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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-05-04 18:00:34 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-05-04 18:00:34 +0000 |
commit | 3f619478f796eddbba6e39502fe941b285dd97b1 (patch) | |
tree | e2c7b5777f728320e5b5542b6213fd3591ba51e2 /storage/perfschema/pfs_digest.cc | |
parent | Initial commit. (diff) | |
download | mariadb-upstream.tar.xz mariadb-upstream.zip |
Adding upstream version 1:10.11.6.upstream/1%10.11.6upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to '')
-rw-r--r-- | storage/perfschema/pfs_digest.cc | 413 |
1 files changed, 413 insertions, 0 deletions
diff --git a/storage/perfschema/pfs_digest.cc b/storage/perfschema/pfs_digest.cc new file mode 100644 index 00000000..fd5fdc5f --- /dev/null +++ b/storage/perfschema/pfs_digest.cc @@ -0,0 +1,413 @@ +/* Copyright (c) 2008, 2023, Oracle and/or its affiliates. + Copyright (c) 2022, MariaDB Corporation. + + This program is free software; you can redistribute it and/or modify + it under the terms of the GNU General Public License, version 2.0, + as published by the Free Software Foundation. + + This program is also distributed with certain software (including + but not limited to OpenSSL) that is licensed under separate terms, + as designated in a particular file or component or in included license + documentation. The authors of MySQL hereby grant you an additional + permission to link the program and your derivative works with the + separately licensed software that they have included with MySQL. + + 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, version 2.0, 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, + 51 Franklin Street, Fifth Floor, Boston, MA 02110-1335 USA */ + +/** + @file storage/perfschema/pfs_digest.h + Statement Digest data structures (implementation). +*/ + +/* + This code needs extra visibility in the lexer structures +*/ + +#define MYSQL_LEX 1 + +#include "my_global.h" +#include "my_sys.h" +#include "pfs_instr.h" +#include "pfs_digest.h" +#include "pfs_global.h" +#include "pfs_builtin_memory.h" +#include "table_helper.h" +#include "sql_lex.h" +#include "sql_signal.h" +#include "sql_get_diagnostics.h" +#include "sql_string.h" +#include <string.h> + +size_t digest_max= 0; +ulong digest_lost= 0; + +/** EVENTS_STATEMENTS_HISTORY_LONG circular buffer. */ +PFS_statements_digest_stat *statements_digest_stat_array= NULL; +static unsigned char *statements_digest_token_array= NULL; +/** Consumer flag for table EVENTS_STATEMENTS_SUMMARY_BY_DIGEST. */ +bool flag_statements_digest= true; +/** + Current index in Stat array where new record is to be inserted. + index 0 is reserved for "all else" case when entire array is full. +*/ +PFS_ALIGNED static PFS_cacheline_uint32 digest_monotonic_index; + +bool digest_full= false; + +LF_HASH digest_hash; +static bool digest_hash_inited= false; + +/** + Initialize table EVENTS_STATEMENTS_SUMMARY_BY_DIGEST. + @param param performance schema sizing +*/ +int init_digest(const PFS_global_param *param) +{ + /* + Allocate memory for statements_digest_stat_array based on + performance_schema_digests_size values + */ + digest_max= param->m_digest_sizing; + digest_lost= 0; + PFS_atomic::store_u32(& digest_monotonic_index.m_u32, 1); + digest_full= false; + + if (digest_max == 0) + return 0; + + statements_digest_stat_array= + PFS_MALLOC_ARRAY(& builtin_memory_digest, + digest_max, + sizeof(PFS_statements_digest_stat), PFS_statements_digest_stat, + MYF(MY_ZEROFILL)); + + if (unlikely(statements_digest_stat_array == NULL)) + { + cleanup_digest(); + return 1; + } + + if (pfs_max_digest_length > 0) + { + /* Size of each digest array. */ + size_t digest_memory_size= pfs_max_digest_length * sizeof(unsigned