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author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-27 06:17:24 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-27 06:17:24 +0000 |
commit | 9d8085074991d5c0a42d6fc96a2d1a3ee918aad1 (patch) | |
tree | c85bca1e6c11eb872edfc64c524d20f2b7e3307b /lib/malloc/malloc.c | |
parent | Initial commit. (diff) | |
download | bash-9d8085074991d5c0a42d6fc96a2d1a3ee918aad1.tar.xz bash-9d8085074991d5c0a42d6fc96a2d1a3ee918aad1.zip |
Adding upstream version 5.1.upstream/5.1upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'lib/malloc/malloc.c')
-rw-r--r-- | lib/malloc/malloc.c | 1481 |
1 files changed, 1481 insertions, 0 deletions
diff --git a/lib/malloc/malloc.c b/lib/malloc/malloc.c new file mode 100644 index 0000000..439f8ef --- /dev/null +++ b/lib/malloc/malloc.c @@ -0,0 +1,1481 @@ +/* malloc.c - dynamic memory allocation for bash. */ + +/* Copyright (C) 1985-2020 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 <http://www.gnu.org/licenses/>. +*/ + +/* + * @(#)nmalloc.c 1 (Caltech) 2/21/82 + * + * U of M Modified: 20 Jun 1983 ACT: strange hacks for Emacs + * + * Nov 1983, Mike@BRL, Added support for 4.1C/4.2 BSD. + * + * [VERY] old explanation: + * + * This is a very fast storage allocator. It allocates blocks of a small + * number of different sizes, and keeps free lists of each size. Blocks + * that don't exactly fit are passed up to the next larger size. In this + * implementation, the available sizes are (2^n)-4 (or -16) bytes long. + * This is designed for use in a program that uses vast quantities of + * memory, but bombs when it runs out. To make it a little better, it + * warns the user when he starts to get near the end. + * + * June 84, ACT: modified rcheck code to check the range given to malloc, + * rather than the range determined by the 2-power used. + * + * Jan 85, RMS: calls malloc_warning to issue warning on nearly full. + * No longer Emacs-specific; can serve as all-purpose malloc for GNU. + * You should call malloc_init to reinitialize after loading dumped Emacs. + * Call malloc_stats to get info on memory stats if MALLOC_STATS turned on. + * realloc knows how to return same block given, just changing its size, + * if the power of 2 is correct. + */ + +/* + * nextf[i] is the pointer to the next free block of size 2^(i+3). The + * smallest allocatable block is 8 bytes. The overhead information will + * go in the first int of the block, and the returned pointer will point + * to the second. + */ + +/* Define MEMSCRAMBLE to have free() write 0xcf into memory as it's freed, to + uncover callers that refer to freed memory, and to have malloc() write 0xdf + into memory as it's allocated to avoid referring to previous contents. */ + +/* SCO 3.2v4 getcwd and possibly other libc routines fail with MEMSCRAMBLE; + handled by configure. */ + +#if defined (HAVE_CONFIG_H) +# include <config.h> +#endif /* HAVE_CONFIG_H */ + +#if defined (SHELL) +# include "bashtypes.h" +# include "stdc.h" +#else +# include <sys/types.h> +#endif + +#if defined (HAVE_UNISTD_H) +# include <unistd.h> +#endif + +/* Determine which kind of system this is. */ +#include <signal.h> + +#if defined (HAVE_STRING_H) +# include <string.h> +#else +# include <strings.h> +#endif +#include <errno.h> +#include <stdio.h> + +#if !defined (botch) +#include <stdlib.h> +#endif + +#if defined (HAVE_MMAP) +#include <sys/mman.h> +#endif + +/* Define getpagesize () if the system does not. */ +#ifndef HAVE_GETPAGESIZE +# include "getpagesize.h" +#endif + +#include "imalloc.h" +#ifdef MALLOC_STATS +# include "mstats.h" +#endif +#ifdef MALLOC_REGISTER +# include "table.h" +#endif +#ifdef MALLOC_WATCH +# include "watch.h" +#endif + +#ifdef powerof2 +# undef powerof2 +#endif +/* Could also use (((x) & -(x)) == (x)) */ +#define powerof2(x) ((((x) - 1) & (x)) == 0) + +/* System-specific omissions. */ +#ifdef HPUX +# define NO_VALLOC +#endif + +/* SIZEOF_LONG * 4 - 2, usable bins from 1..NBUCKETS-1 */ +#define NBUCKETS 30 + +#define ISALLOC ((char) 0xf7) /* magic byte that implies allocation */ +#define ISFREE ((char) 0x54) /* magic byte that implies free block */ + /* this is for error checking only */ +#define ISMEMALIGN ((char) 0xd6) /* Stored before the value returned by + memalign, with the rest of the word + being the distance to the true + beginning of the block. */ + + +/* We have a flag indicating whether memory is allocated, an index in + nextf[], a size field, and a sentinel value to determine whether or + not a caller wrote before the start of allocated memory; to realloc() + memory we either copy mh_nbytes or just change mh_nbytes if there is + enough room in the block for the new size. Range checking is always + done. */ +union mhead { +#if SIZEOF_CHAR_P == 8 + bits64_t mh_align[2]; /* 16 */ +#else + bits64_t