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/*-------------------------------------------------------------------------
*
* basebackup_zstd.c
* Basebackup sink implementing zstd compression.
*
* Portions Copyright (c) 2010-2022, PostgreSQL Global Development Group
*
* IDENTIFICATION
* src/backend/backup/basebackup_zstd.c
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
#ifdef USE_ZSTD
#include <zstd.h>
#endif
#include "backup/basebackup_sink.h"
#ifdef USE_ZSTD
typedef struct bbsink_zstd
{
/* Common information for all types of sink. */
bbsink base;
/* Compression options */
pg_compress_specification *compress;
ZSTD_CCtx *cctx;
ZSTD_outBuffer zstd_outBuf;
} bbsink_zstd;
static void bbsink_zstd_begin_backup(bbsink *sink);
static void bbsink_zstd_begin_archive(bbsink *sink, const char *archive_name);
static void bbsink_zstd_archive_contents(bbsink *sink, size_t avail_in);
static void bbsink_zstd_manifest_contents(bbsink *sink, size_t len);
static void bbsink_zstd_end_archive(bbsink *sink);
static void bbsink_zstd_cleanup(bbsink *sink);
static void bbsink_zstd_end_backup(bbsink *sink, XLogRecPtr endptr,
TimeLineID endtli);
static const bbsink_ops bbsink_zstd_ops = {
.begin_backup = bbsink_zstd_begin_backup,
.begin_archive = bbsink_zstd_begin_archive,
.archive_contents = bbsink_zstd_archive_contents,
.end_archive = bbsink_zstd_end_archive,
.begin_manifest = bbsink_forward_begin_manifest,
.manifest_contents = bbsink_zstd_manifest_contents,
.end_manifest = bbsink_forward_end_manifest,
.end_backup = bbsink_zstd_end_backup,
.cleanup = bbsink_zstd_cleanup
};
#endif
/*
* Create a new basebackup sink that performs zstd compression.
*/
bbsink *
bbsink_zstd_new(bbsink *next, pg_compress_specification *compress)
{
#ifndef USE_ZSTD
ereport(ERROR,
(errcode(ERRCODE_FEATURE_NOT_SUPPORTED),
errmsg("zstd compression is not supported by this build")));
return NULL; /* keep compiler quiet */
#else
bbsink_zstd *sink;
Assert(next != NULL);
sink = palloc0(sizeof(bbsink_zstd));
*((const bbsink_ops **) &sink->base.bbs_ops) = &bbsink_zstd_ops;
sink->base.bbs_next = next;
sink->compress = compress;
return &sink->base;
#endif
}
#ifdef USE_ZSTD
/*
* Begin backup.
*/
static void
bbsink_zstd_begin_backup(bbsink *sink)
{
bbsink_zstd *mysink = (bbsink_zstd *) sink;
size_t output_buffer_bound;
size_t ret;
pg_compress_specification *compress = mysink->compress;
mysink->cctx = ZSTD_createCCtx();
if (!mysink->cctx)
elog(ERROR, "could not create zstd compression context");
ret = ZSTD_CCtx_setParameter(mysink->cctx, ZSTD_c_compressionLevel,
compress->level);
if (ZSTD_isError(ret))
elog(ERROR, "could not set zstd compression level to %d: %s",
compress->level, ZSTD_getErrorName(ret));
if ((compress->options & PG_COMPRESSION_OPTION_WORKERS) != 0)
{
/*
* On older versions of libzstd, this option does not exist, and
* trying to set it will fail. Similarly for newer versions if they
* are compiled without threading support.
*/
ret = ZSTD_CCtx_setParameter(mysink->cctx, ZSTD_c_nbWorkers,
compress->workers);
if (ZSTD_isError(ret))
ereport(ERROR,
errcode(ERRCODE_INVALID_PARAMETER_VALUE),
errmsg("could not set compression worker count to %d: %s",
compress->workers, ZSTD_getErrorName(ret)));
}
/*
* 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);
/*
* Make sure that the next sink's bbs_buffer is big enough to accommodate
* the compressed input buffer.
*/
output_buffer_bound = ZSTD_compressBound(mysink->base.bbs_buffer_length);
/*
* 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_zstd_begin_archive(bbsink *sink, const char *archive_name)
{
bbsink_zstd *mysink = (bbsink_zstd *) sink;
char *zstd_archive_name;
/*
* At the start of each archive we reset the state to start a new
* compression operation. The parameters are sticky and they will stick
* around as we are resetting with option ZSTD_reset_session_only.
