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thin_metadata_size: support short/long --numeric-only options; man page adjustment; change long output; stremaline

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This commit is contained in:
Heinz Mauelshagen
2013-07-18 14:03:27 +02:00
parent 175c70ecf2
commit 3ee6985bbc
2 changed files with 124 additions and 85 deletions
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20
man8/thin_metadata_size.8
View File

@@ -27,12 +27,12 @@ Maximum sum of all thin provisioned devices and snapshots.
Unit identifier supported to allow for convenient entry of large quantities, eg. 1000000 = 1M. Unit identifier supported to allow for convenient entry of large quantities, eg. 1000000 = 1M.
Default is absolut quantity without a number unit specifier. Default is absolut quantity without a number unit specifier.
.IP "\fB\-u, \-\-unit\fP \fI[bskKmMgGtTpPeEzZyY]\fP" .IP "\fB\-u, \-\-unit\fP \fI{bskKmMgGtTpPeEzZyY}\fP"
Output unit specifier in units of bytes,sectors,kilobytes,kibibytes,... respectively. Output unit specifier in units of bytes,sectors,kilobytes,kibibytes,... respectively.
Default is in sectors without an output unit specifier. Default is in sectors without an output unit specifier.
.IP "\fB\-n[u], \-\-numeric-only[=unit]\fP" .IP "\fB\-n, \-\-numeric-only [short|long]\fP"
Limit output to just the size number with the optional unit specifier character. Limit output to just the size number with the optional unit specifier character/string.
.IP "\fB\-h, \-\-help\fP" .IP "\fB\-h, \-\-help\fP"
Print help and exit. Print help and exit.
@@ -43,18 +43,22 @@ Output version information and exit.
.SH EXAMPLES .SH EXAMPLES
Calculates the thin privisioning metadata device size for block size 64 kilobytes, Calculates the thin privisioning metadata device size for block size 64 kilobytes,
pool size 1 terabytes and maximum number of thin provisioned devices and snapshots of 1000 pool size 1 terabytes and maximum number of thin provisioned devices and snapshots of 1000
in units of sectors with long output. in units of sectors with long output:
.sp .sp
.B thin_metadata_size -b64k -s1t -m1000 .B thin_metadata_size -b64k -s1t -m1000
Or (using the long options inmstead) for block size 1 gigabyte, pool size 1 petabytes and maximum number of thin provisioned devices Or (using the long options instead) for block size 1 gigabyte, pool size 1 petabytes and maximum number of thin provisioned devices
and snapshots of 1 million in units of gigabytes with numeric only output. and snapshots of 1 million with numeric only output in units of gigabytes:
.sp .sp
.B thin_metadata_size --block-size=1g --pool-size=1p --max-thins=1M --unit=g --numeric-only .B thin_metadata_size --block-size=1g --pool-size=1p --max-thins=1M --unit=g --numeric-only
Same as before (1g,1p,1M,numeric-only) but with unit specifier character appended. Same as before (1g,1p,1M,numeric-only) but with unit specifier character appended:
.sp .sp
.B thin_metadata_size --block-size=1g --pool-size=1p --max-thins=1M --unit=g --numeric-only=unit .B thin_metadata_size --block-size=1giga --pool-size=1petabytes --max-thins=1mebi --unit=g --numeric-only=short
Or with unit specifier string appended:
.sp
.B thin_metadata_size --block-size=1giga --pool-size=1petabytes --max-thins=1mebi --unit=g -nlong
.SH DIAGNOSTICS .SH DIAGNOSTICS
.B thin_metadata_size .B thin_metadata_size