mh_align; /* 8 */ +#endif + struct { + char mi_alloc; /* ISALLOC or ISFREE */ /* 1 */ + char mi_index; /* index in nextf[] */ /* 1 */ + /* Remainder are valid only when block is allocated */ + u_bits16_t mi_magic2; /* should be == MAGIC2 */ /* 2 */ + u_bits32_t mi_nbytes; /* # of bytes allocated */ /* 4 */ +#if SIZEOF_CHAR_P == 8 + char mi_magic8[8]; /* MAGIC1 guard bytes */ /* 8 */ +#endif + } minfo; +}; +#define mh_alloc minfo.mi_alloc +#define mh_index minfo.mi_index +#define mh_nbytes minfo.mi_nbytes +#define mh_magic2 minfo.mi_magic2 +#define mh_magic8 minfo.mi_magic8 + +#define MOVERHEAD sizeof(union mhead) + +#if SIZEOF_CHAR_P == 8 +#define MALIGN_MASK 15 +#else +#define MALIGN_MASK 7 /* one less than desired alignment */ +#endif + +typedef union _malloc_guard { + char s[4]; + u_bits32_t i; +} mguard_t; + +/* Access free-list pointer of a block. + It is stored at block + sizeof (char *). + This is not a field in the minfo structure member of union mhead + because we want sizeof (union mhead) + to describe the overhead for when the block is in use, + and we do not want the free-list pointer to count in that. */ + +/* If SIZEOF_CHAR_P == 8, this goes into the mh_magic8 buffer at the end of + the rest of the struct. This may need adjusting. */ +#define CHAIN(a) \ + (*(union mhead **) (sizeof (char *) + (char *) (a))) + +/* To implement range checking, we write magic values in at the beginning + and end of each allocated block, and make sure they are undisturbed + whenever a free or a realloc occurs. */ + +/* Written in the bytes before the block's real space (-SIZEOF_CHAR_P bytes) */ +#define MAGIC1 0x55 +#define MAGIC2 0x5555 +#define MSLOP 4 /* 4 bytes extra for u_bits32_t size */ + +/* How many bytes are actually allocated for a request of size N -- + rounded up to nearest multiple of 2*SIZEOF_CHAR_P after accounting for + malloc overhead. */ +#define ALLOCATED_BYTES(n) \ + (((n) + MOVERHEAD + MSLOP + MALIGN_MASK) & ~MALIGN_MASK) + +#define ASSERT(p) \ + do \ + { \ + if (!(p)) xbotch((PTR_T)0, ERR_ASSERT_FAILED, CPP_STRING(p), file, line); \ + } \ + while (0) + +/* Minimum and maximum bucket indices for block splitting (and to bound + the search for a block to split). */ +#define SPLIT_MIN 2 /* XXX - was 3 */ +#define SPLIT_MID 11 +#define SPLIT_MAX 14 + +/* Minimum and maximum bucket indices for block coalescing. */ +#define COMBINE_MIN 2 +#define COMBINE_MAX (pagebucket - 1) /* XXX */ + +#define LESSCORE_MIN 10 +#define LESSCORE_FRC 13 + +#define STARTBUCK 1 + +/* Should we use mmap for large allocations? */ +#if defined (HAVE_MMAP) +# if defined (MAP_ANON) && !defined (MAP_ANONYMOUS) +# define MAP_ANONYMOUS MAP_ANON +# endif +#endif + +#if defined (HAVE_MMAP) && defined (MAP_ANONYMOUS) +# define USE_MMAP +#endif + +#if defined (USE_MMAP) +# define MMAP_THRESHOLD 14 /* must be >= SPLIT_MAX, COMBINE_MAX */ +#else +# define MMAP_THRESHOLD (8 * SIZEOF_LONG) +#endif + +/* Flags for the internal functions. */ +#define MALLOC_WRAPPER 0x01 /* wrapper function */ +#define MALLOC_INTERNAL 0x02 /* internal function calling another */ +#define MALLOC_NOTRACE 0x04 /* don't trace this allocation or free */ +#define MALLOC_NOREG 0x08 /* don't register this allocation or free */ + +/* Future use. */ +#define ERR_DUPFREE 0x01 +#define ERR_UNALLOC 0x02 +#define ERR_UNDERFLOW 0x04 +#define ERR_ASSERT_FAILED 0x08 + +/* Evaluates to true if NB is appropriate for bucket NU. NB is adjusted + appropriately by the caller to account for malloc overhead. This only + checks that the recorded size is not too big for the bucket. We + can't check whether or not it's in between NU and NU-1 because we + might have encountered a busy bucket when allocating and moved up to + the next size. */ +#define IN_BUCKET(nb, nu) ((nb) <= binsizes[(nu)]) + +/* Use this when we want to be sure that NB is in bucket NU. */ +#define RIGHT_BUCKET(nb, nu) \ + (((nb) > binsizes[(nu)-1]) && ((nb) <= binsizes[(nu)])) + +/* nextf[i] is free list of blocks of size 2**(i + 3) */ + +static union mhead *nextf[NBUCKETS]; + +/* busy[i] is nonzero while allocation or free of block size i is in progress. */ + +static char busy[NBUCKETS]; + +static int pagesz; /* system page size. */ +static int pagebucket; /* bucket for requests a page in size */ +static int maxbuck; /* highest bucket receiving allocation request. */ + +static char *memtop; /* top of heap */ + +static const unsigned long binsizes[NBUCKETS] = { + 8UL, 16UL, 32UL, 64UL, 128UL, 256UL, 512UL, 1024UL, 2048UL, 4096UL, + 8192UL, 16384UL, 32768UL, 65536UL, 131072UL, 262144UL, 524288UL, + 1048576UL, 2097152UL, 4194304UL, 8388608UL, 16777216UL, 33554432UL, + 67108864UL, 134217728UL, 268435456UL, 536870912UL, 1073741824UL, + 2147483648UL, 4294967295UL +}; + +/* binsizes[x] == (1 << ((x) + 3)) */ +#define binsize(x) binsizes[(x)] + +#if !defined (errno) +extern int errno; +#endif + +/* Declarations for internal functions */ +static PTR_T internal_malloc PARAMS((size_t, const char *, int, int)); +static PTR_T internal_realloc PARAMS((PTR_T, size_t, const char *, int, int)); +static void internal_free PARAMS((PTR_T, const char *, int, int)); +static PTR_T internal_memalign PARAMS((size_t, size_t, const char *, int, int)); +#ifndef NO_CALLOC +static PTR_T internal_calloc PARAMS((size_t, size_t, const char *, int, int)); +static void internal_cfree PARAMS((PTR_T, const char *, int, int)); +#endif +#ifndef NO_VALLOC +static PTR_T internal_valloc PARAMS((size_t, const char *, int, int)); +#endif + +#if defined (botch) +extern void botch (); +#else +static void botch PARAMS((const char *, const char *, int)); +#endif +static void xbotch PARAMS((PTR_T, int, const char *, const char *, int)); + +#if !HAVE_DECL_SBRK +extern char *sbrk (); +#endif /* !HAVE_DECL_SBRK */ + +#ifdef SHELL +extern int running_trap; +extern int signal_is_trapped PARAMS((int)); +#endif + +#ifdef MALLOC_STATS +struct _malstats _mstats; +#endif /* MALLOC_STATS */ + +/* Debugging variables available to applications. */ +int malloc_flags = 0; /* future use */ +int malloc_trace = 0; /* trace allocations and frees to stderr */ +int malloc_register = 0; /* future use */ + +/* Use a variable in case we want to dynamically adapt it in the future */ +int malloc_mmap_threshold = MMAP_THRESHOLD; + +#ifdef MALLOC_TRACE +char _malloc_trace_buckets[NBUCKETS]; + +/* These should really go into a header file. */ +extern void mtrace_alloc PARAMS((const char *, PTR_T, size_t, const char *, int)); +extern void mtrace_free PARAMS((PTR_T, int, const char *, int)); +#endif + +#if !defined (botch) +static void +botch (s, file, line) + const char *s; + const char *file; + int line; +{ + fprintf (stderr, _("malloc: failed assertion: %s\n"), s); + (void)fflush (stderr); + abort (); +} +#endif + +/* print the file and line number that caused the assertion failure and + call botch() to do whatever the application wants with the information */ +static void +xbotch (mem, e, s, file, line) + PTR_T mem; + int e; + const char *s; + const char *file; + int line; +{ + fprintf (stderr, _("\r\nmalloc: %s:%d: assertion botched\r\n"), + file ? file : _("unknown"), line); +#ifdef MALLOC_REGISTER + if (mem != NULL && malloc_register) + mregister_describe_mem (mem, stderr); +#endif + (void)fflush (stderr); + botch(s, file, line); +} + +/* Coalesce two adjacent free blocks off the free list for size NU - 1, + as long as we can find two adjacent free blocks. nextf[NU -1] is + assumed to not be busy; the caller (morecore()) checks for this. + BUSY[NU] must be set to 1. */ +static void +bcoalesce (nu) + register int nu; +{ + register union mhead *mp, *mp1, *mp2; + register int nbuck; + unsigned long siz; + + nbuck = nu - 1; + if (nextf[nbuck] == 0 || busy[nbuck]) + return; + + busy[nbuck] = 1; + siz = binsize (nbuck); + + mp2 = mp1 = nextf[nbuck]; + mp = CHAIN (mp1); + while (mp && mp != (union mhead *)((char *)mp1 + siz)) + { + mp2 = mp1; + mp1 = mp; + mp = CHAIN (mp); + } + + if (mp == 0) + { + busy[nbuck] = 0; + return; + } + + /* OK, now we have mp1 pointing to the block we want to add to nextf[NU]. + CHAIN(mp2) must equal mp1. Check that mp1 and mp are adjacent. */ + if (mp2 != mp1 && CHAIN(mp2) != mp1) + { + busy[nbuck] = 0; + xbotch ((PTR_T)0, 0, "bcoalesce: CHAIN(mp2) != mp1", (char *)NULL, 0); + } + +#ifdef MALLOC_DEBUG + if (CHAIN (mp1) != (union mhead *)((char *)mp1 + siz)) + { + busy[nbuck] = 0; + return; /* not adjacent */ + } +#endif + + /* Since they are adjacent, remove them from the free list */ + if (mp1 == nextf[nbuck]) + nextf[nbuck] = CHAIN (mp); + else + CHAIN (mp2) = CHAIN (mp); + busy[nbuck] = 0; + +#ifdef MALLOC_STATS + _mstats.tbcoalesce++; + _mstats.ncoalesce[nbuck]++; +#endif + + /* And add the combined two blocks to nextf[NU]. */ + mp1->mh_alloc = ISFREE; + mp1->mh_index = nu; + CHAIN (mp1) = nextf[nu]; + nextf[nu] = mp1; +} + +/* Split a block at index > NU (but less than SPLIT_MAX) into a set of + blocks of the correct size, and attach them to nextf[NU]. nextf[NU] + is assumed to be empty. Must be called with signals blocked (e.g., + by morecore()). BUSY[NU] must be set to 1. */ +static void +bsplit (nu) + register int nu; +{ + register union mhead *mp; + int nbuck, nblks, split_max; + unsigned long siz; + + split_max = (maxbuck > SPLIT_MAX) ? maxbuck : SPLIT_MAX; + + if (nu >= SPLIT_MID) + { + for (nbuck = split_max; nbuck > nu; nbuck--) + { + if (busy[nbuck] || nextf[nbuck] == 0) + continue; + break; + } + } + else + { + for (nbuck = nu + 1; nbuck <= split_max; nbuck++) + { + if (busy[nbuck] || nextf[nbuck] == 0) + continue; + break; + } + } + + if (nbuck > split_max || nbuck <= nu) + return; + + /* XXX might want