diff options
Diffstat (limited to 'wsrep-lib/src/wsrep_provider_v26.cpp')
-rw-r--r-- | wsrep-lib/src/wsrep_provider_v26.cpp | 1183 |
1 files changed, 1183 insertions, 0 deletions
diff --git a/wsrep-lib/src/wsrep_provider_v26.cpp b/wsrep-lib/src/wsrep_provider_v26.cpp new file mode 100644 index 00000000..eb8679c7 --- /dev/null +++ b/wsrep-lib/src/wsrep_provider_v26.cpp @@ -0,0 +1,1183 @@ +/* + * Copyright (C) 2018-2021 Codership Oy <info@codership.com> + * + * This file is part of wsrep-lib. + * + * Wsrep-lib is free software: you can redistribute it and/or modify + * it under the terms of the GNU General Public License as published by + * the Free Software Foundation, either version 2 of the License, or + * (at your option) any later version. + * + * Wsrep-lib is distributed in the hope that it will be useful, + * but WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + * GNU General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with wsrep-lib. If not, see <https://www.gnu.org/licenses/>. + */ + +#include "wsrep_provider_v26.hpp" + +#include "wsrep/encryption_service.hpp" +#include "wsrep/server_state.hpp" +#include "wsrep/high_priority_service.hpp" +#include "wsrep/view.hpp" +#include "wsrep/exception.hpp" +#include "wsrep/logger.hpp" +#include "wsrep/thread_service.hpp" +#include "wsrep/tls_service.hpp" +#include "wsrep/allowlist_service.hpp" + +#include "thread_service_v1.hpp" +#include "tls_service_v1.hpp" +#include "allowlist_service_v1.hpp" +#include "event_service_v1.hpp" +#include "v26/wsrep_api.h" + + +#include <dlfcn.h> +#include <cassert> +#include <climits> + +#include <iostream> +#include <sstream> +#include <cstring> // strerror() + +namespace +{ + ///////////////////////////////////////////////////////////////////// + // Helpers // + ///////////////////////////////////////////////////////////////////// + + enum wsrep::provider::status map_return_value(wsrep_status_t status) + { + switch (status) + { + case WSREP_OK: + return wsrep::provider::success; + case WSREP_WARNING: + return wsrep::provider::error_warning; + case WSREP_TRX_MISSING: + return wsrep::provider::error_transaction_missing; + case WSREP_TRX_FAIL: + return wsrep::provider::error_certification_failed; + case WSREP_BF_ABORT: + return wsrep::provider::error_bf_abort; + case WSREP_SIZE_EXCEEDED: + return wsrep::provider::error_size_exceeded; + case WSREP_CONN_FAIL: + return wsrep::provider::error_connection_failed; + case WSREP_NODE_FAIL: + return wsrep::provider::error_provider_failed; + case WSREP_FATAL: + return wsrep::provider::error_fatal; + case WSREP_NOT_IMPLEMENTED: + return wsrep::provider::error_not_implemented; + case WSREP_NOT_ALLOWED: + return wsrep::provider::error_not_allowed; + } + + wsrep::log_warning() << "Unexpected value for wsrep_status_t: " + << status << " (" + << (status < 0 ? strerror(-status) : "") << ')'; + + return wsrep::provider::error_unknown; + } + + wsrep_key_type_t map_key_type(enum wsrep::key::type type) + { + switch (type) + { + case wsrep::key::shared: return WSREP_KEY_SHARED; + case wsrep::key::reference: return WSREP_KEY_REFERENCE; + case wsrep::key::update: return WSREP_KEY_UPDATE; + case wsrep::key::exclusive: return WSREP_KEY_EXCLUSIVE; + } + assert(0); + throw wsrep::runtime_error("Invalid key type"); + } + + static inline wsrep_seqno_t seqno_to_native(wsrep::seqno seqno) + { + return seqno.get(); + } + + static inline wsrep::seqno seqno_from_native(wsrep_seqno_t seqno) + { + return wsrep::seqno(seqno); + } + + template <typename F, typename T> + inline uint32_t map_one(const int flags, const F from, + const T to) + { + // INT_MAX because GCC 4.4 does not eat numeric_limits<int>::max() + // in static_assert + static_assert(WSREP_FLAGS_LAST < INT_MAX, + "WSREP_FLAGS_LAST < INT_MAX"); + return static_cast<uint32_t>((flags & static_cast<int>(from)) ? + static_cast<int>(to) : 0); + } + + uint32_t map_flags_to_native(int flags) + { + using wsrep::provider; + return