return (complete_total == total);
}
-
-void memcached_io_close(org::libmemcached::Instance* ptr)
+void org::libmemcached::Instance::start_close_socket()
{
- if (ptr->fd == INVALID_SOCKET)
+ if (fd != INVALID_SOCKET)
{
- return;
+ shutdown(fd, SHUT_WR);
+ options.is_shutting_down= true;
}
+}
- /* in case of death shutdown to avoid blocking at close() */
- if (shutdown(ptr->fd, SHUT_RDWR) == SOCKET_ERROR and get_socket_errno() != ENOTCONN)
+void org::libmemcached::Instance::close_socket()
+{
+ if (fd != INVALID_SOCKET)
{
- WATCHPOINT_NUMBER(ptr->fd);
- WATCHPOINT_ERRNO(get_socket_errno());
- WATCHPOINT_ASSERT(get_socket_errno());
- }
+ /* in case of death shutdown to avoid blocking at close() */
+ if (shutdown(fd, SHUT_RDWR) == SOCKET_ERROR and get_socket_errno() != ENOTCONN)
+ {
+ WATCHPOINT_NUMBER(fd);
+ WATCHPOINT_ERRNO(get_socket_errno());
+ WATCHPOINT_ASSERT(get_socket_errno());
+ }
- if (closesocket(ptr->fd) == SOCKET_ERROR)
- {
- WATCHPOINT_ERRNO(get_socket_errno());
+ if (closesocket(fd) == SOCKET_ERROR)
+ {
+ WATCHPOINT_ERRNO(get_socket_errno());
+ }
+ state= MEMCACHED_SERVER_STATE_NEW;
+ fd= INVALID_SOCKET;
}
- ptr->state= MEMCACHED_SERVER_STATE_NEW;
- ptr->fd= INVALID_SOCKET;
}
org::libmemcached::Instance* memcached_io_get_readable_server(memcached_st *memc, memcached_return_t&)
will force data to be completed.
*/
-void memcached_quit_server(org::libmemcached::Instance* ptr, bool io_death)
+void memcached_quit_server(org::libmemcached::Instance* instance, bool io_death)
{
- if (ptr->fd != INVALID_SOCKET)
+ if (instance->valid())
{
- if (io_death == false and memcached_is_udp(ptr->root) == false and ptr->options.is_shutting_down == false)
+ if (io_death == false and memcached_is_udp(instance->root) == false and instance->is_shutting_down() == false)
{
- ptr->options.is_shutting_down= true;
-
memcached_return_t rc;
- if (ptr->root->flags.binary_protocol)
+ if (instance->root->flags.binary_protocol)
{
protocol_binary_request_quit request= {}; // = {.bytes= {0}};
- initialize_binary_request(ptr, request.message.header);
+ initialize_binary_request(instance, request.message.header);
request.message.header.request.opcode = PROTOCOL_BINARY_CMD_QUIT;
request.message.header.request.datatype = PROTOCOL_BINARY_RAW_BYTES;
{ request.bytes, sizeof(request.bytes) }
};
- rc= memcached_vdo(ptr, vector, 1, true);
+ rc= memcached_vdo(instance, vector, 1, true);
}
else
{
{ memcached_literal_param("quit\r\n") }
};
- rc= memcached_vdo(ptr, vector, 1, true);
+ rc= memcached_vdo(instance, vector, 1, true);
}
+ instance->start_close_socket();
+
/* read until socket is closed, or there is an error
* closing the socket before all data is read
* results in server throwing away all data which is
* In .40 we began to only do this if we had been doing buffered
* requests of had replication enabled.
*/
- if (memcached_success(rc) and (ptr->root->flags.buffer_requests or ptr->root->number_of_replicas))
+ if (memcached_success(rc) and (instance->root->flags.buffer_requests or instance->root->number_of_replicas))
{
if (0)
{
memcached_return_t rc_slurp;
- while (memcached_continue(rc_slurp= memcached_io_slurp(ptr))) {} ;
+ while (memcached_continue(rc_slurp= memcached_io_slurp(instance))) {} ;
WATCHPOINT_ASSERT(rc_slurp == MEMCACHED_CONNECTION_FAILURE);
}
else
{
- memcached_io_slurp(ptr);
+ memcached_io_slurp(instance);
}
}
* server to ensure that the server processed all of the data we
* sent to the server.
*/
- ptr->server_failure_counter= 0;
+ instance->server_failure_counter= 0;
}
- memcached_io_close(ptr);
+
}
- ptr->state= MEMCACHED_SERVER_STATE_NEW;
- ptr->cursor_active_= 0;
- ptr->io_bytes_sent= 0;
- ptr->write_buffer_offset= size_t(ptr->root and memcached_is_udp(ptr->root) ? UDP_DATAGRAM_HEADER_LENGTH : 0);
- ptr->read_buffer_length= 0;
- ptr->read_ptr= ptr->read_buffer;
- ptr->options.is_shutting_down= false;
- memcached_server_response_reset(ptr);
+ instance->close_socket();
+
+ instance->state= MEMCACHED_SERVER_STATE_NEW;
+ instance->cursor_active_= 0;
+ instance->io_bytes_sent= 0;
+ instance->write_buffer_offset= size_t(instance->root and memcached_is_udp(instance->root) ? UDP_DATAGRAM_HEADER_LENGTH : 0);
+ instance->read_buffer_length= 0;
+ instance->read_ptr= instance->read_buffer;
+ instance->options.is_shutting_down= false;
+ memcached_server_response_reset(instance);
// We reset the version so that if we end up talking to a different server
// we don't have stale server version information.
- ptr->major_version= ptr->minor_version= ptr->micro_version= UINT8_MAX;
+ instance->major_version= instance->minor_version= instance->micro_version= UINT8_MAX;
if (io_death)
{
- memcached_mark_server_for_timeout(ptr);
+ memcached_mark_server_for_timeout(instance);
}
}
-void send_quit(memcached_st *ptr)
+void send_quit(memcached_st *memc)
{
- for (uint32_t x= 0; x < memcached_server_count(ptr); x++)
+ for (uint32_t x= 0; x < memcached_server_count(memc); x++)
{
- org::libmemcached::Instance* instance= memcached_instance_fetch(ptr, x);
+ org::libmemcached::Instance* instance= memcached_instance_fetch(memc, x);
memcached_quit_server(instance, false);
}
}
-void memcached_quit(memcached_st *ptr)
+void memcached_quit(memcached_st *memc)
{
memcached_return_t rc;
- if (memcached_failed(rc= initialize_query(ptr, true)))
+ if (memcached_failed(rc= initialize_query(memc, true)))
{
return;
}
- send_quit(ptr);
+ send_quit(memc);
}
projects / m6w6 / libmemcached / commitdiff
