array('RATIOH', "select round((1-(phy.value / (cur.value + con.value)))*100,2) from v\$sysstat cur, v\$sysstat con, v\$sysstat phy where cur.name = 'db block gets' and con.name = 'consistent gets' and phy.name = 'physical reads'", '=WarnCacheRatio'), 'sql cache hit ratio' => array( 'RATIOH', 'select round(100*(sum(pins)-sum(reloads))/sum(pins),2) from v$librarycache', 'increase shared_pool_size if too ratio low'), 'datadict cache hit ratio' => array('RATIOH', "select round((1 - (sum(getmisses) / (sum(gets) + sum(getmisses))))*100,2) from v\$rowcache", 'increase shared_pool_size if too ratio low'), 'memory sort ratio' => array('RATIOH', "SELECT ROUND((100 * b.VALUE) /DECODE ((a.VALUE + b.VALUE), 0,1,(a.VALUE + b.VALUE)),2) FROM v\$sysstat a, v\$sysstat b WHERE a.name = 'sorts (disk)' AND b.name = 'sorts (memory)'", "% of memory sorts compared to disk sorts - should be over 95%"), 'IO', 'data reads' => array('IO', "select value from v\$sysstat where name='physical reads'"), 'data writes' => array('IO', "select value from v\$sysstat where name='physical writes'"), 'Data Cache', 'data cache buffers' => array( 'DATAC', "select a.value/b.value from v\$parameter a, v\$parameter b where a.name = 'db_cache_size' and b.name= 'db_block_size'", 'Number of cache buffers. Tune db_cache_size if the data cache hit ratio is too low.'), 'data cache blocksize' => array('DATAC', "select value from v\$parameter where name='db_block_size'", '' ), 'Memory Pools', 'data cache size' => array('DATAC', "select value from v\$parameter where name = 'db_cache_size'", 'db_cache_size' ), 'shared pool size' => array('DATAC', "select value from v\$parameter where name = 'shared_pool_size'", 'shared_pool_size, which holds shared sql, stored procedures, dict cache and similar shared structs' ), 'java pool size' => array('DATAJ', "select value from v\$parameter where name = 'java_pool_size'", 'java_pool_size' ), 'large pool buffer size' => array('CACHE', "select value from v\$parameter where name='large_pool_size'", 'this pool is for large mem allocations (not because it is larger than shared pool), for MTS sessions, parallel queries, io buffers (large_pool_size) ' ), 'pga buffer size' => array('CACHE', "select value from v\$parameter where name='pga_aggregate_target'", 'program global area is private memory for sorting, and hash and bitmap merges - since oracle 9i (pga_aggregate_target)' ), 'Connections', 'current connections' => array('SESS', 'select count(*) from sys.v_$session where username is not null', ''), 'max connections' => array( 'SESS', "select value from v\$parameter where name='sessions'", ''), 'Memory Utilization', 'data cache utilization ratio' => array('RATIOU', "select round((1-bytes/sgasize)*100, 2) from (select sum(bytes) sgasize from sys.v_\$sgastat) s, sys.v_\$sgastat f where name = 'free memory' and pool = 'shared pool'", 'Percentage of data cache actually in use - should be over 85%'), 'shared pool utilization ratio' => array('RATIOU', 'select round((sga.bytes/p.value)*100,2) from v$sgastat sga, v$parameter p where sga.name = \'free memory\' and sga.pool = \'shared pool\' and p.name = \'shared_pool_size\'', 'Percentage of shared pool actually used - too low is bad, too high is worse'), 'large pool utilization ratio' => array('RATIOU', "select round((1-bytes/sgasize)*100, 2) from (select sum(bytes) sgasize from sys.v_\$sgastat) s, sys.v_\$sgastat f where name = 'free memory' and pool = 'large pool'", 'Percentage of large_pool actually in use - too low is bad, too high is worse'), 'sort buffer size' => array('CACHE', "select value from v\$parameter where name='sort_area_size'", 'max in-mem sort_area_size (per query), uses