static_cast<uint32_t>( + map_one(flags, provider::flag::start_transaction, + WSREP_FLAG_TRX_START) | + map_one(flags, provider::flag::commit, WSREP_FLAG_TRX_END) | + map_one(flags, provider::flag::rollback, WSREP_FLAG_ROLLBACK) | + map_one(flags, provider::flag::isolation, WSREP_FLAG_ISOLATION) | + map_one(flags, provider::flag::pa_unsafe, WSREP_FLAG_PA_UNSAFE) | + // map_one(flags, provider::flag::commutative, WSREP_FLAG_COMMUTATIVE) + // | + // map_one(flags, provider::flag::native, WSREP_FLAG_NATIVE) | + map_one(flags, provider::flag::prepare, WSREP_FLAG_TRX_PREPARE) | + map_one(flags, provider::flag::snapshot, WSREP_FLAG_SNAPSHOT) | + map_one(flags, provider::flag::implicit_deps, + WSREP_FLAG_IMPLICIT_DEPS)); + } + + int map_flags_from_native(uint32_t flags_u32) + { + using wsrep::provider; + const int flags(static_cast<int>(flags_u32)); + return static_cast<int>( + map_one(flags, WSREP_FLAG_TRX_START, + provider::flag::start_transaction) | + map_one(flags, WSREP_FLAG_TRX_END, provider::flag::commit) | + map_one(flags, WSREP_FLAG_ROLLBACK, provider::flag::rollback) | + map_one(flags, WSREP_FLAG_ISOLATION, provider::flag::isolation) | + map_one(flags, WSREP_FLAG_PA_UNSAFE, provider::flag::pa_unsafe) | + // map_one(flags, provider::flag::commutative, WSREP_FLAG_COMMUTATIVE) + // | + // map_one(flags, provider::flag::native, WSREP_FLAG_NATIVE) | + map_one(flags, WSREP_FLAG_TRX_PREPARE, provider::flag::prepare) | + map_one(flags, WSREP_FLAG_SNAPSHOT, provider::flag::snapshot) | + map_one(flags, WSREP_FLAG_IMPLICIT_DEPS, + provider::flag::implicit_deps)); + } + + class mutable_ws_handle + { + public: + mutable_ws_handle(wsrep::ws_handle& ws_handle) + : ws_handle_(ws_handle) + , native_((wsrep_ws_handle_t) + { + ws_handle_.transaction_id().get(), + ws_handle_.opaque() + }) + { } + + ~mutable_ws_handle() + { + ws_handle_ = wsrep::ws_handle( + wsrep::transaction_id(native_.trx_id), native_.opaque); + } + + wsrep_ws_handle_t* native() + { + return &native_; + } + private: + wsrep::ws_handle& ws_handle_; + wsrep_ws_handle_t native_; + }; + + class const_ws_handle + { + public: + const_ws_handle(const wsrep::ws_handle& ws_handle) + : ws_handle_(ws_handle) + , native_((wsrep_ws_handle_t) + { + ws_handle_.transaction_id().get(), + ws_handle_.opaque() + }) + { } + + ~const_ws_handle() + { + assert(ws_handle_.transaction_id().get() == native_.trx_id); + assert(ws_handle_.opaque() == native_.opaque); + } + + const wsrep_ws_handle_t* native() const + { + return &native_; + } + private: + const wsrep::ws_handle& ws_handle_; + const wsrep_ws_handle_t native_; + }; + + class mutable_ws_meta + { + public: + mutable_ws_meta(wsrep::ws_meta& ws_meta, int flags) + : ws_meta_(ws_meta) + , trx_meta_() + , flags_(flags) + { + std::memcpy(trx_meta_.gtid.uuid.data, ws_meta.group_id().data(), + sizeof(trx_meta_.gtid.uuid.data)); + trx_meta_.gtid.seqno = seqno_to_native(ws_meta.seqno()); + std::memcpy(trx_meta_.stid.node.data, ws_meta.server_id().data(), + sizeof(trx_meta_.stid.node.data)); + trx_meta_.stid.conn = ws_meta.client_id().get(); + trx_meta_.stid.trx = ws_meta.transaction_id().get(); + trx_meta_.depends_on = seqno_to_native(ws_meta.depends_on()); + } + + ~mutable_ws_meta() + { + ws_meta_ = wsrep::ws_meta( + wsrep::gtid( + wsrep::id(trx_meta_.gtid.uuid.data, + sizeof(trx_meta_.gtid.uuid.data)), + seqno_from_native(trx_meta_.gtid.seqno)), + wsrep::stid(wsrep::id(trx_meta_.stid.node.data, + sizeof(trx_meta_.stid.node.data)), + wsrep::transaction_id(trx_meta_.stid.trx), + wsrep::client_id(trx_meta_.stid.conn)), + seqno_from_native(trx_meta_.depends_on), flags_); + } + + wsrep_trx_meta* native() { return &trx_meta_; } + uint32_t native_flags() const { return map_flags_to_native(flags_); } + private: + wsrep::ws_meta& ws_meta_; + wsrep_trx_meta_t trx_meta_; + int flags_; + }; + + class const_ws_meta + { + public: + const_ws_meta(const wsrep::ws_meta& ws_meta) + : trx_meta_() + { + std::memcpy(trx_meta_.gtid.uuid.data, ws_meta.group_id().data(), + sizeof(trx_meta_.gtid.uuid.data)); + trx_meta_.gtid.seqno = seqno_to_native(ws_meta.seqno()); + std::memcpy(trx_meta_.stid.node.data, ws_meta.server_id().data(), + sizeof(trx_meta_.stid.node.data)); + trx_meta_.stid.conn = ws_meta.client_id().get(); + trx_meta_.stid.trx = ws_meta.transaction_id().get(); + trx_meta_.depends_on = seqno_to_native(ws_meta.depends_on()); + } + + ~const_ws_meta() + { + } + + const wsrep_trx_meta* native() const { return &trx_meta_; } + private: + wsrep_trx_meta_t trx_meta_; + }; + + enum wsrep::view::status map_view_status_from_native( + wsrep_view_status_t status) + { + switch (status) + { + case WSREP_VIEW_PRIMARY: return wsrep::view::primary; + case WSREP_VIEW_NON_PRIMARY: return wsrep::view::non_primary; + case WSREP_VIEW_DISCONNECTED: return wsrep::view::disconnected; + default: throw wsrep::runtime_error("Unknown view status"); + } + } + + /** @todo Currently capabilities defined in provider.hpp + * are one to one with wsrep_api.h. However, the mapping should + * be made explicit. */ + int map_capabilities_from_native(wsrep_cap_t capabilities) + { + return static_cast<int>(capabilities); + } + wsrep::view view_from_native(const wsrep_view_info& view_info, + const wsrep::id& own_id) + { + std::vector<wsrep::view::member> members; + for (int i(0); i < view_info.memb_num; ++i) + { + wsrep::id id(view_info.members[i].id.data, sizeof(view_info.members[i].id.data)); + std::string name( + view_info.members[i].name, + strnlen(view_info.members[i].name, + sizeof(view_info.members[i].name))); + std::string incoming( + view_info.members[i].incoming, + strnlen(view_info.members[i].incoming, + sizeof(view_info.members[i].incoming))); + members.push_back(wsrep::view::member(id, name, incoming)); + } + + int own_idx(-1); + if (own_id.is_undefined()) + { + // If own ID is undefined, obtain it from the view. This is + // the case on the initial connect to cluster. + own_idx = view_info.my_idx; + } + else + { + // If the node has already obtained its ID from cluster, + // its position in the view (or lack thereof) must be determined + // by the ID. + for (size_t i(0); i < members.size(); ++i) + { + if (own_id == members[i].id()) + { + own_idx = static_cast<int>(i); + break; + } + } + } + + return wsrep::view( + wsrep::gtid( + wsrep::id(view_info.state_id.uuid.data, + sizeof(view_info.state_id.uuid.data)), + wsrep::seqno(view_info.state_id.seqno)), + wsrep::seqno(view_info.view), + map_view_status_from_native(view_info.status), + map_capabilities_from_native(view_info.capabilities), + own_idx, + view_info.proto_ver, + members); + } + + ///////////////////////////////////////////////////////////////////// + // Callbacks // + ///////////////////////////////////////////////////////////////////// + + wsrep_cb_status_t connected_cb( + void* app_ctx, + const wsrep_view_info_t* view_info) + { + assert(app_ctx); + wsrep::server_state& server_state( + *reinterpret_cast<wsrep::server_state*>(app_ctx)); + wsrep::view view(view_from_native(*view_info, server_state.id())); + const ssize_t own_index(view.own_index()); + assert(own_index >= 0); + if (own_index < 0) + { + wsrep::log_error() << "Connected without being in reported view"; + return WSREP_CB_FAILURE; + } + assert(// first connect + server_state.id().is_undefined() || + // reconnect to primary component + server_state.id() == + view.members()[static_cast<size_t>(own_index)].id()); + try + { + server_state.on_connect(view); + return WSREP_CB_SUCCESS; + } + catch (const wsrep::runtime_error& e) + { + wsrep::log_error() << "Exception: " << e.what(); + return WSREP_CB_FAILURE; + } + } + + wsrep_cb_status_t view_cb(void* app_ctx, + void* recv_ctx, + const wsrep_view_info_t* view_info, + const char*, + size_t) + { + assert(app_ctx); + assert(view_info); + wsrep::server_state& server_state( + *reinterpret_cast<wsrep::server_state*>(app_ctx)); + wsrep::high_priority_service* high_priority_service( + reinterpret_cast<wsrep::high_priority_service*>(recv_ctx)); + try + { + wsrep::view