cls::rbd::UserSnapshotNamespace(), snapname, exists); tracepoint(librbd, snap_exists_exit, r, *exists); return r; } extern "C" int rbd_snap_get_timestamp(rbd_image_t image, uint64_t snap_id, struct timespec *timestamp) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, snap_get_timestamp_enter, ictx, ictx->name.c_str()); int r = librbd::api::Snapshot<>::get_timestamp(ictx, snap_id, timestamp); tracepoint(librbd, snap_get_timestamp_exit, r); return r; } extern "C" int rbd_snap_set_limit(rbd_image_t image, uint64_t limit) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, snap_set_limit_enter, ictx, ictx->name.c_str(), limit); int r = librbd::api::Snapshot<>::set_limit(ictx, limit); tracepoint(librbd, snap_set_limit_exit, r); return r; } extern "C" int rbd_snap_set(rbd_image_t image, const char *snap_name) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, snap_set_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, snap_name); int r = librbd::api::Image<>::snap_set( ictx, cls::rbd::UserSnapshotNamespace(), snap_name); tracepoint(librbd, snap_set_exit, r); return r; } extern "C" int rbd_snap_set_by_id(rbd_image_t image, uint64_t snap_id) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; return librbd::api::Image<>::snap_set(ictx, snap_id); } extern "C" int rbd_snap_get_name(rbd_image_t image, uint64_t snap_id, char *snapname, size_t *name_len) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; std::string snap_name; int r = librbd::api::Snapshot<>::get_name(ictx, snap_id, &snap_name); size_t expected_size = snap_name.size(); if (*name_len <= expected_size) { *name_len = expected_size + 1; return -ERANGE; } strncpy(snapname, snap_name.c_str(), expected_size); snapname[expected_size] = '\0'; *name_len = expected_size + 1; return r; } extern "C" int rbd_snap_get_id(rbd_image_t image, const char *snapname, uint64_t *snap_id) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; return librbd::api::Snapshot<>::get_id(ictx, snapname, snap_id); } extern "C" ssize_t rbd_list_children(rbd_image_t image, char *pools, size_t *pools_len, char *images, size_t *images_len) { auto ictx = reinterpret_cast(image); tracepoint(librbd, list_children_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only); std::vector cpp_images; int r = librbd::api::Image<>::list_children(ictx, &cpp_images); if (r < 0) { tracepoint(librbd, list_children_exit, r); return r; } std::set> image_set; for (auto& image : cpp_images) { if (!image.trash) { image_set.insert({image.pool_name, image.image_name}); } } size_t pools_total = 0; size_t images_total = 0; for (auto it : image_set) { pools_total += it.first.length() + 1; images_total += it.second.length() + 1; } bool too_short = false; if (pools_total > *pools_len) too_short = true; if (images_total > *images_len) too_short = true; *pools_len = pools_total; *images_len = images_total; if (too_short) { tracepoint(librbd, list_children_exit, -ERANGE); return -ERANGE; } char *pools_p = pools; char *images_p = images; for (auto it : image_set) { const char* pool = it.first.c_str(); strcpy(pools_p, pool); pools_p += it.first.length() + 1; const char* image = it.second.c_str(); strcpy(images_p, image); images_p += it.second.length() + 1; tracepoint(librbd, list_children_entry, pool, image); } ssize_t ret = image_set.size(); tracepoint(librbd, list_children_exit, ret); return ret; } extern "C" int rbd_list_children2(rbd_image_t image, rbd_child_info_t *children, int *max_children) { auto ictx = reinterpret_cast(image); tracepoint(librbd, list_children_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only); // FIPS zeroization audit 20191117: this memset is not security related. memset(children, 0, sizeof(*children) * *max_children); if (!max_children) { tracepoint(librbd, list_children_exit, -EINVAL); return -EINVAL; } std::vector cpp_children; int r = librbd::api::Image<>::list_children(ictx, &cpp_children); if (r < 0) { tracepoint(librbd, list_children_exit, r); return r; } if (*max_children < (int)cpp_children.size() + 1) { *max_children = (int)cpp_children.size() + 1; tracepoint(librbd, list_children_exit, *max_children); return -ERANGE; } int i; for (i = 0; i < (int)cpp_children.size(); i++) { children[i].pool_name = strdup(cpp_children[i].pool_name.c_str()); children[i].image_name = strdup(cpp_children[i].image_name.c_str()); children[i].image_id = strdup(cpp_children[i].image_id.c_str()); children[i].trash = cpp_children[i].trash; tracepoint(librbd, list_children_entry, children[i].pool_name, children[i].image_name); } children[i].pool_name = NULL; children[i].image_name = NULL; children[i].image_id = NULL; r = (int)cpp_children.size(); tracepoint(librbd, list_children_exit, *max_children); return r; } extern "C" void rbd_list_child_cleanup(rbd_child_info_t *child) { free((void *)child->pool_name); free((void *)child->image_name); free((void *)child->image_id); } extern "C" void rbd_list_children_cleanup(rbd_child_info_t *children, size_t num_children) { for (size_t i=0; i < num_children; i++) { free((void *)children[i].pool_name); free((void *)children[i].image_name); free((void *)children[i].image_id); } } extern "C" int rbd_list_children3(rbd_image_t image, rbd_linked_image_spec_t *images, size_t *max_images) { auto ictx = reinterpret_cast(image); tracepoint(librbd, list_children_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only); // FIPS zeroization audit 20191117: this memset is not security related. memset(images, 0, sizeof(*images) * *max_images); std::vector cpp_children; int r = librbd::api::Image<>::list_children(ictx, &cpp_children); if (r < 0) { tracepoint(librbd, list_children_exit, r); return r; } if (*max_images < cpp_children.size()) { *max_images = cpp_children.size(); return -ERANGE; } *max_images = cpp_children.size(); for (size_t idx = 0; idx < cpp_children.size(); ++idx) { images[idx] = { .pool_id = cpp_children[idx].pool_id, .pool_name = strdup(cpp_children[idx].pool_name.c_str()), .pool_namespace = strdup(cpp_children[idx].pool_namespace.c_str()), .image_id = strdup(cpp_children[idx].image_id.c_str()), .image_name = strdup(cpp_children[idx].image_name.c_str()), .trash = cpp_children[idx].trash}; tracepoint(librbd, list_children_entry, images[idx].pool_name, images[idx].image_name); } return 0; } extern "C" int rbd_list_descendants(rbd_image_t image, rbd_linked_image_spec_t *images, size_t *max_images) { auto ictx = reinterpret_cast(image); // FIPS zeroization audit 20191117: this memset is not security related. memset(images, 