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82bbb60c30
The macaddr opclass stores two macaddr structs (each of size 6) in an index column that's declared as being of type gbtreekey16, ie 16 bytes. In the original coding this led to passing a palloc'd value of size 12 to the index insertion code, so that data would be fetched past the end of the allocated value during index tuple construction. This makes valgrind unhappy. In principle it could result in a SIGSEGV, though with the current implementation of palloc there's no risk since the 12-byte request size would be rounded up to 16 bytes anyway. To fix, add a field to struct gbtree_ninfo showing the declared size of the index datums, and use that in the palloc requests; and use palloc0 to be sure that any wasted bytes are cleanly initialized. Per report from Andres Freund. No back-patch since there's no current risk of a real problem.
215 lines
4.6 KiB
C
215 lines
4.6 KiB
C
/*
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* contrib/btree_gist/btree_int4.c
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*/
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#include "postgres.h"
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#include "btree_gist.h"
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#include "btree_utils_num.h"
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typedef struct int32key
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{
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int32 lower;
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int32 upper;
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} int32KEY;
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/*
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** int32 ops
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*/
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PG_FUNCTION_INFO_V1(gbt_int4_compress);
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PG_FUNCTION_INFO_V1(gbt_int4_union);
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PG_FUNCTION_INFO_V1(gbt_int4_picksplit);
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PG_FUNCTION_INFO_V1(gbt_int4_consistent);
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PG_FUNCTION_INFO_V1(gbt_int4_distance);
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PG_FUNCTION_INFO_V1(gbt_int4_penalty);
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PG_FUNCTION_INFO_V1(gbt_int4_same);
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static bool
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gbt_int4gt(const void *a, const void *b)
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{
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return (*((const int32 *) a) > *((const int32 *) b));
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}
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static bool
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gbt_int4ge(const void *a, const void *b)
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{
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return (*((const int32 *) a) >= *((const int32 *) b));
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}
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static bool
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gbt_int4eq(const void *a, const void *b)
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{
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return (*((const int32 *) a) == *((const int32 *) b));
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}
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static bool
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gbt_int4le(const void *a, const void *b)
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{
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return (*((const int32 *) a) <= *((const int32 *) b));
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}
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static bool
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gbt_int4lt(const void *a, const void *b)
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{
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return (*((const int32 *) a) < *((const int32 *) b));
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}
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static int
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gbt_int4key_cmp(const void *a, const void *b)
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{
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int32KEY *ia = (int32KEY *) (((const Nsrt *) a)->t);
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int32KEY *ib = (int32KEY *) (((const Nsrt *) b)->t);
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if (ia->lower == ib->lower)
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{
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if (ia->upper == ib->upper)
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return 0;
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return (ia->upper > ib->upper) ? 1 : -1;
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}
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return (ia->lower > ib->lower) ? 1 : -1;
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}
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static float8
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gbt_int4_dist(const void *a, const void *b)
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{
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return GET_FLOAT_DISTANCE(int32, a, b);
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}
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static const gbtree_ninfo tinfo =
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{
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gbt_t_int4,
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sizeof(int32),
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8, /* sizeof(gbtreekey8) */
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gbt_int4gt,
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gbt_int4ge,
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gbt_int4eq,
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gbt_int4le,
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gbt_int4lt,
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gbt_int4key_cmp,
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gbt_int4_dist
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};
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PG_FUNCTION_INFO_V1(int4_dist);
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Datum
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int4_dist(PG_FUNCTION_ARGS)
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{
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int32 a = PG_GETARG_INT32(0);
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int32 b = PG_GETARG_INT32(1);
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int32 r;
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int32 ra;
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r = a - b;
