Esempio n. 1
0
        void copy_remote_files_impl(
            ::dsn::rpc_address remote,
            const std::string& source_dir,
            const std::vector<std::string>& files,  // empty for all
            const std::string& dest_dir,
            bool overwrite,
            dsn_task_t native_task
            )
        {
            if (files.empty())
            {
                dsn_file_copy_remote_directory(remote.c_addr(), source_dir.c_str(), dest_dir.c_str(),
                    overwrite, native_task);
            }
            else
            {
                const char** ptr = (const char**)alloca(sizeof(const char*) * (files.size() + 1));
                const char** ptr_base = ptr;
                for (auto& f : files)
                {
                    *ptr++ = f.c_str();
                }
                *ptr = nullptr;

                dsn_file_copy_remote_files(
                    remote.c_addr(), source_dir.c_str(), ptr_base,
                    dest_dir.c_str(), overwrite, native_task
                    );
            }
        }
Esempio n. 2
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void replica::send_prepare_message(::dsn::rpc_address addr, partition_status status, mutation_ptr& mu, int timeout_milliseconds)
{
    dsn_message_t msg = dsn_msg_create_request(RPC_PREPARE, timeout_milliseconds, gpid_to_hash(get_gpid()));
    replica_configuration rconfig;
    _primary_states.get_replica_config(status, rconfig);

    {
        rpc_write_stream writer(msg);
        marshall(writer, get_gpid());
        marshall(writer, rconfig);
        mu->write_to(writer);
    }

    mu->remote_tasks()[addr] = rpc::call(addr, msg,
                                         this,
                                         std::bind(&replica::on_prepare_reply,
                                                 this,
                                                 std::make_pair(mu, rconfig.status),
                                                 std::placeholders::_1,
                                                 std::placeholders::_2,
                                                 std::placeholders::_3),
                                         gpid_to_hash(get_gpid())
                                        );

    ddebug(
        "%s: mutation %s send_prepare_message to %s as %s",
        name(), mu->name(),
        addr.to_string(),
        enum_to_string(rconfig.status)
    );
}
//ERR_OBJECT_NOT_FOUND  not in cache.
//ERR_IO_PENDING        in cache but invalid, remove from cache.
//ERR_OK                in cache and valid
error_code replication_app_client_base::get_address(int pidx, bool is_write, /*out*/ dsn::rpc_address& addr, read_semantic_t semantic)
{
    partition_configuration config;
    {
        zauto_read_lock l(_config_lock);
        auto it = _config_cache.find(pidx);
        if(it != _config_cache.end())
        {
            config = it->second;
            addr = get_address(is_write, semantic, config);
            if (addr.is_invalid())
            {
                return ERR_IO_PENDING;
            }
            else
            {
                return ERR_OK;
            }
        }
        else
        {
            return ERR_OBJECT_NOT_FOUND;
        }
    }
}
Esempio n. 4
0
void replica::send_prepare_message(
    ::dsn::rpc_address addr, 
    partition_status status, 
    mutation_ptr& mu, 
    int timeout_milliseconds,
    int64_t learn_signature)
{
    dsn_message_t msg = dsn_msg_create_request(RPC_PREPARE, timeout_milliseconds, gpid_to_hash(get_gpid()));
    replica_configuration rconfig;
    _primary_states.get_replica_config(status, rconfig, learn_signature);

    {
        rpc_write_stream writer(msg);
        marshall(writer, get_gpid());
        marshall(writer, rconfig);
        mu->write_to(writer);
    }
    
    mu->remote_tasks()[addr] = rpc::call(addr, msg,
        this,
        [=](error_code err, dsn_message_t request, dsn_message_t reply)
        {
            on_prepare_reply(std::make_pair(mu, rconfig.status), err, request, reply);
        },
        gpid_to_hash(get_gpid())
        );

    ddebug( 
        "%s: mutation %s send_prepare_message to %s as %s",  
        name(), mu->name(),
        addr.to_string(),
        enum_to_string(rconfig.status)
        );
}
Esempio n. 5
0
 virtual void send_beacon(::dsn::rpc_address node, uint64_t time) override
 {
     if (_send_ping_switch)
         failure_detector::send_beacon(node, time);
     else {
         dinfo("ignore send beacon, to node[%s], time[%" PRId64 "]", node.to_string(), time);
     }
 }
void replication_app_client_base::call_with_address(dsn::rpc_address addr, request_context_ptr request)
{
    auto& msg = request->request;

    dbg_dassert(!addr.is_invalid(), "");
    dbg_dassert(_app_id > 0, "");

    if (request->header_pos != 0)
    {
        if (request->is_read)
        {
            request->read_header.gpid.app_id = _app_id;
            request->read_header.gpid.pidx = request->partition_index;
            blob buffer(request->header_pos, 0, sizeof(request->read_header));
            binary_writer writer(buffer);
            marshall(writer, request->read_header);