189
thin-provisioning/thin_metadata_size.c
View File

@@ -31,19 +31,26 @@
#include <string.h> #include <string.h>
#include "version.h" #include "version.h"
#include <search.h>
/*----------------------------------------------------------------*/ /*----------------------------------------------------------------*/
enum numeric_options { BLOCKSIZE, POOLSIZE, MAXTHINS, NUMERIC, OPT_END}; enum numeric_options { BLOCKSIZE, POOLSIZE, MAXTHINS, NUMERIC, OPT_END};
enum return_units { RETURN_BYTES, RETURN_SECTORS }; enum return_units { RETURN_BYTES, RETURN_SECTORS };
enum numeric_type { NO_NUMBER, NUMBER, NUMBER_SHORT, NUMBER_LONG };
typedef unsigned bool;
enum bool_value { false = 0, true = 1};
struct global { struct global {
char *prg; /* program name */ char *prg; /* program name */
/* Unit representations in characters, strings and numeric factors. */
struct { struct {
char *chars; char *chars;
char **strings; char **strings;
unsigned long long *factors; unsigned long long *factors;
} unit; } unit;
/* Command line option properties. */
struct options { struct options {
unsigned unit_idx; unsigned unit_idx;
char *s[OPT_END]; char *s[OPT_END];
@@ -53,55 +60,32 @@ struct global {
static void exit_prg(struct global *g, int ret) static void exit_prg(struct global *g, int ret)
{ {
if (g) if (g) {
unsigned u = OPT_END;
while (u--) {
if (g->options.s[u])
free (g->options.s[u]);
}
free(g); free(g);
}
exit(ret); exit(ret);
} }
static void abort_prg(struct global *g, const char *msg) static void abort_prg(struct global *g, const char *msg)
{ {
fprintf(stderr, "%s - %s\n", g->prg, msg); fprintf(stderr, "%s - %s\n", g ? g->prg : "fatal", msg);
exit_prg(g, 1); exit_prg(g, 1);
} }
static struct global *init_prg(char *prg_path) static int unit_index(struct global *g, char *unit_string)
{
unsigned u;
static char *unit_chars = "bskKmMgGtTpPeEzZyY";
static char *unit_strings[] = { "bytes", "sectors",
"kilobytes", "kibibytes", "megabytes", "mebibytes",
"gigabytes", "gibibytes", "terabytes", "tebibytes",
"petabytes", "pebibytes", "exabytes", "ebibytes",
"zetabytes", "zebibytes", "yottabytes", "yobibytes", NULL };
static unsigned long long unit_factors[18] = { 1, 512, 1024, 1000 };
struct global *r = malloc(sizeof(*r));
if (!r)
abort_prg(r, "failed to allocate global context!");
memset(r, 0, sizeof(*r));
for (u = 4; unit_strings[u]; u += 2) {
unit_factors[u] = unit_factors[u-2] * unit_factors[2];
unit_factors[u+1] = unit_factors[u-1] * unit_factors[3];
}
r->prg = basename(prg_path);
r->unit.chars = unit_chars;
r->unit.strings = unit_strings;
r->unit.factors = unit_factors;
return r;
}
#define bytes_per_sector(g) (g)->unit.factors[get_index(g, "sectors")]
static int get_index(struct global *g, char *unit_string)
{ {
unsigned len; unsigned len;
if (!unit_string) if (!unit_string)
return get_index(g, "sectors"); return unit_index(g, "sectors");
len = strlen(unit_string); len = strlen(unit_string);
if (len == 1) { if (len == 1) {
@@ -121,40 +105,76 @@ static int get_index(struct global *g, char *unit_string)
return -1; return -1;
} }
#define ARRAY_SIZE(a) (sizeof(a)/sizeof(a[0]))
static struct global *init_prg(char *prg_path)
{
unsigned u;
static char *unit_chars = "bskKmMgGtTpPeEzZyY";
static char *unit_strings[] = { "bytes", "sectors",
"kilobytes", "kibibytes", "megabytes", "mebibytes",
"gigabytes", "gibibytes", "terabytes", "tebibytes",