0, sizeof(*images) * *max_images); std::vector cpp_children; int r = librbd::api::Image<>::list_descendants(ictx, {}, &cpp_children); if (r < 0) { return r; } if (*max_images < cpp_children.size()) { *max_images = cpp_children.size(); return -ERANGE; } *max_images = cpp_children.size(); for (size_t idx = 0; idx < cpp_children.size(); ++idx) { images[idx] = { .pool_id = cpp_children[idx].pool_id, .pool_name = strdup(cpp_children[idx].pool_name.c_str()), .pool_namespace = strdup(cpp_children[idx].pool_namespace.c_str()), .image_id = strdup(cpp_children[idx].image_id.c_str()), .image_name = strdup(cpp_children[idx].image_name.c_str()), .trash = cpp_children[idx].trash}; } return 0; } extern "C" ssize_t rbd_list_lockers(rbd_image_t image, 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) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, list_lockers_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only); std::list lockers; bool exclusive_bool; string tag_str; int r = list_lockers(ictx, &lockers, &exclusive_bool, &tag_str); if (r < 0) { tracepoint(librbd, list_lockers_exit, r); return r; } ldout(ictx->cct, 20) << "list_lockers r = " << r << " lockers.size() = " << lockers.size() << dendl; *exclusive = (int)exclusive_bool; size_t clients_total = 0; size_t cookies_total = 0; size_t addrs_total = 0; for (list::const_iterator 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(librbd, list_lockers_exit, -ERANGE); return -ERANGE; } strcpy(tag, tag_str.c_str()); char *clients_p = clients; char *cookies_p = cookies; char *addrs_p = addrs; for (list::const_iterator it = lockers.begin(); it != lockers.end(); ++it) { const char* client = it->client.c_str(); strcpy(clients_p, client); clients_p += it->client.length() + 1; const char* cookie = it->cookie.c_str(); strcpy(cookies_p, cookie); cookies_p += it->cookie.length() + 1; const char* address = it->address.c_str(); strcpy(addrs_p, address); addrs_p += it->address.length() + 1; tracepoint(librbd, list_lockers_entry, client, cookie, address); } ssize_t ret = lockers.size(); tracepoint(librbd, list_lockers_exit, ret); return ret; } extern "C" int rbd_lock_exclusive(rbd_image_t image, const char *cookie) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, lock_exclusive_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, cookie); int r = librbd::lock(ictx, true, cookie ? cookie : "", ""); tracepoint(librbd, lock_exclusive_exit, r); return r; } extern "C" int rbd_lock_shared(rbd_image_t image, const char *cookie, const char *tag) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, lock_shared_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, cookie, tag); int r = librbd::lock(ictx, false, cookie ? cookie : "", tag ? tag : ""); tracepoint(librbd, lock_shared_exit, r); return r; } extern "C" int rbd_unlock(rbd_image_t image, const char *cookie) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, unlock_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, cookie); int r = librbd::unlock(ictx, cookie ? cookie : ""); tracepoint(librbd, unlock_exit, r); return r; } extern "C" int rbd_break_lock(rbd_image_t image, const char *client, const char *cookie) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, break_lock_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, client, cookie); int r = librbd::break_lock(ictx, client, cookie ? cookie : ""); tracepoint(librbd, break_lock_exit, r); return r; } /* I/O */ extern "C" ssize_t rbd_read(rbd_image_t image, uint64_t ofs, size_t len, char *buf) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, read_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, ofs, len); int r = librbd::api::Io<>::read( *ictx, ofs, len, librbd::io::ReadResult{buf, len}, 0); tracepoint(librbd, read_exit, r); return r; } extern "C" ssize_t rbd_read2(rbd_image_t image, uint64_t ofs, size_t len, char *buf, int op_flags) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, read2_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, ofs, len, op_flags); int r = librbd::api::Io<>::read( *ictx, ofs, len, librbd::io::ReadResult{buf, len}, op_flags); tracepoint(librbd, read_exit, r); return r; } extern "C" int64_t rbd_read_iterate(rbd_image_t image, uint64_t ofs, size_t len, int (*cb)(uint64_t, size_t, const char *, void *), void *arg) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, read_iterate_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, ofs, len); int64_t r = librbd::read_iterate(ictx, ofs, len, cb, arg); tracepoint(librbd, read_iterate_exit, r); return r; } extern "C" int rbd_read_iterate2(rbd_image_t image, uint64_t ofs, uint64_t len, int (*cb)(uint64_t, size_t, const char *, void *), void *arg) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, read_iterate2_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, ofs, len); int64_t r = librbd::read_iterate(ictx, ofs, len, cb, arg); if (r > 0) r = 0; tracepoint(librbd, read_iterate2_exit, r); return (int)r; } extern "C" int rbd_diff_iterate(rbd_image_t image, const char *fromsnapname, uint64_t ofs, uint64_t len, int (*cb)(uint64_t, size_t, int, void *), void *arg) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, diff_iterate_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, fromsnapname, ofs, len, true, false); int r = librbd::api::DiffIterate<>::diff_iterate(ictx, cls::rbd::UserSnapshotNamespace(), fromsnapname, ofs, len, true, false, cb, arg); tracepoint(librbd, diff_iterate_exit, r); return r; } extern "C" int rbd_diff_iterate2(rbd_image_t image, const char *fromsnapname, uint64_t ofs, uint64_t len, uint8_t include_parent, uint8_t whole_object, int (*cb)(uint64_t, size_t, int, void *), void *arg) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, diff_iterate_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, fromsnapname, ofs, len, include_parent != 0, whole_object != 0); int r = librbd::api::DiffIterate<>::diff_iterate(ictx, cls::rbd::UserSnapshotNamespace(), fromsnapname, ofs, len, include_parent, whole_object, cb, arg); tracepoint(librbd, diff_iterate_exit, r); return r; } extern "C" ssize_t rbd_write(rbd_image_t image, uint64_t ofs, size_t len, const char *buf) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, write_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, ofs, len, buf); bufferlist bl; bl.push_back(create_write_raw(ictx, buf, len, nullptr)); int r = librbd::api::Io<>::write(*ictx, ofs, len, std::move(bl), 0); tracepoint(librbd, write_exit, r); return r; } extern "C" ssize_t rbd_write2(rbd_image_t image, uint64_t ofs, size_t len, const