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ra = Abs(r);
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/* Overflow check. */
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if (ra < 0 || (!SAMESIGN(a, b) && !SAMESIGN(r, a)))
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ereport(ERROR,
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(errcode(ERRCODE_NUMERIC_VALUE_OUT_OF_RANGE),
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errmsg("integer out of range")));
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PG_RETURN_INT32(ra);
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}
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/**************************************************
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* int32 ops
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**************************************************/
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Datum
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gbt_int4_compress(PG_FUNCTION_ARGS)
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{
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GISTENTRY *entry = (GISTENTRY *) PG_GETARG_POINTER(0);
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GISTENTRY *retval = NULL;
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PG_RETURN_POINTER(gbt_num_compress(retval, entry, &tinfo));
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}
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Datum
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gbt_int4_consistent(PG_FUNCTION_ARGS)
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{
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GISTENTRY *entry = (GISTENTRY *) PG_GETARG_POINTER(0);
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int32 query = PG_GETARG_INT32(1);
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StrategyNumber strategy = (StrategyNumber) PG_GETARG_UINT16(2);
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/* Oid subtype = PG_GETARG_OID(3); */
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bool *recheck = (bool *) PG_GETARG_POINTER(4);
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int32KEY *kkk = (int32KEY *) DatumGetPointer(entry->key);
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GBT_NUMKEY_R key;
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/* All cases served by this function are exact */
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*recheck = false;
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key.lower = (GBT_NUMKEY *) &kkk->lower;
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key.upper = (GBT_NUMKEY *) &kkk->upper;
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PG_RETURN_BOOL(
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gbt_num_consistent(&key, (void *) &query, &strategy, GIST_LEAF(entry), &tinfo)
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);
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}
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Datum
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gbt_int4_distance(PG_FUNCTION_ARGS)
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{
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GISTENTRY *entry = (GISTENTRY *) PG_GETARG_POINTER(0);
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int32 query = PG_GETARG_INT32(1);
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/* Oid subtype = PG_GETARG_OID(3); */
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int32KEY *kkk = (int32KEY *) DatumGetPointer(entry->key);
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GBT_NUMKEY_R key;
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key.lower = (GBT_NUMKEY *) &kkk->lower;
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key.upper = (GBT_NUMKEY *) &kkk->upper;
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PG_RETURN_FLOAT8(
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gbt_num_distance(&key, (void *) &query, GIST_LEAF(entry), &tinfo)
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);
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}
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Datum
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gbt_int4_union(PG_FUNCTION_ARGS)
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{
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GistEntryVector *entryvec = (GistEntryVector *) PG_GETARG_POINTER(0);
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void *out = palloc(sizeof(int32KEY));
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*(int *) PG_GETARG_POINTER(1) = sizeof(int32KEY);
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PG_RETURN_POINTER(gbt_num_union((void *) out, entryvec, &tinfo));
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}
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Datum
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gbt_int4_penalty(PG_FUNCTION_ARGS)
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{
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int32KEY *origentry = (int32KEY *) DatumGetPointer(((GISTENTRY *) PG_GETARG_POINTER(0))->key);
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int32KEY *newentry = (int32KEY *) DatumGetPointer(((GISTENTRY *) PG_GETARG_POINTER(1))->key);
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float *result = (float *) PG_GETARG_POINTER(2);
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penalty_num(result, origentry->lower, origentry->upper, newentry->lower, newentry->upper);
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PG_RETURN_POINTER(result);
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}
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Datum
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gbt_int4_picksplit(PG_FUNCTION_ARGS)
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{
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PG_RETURN_POINTER(gbt_num_picksplit(
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(GistEntryVector *) PG_GETARG_POINTER(0),
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(GIST_SPLITVEC *) PG_GETARG_POINTER(1),
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&tinfo
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));
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}
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Datum
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gbt_int4_same(PG_FUNCTION_ARGS)
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{
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int32KEY *b1 = (int32KEY *) PG_GETARG_POINTER(0);
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int32KEY *b2 = (int32KEY *) PG_GETARG_POINTER(1);
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bool *result = (bool *) PG_GETARG_POINTER(2);
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*result = gbt_num_same((void *) b1, (void *) b2, &tinfo);
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PG_RETURN_POINTER(result);
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}
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