"petabytes", "pebibytes", "exabytes", "ebibytes",
"zetabytes", "zebibytes", "yottabytes", "yobibytes", NULL };
static unsigned long long unit_factors[ARRAY_SIZE(unit_strings) - 1] = { 1, 512, 1024, 1000 };
struct global *r = malloc(sizeof(*r));
if (!r)
abort_prg(r, "failed to allocate global context!");
memset(r, 0, sizeof(*r));
for (u = 4; unit_strings[u]; u += 2) {
unit_factors[u] = unit_factors[u-2] * unit_factors[2];
unit_factors[u+1] = unit_factors[u-1] * unit_factors[3];
}
r->prg = basename(prg_path);
r->unit.chars = unit_chars;
r->unit.strings = unit_strings;
r->unit.factors = unit_factors;
r->options.unit_idx = unit_index(r, NULL);
return r;
}
static unsigned long long bytes_per_sector(struct global *g)
{
return g->unit.factors[unit_index(g, "sectors")];
}
static void check_opts(struct global *g) static void check_opts(struct global *g)
{ {
struct options *o = &g->options; struct options *o = &g->options;
if (!o->n[BLOCKSIZE] || !o->n[POOLSIZE] || !o->n[MAXTHINS]) if (!o->n[BLOCKSIZE])
abort_prg(g, "3 arguments required!"); abort_prg(g, "block size required!");
else if (!o->n[POOLSIZE])
abort_prg(g, "pool size required!");
else if (!o->n[MAXTHINS])
abort_prg(g, "max thins required!");
else if (o->n[BLOCKSIZE] & (o->n[BLOCKSIZE] - 1)) else if (o->n[BLOCKSIZE] & (o->n[BLOCKSIZE] - 1))
abort_prg(g, "block size must be 2^^N"); abort_prg(g, "block size must be 2^^N");
else if (o->n[POOLSIZE] <= o->n[BLOCKSIZE]) else if (o->n[POOLSIZE] <= o->n[BLOCKSIZE])
abort_prg(g, "POOLSIZE must be larger than BLOCKSIZE"); abort_prg(g, "pool size must be larger than block size");
else if (!o->n[MAXTHINS])
abort_prg(g, "maximum number of thin provisioned devices must be > 0");
} }
static unsigned long long to_bytes(struct global *g, char *sz, enum return_units unit, int *index) static unsigned long long to_bytes(struct global *g, char *sz, enum return_units unit, int *index)
{ {
int idx; int idx;
unsigned long long r; unsigned long long r;
char *us; char *us = sz;
for (us = sz; *us; us++) {
if (!isdigit(*us))
break;
}
/* Get pointer to unit identifier. */
us += strspn(sz, "0123456789");
if (*us) { if (*us) {
idx = get_index(g, us); idx = unit_index(g, us);
if (idx < 0) if (idx < 0)
abort_prg(g, "Invalid unit specifier!"); abort_prg(g, "Invalid unit specifier!");
*us = 0; *us = 0;
*index = idx; *index = idx;
} else { } else {
idx = get_index(g, NULL); idx = unit_index(g, NULL);
us = NULL; us = NULL;
*index = -1; *index = -1;
} }
@@ -163,13 +183,13 @@ static unsigned long long to_bytes(struct global *g, char *sz, enum return_units
return (!us || unit == RETURN_SECTORS) ? r / bytes_per_sector(g) : r; return (!us || unit == RETURN_SECTORS) ? r / bytes_per_sector(g) : r;
} }
static void printf_aligned(struct global *g, char *a, char *b, char *c, int units) static void printf_aligned(struct global *g, char *a, char *b, char *c, bool units, bool mandatory)
{ {
char buf[80]; char buf[80];
strcpy(buf, b); strcpy(buf, b);
if (units) if (units)
strcat(buf, "["), strcat(buf, g->unit.chars), strcat(buf, "]"); strcat(buf, mandatory ? "{" :"["), strcat(buf, g->unit.chars), strcat(buf, mandatory ? "}" : "]");
printf("\t%-4s%-44s%s\n", a, buf, c); printf("\t%-4s%-44s%s\n", a, buf, c);
} }
@@ -177,13 +197,13 @@ static void printf_aligned(struct global *g, char *a, char *b, char *c, int unit
static void help(struct global *g) static void help(struct global *g)
{ {