memory in pga' ), 'pga usage at peak' => array('RATIOU', '=PGA','Mb utilization at peak transactions (requires Oracle 9i+)'), 'Transactions', 'rollback segments' => array('ROLLBACK', "select count(*) from sys.v_\$rollstat", ''), 'peak transactions' => array('ROLLBACK', "select max_utilization tx_hwm from sys.v_\$resource_limit where resource_name = 'transactions'", 'Taken from high-water-mark'), 'max transactions' => array('ROLLBACK', "select value from v\$parameter where name = 'transactions'", 'max transactions / rollback segments < 3.5 (or transactions_per_rollback_segment)'), 'Parameters', 'cursor sharing' => array('CURSOR', "select value from v\$parameter where name = 'cursor_sharing'", 'Cursor reuse strategy. Recommended is FORCE (8i+) or SIMILAR (9i+). See cursor_sharing.'), /* 'cursor reuse' => array('CURSOR', "select count(*) from (select sql_text_wo_constants, count(*) from t1 group by sql_text_wo_constants having count(*) > 100)",'These are sql statements that should be using bind variables'),*/ 'index cache cost' => array('COST', "select value from v\$parameter where name = 'optimizer_index_caching'", '=WarnIndexCost'), 'random page cost' => array('COST', "select value from v\$parameter where name = 'optimizer_index_cost_adj'", '=WarnPageCost'), false ); function perf_oci8(&$conn) { $savelog = $conn->LogSQL(false); $this->version = $conn->ServerInfo(); $conn->LogSQL($savelog); $this->conn =& $conn; } function WarnPageCost($val) { if ($val == 100) $s = 'Too High. '; else $s = ''; return $s.'Recommended is 20-50 for TP, and 50 for data warehouses. Default is 100. See optimizer_index_cost_adj. '; } function WarnIndexCost($val) { if ($val == 0) $s = 'Too Low. '; else $s = ''; return $s.'Percentage of indexed data blocks expected in the cache. Recommended is 20 (fast disk array) to 50 (slower hard disks). Default is 0. See optimizer_index_caching.'; } function PGA() { if ($this->version['version'] < 9) return 'Oracle 9i or later required'; $rs = $this->conn->Execute("select a.mb,a.targ as pga_size_pct,a.pct from (select round(pga_target_for_estimate/1024.0/1024.0,0) Mb, pga_target_factor targ,estd_pga_cache_hit_percentage pct,rownum as r from v\$pga_target_advice) a left join (select round(pga_target_for_estimate/1024.0/1024.0,0) Mb, pga_target_factor targ,estd_pga_cache_hit_percentage pct,rownum as r from v\$pga_target_advice) b on a.r = b.r+1 where b.pct < 100"); if (!$rs) return "Only in 9i or later"; $rs->Close(); if ($rs->EOF) return "PGA could be too big"; return reset($rs->fields); } function Explain($sql,$partial=false) { $savelog = $this->conn->LogSQL(false); $rs =& $this->conn->SelectLimit("select ID FROM PLAN_TABLE"); if (!$rs) { echo "
Missing PLAN_TABLE
CREATE TABLE PLAN_TABLE ( STATEMENT_ID VARCHAR2(30), TIMESTAMP DATE, REMARKS VARCHAR2(80), OPERATION VARCHAR2(30), OPTIONS VARCHAR2(30), OBJECT_NODE VARCHAR2(128), OBJECT_OWNER VARCHAR2(30), OBJECT_NAME VARCHAR2(30), OBJECT_INSTANCE NUMBER(38), OBJECT_TYPE VARCHAR2(30), OPTIMIZER VARCHAR2(255), SEARCH_COLUMNS NUMBER, ID NUMBER(38), PARENT_ID NUMBER(38), POSITION NUMBER(38), COST NUMBER(38), CARDINALITY NUMBER(38), BYTES NUMBER(38), OTHER_TAG VARCHAR2(255), PARTITION_START VARCHAR2(255), PARTITION_STOP VARCHAR2(255), PARTITION_ID NUMBER(38), OTHER LONG, DISTRIBUTION VARCHAR2(30) );"; return false; } $rs->Close(); // $this->conn->debug=1; if ($partial) { $sqlq = $this->conn->qstr($sql.'%'); $arr = $this->conn->GetArray("select distinct distinct sql1 from adodb_logsql where sql1 like $sqlq"); if ($arr) { foreach($arr as $row) { $sql = reset($row); if (crc32($sql) == $partial) break; } } } $s = "
Explain: ".htmlspecialchars($sql)."