char *buf, int op_flags) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, write2_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, ofs, len, buf, op_flags); bufferlist bl; bl.push_back(create_write_raw(ictx, buf, len, nullptr)); int r = librbd::api::Io<>::write(*ictx, ofs, len, std::move(bl), op_flags); tracepoint(librbd, write_exit, r); return r; } extern "C" int rbd_discard(rbd_image_t image, uint64_t ofs, uint64_t len) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, discard_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, ofs, len); if (len > static_cast(std::numeric_limits::max())) { tracepoint(librbd, discard_exit, -EINVAL); return -EINVAL; } int r = librbd::api::Io<>::discard( *ictx, ofs, len, ictx->discard_granularity_bytes); tracepoint(librbd, discard_exit, r); return r; } extern "C" ssize_t rbd_writesame(rbd_image_t image, uint64_t ofs, size_t len, const char *buf, size_t data_len, int op_flags) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, writesame_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, ofs, len, data_len == 0 ? NULL : buf, data_len, op_flags); if (data_len == 0 || len % data_len || len > static_cast(std::numeric_limits::max())) { tracepoint(librbd, writesame_exit, -EINVAL); return -EINVAL; } bool discard_zero = ictx->config.get_val("rbd_discard_on_zeroed_write_same"); if (discard_zero && mem_is_zero(buf, data_len)) { int r = librbd::api::Io<>::write_zeroes(*ictx, ofs, len, 0, op_flags); tracepoint(librbd, writesame_exit, r); return r; } bufferlist bl; bl.push_back(create_write_raw(ictx, buf, data_len, nullptr)); int r = librbd::api::Io<>::write_same( *ictx, ofs, len, std::move(bl), op_flags); tracepoint(librbd, writesame_exit, r); return r; } extern "C" ssize_t rbd_write_zeroes(rbd_image_t image, uint64_t ofs, size_t len, int zero_flags, int op_flags) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; return librbd::api::Io<>::write_zeroes(*ictx, ofs, len, zero_flags, op_flags); } extern "C" ssize_t rbd_compare_and_write(rbd_image_t image, uint64_t ofs, size_t len, const char *cmp_buf, const char *buf, uint64_t *mismatch_off, int op_flags) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, compare_and_write_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, ofs, len, cmp_buf, buf, op_flags); bufferlist cmp_bl; cmp_bl.push_back(create_write_raw(ictx, cmp_buf, len, nullptr)); bufferlist bl; bl.push_back(create_write_raw(ictx, buf, len, nullptr)); int r = librbd::api::Io<>::compare_and_write( *ictx, ofs, len, std::move(cmp_bl), std::move(bl), mismatch_off, op_flags); tracepoint(librbd, compare_and_write_exit, r); return r; } extern "C" int rbd_aio_create_completion(void *cb_arg, rbd_callback_t complete_cb, rbd_completion_t *c) { librbd::RBD::AioCompletion *rbd_comp = new librbd::RBD::AioCompletion(cb_arg, complete_cb); *c = (rbd_completion_t) rbd_comp; return 0; } extern "C" int rbd_aio_write(rbd_image_t image, uint64_t off, size_t len, const char *buf, rbd_completion_t c) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; librbd::RBD::AioCompletion *comp = (librbd::RBD::AioCompletion *)c; tracepoint(librbd, aio_write_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, off, len, buf, comp->pc); auto aio_completion = get_aio_completion(comp); bufferlist bl; bl.push_back(create_write_raw(ictx, buf, len, aio_completion)); librbd::api::Io<>::aio_write( *ictx, aio_completion, off, len, std::move(bl), 0, true); tracepoint(librbd, aio_write_exit, 0); return 0; } extern "C" int rbd_aio_write2(rbd_image_t image, uint64_t off, size_t len, const char *buf, rbd_completion_t c, int op_flags) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; librbd::RBD::AioCompletion *comp = (librbd::RBD::AioCompletion *)c; tracepoint(librbd, aio_write2_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, off, len, buf, comp->pc, op_flags); auto aio_completion = get_aio_completion(comp); bufferlist bl; bl.push_back(create_write_raw(ictx, buf, len, aio_completion)); librbd::api::Io<>::aio_write( *ictx, aio_completion, off, len, std::move(bl), op_flags, true); tracepoint(librbd, aio_write_exit, 0); return 0; } extern "C" int rbd_aio_writev(rbd_image_t image, const struct iovec *iov, int iovcnt, uint64_t off, rbd_completion_t c) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; librbd::RBD::AioCompletion *comp = (librbd::RBD::AioCompletion *)c; size_t len; int r = get_iovec_length(iov, iovcnt, len); tracepoint(librbd, aio_write_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, off, len, NULL, comp->pc); if (r == 0) { auto aio_completion = get_aio_completion(comp); auto bl = iovec_to_bufferlist(ictx, iov, iovcnt, aio_completion); librbd::api::Io<>::aio_write( *ictx, aio_completion, off, len, std::move(bl), 0, true); } tracepoint(librbd, aio_write_exit, r); return r; } extern "C" int rbd_aio_read(rbd_image_t image, uint64_t off, size_t len, char *buf, rbd_completion_t c) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; librbd::RBD::AioCompletion *comp = (librbd::RBD::AioCompletion *)c; tracepoint(librbd, aio_read_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, off, len, buf, comp->pc); librbd::api::Io<>::aio_read( *ictx, get_aio_completion(comp), off, len, librbd::io::ReadResult{buf, len}, 0, true); tracepoint(librbd, aio_read_exit, 0); return 0; } extern "C" int rbd_aio_read2(rbd_image_t image, uint64_t off, size_t len, char *buf, rbd_completion_t c, int op_flags) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; librbd::RBD::AioCompletion *comp = (librbd::RBD::AioCompletion *)c; tracepoint(librbd, aio_read2_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, off, len, buf, comp->pc, op_flags); librbd::api::Io<>::aio_read( *ictx, get_aio_completion(comp), off, len, librbd::io::ReadResult{buf, len}, op_flags, true); tracepoint(librbd, aio_read_exit, 0); return 0; } extern "C" int rbd_aio_readv(rbd_image_t image, const struct iovec *iov, int iovcnt, uint64_t off, rbd_completion_t c) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; librbd::RBD::AioCompletion *comp = (librbd::RBD::AioCompletion *)c; size_t len; int r = get_iovec_length(iov, iovcnt, len); tracepoint(librbd, aio_read_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, off, len, NULL, comp->pc); if (r == 0) { librbd::io::ReadResult read_result; if (iovcnt == 1) { read_result = librbd::io::ReadResult( static_cast(iov[0].iov_base), iov[0].iov_len); } else { read_result = librbd::io::ReadResult(iov, iovcnt); } librbd::api::Io<>::aio_read( *ictx, get_aio_completion(comp), off, len, std::move(read_result), 