From: Brian Aker Date: Thu, 28 Apr 2011 00:30:03 +0000 (-0700) Subject: Merge in code for C++ compiling of libmemcached. X-Git-Tag: 0.51~12 X-Git-Url: https://git.m6w6.name/?a=commitdiff_plain;h=67456d74f5bd4f354a360d70da503dc58cbe5971;p=awesomized%2Flibmemcached Merge in code for C++ compiling of libmemcached. --- 67456d74f5bd4f354a360d70da503dc58cbe5971 diff --cc libmemcached/hosts.cc index 00000000,14b45589..d38b12e9 mode 000000,100644..100644 --- a/libmemcached/hosts.cc +++ b/libmemcached/hosts.cc @@@ -1,0 -1,450 +1,467 @@@ + /* LibMemcached + * Copyright (C) 2006-2010 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: + * + */ + + #include "common.h" + #include + + /* Protoypes (static) */ + static memcached_return_t server_add(memcached_st *ptr, const char *hostname, + in_port_t port, + uint32_t weight, + memcached_connection_t type); + + static memcached_return_t update_continuum(memcached_st *ptr); + + static int compare_servers(const void *p1, const void *p2) + { + int return_value; + memcached_server_instance_st a= (memcached_server_instance_st)p1; + memcached_server_instance_st b= (memcached_server_instance_st)p2; + + return_value= strcmp(a->hostname, b->hostname); + + if (return_value == 0) + { + return_value= (int) (a->port - b->port); + } + + return return_value; + } + + static void sort_hosts(memcached_st *ptr) + { + if (memcached_server_count(ptr)) + { + memcached_server_write_instance_st instance; + + qsort(memcached_server_list(ptr), memcached_server_count(ptr), sizeof(memcached_server_st), compare_servers); + instance= memcached_server_instance_fetch(ptr, 0); + instance->number_of_hosts= memcached_server_count(ptr); + } + } + + + memcached_return_t run_distribution(memcached_st *ptr) + { + if (ptr->flags.use_sort_hosts) + sort_hosts(ptr); + + switch (ptr->distribution) + { + case MEMCACHED_DISTRIBUTION_CONSISTENT: + case MEMCACHED_DISTRIBUTION_CONSISTENT_KETAMA: + case MEMCACHED_DISTRIBUTION_CONSISTENT_KETAMA_SPY: + case MEMCACHED_DISTRIBUTION_CONSISTENT_WEIGHTED: + return update_continuum(ptr); + case MEMCACHED_DISTRIBUTION_VIRTUAL_BUCKET: + case MEMCACHED_DISTRIBUTION_MODULA: + break; + case MEMCACHED_DISTRIBUTION_RANDOM: + srandom((uint32_t) time(NULL)); + break; + case MEMCACHED_DISTRIBUTION_CONSISTENT_MAX: + default: + WATCHPOINT_ASSERT(0); /* We have added a distribution without extending the logic */ + } + + return MEMCACHED_SUCCESS; + } + + static uint32_t ketama_server_hash(const char *key, size_t key_length, uint32_t alignment) + { + unsigned char results[16]; + + libhashkit_md5_signature((unsigned char*)key, key_length, results); + + return ((uint32_t) (results[3 + alignment * 4] & 0xFF) << 24) + | ((uint32_t) (results[2 + alignment * 4] & 0xFF) << 16) + | ((uint32_t) (results[1 + alignment * 4] & 0xFF) << 8) + | (results[0 + alignment * 4] & 0xFF); + } + + static int continuum_item_cmp(const void *t1, const void *t2) + { + memcached_continuum_item_st *ct1= (memcached_continuum_item_st *)t1; + memcached_continuum_item_st *ct2= (memcached_continuum_item_st *)t2; + + /* Why 153? Hmmm... */ + WATCHPOINT_ASSERT(ct1->value != 153); + if (ct1->value == ct2->value) + return 0; + else if (ct1->value > ct2->value) + return 1; + else + return -1; + } + + static memcached_return_t update_continuum(memcached_st *ptr) + { + uint32_t continuum_index= 0; + memcached_server_st *list; + uint32_t pointer_counter= 0; + uint32_t pointer_per_server= MEMCACHED_POINTS_PER_SERVER; + uint32_t pointer_per_hash= 1; + uint32_t live_servers= 