printf ("Thin Provisioning Metadata Device Size Calculator.\nUsage: %s [options]\n", g->prg); printf ("Thin Provisioning Metadata Device Size Calculator.\nUsage: %s [options]\n", g->prg);
printf_aligned(g, "-b", "--block-size BLOCKSIZE", "Block size of thin provisioned devices.", 1); printf_aligned(g, "-b", "--block-size BLOCKSIZE", "Block size of thin provisioned devices.", true, false);
printf_aligned(g, "-s", "--pool-size SIZE", "Size of pool device.", 1); printf_aligned(g, "-s", "--pool-size SIZE", "Size of pool device.", true, false);
printf_aligned(g, "-m", "--max-thins #MAXTHINS", "Maximum sum of all thin devices and snapshots.", 1); printf_aligned(g, "-m", "--max-thins #MAXTHINS", "Maximum sum of all thin devices and snapshots.", true, false);
printf_aligned(g, "-u", "--unit ", "Output unit specifier.", 1); printf_aligned(g, "-u", "--unit ", "Output unit specifier.", true, true);
printf_aligned(g, "-n", "--numeric-only[=unit]", "Output numeric value only (optionally with unit identifier).", 0); printf_aligned(g, "-n", "--numeric-only [short|long]", "Output numeric value only (optionally with short/long unit identifier).", false, false);
printf_aligned(g, "-h", "--help", "This help.", 0); printf_aligned(g, "-h", "--help", "This help.", false, false);
printf_aligned(g, "-V", "--version", "Print thin provisioning tools version.", 0); printf_aligned(g, "-V", "--version", "Print thin provisioning tools version.", false, false);
exit_prg(g, 0); exit_prg(g, 0);
} }
@@ -195,7 +215,7 @@ static void version(struct global *g)
static void check_unit(struct global *g, char *arg) static void check_unit(struct global *g, char *arg)
{ {
int idx = get_index(g, arg); int idx = unit_index(g, arg);
if (idx < 0) if (idx < 0)
abort_prg(g, "output unit specifier invalid!"); abort_prg(g, "output unit specifier invalid!");
@@ -205,33 +225,41 @@ static void check_unit(struct global *g, char *arg)
static void check_numeric_option(struct global *g, char *arg) static void check_numeric_option(struct global *g, char *arg)
{ {
if (g->options.n[NUMERIC]) if (g->options.n[NUMERIC] != NO_NUMBER)
abort_prg(g, "-n already given!"); abort_prg(g, "-n already given!");
g->options.n[NUMERIC] = 1; g->options.n[NUMERIC] = NUMBER;
if (arg) { if (arg) {
if (!*arg || strncmp("unit", arg, strlen(arg))) bool unit_long = !strncmp("long", arg, strlen(arg));
if (!*arg || (strncmp("short", arg, strlen(arg)) && !unit_long))
abort_prg(g, "-n invalid option argument"); abort_prg(g, "-n invalid option argument");
g->options.n[NUMERIC]++; g->options.n[NUMERIC] = unit_long ? NUMBER_LONG : NUMBER_SHORT;
} }
} }
static void check_size(struct global *g, enum numeric_options o, char *arg) static void check_size(struct global *g, enum numeric_options o, char *arg)
{ {
int idx; int idx;
bool valid_index = true;
if (g->options.n[o]) if (g->options.n[o])
abort_prg(g, "option already given!"); abort_prg(g, "option already given!");
g->options.n[o] = to_bytes(g, arg, o == MAXTHINS ? RETURN_BYTES : RETURN_SECTORS, &idx); g->options.n[o] = to_bytes(g, arg, o == MAXTHINS ? RETURN_BYTES : RETURN_SECTORS, &idx);
g->options.s[o] = malloc(strlen(arg) + ((idx > -1) ? strlen(g->unit.strings[idx]) : 0) + 1); if (idx < 0) {
valid_index = false;
idx = g->options.unit_idx;
}
g->options.s[o] = malloc(strlen(arg) + strlen(g->unit.strings[idx]) + 1);
if (!g->options.s[o]) if (!g->options.s[o])
abort_prg(g, "failed to allocate string!"); abort_prg(g, "failed to allocate string!");
