/* Copyright (c) 2010, 2015, Oracle and/or its affiliates. All rights reserved. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; version 2 of the License. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1335 USA */ /** @file storage/perfschema/pfs_host.cc Performance schema host (implementation). */ #include "my_global.h" #include "my_sys.h" #include "pfs.h" #include "pfs_stat.h" #include "pfs_instr.h" #include "pfs_setup_actor.h" #include "pfs_host.h" #include "pfs_global.h" #include "pfs_instr_class.h" /** @addtogroup Performance_schema_buffers @{ */ ulong host_max; ulong host_lost; PFS_host *host_array= NULL; static PFS_single_stat *host_instr_class_waits_array= NULL; static PFS_stage_stat *host_instr_class_stages_array= NULL; static PFS_statement_stat *host_instr_class_statements_array= NULL; LF_HASH host_hash; static bool host_hash_inited= false; /** Initialize the host buffers. @param param sizing parameters @return 0 on success */ int init_host(const PFS_global_param *param) { uint index; host_max= param->m_host_sizing; host_array= NULL; host_instr_class_waits_array= NULL; host_instr_class_stages_array= NULL; host_instr_class_statements_array= NULL; uint waits_sizing= host_max * wait_class_max; uint stages_sizing= host_max * stage_class_max; uint statements_sizing= host_max * statement_class_max; if (host_max > 0) { host_array= PFS_MALLOC_ARRAY(host_max, sizeof(PFS_host), PFS_host, MYF(MY_ZEROFILL)); if (unlikely(host_array == NULL)) return 1; } if (waits_sizing > 0) { host_instr_class_waits_array= PFS_connection_slice::alloc_waits_slice(waits_sizing); if (unlikely(host_instr_class_waits_array == NULL)) return 1; } if (stages_sizing > 0) { host_instr_class_stages_array= PFS_connection_slice::alloc_stages_slice(stages_sizing); if (unlikely(host_instr_class_stages_array == NULL)) return 1; } if (statements_sizing > 0) { host_instr_class_statements_array= PFS_connection_slice::alloc_statements_slice(statements_sizing); if (unlikely(host_instr_class_statements_array == NULL)) return 1; } for (index= 0; index < host_max; index++) { host_array[index].m_instr_class_waits_stats= &host_instr_class_waits_array[index * wait_class_max]; host_array[index].m_instr_class_stages_stats= &host_instr_class_stages_array[index * stage_class_max]; host_array[index].m_instr_class_statements_stats= &host_instr_class_statements_array[index * statement_class_max]; } return 0; } /** Cleanup all the host buffers. */ void cleanup_host(void) { pfs_free(host_array); host_array= NULL; pfs_free(host_instr_class_waits_array); host_instr_class_waits_array= NULL; pfs_free(host_instr_class_stages_array); host_instr_class_stages_array= NULL; pfs_free(host_instr_class_statements_array); host_instr_class_statements_array= NULL; host_max= 0; } C_MODE_START static uchar *host_hash_get_key(const uchar *entry, size_t *length, my_bool) { const PFS_host * const *typed_entry; const PFS_host *host; const void *result; typed_entry= reinterpret_cast (entry); DBUG_ASSERT(typed_entry != NULL); host= *typed_entry; DBUG_ASSERT(host != NULL); *length= host->m_key.m_key_length; result= host->m_key.m_hash_key; return const_cast (reinterpret_cast (result)); } C_MODE_END /** Initialize the host hash. @return 0 on success */ int init_host_hash(void) { if ((! host_hash_inited) && (host_max > 0)) { lf_hash_init(&host_hash, sizeof(PFS_host*), LF_HASH_UNIQUE, 0, 0, host_hash_get_key, &my_charset_bin); /* host_hash.size= host_max; */ host_hash_inited= true; } return 0; } /** Cleanup the host hash. */ void cleanup_host_hash(void) { if (host_hash_inited) { lf_hash_destroy(&host_hash); host_hash_inited= false; } } static LF_PINS* get_host_hash_pins(PFS_thread *thread) { if (unlikely(thread->m_host_hash_pins == NULL)) { if (! host_hash_inited) return