view(view_from_native(*view_info, server_state.id())); + server_state.on_view(view, high_priority_service); + return WSREP_CB_SUCCESS; + } + catch (const wsrep::runtime_error& e) + { + wsrep::log_error() << "Exception: " << e.what(); + return WSREP_CB_FAILURE; + } + } + + wsrep_cb_status_t sst_request_cb(void* app_ctx, + void **sst_req, size_t* sst_req_len) + { + assert(app_ctx); + wsrep::server_state& server_state( + *reinterpret_cast<wsrep::server_state*>(app_ctx)); + + try + { + std::string req(server_state.prepare_for_sst()); + if (req.size() > 0) + { + *sst_req = ::malloc(req.size() + 1); + memcpy(*sst_req, req.data(), req.size() + 1); + *sst_req_len = req.size() + 1; + } + else + { + *sst_req = 0; + *sst_req_len = 0; + } + return WSREP_CB_SUCCESS; + } + catch (const wsrep::runtime_error& e) + { + return WSREP_CB_FAILURE; + } + } + + int encrypt_cb(void* app_ctx, + wsrep_enc_ctx_t* enc_ctx, + const wsrep_buf_t* input, + void* output, + wsrep_enc_direction_t direction, + bool last) + { + assert(app_ctx); + wsrep::server_state& server_state( + *static_cast<wsrep::server_state*>(app_ctx)); + + assert(server_state.encryption_service()); + if (server_state.encryption_service() == 0) + { + wsrep::log_error() << "Encryption service not defined in encrypt_cb()"; + return -1; + } + + wsrep::const_buffer key(enc_ctx->key->ptr, enc_ctx->key->len); + wsrep::const_buffer in(input->ptr, input->len); + try + { + return server_state.encryption_service()->do_crypt(&enc_ctx->ctx, + key, + enc_ctx->iv, + in, + output, + direction == WSREP_ENC, + last); + } + catch (const wsrep::runtime_error& e) + { + free(enc_ctx->ctx); + // Return negative value in case of callback error + return -1; + } + } + + wsrep_cb_status_t apply_cb(void* ctx, + const wsrep_ws_handle_t* wsh, + uint32_t flags, + const wsrep_buf_t* buf, + const wsrep_trx_meta_t* meta, + wsrep_bool_t* exit_loop) + { + wsrep::high_priority_service* high_priority_service( + reinterpret_cast<wsrep::high_priority_service*>(ctx)); + assert(high_priority_service); + + wsrep::const_buffer data(buf->ptr, buf->len); + wsrep::ws_handle ws_handle(wsrep::transaction_id(wsh->trx_id), + wsh->opaque); + wsrep::ws_meta ws_meta( + wsrep::gtid(wsrep::id(meta->gtid.uuid.data, + sizeof(meta->gtid.uuid.data)), + wsrep::seqno(meta->gtid.seqno)), + wsrep::stid(wsrep::id(meta->stid.node.data, + sizeof(meta->stid.node.data)), + wsrep::transaction_id(meta->stid.trx), + wsrep::client_id(meta->stid.conn)), + wsrep::seqno(seqno_from_native(meta->depends_on)), + map_flags_from_native(flags)); + try + { + if (high_priority_service->apply(ws_handle, ws_meta, data)) + { + return WSREP_CB_FAILURE; + } + *exit_loop = high_priority_service->must_exit(); + return WSREP_CB_SUCCESS; + } + catch (const wsrep::runtime_error& e) + { + wsrep::log_error() << "Caught runtime error while applying " + << ws_meta.flags() << ": " + << e.what(); + return WSREP_CB_FAILURE; + } + } + + wsrep_cb_status_t synced_cb(void* app_ctx) + { + assert(app_ctx); + wsrep::server_state& server_state( + *reinterpret_cast<wsrep::server_state*>(app_ctx)); + try + { + server_state.on_sync(); + return WSREP_CB_SUCCESS; + } + catch (const wsrep::runtime_error& e) + { + std::cerr << "On sync failed: " << e.what() << "\n"; + return WSREP_CB_FAILURE; + } + } + + + wsrep_cb_status_t sst_donate_cb(void* app_ctx, + void* , + const wsrep_buf_t* req_buf, + const wsrep_gtid_t* req_gtid, + const wsrep_buf_t*, + bool bypass) + { + assert(app_ctx); + wsrep::server_state& server_state( + *reinterpret_cast<wsrep::server_state*>(app_ctx)); + try + { + std::string req(reinterpret_cast<const char*>(req_buf->ptr), + req_buf->len); + wsrep::gtid gtid(wsrep::id(req_gtid->uuid.data, + sizeof(req_gtid->uuid.data)), + wsrep::seqno(req_gtid->seqno)); + if (server_state.start_sst(req, gtid, bypass)) + { + return WSREP_CB_FAILURE; + } + return WSREP_CB_SUCCESS; + } + catch (const wsrep::runtime_error& e) + { + return WSREP_CB_FAILURE; + } + } + + void logger_cb(wsrep_log_level_t level, const char* msg) + { + static