strcpy(g->options.s[o], arg); strcpy(g->options.s[o], arg);
if (idx > -1) if (o != MAXTHINS || valid_index)
strcat(g->options.s[o], g->unit.strings[idx]); strcat(g->options.s[o], g->unit.strings[idx]);
} }
@@ -247,7 +275,7 @@ static void parse_command_line(struct global *g, int argc, char **argv)
{"numeric-only",optional_argument, NULL, 'n' }, {"numeric-only",optional_argument, NULL, 'n' },
{"help", no_argument, NULL, 'h' }, {"help", no_argument, NULL, 'h' },
{"version", no_argument, NULL, 'V' }, {"version", no_argument, NULL, 'V' },
{NULL, 0, NULL, 0 } {NULL, 0, NULL, 0 }
}; };
while ((c = getopt_long(argc, argv, "b:s:m:u:n::hV", long_options, NULL)) != -1) { while ((c = getopt_long(argc, argv, "b:s:m:u:n::hV", long_options, NULL)) != -1) {
@@ -272,7 +300,7 @@ static void parse_command_line(struct global *g, int argc, char **argv)
case 'V': case 'V':
version(g); /* exits */ version(g); /* exits */
default: default:
abort_prg(g, "Invalid option!"); exit_prg(g, 1);
} }
} }
@@ -290,38 +318,45 @@ static const unsigned mappings_per_block(void)
return (btree_size.node - btree_size.node_header) / btree_size.entry; return (btree_size.node - btree_size.node_header) / btree_size.entry;
} }
static void printf_precision(struct global *g, double r, unsigned idx) static void print_precision(struct global *g, double r, unsigned idx)
{ {
int full = !g->options.n[NUMERIC]; bool full = !g->options.n[NUMERIC];
double rtrunc = truncl(r); double rtrunc = truncl(r);
if (full) if (full)
printf("%s - estimated metadata area size [blocksize=%s,poolsize=%s,maxthins=%s] is ", printf("%s - ", g->prg);
g->prg, g->options.s[BLOCKSIZE], g->options.s[POOLSIZE], g->options.s[MAXTHINS]);
if (r == rtrunc) if (r == rtrunc)
printf("%llu", (unsigned long long) r); printf("%llu", (unsigned long long) r);
else else
printf(r - truncl(r) < 1E-2 ? "%0.2e" : "%0.2f", r); printf(r - rtrunc < 1E-2 ? "%0.2e" : "%0.2f", r);
if (full) if (full)
printf(" %s", g->unit.strings[idx]); printf(" %s", g->unit.strings[idx]);
else if (g->options.n[NUMERIC] > 1) else if (g->options.n[NUMERIC] > NUMBER) {
printf("%c", g->unit.chars[idx]); if (g->options.n[NUMERIC] == NUMBER_SHORT)
printf("%c", g->unit.chars[idx]);
else
printf("%s", g->unit.strings[idx]);
}
if (full)
printf(" estimated metadata area size for \"--block-size=%s --pool-size=%s --max-thins=%s\"",
g->options.s[BLOCKSIZE], g->options.s[POOLSIZE], g->options.s[MAXTHINS]);
putchar('\n'); putchar('\n');
} }
static void print_estimated_result(struct global *g) static void print_estimated_result(struct global *g)
{ {
unsigned idx = g->options.unit_idx;
double r; double r;
/* double-fold # of nodes, because they aren't fully populated in average */ /* double-fold # of nodes, because they aren't fully populated in average */
r = (1.0 + (2 * g->options.n[POOLSIZE] / g->options.n[BLOCKSIZE] / mappings_per_block() + g->options.n[MAXTHINS])) * 8 * bytes_per_sector(g); /* in bytes! */ r = (1.0 + (2 * g->options.n[POOLSIZE] / g->options.n[BLOCKSIZE] / mappings_per_block() + g->options.n[MAXTHINS])); /* in 4k blocks */
r /= g->unit.factors[idx]; /* in requested unit */ r *= 8 * bytes_per_sector(g); /* in bytes! */
r /= g->unit.factors[g->options.unit_idx]; /* in requested unit */
printf_precision(g, r, idx); print_precision(g, r, g->options.unit_idx);
} }
int main(int argc, char **argv) int main(int argc, char **argv)