NULL; thread->m_host_hash_pins= lf_hash_get_pins(&host_hash); } return thread->m_host_hash_pins; } static void set_host_key(PFS_host_key *key, const char *host, uint host_length) { DBUG_ASSERT(host_length <= HOSTNAME_LENGTH); char *ptr= &key->m_hash_key[0]; if (host_length > 0) { memcpy(ptr, host, host_length); ptr+= host_length; } ptr[0]= 0; ptr++; key->m_key_length= (uint)(ptr - &key->m_hash_key[0]); } PFS_host *find_or_create_host(PFS_thread *thread, const char *hostname, uint hostname_length) { if (host_max == 0) { host_lost++; return NULL; } LF_PINS *pins= get_host_hash_pins(thread); if (unlikely(pins == NULL)) { host_lost++; return NULL; } PFS_host_key key; set_host_key(&key, hostname, hostname_length); PFS_host **entry; uint retry_count= 0; const uint retry_max= 3; search: entry= reinterpret_cast (lf_hash_search(&host_hash, pins, key.m_hash_key, key.m_key_length)); if (entry && (entry != MY_ERRPTR)) { PFS_host *pfs; pfs= *entry; pfs->inc_refcount(); lf_hash_search_unpin(pins); return pfs; } lf_hash_search_unpin(pins); PFS_scan scan; uint random= randomized_index(hostname, host_max); for (scan.init(random, host_max); scan.has_pass(); scan.next_pass()) { PFS_host *pfs= host_array + scan.first(); PFS_host *pfs_last= host_array + scan.last(); for ( ; pfs < pfs_last; pfs++) { if (pfs->m_lock.is_free()) { if (pfs->m_lock.free_to_dirty()) { pfs->m_key= key; if (hostname_length > 0) pfs->m_hostname= &pfs->m_key.m_hash_key[0]; else pfs->m_hostname= NULL; pfs->m_hostname_length= hostname_length; pfs->init_refcount(); pfs->reset_stats(); pfs->m_disconnected_count= 0; int res; res= lf_hash_insert(&host_hash, pins, &pfs); if (likely(res == 0)) { pfs->m_lock.dirty_to_allocated(); return pfs; } pfs->m_lock.dirty_to_free(); if (res > 0) { if (++retry_count > retry_max) { host_lost++; return NULL; } goto search; } host_lost++; return NULL; } } } } host_lost++; return NULL; } void PFS_host::aggregate() { aggregate_waits(); aggregate_stages(); aggregate_statements(); aggregate_stats(); } void PFS_host::aggregate_waits() { /* No parent to aggregate to, clean the stats */ reset_waits_stats(); } void PFS_host::aggregate_stages() { /* Aggregate EVENTS_STAGES_SUMMARY_BY_HOST_BY_EVENT_NAME to: - EVENTS_STAGES_SUMMARY_GLOBAL_BY_EVENT_NAME */ aggregate_all_stages(m_instr_class_stages_stats, global_instr_class_stages_array); } void PFS_host::aggregate_statements() { /* Aggregate EVENTS_STATEMENTS_SUMMARY_BY_HOST_BY_EVENT_NAME to: - EVENTS_STATEMENTS_SUMMARY_GLOBAL_BY_EVENT_NAME */ aggregate_all_statements(m_instr_class_statements_stats, global_instr_class_statements_array); } void PFS_host::aggregate_stats() { /* No parent to aggregate to, clean the stats */ m_disconnected_count= 0; } void PFS_host::release() { dec_refcount(); } PFS_host *sanitize_host(PFS_host *unsafe) { if ((&host_array[0] <= unsafe) && (unsafe < &host_array[host_max])) return unsafe; return NULL; } void purge_host(PFS_thread *thread, PFS_host *host) { LF_PINS *pins= get_host_hash_pins(thread); if (unlikely(pins == NULL)) return; PFS_host **entry; entry= reinterpret_cast (lf_hash_search(&host_hash, pins, host->m_key.m_hash_key, host->m_key.m_key_length)); if (entry && (entry != MY_ERRPTR)) { DBUG_ASSERT(*entry == host); if (host->get_refcount() == 0) { lf_hash_delete(&host_hash, pins, host->m_key.m_hash_key, host->m_key.m_key_length); host->m_lock.allocated_to_free(); } } lf_hash_search_unpin(pins); } /** Purge non connected hosts, reset stats of connected hosts. */ void purge_all_host(void) { PFS_thread *thread= PFS_thread::get_current_thread(); if (unlikely(thread == NULL)) return; PFS_host *pfs= host_array; PFS_host *pfs_last= host_array + host_max; for ( ; pfs < pfs_last; pfs++) { if (pfs->m_lock.is_populated()) { pfs->aggregate(); if (pfs->get_refcount() == 0) purge_host(thread, pfs); } } } /** @} */