diff options
Diffstat (limited to 'malloc/malloc.c')
-rw-r--r-- | malloc/malloc.c | 1650 |
1 files changed, 203 insertions, 1447 deletions
diff --git a/malloc/malloc.c b/malloc/malloc.c index d7af63d..0683eee 100644 --- a/malloc/malloc.c +++ b/malloc/malloc.c @@ -74,20 +74,20 @@ Standard (ANSI/SVID/...) functions: malloc(size_t n); calloc(size_t n_elements, size_t element_size); - free(Void_t* p); - realloc(Void_t* p, size_t n); + free(void* p); + realloc(void* p, size_t n); memalign(size_t alignment, size_t n); valloc(size_t n); mallinfo() mallopt(int parameter_number, int parameter_value) Additional functions: - independent_calloc(size_t n_elements, size_t size, Void_t* chunks[]); - independent_comalloc(size_t n_elements, size_t sizes[], Void_t* chunks[]); + independent_calloc(size_t n_elements, size_t size, void* chunks[]); + independent_comalloc(size_t n_elements, size_t sizes[], void* chunks[]); pvalloc(size_t n); - cfree(Void_t* p); + cfree(void* p); malloc_trim(size_t pad); - malloc_usable_size(Void_t* p); + malloc_usable_size(void* p); malloc_stats(); * Vital statistics: @@ -145,7 +145,7 @@ failure action and then return null. (Requests may also also fail because a system is out of memory.) - Thread-safety: thread-safe unless NO_THREADS is defined + Thread-safety: thread-safe Compliance: I believe it is compliant with the 1997 Single Unix Specification Also SVID/XPG, ANSI C, and probably others as well. @@ -154,8 +154,7 @@ People have reported using previous versions of this malloc on all versions of Unix, sometimes by tweaking some of the defines - below. It has been tested most extensively on Solaris and - Linux. It is also reported to work on WIN32 platforms. + below. It has been tested most extensively on Solaris and Linux. People also report using it in stand-alone embedded systems. The implementation is in straight, hand-tuned ANSI C. It is not @@ -170,19 +169,8 @@ Compilation Environment options: - __STD_C derived from C compiler defines - WIN32 NOT defined - HAVE_MEMCPY defined - USE_MEMCPY 1 if HAVE_MEMCPY is defined - HAVE_MMAP defined as 1 - MMAP_CLEARS 1 HAVE_MREMAP 0 unless linux defined - USE_ARENAS the same as HAVE_MMAP malloc_getpagesize derived from system #includes, or 4096 if not - HAVE_USR_INCLUDE_MALLOC_H NOT defined - LACKS_UNISTD_H NOT defined unless WIN32 - LACKS_SYS_PARAM_H NOT defined unless WIN32 - LACKS_SYS_MMAN_H NOT defined unless WIN32 Changing default word sizes: @@ -197,7 +185,7 @@ USE_MALLOC_LOCK NOT defined MALLOC_DEBUG NOT defined REALLOC_ZERO_BYTES_FREES 1 - MALLOC_FAILURE_ACTION errno = ENOMEM, if __STD_C defined, else no-op + MALLOC_FAILURE_ACTION errno = ENOMEM TRIM_FASTBINS 0 Options for customizing MORECORE: @@ -221,67 +209,28 @@ probably don't want to touch unless you are extending or adapting malloc. */ /* - __STD_C should be nonzero if using ANSI-standard C compiler, a C++ - compiler, or a C compiler sufficiently close to ANSI to get away - with it. + void* is the pointer type that malloc should say it returns */ -#ifndef __STD_C -#if defined(__STDC__) || defined(__cplusplus) -#define __STD_C 1 -#else -#define __STD_C 0 -#endif -#endif /*__STD_C*/ - - -/* - Void_t* is the pointer type that malloc should say it returns -*/ - -#ifndef Void_t -#if (__STD_C || defined(WIN32)) -#define Void_t void -#else -#define Void_t char -#endif -#endif /*Void_t*/ +#ifndef void +#define void void +#endif /*void*/ -#if __STD_C #include <stddef.h> /* for size_t */ #include <stdlib.h> /* for getenv(), abort() */ -#else -#include <sys/types.h> -#endif #include <malloc-machine.h> -#ifdef _LIBC -#ifdef ATOMIC_FASTBINS #include <atomic.h> -#endif #include <stdio-common/_itoa.h> #include <bits/wordsize.h> #include <sys/sysinfo.h> -#endif #ifdef __cplusplus extern "C" { #endif -/* define LACKS_UNISTD_H if your system does not have a <unistd.h>. */ - -/* #define LACKS_UNISTD_H */ - -#ifndef LACKS_UNISTD_H #include <unistd.h> -#endif - -/* define LACKS_SYS_PARAM_H if your system does not have a <sys/param.h>. */ - -/* #define LACKS_SYS_PARAM_H */ - - #include <stdio.h> /* needed for malloc_stats */ #include <errno.h> /* needed for optional MALLOC_FAILURE_ACTION */ @@ -486,7 +435,6 @@ __malloc_assert (const char *assertion, const char *file, unsigned int line, #define public_gET_STATe dlget_state #define public_sET_STATe dlset_state #else /* USE_DL_PREFIX */ -#ifdef _LIBC /* Special defines for the GNU C library. */ #define public_cALLOc __libc_calloc @@ -515,79 +463,13 @@ __malloc_assert (const char *assertion, const char *file, unsigned int line, #define MORECORE (*__morecore) #define MORECORE_FAILURE 0 -Void_t * __default_morecore (ptrdiff_t); -Void_t *(*__morecore)(ptrdiff_t) = __default_morecore; - -#else /* !_LIBC */ -#define public_cALLOc calloc -#define public_fREe free -#define public_cFREe cfree -#define public_mALLOc malloc -#define public_mEMALIGn memalign -#define public_rEALLOc realloc -#define public_vALLOc valloc -#define public_pVALLOc pvalloc -#define public_mALLINFo mallinfo -#define public_mALLOPt mallopt -#define public_mTRIm malloc_trim -#define public_mSTATs malloc_stats -#define public_mUSABLe malloc_usable_size -#define public_iCALLOc independent_calloc -#define public_iCOMALLOc independent_comalloc -#define public_gET_STATe malloc_get_state -#define public_sET_STATe malloc_set_state -#endif /* _LIBC */ -#endif /* USE_DL_PREFIX */ - -#ifndef _LIBC -#define __builtin_expect(expr, val) (expr) - -#define fwrite(buf, size, count, fp) _IO_fwrite (buf, size, count, fp) -#endif - -/* - HAVE_MEMCPY should be defined if you are not otherwise using - ANSI STD C, but still have memcpy and memset in your C library - and want to use them in calloc and realloc. Otherwise simple - macro versions are defined below. - - USE_MEMCPY should be defined as 1 if you actually want to - have memset and memcpy called. People report that the macro - versions are faster than libc versions on some systems. - - Even if USE_MEMCPY is set to 1, loops to copy/clear small chunks - (of <= 36 bytes) are manually unrolled in realloc and calloc. -*/ - -#define HAVE_MEMCPY - -#ifndef USE_MEMCPY -#ifdef HAVE_MEMCPY -#define USE_MEMCPY 1 -#else -#define USE_MEMCPY 0 -#endif -#endif +void * __default_morecore (ptrdiff_t); +void *(*__morecore)(ptrdiff_t) = __default_morecore; +#endif /* USE_DL_PREFIX */ -#if (__STD_C || defined(HAVE_MEMCPY)) -#ifdef _LIBC -# include <string.h> -#else -#ifdef WIN32 -/* On Win32 memset and memcpy are already declared in windows.h */ -#else -#if __STD_C -void* memset(void*, int, size_t); -void* memcpy(void*, const void*, size_t); -#else -Void_t* memset(); -Void_t* memcpy(); -#endif -#endif -#endif -#endif +#include <string.h> /* Force a value to be in a register and stop the compiler referring @@ -605,13 +487,9 @@ Void_t* memcpy(); */ #ifndef MALLOC_FAILURE_ACTION -#if __STD_C #define MALLOC_FAILURE_ACTION \ errno = ENOMEM; -#else -#define MALLOC_FAILURE_ACTION -#endif #endif /* @@ -619,16 +497,6 @@ Void_t* memcpy(); */ -#ifdef LACKS_UNISTD_H -#if !defined(__FreeBSD__) && !defined(__OpenBSD__) && !defined(__NetBSD__) -#if __STD_C -extern Void_t* sbrk(ptrdiff_t); -#else -extern Void_t* sbrk(); -#endif -#endif -#endif - /* MORECORE is the name of the routine to call to obtain more memory from the system. See below for general guidance on writing @@ -689,49 +557,16 @@ extern Void_t* sbrk(); /* - Define HAVE_MMAP as true to optionally make malloc() use mmap() to - allocate very large blocks. These will be returned to the - operating system immediately after a free(). Also, if mmap - is available, it is used as a backup strategy in cases where - MORECORE fails to provide space from system. - - This malloc is best tuned to work with mmap for large requests. - If you do not have mmap, operations involving very large chunks (1MB - or so) may be slower than you'd like. -*/ - -#ifndef HAVE_MMAP -#define HAVE_MMAP 1 - -/* - Standard unix mmap using /dev/zero clears memory so calloc doesn't - need to. -*/ - -#ifndef MMAP_CLEARS -#define MMAP_CLEARS 1 -#endif - -#else /* no mmap */ -#ifndef MMAP_CLEARS -#define MMAP_CLEARS 0 -#endif -#endif - - -/* MMAP_AS_MORECORE_SIZE is the minimum mmap size argument to use if - sbrk fails, and mmap is used as a backup (which is done only if - HAVE_MMAP). The value must be a multiple of page size. This - backup strategy generally applies only when systems have "holes" in - address space, so sbrk cannot perform contiguous expansion, but - there is still space available on system. On systems for which - this is known to be useful (i.e. most linux kernels), this occurs - only when programs allocate huge amounts of memory. Between this, - and the fact that mmap regions tend to be limited, the size should - be large, to avoid too many mmap calls and thus avoid running out - of kernel resources. -*/ + sbrk fails, and mmap is used as a backup. The value must be