0, true); } tracepoint(librbd, aio_read_exit, r); return r; } extern "C" int rbd_flush(rbd_image_t image) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, flush_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only); int r = librbd::api::Io<>::flush(*ictx); tracepoint(librbd, flush_exit, r); return r; } extern "C" int rbd_aio_flush(rbd_image_t image, rbd_completion_t c) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; librbd::RBD::AioCompletion *comp = (librbd::RBD::AioCompletion *)c; tracepoint(librbd, aio_flush_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, comp->pc); librbd::api::Io<>::aio_flush(*ictx, get_aio_completion(comp), true); tracepoint(librbd, aio_flush_exit, 0); return 0; } extern "C" int rbd_aio_discard(rbd_image_t image, uint64_t off, uint64_t len, rbd_completion_t c) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; librbd::RBD::AioCompletion *comp = (librbd::RBD::AioCompletion *)c; tracepoint(librbd, aio_discard_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, off, len, comp->pc); librbd::api::Io<>::aio_discard( *ictx, get_aio_completion(comp), off, len, ictx->discard_granularity_bytes, true); tracepoint(librbd, aio_discard_exit, 0); return 0; } extern "C" int rbd_aio_writesame(rbd_image_t image, uint64_t off, size_t len, const char *buf, size_t data_len, rbd_completion_t c, int op_flags) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; librbd::RBD::AioCompletion *comp = (librbd::RBD::AioCompletion *)c; tracepoint(librbd, aio_writesame_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, off, len, data_len == 0 ? NULL : buf, data_len, comp->pc, op_flags); if (data_len == 0 || len % data_len) { tracepoint(librbd, aio_writesame_exit, -EINVAL); return -EINVAL; } bool discard_zero = ictx->config.get_val("rbd_discard_on_zeroed_write_same"); if (discard_zero && mem_is_zero(buf, data_len)) { librbd::api::Io<>::aio_write_zeroes( *ictx, get_aio_completion(comp), off, len, 0, op_flags, true); tracepoint(librbd, aio_writesame_exit, 0); return 0; } auto aio_completion = get_aio_completion(comp); bufferlist bl; bl.push_back(create_write_raw(ictx, buf, data_len, aio_completion)); librbd::api::Io<>::aio_write_same( *ictx, aio_completion, off, len, std::move(bl), op_flags, true); tracepoint(librbd, aio_writesame_exit, 0); return 0; } extern "C" int rbd_aio_write_zeroes(rbd_image_t image, uint64_t off, size_t len, rbd_completion_t c, int zero_flags, int op_flags) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; librbd::RBD::AioCompletion *comp = (librbd::RBD::AioCompletion *)c; librbd::api::Io<>::aio_write_zeroes(*ictx, get_aio_completion(comp), off, len, zero_flags, op_flags, true); return 0; } extern "C" ssize_t rbd_aio_compare_and_write(rbd_image_t image, uint64_t off, size_t len, const char *cmp_buf, const char *buf, rbd_completion_t c, uint64_t *mismatch_off, int op_flags) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; librbd::RBD::AioCompletion *comp = (librbd::RBD::AioCompletion *)c; tracepoint(librbd, aio_compare_and_write_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only, off, len, cmp_buf, buf, comp->pc, op_flags); auto aio_completion = get_aio_completion(comp); bufferlist cmp_bl; cmp_bl.push_back(create_write_raw(ictx, cmp_buf, len, aio_completion)); bufferlist bl; bl.push_back(create_write_raw(ictx, buf, len, aio_completion)); librbd::api::Io<>::aio_compare_and_write( *ictx, aio_completion, off, len, std::move(cmp_bl), std::move(bl), mismatch_off, op_flags, false); tracepoint(librbd, aio_compare_and_write_exit, 0); return 0; } extern "C" int rbd_invalidate_cache(rbd_image_t image) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, invalidate_cache_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only); int r = librbd::invalidate_cache(ictx); tracepoint(librbd, invalidate_cache_exit, r); return r; } extern "C" int rbd_poll_io_events(rbd_image_t image, rbd_completion_t *comps, int numcomp) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; librbd::io::AioCompletion *cs[numcomp]; tracepoint(librbd, poll_io_events_enter, ictx, numcomp); int r = librbd::poll_io_events(ictx, cs, numcomp); tracepoint(librbd, poll_io_events_exit, r); if (r > 0) { for (int i = 0; i < r; ++i) comps[i] = cs[i]->rbd_comp; } return r; } extern "C" int rbd_metadata_get(rbd_image_t image, const char *key, char *value, size_t *vallen) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; string val_s; tracepoint(librbd, metadata_get_enter, ictx, key); int r = librbd::metadata_get(ictx, key, &val_s); if (r < 0) { tracepoint(librbd, metadata_get_exit, r, key, NULL); return r; } if (*vallen < val_s.size() + 1) { r = -ERANGE; *vallen = val_s.size() + 1; tracepoint(librbd, metadata_get_exit, r, key, NULL); } else { strncpy(value, val_s.c_str(), val_s.size() + 1); tracepoint(librbd, metadata_get_exit, r, key, value); } return r; } extern "C" int rbd_metadata_set(rbd_image_t image, const char *key, const char *value) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, metadata_set_enter, ictx, key, value); int r = ictx->operations->metadata_set(key, value); tracepoint(librbd, metadata_set_exit, r); return r; } extern "C" int rbd_metadata_remove(rbd_image_t image, const char *key) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, metadata_remove_enter, ictx, key); int r = ictx->operations->metadata_remove(key); tracepoint(librbd, metadata_remove_exit, r); return r; } extern "C" int rbd_metadata_list(rbd_image_t image, const char *start, uint64_t max, char *key, size_t *key_len, char *value, size_t *val_len) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, metadata_list_enter, ictx); map pairs; int r = librbd::metadata_list(ictx, start, max, &pairs); size_t key_total_len = 0, val_total_len = 0; bool too_short = false; for (map::iterator it = pairs.begin(); it != pairs.end(); ++it) { key_total_len += it->first.size() + 1; val_total_len += it->second.length() + 1; } if (*key_len < key_total_len || *val_len < val_total_len) too_short = true; *key_len = key_total_len; *val_len = val_total_len; if (too_short) { tracepoint(librbd, metadata_list_exit, -ERANGE); return -ERANGE; } char *key_p = key, *value_p = value; for (map::iterator it = pairs.begin(); it != pairs.end(); ++it) { strncpy(key_p, it->first.c_str(), it->first.size() + 1); key_p += it->first.size() + 1; strncpy(value_p, it->second.c_str(), it->second.length()); value_p += it->second.length(); *value_p = '\0'; value_p++; tracepoint(librbd, metadata_list_entry, it->first.c_str(), it->second.c_str()); } tracepoint(librbd, metadata_list_exit, r); return r; } extern "C" int rbd_mirror_image_enable(rbd_image_t image) { return rbd_mirror_image_enable2(image, RBD_MIRROR_IMAGE_MODE_JOURNAL); } extern "C" int rbd_mirror_image_enable2(rbd_image_t image, rbd_mirror_image_mode_t mode) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; return librbd::api::Mirror<>::image_enable(ictx, mode, false); } extern "C" int rbd_mirror_image_disable(rbd_image_t image, bool force) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; return librbd::api::Mirror<>::image_disable(ictx, force); } extern "C" int rbd_mirror_image_promote(rbd_image_t image, bool force) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; return librbd::api::Mirror<>::image_promote(ictx, force); } extern "C" int rbd_mirror_image_demote(rbd_image_t image) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; return librbd::api::Mirror<>::image_demote(ictx); } extern "C" int rbd_mirror_image_resync(rbd_image_t image) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; return librbd::api::Mirror<>::image_resync(ictx); } extern "C" int rbd_mirror_image_create_snapshot(rbd_image_t image, uint64_t *snap_id) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; auto flags = librbd::util::get_default_snap_create_flags(ictx); return librbd::api::Mirror<>::image_snapshot_create(ictx, flags, snap_id); } extern "C" int rbd_mirror_image_create_snapshot2(rbd_image_t image, uint32_t flags, uint64_t *snap_id) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; return librbd::api::Mirror<>::image_snapshot_create(ictx, flags, snap_id); } extern "C" int rbd_mirror_image_get_info(rbd_image_t image, rbd_mirror_image_info_t *mirror_image_info, size_t info_size) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; if (sizeof(rbd_mirror_image_info_t) != info_size) { return -ERANGE; } librbd::mirror_image_info_t cpp_mirror_image; int r = librbd::api::Mirror<>::image_get_info(ictx, &cpp_mirror_image); if (r < 0) { return r; } mirror_image_info_cpp_to_c(cpp_mirror_image, mirror_image_info); return 0; } extern "C" void rbd_mirror_image_get_info_cleanup( rbd_mirror_image_info_t *mirror_image_info) { free(mirror_image_info->global_id); } extern "C" int rbd_mirror_image_get_mode(rbd_image_t image, rbd_mirror_image_mode_t *mode) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; return librbd::api::Mirror<>::image_get_mode(ictx, mode); } extern "C" int rbd_mirror_image_get_global_status( rbd_image_t image, rbd_mirror_image_global_status_t *status, size_t status_size) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; if (sizeof(rbd_mirror_image_global_status_t) != status_size) { return -ERANGE; } librbd::mirror_image_global_status_t cpp_status; int r = librbd::api::Mirror<>::image_get_global_status(ictx, &cpp_status); if (r < 0) { return r; } mirror_image_global_status_cpp_to_c(cpp_status, status); return 0; } #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wdeprecated-declarations" extern "C" int rbd_mirror_image_get_status(rbd_image_t image, rbd_mirror_image_status_t *status, size_t status_size) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; if (sizeof(rbd_mirror_image_status_t) != status_size) { return -ERANGE; } librbd::mirror_image_global_status_t cpp_status; int r = librbd::api::Mirror<>::image_get_global_status(ictx, &cpp_status); if (r < 0) { return r; } mirror_image_global_status_cpp_to_c(cpp_status, status); return 0; } #pragma GCC diagnostic pop extern "C" int rbd_mirror_image_get_instance_id(rbd_image_t image, char *instance_id, size_t *instance_id_max_length) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; std::string cpp_instance_id; int r = librbd::api::Mirror<>::image_get_instance_id(ictx, &cpp_instance_id); if (r < 0) { return r; } if (cpp_instance_id.size() >= *instance_id_max_length) { *instance_id_max_length = cpp_instance_id.size() + 1; return -ERANGE; } strcpy(instance_id, cpp_instance_id.c_str()); *instance_id_max_length = cpp_instance_id.size() + 1; return 0; } extern "C" int rbd_aio_mirror_image_promote(rbd_image_t image, bool force, rbd_completion_t c) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; librbd::RBD::AioCompletion *comp = (librbd::RBD::AioCompletion *)c; librbd::api::Mirror<>::image_promote( ictx, force, new C_AioCompletion(ictx, librbd::io::AIO_TYPE_GENERIC, get_aio_completion(comp))); return 0; } extern "C" int rbd_aio_mirror_image_demote(rbd_image_t image, rbd_completion_t c) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; librbd::RBD::AioCompletion *comp = (librbd::RBD::AioCompletion *)c; librbd::api::Mirror<>::image_demote( ictx, new C_AioCompletion(ictx, librbd::io::AIO_TYPE_GENERIC, get_aio_completion(comp))); return 0; } extern "C" int rbd_aio_mirror_image_get_info(rbd_image_t image, rbd_mirror_image_info_t *info, size_t info_size, rbd_completion_t c) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; librbd::RBD::AioCompletion *comp = (librbd::RBD::AioCompletion *)c; if (sizeof(rbd_mirror_image_info_t) != info_size) { return -ERANGE; } auto ctx = new C_MirrorImageGetInfo( info, new C_AioCompletion(ictx, librbd::io::AIO_TYPE_GENERIC, get_aio_completion(comp))); librbd::api::Mirror<>::image_get_info( ictx, &ctx->cpp_mirror_image_info, ctx); return 0; } extern "C" int rbd_aio_mirror_image_get_mode(rbd_image_t image, rbd_mirror_image_mode_t *mode, rbd_completion_t c) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; librbd::RBD::AioCompletion *comp = (librbd::RBD::AioCompletion *)c; librbd::api::Mirror<>::image_get_mode( ictx, mode, new C_AioCompletion(ictx, librbd::io::AIO_TYPE_GENERIC, get_aio_completion(comp))); return 0; } extern "C" int rbd_aio_mirror_image_get_global_status( rbd_image_t image, rbd_mirror_image_global_status_t *status, size_t status_size, rbd_completion_t c) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; librbd::RBD::AioCompletion *comp = (librbd::RBD::AioCompletion *)c; if (sizeof(rbd_mirror_image_global_status_t) != status_size) { return -ERANGE; } auto ctx = new C_MirrorImageGetGlobalStatus( status, new C_AioCompletion(ictx, librbd::io::AIO_TYPE_GENERIC, get_aio_completion(comp))); librbd::api::Mirror<>::image_get_global_status( ictx, &ctx->cpp_mirror_image_global_status, ctx); return 0; } #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wdeprecated-declarations" extern "C" int rbd_aio_mirror_image_get_status( rbd_image_t image, rbd_mirror_image_status_t *status, size_t status_size, rbd_completion_t c) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; librbd::RBD::AioCompletion *comp = (librbd::RBD::AioCompletion *)c; if (sizeof(rbd_mirror_image_status_t) != status_size) { return -ERANGE; } auto ctx = new C_MirrorImageGetStatus( status, new C_AioCompletion(ictx, librbd::io::AIO_TYPE_GENERIC, get_aio_completion(comp))); librbd::api::Mirror<>::image_get_global_status( ictx, &ctx->cpp_mirror_image_global_status, ctx); return 0; } #pragma GCC diagnostic pop extern "C" int rbd_aio_mirror_image_create_snapshot(rbd_image_t image, uint32_t flags, uint64_t *snap_id, rbd_completion_t c) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; librbd::RBD::AioCompletion *comp = (librbd::RBD::AioCompletion *)c; librbd::api::Mirror<>::image_snapshot_create( ictx, flags, snap_id, new C_AioCompletion(ictx, librbd::io::AIO_TYPE_GENERIC, get_aio_completion(comp))); return 0; } extern "C" int rbd_update_watch(rbd_image_t image, uint64_t *handle, rbd_update_callback_t watch_cb, void *arg) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; C_UpdateWatchCB *wctx = new C_UpdateWatchCB(watch_cb, arg); tracepoint(librbd, update_watch_enter, ictx, wctx); int r = ictx->state->register_update_watcher(wctx, &wctx->handle); tracepoint(librbd, update_watch_exit, r, wctx->handle); *handle = reinterpret_cast(wctx); return r; } extern "C" int rbd_update_unwatch(rbd_image_t image, uint64_t handle) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; C_UpdateWatchCB *wctx = reinterpret_cast(handle); tracepoint(librbd, update_unwatch_enter, ictx, wctx->handle); int r = ictx->state->unregister_update_watcher(wctx->handle); delete wctx; tracepoint(librbd, update_unwatch_exit, r); return r; } extern "C" int rbd_aio_is_complete(rbd_completion_t c) { librbd::RBD::AioCompletion *comp = (librbd::RBD::AioCompletion *)c; return comp->is_complete(); } extern "C" int rbd_aio_wait_for_complete(rbd_completion_t c) { librbd::RBD::AioCompletion *comp = (librbd::RBD::AioCompletion *)c; return comp->wait_for_complete(); } extern "C" ssize_t rbd_aio_get_return_value(rbd_completion_t c) { librbd::RBD::AioCompletion *comp = (librbd::RBD::AioCompletion *)c; return comp->get_return_value(); } extern "C" void *rbd_aio_get_arg(rbd_completion_t c) { librbd::RBD::AioCompletion *comp = (librbd::RBD::AioCompletion *)c; return comp->get_arg(); } extern "C" void rbd_aio_release(rbd_completion_t c) { librbd::RBD::AioCompletion *comp = (librbd::RBD::AioCompletion *)c; comp->release(); } extern "C" int rbd_group_create(rados_ioctx_t p, const char *name) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, group_create_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), name); int r = librbd::api::Group<>::create(io_ctx, name); tracepoint(librbd, group_create_exit, r); return r; } extern "C" int rbd_group_remove(rados_ioctx_t p, const char *name) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, group_remove_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), name); int r = librbd::api::Group<>::remove(io_ctx, name); tracepoint(librbd, group_remove_exit, r); return r; } extern "C" int rbd_group_list(rados_ioctx_t p, char *names, size_t *size) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, group_list_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id()); vector cpp_names; int r = librbd::api::Group<>::list(io_ctx, &cpp_names); if (r < 0) { tracepoint(librbd, group_list_exit, r); return r; } size_t expected_size = 0; for (size_t i = 0; i < cpp_names.size(); i++) { expected_size += cpp_names[i].size() + 1; } if (*size < expected_size) { *size = expected_size; tracepoint(librbd, group_list_exit, -ERANGE); return -ERANGE; } if (names == NULL) { tracepoint(librbd, group_list_exit, -EINVAL); return -EINVAL; } for (int i = 0; i < (int)cpp_names.size(); i++) { const char* name = cpp_names[i].c_str(); tracepoint(librbd, group_list_entry, name); strcpy(names, name); names += strlen(names) + 1; } tracepoint(librbd, group_list_exit, (int)expected_size); return (int)expected_size; } extern "C" int rbd_group_rename(rados_ioctx_t p, const char *src_name, const char *dest_name) { librados::IoCtx io_ctx; librados::IoCtx::from_rados_ioctx_t(p, io_ctx); TracepointProvider::initialize(get_cct(io_ctx)); tracepoint(librbd, group_rename_enter, io_ctx.get_pool_name().c_str(), io_ctx.get_id(), src_name, dest_name); int r = librbd::api::Group<>::rename(io_ctx, src_name, dest_name); tracepoint(librbd, group_rename_exit, r); return r; } extern "C" int rbd_group_image_add(rados_ioctx_t group_p, const char *group_name, rados_ioctx_t image_p, const char *image_name) { librados::IoCtx group_ioctx; librados::IoCtx image_ioctx; librados::IoCtx::from_rados_ioctx_t(group_p, group_ioctx); librados::IoCtx::from_rados_ioctx_t(image_p, image_ioctx); TracepointProvider::initialize(get_cct(group_ioctx)); tracepoint(librbd, group_image_add_enter, group_ioctx.get_pool_name().c_str(), group_ioctx.get_id(), group_name, image_ioctx.get_pool_name().c_str(), image_ioctx.get_id(), image_name); int r = librbd::api::Group<>::image_add(group_ioctx, group_name, image_ioctx, image_name); tracepoint(librbd, group_image_add_exit, r); return r; } extern "C" int rbd_group_image_remove(rados_ioctx_t group_p, const char *group_name, rados_ioctx_t image_p, const char *image_name) { librados::IoCtx group_ioctx; librados::IoCtx image_ioctx; librados::IoCtx::from_rados_ioctx_t(group_p, group_ioctx); librados::IoCtx::from_rados_ioctx_t(image_p, image_ioctx); TracepointProvider::initialize(get_cct(group_ioctx)); tracepoint(librbd, group_image_remove_enter, group_ioctx.get_pool_name().c_str(), group_ioctx.get_id(), group_name, image_ioctx.get_pool_name().c_str(), image_ioctx.get_id(), image_name); int r = librbd::api::Group<>::image_remove(group_ioctx, group_name, image_ioctx, image_name); tracepoint(librbd, group_image_remove_exit, r); return r; } extern "C" int rbd_group_image_remove_by_id(rados_ioctx_t group_p, const char *group_name, rados_ioctx_t image_p, const char *image_id) { librados::IoCtx group_ioctx; librados::IoCtx image_ioctx; librados::IoCtx::from_rados_ioctx_t(group_p, group_ioctx); librados::IoCtx::from_rados_ioctx_t(image_p, image_ioctx); TracepointProvider::initialize(get_cct(group_ioctx)); tracepoint(librbd, group_image_remove_by_id_enter, group_ioctx.get_pool_name().c_str(), group_ioctx.get_id(), group_name, image_ioctx.get_pool_name().c_str(), image_ioctx.get_id(), image_id); int r = librbd::api::Group<>::image_remove_by_id(group_ioctx, group_name, image_ioctx, image_id); tracepoint(librbd, group_image_remove_by_id_exit, r); return