to split only if nextf[nbuck] has >= 2 blocks free + and nbuck is below some threshold. */ + + /* Remove the block from the chain of larger blocks. */ + busy[nbuck] = 1; + mp = nextf[nbuck]; + nextf[nbuck] = CHAIN (mp); + busy[nbuck] = 0; + +#ifdef MALLOC_STATS + _mstats.tbsplit++; + _mstats.nsplit[nbuck]++; +#endif + + /* Figure out how many blocks we'll get. */ + siz = binsize (nu); + nblks = binsize (nbuck) / siz; + + /* Split the block and put it on the requested chain. */ + nextf[nu] = mp; + while (1) + { + mp->mh_alloc = ISFREE; + mp->mh_index = nu; + if (--nblks <= 0) break; + CHAIN (mp) = (union mhead *)((char *)mp + siz); + mp = (union mhead *)((char *)mp + siz); + } + CHAIN (mp) = 0; +} + +/* Take the memory block MP and add it to a chain < NU. NU is the right bucket, + but is busy. This avoids memory orphaning. */ +static void +xsplit (mp, nu) + union mhead *mp; + int nu; +{ + union mhead *nh; + int nbuck, nblks, split_max; + unsigned long siz; + + nbuck = nu - 1; + while (nbuck >= SPLIT_MIN && busy[nbuck]) + nbuck--; + if (nbuck < SPLIT_MIN) + return; + +#ifdef MALLOC_STATS + _mstats.tbsplit++; + _mstats.nsplit[nu]++; +#endif + + /* Figure out how many blocks we'll get. */ + siz = binsize (nu); /* original block size */ + nblks = siz / binsize (nbuck); /* should be 2 most of the time */ + + /* And add it to nextf[nbuck] */ + siz = binsize (nbuck); /* XXX - resetting here */ + nh = mp; + while (1) + { + mp->mh_alloc = ISFREE; + mp->mh_index = nbuck; + if (--nblks <= 0) break; + CHAIN (mp) = (union mhead *)((char *)mp + siz); + mp = (union mhead *)((char *)mp + siz); + } + busy[nbuck] = 1; + CHAIN (mp) = nextf[nbuck]; + nextf[nbuck] = nh; + busy[nbuck] = 0; +} + +void +_malloc_block_signals (setp, osetp) + sigset_t *setp, *osetp; +{ +#ifdef HAVE_POSIX_SIGNALS + sigfillset (setp); + sigemptyset (osetp); + sigprocmask (SIG_BLOCK, setp, osetp); +#else +# if defined (HAVE_BSD_SIGNALS) + *osetp = sigsetmask (-1); +# endif +#endif +} + +void +_malloc_unblock_signals (setp, osetp) + sigset_t *setp, *osetp; +{ +#ifdef HAVE_POSIX_SIGNALS + sigprocmask (SIG_SETMASK, osetp, (sigset_t *)NULL); +#else +# if defined (HAVE_BSD_SIGNALS) + sigsetmask (*osetp); +# endif +#endif +} + +/* Return some memory to the system by reducing the break. This is only + called with NU > pagebucket, so we're always assured of giving back + more than one page of memory. */ +static void +lesscore (nu) /* give system back some memory */ + register int nu; /* size index we're discarding */ +{ + long siz; + + siz = binsize (nu); + /* Should check for errors here, I guess. */ + sbrk (-siz); + memtop -= siz; + +#ifdef MALLOC_STATS + _mstats.nsbrk++; + _mstats.tsbrk -= siz; + _mstats.nlesscore[nu]++; +#endif +} + +/* Ask system for more memory; add to NEXTF[NU]. BUSY[NU] must be set to 1. */ +static void +morecore (nu) + register int nu; /* size index to get more of */ +{ + register union mhead *mp; + register int nblks; + register long siz; + long sbrk_amt; /* amount to get via sbrk() */ + 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 defined (SIGCHLD) + if (running_trap || signal_is_trapped (SIGINT) || signal_is_trapped (SIGCHLD)) +# else + if (running_trap || signal_is_trapped (SIGINT)) +# endif +#endif + { + _malloc_block_signals (&set, &oset); + blocked_sigs = 1; + } + + siz = binsize (nu); /* size of desired block for nextf[nu] */ + + if (siz < 0) + goto morecore_done; /* oops */ + +#ifdef MALLOC_STATS + _mstats.nmorecore[nu]++; +#endif + + /* Try to split a larger block here, if we're within the range of sizes + to split. */ + if (nu >= SPLIT_MIN && nu <= malloc_mmap_threshold) + { + bsplit (nu); + if (nextf[nu] != 0) + goto morecore_done; + } + + /* Try to coalesce two adjacent blocks from the free list on nextf[nu - 1], + if we can, and we're within the range of the block coalescing limits. */ + if (nu >= COMBINE_MIN && nu < COMBINE_MAX && nu <= malloc_mmap_threshold && busy[nu - 1] == 0 && nextf[nu - 1]) + { + bcoalesce (nu); + if (nextf[nu] != 0) + goto morecore_done; + } + + /* Take at least a page, and figure out how many blocks of the requested + size we're getting. */ + if (siz <= pagesz) + { + sbrk_amt = pagesz; + nblks = sbrk_amt / siz; + } + else + { + /* We always want to request an integral multiple of the page size + from the kernel, so let's compute whether or not `siz' is such + an amount. If it is, we can just request it. If not, we want + the smallest integral multiple of pagesize that is larger than + `siz' and will satisfy the request. */ + sbrk_amt = siz & (pagesz - 1); + if (sbrk_amt == 0) + sbrk_amt = siz; + else + sbrk_amt = siz + pagesz - sbrk_amt; + nblks = 1; + } + +#if defined (USE_MMAP) + if (nu > malloc_mmap_threshold) + { + mp = (union mhead *)mmap (0, sbrk_amt, PROT_READ|PROT_WRITE, MAP_PRIVATE|MAP_ANONYMOUS, -1, 0); + if ((void *)mp == MAP_FAILED) + goto morecore_done; + nextf[nu] = mp; + mp->mh_alloc = ISFREE; + mp->mh_index = nu; + CHAIN (mp) = 0; +#ifdef MALLOC_STATS + _mstats.nmmap++; + _mstats.tmmap += sbrk_amt; +#endif + goto morecore_done; + } +#endif + + +#ifdef MALLOC_STATS + _mstats.nsbrk++; + _mstats.tsbrk += sbrk_amt; +#endif + + mp = (union mhead *) sbrk (sbrk_amt); + + /* Totally out of memory. */ + if ((long)mp == -1) + goto morecore_done; + + memtop += sbrk_amt; + + /* shouldn't happen, but just in case -- require 8- or 16-byte alignment */ + if ((long)mp & MALIGN_MASK) + { + mp = (union mhead *) (((long)mp + MALIGN_MASK) & ~MALIGN_MASK); + nblks--; + } + + /* save new header and link the nblks blocks together */ + nextf[nu] = mp; + while (1) + { + mp->mh_alloc = ISFREE; + mp->mh_index = nu; + if (--nblks <= 0) break; + CHAIN (mp) = (union mhead *)((char *)mp + siz); + mp = (union mhead *)((char *)mp + siz); + } + CHAIN (mp) = 0; + +morecore_done: + if (blocked_sigs) + _malloc_unblock_signals (&set, &oset); +} + +static void +malloc_debug_dummy () +{ + write (1, "malloc_debug_dummy\n", 19); +} + +#if SIZEOF_CHAR_P == 8 +#define PREPOP_BIN 3 +#define PREPOP_SIZE 64 +#else +#define PREPOP_BIN 2 +#define PREPOP_SIZE 32 +#endif + +static int +pagealign () +{ + register int nunits; + register union mhead *mp; + long sbrk_needed; + char *curbrk; + + pagesz = getpagesize (); + if (pagesz < 1024) + pagesz = 1024; + + /* OK, how much do we need to allocate to make things page-aligned? + Some of this partial page will be wasted space, but we'll use as + much as we can. Once we figure out how much to advance the break + pointer, go ahead and do it. */ + memtop = curbrk = sbrk (0); + sbrk_needed = pagesz - ((long)curbrk & (pagesz - 1)); /* sbrk(0) % pagesz */ + if (sbrk_needed < 0) + sbrk_needed += pagesz; + + /* Now allocate the wasted space. */ + if (sbrk_needed) + { +#ifdef MALLOC_STATS + _mstats.nsbrk++; + _mstats.tsbrk += sbrk_needed; +#endif + curbrk = sbrk (sbrk_needed); + if ((long)curbrk == -1) + return -1; + memtop += sbrk_needed; + + /* Take the memory which would otherwise be wasted and populate the most + popular bin (3 == 64 bytes) with it. Add whatever we need to curbrk + to make things 64-byte aligned, compute how many 64-byte chunks we're + going to get, and set up the bin. */ + curbrk += sbrk_needed & (PREPOP_SIZE - 1); + sbrk_needed -= sbrk_needed & (PREPOP_SIZE - 1); + nunits = sbrk_needed / PREPOP_SIZE; + + if (nunits > 0) + { + mp = (union mhead *)curbrk; + + nextf[PREPOP_BIN] = mp; + while (1) + { + mp->mh_alloc = ISFREE; + mp->mh_index = PREPOP_BIN; + if (--nunits <= 0) break; + CHAIN(mp) = (union mhead *)((char *)mp + PREPOP_SIZE); + mp = (union mhead *)((char *)mp + PREPOP_SIZE); + } + CHAIN(mp) = 0; + } + } + + /* compute which bin corresponds to the page size. */ + for (nunits = 7; nunits < NBUCKETS; nunits++) + if (pagesz <= binsize(nunits)) + break; + pagebucket = nunits; + + return 0; +} + +static PTR_T +internal_malloc (n, file, line, flags) /* get a block */ + size_t n; + const char *file; + int line, flags; +{ + register union mhead *p; + register int nunits; + register char *m, *z; + long nbytes; + mguard_t mg; + + /* Get the system page size and align break pointer so future sbrks will + be page-aligned. The page size must be at least 1K -- anything + smaller is increased. */ + if (pagesz == 0) + if (pagealign () < 0) + return ((PTR_T)NULL); + + /* Figure out how many bytes are required, rounding up to the nearest + multiple of 8, then figure out which nextf[] area to use. Try to + be smart about where to start searching -- if the number of bytes + needed is greater than the page size, we can start at pagebucket. */ + nbytes = ALLOCATED_BYTES(n); + nunits = (nbytes <= (pagesz >> 1)) ? STARTBUCK : pagebucket; + for ( ; nunits < NBUCKETS; nunits++) + if (nbytes <= binsize(nunits)) + break; + + /* Silently reject too-large requests. XXX - can increase this if HAVE_MMAP */ + if (nunits >= NBUCKETS) + return ((PTR_T) NULL); + + /* In case this is reentrant use of malloc from signal handler, + pick a block size that no other malloc level is currently + trying to allocate. That's the easiest harmless way not to + interfere with the other level of execution. */ +#ifdef MALLOC_STATS + if (busy[nunits]) _mstats.nrecurse++; +#endif + while (busy[nunits]) nunits++; + busy[nunits] = 1; + + if (nunits > maxbuck) + maxbuck = nunits; + + /* If there are no blocks of the appropriate size, go get some */ + if (nextf[nunits] == 0) + morecore (nunits); + + /* Get one block off the list, and set the new list head */ + if ((p = nextf[nunits]) == NULL) + { + busy[nunits] = 0; + return NULL; + } + nextf[nunits] = CHAIN (p); + busy[nunits] = 0; + + /* Check for free block clobbered */ + /* If not for this check, we would gobble a clobbered