a + multiple of page size. This backup strategy generally applies only + when systems have "holes" in address space, so sbrk cannot perform + contiguous expansion, but there is still space available on system. + On systems for which this is known to be useful (i.e. most linux + kernels), this occurs only when programs allocate huge amounts of + memory. Between this, and the fact that mmap regions tend to be + limited, the size should be large, to avoid too many mmap calls and + thus avoid running out of kernel resources. */ #ifndef MMAP_AS_MORECORE_SIZE #define MMAP_AS_MORECORE_SIZE (1024 * 1024) @@ -750,16 +585,7 @@ extern Void_t* sbrk(); #define HAVE_MREMAP 0 #endif -#endif /* HAVE_MMAP */ - -/* Define USE_ARENAS to enable support for multiple `arenas'. These - are allocated using mmap(), are necessary for threads and - occasionally useful to overcome address space limitations affecting - sbrk(). */ - -#ifndef USE_ARENAS -#define USE_ARENAS HAVE_MMAP -#endif +#endif /* HAVE_MREMAP */ /* @@ -776,54 +602,8 @@ extern Void_t* sbrk(); #ifndef malloc_getpagesize - -#ifndef LACKS_UNISTD_H -# include <unistd.h> -#endif - -# ifdef _SC_PAGESIZE /* some SVR4 systems omit an underscore */ -# ifndef _SC_PAGE_SIZE -# define _SC_PAGE_SIZE _SC_PAGESIZE -# endif -# endif - -# ifdef _SC_PAGE_SIZE -# define malloc_getpagesize sysconf(_SC_PAGE_SIZE) -# else -# if defined(BSD) || defined(DGUX) || defined(HAVE_GETPAGESIZE) - extern size_t getpagesize(); -# define malloc_getpagesize getpagesize() -# else -# ifdef WIN32 /* use supplied emulation of getpagesize */ -# define malloc_getpagesize getpagesize() -# else -# ifndef LACKS_SYS_PARAM_H -# include <sys/param.h> -# endif -# ifdef EXEC_PAGESIZE -# define malloc_getpagesize EXEC_PAGESIZE -# else -# ifdef NBPG -# ifndef CLSIZE -# define malloc_getpagesize NBPG -# else -# define malloc_getpagesize (NBPG * CLSIZE) -# endif -# else -# ifdef NBPC -# define malloc_getpagesize NBPC -# else -# ifdef PAGESIZE -# define malloc_getpagesize PAGESIZE -# else /* just guess */ -# define malloc_getpagesize (4096) -# endif -# endif -# endif -# endif -# endif -# endif -# endif +# include <unistd.h> +# define malloc_getpagesize sysconf(_SC_PAGE_SIZE) #endif /* @@ -840,25 +620,8 @@ extern Void_t* sbrk(); bunch of fields that are not even meaningful in this version of malloc. These fields are are instead filled by mallinfo() with other numbers that might be of interest. - - HAVE_USR_INCLUDE_MALLOC_H should be set if you have a - /usr/include/malloc.h file that includes a declaration of struct - mallinfo. If so, it is included; else an SVID2/XPG2 compliant - version is declared below. These must be precisely the same for - mallinfo() to work. The original SVID version of this struct, - defined on most systems with mallinfo, declares all fields as - ints. But some others define as unsigned long. If your system - defines the fields using a type of different width than listed here, - you must #include your system version and #define - HAVE_USR_INCLUDE_MALLOC_H. */ -/* #define HAVE_USR_INCLUDE_MALLOC_H */ - -#ifdef HAVE_USR_INCLUDE_MALLOC_H -#include "/usr/include/malloc.h" -#endif - /* ---------- description of public routines ------------ */ @@ -876,17 +639,11 @@ extern Void_t* sbrk(); differs across systems, but is in all cases less than the maximum representable value of a size_t. */ -#if __STD_C -Void_t* public_mALLOc(size_t); -#else -Void_t* public_mALLOc(); -#endif -#ifdef libc_hidden_proto +void* public_mALLOc(size_t); libc_hidden_proto (public_mALLOc) -#endif /* - free(Void_t* p) + free(void* p) Releases the chunk of memory pointed to by p, that had been previously allocated using malloc or a related routine such as realloc. It has no effect if p is null. It can have arbitrary (i.e., bad!) @@ -896,28 +653,18 @@ libc_hidden_proto (public_mALLOc) when possible, automatically trigger operations that give back unused memory to the system, thus reducing program footprint. */ -#if __STD_C -void public_fREe(Void_t*); -#else -void public_fREe(); -#endif -#ifdef libc_hidden_proto +void public_fREe(void*); libc_hidden_proto (public_fREe) -#endif /* calloc(size_t n_elements, size_t element_size); Returns a pointer to n_elements * element_size bytes, with all locations set to zero. */ -#if __STD_C -Void_t* public_cALLOc(size_t, size_t); -#else -Void_t* public_cALLOc(); -#endif +void* public_cALLOc(size_t, size_t); /* - realloc(Void_t* p, size_t n) + realloc(void* p, size_t n) Returns a pointer to a chunk of size n that contains the same data as does chunk p up to the minimum of (n, p's size) bytes, or null if no space is available. @@ -943,14 +690,8 @@ Void_t* public_cALLOc(); The old unix realloc convention of allowing the last-free'd chunk to be used as an argument to realloc is not supported. */ -#if __STD_C -Void_t* public_rEALLOc(Void_t*, size_t); -#else -Void_t* public_rEALLOc(); -#endif -#ifdef libc_hidden_proto +void* public_rEALLOc(void*, size_t); libc_hidden_proto (public_rEALLOc) -#endif /* memalign(size_t alignment, size_t n); @@ -964,25 +705,15 @@ libc_hidden_proto (public_rEALLOc) Overreliance on memalign is a sure way to fragment space. */ -#if __STD_C -Void_t* public_mEMALIGn(size_t, size_t); -#else -Void_t* public_mEMALIGn(); -#endif -#ifdef libc_hidden_proto +void* public_mEMALIGn(size_t, size_t); libc_hidden_proto (public_mEMALIGn) -#endif /* valloc(size_t n); Equivalent to memalign(pagesize, n), where pagesize is the page size of the system. If the pagesize is unknown, 4096 is used. */ -#if __STD_C -Void_t* public_vALLOc(size_t); -#else -Void_t* public_vALLOc(); -#endif +void* public_vALLOc(size_t); @@ -1007,11 +738,7 @@ Void_t* public_vALLOc(); M_MMAP_THRESHOLD -3 128*1024 any (or 0 if no MMAP support) M_MMAP_MAX -4 65536 any (0 disables use of mmap) */ -#if __STD_C int public_mALLOPt(int, int); -#else -int public_mALLOPt(); -#endif /* @@ -1037,137 +764,7 @@ int public_mALLOPt(); be kept as longs, the reported values may wrap around zero and thus be inaccurate. */ -#if __STD_C struct mallinfo public_mALLINFo(void); -#else -struct mallinfo public_mALLINFo(); -#endif - -#ifndef _LIBC -/* - independent_calloc(size_t n_elements, size_t element_size, Void_t* chunks[]); - - independent_calloc is similar to calloc, but instead of returning a - single cleared space, it returns an array of pointers to n_elements - independent elements that can hold contents of size elem_size, each - of which starts out cleared, and can be independently freed, - realloc'ed etc. The elements are guaranteed to be adjacently - allocated (this is not guaranteed to occur with multiple callocs or - mallocs), which may also improve cache locality in some - applications. - - The "chunks" argument is optional (i.e., may be null, which is - probably the most typical usage). If it is null, the returned array - is itself dynamically allocated and should also be freed when it is - no longer needed. Otherwise, the chunks array must be of at least - n_elements in length. It is filled in with the pointers to the - chunks. - - In either case, independent_calloc returns this pointer array, or - null if the allocation failed. If n_elements is zero and "chunks" - is null, it returns a chunk representing an array with zero elements - (which should be freed if not wanted). - - Each element must be individually freed when it is no longer - needed. If you'd like to instead be able to free all at once, you - should instead use regular calloc and assign pointers into this - space to represent elements. (In this case though, you cannot - independently free elements.) - - independent_calloc simplifies and speeds up implementations of many - kinds of pools. It may also be useful when constructing large data - structures that initially have a fixed number of fixed-sized nodes, - but the number is not known at compile time, and some of the nodes - may later need to be freed. For example: - - struct Node { int item; struct Node* next; }; - - struct Node* build_list() { - struct Node** pool; - int n = read_number_of_nodes_needed(); - if (n <= 0) return 0; - pool = (struct Node**)(independent_calloc(n, sizeof(struct Node), 0); - if (pool == 0) die(); - // organize into a linked list... - struct Node* first = pool[0]; - for (i = 0; i < n-1; ++i) - pool[i]->next = pool[i+1]; - free(pool); // Can now free the array (or not, if it is needed later) - return first; - } -*/ -#if __STD_C -Void_t** public_iCALLOc(size_t, size_t, Void_t**); -#else -Void_t** public_iCALLOc(); -#endif - -/* - independent_comalloc(size_t n_elements, size_t sizes[], Void_t* chunks[]); - - independent_comalloc allocates, all at once, a set of n_elements - chunks with sizes indicated in the "sizes" array. It returns - an array of pointers to these elements, each of which can be - independently freed, realloc'ed etc. The elements are guaranteed to - be adjacently allocated (this is not