/* table.c - bookkeeping functions for allocated memory */
/* Copyright (C) 2001-2020 Free Software Foundation, Inc.
This file is part of GNU Bash, the Bourne Again SHell.
Bash 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.
Bash 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 Bash. If not, see .
*/
#ifdef HAVE_CONFIG_H
# include
#endif
#include
#include
#include "imalloc.h"
#include "table.h"
#ifdef SHELL
extern int running_trap;
extern int signal_is_trapped PARAMS((int));
#endif
extern int malloc_register;
#ifdef MALLOC_REGISTER
extern FILE *_imalloc_fopen PARAMS((char *, char *, char *, char *, size_t));
#define FIND_ALLOC 0x01 /* find slot for new allocation */
#define FIND_EXIST 0x02 /* find slot for existing entry for free() or search */
static int table_count = 0;
static int table_allocated = 0;
static int table_bucket_index = REG_TABLE_SIZE-1;
static mr_table_t mem_table[REG_TABLE_SIZE];
static mr_table_t mem_overflow;
#ifndef STREQ
#define STREQ(a, b) ((a)[0] == (b)[0] && strcmp(a, b) == 0)
#endif
static int location_table_index = 0;
static int location_table_count = 0;
static ma_table_t mlocation_table[REG_TABLE_SIZE];
/*
* NOTE: taken from dmalloc (http://dmalloc.com) and modified.
*/
static unsigned int
mt_hash (key)
const PTR_T key;
{
unsigned int a, b, c;
unsigned long x;
/* set up the internal state */
a = 0x9e3779b9; /* the golden ratio; an arbitrary value */
x = (unsigned long)key; /* truncation is OK */
b = x >> 8;
c = x >> 3; /* XXX - was >> 4 */
HASH_MIX(a, b, c);
return c;
}
#if 0
static unsigned int
which_bucket (mem)
PTR_T mem;
{
return (mt_hash ((unsigned char *)mem) & (REG_TABLE_SIZE-1));
}
#else
#define which_bucket(mem) (mt_hash ((unsigned char *)(mem)) & (REG_TABLE_SIZE-1));
#define next_bucket() ((table_bucket_index + 1) & (REG_TABLE_SIZE-1))
#define next_entry(mem) ((mem == mem_table + REG_TABLE_SIZE - 1) ? mem_table : ++mem)
#define prev_bucket() (table_bucket_index == 0 ? REG_TABLE_SIZE-1 : table_bucket_index-1)
#define prev_entry(mem) ((mem == mem_table) ? mem_table + REG_TABLE_SIZE - 1 : mem - 1)
#endif
static mr_table_t *
find_entry (mem, flags)
PTR_T mem;
int flags;
{
unsigned int bucket;
register mr_table_t *tp;
mr_table_t *endp;
if (mem_overflow.mem == mem)
return (&mem_overflow);
/* If we want to insert an allocation entry just use the next slot */
if (flags & FIND_ALLOC)
{
table_bucket_index = next_bucket();
table_count++;
tp = mem_table + table_bucket_index;
memset(tp, 0, sizeof (mr_table_t)); /* overwrite next existing entry */
return tp;
}
tp = endp = mem_table + table_bucket_index;
/* search for last allocation corresponding to MEM, return entry pointer */
while (1)
{
if (tp->mem == mem)
return (tp);
tp = prev_entry (tp);
/* if we went all the way around and didn't find it, return NULL */
if (tp == endp)
return ((mr_table_t *)NULL);
}
return (mr_table_t *)NULL;
}
mr_table_t *
mr_table_entry (mem)
PTR_T mem;
{
return (find_entry (mem, FIND_EXIST));
}
void
mregister_describe_mem (mem, fp)
PTR_T mem;
FILE *fp;
{
mr_table_t *entry;
entry = find_entry (mem, FIND_EXIST);
if (entry == 0)
return;
fprintf (fp, "malloc: %p: %s: last %s from %s:%d\n",
mem,
(entry->flags & MT_ALLOC) ? "allocated" : "free",
(entry->flags & MT_ALLOC) ? "allocated" : "freed",
entry->file ? entry->file : "unknown",
entry->line);
}
void
mregister_alloc (tag, mem, size, file, line)
const char *tag;
PTR_T mem;
size_t size;
const char *file;
int line;
{
mr_table_t *tentry;
sigset_t set, oset;
int blocked_sigs;
/* Block all signals in case we are executed from a signal handler. */
blocked_sigs = 0;
#ifdef SHELL
if (running_trap || signal_is_trapped (SIGINT) || signal_is_trapped (SIGCHLD))
#endif
{
_malloc_block_signals (&set, &oset);
blocked_sigs = 1;
}
mlocation_register_alloc (file, line);
tentry = find_entry (mem, FIND_ALLOC);
if (tentry == 0)
{
/* oops. table is full. punt. */
fprintf (stderr, _("register_alloc: alloc table is full with FIND_ALLOC?\n"));
if (blocked_sigs)
_malloc_unblock_signals (&set, &oset);
return;
}
if (tentry->flags & MT_ALLOC)
{
/* oops. bad bookkeeping. ignore for now */
fprintf (stderr, _("register_alloc: %p already in table as allocated?\n"), mem);
