225 lines
6.0 KiB
C
Executable File
225 lines
6.0 KiB
C
Executable File
/*
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* Copyright (C) 2013 Red Hat, GmbH
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*
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* This file is released under the GPL
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*
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*
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* Calculates device-mapper thin privisioning
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* metadata device size based on pool, block size and
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* maximum expected thin provisioned devices and snapshots.
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*
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*/
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#include <getopt.h>
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#include <libgen.h>
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#include <math.h>
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#include <stdio.h>
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#include <stdlib.h>
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#include <string.h>
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/*----------------------------------------------------------------*/
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static char *prg; /* program name */
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enum numeric_options { BLOCKSIZE, POOLSIZE, MAXTHINS, NUMERIC, OPT_END};
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enum return_units { RETURN_BYTES, RETURN_SECTORS };
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struct global {
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#define UNIT_ARRAY_SZ 18
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struct {
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char *chars;
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char *strings[UNIT_ARRAY_SZ];
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unsigned long long factors[UNIT_ARRAY_SZ];
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} unit;
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struct options {
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unsigned long long n[OPT_END];
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char unit;
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} options;
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};
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#define bytes_per_sector g->unit.factors[1]
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static struct global *init(void)
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{
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unsigned u;
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static struct global r;
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static char *unit_strings[] = { "bytes", "sectors",
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"kilobytes", "kibibytes", "megabytes", "mebibytes",
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"gigabytes", "gibibytes", "terabytes", "tebibytes",
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"petabytes", "pebibytes", "exabytes", "ebibytes",
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"zetabytes", "zebibytes", "yottabytes", "yobibytes" };
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memset(&r, 0, sizeof(r));
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r.unit.chars = "bskKmMgGtTpPeEzZyY";
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u = 0;
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r.unit.factors[u++] = 1;
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r.unit.factors[u++] = 512;
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r.unit.factors[u++] = 1024;
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r.unit.factors[u++] = 1000;
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for ( ; u < UNIT_ARRAY_SZ; u += 2) {
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r.unit.factors[u] = r.unit.factors[2] * r.unit.factors[u - 2];
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r.unit.factors[u+1] = r.unit.factors[3] * r.unit.factors[u - 1];
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}
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for (u = UNIT_ARRAY_SZ; u--; )
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r.unit.strings[u] = unit_strings[u];
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r.options.unit = 's';
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return &r;
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}
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static unsigned get_index(struct global *g, char unit_char)
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{
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char *o = strchr(g->unit.chars, unit_char);
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return o ? o - g->unit.chars : 1;
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}
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static void abort_prg(const char *msg)
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{
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fprintf(stderr, "%s - %s\n", prg, msg);
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exit(1);
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}
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static void check_opts(struct options *options)
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{
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if (!options->n[BLOCKSIZE] || !options->n[POOLSIZE] || !options->n[MAXTHINS])
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abort_prg("3 arguments required!");
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else if (options->n[BLOCKSIZE] & (options->n[BLOCKSIZE] - 1))
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abort_prg("block size must be 2^^N");
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else if (options->n[POOLSIZE] < options->n[BLOCKSIZE])
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abort_prg("POOLSIZE must be much larger than BLOCKSIZE");
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else if (!options->n[MAXTHINS])
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abort_prg("maximum number of thin provisioned devices must be > 0");
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}
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static unsigned long long to_bytes(struct global *g, char *sz, enum return_units unit)
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{
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unsigned len = strlen(sz);
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unsigned long long r;
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char uc = 's', *us = strchr(g->unit.chars, sz[len-1]);
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if (us)
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uc = *us, sz[len-1] = 0;
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r = atoll(sz) * g->unit.factors[get_index(g, uc)];
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return (!us || unit == RETURN_SECTORS) ? r / bytes_per_sector : r;
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}
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static void printf_aligned(struct global *g, char *a, char *b, char *c, int units)
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{
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char buf[80];
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strcpy(buf, b);
