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gdb-rhbz-2232086-reduce-size-of-gdb-index.patch
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File gdb-rhbz-2232086-reduce-size-of-gdb-index.patch of Package gdb
From FEDORA_PATCHES Mon Sep 17 00:00:00 2001 From: Andrew Burgess <aburgess@redhat.com> Date: Fri, 24 Nov 2023 11:50:35 +0000 Subject: gdb-rhbz-2232086-reduce-size-of-gdb-index.patch ;; Back-port upstream commit aa19bc1d259 as part of a fix for ;; non-deterministic gdb-index generation (RH BZ 2232086). gdb: reduce size of generated gdb-index file I noticed in passing that out algorithm for generating the gdb-index file is incorrect. When building the hash table in add_index_entry we count every incoming entry rehash when the number of entries gets too large. However, some of the incoming entries will be duplicates, which don't actually result in new items being added to the hash table. As a result, we grow the gdb-index hash table far too often. With an unmodified GDB, generating a gdb-index for GDB, I see a file size of 90M, with a hash usage (in the generated index file) of just 2.6%. With a patched GDB, generating a gdb-index for the _same_ GDB binary, I now see a gdb-index file size of 30M, with a hash usage of 41.9%. This is a 67% reduction in gdb-index file size. Obviously, not every gdb-index file is going to see such big savings, however, the larger a program, and the more symbols that are duplicated between compilation units, the more GDB would over count, and so, over-grow the index. The gdb-index hash table we create has a minimum size of 1024, and then we grow the hash when it is 75% full, doubling the hash table at that time. Given this, then we expect that either: a. The hash table is size 1024, and less than 75% full, or b. The hash table is between 37.5% and 75% full. I've include a test that checks some of these constraints -- I've not bothered to check the upper limit, and over full hash table isn't really a problem here, but if the fill percentage is less than 37.5% then this indicates that we've done something wrong (obviously, I also check for the 1024 minimum size). Approved-By: Tom Tromey <tom@tromey.com> diff --git a/gdb/dwarf2/index-write.c b/gdb/dwarf2/index-write.c --- a/gdb/dwarf2/index-write.c +++ b/gdb/dwarf2/index-write.c @@ -254,20 +254,29 @@ add_index_entry (struct mapped_symtab *symtab, const char *name, int is_static, gdb_index_symbol_kind kind, offset_type cu_index) { - offset_type cu_index_and_attrs; + symtab_index_entry *slot = &find_slot (symtab, name); + if (slot->name == NULL) + { + /* This is a new element in the hash table. */ + ++symtab->n_elements; - ++symtab->n_elements; - if (4 * symtab->n_elements / 3 >= symtab->data.size ()) - hash_expand (symtab); + /* We might need to grow the hash table. */ + if (4 * symtab->n_elements / 3 >= symtab->data.size ()) + { + hash_expand (symtab); - symtab_index_entry &slot = find_slot (symtab, name); - if (slot.name == NULL) - { - slot.name = name; + /* This element will have a different slot in the new table. */ + slot = &find_slot (symtab, name); + + /* But it should still be a new element in the hash table. */ + gdb_assert (slot->name == nullptr); + } + + slot->name = name; /* index_offset is set later. */ } - cu_index_and_attrs = 0; + offset_type cu_index_and_attrs = 0; DW2_GDB_INDEX_CU_SET_VALUE (cu_index_and_attrs, cu_index); DW2_GDB_INDEX_SYMBOL_STATIC_SET_VALUE (cu_index_and_attrs, is_static); DW2_GDB_INDEX_SYMBOL_KIND_SET_VALUE (cu_index_and_attrs, kind); @@ -279,7 +288,7 @@ add_index_entry (struct mapped_symtab *symtab, const char *name, the last entry pushed), but a symbol could have multiple kinds in one CU. To keep things simple we don't worry about the duplication here and sort and uniquify the list after we've processed all symbols. */ - slot.cu_indices.push_back (cu_index_and_attrs); + slot->cu_indices.push_back (cu_index_and_attrs); } /* See symtab_index_entry. */ diff --git a/gdb/testsuite/gdb.gdb/index-file.exp b/gdb/testsuite/gdb.gdb/index-file.exp