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PostgreSQL/src/backend/replication/basebackup_lz4.c
Michael Paquier a4b57543ac Rename backup_compression.{c,h} to compression.{c,h} 
Compression option handling (level, algorithm or even workers) can be
used across several parts of the system and not only base backups.
Structures, objects and routines are renamed in consequence, to remove
the concept of base backups from this part of the code making this
change straight-forward.

pg_receivewal, that has gained support for LZ4 since babbbb5, will make
use of this infrastructure for its set of compression options, bringing
more consistency with pg_basebackup.  This cleanup needs to be done
before releasing a beta of 15.  pg_dump is a potential future target, as
well, and adding more compression options to it may happen in 16~.

Author: Michael Paquier
Reviewed-by: Robert Haas, Georgios Kokolatos
Discussion: https://postgr.es/m/YlPQGNAAa04raObK@paquier.xyz
2022-04-12 13:38:54 +09:00

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/*-------------------------------------------------------------------------
*
* basebackup_lz4.c
* Basebackup sink implementing lz4 compression.
*
* Portions Copyright (c) 2010-2022, PostgreSQL Global Development Group
*
* IDENTIFICATION
* src/backend/replication/basebackup_lz4.c
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
#ifdef USE_LZ4
#include <lz4frame.h>
#endif
#include "replication/basebackup_sink.h"
#ifdef USE_LZ4
typedef struct bbsink_lz4
{
/* Common information for all types of sink. */
bbsink base;
/* Compression level. */
int compresslevel;
LZ4F_compressionContext_t ctx;
LZ4F_preferences_t prefs;
/* Number of bytes staged in output buffer. */
size_t bytes_written;
} bbsink_lz4;
static void bbsink_lz4_begin_backup(bbsink *sink);
static void bbsink_lz4_begin_archive(bbsink *sink, const char *archive_name);
static void bbsink_lz4_archive_contents(bbsink *sink, size_t avail_in);
static void bbsink_lz4_manifest_contents(bbsink *sink, size_t len);
static void bbsink_lz4_end_archive(bbsink *sink);
static void bbsink_lz4_cleanup(bbsink *sink);
const bbsink_ops bbsink_lz4_ops = {
.begin_backup = bbsink_lz4_begin_backup,
.begin_archive = bbsink_lz4_begin_archive,
.archive_contents = bbsink_lz4_archive_contents,
.end_archive = bbsink_lz4_end_archive,
.begin_manifest = bbsink_forward_begin_manifest,
.manifest_contents = bbsink_lz4_manifest_contents,
.end_manifest = bbsink_forward_end_manifest,
.end_backup = bbsink_forward_end_backup,
.cleanup = bbsink_lz4_cleanup
};
#endif
/*
* Create a new basebackup sink that performs lz4 compression.
*/
bbsink *
bbsink_lz4_new(bbsink *next, pg_compress_specification *compress)
{
#ifndef USE_LZ4
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("lz4 compression is not supported by this build")));
return NULL; /* keep compiler quiet */
#else
bbsink_lz4 *sink;
int compresslevel;
Assert(next != NULL);
if ((compress->options & PG_COMPRESSION_OPTION_LEVEL) == 0)
compresslevel = 0;
else
{
compresslevel = compress->level;
Assert(compresslevel >= 1 && compresslevel <= 12);
}
sink = palloc0(sizeof(bbsink_lz4));
*((const bbsink_ops **) &sink->base.bbs_ops) = &bbsink_lz4_ops;
sink->base.bbs_next = next;
sink->compresslevel = compresslevel;
return &sink->base;
#endif
}
#ifdef USE_LZ4
/*
* Begin backup.
*/
static void
bbsink_lz4_begin_backup(bbsink *sink)
{
bbsink_lz4 *mysink = (bbsink_lz4 *) sink;
size_t output_buffer_bound;
LZ4F_preferences_t *prefs = &mysink->prefs;
/* Initialize compressor object. */
memset(prefs, 0, sizeof(LZ4F_preferences_t));
prefs->frameInfo.blockSizeID = LZ4F_max256KB;
prefs->compressionLevel = mysink->compresslevel;
/*
* We need our own buffer, because we're going to pass different data to
* the next sink than what gets passed to us.
*/
mysink->base.bbs_buffer = palloc(mysink->base.bbs_buffer_length);
/*
* Since LZ4F_compressUpdate() requires the output buffer of size equal or
* greater than that of LZ4F_compressBound(), make sure we have the next
* sink's bbs_buffer of length that can accommodate the compressed input
* buffer.
*/
output_buffer_bound = LZ4F_compressBound(mysink->base.bbs_buffer_length,
&mysink->prefs);
/*
* The buffer length is expected to be a multiple of BLCKSZ, so round up.
*/
output_buffer_bound = output_buffer_bound + BLCKSZ -
(output_buffer_bound % BLCKSZ);
bbsink_begin_backup(sink->bbs_next, sink->bbs_state, output_buffer_bound);
}
/*
* Prepare to compress the next archive.
*/
static void
bbsink_lz4_begin_archive(bbsink *sink, const char *archive_name)
{
bbsink_lz4 *mysink = (bbsink_lz4 *) sink;
char *lz4_archive_name;
LZ4F_errorCode_t ctxError;
size_t headerSize;
ctxError = LZ4F_createCompressionContext(&mysink->ctx, LZ4F_VERSION);