"; $this->conn->BeginTrans(); $id = "ADODB ".microtime(); $rs =& $this->conn->Execute("EXPLAIN PLAN SET STATEMENT_ID='$id' FOR $sql"); $m = $this->conn->ErrorMsg(); if ($m) { $this->conn->RollbackTrans(); $this->conn->LogSQL($savelog); $s .= "$m
"; return $s; } $rs =& $this->conn->Execute(" select ''||lpad('--', (level-1)*2,'-') || trim(operation) || ' ' || trim(options)||'' as Operation, object_name,COST,CARDINALITY,bytes FROM plan_table START WITH id = 0 and STATEMENT_ID='$id' CONNECT BY prior id=parent_id and statement_id='$id'"); $s .= rs2html($rs,false,false,false,false); $this->conn->RollbackTrans(); $this->conn->LogSQL($savelog); $s .= $this->Tracer($sql,$partial); return $s; } function CheckMemory() { if ($this->version['version'] < 9) return 'Oracle 9i or later required'; $rs =& $this->conn->Execute(" select a.size_for_estimate as cache_mb_estimate, case when a.size_factor=1 then '<<= current' when a.estd_physical_read_factor-b.estd_physical_read_factor > 0 and a.estd_physical_read_factor<1 then '- BETTER - ' else ' ' end as currsize, a.estd_physical_read_factor-b.estd_physical_read_factor as best_when_0 from (select size_for_estimate,size_factor,estd_physical_read_factor,rownum r from v\$db_cache_advice) a , (select size_for_estimate,size_factor,estd_physical_read_factor,rownum r from v\$db_cache_advice) b where a.r = b.r-1"); if (!$rs) return false; /* The v$db_cache_advice utility show the marginal changes in physical data block reads for different sizes of db_cache_size */ $s = "
Cache that is 50% of current size is still too big
"; } else { $s .= "Ideal size of Data Cache is when \"best_when_0\" changes from a positive number and becomes zero."; $s .= rs2html($rs,false,false,false,false); } return $s; } /* Generate html for suspicious/expensive sql */ function tohtml(&$rs,$type) { $o1 = $rs->FetchField(0); $o2 = $rs->FetchField(1); $o3 = $rs->FetchField(2); if ($rs->EOF) return 'None found
'; $check = ''; $sql = ''; $s = "\n\n".$o1->name.' | '.$o2->name.' | '.$o3->name.' |
".$carr[0].' | '.$carr[1].' | '.$prefix.$sql.$suffix.' |
".$carr[0].' | '.$carr[1].' | '.$prefix.$sql.$suffix.' |
'; $save = $ADODB_CACHE_MODE; $ADODB_CACHE_MODE = ADODB_FETCH_NUM; if ($this->conn->fetchMode !== false) $savem = $this->conn->SetFetchMode(false); $savelog = $this->conn->LogSQL(false); $rs =& $this->conn->SelectLimit($sql); $this->conn->LogSQL($savelog); if (isset($savem)) $this->conn->SetFetchMode($savem); $ADODB_CACHE_MODE = $save; if ($rs) { $s .= "\n
'; $save = $ADODB_CACHE_MODE; $ADODB_CACHE_MODE = ADODB_FETCH_NUM; if ($this->conn->fetchMode !== false) $savem = $this->conn->SetFetchMode(false); $savelog = $this->conn->LogSQL(false); $rs =& $this->conn->Execute($sql); $this->conn->LogSQL($savelog); if (isset($savem)) $this->conn->SetFetchMode($savem); $ADODB_CACHE_MODE = $save; if ($rs) { $s .= "\n