char); + + statements_digest_token_array= + PFS_MALLOC_ARRAY(& builtin_memory_digest_tokens, + digest_max, + digest_memory_size, + unsigned char, + MYF(MY_ZEROFILL)); + + if (unlikely(statements_digest_token_array == NULL)) + { + cleanup_digest(); + return 1; + } + } + + for (size_t index= 0; index < digest_max; index++) + { + statements_digest_stat_array[index].reset_data(statements_digest_token_array + + index * pfs_max_digest_length, pfs_max_digest_length); + } + + /* Set record[0] as allocated. */ + statements_digest_stat_array[0].m_lock.set_allocated(); + + /* Set record[0] as allocated. */ + statements_digest_stat_array[0].m_lock.set_allocated(); + + return 0; +} + +/** Cleanup table EVENTS_STATEMENTS_SUMMARY_BY_DIGEST. */ +void cleanup_digest(void) +{ + PFS_FREE_ARRAY(& builtin_memory_digest, + digest_max, + sizeof(PFS_statements_digest_stat), + statements_digest_stat_array); + + PFS_FREE_ARRAY(& builtin_memory_digest_tokens, + digest_max, + (pfs_max_digest_length * sizeof(unsigned char)), + statements_digest_token_array); + + statements_digest_stat_array= NULL; + statements_digest_token_array= NULL; +} + +C_MODE_START +static uchar *digest_hash_get_key(const uchar *entry, size_t *length, + my_bool) +{ + const PFS_statements_digest_stat * const *typed_entry; + const PFS_statements_digest_stat *digest; + const void *result; + typed_entry= reinterpret_cast<const PFS_statements_digest_stat*const*>(entry); + assert(typed_entry != NULL); + digest= *typed_entry; + assert(digest != NULL); + *length= sizeof (PFS_digest_key); + result= & digest->m_digest_key; + return const_cast<uchar*> (reinterpret_cast<const uchar*> (result)); +} +C_MODE_END + + +/** + Initialize the digest hash. + @return 0 on success +*/ +int init_digest_hash(const PFS_global_param *param) +{ + if ((! digest_hash_inited) && (param->m_digest_sizing != 0)) + { + lf_hash_init(&digest_hash, sizeof(PFS_statements_digest_stat*), + LF_HASH_UNIQUE, 0, 0, digest_hash_get_key, + &my_charset_bin); + digest_hash_inited= true; + } + return 0; +} + +void cleanup_digest_hash(void) +{ + if (digest_hash_inited) + { + lf_hash_destroy(&digest_hash); + digest_hash_inited= false; + } +} + +static LF_PINS* get_digest_hash_pins(PFS_thread *thread) +{ + if (unlikely(thread->m_digest_hash_pins == NULL)) + { + if (!digest_hash_inited) + return NULL; + thread->m_digest_hash_pins= lf_hash_get_pins(&digest_hash); + } + return thread->m_digest_hash_pins; +} + +PFS_statement_stat* +find_or_create_digest(PFS_thread *thread, + const sql_digest_storage *digest_storage, + const char *schema_name, + uint schema_name_length) +{ + assert(digest_storage != NULL); + + if (statements_digest_stat_array == NULL) + return NULL; + + if (digest_storage->m_byte_count <= 0) + return NULL; + + LF_PINS *pins= get_digest_hash_pins(thread); + if (unlikely(pins == NULL)) + return NULL; + + /* + Note: the LF_HASH key is a block of memory, + make sure to clean unused bytes, + so that memcmp() can compare keys. + */ + PFS_digest_key hash_key; + memset(& hash_key, 0, sizeof(hash_key)); + /* Compute MD5 Hash of the tokens received. */ + compute_digest_md5(digest_storage, hash_key.m_md5); + memcpy((void*)& digest_storage->m_md5, &hash_key.m_md5, MD5_HASH_SIZE); + /* Add the current schema to the key */ + hash_key.m_schema_name_length= schema_name_length; + if (schema_name_length > 0) + memcpy(hash_key.m_schema_name, schema_name, schema_name_length); + + int res; + uint retry_count= 0; + const uint retry_max= 3; + size_t safe_index; + size_t attempts= 0; + PFS_statements_digest_stat **entry; + PFS_statements_digest_stat *pfs= NULL; + pfs_dirty_state dirty_state; + + ulonglong now= my_hrtime().val; + +search: + + /* Lookup LF_HASH using this new key. */ + entry= reinterpret_cast<PFS_statements_digest_stat**> + (lf_hash_search(&digest_hash, pins, + &hash_key, sizeof(PFS_digest_key))); + + if (entry && (entry != MY_ERRPTR)) + { + /* If digest already exists, update stats and return. */ + pfs= *entry; + pfs->m_last_seen= now; + lf_hash_search_unpin(pins); + return & pfs->m_stat; + } + + lf_hash_search_unpin(pins); + + if (digest_full) + { + /* digest_stat array is full. Add stat at index 0 and return. */ + pfs= &statements_digest_stat_array[0]; + digest_lost++; + + if (pfs->m_first_seen == 0) + pfs->m_first_seen= now; + pfs->m_last_seen= now; + return & pfs->m_stat; + } + + while (++attempts <= digest_max) + { + safe_index= PFS_atomic::add_u32(& digest_monotonic_index.m_u32, 1) % digest_max; + if (safe_index == 0) + { + /* Record [0] is reserved. */ + continue; + } + + /* Add a new record in digest stat array. */ + assert(safe_index < digest_max); + pfs= &statements_digest_stat_array[safe_index]; + + if (pfs->m_lock.is_free()) + { + if (pfs->m_lock.free_to_dirty(& dirty_state)) + { + /* Copy digest hash/LF Hash search key. */ + memcpy(& pfs->m_digest_key, &hash_key, sizeof(PFS_digest_key)); + + /* + Copy digest storage to statement_digest_stat_array so that it could be + used later to generate digest text. + */ + pfs->m_digest_storage.copy(digest_storage); + + pfs->m_first_seen= now; + pfs->m_last_seen= now; + + res= lf_hash_insert(&digest_hash, pins, &pfs); + if (likely(res == 0)) + { + pfs->m_lock.dirty_to_allocated(& dirty_state); + return & pfs->m_stat; + } + + pfs->m_lock.dirty_to_free(& dirty_state); + + if (res > 0) + { + /* Duplicate insert by another thread */ + if (++retry_count > retry_max) + { + /* Avoid infinite loops */ + digest_lost++; + return NULL; + } + goto search; + } + + /* OOM in lf_hash_insert */ + digest_lost++; + return NULL; + } + } + } + + /* The digest array is now full. */ + digest_full= true; + pfs= &statements_digest_stat_array[0]; + + if (pfs->m_first_seen == 0) + pfs->m_first_seen= now; + pfs->m_last_seen= now; + return & pfs->m_stat; +} + +void purge_digest(PFS_thread* thread, PFS_digest_key *hash_key) +{ + LF_PINS *pins= get_digest_hash_pins(thread); + if (unlikely(pins == NULL)) + return; + + PFS_statements_digest_stat **entry; + + /* Lookup LF_HASH using this new key. */ + entry= reinterpret_cast<PFS_statements_digest_stat**> + (lf_hash_search(&digest_hash, pins, + hash_key, sizeof(PFS_digest_key))); + + if (entry && (entry != MY_ERRPTR)) + { + lf_hash_delete(&digest_hash, pins, + hash_key, sizeof(PFS_digest_key)); + } + lf_hash_search_unpin(pins); + return; +} + +void PFS_statements_digest_stat::reset_data(unsigned char *token_array, size_t length) +{ + pfs_dirty_state dirty_state; + m_lock.set_dirty(& dirty_state); + m_digest_storage.reset(token_array, length); + m_stat.reset(); + m_first_seen= 0; + m_last_seen= 0; + m_lock.dirty_to_free(& dirty_state); +} + +void PFS_statements_digest_stat::reset_index(PFS_thread *thread) +{ + /* Only remove entries that exists in the HASH index. */ + if (m_digest_storage.m_byte_count > 0) + { + purge_digest(thread, & m_digest_key); + } +} + +void reset_esms_by_digest() +{ + uint index; + + if (statements_digest_stat_array == NULL) + return; + + PFS_thread *thread= PFS_thread::get_current_thread(); + if (unlikely(thread == NULL)) + return; + + /* Reset statements_digest_stat_array. */ + for (index= 0; index < digest_max; index++) + { + statements_digest_stat_array[index].reset_index(thread); + statements_digest_stat_array[index].reset_data(statements_digest_token_array + index * pfs_max_digest_length, pfs_max_digest_length); + } + + /* Mark record[0] as allocated again. */ + statements_digest_stat_array[0].m_lock.set_allocated(); + + /* + Reset index which indicates where the next calculated digest information + to be inserted in statements_digest_stat_array. + */ + PFS_atomic::store_u32(& digest_monotonic_index.m_u32, 1); + digest_full= false; +} + |