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/*-------------------------------------------------------------------------
*
* mac.c
* PostgreSQL type definitions for 6 byte, EUI-48, MAC addresses.
*
* Portions Copyright (c) 1998-2021, PostgreSQL Global Development Group
*
* IDENTIFICATION
* src/backend/utils/adt/mac.c
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
#include "common/hashfn.h"
#include "lib/hyperloglog.h"
#include "libpq/pqformat.h"
#include "port/pg_bswap.h"
#include "utils/builtins.h"
#include "utils/guc.h"
#include "utils/inet.h"
#include "utils/sortsupport.h"
/*
* Utility macros used for sorting and comparing:
*/
#define hibits(addr) \
((unsigned long)(((addr)->a<<16)|((addr)->b<<8)|((addr)->c)))
#define lobits(addr) \
((unsigned long)(((addr)->d<<16)|((addr)->e<<8)|((addr)->f)))
/* sortsupport for macaddr */
typedef struct
{
int64 input_count; /* number of non-null values seen */
bool estimating; /* true if estimating cardinality */
hyperLogLogState abbr_card; /* cardinality estimator */
} macaddr_sortsupport_state;
static int macaddr_cmp_internal(macaddr *a1, macaddr *a2);
static int macaddr_fast_cmp(Datum x, Datum y, SortSupport ssup);
static int macaddr_cmp_abbrev(Datum x, Datum y, SortSupport ssup);
static bool macaddr_abbrev_abort(int memtupcount, SortSupport ssup);
static Datum macaddr_abbrev_convert(Datum original, SortSupport ssup);
/*
* MAC address reader. Accepts several common notations.
*/
Datum
macaddr_in(PG_FUNCTION_ARGS)
{
char *str = PG_GETARG_CSTRING(0);
macaddr *result;
int a,
b,
c,
d,
e,
f;
char junk[2];
int count;
/* %1s matches iff there is trailing non-whitespace garbage */
count = sscanf(str, "%x:%x:%x:%x:%x:%x%1s",
&a, &b, &c, &d, &e, &f, junk);
if (count != 6)
count = sscanf(str, "%x-%x-%x-%x-%x-%x%1s",
&a, &b, &c, &d, &e, &f, junk);
if (count != 6)
count = sscanf(str, "%2x%2x%2x:%2x%2x%2x%1s",
&a, &b, &c, &d, &e, &f, junk);
if (count != 6)
count = sscanf(str, "%2x%2x%2x-%2x%2x%2x%1s",
&a, &b, &c, &d, &e, &f, junk);
if (count != 6)
count = sscanf(str, "%2x%2x.%2x%2x.%2x%2x%1s",
&a, &b, &c, &d, &e, &f, junk);
if (count != 6)
count = sscanf(str, "%2x%2x-%2x%2x-%2x%2x%1s",
&a, &b, &c, &d, &e, &f, junk);
if (count != 6)
count = sscanf(str, "%2x%2x%2x%2x%2x%2x%1s",
&a, &b, &c, &d, &e, &f, junk);
if (count != 6)
ereport(ERROR,
(errcode(ERRCODE_INVALID_TEXT_REPRESENTATION),
errmsg("invalid input syntax for type %s: \"%s\"", "macaddr",
str)));
if ((a < 0) || (a > 255) || (b < 0) || (b > 255) ||
(c < 0) || (c > 255) || (d < 0) || (d > 255) ||
(e < 0) || (e > 255) || (f < 0) || (f > 255))
ereport(ERROR,
(errcode(ERRCODE_NUMERIC_VALUE_OUT_OF_RANGE),
errmsg("invalid octet value in \"macaddr\" value: \"%s\"", str)));
result = (macaddr *) palloc(sizeof(macaddr));
result->a = a;
result->b = b;
result->c = c;
result->d = d;
result->e = e;
result->f = f;
PG_RETURN_MACADDR_P(result);
}
/*
* MAC address output function. Fixed format.
*/
Datum
macaddr_out(PG_FUNCTION_ARGS)
{
macaddr *addr = PG_GETARG_MACADDR_P(0);
char *result;
result = (char *) palloc(32);
snprintf(result, 32, "%02x:%02x:%02x:%02x:%02x:%02x",
addr->a, addr->b, addr->c, addr->d, addr->e, addr->f);
PG_RETURN_CSTRING(result);
}
/*
* macaddr_recv - converts external binary format to macaddr
*
* The external representation is just the six bytes, MSB first.