const char* const pfx("P:"); // "provider" + wsrep::log::level ll(wsrep::log::unknown); + switch (level) + { + case WSREP_LOG_FATAL: + case WSREP_LOG_ERROR: + ll = wsrep::log::error; + break; + case WSREP_LOG_WARN: + ll = wsrep::log::warning; + break; + case WSREP_LOG_INFO: + ll = wsrep::log::info; + break; + case WSREP_LOG_DEBUG: + ll = wsrep::log::debug; + break; + } + wsrep::log(ll, pfx) << msg; + } + + static int init_thread_service(void* dlh, + wsrep::thread_service* thread_service) + { + assert(thread_service); + if (wsrep::thread_service_v1_probe(dlh)) + { + // No support in library. + return 1; + } + else + { + if (thread_service->before_init()) + { + wsrep::log_error() << "Thread service before init failed"; + return 1; + } + wsrep::thread_service_v1_init(dlh, thread_service); + if (thread_service->after_init()) + { + wsrep::log_error() << "Thread service after init failed"; + return 1; + } + } + return 0; + } + + static void deinit_thread_service(void* dlh) + { + // assert(not wsrep::thread_service_v1_probe(dlh)); + wsrep::thread_service_v1_deinit(dlh); + } + + static int init_tls_service(void* dlh, + wsrep::tls_service* tls_service) + { + assert(tls_service); + if (not wsrep::tls_service_v1_probe(dlh)) + { + return wsrep::tls_service_v1_init(dlh, tls_service); + } + return 1; + } + + static void deinit_tls_service(void* dlh) + { + // assert(not wsrep::tls_service_v1_probe(dlh)); + wsrep::tls_service_v1_deinit(dlh); + } + + static int init_allowlist_service(void* dlh, + wsrep::allowlist_service* allowlist_service) + { + assert(allowlist_service); + if (not wsrep::allowlist_service_v1_probe(dlh)) + { + return wsrep::allowlist_service_v1_init(dlh, allowlist_service); + } + return 1; + } + + static void deinit_allowlist_service(void* dlh) + { + // assert(not wsrep::allowlist_service_v1_probe(dlh)); + wsrep::allowlist_service_v1_deinit(dlh); + } + + static int init_event_service(void* dlh, + wsrep::event_service* service) + { + assert(service); + if (not wsrep::event_service_v1_probe(dlh)) + { + return wsrep::event_service_v1_init(dlh, service); + } + return 1; + } + + static void deinit_event_service(void* dlh) + { + wsrep::event_service_v1_deinit(dlh); + } +} + + + +void wsrep::wsrep_provider_v26::init_services( + const wsrep::provider::services& services) +{ + if (services.thread_service) + { + if (init_thread_service(wsrep_->dlh, services.thread_service)) + { + throw wsrep::runtime_error("Failed to initialize thread service"); + } + services_enabled_.thread_service = services.thread_service; + } + if (services.tls_service) + { + if (init_tls_service(wsrep_->dlh, services.tls_service)) + { + throw wsrep::runtime_error("Failed to initialize TLS service"); + } + services_enabled_.tls_service = services.tls_service; + } + if (services.allowlist_service) + { + if (init_allowlist_service(wsrep_->dlh, services.allowlist_service)) + { + throw wsrep::runtime_error("Failed to initialize allowlist service"); + } + services_enabled_.allowlist_service = services.allowlist_service; + } + if (services.event_service) + { + if (init_event_service(wsrep_->dlh, services.event_service)) + { + wsrep::log_warning() << "Failed to initialize event service"; + // provider does not produce events, ignore + } + else + { + services_enabled_.event_service = services.event_service; + } + } +} + +void wsrep::wsrep_provider_v26::deinit_services() +{ + if (services_enabled_.event_service) + deinit_event_service(wsrep_->dlh); + if (services_enabled_.tls_service) + deinit_tls_service(wsrep_->dlh); + if (services_enabled_.thread_service) + deinit_thread_service(wsrep_->dlh); + if (services_enabled_.allowlist_service) + deinit_allowlist_service(wsrep_->dlh); +} + +wsrep::wsrep_provider_v26::wsrep_provider_v26( + wsrep::server_state& server_state, + const std::string& provider_options, + const std::string& provider_spec, + const wsrep::provider::services& services) + : provider(server_state) + , wsrep_() + , services_enabled_() +{ + wsrep_gtid_t