r; } extern "C" int rbd_group_image_list(rados_ioctx_t group_p, const char *group_name, rbd_group_image_info_t *images, size_t group_image_info_size, size_t *image_size) { librados::IoCtx group_ioctx; librados::IoCtx::from_rados_ioctx_t(group_p, group_ioctx); TracepointProvider::initialize(get_cct(group_ioctx)); tracepoint(librbd, group_image_list_enter, group_ioctx.get_pool_name().c_str(), group_ioctx.get_id(), group_name); // FIPS zeroization audit 20191117: this memset is not security related. memset(images, 0, sizeof(*images) * *image_size); if (group_image_info_size != sizeof(rbd_group_image_info_t)) { *image_size = 0; tracepoint(librbd, group_image_list_exit, -ERANGE); return -ERANGE; } std::vector cpp_images; int r = librbd::api::Group<>::image_list(group_ioctx, group_name, &cpp_images); if (r == -ENOENT) { tracepoint(librbd, group_image_list_exit, 0); *image_size = 0; return 0; } if (r < 0) { tracepoint(librbd, group_image_list_exit, r); return r; } if (*image_size < cpp_images.size()) { *image_size = cpp_images.size(); tracepoint(librbd, group_image_list_exit, -ERANGE); return -ERANGE; } for (size_t i = 0; i < cpp_images.size(); ++i) { group_image_status_cpp_to_c(cpp_images[i], &images[i]); } r = *image_size = cpp_images.size(); tracepoint(librbd, group_image_list_exit, r); return r; } extern "C" int rbd_group_info_cleanup(rbd_group_info_t *group_info, size_t group_info_size) { if (group_info_size != sizeof(rbd_group_info_t)) { return -ERANGE; } free(group_info->name); return 0; } extern "C" int rbd_group_image_list_cleanup(rbd_group_image_info_t *images, size_t group_image_info_size, size_t len) { if (group_image_info_size != sizeof(rbd_group_image_info_t)) { return -ERANGE; } for (size_t i = 0; i < len; ++i) { free(images[i].name); } return 0; } extern "C" int rbd_group_snap_create(rados_ioctx_t group_p, const char *group_name, const char *snap_name) { librados::IoCtx group_ioctx; librados::IoCtx::from_rados_ioctx_t(group_p, group_ioctx); TracepointProvider::initialize(get_cct(group_ioctx)); tracepoint(librbd, group_snap_create_enter, group_ioctx.get_pool_name().c_str(), group_ioctx.get_id(), group_name, snap_name); int r = librbd::api::Group<>::snap_create(group_ioctx, group_name, snap_name, 0); tracepoint(librbd, group_snap_create_exit, r); return r; } extern "C" int rbd_group_snap_create2(rados_ioctx_t group_p, const char *group_name, const char *snap_name, uint32_t flags) { librados::IoCtx group_ioctx; librados::IoCtx::from_rados_ioctx_t(group_p, group_ioctx); TracepointProvider::initialize(get_cct(group_ioctx)); tracepoint(librbd, group_snap_create_enter, group_ioctx.get_pool_name().c_str(), group_ioctx.get_id(), group_name, snap_name); int r = librbd::api::Group<>::snap_create(group_ioctx, group_name, snap_name, flags); tracepoint(librbd, group_snap_create_exit, r); return r; } extern "C" int rbd_group_snap_remove(rados_ioctx_t group_p, const char *group_name, const char *snap_name) { librados::IoCtx group_ioctx; librados::IoCtx::from_rados_ioctx_t(group_p, group_ioctx); TracepointProvider::initialize(get_cct(group_ioctx)); tracepoint(librbd, group_snap_remove_enter, group_ioctx.get_pool_name().c_str(), group_ioctx.get_id(), group_name, snap_name); int r = librbd::api::Group<>::snap_remove(group_ioctx, group_name, snap_name); tracepoint(librbd, group_snap_remove_exit, r); return r; } extern "C" int rbd_group_snap_rename(rados_ioctx_t group_p, const char *group_name, const char *old_snap_name, const char *new_snap_name) { librados::IoCtx group_ioctx; librados::IoCtx::from_rados_ioctx_t(group_p, group_ioctx); TracepointProvider::initialize(get_cct(group_ioctx)); tracepoint(librbd, group_snap_rename_enter, group_ioctx.get_pool_name().c_str(), group_ioctx.get_id(), group_name, old_snap_name, new_snap_name); int r = librbd::api::Group<>::snap_rename(group_ioctx, group_name, old_snap_name, new_snap_name); tracepoint(librbd, group_snap_list_exit, r); return r; } extern "C" int rbd_group_snap_list(rados_ioctx_t group_p, const char *group_name, rbd_group_snap_info_t *snaps, size_t group_snap_info_size, size_t *snaps_size) { librados::IoCtx group_ioctx; librados::IoCtx::from_rados_ioctx_t(group_p, group_ioctx); TracepointProvider::initialize(get_cct(group_ioctx)); tracepoint(librbd, group_snap_list_enter, group_ioctx.get_pool_name().c_str(), group_ioctx.get_id(), group_name); // FIPS zeroization audit 20191117: this memset is not security related. memset(snaps, 0, sizeof(*snaps) * *snaps_size); if (group_snap_info_size != sizeof(rbd_group_snap_info_t)) { *snaps_size = 0; tracepoint(librbd, group_snap_list_exit, -ERANGE); return -ERANGE; } std::vector cpp_snaps; int r = librbd::api::Group<>::snap_list(group_ioctx, group_name, &cpp_snaps); if (r == -ENOENT) { *snaps_size = 0; tracepoint(librbd, group_snap_list_exit, 0); return 0; } if (r < 0) { tracepoint(librbd, group_snap_list_exit, r); return r; } if (*snaps_size < cpp_snaps.size()) { *snaps_size = cpp_snaps.size(); tracepoint(librbd, group_snap_list_exit, -ERANGE); return -ERANGE; } for (size_t i = 0; i < cpp_snaps.size(); ++i) { group_snap_info_cpp_to_c(cpp_snaps[i], &snaps[i]); } r = *snaps_size = cpp_snaps.size(); tracepoint(librbd, group_snap_list_exit, r); return r; } extern "C" int rbd_group_snap_list_cleanup(rbd_group_snap_info_t *snaps, size_t group_snap_info_size, size_t len) { if (group_snap_info_size != sizeof(rbd_group_snap_info_t)) { return -ERANGE; } for (size_t i = 0; i < len; ++i) { free(snaps[i].name); } return 0; } extern "C" int rbd_group_snap_rollback(rados_ioctx_t group_p, const char *group_name, const char *snap_name) { librados::IoCtx group_ioctx; librados::IoCtx::from_rados_ioctx_t(group_p, group_ioctx); TracepointProvider::initialize(get_cct(group_ioctx)); tracepoint(librbd, group_snap_rollback_enter, group_ioctx.get_pool_name().c_str(), group_ioctx.get_id(), group_name, snap_name); librbd::NoOpProgressContext prog_ctx; int r = librbd::api::Group<>::snap_rollback(group_ioctx, group_name, snap_name, prog_ctx); tracepoint(librbd, group_snap_rollback_exit, r); return r; } extern "C" int rbd_group_snap_rollback_with_progress(rados_ioctx_t group_p, const char *group_name, const char *snap_name, librbd_progress_fn_t cb, void *cbdata) { librados::IoCtx group_ioctx; librados::IoCtx::from_rados_ioctx_t(group_p, group_ioctx); TracepointProvider::initialize(get_cct(group_ioctx)); tracepoint(librbd, group_snap_rollback_enter, group_ioctx.get_pool_name().c_str(), group_ioctx.get_id(), group_name, snap_name); librbd::CProgressContext