*/
Datum
macaddr_recv(PG_FUNCTION_ARGS)
{
StringInfo buf = (StringInfo) PG_GETARG_POINTER(0);
macaddr *addr;
addr = (macaddr *) palloc(sizeof(macaddr));
addr->a = pq_getmsgbyte(buf);
addr->b = pq_getmsgbyte(buf);
addr->c = pq_getmsgbyte(buf);
addr->d = pq_getmsgbyte(buf);
addr->e = pq_getmsgbyte(buf);
addr->f = pq_getmsgbyte(buf);
PG_RETURN_MACADDR_P(addr);
}
/*
* macaddr_send - converts macaddr to binary format
*/
Datum
macaddr_send(PG_FUNCTION_ARGS)
{
macaddr *addr = PG_GETARG_MACADDR_P(0);
StringInfoData buf;
pq_begintypsend(&buf);
pq_sendbyte(&buf, addr->a);
pq_sendbyte(&buf, addr->b);
pq_sendbyte(&buf, addr->c);
pq_sendbyte(&buf, addr->d);
pq_sendbyte(&buf, addr->e);
pq_sendbyte(&buf, addr->f);
PG_RETURN_BYTEA_P(pq_endtypsend(&buf));
}
/*
* Comparison function for sorting:
*/
static int
macaddr_cmp_internal(macaddr *a1, macaddr *a2)
{
if (hibits(a1) < hibits(a2))
return -1;
else if (hibits(a1) > hibits(a2))
return 1;
else if (lobits(a1) < lobits(a2))
return -1;
else if (lobits(a1) > lobits(a2))
return 1;
else
return 0;
}
Datum
macaddr_cmp(PG_FUNCTION_ARGS)
{
macaddr *a1 = PG_GETARG_MACADDR_P(0);
macaddr *a2 = PG_GETARG_MACADDR_P(1);
PG_RETURN_INT32(macaddr_cmp_internal(a1, a2));
}
/*
* Boolean comparisons.
*/
Datum
macaddr_lt(PG_FUNCTION_ARGS)
{
macaddr *a1 = PG_GETARG_MACADDR_P(0);
macaddr *a2 = PG_GETARG_MACADDR_P(1);
PG_RETURN_BOOL(macaddr_cmp_internal(a1, a2) < 0);
}
Datum
macaddr_le(PG_FUNCTION_ARGS)
{
macaddr *a1 = PG_GETARG_MACADDR_P(0);
macaddr *a2 = PG_GETARG_MACADDR_P(1);
PG_RETURN_BOOL(macaddr_cmp_internal(a1, a2) <= 0);
}
Datum
macaddr_eq(PG_FUNCTION_ARGS)
{
macaddr *a1 = PG_GETARG_MACADDR_P(0);
macaddr *a2 = PG_GETARG_MACADDR_P(1);
PG_RETURN_BOOL(macaddr_cmp_internal(a1, a2) == 0);
}
Datum
macaddr_ge(PG_FUNCTION_ARGS)
{
macaddr *a1 = PG_GETARG_MACADDR_P(0);
macaddr *a2 = PG_GETARG_MACADDR_P(1);
PG_RETURN_BOOL(macaddr_cmp_internal(a1, a2) >= 0);
}
Datum
macaddr_gt(PG_FUNCTION_ARGS)
{
macaddr *a1 = PG_GETARG_MACADDR_P(0);
macaddr *a2 = PG_GETARG_MACADDR_P(1);
PG_RETURN_BOOL(macaddr_cmp_internal(a1, a2) > 0);
}
Datum
macaddr_ne(PG_FUNCTION_ARGS)
{
macaddr *a1 = PG_GETARG_MACADDR_P(0);
macaddr *a2 = PG_GETARG_MACADDR_P(1);
PG_RETURN_BOOL(macaddr_cmp_internal(a1, a2) != 0);
}
/*
* Support function for hash indexes on macaddr.
