From c8ea87e4bd950572cba4575e9a62284cebf85ac5 Mon Sep 17 00:00:00 2001 From: Andrew Gierth Date: Tue, 28 Aug 2018 09:52:25 +0100 Subject: [PATCH] Avoid quadratic slowdown in regexp match/split functions. regexp_matches, regexp_split_to_table and regexp_split_to_array all work by compiling a list of match positions as character offsets (NOT byte positions) in the source string. Formerly, they then used text_substr to extract the matched text; but in a multi-byte encoding, that counts the characters in the string, and the characters needed to reach the starting byte position, on every call. Accordingly, the performance degraded as the product of the input string length and the number of match positions, such that splitting a string of a few hundred kbytes could take many minutes. Repair by keeping the wide-character copy of the input string available (only in the case where encoding_max_length is not 1) after performing the match operation, and extracting substrings from that instead. This reduces the complexity to being linear in the number of result bytes, discounting the actual regexp match itself (which is not affected by this patch). In passing, remove cleanup using retail pfree() which was obsoleted by commit ff428cded (Feb 2008) which made cleanup of SRF multi-call contexts automatic. Also increase (to ~134 million) the maximum number of matches and provide an error message when it is reached. Backpatch all the way because this has been wrong forever. Analysis and patch by me; review by Kaiting Chen. Discussion: https://postgr.es/m/87pnyn55qh.fsf@news-spur.riddles.org.uk see also https://postgr.es/m/87lg996g4r.fsf@news-spur.riddles.org.uk --- src/backend/utils/adt/regexp.c | 182 +++++++++++++++++++++++---------- 1 file changed, 129 insertions(+), 53 deletions(-) diff --git a/src/backend/utils/adt/regexp.c b/src/backend/utils/adt/regexp.c index 5025a449fb..d8b6921234 100644 --- a/src/backend/utils/adt/regexp.c +++ b/src/backend/utils/adt/regexp.c @@ -35,6 +35,7 @@ #include "regex/regex.h" #include "utils/array.h" #include "utils/builtins.h" +#include "utils/memutils.h" #include "utils/varlena.h" #define PG_GETARG_TEXT_PP_IF_EXISTS(_n) \ @@ -61,6 +62,9 @@ typedef struct regexp_matches_ctx /* workspace for build_regexp_match_result() */ Datum *elems; /* has npatterns elements */ bool *nulls; /* has npatterns elements */ + pg_wchar *wide_str; /* wide-char version of original string */ + char *conv_buf; /* conversion buffer */ + int conv_bufsiz; /* size thereof */ } regexp_matches_ctx; /* @@ -111,8 +115,8 @@ static regexp_matches_ctx *setup_regexp_matches(text *orig_str, text *pattern, pg_re_flags *flags, Oid collation, bool use_subpatterns, - bool ignore_degenerate); -static void cleanup_regexp_matches(regexp_matches_ctx *matchctx); + bool ignore_degenerate, + bool fetching_unmatched); static ArrayType *build_regexp_match_result(regexp_matches_ctx *matchctx); static Datum build_regexp_split_result(regexp_matches_ctx *splitctx); @@ -863,7 +867,7 @@ regexp_match(PG_FUNCTION_ARGS) errhint("Use the regexp_matches function instead."))); matchctx = setup_regexp_matches(orig_str, pattern, &re_flags, - PG_GET_COLLATION(), true, false); + PG_GET_COLLATION(), true, false, false); if (matchctx->nmatches == 0) PG_RETURN_NULL(); @@ -911,7 +915,7 @@ regexp_matches(PG_FUNCTION_ARGS) matchctx = setup_regexp_matches(PG_GETARG_TEXT_P_COPY(0), pattern, &re_flags, PG_GET_COLLATION(), - true, false); + true, false, false); /* Pre-create workspace that build_regexp_match_result needs */ matchctx->elems = (Datum *) palloc(sizeof(Datum) * matchctx->npatterns); @@ -933,9 +937,6 @@ regexp_matches(PG_FUNCTION_ARGS) SRF_RETURN_NEXT(funcctx, PointerGetDatum(result_ary)); } - /* release space in multi-call ctx to avoid intraquery memory leak */ - cleanup_regexp_matches(matchctx); - SRF_RETURN_DONE(funcctx); } @@ -954,17 +955,24 @@ regexp_matches_no_flags(PG_FUNCTION_ARGS) * all the matching in one swoop. The returned regexp_matches_ctx contains * the locations of all the substrings matching the pattern. * - * The two bool parameters have only two patterns (one for matching, one for + * The three bool parameters have only two patterns (one for matching, one for * splitting) but