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if (units)
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strcat(buf, "["), strcat(buf, g->unit.chars), strcat(buf, "]");
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printf("\t%-4s%-45s%s\n", a, buf, c);
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}
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static void help(struct global *g)
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{
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printf ("Thin Provisioning Metadata Device Size Calculator.\nUsage: %s [opts]\n", prg);
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printf_aligned(g, "-b", "--block-size BLOCKSIZE", "Block size of thin provisioned devices.", 1);
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printf_aligned(g, "-s", "--pool-size SIZE", "Size of pool device.", 1);
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printf_aligned(g, "-m", "--max-thins #MAXTHINS", "Maximum sum of all thin devices and snapshots.", 1);
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printf_aligned(g, "-u", "--unit ", "Output unit specifier.", 1);
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printf_aligned(g, "-n", "--numeric-only", "Output numeric value only.", 0);
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printf_aligned(g, "-h", "--help", "This help.", 0);
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exit(0);
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}
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static void check_unit(struct global *g, char *arg)
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{
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if (*(arg + 1))
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abort_prg("only one unit specifier allowed!");
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else if (!strchr(g->unit.chars, *arg))
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abort_prg("output unit specifier invalid!");
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g->options.unit = *arg;
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}
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static struct global *parse_command_line(struct global *g, int argc, char **argv)
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{
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int c;
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static struct option long_options[] = {
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{"block-size", required_argument, 0, 'b' },
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{"pool-size", required_argument, 0, 's' },
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{"max-thins", required_argument, 0, 'm' },
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{"unit", required_argument, 0, 'u' },
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{"numeric-only",required_argument, 0, 'n' },
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{"help", no_argument, 0, 'h' },
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{NULL, 0, 0, 0 }
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};
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while ((c = getopt_long(argc, argv, "b:s:m:u:nh", long_options, NULL)) != -1) {
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if (c == 'b')
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g->options.n[BLOCKSIZE] = to_bytes(g, optarg, RETURN_SECTORS);
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else if (c == 's')
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g->options.n[POOLSIZE] = to_bytes(g, optarg, RETURN_SECTORS);
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else if (c == 'm')
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g->options.n[MAXTHINS] = to_bytes(g, optarg, RETURN_BYTES);
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else if (c == 'u')
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check_unit(g, optarg);
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else if (c == 'n')
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g->options.n[NUMERIC] = 1;
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else if (c == 'h')
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help(g);
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else
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abort_prg("Invalid option!");
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}
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check_opts(&g->options);
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return g;
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}
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static const unsigned mappings_per_block(void)
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{
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const struct {
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const unsigned node;
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const unsigned node_header;
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const unsigned entry;
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} btree_size = { 4096, 64, 16 };
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return (btree_size.node - btree_size.node_header) / btree_size.entry;
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}
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static void printf_precision(double r, int full, char *unit_str)
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{
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double rtrunc = truncl(r);
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if (full)
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printf("%s - estimated metadata area size is ", prg);
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if (r == rtrunc)
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printf("%llu", (unsigned long long) r);
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else
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printf(r - truncl(r) < 1E-2 ? "%0.2e" : "%0.2f", r);
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if (full)
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printf(" %s", unit_str);
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putchar('\n');
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}
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static void estimated_result(struct global *g)
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{
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unsigned idx = get_index(g, g->options.unit);
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double r;
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/* double-fold # of nodes, because they aren't fully populated in average */
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r = (1.0 + (2 * g->options.n[POOLSIZE] / g->options.n[BLOCKSIZE] / mappings_per_block() + g->options.n[MAXTHINS])) * 8 * bytes_per_sector; /* in bytes! */
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r /= g->unit.factors[idx]; /* in requested unit */
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printf_precision(r, !g->options.n[NUMERIC], g->unit.strings[idx]);
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}
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int main(int argc, char **argv)
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{
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prg = basename(*argv);
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estimated_result(parse_command_line(init(), argc, argv));
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return 0;
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}
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