guaranteed to occur with - multiple callocs or mallocs), which may also improve cache locality - in some applications. - - The "chunks" argument is optional (i.e., may be null). If it is null - the returned array is itself dynamically allocated and should also - be freed when it is no longer needed. Otherwise, the chunks array - must be of at least n_elements in length. It is filled in with the - pointers to the chunks. - - In either case, independent_comalloc returns this pointer array, or - null if the allocation failed. If n_elements is zero and chunks is - null, it returns a chunk representing an array with zero elements - (which should be freed if not wanted). - - Each element must be individually freed when it is no longer - needed. If you'd like to instead be able to free all at once, you - should instead use a single regular malloc, and assign pointers at - particular offsets in the aggregate space. (In this case though, you - cannot independently free elements.) - - independent_comallac differs from independent_calloc in that each - element may have a different size, and also that it does not - automatically clear elements. - - independent_comalloc can be used to speed up allocation in cases - where several structs or objects must always be allocated at the - same time. For example: - - struct Head { ... } - struct Foot { ... } - - void send_message(char* msg) { - int msglen = strlen(msg); - size_t sizes[3] = { sizeof(struct Head), msglen, sizeof(struct Foot) }; - void* chunks[3]; - if (independent_comalloc(3, sizes, chunks) == 0) - die(); - struct Head* head = (struct Head*)(chunks[0]); - char* body = (char*)(chunks[1]); - struct Foot* foot = (struct Foot*)(chunks[2]); - // ... - } - - In general though, independent_comalloc is worth using only for - larger values of n_elements. For small values, you probably won't - detect enough difference from series of malloc calls to bother. - - Overuse of independent_comalloc can increase overall memory usage, - since it cannot reuse existing noncontiguous small chunks that - might be available for some of the elements. -*/ -#if __STD_C -Void_t** public_iCOMALLOc(size_t, size_t*, Void_t**); -#else -Void_t** public_iCOMALLOc(); -#endif - -#endif /* _LIBC */ /* @@ -1175,25 +772,17 @@ Void_t** public_iCOMALLOc(); Equivalent to valloc(minimum-page-that-holds(n)), that is, round up n to nearest pagesize. */ -#if __STD_C -Void_t* public_pVALLOc(size_t); -#else -Void_t* public_pVALLOc(); -#endif +void* public_pVALLOc(size_t); /* - cfree(Void_t* p); + cfree(void* p); Equivalent to free(p). cfree is needed/defined on some systems that pair it with calloc, for odd historical reasons (such as: cfree is used in example code in the first edition of K&R). */ -#if __STD_C -void public_cFREe(Void_t*); -#else -void public_cFREe(); -#endif +void public_cFREe(void*); /* malloc_trim(size_t pad); @@ -1219,14 +808,10 @@ void public_cFREe(); On systems that do not support "negative sbrks", it will always return 0. */ -#if __STD_C int public_mTRIm(size_t); -#else -int public_mTRIm(); -#endif /* - malloc_usable_size(Void_t* p); + malloc_usable_size(void* p); Returns the number of bytes you can actually use in an allocated chunk, which may be more than you requested (although @@ -1240,11 +825,7 @@ int public_mTRIm(); assert(malloc_usable_size(p) >= 256); */ -#if __STD_C -size_t public_mUSABLe(Void_t*); -#else -size_t public_mUSABLe(); -#endif +size_t public_mUSABLe(void*); /* malloc_stats(); @@ -1266,11 +847,7 @@ size_t public_mUSABLe(); More information can be obtained by calling mallinfo. */ -#if __STD_C void public_mSTATs(void); -#else -void public_mSTATs(); -#endif /* malloc_get_state(void); @@ -1278,32 +855,22 @@ void public_mSTATs(); Returns the state of all malloc variables in an opaque data structure. */ -#if __STD_C -Void_t* public_gET_STATe(void); -#else -Void_t* public_gET_STATe(); -#endif +void* public_gET_STATe(void); /* - malloc_set_state(Void_t* state); + malloc_set_state(void* state); Restore the state of all malloc variables from data obtained with malloc_get_state(). */ -#if __STD_C -int public_sET_STATe(Void_t*); -#else -int public_sET_STATe(); -#endif +int public_sET_STATe(void*); -#ifdef _LIBC /* posix_memalign(void **memptr, size_t alignment, size_t size); POSIX wrapper like memalign(), checking for validity of size. */ int __posix_memalign(void **, size_t, size_t); -#endif /* mallopt tuning options */ @@ -1569,19 +1136,13 @@ int __posix_memalign(void **, size_t, size_t); performance. The default is set to a value that serves only as a safeguard. - Setting to 0 disables use of mmap for servicing large requests. If - HAVE_MMAP is not set, the default value is 0, and attempts to set it - to non-zero values in mallopt will fail. + Setting to 0 disables use of mmap for servicing large requests. */ #define M_MMAP_MAX -4 #ifndef DEFAULT_MMAP_MAX -#if HAVE_MMAP #define DEFAULT_MMAP_MAX (65536) -#else -#define DEFAULT_MMAP_MAX (0) -#endif #endif #ifdef __cplusplus @@ -1610,77 +1171,42 @@ typedef struct malloc_chunk* mchunkptr; /* Internal routines. */ -#if __STD_C - -static Void_t* _int_malloc(mstate, size_t); -#ifdef ATOMIC_FASTBINS +static void* _int_malloc(mstate, size_t); static void _int_free(mstate, mchunkptr, int); -#else -static void _int_free(mstate, mchunkptr); -#endif -static Void_t* _int_realloc(mstate, mchunkptr, INTERNAL_SIZE_T, +static void* _int_realloc(mstate, mchunkptr, INTERNAL_SIZE_T, INTERNAL_SIZE_T); -static Void_t* _int_memalign(mstate, size_t, size_t); -static Void_t* _int_valloc(mstate, size_t); -static Void_t* _int_pvalloc(mstate, size_t); -/*static Void_t* cALLOc(size_t, size_t);*/ -#ifndef _LIBC -static Void_t** _int_icalloc(mstate, size_t, size_t, Void_t**); -static Void_t** _int_icomalloc(mstate, size_t, size_t*, Void_t**); -#endif +static void* _int_memalign(mstate, size_t, size_t); +static void* _int_valloc(mstate, size_t); +static void* _int_pvalloc(mstate, size_t); +/*static void* cALLOc(size_t, size_t);*/ static int mTRIm(mstate, size_t); -static size_t mUSABLe(Void_t*); +static size_t mUSABLe(void*); static void mSTATs(void); static int mALLOPt(int, int); static struct mallinfo mALLINFo(mstate); static void malloc_printerr(int action, const char *str, void *ptr); -static Void_t* internal_function mem2mem_check(Void_t *p, size_t sz); +static void* internal_function mem2mem_check(void *p, size_t sz); static int internal_function top_check(void); static void internal_function munmap_chunk(mchunkptr p); #if HAVE_MREMAP static mchunkptr internal_function mremap_chunk(mchunkptr p, size_t new_size); #endif -static Void_t* malloc_check(size_t sz, const Void_t *caller); -static void free_check(Void_t* mem, const Void_t *caller); -static Void_t* realloc_check(Void_t* oldmem, size_t bytes, - const Void_t *caller); -static Void_t* memalign_check(size_t alignment, size_t bytes, - const Void_t *caller); -#ifndef NO_THREADS +static void* malloc_check(size_t sz, const void *caller); +static void free_check(void* mem, const void *caller); +static void* realloc_check(void* oldmem, size_t bytes, + const void *caller); +static void* memalign_check(size_t alignment, size_t bytes, + const void *caller); /* These routines are never needed in this configuration. */ -static Void_t* malloc_atfork(size_t sz, const Void_t *caller); -static void free_atfork(Void_t* mem, const Void_t *caller); -#endif - -#else - -static Void_t* _int_malloc(); -static void _int_free(); -static Void_t* _int_realloc(); -static Void_t* _int_memalign(); -static Void_t* _int_valloc(); -static Void_t* _int_pvalloc(); -/*static Void_t* cALLOc();*/ -static Void_t** _int_icalloc(); -static Void_t** _int_icomalloc(); -static int mTRIm(); -static size_t mUSABLe(); -static void mSTATs(); -static int mALLOPt(); -static struct mallinfo mALLINFo(); - -#endif - - +static void* malloc_atfork(size_t sz, const void *caller); +static void free_atfork(void* mem, const void *caller); /* ------------- Optional versions of memcopy ---------------- */ -#if USE_MEMCPY - /* Note: memcpy is ONLY invoked with non-overlapping regions, so the (usually slower) memmove is not needed. @@ -1689,58 +1215,12 @@ static struct mallinfo mALLINFo(); #define MALLOC_COPY(dest, src, nbytes) memcpy(dest, src, nbytes) #define MALLOC_ZERO(dest, nbytes) memset(dest, 0, nbytes) -#else /* !USE_MEMCPY */ - -/* Use Duff's device for good zeroing/copying performance. */ - -#define MALLOC_ZERO(charp, nbytes) \ -do { \ - INTERNAL_SIZE_T* mzp = (INTERNAL_SIZE_T*)(charp); \ - unsigned long mctmp = (nbytes)/sizeof(INTERNAL_SIZE_T); \ - long mcn; \ - if (mctmp < 8) mcn = 0; else { mcn = (mctmp-1)/8; mctmp %= 8; } \ - switch (mctmp) { \ - case 0: for(;;) { *mzp++ = 0; \ - case 7: *mzp++ = 0; \ - case 6: *mzp++ = 0; \ - case 5: *mzp++ = 0; \ - case 4: *mzp++ = 0; \ - case 3: *mzp++ = 0; \ - case 2: *mzp++ = 0; \ - case 1: *mzp++ = 0; if(mcn <= 