state_id; + bool encryption_enabled = server_state.encryption_service() && + server_state.encryption_service()->encryption_enabled(); + std::memcpy(state_id.uuid.data, + server_state.initial_position().id().data(), + sizeof(state_id.uuid.data)); + state_id.seqno = server_state.initial_position().seqno().get(); + struct wsrep_init_args init_args; + memset(&init_args, 0, sizeof(init_args)); + init_args.app_ctx = &server_state; + init_args.node_name = server_state_.name().c_str(); + init_args.node_address = server_state_.address().c_str(); + init_args.node_incoming = server_state_.incoming_address().c_str(); + init_args.data_dir = server_state_.working_dir().c_str(); + init_args.options = provider_options.c_str(); + init_args.proto_ver = server_state.max_protocol_version(); + init_args.state_id = &state_id; + init_args.state = 0; + init_args.logger_cb = &logger_cb; + init_args.connected_cb = &connected_cb; + init_args.view_cb = &view_cb; + init_args.sst_request_cb = &sst_request_cb; + init_args.encrypt_cb = encryption_enabled ? encrypt_cb : NULL; + init_args.apply_cb = &apply_cb; + init_args.unordered_cb = 0; + init_args.sst_donate_cb = &sst_donate_cb; + init_args.synced_cb = &synced_cb; + + if (wsrep_load(provider_spec.c_str(), &wsrep_, logger_cb)) + { + throw wsrep::runtime_error("Failed to load wsrep library"); + } + + init_services(services); + + if (wsrep_->init(wsrep_, &init_args) != WSREP_OK) + { + throw wsrep::runtime_error("Failed to initialize wsrep provider"); + } + + if (encryption_enabled) + { + const std::vector<unsigned char>& key = server_state.get_encryption_key(); + if (key.size()) + { + wsrep::const_buffer const_key(key.data(), key.size()); + enum status const retval(enc_set_key(const_key)); + if (retval != success) + { + std::string msg("Failed to set encryption key: "); + msg += to_string(retval); + throw wsrep::runtime_error(msg); + } + } + } +} + +wsrep::wsrep_provider_v26::~wsrep_provider_v26() +{ + wsrep_->free(wsrep_); + deinit_services(); + wsrep_unload(wsrep_); +} + +enum wsrep::provider::status wsrep::wsrep_provider_v26::connect( + const std::string& cluster_name, + const std::string& cluster_url, + const std::string& state_donor, + bool bootstrap) +{ + return map_return_value(wsrep_->connect(wsrep_, + cluster_name.c_str(), + cluster_url.c_str(), + state_donor.c_str(), + bootstrap)); +} + +int wsrep::wsrep_provider_v26::disconnect() +{ + int ret(0); + wsrep_status_t wret; + if ((wret = wsrep_->disconnect(wsrep_)) != WSREP_OK) + { + std::cerr << "Failed to disconnect from cluster: " + << wret << "\n"; + ret = 1; + } + return ret; +} + +int wsrep::wsrep_provider_v26::capabilities() const +{ + return map_capabilities_from_native(wsrep_->capabilities(wsrep_)); +} +int wsrep::wsrep_provider_v26::desync() +{ + return (wsrep_->desync(wsrep_) != WSREP_OK); +} + +int wsrep::wsrep_provider_v26::resync() +{ + return (wsrep_->resync(wsrep_) != WSREP_OK); +} + +wsrep::seqno wsrep::wsrep_provider_v26::pause() +{ + return wsrep::seqno(wsrep_->pause(wsrep_)); +} + +int wsrep::wsrep_provider_v26::resume() +{ + return (wsrep_->resume(wsrep_) != WSREP_OK); +} + +enum wsrep::provider::status +wsrep::wsrep_provider_v26::run_applier( + wsrep::high_priority_service *applier_ctx) +{ + return map_return_value(wsrep_->recv(wsrep_, applier_ctx)); +} + +enum wsrep::provider::status +wsrep::wsrep_provider_v26::assign_read_view(wsrep::ws_handle& ws_handle, + const wsrep::gtid* gtid) +{ + const wsrep_gtid_t* gtid_ptr(NULL); + wsrep_gtid_t tmp; + + if (gtid) + { + ::memcpy(&tmp.uuid, gtid->id().data(), sizeof(tmp.uuid)); + tmp.seqno = gtid->seqno().get(); + gtid_ptr = &tmp; + } + + mutable_ws_handle mwsh(ws_handle); + return map_return_value(wsrep_->assign_read_view(wsrep_, mwsh.native(), + gtid_ptr)); +} + +int wsrep::wsrep_provider_v26::append_key(wsrep::ws_handle& ws_handle, + const wsrep::key& key) +{ + if (key.size() > 3) + { + assert(0); + return 1; + } + wsrep_buf_t key_parts[3]; + for (size_t i(0); i < key.size(); ++i) + { + key_parts[i].ptr = key.key_parts()[i].ptr(); + key_parts[i].len = key.key_parts()[i].size(); + } + wsrep_key_t wsrep_key = {key_parts, key.size()}; + mutable_ws_handle mwsh(ws_handle); + return (wsrep_->append_key( + wsrep_, mwsh.native(), + &wsrep_key, 1, map_key_type(key.type()), true) + != WSREP_OK); +} + +enum wsrep::provider::status +wsrep::wsrep_provider_v26::append_data(wsrep::ws_handle& ws_handle, + const wsrep::const_buffer& data) +{ + const wsrep_buf_t wsrep_buf = {data.data(), data.size()}; + mutable_ws_handle mwsh(ws_handle); + return map_return_value( + wsrep_->append_data(wsrep_, mwsh.native(), &wsrep_buf, + 1, WSREP_DATA_ORDERED, true)); +} + +enum wsrep::provider::status +wsrep::wsrep_provider_v26::certify(wsrep::client_id client_id, + wsrep::ws_handle& ws_handle, + int flags, + wsrep::ws_meta& ws_meta) +{ + mutable_ws_handle mwsh(ws_handle); + mutable_ws_meta mmeta(ws_meta, flags); + return map_return_value( + wsrep_->certify(wsrep_, client_id.get(), mwsh.native(), + mmeta.native_flags(), + mmeta.native())); +} + +enum wsrep::provider::status +wsrep::wsrep_provider_v26::bf_abort( + wsrep::seqno bf_seqno, + wsrep::transaction_id victim_id, + wsrep::seqno& victim_seqno) +{ + wsrep_seqno_t wsrep_victim_seqno; + wsrep_status_t ret( + wsrep_->abort_certification( + wsrep_, seqno_to_native(bf_seqno), + victim_id.get(), &wsrep_victim_seqno)); + victim_seqno = seqno_from_native(wsrep_victim_seqno); + return map_return_value(ret); +} + +enum wsrep::provider::status +wsrep::wsrep_provider_v26::rollback(wsrep::transaction_id id) +{ + return map_return_value(wsrep_->rollback(wsrep_, id.get(), 0)); +} + +enum wsrep::provider::status +wsrep::wsrep_provider_v26::commit_order_enter( + const wsrep::ws_handle& ws_handle, + const wsrep::ws_meta& ws_meta) +{ + const_ws_handle cwsh(ws_handle); + const_ws_meta cwsm(ws_meta); + return map_return_value( + wsrep_->commit_order_enter(wsrep_, cwsh.native(), cwsm.native())); +} + +int +wsrep::wsrep_provider_v26::commit_order_leave( + const wsrep::ws_handle& ws_handle, + const wsrep::ws_meta& ws_meta, + const wsrep::mutable_buffer& err) +{ + const_ws_handle cwsh(ws_handle); + const_ws_meta cwsm(ws_meta); + wsrep_buf_t const err_buf = { err.data(), err.size() }; + int ret(wsrep_->commit_order_leave( + wsrep_, cwsh.native(), cwsm.native(), &err_buf) != WSREP_OK); + return ret; +} + +int wsrep::wsrep_provider_v26::release(wsrep::ws_handle& ws_handle) +{ + mutable_ws_handle mwsh(ws_handle); + return (wsrep_->release(wsrep_, mwsh.native()) != WSREP_OK); +} + +enum wsrep::provider::status +wsrep::wsrep_provider_v26::replay(const wsrep::ws_handle& ws_handle, + wsrep::high_priority_service* reply_service) +{ + const_ws_handle mwsh(ws_handle); + return map_return_value( + wsrep_->replay_trx(wsrep_, mwsh.native(), reply_service)); +} + +enum wsrep::provider::status +wsrep::wsrep_provider_v26::enter_toi( + wsrep::client_id client_id, + const wsrep::key_array& keys, + const wsrep::const_buffer& buffer, + wsrep::ws_meta& ws_meta, + int flags) +{ + mutable_ws_meta mmeta(ws_meta, flags); + std::vector<std::vector<wsrep_buf_t> > key_parts; + std::vector<wsrep_key_t> wsrep_keys; + wsrep_buf_t wsrep_buf = {buffer.data(), buffer.size()}; + for (size_t i(0); i < keys.size(); ++i) + { + key_parts.push_back(std::vector<wsrep_buf_t>()); + for (size_t kp(0); kp < keys[i].size(); ++kp) + { + wsrep_buf_t buf = {keys[i].key_parts()[kp].data(), + keys[i].key_parts()[kp].size()}; + key_parts[i].push_back(buf); + } + } + for (size_t i(0); i < key_parts.size(); ++i) + { + wsrep_key_t key = {key_parts[i].data(), key_parts[i].size()}; + wsrep_keys.push_back(key); + } + return map_return_value(wsrep_->to_execute_start( + wsrep_, + client_id.get(), + wsrep_keys.data(), + wsrep_keys.size(), + &wsrep_buf, + buffer.size() ? 