*/
Datum
hashmacaddr(PG_FUNCTION_ARGS)
{
macaddr *key = PG_GETARG_MACADDR_P(0);
return hash_any((unsigned char *) key, sizeof(macaddr));
}
Datum
hashmacaddrextended(PG_FUNCTION_ARGS)
{
macaddr *key = PG_GETARG_MACADDR_P(0);
return hash_any_extended((unsigned char *) key, sizeof(macaddr),
PG_GETARG_INT64(1));
}
/*
* Arithmetic functions: bitwise NOT, AND, OR.
*/
Datum
macaddr_not(PG_FUNCTION_ARGS)
{
macaddr *addr = PG_GETARG_MACADDR_P(0);
macaddr *result;
result = (macaddr *) palloc(sizeof(macaddr));
result->a = ~addr->a;
result->b = ~addr->b;
result->c = ~addr->c;
result->d = ~addr->d;
result->e = ~addr->e;
result->f = ~addr->f;
PG_RETURN_MACADDR_P(result);
}
Datum
macaddr_and(PG_FUNCTION_ARGS)
{
macaddr *addr1 = PG_GETARG_MACADDR_P(0);
macaddr *addr2 = PG_GETARG_MACADDR_P(1);
macaddr *result;
result = (macaddr *) palloc(sizeof(macaddr));
result->a = addr1->a & addr2->a;
result->b = addr1->b & addr2->b;
result->c = addr1->c & addr2->c;
result->d = addr1->d & addr2->d;
result->e = addr1->e & addr2->e;
result->f = addr1->f & addr2->f;
PG_RETURN_MACADDR_P(result);
}
Datum
macaddr_or(PG_FUNCTION_ARGS)
{
macaddr *addr1 = PG_GETARG_MACADDR_P(0);
macaddr *addr2 = PG_GETARG_MACADDR_P(1);
macaddr *result;
result = (macaddr *) palloc(sizeof(macaddr));
result->a = addr1->a | addr2->a;
result->b = addr1->b | addr2->b;
result->c = addr1->c | addr2->c;
result->d = addr1->d | addr2->d;
result->e = addr1->e | addr2->e;
result->f = addr1->f | addr2->f;
PG_RETURN_MACADDR_P(result);
}
/*
* Truncation function to allow comparing mac manufacturers.
* From suggestion by Alex Pilosov <alex@pilosoft.com>
*/
Datum
macaddr_trunc(PG_FUNCTION_ARGS)
{
macaddr *addr = PG_GETARG_MACADDR_P(0);
macaddr *result;
result = (macaddr *) palloc(sizeof(macaddr));
result->a = addr->a;
result->b = addr->b;
result->c = addr->c;
result->d = 0;
result->e = 0;
result->f = 0;
PG_RETURN_MACADDR_P(result);
}
/*
* SortSupport strategy function. Populates a SortSupport struct with the
* information necessary to use comparison by abbreviated keys.
*/
Datum
macaddr_sortsupport(PG_FUNCTION_ARGS)
{
SortSupport ssup = (SortSupport) PG_GETARG_POINTER(0);
ssup->comparator = macaddr_fast_cmp;
ssup->ssup_extra = NULL;
if (ssup->abbreviate)
{
macaddr_sortsupport_state *uss;
MemoryContext oldcontext;
oldcontext = MemoryContextSwitchTo(ssup->ssup_cxt);
uss = palloc(sizeof(macaddr_sortsupport_state));
uss->input_count = 0;
uss->estimating = true;
initHyperLogLog(&uss->abbr_card, 10);
ssup->ssup_extra = uss;
ssup->comparator = macaddr_cmp_abbrev;
ssup->abbrev_converter = macaddr_abbrev_convert;
ssup->abbrev_abort = macaddr_abbrev_abort;
ssup->abbrev_full_comparator = macaddr_fast_cmp;
MemoryContextSwitchTo(oldcontext);
}
PG_RETURN_VOID();
}
/*
* SortSupport "traditional" comparison function. Pulls two MAC addresses from
* the heap and runs a standard comparison on them.
*/
static int
macaddr_fast_cmp(Datum x, Datum y, SortSupport ssup)
{
macaddr *arg1 = DatumGetMacaddrP(x);
macaddr *arg2 = DatumGetMacaddrP(y);
return macaddr_cmp_internal(arg1, arg2);
}
/*
* SortSupport abbreviated key comparison function. Compares two MAC addresses
* quickly by treating them like integers, and without having to go to the
* heap.