*/
ZSTD_CCtx_reset(mysink->cctx, ZSTD_reset_session_only);
mysink->zstd_outBuf.dst = mysink->base.bbs_next->bbs_buffer;
mysink->zstd_outBuf.size = mysink->base.bbs_next->bbs_buffer_length;
mysink->zstd_outBuf.pos = 0;
/* Add ".zst" to the archive name. */
zstd_archive_name = psprintf("%s.zst", archive_name);
Assert(sink->bbs_next != NULL);
bbsink_begin_archive(sink->bbs_next, zstd_archive_name);
pfree(zstd_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 the 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_zstd_end_archive() is invoked.
*/
static void
bbsink_zstd_archive_contents(bbsink *sink, size_t len)
{
bbsink_zstd *mysink = (bbsink_zstd *) sink;
ZSTD_inBuffer inBuf = {mysink->base.bbs_buffer, len, 0};
while (inBuf.pos < inBuf.size)
{
size_t yet_to_flush;
size_t max_needed = ZSTD_compressBound(inBuf.size - inBuf.pos);
/*
* If the out buffer is not left with enough space, send the output
* buffer to the next sink, and reset it.
*/
if (mysink->zstd_outBuf.size - mysink->zstd_outBuf.pos < max_needed)
{
bbsink_archive_contents(mysink->base.bbs_next,
mysink->zstd_outBuf.pos);
mysink->zstd_outBuf.dst = mysink->base.bbs_next->bbs_buffer;
mysink->zstd_outBuf.size =
mysink->base.bbs_next->bbs_buffer_length;
mysink->zstd_outBuf.pos = 0;
}
yet_to_flush = ZSTD_compressStream2(mysink->cctx, &mysink->zstd_outBuf,
&inBuf, ZSTD_e_continue);
if (ZSTD_isError(yet_to_flush))
elog(ERROR,
"could not compress data: %s",
ZSTD_getErrorName(yet_to_flush));
}
}
/*
* There might be some data inside zstd's internal buffers; we need to get that
* flushed out, also end the zstd frame and then get that forwarded to the
* successor sink as archive content.
*
* Then we can end processing for this archive.
*/
static void
bbsink_zstd_end_archive(bbsink *sink)
{
bbsink_zstd *mysink = (bbsink_zstd *) sink;
size_t yet_to_flush;
do
{
ZSTD_inBuffer in = {NULL, 0, 0};
size_t max_needed = ZSTD_compressBound(0);
/*
* If the out buffer is not left with enough space, send the output
* buffer to the next sink, and reset it.
*/
if (mysink->zstd_outBuf.size - mysink->zstd_outBuf.pos < max_needed)
{
bbsink_archive_contents(mysink->base.bbs_next,
mysink->zstd_outBuf.pos);
mysink->zstd_outBuf.dst = mysink->base.bbs_next->bbs_buffer;
mysink->zstd_outBuf.size =
mysink->base.bbs_next->bbs_buffer_length;
mysink->zstd_outBuf.pos = 0;
}
yet_to_flush = ZSTD_compressStream2(mysink->cctx,
&mysink->zstd_outBuf,
&in, ZSTD_e_end);
if (ZSTD_isError(yet_to_flush))
elog(ERROR, "could not compress data: %s",
ZSTD_getErrorName(yet_to_flush));
} while (yet_to_flush > 0);
/* Make sure to pass any remaining bytes to the next sink. */
if (mysink->zstd_outBuf.pos > 0)
bbsink_archive_contents(mysink->base.bbs_next,
mysink->zstd_outBuf.pos);
/* Pass on the information that this archive has ended. */
bbsink_forward_end_archive(sink);
}
/*
* Free the resources and context.
*/
static void
bbsink_zstd_end_backup(bbsink *sink, XLogRecPtr endptr,
TimeLineID endtli)
{
bbsink_zstd *mysink = (bbsink_zstd *) sink;
/* Release the context. */
if (mysink->cctx)
{
ZSTD_freeCCtx(mysink->cctx);
mysink->cctx = NULL;
}
bbsink_forward_end_backup(sink, endptr, endtli);
}
/*
* 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_zstd_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 any compression context that
* got allocated, so that we don't leak memory.
*/
static void
bbsink_zstd_cleanup(bbsink *sink)
{
bbsink_zstd *mysink = (bbsink_zstd *) sink;
/* Release the context if not already released. */
if (mysink->cctx)
{
ZSTD_freeCCtx(mysink->cctx);
mysink->cctx = NULL;
}
}
#endif
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