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apache / subversion / 1ec204733379f634e2704e1a08fe9833b78e0249 / . / subversion / svnfsfs / stats-cmd.c
blob: 2cd294a52147fa8e8f7989976292690379fd0aab [file] [log] [blame]
/* stats-cmd.c -- implements the size stats sub-command.
*
* ====================================================================
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing,
* software distributed under the License is distributed on an
* "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
* KIND, either express or implied. See the License for the
* specific language governing permissions and limitations
* under the License.
* ====================================================================
*/
#include <assert.h>
#include "svn_fs.h"
#include "svn_pools.h"
#include "svn_sorts.h"
#include "private/svn_sorts_private.h"
#include "private/svn_string_private.h"
#include "private/svn_fs_fs_private.h"
#include "svn_private_config.h"
#include "svnfsfs.h"
/* Return the string, allocated in RESULT_POOL, describing the value 2**I.
*/
static const char *
print_two_power(int i,
apr_pool_t *result_pool)
{
/* These are the SI prefixes for base-1000, the binary ones with base-1024
are too clumsy and require appending B for "byte" to be intelligible,
e.g. "MiB".
Therefore, we ignore the official standard and revert to the traditional
contextual use were the base-1000 prefixes are understood as base-1024
when it came to data sizes.
*/
const char *si_prefixes = " kMGTPEZY";
int number = (i >= 0) ? (1 << (i % 10)) : 0;
int thousands = (i >= 0) ? (i / 10) : 0;
char si_prefix = (thousands < strlen(si_prefixes))
? si_prefixes[thousands]
: '?';
if (si_prefix == ' ')
return apr_psprintf(result_pool, "%d", number);
return apr_psprintf(result_pool, "%d%c", number, si_prefix);
}
/* Print statistics for the given group of representations to console.
* Use POOL for allocations.
*/
static void
print_rep_stats(svn_fs_fs__representation_stats_t *stats,
apr_pool_t *pool)
{
printf(_("%20s bytes in %12s reps\n"
"%20s bytes in %12s shared reps\n"
"%20s bytes expanded size\n"
"%20s bytes expanded shared size\n"
"%20s bytes with rep-sharing off\n"
"%20s shared references\n"
"%20.3f average delta chain length\n"),
svn__ui64toa_sep(stats->total.packed_size, ',', pool),
svn__ui64toa_sep(stats->total.count, ',', pool),
svn__ui64toa_sep(stats->shared.packed_size, ',', pool),
svn__ui64toa_sep(stats->shared.count, ',', pool),
svn__ui64toa_sep(stats->total.expanded_size, ',', pool),
svn__ui64toa_sep(stats->shared.expanded_size, ',', pool),
svn__ui64toa_sep(stats->expanded_size, ',', pool),
svn__ui64toa_sep(stats->references - stats->total.count, ',', pool),
stats->chain_len / MAX(1.0, (double)stats->total.count));
}
/* Print the (used) contents of CHANGES. Use POOL for allocations.
*/
static void
print_largest_reps(svn_fs_fs__largest_changes_t *changes,
apr_pool_t *pool)
{
apr_size_t i;
for (i = 0; i < changes->count && changes->changes[i]->size; ++i)
printf(_("%12s r%-8ld %s\n"),
svn__ui64toa_sep(changes->changes[i]->size, ',', pool),
changes->changes[i]->revision,
changes->changes[i]->path->data);
}
/* Print the non-zero section of HISTOGRAM to console.
* Use POOL for allocations.
*/
static void
print_histogram(svn_fs_fs__histogram_t *histogram,
apr_pool_t *pool)
{
int first = 0;
int last = 63;
int i;
/* identify non-zero range */
while (last > 0 && histogram->lines[last].count == 0)
--last;
while (first <= last && histogram->lines[first].count == 0)
++first;
/* display histogram lines */
for (i = last; i >= first; --i)
printf(_(" %4s .. < %-4s %19s (%2d%%) bytes in %12s (%2d%%) items\n"),
print_two_power(i-1, pool), print_two_power(i, pool),
svn__ui64toa_sep(histogram->lines[i].sum, ',', pool),
(int)(histogram->lines[i].sum * 100 / histogram->total.sum),
svn__ui64toa_sep(histogram->lines[i].count, ',', pool),
(int)(histogram->lines[i].count * 100 / histogram->total.count));
}
/* COMPARISON_FUNC for svn_sort__hash.
* Sort extension_info_t values by total count in descending order.
*/
static int
compare_count(const svn_sort__item_t *a,
const svn_sort__item_t *b)
{
const svn_fs_fs__extension_info_t *lhs = a->value;
const svn_fs_fs__extension_info_t *rhs = b->value;
apr_int64_t diff = lhs->node_histogram.total.count
- rhs->node_histogram.total.count;
return diff > 0 ? -1 : (diff < 0 ? 1 : 0);
}
/* COMPARISON_FUNC for svn_sort__hash.