*/
static int
macaddr_cmp_abbrev(Datum x, Datum y, SortSupport ssup)
{
if (x > y)
return 1;
else if (x == y)
return 0;
else
return -1;
}
/*
* Callback for estimating effectiveness of abbreviated key optimization.
*
* We pay no attention to the cardinality of the non-abbreviated data, because
* there is no equality fast-path within authoritative macaddr comparator.
*/
static bool
macaddr_abbrev_abort(int memtupcount, SortSupport ssup)
{
macaddr_sortsupport_state *uss = ssup->ssup_extra;
double abbr_card;
if (memtupcount < 10000 || uss->input_count < 10000 || !uss->estimating)
return false;
abbr_card = estimateHyperLogLog(&uss->abbr_card);
/*
* If we have >100k distinct values, then even if we were sorting many
* billion rows we'd likely still break even, and the penalty of undoing
* that many rows of abbrevs would probably not be worth it. At this point
* we stop counting because we know that we're now fully committed.
*/
if (abbr_card > 100000.0)
{
#ifdef TRACE_SORT
if (trace_sort)
elog(LOG,
"macaddr_abbrev: estimation ends at cardinality %f"
" after " INT64_FORMAT " values (%d rows)",
abbr_card, uss->input_count, memtupcount);
#endif
uss->estimating = false;
return false;
}
/*
* Target minimum cardinality is 1 per ~2k of non-null inputs. 0.5 row
* fudge factor allows us to abort earlier on genuinely pathological data
* where we've had exactly one abbreviated value in the first 2k
* (non-null) rows.
*/
if (abbr_card < uss->input_count / 2000.0 + 0.5)
{
#ifdef TRACE_SORT
if (trace_sort)
elog(LOG,
"macaddr_abbrev: aborting abbreviation at cardinality %f"
" below threshold %f after " INT64_FORMAT " values (%d rows)",
abbr_card, uss->input_count / 2000.0 + 0.5, uss->input_count,
memtupcount);
#endif
return true;
}
#ifdef TRACE_SORT
if (trace_sort)
elog(LOG,
"macaddr_abbrev: cardinality %f after " INT64_FORMAT
" values (%d rows)", abbr_card, uss->input_count, memtupcount);
#endif
return false;
}
/*
* SortSupport conversion routine. Converts original macaddr representation
* to abbreviated key representation.
*
* Packs the bytes of a 6-byte MAC address into a Datum and treats it as an
* unsigned integer for purposes of comparison. On a 64-bit machine, there
* will be two zeroed bytes of padding. The integer is converted to native
* endianness to facilitate easy comparison.
*/
static Datum
macaddr_abbrev_convert(Datum original, SortSupport ssup)
{
macaddr_sortsupport_state *uss = ssup->ssup_extra;
macaddr *authoritative = DatumGetMacaddrP(original);
Datum res;
/*
* On a 64-bit machine, zero out the 8-byte datum and copy the 6 bytes of
* the MAC address in. There will be two bytes of zero padding on the end
* of the least significant bits.
*/
#if SIZEOF_DATUM == 8
memset(&res, 0, SIZEOF_DATUM);
memcpy(&res, authoritative, sizeof(macaddr));
#else /* SIZEOF_DATUM != 8 */
memcpy(&res, authoritative, SIZEOF_DATUM);
#endif
uss->input_count += 1;
/*
* Cardinality estimation. The estimate uses uint32, so on a 64-bit
* architecture, XOR the two 32-bit halves together to produce slightly
* more entropy. The two zeroed bytes won't have any practical impact on
* this operation.
*/
if (uss->estimating)
{
uint32 tmp;
#if SIZEOF_DATUM == 8
tmp = (uint32) res ^ (uint32) ((uint64) res >> 32);
#else /* SIZEOF_DATUM != 8 */
tmp = (uint32) res;
#endif
addHyperLogLog(&uss->abbr_card, DatumGetUInt32(hash_uint32(tmp)));
}
/*
* Byteswap on little-endian machines.
*
* This is needed so that macaddr_cmp_abbrev() (an unsigned integer 3-way
* comparator) works correctly on all platforms. Without this, the
* comparator would have to call memcmp() with a pair of pointers to the
* first byte of each abbreviated key, which is slower.
*/
res = DatumBigEndianToNative(res);
return res;
}
|