0) break; mcn--; } \ - } \ -} while(0) - -#define MALLOC_COPY(dest,src,nbytes) \ -do { \ - INTERNAL_SIZE_T* mcsrc = (INTERNAL_SIZE_T*) src; \ - INTERNAL_SIZE_T* mcdst = (INTERNAL_SIZE_T*) dest; \ - unsigned long mctmp = (nbytes)/sizeof(INTERNAL_SIZE_T); \ - long mcn; \ - if (mctmp < 8) mcn = 0; else { mcn = (mctmp-1)/8; mctmp %= 8; } \ - switch (mctmp) { \ - case 0: for(;;) { *mcdst++ = *mcsrc++; \ - case 7: *mcdst++ = *mcsrc++; \ - case 6: *mcdst++ = *mcsrc++; \ - case 5: *mcdst++ = *mcsrc++; \ - case 4: *mcdst++ = *mcsrc++; \ - case 3: *mcdst++ = *mcsrc++; \ - case 2: *mcdst++ = *mcsrc++; \ - case 1: *mcdst++ = *mcsrc++; if(mcn <= 0) break; mcn--; } \ - } \ -} while(0) - -#endif /* ------------------ MMAP support ------------------ */ -#if HAVE_MMAP - #include <fcntl.h> -#ifndef LACKS_SYS_MMAN_H #include <sys/mman.h> -#endif #if !defined(MAP_ANONYMOUS) && defined(MAP_ANON) # define MAP_ANONYMOUS MAP_ANON @@ -1780,9 +1260,6 @@ static int dev_zero_fd = -1; /* Cached file descriptor for /dev/zero. */ #endif -#endif /* HAVE_MMAP */ - - /* ----------------------- Chunk representations ----------------------- */ @@ -1901,7 +1378,7 @@ nextchunk-> +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ /* conversion from malloc headers to user pointers, and back */ -#define chunk2mem(p) ((Void_t*)((char*)(p) + 2*SIZE_SZ)) +#define chunk2mem(p) ((void*)((char*)(p) + 2*SIZE_SZ)) #define mem2chunk(mem) ((mchunkptr)((char*)(mem) - 2*SIZE_SZ)) /* The smallest possible chunk */ @@ -2038,8 +1515,8 @@ nextchunk-> +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ below. There are no other static variables, except in two optional cases: * If USE_MALLOC_LOCK is defined, the mALLOC_MUTEx declared above. - * If HAVE_MMAP is true, but mmap doesn't support - MAP_ANONYMOUS, a dummy file descriptor for mmap. + * If mmap doesn't support MAP_ANONYMOUS, a dummy file descriptor + for mmap. Beware of lots of tricks that minimize the total bookkeeping space requirements. The result is a little over 1K bytes (for 4byte @@ -2306,13 +1783,8 @@ typedef struct malloc_chunk* mfastbinptr; #define FASTCHUNKS_BIT (1U) #define have_fastchunks(M) (((M)->flags & FASTCHUNKS_BIT) == 0) -#ifdef ATOMIC_FASTBINS #define clear_fastchunks(M) catomic_or (&(M)->flags, FASTCHUNKS_BIT) #define set_fastchunks(M) catomic_and (&(M)->flags, ~FASTCHUNKS_BIT) -#else -#define clear_fastchunks(M) ((M)->flags |= FASTCHUNKS_BIT) -#define set_fastchunks(M) ((M)->flags &= ~FASTCHUNKS_BIT) -#endif /* NONCONTIGUOUS_BIT indicates that MORECORE does not return contiguous @@ -2453,11 +1925,7 @@ static INTERNAL_SIZE_T global_max_fast; optimization at all. (Inlining it in malloc_consolidate is fine though.) */ -#if __STD_C static void malloc_init_state(mstate av) -#else -static void malloc_init_state(av) mstate av; -#endif { int i; mbinptr bin; @@ -2483,19 +1951,9 @@ static void malloc_init_state(av) mstate av; Other internal utilities operating on mstates */ -#if __STD_C -static Void_t* sYSMALLOc(INTERNAL_SIZE_T, mstate); +static void* sYSMALLOc(INTERNAL_SIZE_T, mstate); static int sYSTRIm(size_t, mstate); static void malloc_consolidate(mstate); -#ifndef _LIBC -static Void_t** iALLOc(mstate, size_t, size_t*, int, Void_t**); -#endif -#else -static Void_t* sYSMALLOc(); -static int sYSTRIm(); -static void malloc_consolidate(); -static Void_t** iALLOc(); -#endif /* -------------- Early definitions for debugging hooks ---------------- */ @@ -2503,21 +1961,17 @@ static Void_t** iALLOc(); /* Define and initialize the hook variables. These weak definitions must appear before any use of the variables in a function (arena.c uses one). */ #ifndef weak_variable -#ifndef _LIBC -#define weak_variable /**/ -#else /* In GNU libc we want the hook variables to be weak definitions to avoid a problem with Emacs. */ -#define weak_variable weak_function -#endif +# define weak_variable weak_function #endif /* Forward declarations. */ -static Void_t* malloc_hook_ini __MALLOC_P ((size_t sz, +static void* malloc_hook_ini __MALLOC_P ((size_t sz, const __malloc_ptr_t caller)); -static Void_t* realloc_hook_ini __MALLOC_P ((Void_t* ptr, size_t sz, +static void* realloc_hook_ini __MALLOC_P ((void* ptr, size_t sz, const __malloc_ptr_t caller)); -static Void_t* memalign_hook_ini __MALLOC_P ((size_t alignment, size_t sz, +static void* memalign_hook_ini __MALLOC_P ((size_t alignment, size_t sz, const __malloc_ptr_t caller)); void weak_variable (*__malloc_initialize_hook) (void) = NULL; @@ -2586,11 +2040,7 @@ static int perturb_byte; Properties of all chunks */ -#if __STD_C static void do_check_chunk(mstate av, mchunkptr p) -#else -static void do_check_chunk(av, p) mstate av; mchunkptr p; -#endif { unsigned long sz = chunksize(p); /* min and max possible addresses assuming contiguous allocation */ @@ -2615,7 +2065,6 @@ static void do_check_chunk(av, p) mstate av; mchunkptr p; } else { -#if HAVE_MMAP /* address is outside main heap */ if (contiguous(av) && av->top != initial_top(av)) { assert(((char*)p) < min_address || ((char*)p) >= max_address); @@ -2624,10 +2073,6 @@ static void do_check_chunk(av, p) mstate av; mchunkptr p; assert(((p->prev_size + sz) & (mp_.pagesize-1)) == 0); /* mem is aligned */ assert(aligned_OK(chunk2mem(p))); -#else - /* force an appropriate assert violation if debug set */ - assert(!chunk_is_mmapped(p)); -#endif } } @@ -2635,11 +2080,7 @@ static void do_check_chunk(av, p) mstate av; mchunkptr p; Properties of free chunks */ -#if __STD_C static void do_check_free_chunk(mstate av, mchunkptr p) -#else -static void do_check_free_chunk(av, p) mstate av; mchunkptr p; -#endif { INTERNAL_SIZE_T sz = p->size & ~(PREV_INUSE|NON_MAIN_ARENA); mchunkptr next = chunk_at_offset(p, sz); @@ -2673,11 +2114,7 @@ static void do_check_free_chunk(av, p) mstate av; mchunkptr p; Properties of inuse chunks */ -#if __STD_C static void do_check_inuse_chunk(mstate av, mchunkptr p) -#else -static void do_check_inuse_chunk(av, p) mstate av; mchunkptr p; -#endif { mchunkptr next; @@ -2714,12 +2151,7 @@ static void do_check_inuse_chunk(av, p) mstate av; mchunkptr p; Properties of chunks recycled from fastbins */ -#if __STD_C static void do_check_remalloced_chunk(mstate av, mchunkptr p, INTERNAL_SIZE_T s) -#else -static void do_check_remalloced_chunk(av, p, s) -mstate av; mchunkptr p; INTERNAL_SIZE_T s; -#endif { INTERNAL_SIZE_T sz = p->size & ~(PREV_INUSE|NON_MAIN_ARENA); @@ -2747,12 +2179,7 @@ mstate av; mchunkptr p; INTERNAL_SIZE_T s; Properties of nonrecycled chunks at the point they are malloced */ -#if __STD_C static void do_check_malloced_chunk(mstate av, mchunkptr p, INTERNAL_SIZE_T s) -#else -static void do_check_malloced_chunk(av, p, s) -mstate av; mchunkptr p; INTERNAL_SIZE_T s; -#endif { /* same as recycled case ... */ do_check_remalloced_chunk(av, p, s); @@ -2916,10 +2343,6 @@ static void do_check_malloc_state(mstate av) /* sanity checks for statistics */ -#ifdef NO_THREADS - assert(total <= (unsigned long)(mp_.max_total_mem)); - assert(mp_.n_mmaps >= 0); -#endif assert(mp_.n_mmaps <= mp_.max_n_mmaps); assert((unsigned long)(av->system_mem) <= @@ -2927,11 +2350,6 @@ static void do_check_malloc_state(mstate av) assert((unsigned long)(mp_.mmapped_mem) <= (unsigned long)(mp_.max_mmapped_mem)); - -#ifdef NO_THREADS - assert((unsigned long)(mp_.max_total_mem) >= - (unsigned long)(mp_.mmapped_mem) + (unsigned long)(av->system_mem)); -#endif } #endif @@ -2949,11 +2367,7 @@ static void do_check_malloc_state(mstate av) be extended or replaced. */ -#if __STD_C -static Void_t* sYSMALLOc(INTERNAL_SIZE_T nb, mstate av) -#else -static Void_t* sYSMALLOc(nb, av) INTERNAL_SIZE_T nb; mstate av; -#endif +static void* sYSMALLOc(INTERNAL_SIZE_T nb, mstate av) { mchunkptr old_top; /* incoming value of av->top */ INTERNAL_SIZE_T old_size; /* its size */ @@ -2979,8 +2393,6 @@ static Void_t* sYSMALLOc(nb, av) INTERNAL_SIZE_T nb; mstate av; bool tried_mmap = false; -#if HAVE_MMAP - /* If have mmap, and the request size meets the mmap threshold, and the system supports mmap, and there are few enough currently @@ -2998,14 +2410,10 @@ static Void_t* sYSMALLOc(nb, av) INTERNAL_SIZE_T nb; mstate av; Round up size to nearest page. For mmapped chunks, the overhead is one SIZE_SZ unit larger than for normal chunks, because there is no following chunk whose prev_size field could be used. - */ -#if 1 - /* See the front_misalign handling below, for glibc there is no - need for further alignments. */ + + See the front_misalign handling below, for glibc there is no + need for further alignments. */ size = (nb + SIZE_SZ + pagemask) & ~pagemask; -#else - size = (nb + SIZE_SZ + MALLOC_ALIGN_MASK + pagemask) & ~pagemask; -#endif tried_mmap = true; /* Don't try if size wraps around 0 */ @@ -3021,27 +2429,14 @@ static Void_t* sYSMALLOc(nb, av) INTERNAL_SIZE_T nb; mstate av; returned start address to meet alignment requirements here and in memalign(), and still