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<?php
/**
* Helper class for representing batch file operations.
*
* 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; either version 2 of the License, or
* (at your option) any later version.
*
* 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 02110-1301, USA.
* http://www.gnu.org/copyleft/gpl.html
*
* @file
* @ingroup FileBackend
* @author Aaron Schulz
*/
/**
* Helper class for representing batch file operations.
* Do not use this class from places outside FileBackend.
*
* Methods should avoid throwing exceptions at all costs.
*
* @ingroup FileBackend
* @since 1.20
*/
class FileOpBatch {
/* Timeout related parameters */
const MAX_BATCH_SIZE = 1000; // integer
/**
* Attempt to perform a series of file operations.
* Callers are responsible for handling file locking.
*
* $opts is an array of options, including:
* - force : Errors that would normally cause a rollback do not.
* The remaining operations are still attempted if any fail.
* - nonJournaled : Don't log this operation batch in the file journal.
* - concurrency : Try to do this many operations in parallel when possible.
*
* The resulting Status will be "OK" unless:
* - a) unexpected operation errors occurred (network partitions, disk full...)
* - b) significant operation errors occurred and 'force' was not set
*
* @param array $performOps List of FileOp operations
* @param array $opts Batch operation options
* @param FileJournal $journal Journal to log operations to
* @return Status
*/
public static function attempt( array $performOps, array $opts, FileJournal $journal ) {
wfProfileIn( __METHOD__ );
$status = Status::newGood();
$n = count( $performOps );
if ( $n > self::MAX_BATCH_SIZE ) {
$status->fatal( 'backend-fail-batchsize', $n, self::MAX_BATCH_SIZE );
wfProfileOut( __METHOD__ );
return $status;
}
$batchId = $journal->getTimestampedUUID();
$ignoreErrors = !empty( $opts['force'] );
$journaled = empty( $opts['nonJournaled'] );
$maxConcurrency = isset( $opts['concurrency'] ) ? $opts['concurrency'] : 1;
$entries = array(); // file journal entry list
$predicates = FileOp::newPredicates(); // account for previous ops in prechecks
$curBatch = array(); // concurrent FileOp sub-batch accumulation
$curBatchDeps = FileOp::newDependencies(); // paths used in FileOp sub-batch
$pPerformOps = array(); // ordered list of concurrent FileOp sub-batches
$lastBackend = null; // last op backend name
// Do pre-checks for each operation; abort on failure...
foreach ( $performOps as $index => $fileOp ) {
$backendName = $fileOp->getBackend()->getName();
$fileOp->setBatchId( $batchId ); // transaction ID
// Decide if this op can be done concurrently within this sub-batch
// or if a new concurrent sub-batch must be started after this one...
if ( $fileOp->dependsOn( $curBatchDeps )
|| count( $curBatch ) >= $maxConcurrency
|| ( $backendName !== $lastBackend && count( $curBatch ) )
) {
$pPerformOps[] = $curBatch; // push this batch
$curBatch = array(); // start a new sub-batch
$curBatchDeps = FileOp::newDependencies();
}
$lastBackend = $backendName;
$curBatch[$index] = $fileOp; // keep index
// Update list of affected paths in this batch
$curBatchDeps = $fileOp->applyDependencies( $curBatchDeps );
// Simulate performing the operation...
$oldPredicates = $predicates;
$subStatus = $fileOp->precheck( $predicates ); // updates $predicates
$status->merge( $subStatus );
if ( $subStatus->isOK() ) {
if ( $journaled ) { // journal log entries
$entries = array_merge( $entries,
$fileOp->getJournalEntries( $oldPredicates, $predicates ) );
}
} else { // operation failed?
$status->success[$index] = false;
++$status->failCount;
if ( !$ignoreErrors ) {
wfProfileOut( __METHOD__ );
return $status; // abort
}
}
}
// Push the last sub-batch
if ( count( $curBatch ) ) {
$pPerformOps[] = $curBatch;
}
// Log the operations in the file journal...
if ( count( $entries ) ) {
$subStatus = $journal->logChangeBatch( $entries, $batchId );
if ( !$subStatus->isOK() ) {
wfProfileOut( __METHOD__ );
return $subStatus; // abort
}
}
if ( $ignoreErrors ) { // treat precheck() fatals as mere warnings
$status->setResult( true, $status->value );
}
// Attempt each operation (in parallel if allowed and possible)...
self::runParallelBatches( $pPerformOps, $status );
wfProfileOut( __METHOD__ );
return $status;
}
/**
* Attempt a list of file operations sub-batches in series.
*
* The operations *in* each sub-batch will be done in parallel.
* The caller is responsible for making sure the operations
* within any given sub-batch do not depend on each other.
* This will abort remaining ops on failure.
*
* @param Array $pPerformOps
* @param Status $status
* @return bool Success
*/
protected static function runParallelBatches( array $pPerformOps, Status $status ) {
$aborted = false; // set to true on unexpected errors
foreach ( $pPerformOps as $performOpsBatch ) {
if ( $aborted ) { // check batch op abort flag...
// We can't continue (even with $ignoreErrors) as $predicates is wrong.
// Log the remaining ops as failed for recovery...
foreach ( $performOpsBatch as $i => $fileOp ) {
$performOpsBatch[$i]->logFailure( 'attempt_aborted' );
}
continue;
}
$statuses = array();
$opHandles = array();
// Get the backend; all sub-batch ops belong to a single backend
$backend = reset( $performOpsBatch )->getBackend();
// Get the operation handles or actually do it if there is just one.
// If attemptAsync() returns a Status, it was either due to an error
// or the backend does not support async ops and did it synchronously.
foreach ( $performOpsBatch as $i => $fileOp ) {
if ( !$fileOp->failed() ) { // failed => already has Status
// If the batch is just one operation, it's faster to avoid
// pipelining as that can involve creating new TCP connections.
$subStatus = ( count( $performOpsBatch ) > 1 )
? $fileOp->attemptAsync()
: $fileOp->attempt();
if ( $subStatus->value instanceof FileBackendStoreOpHandle ) {
$opHandles[$i] = $subStatus->value; // deferred
} else {
$statuses[$i] = $subStatus; // done already
}
}
}
// Try to do all the operations concurrently...
$statuses = $statuses + $backend->executeOpHandlesInternal( $opHandles );
// Marshall and merge all the responses (blocking)...
foreach ( $performOpsBatch as $i => $fileOp ) {
if ( !$fileOp->failed() ) { // failed => already has Status
$subStatus = $statuses[$i];
$status->merge( $subStatus );
if ( $subStatus->isOK() ) {
$status->success[$i] = true;
++$status->successCount;
} else {
$status->success[$i] = false;
++$status->failCount;
$aborted = true; // set abort flag; we can't continue
}
}
}
}
return $status;
}
}
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