free chain ptr + and bomb out on the NEXT allocate of this size block */ + if (p->mh_alloc != ISFREE || p->mh_index != nunits) + xbotch ((PTR_T)(p+1), 0, _("malloc: block on free list clobbered"), file, line); + + /* Fill in the info, and set up the magic numbers for range checking. */ + p->mh_alloc = ISALLOC; + p->mh_magic2 = MAGIC2; + p->mh_nbytes = n; + +#if SIZEOF_CHAR_P == 8 + /* Begin guard */ + MALLOC_MEMSET ((char *)p->mh_magic8, MAGIC1, 8); +#endif + + /* End guard */ + mg.i = n; + z = mg.s; + m = (char *) (p + 1) + n; + *m++ = *z++, *m++ = *z++, *m++ = *z++, *m++ = *z++; + +#ifdef MEMSCRAMBLE + if (n) + MALLOC_MEMSET ((char *)(p + 1), 0xdf, n); /* scramble previous contents */ +#endif +#ifdef MALLOC_STATS + _mstats.nmalloc[nunits]++; + _mstats.tmalloc[nunits]++; + _mstats.nmal++; + _mstats.bytesreq += n; +#endif /* MALLOC_STATS */ + +#ifdef MALLOC_TRACE + if (malloc_trace && (flags & MALLOC_NOTRACE) == 0) + mtrace_alloc ("malloc", p + 1, n, file, line); + else if (_malloc_trace_buckets[nunits]) + mtrace_alloc ("malloc", p + 1, n, file, line); +#endif + +#ifdef MALLOC_REGISTER + if (malloc_register && (flags & MALLOC_NOREG) == 0) + mregister_alloc ("malloc", p + 1, n, file, line); +#endif + +#ifdef MALLOC_WATCH + if (_malloc_nwatch > 0) + _malloc_ckwatch (p + 1, file, line, W_ALLOC, n); +#endif + +#if defined (MALLOC_DEBUG) + z = (char *) (p + 1); + /* Check alignment of returned pointer */ + if ((unsigned long)z & MALIGN_MASK) + fprintf (stderr, "malloc: %s:%d: warning: request for %d bytes not aligned on %d byte boundary\r\n", + file ? file : _("unknown"), line, p->mh_nbytes, MALIGN_MASK+1); +#endif + + return (PTR_T) (p + 1); +} + +static void +internal_free (mem, file, line, flags) + PTR_T mem; + const char *file; + int line, flags; +{ + register union mhead *p; + register char *ap, *z; + register int nunits; + register unsigned int nbytes; + int ubytes; /* caller-requested size */ + mguard_t mg; + + if ((ap = (char *)mem) == 0) + return; + + p = (union mhead *) ap - 1; + + if (p->mh_alloc == ISMEMALIGN) + { + ap -= p->mh_nbytes; + p = (union mhead *) ap - 1; + } + +#if defined (MALLOC_TRACE) || defined (MALLOC_REGISTER) || defined (MALLOC_WATCH) + if (malloc_trace || malloc_register || _malloc_nwatch > 0) + ubytes = p->mh_nbytes; +#endif + + if (p->mh_alloc != ISALLOC) + { + if (p->mh_alloc == ISFREE) + xbotch (mem, ERR_DUPFREE, + _("free: called with already freed block argument"), file, line); + else + xbotch (mem, ERR_UNALLOC, + _("free: called with unallocated block argument"), file, line); + } + + ASSERT (p->mh_magic2 == MAGIC2); + + nunits = p->mh_index; + nbytes = ALLOCATED_BYTES(p->mh_nbytes); + /* Since the sizeof(u_bits32_t) bytes before the memory handed to the user + are now used for the number of bytes allocated, a simple check of + mh_magic2 is no longer sufficient to catch things like p[-1] = 'x'. + We sanity-check the value of mh_nbytes against the size of the blocks + in the appropriate bucket before we use it. This can still cause problems + and obscure errors if mh_nbytes is wrong but still within range; the + checks against the size recorded at the end of the chunk will probably + fail then. Using MALLOC_REGISTER will help here, since it saves the + original number of bytes requested. */ + + if (IN_BUCKET(nbytes, nunits) == 0) + xbotch (mem, ERR_UNDERFLOW, + _("free: underflow detected; mh_nbytes out of range"), file, line); +#if SIZEOF_CHAR_P == 8 + { + int i; + for (i = 0, z = p->mh_magic8; i < 8; i++) + if (*z++ != MAGIC1) + xbotch (mem, ERR_UNDERFLOW, + _("free: underflow detected; magic8 corrupted"), file, line); + } +#endif + + ap += p->mh_nbytes; + z = mg.s; + *z++ = *ap++, *z++ = *ap++, *z++ = *ap++, *z++ = *ap++; + if (mg.i != p->mh_nbytes) + xbotch (mem, ERR_ASSERT_FAILED, _("free: start and end chunk sizes differ"), file, line); + +#if defined (USE_MMAP) + if (nunits > malloc_mmap_threshold) + { + munmap (p, binsize (nunits)); +#if defined (MALLOC_STATS) + _mstats.nlesscore[nunits]++; +#endif + goto free_return; + } +#endif + +#if GLIBC21 + if (nunits >= LESSCORE_MIN && ((char *)p + binsize(nunits) == sbrk (0))) +#else + if (nunits >= LESSCORE_MIN && ((char *)p + binsize(nunits) == memtop)) +#endif + { + /* If above LESSCORE_FRC, give back unconditionally. This should be set + high enough to be infrequently encountered. If between LESSCORE_MIN + and LESSCORE_FRC, call lesscore if the bucket is marked as busy or if + there's already a block on the free list. */ + if ((nunits >= LESSCORE_FRC) || busy[nunits] || nextf[nunits] != 0) + { + lesscore (nunits); + /* keeps the tracing and registering code in one place */ + goto free_return; + } + } + +#ifdef MEMSCRAMBLE + if (p->mh_nbytes) + MALLOC_MEMSET (mem, 0xcf, p->mh_nbytes); +#endif + + ASSERT (nunits < NBUCKETS); + + if (busy[nunits] == 