* Sort extension_info_t values by total uncompressed size in descending order.
*/
static int
compare_node_size(const svn_sort__item_t *a,
const svn_sort__item_t *b)
{
const svn_fs_fs__extension_info_t *lhs = a->value;
const svn_fs_fs__extension_info_t *rhs = b->value;
apr_int64_t diff = lhs->node_histogram.total.sum
- rhs->node_histogram.total.sum;
return diff > 0 ? -1 : (diff < 0 ? 1 : 0);
}
/* COMPARISON_FUNC for svn_sort__hash.
* Sort extension_info_t values by total prep count in descending order.
*/
static int
compare_rep_size(const svn_sort__item_t *a,
const svn_sort__item_t *b)
{
const svn_fs_fs__extension_info_t *lhs = a->value;
const svn_fs_fs__extension_info_t *rhs = b->value;
apr_int64_t diff = lhs->rep_histogram.total.sum
- rhs->rep_histogram.total.sum;
return diff > 0 ? -1 : (diff < 0 ? 1 : 0);
}
/* Return an array of extension_info_t* for the (up to) 16 most prominent
* extensions in STATS according to the sort criterion COMPARISON_FUNC.
* Allocate results in POOL.
*/
static apr_array_header_t *
get_by_extensions(svn_fs_fs__stats_t *stats,
int (*comparison_func)(const svn_sort__item_t *,
const svn_sort__item_t *),
apr_pool_t *pool)
{
/* sort all data by extension */
apr_array_header_t *sorted
= svn_sort__hash(stats->by_extension, comparison_func, pool);
/* select the top (first) 16 entries */
int count = MIN(sorted->nelts, 16);
apr_array_header_t *result
= apr_array_make(pool, count, sizeof(svn_fs_fs__extension_info_t*));
int i;
for (i = 0; i < count; ++i)
APR_ARRAY_PUSH(result, svn_fs_fs__extension_info_t*)
= APR_ARRAY_IDX(sorted, i, svn_sort__item_t).value;
return result;
}
/* Add all extension_info_t* entries of TO_ADD not already in TARGET to
* TARGET.
*/
static void
merge_by_extension(apr_array_header_t *target,
apr_array_header_t *to_add)
{
int i, k, count;
count = target->nelts;
for (i = 0; i < to_add->nelts; ++i)
{
svn_fs_fs__extension_info_t *info
= APR_ARRAY_IDX(to_add, i, svn_fs_fs__extension_info_t *);
for (k = 0; k < count; ++k)
if (info == APR_ARRAY_IDX(target, k, svn_fs_fs__extension_info_t *))
break;
if (k == count)
APR_ARRAY_PUSH(target, svn_fs_fs__extension_info_t*) = info;
}
}
/* Print the (up to) 16 extensions in STATS with the most changes.
* Use POOL for allocations.
*/
static void
print_extensions_by_changes(svn_fs_fs__stats_t *stats,
apr_pool_t *pool)
{
apr_array_header_t *data = get_by_extensions(stats, compare_count, pool);
apr_int64_t sum = 0;
int i;
for (i = 0; i < data->nelts; ++i)
{
svn_fs_fs__extension_info_t *info
= APR_ARRAY_IDX(data, i, svn_fs_fs__extension_info_t *);
/* If there are elements, then their count cannot be 0. */
assert(stats->file_histogram.total.count);
sum += info->node_histogram.total.count;
printf(_("%11s %20s (%2d%%) representations\n"),
info->extension,
svn__ui64toa_sep(info->node_histogram.total.count, ',', pool),
(int)(info->node_histogram.total.count * 100 /
stats->file_histogram.total.count));
}
if (stats->file_histogram.total.count)
{
printf(_("%11s %20s (%2d%%) representations\n"),
"(others)",
svn__ui64toa_sep(stats->file_histogram.total.count - sum, ',',
pool),
(int)((stats->file_histogram.total.count - sum) * 100 /
stats->file_histogram.total.count));
}
}
/* Calculate a percentage, handling edge cases. */
static int
get_percentage(apr_uint64_t part,
apr_uint64_t total)
{
/* This include total == 0. */
if (part >= total)
return 100;
/* Standard case. */
return (int)(part * 100.0 / total);
}
/* Print the (up to) 16 extensions in STATS with the largest total size of
* changed file content. Use POOL for allocations.