prog_ctx(cb, cbdata); int r = librbd::api::Group<>::snap_rollback(group_ioctx, group_name, snap_name, prog_ctx); tracepoint(librbd, group_snap_rollback_exit, r); return r; } extern "C" int rbd_snap_get_namespace_type(rbd_image_t image, uint64_t snap_id, rbd_snap_namespace_type_t *namespace_type) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, snap_get_namespace_type_enter, ictx, ictx->name.c_str()); int r = librbd::api::Snapshot<>::get_namespace_type(ictx, snap_id, namespace_type); tracepoint(librbd, snap_get_namespace_type_exit, r); return r; } extern "C" int rbd_snap_get_group_namespace(rbd_image_t image, uint64_t snap_id, rbd_snap_group_namespace_t *group_snap, size_t snap_group_namespace_size) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; tracepoint(librbd, snap_get_group_namespace_enter, ictx, ictx->name.c_str()); if (snap_group_namespace_size != sizeof(rbd_snap_group_namespace_t)) { tracepoint(librbd, snap_get_group_namespace_exit, -ERANGE); return -ERANGE; } librbd::snap_group_namespace_t group_namespace; int r = librbd::api::Snapshot<>::get_group_namespace(ictx, snap_id, &group_namespace); if (r >= 0) { group_snap->group_pool = group_namespace.group_pool; group_snap->group_name = strdup(group_namespace.group_name.c_str()); group_snap->group_snap_name = strdup(group_namespace.group_snap_name.c_str()); } tracepoint(librbd, snap_get_group_namespace_exit, r); return r; } extern "C" int rbd_snap_group_namespace_cleanup(rbd_snap_group_namespace_t *group_snap, size_t snap_group_namespace_size) { if (snap_group_namespace_size != sizeof(rbd_snap_group_namespace_t)) { return -ERANGE; } free(group_snap->group_name); free(group_snap->group_snap_name); return 0; } extern "C" int rbd_snap_get_trash_namespace(rbd_image_t image, uint64_t snap_id, char *original_name, size_t max_length) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; std::string cpp_original_name; int r = librbd::api::Snapshot<>::get_trash_namespace(ictx, snap_id, &cpp_original_name); if (r < 0) { return r; } if (cpp_original_name.length() >= max_length) { return -ERANGE; } strcpy(original_name, cpp_original_name.c_str()); return 0; } extern "C" int rbd_snap_get_mirror_namespace( rbd_image_t image, uint64_t snap_id, rbd_snap_mirror_namespace_t *mirror_snap, size_t mirror_snap_size) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; if (mirror_snap_size != sizeof(rbd_snap_mirror_namespace_t)) { return -ERANGE; } librbd::snap_mirror_namespace_t mirror_namespace; int r = librbd::api::Snapshot<>::get_mirror_namespace( ictx, snap_id, &mirror_namespace); if (r < 0) { return r; } mirror_snap->state = mirror_namespace.state; mirror_snap->primary_mirror_uuid = strdup(mirror_namespace.primary_mirror_uuid.c_str()); mirror_snap->primary_snap_id = mirror_namespace.primary_snap_id; mirror_snap->mirror_peer_uuids_count = mirror_namespace.mirror_peer_uuids.size(); size_t len = 0; for (auto &peer : mirror_namespace.mirror_peer_uuids) { len += peer.size() + 1; } mirror_snap->mirror_peer_uuids = (char *)malloc(len); char *p = mirror_snap->mirror_peer_uuids; for (auto &peer : mirror_namespace.mirror_peer_uuids) { strncpy(p, peer.c_str(), peer.size() + 1); p += peer.size() + 1; } mirror_snap->complete = mirror_namespace.complete; mirror_snap->last_copied_object_number = mirror_namespace.last_copied_object_number; return 0; } extern "C" int rbd_snap_mirror_namespace_cleanup( rbd_snap_mirror_namespace_t *mirror_snap, size_t mirror_snap_size) { if (mirror_snap_size != sizeof(rbd_snap_mirror_namespace_t)) { return -ERANGE; } free(mirror_snap->primary_mirror_uuid); free(mirror_snap->mirror_peer_uuids); return 0; } extern "C" int rbd_watchers_list(rbd_image_t image, rbd_image_watcher_t *watchers, size_t *max_watchers) { std::list watcher_list; librbd::ImageCtx *ictx = (librbd::ImageCtx*)image; tracepoint(librbd, list_watchers_enter, ictx, ictx->name.c_str(), ictx->snap_name.c_str(), ictx->read_only); // FIPS zeroization audit 20191117: this memset is not security related. memset(watchers, 0, sizeof(*watchers) * *max_watchers); int r = librbd::list_watchers(ictx, watcher_list); if (r < 0) { tracepoint(librbd, list_watchers_exit, r, 0); return r; } if (watcher_list.size() > *max_watchers) { *max_watchers = watcher_list.size(); tracepoint(librbd, list_watchers_exit, -ERANGE, watcher_list.size()); return -ERANGE; } *max_watchers = 0; for (auto &watcher : watcher_list) { tracepoint(librbd, list_watchers_entry, watcher.addr.c_str(), watcher.id, watcher.cookie); watchers[*max_watchers].addr = strdup(watcher.addr.c_str()); watchers[*max_watchers].id = watcher.id; watchers[*max_watchers].cookie = watcher.cookie; *max_watchers += 1; } tracepoint(librbd, list_watchers_exit, r, watcher_list.size()); return 0; } extern "C" void rbd_watchers_list_cleanup(rbd_image_watcher_t *watchers, size_t num_watchers) { for (size_t i = 0; i < num_watchers; ++i) { free(watchers[i].addr); } } extern "C" int rbd_config_image_list(rbd_image_t image, rbd_config_option_t *options, int *max_options) { librbd::ImageCtx *ictx = (librbd::ImageCtx*)image; std::vector option_vector; int r = librbd::api::Config<>::list(ictx, &option_vector); if (r < 0) { return r; } if (*max_options < static_cast(option_vector.size())) { *max_options = static_cast(option_vector.size()); return -ERANGE; } for (int i = 0; i < static_cast(option_vector.size()); ++i) { config_option_cpp_to_c(option_vector[i], &options[i]); } *max_options = static_cast(option_vector.size()); return 0; } extern "C" void rbd_config_image_list_cleanup(rbd_config_option_t *options, int max_options) { for (int i = 0; i < max_options; ++i) { config_option_cleanup(options[i]); } } extern "C" int rbd_quiesce_watch(rbd_image_t image, rbd_update_callback_t quiesce_cb, rbd_update_callback_t unquiesce_cb, void *arg, uint64_t *handle) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; auto wctx = new C_QuiesceWatchCB(quiesce_cb, unquiesce_cb, arg); int r = ictx->state->register_quiesce_watcher(wctx, &wctx->handle); if (r < 0) { delete wctx; return r; } *handle = reinterpret_cast(wctx); return 0; } extern "C" int rbd_quiesce_unwatch(rbd_image_t image, uint64_t handle) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; auto *wctx = reinterpret_cast(handle); int r = ictx->state->unregister_quiesce_watcher(wctx->handle); delete wctx; return r; } extern "C" void rbd_quiesce_complete(rbd_image_t image, uint64_t handle, int r) { librbd::ImageCtx *ictx = (librbd::ImageCtx *)image; ictx->state->quiesce_complete(handle, r); }