0; + struct timeval now; + + if (gettimeofday(&now, NULL) != 0) + { + memcached_set_errno(ptr, errno, NULL); + return MEMCACHED_ERRNO; + } + + list= memcached_server_list(ptr); + + /* count live servers (those without a retry delay set) */ + bool is_auto_ejecting= _is_auto_eject_host(ptr); + if (is_auto_ejecting) + { + live_servers= 0; + ptr->ketama.next_distribution_rebuild= 0; + for (uint32_t host_index= 0; host_index < memcached_server_count(ptr); ++host_index) + { + if (list[host_index].next_retry <= now.tv_sec) + live_servers++; + else + { + if (ptr->ketama.next_distribution_rebuild == 0 || list[host_index].next_retry < ptr->ketama.next_distribution_rebuild) + ptr->ketama.next_distribution_rebuild= list[host_index].next_retry; + } + } + } + else + { + live_servers= memcached_server_count(ptr); + } + + uint64_t is_ketama_weighted= memcached_behavior_get(ptr, MEMCACHED_BEHAVIOR_KETAMA_WEIGHTED); + uint32_t points_per_server= (uint32_t) (is_ketama_weighted ? MEMCACHED_POINTS_PER_SERVER_KETAMA : MEMCACHED_POINTS_PER_SERVER); + + if (live_servers == 0) + return MEMCACHED_SUCCESS; + + if (live_servers > ptr->ketama.continuum_count) + { + memcached_continuum_item_st *new_ptr; + + new_ptr= static_cast(libmemcached_realloc(ptr, ptr->ketama.continuum, + sizeof(memcached_continuum_item_st) * (live_servers + MEMCACHED_CONTINUUM_ADDITION) * points_per_server)); + + if (new_ptr == 0) + return MEMCACHED_MEMORY_ALLOCATION_FAILURE; + + ptr->ketama.continuum= new_ptr; + ptr->ketama.continuum_count= live_servers + MEMCACHED_CONTINUUM_ADDITION; + } + + uint64_t total_weight= 0; + if (is_ketama_weighted) + { + for (uint32_t host_index = 0; host_index < memcached_server_count(ptr); ++host_index) + { + if (! is_auto_ejecting || list[host_index].next_retry <= now.tv_sec) + { + total_weight += list[host_index].weight; + } + } + } + + for (uint32_t host_index= 0; host_index < memcached_server_count(ptr); ++host_index) + { + if (is_auto_ejecting && list[host_index].next_retry > now.tv_sec) + continue; + + if (is_ketama_weighted) + { + float pct = (float)list[host_index].weight / (float)total_weight; + pointer_per_server= (uint32_t) ((floorf((float) (pct * MEMCACHED_POINTS_PER_SERVER_KETAMA / 4 * (float)live_servers + 0.0000000001))) * 4); + pointer_per_hash= 4; + #ifdef DEBUG + printf("ketama_weighted:%s|%d|%llu|%u\n", + list[host_index].hostname, + list[host_index].port, + (unsigned long long)list[host_index].weight, + pointer_per_server); + #endif + } + + + if (ptr->distribution == MEMCACHED_DISTRIBUTION_CONSISTENT_KETAMA_SPY) + { + for (uint32_t pointer_index= 0; + pointer_index < pointer_per_server / pointer_per_hash; + pointer_index++) + { + char sort_host[MEMCACHED_MAX_HOST_SORT_LENGTH]= ""; + int sort_host_length; + + // Spymemcached ketema key format is: hostname/ip:port-index + // If hostname is not available then: /ip:port-index + sort_host_length= snprintf(sort_host, MEMCACHED_MAX_HOST_SORT_LENGTH, + "/%s:%u-%u", + list[host_index].hostname, + (uint32_t)list[host_index].port, + pointer_index); + + if (sort_host_length >= MEMCACHED_MAX_HOST_SORT_LENGTH || sort_host_length < 0) + { + return MEMCACHED_FAILURE; + } + #ifdef DEBUG + printf("update_continuum: key is %s\n", sort_host); + #endif + + WATCHPOINT_ASSERT(sort_host_length); + + if (is_ketama_weighted) + { + for (uint32_t x= 0; x < pointer_per_hash; x++) + { + uint32_t value= ketama_server_hash(sort_host, (size_t)sort_host_length, x); - ptr->ketama.continuum[continuum_index].index= host_index; - ptr->ketama.continuum[continuum_index++].value= value; ++ ptr->ketama.continuum[continuum_index].index= host_index; ++ ptr->ketama.continuum[continuum_index++].value= value; + } + } + else + { + uint32_t value= hashkit_digest(&ptr->distribution_hashkit, sort_host, (size_t)sort_host_length); + ptr->ketama.continuum[continuum_index].index= host_index; + ptr->ketama.continuum[continuum_index++].value= value; + } + } + } + else + { + for (uint32_t pointer_index= 1; + pointer_index <= pointer_per_server / pointer_per_hash; + pointer_index++) + { + char sort_host[MEMCACHED_MAX_HOST_SORT_LENGTH]= ""; + int sort_host_length; + + if (list[host_index].port == MEMCACHED_DEFAULT_PORT) + { + sort_host_length= snprintf(sort_host, MEMCACHED_MAX_HOST_SORT_LENGTH, + "%s-%u", + list[host_index].hostname, + pointer_index - 1); + } + else + { + sort_host_length= snprintf(sort_host, MEMCACHED_MAX_HOST_SORT_LENGTH, + "%s:%u-%u", + list[host_index].hostname, + (uint32_t)list[host_index].port, + pointer_index - 1); + } + + if (sort_host_length >= MEMCACHED_MAX_HOST_SORT_LENGTH || sort_host_length < 0) + { + return MEMCACHED_FAILURE; + } + + WATCHPOINT_ASSERT(sort_host_length); + + if (is_ketama_weighted) + { + for (uint32_t x = 0; x < pointer_per_hash; x++) + { - uint32_t value= ketama_server_hash(sort_host, (size_t)sort_host_length, x); - ptr->ketama.continuum[continuum_index].index= host_index; - ptr->ketama.continuum[continuum_index++].value= value; ++ uint32_t value= ketama_server_hash(sort_host, (size_t)sort_host_length, x); ++ ptr->ketama.continuum[continuum_index].index= host_index; ++ ptr->ketama.continuum[continuum_index++].value= value; + } + } + else + { + uint32_t value= hashkit_digest(&ptr->distribution_hashkit, sort_host, (size_t)sort_host_length); + ptr->ketama.continuum[continuum_index].index= host_index; + ptr->ketama.continuum[continuum_index++].value= value; + } + } + } + + pointer_counter+= pointer_per_server; + } + + WATCHPOINT_ASSERT(ptr); + WATCHPOINT_ASSERT(ptr->continuum); + WATCHPOINT_ASSERT(memcached_server_count(ptr) * MEMCACHED_POINTS_PER_SERVER <= MEMCACHED_CONTINUUM_SIZE); + ptr->ketama.continuum_points_counter= pointer_counter; + qsort(ptr->ketama.continuum, ptr->ketama.continuum_points_counter, sizeof(memcached_continuum_item_st), continuum_item_cmp); + + #ifdef DEBUG + for (uint32_t pointer_index= 0; memcached_server_count(ptr) && pointer_index < ((live_servers * MEMCACHED_POINTS_PER_SERVER) - 1); pointer_index++) + { + WATCHPOINT_ASSERT(ptr->continuum[pointer_index].value <= ptr->continuum[pointer_index + 1].value); + } + #endif + + return MEMCACHED_SUCCESS; + } + + + memcached_return_t memcached_server_push(memcached_st *ptr, const memcached_server_list_st list) + { + if (not list) + return MEMCACHED_SUCCESS; + + uint32_t count= memcached_server_list_count(list); + + memcached_server_st *new_host_list; + new_host_list= static_cast(libmemcached_realloc(ptr, memcached_server_list(ptr), + sizeof(memcached_server_st) * (count + memcached_server_count(ptr)))); + + if (not new_host_list) + return MEMCACHED_MEMORY_ALLOCATION_FAILURE; + + memcached_server_list_set(ptr, new_host_list); + + for (uint32_t x= 0; x < count; x++) + { + memcached_server_write_instance_st instance; + + if ((ptr->flags.use_udp && list[x].type != MEMCACHED_CONNECTION_UDP) + || ((list[x].type == MEMCACHED_CONNECTION_UDP) + && ! (ptr->flags.use_udp)) ) + { + return MEMCACHED_INVALID_HOST_PROTOCOL; + } + + WATCHPOINT_ASSERT(list[x].hostname[0] != 