            dsn_msg_options_t opts;
            opts.timeout_ms = request->timeout_ms;
            opts.thread_hash = gpid_to_hash(request->read_header.gpid);
            opts.vnid = *(uint64_t*)(&request->read_header.gpid);
            dsn_msg_set_options(request->request, &opts, DSN_MSGM_HASH | DSN_MSGM_TIMEOUT); // TODO: not supported yet DSN_MSGM_VNID);
        }
        else
        {
            request->write_header.gpid.app_id = _app_id;
            request->write_header.gpid.pidx = request->partition_index;
            blob buffer(request->header_pos, 0, sizeof(request->write_header));
            binary_writer writer(buffer);
            marshall(writer, request->write_header);

            dsn_msg_options_t opts;
            opts.timeout_ms = request->timeout_ms;
            opts.thread_hash = gpid_to_hash(request->write_header.gpid);
            opts.vnid = *(uint64_t*)(&request->write_header.gpid);
            
            dsn_msg_set_options(request->request, &opts, DSN_MSGM_HASH | DSN_MSGM_TIMEOUT); // TODO: not supported yet DSN_MSGM_VNID | DSN_MSGM_CONTEXT);
        }
        request->header_pos = 0;
    }

    {
        zauto_lock l(request->lock);
        rpc::call(
            addr,
            msg,
            this,
            std::bind(
            &replication_app_client_base::replica_rw_reply,
            this,
            std::placeholders::_1,
            std::placeholders::_2,
            std::placeholders::_3,
            request
            )
        );
    }
}
Esempio n. 7
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bool failure_detector::unregister_master(::dsn::rpc_address node)
{
    zauto_lock l(_lock);
    auto it = _masters.find(node);

    if (it != _masters.end())
    {
        it->second.send_beacon_timer->cancel(true);
        _masters.erase(it);
        dinfo("unregister master[%s] successfully", node.to_string());
        return true;
    }
    else
    {
        ddebug("unregister master[%s] failed, cannot find it in FD", node.to_string());
        return false;
    }
}
Esempio n. 8
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void failure_detector::register_worker( ::dsn::rpc_address target, bool is_connected)
{
    uint64_t now = now_ms();

    /*
     * callers should use the fd::_lock necessarily
     */
    worker_record record(target, now);
    record.is_alive = is_connected ? true : false;

    auto ret = _workers.insert(std::make_pair(target, record));
    if ( ret.second )
    {
        dinfo("register worker[%s] successfully", target.to_string());
    }
    else
    {
        dinfo("worker[%s] already registered", target.to_string());
    }
}
void replication_failure_detector::on_master_connected(::dsn::rpc_address node)
{
    bool is_primary = false;

    {
    zauto_lock l(_meta_lock);
    is_primary = dsn_group_is_leader(_meta_servers.group_handle(), node.c_addr());
    }

    if (is_primary)
    {
        _stub->on_meta_server_connected();
    }
}
Esempio n. 10
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void failure_detector::register_master(::dsn::rpc_address target)
{
    bool setup_timer = false;
    uint64_t now = now_ms();

    zauto_lock l(_lock);

    master_record record(target, now);

    auto ret = _masters.insert(std::make_pair(target, record));
    if (ret.second)
    {
        dinfo("register master[%s] successfully", target.to_string());
        setup_timer = true;
    }
    else
    {
        // active the beacon again in case previously local node is not in target's allow list
        if (ret.first->second.rejected)
        {
            ret.first->second.rejected = false;
            setup_timer = true;            
        }
        dinfo("master[%s] already registered", target.to_string());
    }

    if (setup_timer)
    {
        ret.first->second.send_beacon_timer = tasking::enqueue_timer(LPC_BEACON_SEND, this,
            [this, target]() 
            {
                this->send_beacon(target, now_ms());
            },
            std::chrono::milliseconds(_beacon_interval_milliseconds)
            );
    }
}
::dsn::rpc_address replication_failure_detector::find_next_meta_server(::dsn::rpc_address current)
{
    if (current.is_invalid())
        return _meta_servers[random32(0, 100) % _meta_servers.size()];
    else
    {
        auto it = std::find(_meta_servers.begin(), _meta_servers.end(), current);
        dassert (it != _meta_servers.end(), "");
        it++;
        if (it != _meta_servers.end())
            return *it;
        else
            return _meta_servers.at(0);
    }
}
Esempio n. 12
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void replica::upgrade_to_secondary_on_primary(::dsn::rpc_address node)
{
    ddebug(
            "%s: upgrade potential secondary %s to secondary",
            name(),
            node.to_string()
            );

    partition_configuration newConfig = _primary_states.membership;