*/
static void
print_extensions_by_nodes(svn_fs_fs__stats_t *stats,
apr_pool_t *pool)
{
apr_array_header_t *data = get_by_extensions(stats, compare_node_size, pool);
apr_int64_t sum = 0;
int i;
for (i = 0; i < data->nelts; ++i)
{
svn_fs_fs__extension_info_t *info
= APR_ARRAY_IDX(data, i, svn_fs_fs__extension_info_t *);
sum += info->node_histogram.total.sum;
printf(_("%11s %20s (%2d%%) bytes\n"),
info->extension,
svn__ui64toa_sep(info->node_histogram.total.sum, ',', pool),
get_percentage(info->node_histogram.total.sum,
stats->file_histogram.total.sum));
}
if (stats->file_histogram.total.sum > sum)
{
/* Total sum can't be zero here. */
printf(_("%11s %20s (%2d%%) bytes\n"),
"(others)",
svn__ui64toa_sep(stats->file_histogram.total.sum - sum, ',',
pool),
get_percentage(stats->file_histogram.total.sum - sum,
stats->file_histogram.total.sum));
}
}
/* Print the (up to) 16 extensions in STATS with the largest total size of
* changed file content. Use POOL for allocations.
*/
static void
print_extensions_by_reps(svn_fs_fs__stats_t *stats,
apr_pool_t *pool)
{
apr_array_header_t *data = get_by_extensions(stats, compare_rep_size, pool);
apr_int64_t sum = 0;
int i;
for (i = 0; i < data->nelts; ++i)
{
svn_fs_fs__extension_info_t *info
= APR_ARRAY_IDX(data, i, svn_fs_fs__extension_info_t *);
sum += info->rep_histogram.total.sum;
printf(_("%11s %20s (%2d%%) bytes\n"),
info->extension,
svn__ui64toa_sep(info->rep_histogram.total.sum, ',', pool),
get_percentage(info->rep_histogram.total.sum,
stats->rep_size_histogram.total.sum));
}
if (stats->rep_size_histogram.total.sum > sum)
{
/* Total sum can't be zero here. */
printf(_("%11s %20s (%2d%%) bytes\n"),
"(others)",
svn__ui64toa_sep(stats->rep_size_histogram.total.sum - sum, ',',
pool),
get_percentage(stats->rep_size_histogram.total.sum - sum,
stats->rep_size_histogram.total.sum));
}
}
/* Print per-extension histograms for the most frequent extensions in STATS.
* Use POOL for allocations. */
static void
print_histograms_by_extension(svn_fs_fs__stats_t *stats,
apr_pool_t *pool)
{
apr_array_header_t *data = get_by_extensions(stats, compare_count, pool);
int i;
merge_by_extension(data, get_by_extensions(stats, compare_node_size, pool));
merge_by_extension(data, get_by_extensions(stats, compare_rep_size, pool));
for (i = 0; i < data->nelts; ++i)
{
svn_fs_fs__extension_info_t *info
= APR_ARRAY_IDX(data, i, svn_fs_fs__extension_info_t *);
printf("\nHistogram of '%s' file sizes:\n", info->extension);
print_histogram(&info->node_histogram, pool);
printf("\nHistogram of '%s' file representation sizes:\n",
info->extension);
print_histogram(&info->rep_histogram, pool);
}
}
/* Print the contents of STATS to the console.
* Use POOL for allocations.
*/
static void
print_stats(svn_fs_fs__stats_t *stats,
apr_pool_t *pool)
{
/* print results */
printf("\n\nGlobal statistics:\n");
printf(_("%20s bytes in %12s revisions\n"
"%20s bytes in %12s changes\n"
"%20s bytes in %12s node revision records\n"
"%20s bytes in %12s representations\n"
"%20s bytes expanded representation size\n"
"%20s bytes with rep-sharing off\n"),
svn__ui64toa_sep(stats->total_size, ',', pool),
svn__ui64toa_sep(stats->revision_count, ',', pool),
svn__ui64toa_sep(stats->change_len, ',', pool),
svn__ui64toa_sep(stats->change_count, ',', pool),
svn__ui64toa_sep(stats->total_node_stats.size, ',', pool),
svn__ui64toa_sep(stats->total_node_stats.count, ',', pool),
svn__ui64toa_sep(stats->total_rep_stats.total.packed_size, ',',
pool),
svn__ui64toa_sep(stats->total_rep_stats.total.count, ',', pool),
svn__ui64toa_sep(stats->total_rep_stats.total.expanded_size, ',',
pool),
svn__ui64toa_sep(stats->total_rep_stats.expanded_size, ',', pool));
printf("\nNoderev statistics:\n");
printf(_("%20s bytes in %12s nodes total\n"
"%20s bytes in %12s directory noderevs\n"
"%20s bytes in %12s file noderevs\n"),
svn__ui64toa_sep(stats->total_node_stats.size, ',', pool),
svn__ui64toa_sep(stats->total_node_stats.count, ',', pool),
svn__ui64toa_sep(stats->dir_node_stats.size, ',', pool),
svn__ui64toa_sep(stats->dir_node_stats.count, ',', pool),