be able to compute proper address argument for later munmap in free() and realloc(). - */ -#if 1 - /* For glibc, chunk2mem increases the address by 2*SIZE_SZ and - MALLOC_ALIGN_MASK is 2*SIZE_SZ-1. Each mmap'ed area is page - aligned and therefore definitely MALLOC_ALIGN_MASK-aligned. */ + For glibc, chunk2mem increases the address by 2*SIZE_SZ and + MALLOC_ALIGN_MASK is 2*SIZE_SZ-1. Each mmap'ed area is page + aligned and therefore definitely MALLOC_ALIGN_MASK-aligned. */ assert (((INTERNAL_SIZE_T)chunk2mem(mm) & MALLOC_ALIGN_MASK) == 0); -#else - front_misalign = (INTERNAL_SIZE_T)chunk2mem(mm) & MALLOC_ALIGN_MASK; - if (front_misalign > 0) { - correction = MALLOC_ALIGNMENT - front_misalign; - p = (mchunkptr)(mm + correction); - p->prev_size = correction; - set_head(p, (size - correction) |IS_MMAPPED); - } - else -#endif - { - p = (mchunkptr)mm; - set_head(p, size|IS_MMAPPED); - } + + p = (mchunkptr)mm; + set_head(p, size|IS_MMAPPED); /* update statistics */ @@ -3051,11 +2446,6 @@ static Void_t* sYSMALLOc(nb, av) INTERNAL_SIZE_T nb; mstate av; sum = mp_.mmapped_mem += size; if (sum > (unsigned long)(mp_.max_mmapped_mem)) mp_.max_mmapped_mem = sum; -#ifdef NO_THREADS - sum += av->system_mem; - if (sum > (unsigned long)(mp_.max_total_mem)) - mp_.max_total_mem = sum; -#endif check_chunk(av, p); @@ -3063,7 +2453,6 @@ static Void_t* sYSMALLOc(nb, av) INTERNAL_SIZE_T nb; mstate av; } } } -#endif /* Record incoming configuration of top */ @@ -3086,11 +2475,6 @@ static Void_t* sYSMALLOc(nb, av) INTERNAL_SIZE_T nb; mstate av; /* Precondition: not enough current space to satisfy nb request */ assert((unsigned long)(old_size) < (unsigned long)(nb + MINSIZE)); -#ifndef ATOMIC_FASTBINS - /* Precondition: all fastbins are consolidated */ - assert(!have_fastchunks(av)); -#endif - if (av != &main_arena) { @@ -3104,10 +2488,6 @@ static Void_t* sYSMALLOc(nb, av) INTERNAL_SIZE_T nb; mstate av; && grow_heap(old_heap, MINSIZE + nb - old_size) == 0) { av->system_mem += old_heap->size - old_heap_size; arena_mem += old_heap->size - old_heap_size; -#if 0 - if(mmapped_mem + arena_mem + sbrked_mem > max_total_mem) - max_total_mem = mmapped_mem + arena_mem + sbrked_mem; -#endif set_head(old_top, (((char *)old_heap + old_heap->size) - (char *)old_top) | PREV_INUSE); } @@ -3117,10 +2497,6 @@ static Void_t* sYSMALLOc(nb, av) INTERNAL_SIZE_T nb; mstate av; heap->prev = old_heap; av->system_mem += heap->size; arena_mem += heap->size; -#if 0 - if((unsigned long)(mmapped_mem + arena_mem + sbrked_mem) > max_total_mem) - max_total_mem = mmapped_mem + arena_mem + sbrked_mem; -#endif /* Set up the new top. */ top(av) = chunk_at_offset(heap, sizeof(*heap)); set_head(top(av), (heap->size - sizeof(*heap)) | PREV_INUSE); @@ -3135,11 +2511,7 @@ static Void_t* sYSMALLOc(nb, av) INTERNAL_SIZE_T nb; mstate av; set_head(chunk_at_offset(old_top, old_size), (2*SIZE_SZ)|PREV_INUSE); set_foot(chunk_at_offset(old_top, old_size), (2*SIZE_SZ)); set_head(old_top, old_size|PREV_INUSE|NON_MAIN_ARENA); -#ifdef ATOMIC_FASTBINS _int_free(av, old_top, 1); -#else - _int_free(av, old_top); -#endif } else { set_head(old_top, (old_size + 2*SIZE_SZ)|PREV_INUSE); set_foot(old_top, (old_size + 2*SIZE_SZ)); @@ -3199,7 +2571,6 @@ static Void_t* sYSMALLOc(nb, av) INTERNAL_SIZE_T nb; mstate av; segregated mmap region. */ -#if HAVE_MMAP /* Cannot merge with old top, so add its size back in */ if (contiguous(av)) size = (size + old_size + pagemask) & ~pagemask; @@ -3228,7 +2599,6 @@ static Void_t* sYSMALLOc(nb, av) INTERNAL_SIZE_T nb; mstate av; set_noncontiguous(av); } } -#endif } if (brk != (char*)(MORECORE_FAILURE)) { @@ -3381,24 +2751,12 @@ static Void_t* sYSMALLOc(nb, av) INTERNAL_SIZE_T nb; mstate av; /* If possible, release the rest. */ if (old_size >= MINSIZE) { -#ifdef ATOMIC_FASTBINS _int_free(av, old_top, 1); -#else - _int_free(av, old_top); -#endif } } } } - - /* Update statistics */ -#ifdef NO_THREADS - sum = av->system_mem + mp_.mmapped_mem; - if (sum > (unsigned long)(mp_.max_total_mem)) - mp_.max_total_mem = sum; -#endif - } } /* if (av != &main_arena) */ @@ -3437,11 +2795,7 @@ static Void_t* sYSMALLOc(nb, av) INTERNAL_SIZE_T nb; mstate av; returns 1 if it actually released any memory, else 0. */ -#if __STD_C static int sYSTRIm(size_t pad, mstate av) -#else -static int sYSTRIm(pad, av) size_t pad; mstate av; -#endif { long top_size; /* Amount of top-most memory */ long extra; /* Amount to release */ @@ -3498,23 +2852,13 @@ static int sYSTRIm(pad, av) size_t pad; mstate av; return 0; } -#ifdef HAVE_MMAP - static void internal_function -#if __STD_C munmap_chunk(mchunkptr p) -#else -munmap_chunk(p) mchunkptr p; -#endif { INTERNAL_SIZE_T size = chunksize(p); assert (chunk_is_mmapped(p)); -#if 0 - assert(! ((char*)p >= mp_.sbrk_base && (char*)p < mp_.sbrk_base + mp_.sbrked_mem)); - assert((mp_.n_mmaps > 0)); -#endif uintptr_t block = (uintptr_t) p - p->prev_size; size_t total_size = p->prev_size + size; @@ -3543,11 +2887,7 @@ munmap_chunk(p) mchunkptr p; static mchunkptr internal_function -#if __STD_C mremap_chunk(mchunkptr p, size_t new_size) -#else -mremap_chunk(p, new_size) mchunkptr p; size_t new_size; -#endif { size_t page_mask = mp_.pagesize - 1; INTERNAL_SIZE_T offset = p->prev_size; @@ -3555,10 +2895,6 @@ mremap_chunk(p, new_size) mchunkptr p; size_t new_size; char *cp; assert (chunk_is_mmapped(p)); -#if 0 - assert(! ((char*)p >= mp_.sbrk_base && (char*)p < mp_.sbrk_base + mp_.sbrked_mem)); - assert((mp_.n_mmaps > 0)); -#endif assert(((size + offset) & (mp_.pagesize-1)) == 0); /* Note the extra SIZE_SZ overhead as in mmap_chunk(). */ @@ -3584,25 +2920,18 @@ mremap_chunk(p, new_size) mchunkptr p; size_t new_size; mp_.mmapped_mem += new_size; if ((unsigned long)mp_.mmapped_mem > (unsigned long)mp_.max_mmapped_mem) mp_.max_mmapped_mem = mp_.mmapped_mem; -#ifdef NO_THREADS - if ((unsigned long)(mp_.mmapped_mem + arena_mem + main_arena.system_mem) > - mp_.max_total_mem) - mp_.max_total_mem = mp_.mmapped_mem + arena_mem + main_arena.system_mem; -#endif return p; } #endif /* HAVE_MREMAP */ -#endif /* HAVE_MMAP */ - /*------------------------ Public wrappers. --------------------------------*/ -Void_t* +void* public_mALLOc(size_t bytes) { mstate ar_ptr; - Void_t *victim; + void *victim; __malloc_ptr_t (*hook) (size_t, __const __malloc_ptr_t) = force_reg (__malloc_hook); @@ -3610,37 +2939,6 @@ public_mALLOc(size_t bytes) return (*hook)(bytes, RETURN_ADDRESS (0)); arena_lookup(ar_ptr); -#if 0 - // XXX We need double-word CAS and fastbins must be extended to also - // XXX hold a generation counter for each entry. - if (ar_ptr) { - INTERNAL_SIZE_T nb; /* normalized request size */ - checked_request2size(bytes, nb); - if (nb <= get_max_fast ()) { - long int idx = fastbin_index(nb); - mfastbinptr* fb = &fastbin (ar_ptr, idx); - mchunkptr pp = *fb; - mchunkptr v; - do - { - v = pp; - if (v == NULL) - break; - } - while ((pp = catomic_compare_and_exchange_val_acq (fb, v->fd, v)) != v); - if (v != 0) { - if (__builtin_expect (fastbin_index (chunksize (v)) != idx, 0)) - malloc_printerr (check_action, "malloc(): memory corruption (fast)", - chunk2mem (v)); - check_remalloced_chunk(ar_ptr, v, nb); - void *p = chunk2mem(v); - if (__builtin_expect (perturb_byte, 0)) - alloc_perturb (p, bytes); - return p; - } - } - } -#endif arena_lock(ar_ptr, bytes); if(!ar_ptr) @@ -3655,7 +2953,6 @@ public_mALLOc(size_t bytes) victim = _int_malloc(ar_ptr, bytes); (void)mutex_unlock(&ar_ptr->mutex); } else { -#if USE_ARENAS /* ... or sbrk() has failed and there is still a chance to mmap() */ ar_ptr = arena_get2(ar_ptr->next ? ar_ptr : 0, bytes); (void)mutex_unlock(&main_arena.mutex); @@ -3663,7 +2960,6 @@ public_mALLOc(size_t bytes) victim = _int_malloc(ar_ptr, bytes); (void)mutex_unlock(&ar_ptr->mutex); } -#endif } } else (void)mutex_unlock(&ar_ptr->mutex); @@ -3671,12 +2967,10 @@ public_mALLOc(size_t bytes) ar_ptr == arena_for_chunk(mem2chunk(victim))); return victim; } -#ifdef libc_hidden_def libc_hidden_def(public_mALLOc) -#endif void -public_fREe(Void_t* mem) +public_fREe(void* mem) { mstate ar_ptr; mchunkptr p; /* chunk corresponding to mem */ @@ -3693,7 +2987,6 @@ public_fREe(Void_t* mem) p = mem2chunk(mem); -#if HAVE_MMAP if (chunk_is_mmapped(p)) /* release mmapped memory. */ { /* see if the dynamic brk/mmap threshold needs adjusting */ @@ -3707,37 +3000,19 @@ public_fREe(Void_t* mem) munmap_chunk(p); return; } -#endif ar_ptr = arena_for_chunk(p); -#ifdef ATOMIC_FASTBINS _int_free(ar_ptr, p, 0); -#else -# if THREAD_STATS - if(!mutex_trylock(&ar_ptr->mutex)) - ++(ar_ptr->stat_lock_direct); - else { - (void)mutex_lock(&ar_ptr->mutex); - ++(ar_ptr->stat_lock_wait); - } -# else - (void)mutex_lock(&ar_ptr->mutex); -# endif - _int_free(ar_ptr, p); - (void)mutex_unlock(&ar_ptr->mutex); -#endif } -#ifdef libc_hidden_def libc_hidden_def (public_fREe) -#endif -Void_t* -public_rEALLOc(Void_t* oldmem, size_t