new file mode 100644 --- /dev/null +++ b/gdb/testsuite/gdb.gdb/index-file.exp @@ -0,0 +1,118 @@ +# Copyright 2023 Free Software Foundation, Inc. + +# This program is free software; you can redistribute it and/or modify +# it under the terms of the GNU General Public License as published by +# the Free Software Foundation; either version 3 of the License, or +# (at your option) any later version. +# +# This program is distributed in the hope that it will be useful, +# but WITHOUT ANY WARRANTY; without even the implied warranty of +# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the +# GNU General Public License for more details. +# +# You should have received a copy of the GNU General Public License +# along with this program. If not, see <http://www.gnu.org/licenses/>. + +# Load the GDB executable, and then 'save gdb-index', and make some +# checks of the generated index file. + +load_lib selftest-support.exp + +# Can't save an index with readnow. +if {[readnow]} { + untested "cannot create an index when readnow is in use" + return -1 +} + +# A multiplier used to ensure slow tasks are less likely to timeout. +set timeout_factor 20 + +set filename [selftest_prepare] +if { $filename eq "" } { + unsupported "${gdb_test_file_name}.exp" + return -1 +} + +with_timeout_factor $timeout_factor { + # Start GDB, load FILENAME. + clean_restart $filename +} + +# Generate an index file. +set dir1 [standard_output_file "index_1"] +remote_exec host "mkdir -p ${dir1}" +with_timeout_factor $timeout_factor { + gdb_test_no_output "save gdb-index $dir1" \ + "create gdb-index file" +} + +# Close GDB. +gdb_exit + +# Validate that the index-file FILENAME has made efficient use of its +# symbol hash table. Calculate the number of symbols in the hash +# table and the total hash table size. The hash table starts with +# 1024 entries, and then doubles each time it is filled to 75%. At +# 75% filled, doubling the size takes it to 37.5% filled. +# +# Thus, the hash table is correctly filled if: +# 1. Its size is 1024 (i.e. it has not yet had its first doubling), or +# 2. Its filled percentage is over 37% +# +# We could check that it is not over filled, but I don't as that's not +# really an issue. But we did once have a bug where the table was +# doubled incorrectly, in which case we'd see a filled percentage of +# around 2% in some cases, which is a huge waste of disk space. +proc check_symbol_table_usage { filename } { + # Open the file in binary mode and read-only mode. + set fp [open $filename rb] + + # Configure the channel to use binary translation. + fconfigure $fp -translation binary + + # Read the first 8 bytes of the file, which contain the header of + # the index section. + set header [read $fp [expr 7 * 4]] + + # Scan the header to get the version, the CU list offset, and the + # types CU list offset. + binary scan $header iiiiii version \ + _ _ _ symbol_table_offset shortcut_offset + + # The length of the symbol hash table (in entries). + set len [expr ($shortcut_offset - $symbol_table_offset) / 8] + + # Now walk the hash table and count how many entries are in use. + set offset $symbol_table_offset + set count 0 + while { $offset < $shortcut_offset } { + seek $fp $offset + set entry [read $fp 8] + binary scan $entry ii name_ptr flags + if { $name_ptr != 0 } { + incr count + } + + incr offset 8 + } + + # Close the file. + close $fp + + # Calculate how full the cache is. + set pct [expr (100 * double($count)) / $len] + + # Write our results out to the gdb.log. + verbose -log "Hash table size: $len" + verbose -log "Hash table entries: $count" + verbose -log "Percentage usage: $pct%" + + # The minimum fill percentage is actually 37.5%, but we give TCL a + # little flexibility in case the FP maths give a result a little + # off. + gdb_assert { $len == 1024 || $pct > 37 } \ + "symbol hash table usage" +} + +set index_filename_base [file tail $filename] +check_symbol_table_usage "$dir1/${index_filename_base}.gdb-index"
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