1 : 0, + mmeta.native_flags(), + mmeta.native())); +} + +enum wsrep::provider::status +wsrep::wsrep_provider_v26::leave_toi(wsrep::client_id client_id, + const wsrep::mutable_buffer& err) +{ + const wsrep_buf_t err_buf = { err.data(), err.size() }; + return map_return_value(wsrep_->to_execute_end( + wsrep_, client_id.get(), &err_buf)); +} + +std::pair<wsrep::gtid, enum wsrep::provider::status> +wsrep::wsrep_provider_v26::causal_read(int timeout) const +{ + wsrep_gtid_t wsrep_gtid; + wsrep_status_t ret(wsrep_->sync_wait(wsrep_, 0, timeout, &wsrep_gtid)); + wsrep::gtid gtid(ret == WSREP_OK ? + wsrep::gtid(wsrep::id(wsrep_gtid.uuid.data, + sizeof(wsrep_gtid.uuid.data)), + wsrep::seqno(wsrep_gtid.seqno)) : + wsrep::gtid::undefined()); + return std::make_pair(gtid, map_return_value(ret)); +} + +enum wsrep::provider::status +wsrep::wsrep_provider_v26::wait_for_gtid(const wsrep::gtid& gtid, int timeout) + const +{ + wsrep_gtid_t wsrep_gtid; + std::memcpy(wsrep_gtid.uuid.data, gtid.id().data(), + sizeof(wsrep_gtid.uuid.data)); + wsrep_gtid.seqno = gtid.seqno().get(); + return map_return_value(wsrep_->sync_wait(wsrep_, &wsrep_gtid, timeout, 0)); +} + +wsrep::gtid wsrep::wsrep_provider_v26::last_committed_gtid() const +{ + wsrep_gtid_t wsrep_gtid; + if (wsrep_->last_committed_id(wsrep_, &wsrep_gtid) != WSREP_OK) + { + throw wsrep::runtime_error("Failed to read last committed id"); + } + return wsrep::gtid( + wsrep::id(wsrep_gtid.uuid.data, sizeof(wsrep_gtid.uuid.data)), + wsrep::seqno(wsrep_gtid.seqno)); +} + +enum wsrep::provider::status +wsrep::wsrep_provider_v26::sst_sent(const wsrep::gtid& gtid, int err) +{ + wsrep_gtid_t wsrep_gtid; + std::memcpy(wsrep_gtid.uuid.data, gtid.id().data(), + sizeof(wsrep_gtid.uuid.data)); + wsrep_gtid.seqno = gtid.seqno().get(); + return map_return_value(wsrep_->sst_sent(wsrep_, &wsrep_gtid, err)); +} + +enum wsrep::provider::status +wsrep::wsrep_provider_v26::sst_received(const wsrep::gtid& gtid, int err) +{ + wsrep_gtid_t wsrep_gtid; + std::memcpy(wsrep_gtid.uuid.data, gtid.id().data(), + sizeof(wsrep_gtid.uuid.data)); + wsrep_gtid.seqno = gtid.seqno().get(); + return map_return_value(wsrep_->sst_received(wsrep_, &wsrep_gtid, 0, err)); +} + +enum wsrep::provider::status +wsrep::wsrep_provider_v26::enc_set_key(const wsrep::const_buffer& key) +{ + wsrep_enc_key_t enc_key = {key.data(), key.size()}; + return map_return_value(wsrep_->enc_set_key(wsrep_, &enc_key)); +} + +std::vector<wsrep::provider::status_variable> +wsrep::wsrep_provider_v26::status() const +{ + std::vector<status_variable> ret; + wsrep_stats_var* const stats(wsrep_->stats_get(wsrep_)); + wsrep_stats_var* i(stats); + if (i) + { + while (i->name) + { + switch (i->type) + { + case WSREP_VAR_STRING: + ret.push_back(status_variable(i->name, i->value._string)); + break; + case WSREP_VAR_INT64: + { + std::ostringstream os; + os << i->value._int64; + ret.push_back(status_variable(i->name, os.str())); + break; + } + case WSREP_VAR_DOUBLE: + { + std::ostringstream os; + os << i->value._double; + ret.push_back(status_variable(i->name, os.str())); + break; + } + default: + assert(0); + break; + } + ++i; + } + wsrep_->stats_free(wsrep_, stats); + } + return ret; +} + +void wsrep::wsrep_provider_v26::reset_status() +{ + wsrep_->stats_reset(wsrep_); +} + +std::string wsrep::wsrep_provider_v26::options() const +{ + std::string ret; + char* opts; + if ((opts = wsrep_->options_get(wsrep_))) + { + ret = opts; + free(opts); + } + else + { + throw wsrep::runtime_error("Failed to get provider options"); + } + return ret; +} + +enum wsrep::provider::status +wsrep::wsrep_provider_v26::options(const std::string& opts) +{ + return map_return_value(wsrep_->options_set(wsrep_, opts.c_str())); +} + +std::string wsrep::wsrep_provider_v26::name() const +{ + return (wsrep_->provider_name ? wsrep_->provider_name : "unknown"); +} + +std::string wsrep::wsrep_provider_v26::version() const +{ + return (wsrep_->provider_version ? wsrep_->provider_version : "unknown"); +} + +std::string wsrep::wsrep_provider_v26::vendor() const +{ + return (wsrep_->provider_vendor ? wsrep_->provider_vendor : "unknown"); +} + +void* wsrep::wsrep_provider_v26::native() const +{ + return wsrep_; +} |