/* LibMemcached
* Copyright (C) 2006-2009 Brian Aker
* All rights reserved.
*
* Use and distribution licensed under the BSD license. See
* the COPYING file in the parent directory for full text.
*
* Summary: String structure used for libmemcached.
*
*/
/*
This is a partial implementation for fetching/creating memcached_server_st objects.
*/
#include "common.h"
static inline void _server_init(memcached_server_st *self, const memcached_st *root,
const char *hostname, in_port_t port,
uint32_t weight, memcached_connection_t type)
{
self->options.sockaddr_inited= false;
self->options.is_shutting_down= false;
self->number_of_hosts= 0;
self->cursor_active= 0;
self->port= port;
self->cached_errno= 0;
self->fd= -1;
self->io_bytes_sent= 0;
self->server_failure_counter= 0;
self->weight= weight;
self->state.is_corked= false;
self->state.is_dead= false;
WATCHPOINT_SET(self->io_wait_count.read= 0);
WATCHPOINT_SET(self->io_wait_count.write= 0);
self->major_version= 0;
self->micro_version= 0;
self->minor_version= 0;
self->type= type;
self->read_ptr= self->read_buffer;
self->cached_server_error= NULL;
self->read_buffer_length= 0;
self->read_data_length= 0;
self->write_buffer_offset= 0;
self->address_info= NULL;
if (root)
{
self->next_retry= root->retry_timeout;
}
else
{
self->next_retry= 0;
}
self->root= root;
self->limit_maxbytes= 0;
if (hostname == NULL)
self->hostname[0]= 0;
else
strncpy(self->hostname, hostname, NI_MAXHOST - 1);
}
static memcached_server_st *_server_create(memcached_server_st *self, const memcached_st *memc)
{
if (self == NULL)
{
self= (memcached_server_st *)libmemcached_malloc(memc, sizeof(memcached_server_st));
if (! self)
return NULL; /* MEMCACHED_MEMORY_ALLOCATION_FAILURE */
self->options.is_allocated= true;
}
else
{
self->options.is_allocated= false;
}
self->options.is_initialized= true;
return self;
}
memcached_server_st *memcached_server_create_with(const memcached_st *memc,
memcached_server_write_instance_st self,
const char *hostname, in_port_t port,
uint32_t weight, memcached_connection_t type)
{
self= _server_create(self, memc);
if (self == NULL)
return NULL;
_server_init(self, memc, hostname, port, weight, type);
if (type == MEMCACHED_CONNECTION_UDP)
{
self->write_buffer_offset= UDP_DATAGRAM_HEADER_LENGTH;
memcached_io_init_udp_header(self, 0);
}
return self;
}
void memcached_server_free(memcached_server_st *self)
{
memcached_quit_server(self, false);
if (self->cached_server_error)
free(self->cached_server_error);
if (self->address_info)
freeaddrinfo(self->address_info);
if (memcached_is_allocated(self))
{
libmemcached_free(self->root, self);
}
else
{
self->options.is_initialized= false;
}
}
/*
If we do not have a valid object to clone from, we toss an error.
*/
memcached_server_st *memcached_server_clone(memcached_server_st *destination,
const memcached_server_st *source)
{
/* We just do a normal create if source is missing */
if (source == NULL)
return NULL;
destination= memcached_server_create_with(source->root, destination,
source->hostname, source->port, source->weight,
source->type);
if (destination != NULL)
{
destination->cached_errno= source->cached_errno;
if (source->cached_server_error)
destination->cached_server_error= strdup(source->cached_server_error);
}
return destination;
}
memcached_return_t memcached_server_cursor(const memcached_st *ptr,
const memcached_server_fn *callback,
void *context,
uint32_t number_of_callbacks)
{
for (uint32_t x= 0; x < memcached_server_count(ptr); x++)
{
memcached_server_instance_st instance=
memcached_server_instance_by_position(ptr, x);
for (uint32_t y= 0; y < number_of_callbacks; y++)
{
unsigned int iferror;
iferror= (*callback[y])(ptr, instance, context);
if (iferror)
continue;
}
}
return MEMCACHED_SUCCESS;
}
memcached_return_t memcached_server_execute(memcached_st *ptr,
memcached_server_execute_fn callback,
void *context)
{
for (uint32_t x= 0; x < memcached_server_count(ptr); x++)
{
memcached_server_write_instance_st instance=
memcached_server_instance_fetch(ptr, x);
unsigned int iferror;
iferror= (*callback)(ptr, instance, context);
if (iferror)
continue;
}
return MEMCACHED_SUCCESS;
}
memcached_server_instance_st memcached_server_by_key(const memcached_st *ptr,
const char *key,
size_t key_length,
memcached_return_t *error)
{
uint32_t server_key;
memcached_server_instance_st instance;
*error= memcached_validate_key_length(key_length,
ptr->flags.binary_protocol);
unlikely (*error != MEMCACHED_SUCCESS)
return NULL;
unlikely (memcached_server_count(ptr) == 0)
{
*error= MEMCACHED_NO_SERVERS;
return NULL;
}
if (ptr->flags.verify_key && (memcached_key_test((const char **)&key, &key_length, 1) == MEMCACHED_BAD_KEY_PROVIDED))
{
*error= MEMCACHED_BAD_KEY_PROVIDED;
return NULL;
}
server_key= memcached_generate_hash(ptr, key, key_length);
instance= memcached_server_instance_by_position(ptr, server_key);
return instance;
}
void memcached_server_error_reset(memcached_server_st *ptr)
{
ptr->cached_server_error[0]= 0;
}
memcached_server_instance_st memcached_server_get_last_disconnect(const memcached_st *ptr)
{
return ptr->last_disconnected_server;
}
void memcached_server_list_free(memcached_server_list_st self)
{
if (self == NULL)
return;
const memcached_st *root= self->root;
for (uint32_t x= 0; x < memcached_server_list_count(self); x++)
{
if (self[x].address_info)
{
freeaddrinfo(self[x].address_info);
self[x].address_info= NULL;
}
}
if (root)
{
libmemcached_free(root, self);
}
else
{
free(self);
}
}
uint32_t memcached_servers_set_count(memcached_server_st *servers, uint32_t count)
{
return servers->number_of_hosts= count;
}
uint32_t memcached_server_count(const memcached_st *self)
{
return self->number_of_hosts;
}
const char *memcached_server_name(memcached_server_instance_st self)
{
return self->hostname;
}
in_port_t memcached_server_port(memcached_server_instance_st self)
{
return self->port;
}
uint32_t memcached_server_response_count(memcached_server_instance_st self)
{
return self->cursor_active;
}
const char *memcached_server_error(memcached_server_instance_st ptr)
{
return ptr
? ptr->cached_server_error
: NULL;
}