1) + { + xsplit (p, nunits); /* split block and add to different chain */ + goto free_return; + } + + p->mh_alloc = ISFREE; + /* Protect against signal handlers calling malloc. */ + busy[nunits] = 1; + /* Put this block on the free list. */ + CHAIN (p) = nextf[nunits]; + nextf[nunits] = p; + busy[nunits] = 0; + +free_return: + ; /* Empty statement in case this is the end of the function */ + +#ifdef MALLOC_STATS + _mstats.nmalloc[nunits]--; + _mstats.nfre++; +#endif /* MALLOC_STATS */ + +#ifdef MALLOC_TRACE + if (malloc_trace && (flags & MALLOC_NOTRACE) == 0) + mtrace_free (mem, ubytes, file, line); + else if (_malloc_trace_buckets[nunits]) + mtrace_free (mem, ubytes, file, line); +#endif + +#ifdef MALLOC_REGISTER + if (malloc_register && (flags & MALLOC_NOREG) == 0) + mregister_free (mem, ubytes, file, line); +#endif + +#ifdef MALLOC_WATCH + if (_malloc_nwatch > 0) + _malloc_ckwatch (mem, file, line, W_FREE, ubytes); +#endif +} + +static PTR_T +internal_realloc (mem, n, file, line, flags) + PTR_T mem; + register size_t n; + const char *file; + int line, flags; +{ + register union mhead *p; + register u_bits32_t tocopy; + register unsigned int nbytes; + register int nunits; + register char *m, *z; + mguard_t mg; + +#ifdef MALLOC_STATS + _mstats.nrealloc++; +#endif + + if (n == 0) + { + internal_free (mem, file, line, MALLOC_INTERNAL); + return (NULL); + } + if ((p = (union mhead *) mem) == 0) + return internal_malloc (n, file, line, MALLOC_INTERNAL); + + p--; + nunits = p->mh_index; + ASSERT (nunits < NBUCKETS); + + if (p->mh_alloc != ISALLOC) + xbotch (mem, ERR_UNALLOC, + _("realloc: called with unallocated block argument"), file, line); + + ASSERT (p->mh_magic2 == MAGIC2); + nbytes = ALLOCATED_BYTES(p->mh_nbytes); + /* Since the sizeof(u_bits32_t) bytes before the memory handed to the user + are now used for the number of bytes allocated, a simple check of + mh_magic2 is no longer sufficient to catch things like p[-1] = 'x'. + We sanity-check the value of mh_nbytes against the size of the blocks + in the appropriate bucket before we use it. This can still cause problems + and obscure errors if mh_nbytes is wrong but still within range; the + checks against the size recorded at the end of the chunk will probably + fail then. Using MALLOC_REGISTER will help here, since it saves the + original number of bytes requested. */ + if (IN_BUCKET(nbytes, nunits) == 0) + xbotch (mem, ERR_UNDERFLOW, + _("realloc: underflow detected; mh_nbytes out of range"), file, line); +#if SIZEOF_CHAR_P == 8 + { + int i; + for (i = 0, z = p->mh_magic8; i < 8; i++) + if (*z++ != MAGIC1) + xbotch (mem, ERR_UNDERFLOW, + _("realloc: underflow detected; magic8 corrupted"), file, line); + + } +#endif + + m = (char *)mem + (tocopy = p->mh_nbytes); + z = mg.s; + *z++ = *m++, *z++ = *m++, *z++ = *m++, *z++ = *m++; + if (mg.i != p->mh_nbytes) + xbotch (mem, ERR_ASSERT_FAILED, _("realloc: start and end chunk sizes differ"), file, line); + +#ifdef MALLOC_WATCH + if (_malloc_nwatch > 0) + _malloc_ckwatch (p + 1, file, line, W_REALLOC, n); +#endif +#ifdef MALLOC_STATS + _mstats.bytesreq += (n < tocopy) ? 0 : n - tocopy; +#endif + + /* If we're reallocating to the same size as previously, return now */ + if (n == p->mh_nbytes) + return mem; + + /* See if desired size rounds to same power of 2 as actual size. */ + nbytes = ALLOCATED_BYTES(n); + + /* If ok, use the same block, just marking its size as changed. */ + if (RIGHT_BUCKET(nbytes, nunits) || RIGHT_BUCKET(nbytes, nunits-1)) + { + /* Compensate for increment above. */ + m -= 4; + + *m++ = 0; *m++ = 0; *m++ = 0; *m++ = 0; + m = (char *)mem + (p->mh_nbytes = n); + + mg.i = n; + z = mg.s; + *m++ = *z++, *m++ = *z++, *m++ = *z++, *m++ = *z++; + + return mem; + } + + if (n < tocopy) + tocopy = n; + +#ifdef MALLOC_STATS + _mstats.nrcopy++; +#endif + + /* If we are using mmap and have mremap, we could use it here. */ + + if ((m = internal_malloc (n, file, line, MALLOC_INTERNAL|MALLOC_NOTRACE|MALLOC_NOREG)) == 0) + return 0; + FASTCOPY (mem, m, tocopy); + internal_free (mem, file, line, MALLOC_INTERNAL); + +#ifdef MALLOC_TRACE + if (malloc_trace && (flags & MALLOC_NOTRACE) == 0) + mtrace_alloc ("realloc", m, n, file, line); + else if (_malloc_trace_buckets[nunits]) + mtrace_alloc ("realloc", m, n, file, line); +#endif + +#ifdef MALLOC_REGISTER + if (malloc_register && (flags & MALLOC_NOREG) == 0) + mregister_alloc ("realloc", m, n, file, line); +#endif + +#ifdef MALLOC_WATCH + if (_malloc_nwatch > 0) + _malloc_ckwatch (m, file, line, W_RESIZED, n); +#endif + + return m; +} + +static PTR_T +internal_memalign (alignment, size, file, line, flags) + size_t alignment; + size_t size; + const char *file; + int line, flags; +{ + register char *ptr; + register char *aligned; + register union mhead *p; + + ptr = internal_malloc (size + alignment, file, line, MALLOC_INTERNAL); + + if (ptr == 0) + return 0; + /* If entire block has the desired alignment, just accept it. */ + if (((long) ptr & (alignment - 1)) == 0) + return ptr; + /* Otherwise, get address of byte in the block that has that alignment. */ + aligned = (char *) (((long) ptr + alignment - 1) & (~alignment + 1)); + + /* Store a suitable indication of how to free the block, + so that free can find the true beginning of it. */ + p = (union mhead *) aligned - 1; + p->mh_nbytes = aligned - ptr; + p->mh_alloc = ISMEMALIGN; + + return aligned; +} + +int +posix_memalign (memptr, alignment, size) + void **memptr; + size_t alignment, size; +{ + void *mem; + + /* Perform posix-mandated error checking here */ + if ((alignment % sizeof (void *) != 0) || alignment == 0) + return EINVAL; + else if (powerof2 (alignment) == 0) + return EINVAL; + + mem = internal_memalign (alignment, size, (char *)0, 0, 0); + if (mem != 0) + { + *memptr = mem; + return 0; + } + return ENOMEM; +} + +size_t +malloc_usable_size (mem) + void *mem; +{ + register union mhead *p; + register char *ap; + register int maxbytes; + + + if ((ap = (char *)mem) == 0) + return 0; + + /* Find the true start of the memory block to discover which bin */ + p = (union mhead *) ap - 1; + if (p->mh_alloc == ISMEMALIGN) + { + ap -= p->mh_nbytes; + p = (union mhead *) ap - 1; + } + + /* XXX - should we return 0 if ISFREE? */ + maxbytes = binsize(p->mh_index); + + /* So the usable size is the maximum number of bytes in the bin less the + malloc overhead */ + maxbytes -= MOVERHEAD + MSLOP; + return (maxbytes); +} + +#if !defined (NO_VALLOC) +/* This runs into trouble with getpagesize on HPUX, and Multimax machines. + Patching out seems cleaner than the ugly fix needed. */ +static PTR_T +internal_valloc (size, file, line, flags) + size_t size; + const char *file; + int line, flags; +{ + return internal_memalign (getpagesize (), size, file, line, flags|MALLOC_INTERNAL); +} +#endif /* !NO_VALLOC */ + +#ifndef NO_CALLOC +static PTR_T +internal_calloc (n, s, file, line, flags) + size_t n, s; + const char *file; + int line, flags; +{ + size_t total; + PTR_T result; + + total = n * s; + result = internal_malloc (total, file, line, flags|MALLOC_INTERNAL); + if (result) + memset (result, 0, total); + return result; +} + +static void +internal_cfree (p, file, line, flags) + PTR_T p; + const char *file; + int line, flags; +{ + internal_free (p, file, line, flags|MALLOC_INTERNAL); +} +#endif /* !NO_CALLOC */ + +#ifdef MALLOC_STATS +int +malloc_free_blocks (size) + int size; +{ + int nfree; + register union mhead *p; + + nfree = 0; + for (p = nextf[size]; p; p = CHAIN (p)) + nfree++; + + return nfree; +} +#endif + +#if defined (MALLOC_WRAPFUNCS) +PTR_T +sh_malloc (bytes, file, line) + size_t bytes; + const char *file; + int line; +{ + return internal_malloc (bytes, file, line, MALLOC_WRAPPER); +} + +PTR_T +sh_realloc (ptr, size, file, line) + PTR_T ptr; + size_t size; + const char *file; + int line; +{ + return internal_realloc (ptr, size, file, line, MALLOC_WRAPPER); +} + +void +sh_free (mem, file, line) + PTR_T mem; + const char *file; + int line; +{ + internal_free (mem, file, line, MALLOC_WRAPPER); +} + +PTR_T +sh_memalign (alignment, size, file, line) + size_t alignment; + size_t size; + const char *file; + int line; +{ + return internal_memalign (alignment, size, file, line, MALLOC_WRAPPER); +} + +#ifndef NO_CALLOC +PTR_T +sh_calloc (n, s, file, line) + size_t n, s; + const char *file; + int line; +{ + return internal_calloc (n, s, file, line, MALLOC_WRAPPER); +} + +void +sh_cfree (mem, file, line) + PTR_T mem; + const char *file; + int line; +{ + internal_cfree (mem, file, line, MALLOC_WRAPPER); +} +#endif + +#ifndef NO_VALLOC +PTR_T +sh_valloc (size, file, line) + size_t size; + const char *file; + int line; +{ + return internal_valloc (size, file, line, MALLOC_WRAPPER); +} +#endif /* !NO_VALLOC */ + +#endif /* MALLOC_WRAPFUNCS */ + +/* Externally-available functions that call their internal counterparts. */ + +PTR_T +malloc (size) + size_t size; +{ + return internal_malloc (size, (char *)NULL, 0, 0); +} + +PTR_T +realloc (mem, nbytes) + PTR_T mem; + size_t nbytes; +{ + return internal_realloc (mem, nbytes, (char *)NULL, 0, 0); +} + +void +free (mem) + PTR_T mem; +{ + internal_free (mem, (char *)NULL, 0, 0); +} + +PTR_T +memalign (alignment, size) + size_t alignment; + size_t size; +{ + return internal_memalign (alignment, size, (char *)NULL, 0, 0); +} + +#ifndef NO_VALLOC +PTR_T +valloc (size) + size_t size; +{ + return internal_valloc (size, (char *)NULL, 0, 0); +} +#endif + +#ifndef NO_CALLOC +PTR_T +calloc (n, s) + size_t n, s; +{ + return internal_calloc (n, s, (char *)NULL, 0, 0); +} + +void +cfree (mem) + PTR_T mem; +{ + internal_cfree (mem, (char *)NULL, 0, 0); +} +#endif |