void replica::init_prepare(mutation_ptr& mu) { dassert (PS_PRIMARY == status(), ""); error_code err = ERR_OK; uint8_t count = 0; if (static_cast<int>(_primary_states.membership.secondaries.size()) + 1 < _options.mutation_2pc_min_replica_count) { err = ERR_NOT_ENOUGH_MEMBER; goto ErrOut; } mu->data.header.last_committed_decree = last_committed_decree(); if (mu->data.header.decree == invalid_decree) { mu->set_id(get_ballot(), _prepare_list->max_decree() + 1); } else { mu->set_id(get_ballot(), mu->data.header.decree); } ddebug("%s: mutation %s init_prepare", name(), mu->name()); // check bounded staleness if (mu->data.header.decree > last_committed_decree() + _options.staleness_for_commit) { err = ERR_CAPACITY_EXCEEDED; goto ErrOut; } dassert (mu->data.header.decree > last_committed_decree(), ""); // local prepare err = _prepare_list->prepare(mu, PS_PRIMARY); if (err != ERR_OK) { goto ErrOut; } // remote prepare mu->set_prepare_ts(); mu->set_left_secondary_ack_count((unsigned int)_primary_states.membership.secondaries.size()); for (auto it = _primary_states.membership.secondaries.begin(); it != _primary_states.membership.secondaries.end(); it++) { send_prepare_message(*it, PS_SECONDARY, mu, _options.prepare_timeout_ms_for_secondaries); } count = 0; for (auto it = _primary_states.learners.begin(); it != _primary_states.learners.end(); it++) { if (it->second.prepare_start_decree != invalid_decree && mu->data.header.decree >= it->second.prepare_start_decree) { send_prepare_message(it->first, PS_POTENTIAL_SECONDARY, mu, _options.prepare_timeout_ms_for_potential_secondaries); count++; } } mu->set_left_potential_secondary_ack_count(count); // it is possible to do commit here when logging is not required for acking prepare. // however, it is only possible when replica count == 1 at this moment in the // replication group, and we don't want to do this as it is too fragile now. // do_possible_commit_on_primary(mu); // local log dassert (mu->data.header.log_offset == invalid_offset, ""); dassert (mu->log_task() == nullptr, ""); mu->log_task() = _stub->_log->append(mu, LPC_WRITE_REPLICATION_LOG, this, std::bind(&replica::on_append_log_completed, this, mu, std::placeholders::_1, std::placeholders::_2), gpid_to_hash(get_gpid()) ); dassert(nullptr != mu->log_task(), ""); return; ErrOut: response_client_message(mu->client_msg(), err); return; }
void replica::init_prepare(mutation_ptr& mu) { dassert (PS_PRIMARY == status(), ""); error_code err = ERR_OK; uint8_t count = 0; mu->data.header.last_committed_decree = last_committed_decree(); if (mu->data.header.decree == invalid_decree) { mu->set_id(get_ballot(), _prepare_list->max_decree() + 1); } else { mu->set_id(get_ballot(), mu->data.header.decree); } dinfo("%s: mutation %s init_prepare, mutation_tid=%" PRIu64, name(), mu->name(), mu->tid()); // check bounded staleness if (mu->data.header.decree > last_committed_decree() + _options->staleness_for_commit) { err = ERR_CAPACITY_EXCEEDED; goto ErrOut; } dassert (mu->data.header.decree > last_committed_decree(), ""); // local prepare err = _prepare_list->prepare(mu, PS_PRIMARY); if (err != ERR_OK) { goto ErrOut; } // remote prepare mu->set_prepare_ts(); mu->set_left_secondary_ack_count((unsigned int)_primary_states.membership.secondaries.size()); for (auto it = _primary_states.membership.secondaries.begin(); it != _primary_states.membership.secondaries.end(); ++it) { send_prepare_message(*it, PS_SECONDARY, mu, _options->prepare_timeout_ms_for_secondaries); } count = 0; for (auto it = _primary_states.learners.begin(); it != _primary_states.learners.end(); ++it) { if (it->second.prepare_start_decree != invalid_decree && mu->data.header.decree >= it->second.prepare_start_decree) { send_prepare_message(it->first, PS_POTENTIAL_SECONDARY, mu, _options->prepare_timeout_ms_for_potential_secondaries, it->second.signature); count++; } } mu->set_left_potential_secondary_ack_count(count); if (mu->is_logged()) { do_possible_commit_on_primary(mu); } else { dassert(mu->data.header.log_offset == invalid_offset, ""); dassert(mu->log_task() == nullptr, ""); mu->log_task() = _stub->_log->append(mu, LPC_WRITE_REPLICATION_LOG, this, std::bind(&replica::on_append_log_completed, this, mu, std::placeholders::_1, std::placeholders::_2), gpid_to_hash(get_gpid()) ); dassert(nullptr != mu->log_task(), ""); } return; ErrOut: for (auto& r : mu->client_requests) { response_client_message(r, err); } return; }
void replica::init_prepare(mutation_ptr& mu) { dassert (PS_PRIMARY == status(), ""); error_code err = ERR_SUCCESS; uint8_t count = 0; if (static_cast<int>(_primary_states.membership.secondaries.size()) + 1 < _options.mutation_2pc_min_replica_count) { err = ERR_NOT_ENOUGH_MEMBER; goto ErrOut; } mu->data.header.last_committed_decree = last_committed_decree(); if (mu->data.header.decree == invalid_decree) { mu->set_id(get_ballot(), _prepare_list->max_decree() + 1); } else { mu->set_id(get_ballot(), mu->data.header.decree); } if (mu->data.header.decree > _prepare_list->max_decree() && _prepare_list->count() >= _options.staleness_for_commit) { err = ERR_CAPACITY_EXCEEDED; goto ErrOut; } dassert (mu->data.header.decree > last_committed_decree(), ""); // local prepare without log err = _prepare_list->prepare(mu, PS_PRIMARY); if (err != ERR_SUCCESS) { goto ErrOut; } ddebug("%s: mutation %s init_prepare", name(), mu->name()); // // TODO: bounded staleness on secondaries // dassert (mu->data.header.decree <= last_committed_decree() + _options.staleness_for_commit, ""); // remote prepare dassert (mu->remote_tasks().size() == 0, ""); mu->set_left_secondary_ack_count((unsigned int)_primary_states.membership.secondaries.size()); for (auto it = _primary_states.membership.secondaries.begin(); it != _primary_states.membership.secondaries.end(); it++) { send_prepare_message(*it, PS_SECONDARY, mu, _options.prepare_timeout_ms_for_secondaries); } count = 0; for (auto it = _primary_states.learners.begin(); it != _primary_states.learners.end(); it++) { if (it->second.prepare_start_decree != invalid_decree && mu->data.header.decree >= it->second.prepare_start_decree) { send_prepare_message(it->first, PS_POTENTIAL_SECONDARY, mu, _options.prepare_timeout_ms_for_potential_secondaries); count++; } } mu->set_left_potential_secondary_ack_count(count); // local log dassert (mu->data.header.log_offset == invalid_offset, ""); dassert (mu->log_task() == nullptr, ""); mu->log_task() = _stub->_log->append(mu, LPC_WRITE_REPLICATION_LOG, this, std::bind(&replica::on_append_log_completed, this, mu, std::placeholders::_1, std::placeholders::_2), gpid_to_hash(get_gpid()) ); if (nullptr == mu->log_task()) { err = ERR_FILE_OPERATION_FAILED; handle_local_failure(err); goto ErrOut; } return; ErrOut: response_client_message(mu->client_request, err); return; }