it seems clearer to distinguish the functionality this way - * than to key it all off one "is_split" flag. + * than to key it all off one "is_split" flag. We don't currently assume that + * fetching_unmatched is exclusive of fetching the matched text too; if it's + * set, the conversion buffer is large enough to fetch any single matched or + * unmatched string, but not any larger substring. (In practice, when splitting + * the matches are usually small anyway, and it didn't seem worth complicating + * the code further.) */ static regexp_matches_ctx * setup_regexp_matches(text *orig_str, text *pattern, pg_re_flags *re_flags, Oid collation, bool use_subpatterns, - bool ignore_degenerate) + bool ignore_degenerate, + bool fetching_unmatched) { regexp_matches_ctx *matchctx = palloc0(sizeof(regexp_matches_ctx)); + int eml = pg_database_encoding_max_length(); int orig_len; pg_wchar *wide_str; int wide_len; @@ -975,6 +983,7 @@ setup_regexp_matches(text *orig_str, text *pattern, pg_re_flags *re_flags, int array_idx; int prev_match_end; int start_search; + int maxlen = 0; /* largest fetch length in characters */ /* save original string --- we'll extract result substrings from it */ matchctx->orig_str = orig_str; @@ -1003,8 +1012,13 @@ setup_regexp_matches(text *orig_str, text *pattern, pg_re_flags *re_flags, /* temporary output space for RE package */ pmatch = palloc(sizeof(regmatch_t) * pmatch_len); - /* the real output space (grown dynamically if needed) */ - array_len = re_flags->glob ? 256 : 32; + /* + * the real output space (grown dynamically if needed) + * + * use values 2^n-1, not 2^n, so that we hit the limit at 2^28-1 rather + * than at 2^27 + */ + array_len = re_flags->glob ? 255 : 31; matchctx->match_locs = (int *) palloc(sizeof(int) * array_len); array_idx = 0; @@ -1024,9 +1038,13 @@ setup_regexp_matches(text *orig_str, text *pattern, pg_re_flags *re_flags, pmatch[0].rm_eo > prev_match_end)) { /* enlarge output space if needed */ - while (array_idx + matchctx->npatterns * 2 > array_len) + while (array_idx + matchctx->npatterns * 2 + 1 > array_len) { - array_len *= 2; + array_len += array_len + 1; /* 2^n-1 => 2^(n+1)-1 */ + if (array_len > MaxAllocSize/sizeof(int)) + ereport(ERROR, + (errcode(ERRCODE_PROGRAM_LIMIT_EXCEEDED), + errmsg("too many regular expression matches"))); matchctx->match_locs = (int *) repalloc(matchctx->match_locs, sizeof(int) * array_len); } @@ -1038,16 +1056,33 @@ setup_regexp_matches(text *orig_str, text *pattern, pg_re_flags *re_flags, for (i = 1; i <= matchctx->npatterns; i++) { - matchctx->match_locs[array_idx++] = pmatch[i].rm_so; - matchctx->match_locs[array_idx++] = pmatch[i].rm_eo; + int so = pmatch[i].rm_so; + int eo = pmatch[i].rm_eo; + matchctx->match_locs[array_idx++] = so; + matchctx->match_locs[array_idx++] = eo; + if (so >= 0 && eo >= 0 && (eo - so) > maxlen) + maxlen = (eo - so); } } else { - matchctx->match_locs[array_idx++] = pmatch[0].rm_so; - matchctx->match_locs[array_idx++] = pmatch[0].rm_eo; + int so = pmatch[0].rm_so; + int eo = pmatch[0].rm_eo; + matchctx->match_locs[array_idx++] = so; + matchctx->match_locs[array_idx++] = eo; + if (so >= 0 && eo >= 0 && (eo - so) > maxlen) + maxlen = (eo - so); } matchctx->nmatches++; + + /* + * check length of unmatched portion between end of previous match + * and start of current one + */ + if (fetching_unmatched && + pmatch[0].rm_so >= 0 && + (pmatch[0].rm_so - prev_match_end) > maxlen) + maxlen = (pmatch[0].rm_so - prev_match_end); } prev_match_end = pmatch[0].rm_eo; @@ -1068,34 +1103,67 @@ setup_regexp_matches(text *orig_str, text *pattern, pg_re_flags *re_flags, break; } + /* + * check length of unmatched portion between end of last match and end of + * input string + */ + if (fetching_unmatched && + (wide_len - prev_match_end) > maxlen) + maxlen = (wide_len - prev_match_end); + + /* + * Keep a note of the end position of the string for the benefit of + * splitting code. + */ + matchctx->match_locs[array_idx] = wide_len; + + if (eml > 1) + { + int64 maxsiz = eml * (int64) maxlen; + int conv_bufsiz; + + /* + * Make the conversion buffer large enough for any substring of + * interest. + * + * Worst case: assume we need the maximum size (maxlen*eml), but take + * advantage of the fact that the original string length in bytes is an + * upper bound on the byte length of any fetched substring (and we know + * that len+1 is safe to allocate because the varlena header is longer + * than 1 byte). + */ + if (maxsiz > orig_len) + conv_bufsiz = orig_len + 1; + else + conv_bufsiz = maxsiz + 1; /* safe since maxsiz < 2^30 */ + + matchctx->conv_buf = palloc(conv_bufsiz); + matchctx->conv_bufsiz = conv_bufsiz; + matchctx->wide_str = wide_str; + } + else + { + /* No need to keep the wide string if we're in a single-byte charset. */ + pfree(wide_str); + matchctx->wide_str = NULL; + matchctx->conv_buf = NULL; + matchctx->conv_bufsiz = 0; + } + /* Clean up temp storage */ - pfree(wide_str); pfree(pmatch); return matchctx; } -/* - * cleanup_regexp_matches - release memory of a regexp_matches_ctx - */ -static void -cleanup_regexp_matches(regexp_matches_ctx *matchctx) -{ - pfree(matchctx->orig_str); - pfree(matchctx->match_locs); - if (matchctx->elems) - pfree(matchctx->elems); - if (matchctx->nulls) - pfree(matchctx->nulls); - pfree(matchctx); -} - /* * build_regexp_match_result - build output array for current match */ static ArrayType * build_regexp_match_result(regexp_matches_ctx *matchctx) { + char *buf = matchctx->conv_buf; + int bufsiz PG_USED_FOR_ASSERTS_ONLY = matchctx->conv_bufsiz; Datum *elems = matchctx->elems; bool *nulls = matchctx->nulls; int dims[1]; @@ -1115,6 +1183,15 @@ build_regexp_match_result(regexp_matches_ctx *matchctx) elems[i] = (Datum) 0; nulls[i] = true; } + else if (buf) + { + int len = pg_wchar2mb_with_len(matchctx->wide_str + so, + buf, + eo - so); + Assert(len < bufsiz); + elems[i] = PointerGetDatum(cstring_to_text_with_len(buf, len)); + nulls[i] = false; + } else { elems[i] = DirectFunctionCall3(text_substr, @@ -1168,7 +1245,7 @@ regexp_split_to_table(PG_FUNCTION_ARGS) splitctx = setup_regexp_matches(PG_GETARG_TEXT_P_COPY(0), pattern, &re_flags, PG_GET_COLLATION(), - false, true); + false, true, true); MemoryContextSwitchTo(oldcontext); funcctx->user_fctx = (void *) splitctx; @@ -1185,9 +1262,6 @@ regexp_split_to_table(PG_FUNCTION_ARGS) SRF_RETURN_NEXT(funcctx, result); } - /* release space in multi-call ctx to avoid intraquery memory leak */ - cleanup_regexp_matches(splitctx); - SRF_RETURN_DONE(funcctx); } @@ -1224,7 +1298,7 @@ regexp_split_to_array(PG_FUNCTION_ARGS) PG_GETARG_TEXT_PP(1), &re_flags, PG_GET_COLLATION(), - false, true); + false, true, true); while (splitctx->next_match <= splitctx->nmatches) { @@ -1236,12 +1310,6 @@ regexp_split_to_array(PG_FUNCTION_ARGS) splitctx->next_match++; } - /* - * We don't call cleanup_regexp_matches here; it would try to pfree the - * input string, which we didn't copy. The space is not in a long-lived - * memory context anyway. - */ - PG_RETURN_ARRAYTYPE_P(makeArrayResult(astate, CurrentMemoryContext)); } @@ -1261,6 +1329,7 @@ regexp_split_to_array_no_flags(PG_FUNCTION_ARGS) static Datum build_regexp_split_result(regexp_matches_ctx *splitctx) { + char *buf = splitctx->conv_buf; int startpos; int endpos; @@ -1271,22 +1340,29 @@ build_regexp_split_result(regexp_matches_ctx *splitctx) if (startpos < 0) elog(ERROR, "invalid match ending position"); - if (splitctx->next_match < splitctx->nmatches) + if (buf) { + int bufsiz PG_USED_FOR_ASSERTS_ONLY = splitctx->conv_bufsiz; + int len; + endpos = splitctx->match_locs[splitctx->next_match * 2]; if (endpos < startpos) elog(ERROR, "invalid match starting position"); - return DirectFunctionCall3(text_substr, - PointerGetDatum(splitctx->orig_str), - Int32GetDatum(startpos + 1), - Int32GetDatum(endpos - startpos)); + len = pg_wchar2mb_with_len(splitctx->wide_str + startpos, + buf, + endpos-startpos); + Assert(len < bufsiz); + return PointerGetDatum(cstring_to_text_with_len(buf, len)); } else { - /* no more matches, return rest of string */ - return DirectFunctionCall2(text_substr_no_len, + endpos = splitctx->match_locs[splitctx->next_match * 2]; + if (endpos < startpos) + elog(ERROR, "invalid match starting position"); + return DirectFunctionCall3(text_substr, PointerGetDatum(splitctx->orig_str), - Int32GetDatum(startpos + 1)); + Int32GetDatum(startpos + 1), + Int32GetDatum(endpos - startpos)); } } -- 2.40.0