svn__ui64toa_sep(stats->file_node_stats.size, ',', pool),
svn__ui64toa_sep(stats->file_node_stats.count, ',', pool));
printf("\nRepresentation statistics:\n");
printf(_("%20s bytes in %12s representations total\n"
"%20s bytes in %12s directory representations\n"
"%20s bytes in %12s file representations\n"
"%20s bytes in %12s representations of added file nodes\n"
"%20s bytes in %12s directory property representations\n"
"%20s bytes in %12s file property representations\n"
" with %12.3f average delta chain length\n"
"%20s bytes in header & footer overhead\n"),
svn__ui64toa_sep(stats->total_rep_stats.total.packed_size, ',',
pool),
svn__ui64toa_sep(stats->total_rep_stats.total.count, ',', pool),
svn__ui64toa_sep(stats->dir_rep_stats.total.packed_size, ',',
pool),
svn__ui64toa_sep(stats->dir_rep_stats.total.count, ',', pool),
svn__ui64toa_sep(stats->file_rep_stats.total.packed_size, ',',
pool),
svn__ui64toa_sep(stats->file_rep_stats.total.count, ',', pool),
svn__ui64toa_sep(stats->added_rep_size_histogram.total.sum, ',',
pool),
svn__ui64toa_sep(stats->added_rep_size_histogram.total.count, ',',
pool),
svn__ui64toa_sep(stats->dir_prop_rep_stats.total.packed_size, ',',
pool),
svn__ui64toa_sep(stats->dir_prop_rep_stats.total.count, ',', pool),
svn__ui64toa_sep(stats->file_prop_rep_stats.total.packed_size, ',',
pool),
svn__ui64toa_sep(stats->file_prop_rep_stats.total.count, ',', pool),
stats->total_rep_stats.chain_len
/ (double)stats->total_rep_stats.total.count,
svn__ui64toa_sep(stats->total_rep_stats.total.overhead_size, ',',
pool));
printf("\nDirectory representation statistics:\n");
print_rep_stats(&stats->dir_rep_stats, pool);
printf("\nFile representation statistics:\n");
print_rep_stats(&stats->file_rep_stats, pool);
printf("\nDirectory property representation statistics:\n");
print_rep_stats(&stats->dir_prop_rep_stats, pool);
printf("\nFile property representation statistics:\n");
print_rep_stats(&stats->file_prop_rep_stats, pool);
printf("\nLargest representations:\n");
print_largest_reps(stats->largest_changes, pool);
printf("\nExtensions by number of representations:\n");
print_extensions_by_changes(stats, pool);
printf("\nExtensions by size of changed files:\n");
print_extensions_by_nodes(stats, pool);
printf("\nExtensions by size of representations:\n");
print_extensions_by_reps(stats, pool);
printf("\nHistogram of expanded node sizes:\n");
print_histogram(&stats->node_size_histogram, pool);
printf("\nHistogram of representation sizes:\n");
print_histogram(&stats->rep_size_histogram, pool);
printf("\nHistogram of file sizes:\n");
print_histogram(&stats->file_histogram, pool);
printf("\nHistogram of file representation sizes:\n");
print_histogram(&stats->file_rep_histogram, pool);
printf("\nHistogram of file property sizes:\n");
print_histogram(&stats->file_prop_histogram, pool);
printf("\nHistogram of file property representation sizes:\n");
print_histogram(&stats->file_prop_rep_histogram, pool);
printf("\nHistogram of directory sizes:\n");
print_histogram(&stats->dir_histogram, pool);
printf("\nHistogram of directory representation sizes:\n");
print_histogram(&stats->dir_rep_histogram, pool);
printf("\nHistogram of directory property sizes:\n");
print_histogram(&stats->dir_prop_histogram, pool);
printf("\nHistogram of directory property representation sizes:\n");
print_histogram(&stats->dir_prop_rep_histogram, pool);
print_histograms_by_extension(stats, pool);
}
/* Our progress function simply prints the REVISION number and makes it
* appear immediately.
*/
static void
print_progress(svn_revnum_t revision,
void *baton,
apr_pool_t *pool)
{
printf("%8ld", revision);
fflush(stdout);
}
/* This implements `svn_opt_subcommand_t'. */
svn_error_t *
subcommand__stats(apr_getopt_t *os, void *baton, apr_pool_t *pool)
{
svnfsfs__opt_state *opt_state = baton;
svn_fs_fs__stats_t *stats;
svn_fs_t *fs;
printf("Reading revisions\n");
SVN_ERR(open_fs(&fs, opt_state->repository_path, pool));
SVN_ERR(svn_fs_fs__get_stats(&stats, fs, print_progress, NULL,
check_cancel, NULL, pool, pool));
print_stats(stats, pool);
return SVN_NO_ERROR;
}