if (LZ4F_isError(ctxError))
elog(ERROR, "could not create lz4 compression context: %s",
LZ4F_getErrorName(ctxError));
/* First of all write the frame header to destination buffer. */
headerSize = LZ4F_compressBegin(mysink->ctx,
mysink->base.bbs_next->bbs_buffer,
mysink->base.bbs_next->bbs_buffer_length,
&mysink->prefs);
if (LZ4F_isError(headerSize))
elog(ERROR, "could not write lz4 header: %s",
LZ4F_getErrorName(headerSize));
/*
* We need to write the compressed data after the header in the output
* buffer. So, make sure to update the notion of bytes written to output
* buffer.
*/
mysink->bytes_written += headerSize;
/* Add ".lz4" to the archive name. */
lz4_archive_name = psprintf("%s.lz4", archive_name);
Assert(sink->bbs_next != NULL);
bbsink_begin_archive(sink->bbs_next, lz4_archive_name);
pfree(lz4_archive_name);
}
/*
* Compress the input data to the output buffer until we run out of input
* data. Each time the output buffer falls below the compression bound for
* the input buffer, invoke the archive_contents() method for then next sink.
*
* Note that since we're compressing the input, it may very commonly happen
* that we consume all the input data without filling the output buffer. In
* that case, the compressed representation of the current input data won't
* actually be sent to the next bbsink until a later call to this function,
* or perhaps even not until bbsink_lz4_end_archive() is invoked.
*/
static void
bbsink_lz4_archive_contents(bbsink *sink, size_t avail_in)
{
bbsink_lz4 *mysink = (bbsink_lz4 *) sink;
size_t compressedSize;
size_t avail_in_bound;
avail_in_bound = LZ4F_compressBound(avail_in, &mysink->prefs);
/*
* If the number of available bytes has fallen below the value computed by
* LZ4F_compressBound(), ask the next sink to process the data so that we
* can empty the buffer.
*/
if ((mysink->base.bbs_next->bbs_buffer_length - mysink->bytes_written) <
avail_in_bound)
{
bbsink_archive_contents(sink->bbs_next, mysink->bytes_written);
mysink->bytes_written = 0;
}
/*
* Compress the input buffer and write it into the output buffer.
*/
compressedSize = LZ4F_compressUpdate(mysink->ctx,
mysink->base.bbs_next->bbs_buffer + mysink->bytes_written,
mysink->base.bbs_next->bbs_buffer_length - mysink->bytes_written,
(uint8 *) mysink->base.bbs_buffer,
avail_in,
NULL);
if (LZ4F_isError(compressedSize))
elog(ERROR, "could not compress data: %s",
LZ4F_getErrorName(compressedSize));
/*
* Update our notion of how many bytes we've written into output buffer.
*/
mysink->bytes_written += compressedSize;
}
/*
* There might be some data inside lz4's internal buffers; we need to get
* that flushed out and also finalize the lz4 frame and then get that forwarded
* to the successor sink as archive content.
*
* Then we can end processing for this archive.
*/
static void
bbsink_lz4_end_archive(bbsink *sink)
{
bbsink_lz4 *mysink = (bbsink_lz4 *) sink;
size_t compressedSize;
size_t lz4_footer_bound;
lz4_footer_bound = LZ4F_compressBound(0, &mysink->prefs);
Assert(mysink->base.bbs_next->bbs_buffer_length >= lz4_footer_bound);
if ((mysink->base.bbs_next->bbs_buffer_length - mysink->bytes_written) <
lz4_footer_bound)
{
bbsink_archive_contents(sink->bbs_next, mysink->bytes_written);
mysink->bytes_written = 0;
}
compressedSize = LZ4F_compressEnd(mysink->ctx,
mysink->base.bbs_next->bbs_buffer + mysink->bytes_written,
mysink->base.bbs_next->bbs_buffer_length - mysink->bytes_written,
NULL);
if (LZ4F_isError(compressedSize))
elog(ERROR, "could not end lz4 compression: %s",
LZ4F_getErrorName(compressedSize));
/* Update our notion of how many bytes we've written. */
mysink->bytes_written += compressedSize;
/* Send whatever accumulated output bytes we have. */
bbsink_archive_contents(sink->bbs_next, mysink->bytes_written);
mysink->bytes_written = 0;
/* Release the resources. */
LZ4F_freeCompressionContext(mysink->ctx);
mysink->ctx = NULL;
/* Pass on the information that this archive has ended. */
bbsink_forward_end_archive(sink);
}
/*
* Manifest contents are not compressed, but we do need to copy them into
* the successor sink's buffer, because we have our own.
*/
static void
bbsink_lz4_manifest_contents(bbsink *sink, size_t len)
{
memcpy(sink->bbs_next->bbs_buffer, sink->bbs_buffer, len);
bbsink_manifest_contents(sink->bbs_next, len);
}
/*
* In case the backup fails, make sure we free the compression context by
* calling LZ4F_freeCompressionContext() if needed to avoid memory leak.
*/
static void
bbsink_lz4_cleanup(bbsink *sink)
{
bbsink_lz4 *mysink = (bbsink_lz4 *) sink;
if (mysink->ctx)
{
LZ4F_freeCompressionContext(mysink->ctx);
mysink->ctx = NULL;
}
}
#endif
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