}
tentry->mem = mem;
tentry->size = size;
tentry->func = tag;
tentry->flags = MT_ALLOC;
tentry->file = file;
tentry->line = line;
tentry->nalloc++;
if (tentry != &mem_overflow)
table_allocated++;
if (blocked_sigs)
_malloc_unblock_signals (&set, &oset);
}
void
mregister_free (mem, size, file, line)
PTR_T mem;
int size;
const char *file;
int line;
{
mr_table_t *tentry;
sigset_t set, oset;
int blocked_sigs;
/* Block all signals in case we are executed from a signal handler. */
blocked_sigs = 0;
#ifdef SHELL
if (running_trap || signal_is_trapped (SIGINT) || signal_is_trapped (SIGCHLD))
#endif
{
_malloc_block_signals (&set, &oset);
blocked_sigs = 1;
}
tentry = find_entry (mem, FIND_EXIST);
if (tentry == 0)
{
/* oops. not found. */
#if 0
fprintf (stderr, "register_free: %p not in allocation table?\n", mem);
#endif
if (blocked_sigs)
_malloc_unblock_signals (&set, &oset);
return;
}
if (tentry->flags & MT_FREE)
{
/* oops. bad bookkeeping. ignore for now */
fprintf (stderr, _("register_free: %p already in table as free?\n"), mem);
}
tentry->flags = MT_FREE;
tentry->func = "free";
tentry->file = file;
tentry->line = line;
tentry->nfree++;
if (tentry != &mem_overflow)
table_allocated--;
if (blocked_sigs)
_malloc_unblock_signals (&set, &oset);
}
/* If we ever add more flags, this will require changes. */
static char *
_entry_flags(x)
int x;
{
if (x & MT_FREE)
return "free";
else if (x & MT_ALLOC)
return "allocated";
else
return "undetermined?";
}
static void
_register_dump_table(fp)
FILE *fp;
{
register int i;
mr_table_t entry;
for (i = 0; i < REG_TABLE_SIZE; i++)
{
entry = mem_table[i];
if (entry.mem)
fprintf (fp, "%s[%d] %p:%zu:%s:%s:%s:%d:%d:%d\n",
(i == table_bucket_index) ? "*" : "",
i,
entry.mem, entry.size,
_entry_flags(entry.flags),
entry.func ? entry.func : "unknown",
entry.file ? entry.file : "unknown",
entry.line,
entry.nalloc, entry.nfree);
}
}
void
mregister_dump_table()
{
_register_dump_table (stderr);
}
void
mregister_table_init ()
{
memset (mem_table, 0, sizeof(mr_table_t) * REG_TABLE_SIZE);
memset (&mem_overflow, 0, sizeof (mr_table_t));
table_count = 0;
}
/* Simple for now */
static ma_table_t *
find_location_entry (file, line)
const char *file;
int line;
{
register ma_table_t *tp, *endp;
endp = mlocation_table + location_table_count;
for (tp = mlocation_table; tp <= endp; tp++)
{
if (tp->line == line && STREQ (file, tp->file))
return tp;
}
return (ma_table_t *)NULL;
}
void
mlocation_register_alloc (file, line)
const char *file;
int line;
{
ma_table_t *lentry;
const char *nfile;
if (file == 0)
{
mlocation_table[0].nalloc++;
return;
}
nfile = strrchr (file, '/');
if (nfile)
nfile++;
else
nfile = file;
lentry = find_location_entry (nfile, line);
if (lentry == 0)
{
location_table_index++;
if (location_table_index == REG_TABLE_SIZE)
location_table_index = 1; /* slot 0 reserved */
lentry = mlocation_table + location_table_index;
lentry->file = nfile;
lentry->line = line;
lentry->nalloc = 1;
if (location_table_count < REG_TABLE_SIZE)
location_table_count++; /* clamp at REG_TABLE_SIZE for now */
}
else
lentry->nalloc++;
}
static void
_location_dump_table (fp)
FILE *fp;
{
register ma_table_t *tp, *endp;
endp = mlocation_table + location_table_count;
for (tp = mlocation_table; tp < endp; tp++)
fprintf (fp, "%s:%d\t%d\n", tp->file ? tp->file : "unknown",
tp->line ? tp->line : 0,
tp->nalloc);
}
void
mlocation_dump_table ()
{
_location_dump_table (stderr);
}
#define LOCROOT "/var/tmp/maltrace/locations."
void
mlocation_write_table ()
{
FILE *fp;
char defname[sizeof (LOCROOT) + 64];
fp = _imalloc_fopen ((char *)NULL, (char *)NULL, LOCROOT, defname, sizeof (defname));
if (fp == 0)
return; /* XXX - no error message yet */
_location_dump_table (fp);
fclose (fp);
}
void
mlocation_table_init ()
{
memset (mlocation_table, 0, sizeof (ma_table_t) * REG_TABLE_SIZE);
mlocation_table[0].file = ""; /* reserve slot 0 for unknown locations */
mlocation_table[0].line = 0;
mlocation_table[0].nalloc = 0;
location_table_count = 1;
}
#endif /* MALLOC_REGISTER */
int
malloc_set_register(n)
int n;
{
int old;
old = malloc_register;
malloc_register = n;
return old;
}