    // add secondary
    newConfig.secondaries.push_back(node);

    update_configuration_on_meta_server(CT_UPGRADE_TO_SECONDARY, node, newConfig);
}
Esempio n. 13
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void server_state::remove_meta_node(const ::dsn::rpc_address& node)
{
    zauto_write_lock l(_meta_lock);
    
    int i = -1;
    for (auto it = _meta_servers.begin(); it != _meta_servers.end(); it++)
    {
        i++;
        if (*it == node)
        {
            _meta_servers.erase(it);
            if (_meta_servers.size() == 0)
                _leader_index = -1;

            else if (i == _leader_index)
            {
                _leader_index = dsn_random32(0, (uint32_t)_meta_servers.size() - 1);
            }
            return;
        }
    }

    dassert (false, "cannot find node '%s:%hu' in server state", node.name(), node.port());
}
Esempio n. 14
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void meta_server_failure_detector::on_worker_connected(::dsn::rpc_address node)
{
    if (!is_primary())
    {
        return;
    }

    node_states states;
    states.push_back(std::make_pair(node, true));

    dwarn("Client reconnected",
        "Client %s", node.to_string());

    _state->set_node_state(states, nullptr);
}
Esempio n. 15
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void replica::handle_remote_failure(partition_status st, ::dsn::rpc_address node, error_code error)
{    
    derror(
        "%s: handle remote failure error %s, status = %s, node = %s",
        name(),
        error.to_string(),
        enum_to_string(st),
        node.to_string()
        );
    error.end_tracking();

    dassert (status() == PS_PRIMARY, "");
    dassert (node != _stub->_primary_address, "");

    switch (st)
    {
    case PS_SECONDARY:
        dassert (_primary_states.check_exist(node, PS_SECONDARY), "");
        {
            configuration_update_request request;
            request.node = node;
            request.type = CT_DOWNGRADE_TO_INACTIVE;
            request.config = _primary_states.membership;
            downgrade_to_inactive_on_primary(request);
        }
        break;
    case PS_POTENTIAL_SECONDARY:
        // potential secondary failure does not lead to ballot change
        // therefore, it is possible to have multiple exec here
        _primary_states.learners.erase(node);
        _primary_states.statuses.erase(node);
        break;
    case PS_INACTIVE:
    case PS_ERROR:
        break;
    default:
        dassert (false, "");
        break;
    }
}
Esempio n. 16
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bool failure_detector::unregister_worker(::dsn::rpc_address node)
{
    /*
     * callers should use the fd::_lock necessarily
     */
    bool ret;

    size_t count = _workers.erase(node);

    if ( count == 0 )
    {
        ret = false;
    }
    else
    {
        ret = true;
    }

    dinfo("unregister worker[%s] successfully, removed entry count is %u",
          node.to_string(), (uint32_t)count);

    return ret;
}
Esempio n. 17
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bool failure_detector::switch_master(::dsn::rpc_address from, ::dsn::rpc_address to, uint32_t delay_milliseconds)
{
    /* the caller of switch master shoud lock necessarily to protect _masters */
    auto it = _masters.find(from);
    auto it2 = _masters.find(to);
    if (it != _masters.end())
    {
        if (it2 != _masters.end())
        {
            dwarn("switch master failed as both are already registered, from[%s], to[%s]",
                  from.to_string(), to.to_string());
            return false;
        }

        it->second.node = to;
        it->second.rejected = false;
        it->second.send_beacon_timer->cancel(true);
        it->second.send_beacon_timer = tasking::enqueue_timer(LPC_BEACON_SEND, this,
            [this, to]()
            {
                this->send_beacon(to, now_ms());
            },
            std::chrono::milliseconds(_beacon_interval_milliseconds),
            0,
            std::chrono::milliseconds(delay_milliseconds)
            );

        _masters.insert(std::make_pair(to, it->second));
        _masters.erase(from);

        dinfo("switch master successfully, from[%s], to[%s]",
              from.to_string(), to.to_string());
    }
    else
    {
        dwarn("switch master failed as from node is not registered yet, from[%s], to[%s]",
              from.to_string(), to.to_string());
        return false;
    }
    return true;
}
Esempio n. 18
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File: rpc.cpp Progetto: am11/rDSN
static void destroy_group(::dsn::rpc_address group) {
    dsn_group_destroy(group.group_handle());
}
Esempio n. 19
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void failure_detector::report(::dsn::rpc_address node, bool is_master, bool is_connected)
{
    ddebug("%s[%s] %sconnected", is_master ? "master":"worker", node.to_string(), is_connected ? "" : "dis");
}
 void send_message(const dsn::rpc_address &target, dsn::message_ex *request)
 {
     ddebug("send request to %s", target.to_string());
     request->add_ref();
     request->release_ref();
 }