bytes) +void* +public_rEALLOc(void* oldmem, size_t bytes) { mstate ar_ptr; INTERNAL_SIZE_T nb; /* padded request size */ - Void_t* newp; /* chunk to return */ + void* newp; /* chunk to return */ __malloc_ptr_t (*hook) (__malloc_ptr_t, size_t, __const __malloc_ptr_t) = force_reg (__realloc_hook); @@ -3769,10 +3044,9 @@ public_rEALLOc(Void_t* oldmem, size_t bytes) checked_request2size(bytes, nb); -#if HAVE_MMAP if (chunk_is_mmapped(oldp)) { - Void_t* newmem; + void* newmem; #if HAVE_MREMAP newp = mremap_chunk(oldp, nb); @@ -3787,7 +3061,6 @@ public_rEALLOc(Void_t* oldmem, size_t bytes) munmap_chunk(oldp); return newmem; } -#endif ar_ptr = arena_for_chunk(oldp); #if THREAD_STATS @@ -3801,9 +3074,9 @@ public_rEALLOc(Void_t* oldmem, size_t bytes) (void)mutex_lock(&ar_ptr->mutex); #endif -#if !defined NO_THREADS && !defined PER_THREAD +#if !defined PER_THREAD /* As in malloc(), remember this arena for the next allocation. */ - tsd_setspecific(arena_key, (Void_t *)ar_ptr); + tsd_setspecific(arena_key, (void *)ar_ptr); #endif newp = _int_realloc(ar_ptr, oldp, oldsize, nb); @@ -3819,36 +3092,19 @@ public_rEALLOc(Void_t* oldmem, size_t bytes) if (newp != NULL) { MALLOC_COPY (newp, oldmem, oldsize - SIZE_SZ); -#ifdef ATOMIC_FASTBINS _int_free(ar_ptr, oldp, 0); -#else -# if THREAD_STATS - if(!mutex_trylock(&ar_ptr->mutex)) - ++(ar_ptr->stat_lock_direct); - else { - (void)mutex_lock(&ar_ptr->mutex); - ++(ar_ptr->stat_lock_wait); - } -# else - (void)mutex_lock(&ar_ptr->mutex); -# endif - _int_free(ar_ptr, oldp); - (void)mutex_unlock(&ar_ptr->mutex); -#endif } } return newp; } -#ifdef libc_hidden_def libc_hidden_def (public_rEALLOc) -#endif -Void_t* +void* public_mEMALIGn(size_t alignment, size_t bytes) { mstate ar_ptr; - Void_t *p; + void *p; __malloc_ptr_t (*hook) __MALLOC_PMT ((size_t, size_t, __const __malloc_ptr_t)) = @@ -3875,7 +3131,6 @@ public_mEMALIGn(size_t alignment, size_t bytes) p = _int_memalign(ar_ptr, alignment, bytes); (void)mutex_unlock(&ar_ptr->mutex); } else { -#if USE_ARENAS /* ... or sbrk() has failed and there is still a chance to mmap() */ mstate prev = ar_ptr->next ? ar_ptr : 0; (void)mutex_unlock(&ar_ptr->mutex); @@ -3884,7 +3139,6 @@ public_mEMALIGn(size_t alignment, size_t bytes) p = _int_memalign(ar_ptr, alignment, bytes); (void)mutex_unlock(&ar_ptr->mutex); } -#endif } } else (void)mutex_unlock(&ar_ptr->mutex); @@ -3892,15 +3146,13 @@ public_mEMALIGn(size_t alignment, size_t bytes) ar_ptr == arena_for_chunk(mem2chunk(p))); return p; } -#ifdef libc_hidden_def libc_hidden_def (public_mEMALIGn) -#endif -Void_t* +void* public_vALLOc(size_t bytes) { mstate ar_ptr; - Void_t *p; + void *p; if(__malloc_initialized < 0) ptmalloc_init (); @@ -3926,14 +3178,12 @@ public_vALLOc(size_t bytes) p = _int_memalign(ar_ptr, pagesz, bytes); (void)mutex_unlock(&ar_ptr->mutex); } else { -#if USE_ARENAS /* ... or sbrk() has failed and there is still a chance to mmap() */ ar_ptr = arena_get2(ar_ptr->next ? ar_ptr : 0, bytes); if(ar_ptr) { p = _int_memalign(ar_ptr, pagesz, bytes); (void)mutex_unlock(&ar_ptr->mutex); } -#endif } } assert(!p || chunk_is_mmapped(mem2chunk(p)) || @@ -3942,11 +3192,11 @@ public_vALLOc(size_t bytes) return p; } -Void_t* +void* public_pVALLOc(size_t bytes) { mstate ar_ptr; - Void_t *p; + void *p; if(__malloc_initialized < 0) ptmalloc_init (); @@ -3972,7 +3222,6 @@ public_pVALLOc(size_t bytes) p = _int_memalign(ar_ptr, pagesz, rounded_bytes); (void)mutex_unlock(&ar_ptr->mutex); } else { -#if USE_ARENAS /* ... or sbrk() has failed and there is still a chance to mmap() */ ar_ptr = arena_get2(ar_ptr->next ? ar_ptr : 0, bytes + 2*pagesz + MINSIZE); @@ -3980,7 +3229,6 @@ public_pVALLOc(size_t bytes) p = _int_memalign(ar_ptr, pagesz, rounded_bytes); (void)mutex_unlock(&ar_ptr->mutex); } -#endif } } assert(!p || chunk_is_mmapped(mem2chunk(p)) || @@ -3989,13 +3237,13 @@ public_pVALLOc(size_t bytes) return p; } -Void_t* +void* public_cALLOc(size_t n, size_t elem_size) { mstate av; mchunkptr oldtop, p; INTERNAL_SIZE_T bytes, sz, csz, oldtopsize; - Void_t* mem; + void* mem; unsigned long clearsize; unsigned long nclears; INTERNAL_SIZE_T* d; @@ -4018,12 +3266,7 @@ public_cALLOc(size_t n, size_t elem_size) mem = (*hook)(sz, RETURN_ADDRESS (0)); if(mem == 0) return 0; -#ifdef HAVE_MEMCPY return memset(mem, 0, sz); -#else - while(sz > 0) ((char*)mem)[--sz] = 0; /* rather inefficient */ - return mem; -#endif } sz = bytes; @@ -4065,7 +3308,6 @@ public_cALLOc(size_t n, size_t elem_size) mem = _int_malloc(&main_arena, sz); (void)mutex_unlock(&main_arena.mutex); } else { -#if USE_ARENAS /* ... or sbrk() has failed and there is still a chance to mmap() */ (void)mutex_lock(&main_arena.mutex); av = arena_get2(av->next ? av : 0, sz); @@ -4074,21 +3316,18 @@ public_cALLOc(size_t n, size_t elem_size) mem = _int_malloc(av, sz); (void)mutex_unlock(&av->mutex); } -#endif } if (mem == 0) return 0; } p = mem2chunk(mem); /* Two optional cases in which clearing not necessary */ -#if HAVE_MMAP if (chunk_is_mmapped (p)) { if (__builtin_expect (perturb_byte, 0)) MALLOC_ZERO (mem, sz); return mem; } -#endif csz = chunksize(p); @@ -4131,45 +3370,6 @@ public_cALLOc(size_t n, size_t elem_size) return mem; } -#ifndef _LIBC - -Void_t** -public_iCALLOc(size_t n, size_t elem_size, Void_t** chunks) -{ - mstate ar_ptr; - Void_t** m; - - arena_get(ar_ptr, n*elem_size); - if(!ar_ptr) - return 0; - - m = _int_icalloc(ar_ptr, n, elem_size, chunks); - (void)mutex_unlock(&ar_ptr->mutex); - return m; -} - -Void_t** -public_iCOMALLOc(size_t n, size_t sizes[], Void_t** chunks) -{ - mstate ar_ptr; - Void_t** m; - - arena_get(ar_ptr, 0); - if(!ar_ptr) - return 0; - - m = _int_icomalloc(ar_ptr, n, sizes, chunks); - (void)mutex_unlock(&ar_ptr->mutex); - return m; -} - -void -public_cFREe(Void_t* m) -{ - public_fREe(m); -} - -#endif /* _LIBC */ int public_mTRIm(size_t s) @@ -4194,7 +3394,7 @@ public_mTRIm(size_t s) } size_t -public_mUSABLe(Void_t* m) +public_mUSABLe(void* m) { size_t result; @@ -4232,7 +3432,7 @@ public_mALLOPt(int p, int v) ------------------------------ malloc ------------------------------ */ -static Void_t* +static void* _int_malloc(mstate av, size_t bytes) { INTERNAL_SIZE_T nb; /* normalized request size */ @@ -4275,7 +3475,6 @@ _int_malloc(mstate av, size_t bytes) if ((unsigned long)(nb) <= (unsigned long)(get_max_fast ())) { idx = fastbin_index(nb); mfastbinptr* fb = &fastbin (av, idx); -#ifdef ATOMIC_FASTBINS mchunkptr pp = *fb; do { @@ -4285,9 +3484,6 @@ _int_malloc(mstate av, size_t bytes) } while ((pp = catomic_compare_and_exchange_val_acq (fb, victim->fd, victim)) != victim); -#else - victim = *fb; -#endif if (victim != 0) { if (__builtin_expect (fastbin_index (chunksize (victim)) != idx, 0)) { @@ -4296,9 +3492,6 @@ _int_malloc(mstate av, size_t bytes) malloc_printerr (check_action, errstr, chunk2mem (victim)); return NULL; } -#ifndef ATOMIC_FASTBINS - *fb = victim->fd; -#endif check_remalloced_chunk(av, victim, nb); void *p = chunk2mem(victim); if (__builtin_expect (perturb_byte, 0)) @@ -4703,7 +3896,6 @@ _int_malloc(mstate av, size_t bytes) return p; } -#ifdef ATOMIC_FASTBINS /* When we are using atomic ops to free fast chunks we can get here for all block sizes. */ else if (have_fastchunks(av)) { @@ -4714,19 +3906,6 @@ _int_malloc(mstate av, size_t bytes) else idx = largebin_index(nb); } -#else - /* - If there is space available in fastbins, consolidate and retry, - to possibly avoid expanding memory. This can occur only if nb is - in smallbin range so we didn't consolidate upon entry. - */ - - else if (have_fastchunks(av)) { - assert(in_smallbin_range(nb)); - malloc_consolidate(av); - idx = smallbin_index(nb); /* restore original bin index */ - } -#endif /* Otherwise, relay to handle system-dependent cases @@ -4745,11 +3924,7 @@ _int_malloc(mstate av, size_t bytes) */ static void -#ifdef ATOMIC_FASTBINS _int_free(mstate av, mchunkptr p, int have_lock) -#else -_int_free(mstate av, mchunkptr p) -#endif { INTERNAL_SIZE_T size; /* its size */ mfastbinptr* fb; /* associated fastbin */ @@ -4761,9 +3936,7 @@ _int_free(mstate av, mchunkptr p) mchunkptr fwd; /* misc temp for linking */ const char *errstr = NULL; -#ifdef ATOMIC_FASTBINS int locked = 0; -#endif size = chunksize(p); @@ -4776,10 +3949,8 @@ _int_free(mstate av, mchunkptr p) { errstr = "free(): invalid pointer"; errout: -#ifdef ATOMIC_FASTBINS if (! have_lock && locked) (void)mutex_unlock(&av->mutex); -#endif malloc_printerr (check_action, errstr, chunk2mem(p)); return; } @@ -4812,7 +3983,6 @@ _int_free(mstate av, mchunkptr p) || __builtin_expect (chunksize (chunk_at_offset (p, size)) >= av->system_mem, 0)) { -#ifdef ATOMIC_FASTBINS /* We might not have a lock at this point and concurrent modifications of system_mem might have let to a false positive. Redo the test after getting the lock. */ @@ -4823,18 +3993,15 @@ _int_free(mstate av, mchunkptr p) chunk_at_offset (p, size)->size <= 2 * SIZE_SZ || chunksize (chunk_at_offset (p, size)) >= av->system_mem; })) -#endif { errstr = "free(): invalid next size (fast)"; goto errout; } -#ifdef ATOMIC_FASTBINS if (! have_lock) { (void)mutex_unlock(&av->mutex); locked = 0; } -#endif } if (__builtin_expect (perturb_byte, 0)) @@ -4844,7 +4011,6 @@ _int_free(mstate av, mchunkptr p) unsigned int idx = fastbin_index(size); fb = &fastbin (av, idx); -#ifdef ATOMIC_FASTBINS mchunkptr fd; mchunkptr old = *fb; unsigned int old_idx = ~0u; @@ -4868,24 +4034,6 @@ _int_free(mstate av, mchunkptr p) errstr = "invalid fastbin entry (free)"; goto errout; } -#else - /* Another simple check: make sure the top of the bin is not the - record we are going to add (i.e., double free). */ - if (__builtin_expect (*fb == p, 0)) - { - errstr = "double free or corruption (fasttop)"; - goto errout; - } - if (*fb != NULL - && __builtin_expect (fastbin_index(chunksize(*fb)) != idx, 0)) - { - errstr = "invalid fastbin entry (free)"; - goto errout; - } - - p->fd = *fb; - *fb = p; -#endif } /* @@ -4893,21 +4041,19 @@ _int_free(mstate av, mchunkptr p) */ else if (!chunk_is_mmapped(p)) { -#ifdef ATOMIC_FASTBINS if (! have_lock) { -# if THREAD_STATS +#if THREAD_STATS if(!mutex_trylock(&av->mutex)) ++(av->stat_lock_direct); else { (void)mutex_lock(&av->mutex); ++(av->stat_lock_wait); } -# else +#else (void)mutex_lock(&av->mutex); -# endif +#endif locked = 1; } -#endif nextchunk = chunk_at_offset(p, size); @@ -5037,25 +4183,17 @@ _int_free(mstate av, mchunkptr p) } } -#ifdef ATOMIC_FASTBINS if (! have_lock) { assert (locked); (void)mutex_unlock(&av->mutex); } -#endif } /* - If the chunk was allocated via mmap, release via munmap(). Note - that if HAVE_MMAP is false but chunk_is_mmapped is true, then - user must have overwritten memory. There's nothing we can do to - catch this error unless MALLOC_DEBUG is set, in which case - check_inuse_chunk (above) will have triggered error. + If the chunk was allocated via mmap, release via munmap(). */ else { -#if HAVE_MMAP munmap_chunk (p); -#endif } } @@ -5073,11 +4211,7 @@ _int_free(mstate av, mchunkptr p) initialization code. */ -#if __STD_C static void malloc_consolidate(mstate av) -#else -static void malloc_consolidate(av) mstate av; -#endif { mfastbinptr* fb; /* current fastbin being consolidated */ mfastbinptr* maxfb; /* last fastbin (for loop control) */ @@ -5113,26 +4247,11 @@ static void malloc_consolidate(av) mstate av; reused anyway. */ -#if 0 - /* It is wrong to limit the fast bins to search using get_max_fast - because, except for the main arena, all the others might have - blocks in the high fast bins. It's not worth it anyway, just - search all bins all the time. */ - maxfb = &fastbin (av, fastbin_index(get_max_fast ())); -#else maxfb = &fastbin (av, NFASTBINS - 1); -#endif fb = &fastbin (av, 0); do { -#ifdef ATOMIC_FASTBINS p = atomic_exchange_acq (fb, 0); -#else - p = *fb; -#endif if (p != 0) { -#ifndef ATOMIC_FASTBINS - *fb = 0; -#endif do { check_inuse_chunk(av, p); nextp = p->fd; @@ -5194,13 +4313,13 @@ static void malloc_consolidate(av) mstate av; ------------------------------ realloc ------------------------------ */ -Void_t* +void* _int_realloc(mstate av, mchunkptr oldp, INTERNAL_SIZE_T oldsize, INTERNAL_SIZE_T nb) { mchunkptr newp; /* chunk to return */ INTERNAL_SIZE_T newsize; /* its size */ - Void_t* newmem; /* corresponding user mem */ + void* newmem; /* corresponding user mem */ mchunkptr next; /* next contiguous chunk after oldp */ @@ -5230,215 +4349,130 @@ _int_realloc(mstate av, mchunkptr oldp, INTERNAL_SIZE_T oldsize, check_inuse_chunk(av, oldp); /* All callers already filter out mmap'ed chunks. */ -#if 0 - if (!chunk_is_mmapped(oldp)) -#else assert (!chunk_is_mmapped(oldp)); -#endif - { - next = chunk_at_offset(oldp, oldsize); - INTERNAL_SIZE_T nextsize = chunksize(next); - if (__builtin_expect (next->size <= 2 * SIZE_SZ, 0) - || __builtin_expect (nextsize >= av->system_mem, 0)) - { - errstr = "realloc(): invalid next size"; - goto errout; - } + next = chunk_at_offset(oldp, oldsize); + INTERNAL_SIZE_T nextsize = chunksize(next); + if (__builtin_expect (next->size <= 2 * SIZE_SZ, 0) + || __builtin_expect (nextsize >= av->system_mem, 0)) + { + errstr = "realloc(): invalid next size"; + goto errout; + } - if ((unsigned long)(oldsize) >= (unsigned long)(nb)) { - /* already big enough; split below */ + if ((unsigned long)(oldsize) >= (unsigned long)(nb)) { + /* already big enough; split below */ + newp = oldp; + newsize = oldsize; + } + + else { + /* Try to expand forward into top */ + if (next == av->top && + (unsigned long)(newsize = oldsize + nextsize) >= + (unsigned long)(nb + MINSIZE)) { + set_head_size(oldp, nb | (av != &main_arena ? NON_MAIN_ARENA : 0)); + av->top = chunk_at_offset(oldp, nb); + set_head(av->top, (newsize - nb) | PREV_INUSE); + check_inuse_chunk(av, oldp); + return chunk2mem(oldp); + } + + /* Try to expand forward into next chunk; split off remainder below */ + else if (next != av->top && + !inuse(next) && + (unsigned long)(newsize = oldsize + nextsize) >= + (unsigned long)(nb)) { newp = oldp; - newsize = oldsize; + unlink(next, bck, fwd); } + /* allocate, copy, free */ else { - /* Try to expand forward into top */ - if (next == av->top && - (unsigned long)(newsize = oldsize + nextsize) >= - (unsigned long)(nb + MINSIZE)) { - set_head_size(oldp, nb | (av != &main_arena ? NON_MAIN_ARENA : 0)); - av->top = chunk_at_offset(oldp, nb); - set_head(av->top, (newsize - nb) | PREV_INUSE); - check_inuse_chunk(av, oldp); - return chunk2mem(oldp); - } + newmem = _int_malloc(av, nb - MALLOC_ALIGN_MASK); + if (newmem == 0) + return 0; /* propagate failure */ + + newp = mem2chunk(newmem); + newsize = chunksize(newp); - /* Try to expand forward into next chunk; split off remainder below */ - else if (next != av->top && - !inuse(next) && - (unsigned long)(newsize = oldsize + nextsize) >= - (unsigned long)(nb)) { + /* + Avoid copy if newp is next chunk after oldp. + */ + if (newp == next) { + newsize += oldsize; newp = oldp; - unlink(next, bck, fwd); } - - /* allocate, copy, free */ else { - newmem = _int_malloc(av, nb - MALLOC_ALIGN_MASK); - if (newmem == 0) - return 0; /* propagate failure */ - - newp = mem2chunk(newmem); - newsize = chunksize(newp); - /* - Avoid copy if newp is next chunk after oldp. + Unroll copy of <= 36 bytes (72 if 8byte sizes) + We know that contents have an odd number of + INTERNAL_SIZE_T-sized words; minimally 3. */ - if (newp == next) { - newsize += oldsize; - newp = oldp; - } - else { - /* - Unroll copy of <= 36 bytes (72 if 8byte sizes) - We know that contents have an odd number of - INTERNAL_SIZE_T-sized words; minimally 3. - */ - copysize = oldsize - SIZE_SZ; - s = (INTERNAL_SIZE_T*)(chunk2mem(oldp)); - d = (INTERNAL_SIZE_T*)(newmem); - ncopies = copysize / sizeof(INTERNAL_SIZE_T); - assert(ncopies >= 3); + copysize = oldsize - SIZE_SZ; + s = (INTERNAL_SIZE_T*)(chunk2mem(oldp)); + d = (INTERNAL_SIZE_T*)(newmem); + ncopies = copysize / sizeof(INTERNAL_SIZE_T); + assert(ncopies >= 3); - if (ncopies > 9) - MALLOC_COPY(d, s, copysize); + if (ncopies > 9) + MALLOC_COPY(d, s, copysize); - else { - *(d+0) = *(s+0); - *(d+1) = *(s+1); - *(d+2) = *(s+2); - if (ncopies > 4) { - *(d+3) = *(s+3); - *(d+4) = *(s+4); - if (ncopies > 6) { - *(d+5) = *(s+5); - *(d+6) = *(s+6); - if (ncopies > 8) { - *(d+7) = *(s+7); - *(d+8) = *(s+8); - } + else { + *(d+0) = *(s+0); + *(d+1) = *(s+1); + *(d+2) = *(s+2); + if (ncopies > 4) { + *(d+3) = *(s+3); + *(d+4) = *(s+4); + if (ncopies > 6) { + *(d+5) = *(s+5); + *(d+6) = *(s+6); + if (ncopies > 8) { + *(d+7) = *(s+7); + *(d+8) = *(s+8); } } } - -#ifdef ATOMIC_FASTBINS - _int_free(av, oldp, 1); -#else - _int_free(av, oldp); -#endif - check_inuse_chunk(av, newp); - return chunk2mem(newp); } - } - } - /* If possible, free extra space in old or extended chunk */ - - assert((unsigned long)(newsize) >= (unsigned long)(nb)); - - remainder_size = newsize - nb; - - if (remainder_size < MINSIZE) { /* not enough extra to split off */ - set_head_size(newp, newsize | (av != &main_arena ? NON_MAIN_ARENA : 0)); - set_inuse_bit_at_offset(newp, newsize); - } - else { /* split remainder */ - remainder = chunk_at_offset(newp, nb); - set_head_size(newp, nb | (av != &main_arena ? NON_MAIN_ARENA : 0)); - set_head(remainder, remainder_size | PREV_INUSE | - (av != &main_arena ? NON_MAIN_ARENA : 0)); - /* Mark remainder as inuse so free() won't complain */ - set_inuse_bit_at_offset(remainder, remainder_size); -#ifdef ATOMIC_FASTBINS - _int_free(av, remainder, 1); -#else - _int_free(av, remainder); -#endif + _int_free(av, oldp, 1); + check_inuse_chunk(av, newp); + return chunk2mem(newp); + } } - - check_inuse_chunk(av, newp); - return chunk2mem(newp); } -#if 0 - /* - Handle mmap cases - */ - - else { -#if HAVE_MMAP - -#if HAVE_MREMAP - INTERNAL_SIZE_T offset = oldp->prev_size; - size_t