0); + + instance= memcached_server_instance_fetch(ptr, memcached_server_count(ptr)); + WATCHPOINT_ASSERT(instance); + + /* TODO check return type */ + instance= memcached_server_create_with(ptr, instance, list[x].hostname, + list[x].port, list[x].weight, list[x].type); + if (! instance) + { + return memcached_set_error(ptr, MEMCACHED_MEMORY_ALLOCATION_FAILURE, NULL); + } + ptr->number_of_hosts++; + } + + // Provides backwards compatibility with server list. + { + memcached_server_write_instance_st instance; + instance= memcached_server_instance_fetch(ptr, 0); + instance->number_of_hosts= memcached_server_count(ptr); + } + + return run_distribution(ptr); + } + + memcached_return_t memcached_server_add_unix_socket(memcached_st *ptr, + const char *filename) + { + return memcached_server_add_unix_socket_with_weight(ptr, filename, 0); + } + + memcached_return_t memcached_server_add_unix_socket_with_weight(memcached_st *ptr, + const char *filename, + uint32_t weight) + { + if (! filename) + return MEMCACHED_FAILURE; + + return server_add(ptr, filename, 0, weight, MEMCACHED_CONNECTION_UNIX_SOCKET); + } + + memcached_return_t memcached_server_add_udp(memcached_st *ptr, + const char *hostname, + in_port_t port) + { + return memcached_server_add_udp_with_weight(ptr, hostname, port, 0); + } + + memcached_return_t memcached_server_add_udp_with_weight(memcached_st *ptr, + const char *hostname, + in_port_t port, + uint32_t weight) + { + if (! port) + port= MEMCACHED_DEFAULT_PORT; + + if (! hostname) + hostname= "localhost"; + + return server_add(ptr, hostname, port, weight, MEMCACHED_CONNECTION_UDP); + } + + memcached_return_t memcached_server_add(memcached_st *ptr, + const char *hostname, + in_port_t port) + { + return memcached_server_add_with_weight(ptr, hostname, port, 0); + } + + memcached_return_t memcached_server_add_with_weight(memcached_st *ptr, + const char *hostname, + in_port_t port, + uint32_t weight) + { + if (! port) + port= MEMCACHED_DEFAULT_PORT; + + if (! hostname) + hostname= "localhost"; + + return server_add(ptr, hostname, port, weight, MEMCACHED_CONNECTION_TCP); + } + + static memcached_return_t server_add(memcached_st *ptr, const char *hostname, + in_port_t port, + uint32_t weight, + memcached_connection_t type) + { + memcached_server_st *new_host_list; + memcached_server_write_instance_st instance; + + if ( (ptr->flags.use_udp && type != MEMCACHED_CONNECTION_UDP) + || ( (type == MEMCACHED_CONNECTION_UDP) && (! ptr->flags.use_udp) ) ) + return MEMCACHED_INVALID_HOST_PROTOCOL; + + new_host_list= static_cast(libmemcached_realloc(ptr, memcached_server_list(ptr), + sizeof(memcached_server_st) * (ptr->number_of_hosts + 1))); + + if (new_host_list == NULL) + return MEMCACHED_MEMORY_ALLOCATION_FAILURE; + + memcached_server_list_set(ptr, new_host_list); + + /* TODO: Check return type */ + instance= memcached_server_instance_fetch(ptr, memcached_server_count(ptr)); + (void)memcached_server_create_with(ptr, instance, hostname, port, weight, type); + ptr->number_of_hosts++; + + instance= memcached_server_instance_fetch(ptr, 0); + memcached_servers_set_count(instance, memcached_server_count(ptr)); + + return run_distribution(ptr); + } ++ ++memcached_return_t memcached_server_add_parsed(memcached_st *ptr, ++ const char *hostname, ++ size_t hostname_length, ++ in_port_t port, ++ uint32_t weight) ++{ ++ char buffer[NI_MAXHOST]; ++ ++ memcpy(buffer, hostname, hostname_length); ++ buffer[hostname_length]= 0; ++ ++ return server_add(ptr, buffer, ++ port, ++ weight, ++ MEMCACHED_CONNECTION_TCP); ++}