}
send_length= snprintf(buffer, MEMCACHED_DEFAULT_COMMAND_SIZE,
"delete %.*s%.*s %u%s\r\n",
- memcached_print_array(ptr->prefix_key),
+ memcached_print_array(ptr->_namespace),
(int) key_length, key,
(uint32_t)expiration,
no_reply ? " noreply" :"" );
{
send_length= snprintf(buffer, MEMCACHED_DEFAULT_COMMAND_SIZE,
"delete %.*s%.*s%s\r\n",
- memcached_print_array(ptr->prefix_key),
+ memcached_print_array(ptr->_namespace),
(int)key_length, key, no_reply ? " noreply" :"");
}
if (send_length >= MEMCACHED_DEFAULT_COMMAND_SIZE || send_length < 0)
{
- rc= MEMCACHED_WRITE_FAILURE;
+ rc= memcached_set_error(*ptr, MEMCACHED_MEMORY_ALLOCATION_FAILURE, MEMCACHED_AT,
+ memcached_literal_param("snprintf(MEMCACHED_DEFAULT_COMMAND_SIZE)"));
goto error;
}
return MEMCACHED_WRITE_FAILURE;
if (send_length + instance->write_buffer_offset > MAX_UDP_DATAGRAM_LENGTH)
+ {
memcached_io_write(instance, NULL, 0, true);
+ }
}
rc= memcached_do(instance, buffer, (size_t)send_length, to_write);
{
request.message.header.request.opcode= PROTOCOL_BINARY_CMD_DELETE;
}
- request.message.header.request.keylen= htons((uint16_t)(key_length + memcached_array_size(ptr->prefix_key)));
+ request.message.header.request.keylen= htons((uint16_t)(key_length + memcached_array_size(ptr->_namespace)));
request.message.header.request.datatype= PROTOCOL_BINARY_RAW_BYTES;
- request.message.header.request.bodylen= htonl((uint32_t)(key_length + memcached_array_size(ptr->prefix_key)));
+ request.message.header.request.bodylen= htonl((uint32_t)(key_length + memcached_array_size(ptr->_namespace)));
if (ptr->flags.use_udp && ! flush)
{
struct libmemcached_io_vector_st vector[]=
{
{ sizeof(request.bytes), request.bytes},
- { memcached_array_size(ptr->prefix_key), memcached_array_string(ptr->prefix_key) },
+ { memcached_array_size(ptr->_namespace), memcached_array_string(ptr->_namespace) },
{ key_length, key },
};