pagemask = mp_.pagesize - 1; - char *cp; - unsigned long sum; - - /* Note the extra SIZE_SZ overhead */ - newsize = (nb + offset + SIZE_SZ + pagemask) & ~pagemask; - - /* don't need to remap if still within same page */ - if (oldsize == newsize - offset) - return chunk2mem(oldp); - - cp = (char*)mremap((char*)oldp - offset, oldsize + offset, newsize, 1); - - if (cp != MAP_FAILED) { - - newp = (mchunkptr)(cp + offset); - set_head(newp, (newsize - offset)|IS_MMAPPED); + /* If possible, free extra space in old or extended chunk */ - assert(aligned_OK(chunk2mem(newp))); - assert((newp->prev_size == offset)); - - /* update statistics */ - sum = mp_.mmapped_mem += newsize - oldsize; - if (sum > (unsigned long)(mp_.max_mmapped_mem)) - mp_.max_mmapped_mem = sum; -#ifdef NO_THREADS - sum += main_arena.system_mem; - if (sum > (unsigned long)(mp_.max_total_mem)) - mp_.max_total_mem = sum; -#endif - - return chunk2mem(newp); - } -#endif + assert((unsigned long)(newsize) >= (unsigned long)(nb)); - /* Note the extra SIZE_SZ overhead. */ - if ((unsigned long)(oldsize) >= (unsigned long)(nb + SIZE_SZ)) - newmem = chunk2mem(oldp); /* do nothing */ - else { - /* Must alloc, copy, free. */ - newmem = _int_malloc(av, nb - MALLOC_ALIGN_MASK); - if (newmem != 0) { - MALLOC_COPY(newmem, chunk2mem(oldp), oldsize - 2*SIZE_SZ); -#ifdef ATOMIC_FASTBINS - _int_free(av, oldp, 1); -#else - _int_free(av, oldp); -#endif - } - } - return newmem; + remainder_size = newsize - nb; -#else - /* If !HAVE_MMAP, but chunk_is_mmapped, user must have overwritten mem */ - check_malloc_state(av); - MALLOC_FAILURE_ACTION; - return 0; -#endif + if (remainder_size < MINSIZE) { /* not enough extra to split off */ + set_head_size(newp, newsize | (av != &main_arena ? NON_MAIN_ARENA : 0)); + set_inuse_bit_at_offset(newp, newsize); } -#endif + else { /* split remainder */ + remainder = chunk_at_offset(newp, nb); + set_head_size(newp, nb | (av != &main_arena ? NON_MAIN_ARENA : 0)); + set_head(remainder, remainder_size | PREV_INUSE | + (av != &main_arena ? NON_MAIN_ARENA : 0)); + /* Mark remainder as inuse so free() won't complain */ + set_inuse_bit_at_offset(remainder, remainder_size); + _int_free(av, remainder, 1); + } + + check_inuse_chunk(av, newp); + return chunk2mem(newp); } /* ------------------------------ memalign ------------------------------ */ -static Void_t* +static void* _int_memalign(mstate av, size_t alignment, size_t bytes) { INTERNAL_SIZE_T nb; /* padded request size */ @@ -5514,11 +4548,7 @@ _int_memalign(mstate av, size_t alignment, size_t bytes) (av != &main_arena ? NON_MAIN_ARENA : 0)); set_inuse_bit_at_offset(newp, newsize); set_head_size(p, leadsize | (av != &main_arena ? NON_MAIN_ARENA : 0)); -#ifdef ATOMIC_FASTBINS _int_free(av, p, 1); -#else - _int_free(av, p); -#endif p = newp; assert (newsize >= nb && @@ -5534,11 +4564,7 @@ _int_memalign(mstate av, size_t alignment, size_t bytes) set_head(remainder, remainder_size | PREV_INUSE | (av != &main_arena ? NON_MAIN_ARENA : 0)); set_head_size(p, nb); -#ifdef ATOMIC_FASTBINS _int_free(av, remainder, 1); -#else - _int_free(av, remainder); -#endif } } @@ -5546,245 +4572,13 @@ _int_memalign(mstate av, size_t alignment, size_t bytes) return chunk2mem(p); } -#if 0 -/* - ------------------------------ calloc ------------------------------ -*/ - -#if __STD_C -Void_t* cALLOc(size_t n_elements, size_t elem_size) -#else -Void_t* cALLOc(n_elements, elem_size) size_t n_elements; size_t elem_size; -#endif -{ - mchunkptr p; - unsigned long clearsize; - unsigned long nclears; - INTERNAL_SIZE_T* d; - - Void_t* mem = mALLOc(n_elements * elem_size); - - if (mem != 0) { - p = mem2chunk(mem); - -#if MMAP_CLEARS - if (!chunk_is_mmapped(p)) /* don't need to clear mmapped space */ -#endif - { - /* - Unroll clear of <= 36 bytes (72 if 8byte sizes) - We know that contents have an odd number of - INTERNAL_SIZE_T-sized words; minimally 3. - */ - - d = (INTERNAL_SIZE_T*)mem; - clearsize = chunksize(p) - SIZE_SZ; - nclears = clearsize / sizeof(INTERNAL_SIZE_T); - assert(nclears >= 3); - - if (nclears > 9) - MALLOC_ZERO(d, clearsize); - - else { - *(d+0) = 0; - *(d+1) = 0; - *(d+2) = 0; - if (nclears > 4) { - *(d+3) = 0; - *(d+4) = 0; - if (nclears > 6) { - *(d+5) = 0; - *(d+6) = 0; - if (nclears > 8) { - *(d+7) = 0; - *(d+8) = 0; - } - } - } - } - } - } - return mem; -} -#endif /* 0 */ - -#ifndef _LIBC -/* - ------------------------- independent_calloc ------------------------- -*/ - -Void_t** -#if __STD_C -_int_icalloc(mstate av, size_t n_elements, size_t elem_size, Void_t* chunks[]) -#else -_int_icalloc(av, n_elements, elem_size, chunks) -mstate av; size_t n_elements; size_t elem_size; Void_t* chunks[]; -#endif -{ - size_t sz = elem_size; /* serves as 1-element array */ - /* opts arg of 3 means all elements are same size, and should be cleared */ - return iALLOc(av, n_elements, &sz, 3, chunks); -} - -/* - ------------------------- independent_comalloc ------------------------- -*/ - -Void_t** -#if __STD_C -_int_icomalloc(mstate av, size_t n_elements, size_t sizes[], Void_t* chunks[]) -#else -_int_icomalloc(av, n_elements, sizes, chunks) -mstate av; size_t n_elements; size_t sizes[]; Void_t* chunks[]; -#endif -{ - return iALLOc(av, n_elements, sizes, 0, chunks); -} - - -/* - ------------------------------ ialloc ------------------------------ - ialloc provides common support for independent_X routines, handling all of - the combinations that can result. - - The opts arg has: - bit 0 set if all elements are same size (using sizes[0]) - bit 1 set if elements should be zeroed -*/ - - -static Void_t** -#if __STD_C -iALLOc(mstate av, size_t n_elements, size_t* sizes, int opts, Void_t* chunks[]) -#else -iALLOc(av, n_elements, sizes, opts, chunks) -mstate av; size_t n_elements; size_t* sizes; int opts; Void_t* chunks[]; -#endif -{ - INTERNAL_SIZE_T element_size; /* chunksize of each element, if all same */ - INTERNAL_SIZE_T contents_size; /* total size of elements */ - INTERNAL_SIZE_T array_size; /* request size of pointer array */ - Void_t* mem; /* malloced aggregate space */ - mchunkptr p; /* corresponding chunk */ - INTERNAL_SIZE_T remainder_size; /* remaining bytes while splitting */ - Void_t** marray; /* either "chunks" or malloced ptr array */ - mchunkptr array_chunk; /* chunk for malloced ptr array */ - int mmx; /* to disable mmap */ - INTERNAL_SIZE_T size; - INTERNAL_SIZE_T size_flags; - size_t i; - - /* Ensure initialization/consolidation */ - if (have_fastchunks(av)) malloc_consolidate(av); - - /* compute array length, if needed */ - if (chunks != 0) { - if (n_elements == 0) - return chunks; /* nothing to do */ - marray = chunks; - array_size = 0; - } - else { - /* if empty req, must still return chunk representing empty array */ - if (n_elements == 0) - return (Void_t**) _int_malloc(av, 0); - marray = 0; - array_size = request2size(n_elements * (sizeof(Void_t*))); - } - - /* compute total element size */ - if (opts & 0x1) { /* all-same-size */ - element_size = request2size(*sizes); - contents_size = n_elements * element_size; - } - else { /* add up all the sizes */ - element_size = 0; - contents_size = 0; - for (i = 0; i != n_elements; ++i) - contents_size += request2size(sizes[i]); - } - - /* subtract out alignment bytes from total to minimize overallocation */ - size = contents_size + array_size - MALLOC_ALIGN_MASK; - - /* - Allocate the aggregate chunk. - But first disable mmap so malloc won't use it, since - we would not be able to later free/realloc space internal - to a segregated mmap region. - */ - mmx = mp_.n_mmaps_max; /* disable mmap */ - mp_.n_mmaps_max = 0; - mem = _int_malloc(av, size); - mp_.n_mmaps_max = mmx; /* reset mmap */ - if (mem == 0) - return 0; - - p = mem2chunk(mem); - assert(!chunk_is_mmapped(p)); - remainder_size = chunksize(p); - - if (opts & 0x2) { /* optionally clear the elements */ - MALLOC_ZERO(mem, remainder_size - SIZE_SZ - array_size); - } - - size_flags = PREV_INUSE | (av != &main_arena ? NON_MAIN_ARENA : 0); - - /* If not provided, allocate the pointer array as final part of chunk */ - if (marray == 0) { - array_chunk = chunk_at_offset(p, contents_size); - marray = (Void_t**) (chunk2mem(array_chunk)); - set_head(array_chunk, (remainder_size - contents_size) | size_flags); - remainder_size = contents_size; - } - - /* split out elements */ - for (i = 0; ; ++i) { - marray[i] = chunk2mem(p); - if (i != n_elements-1) { - if (element_size != 0) - size = element_size; - else - size = request2size(sizes[i]); - remainder_size -= size; - set_head(p, size | size_flags); - p = chunk_at_offset(p, size); - } - else { /* the final element absorbs any overallocation slop */ - set_head(p, remainder_size | size_flags); - break; - } - } - -#if MALLOC_DEBUG - if (marray != chunks) { - /* final element must have exactly exhausted chunk */ - if (element_size != 0) - assert(remainder_size == element_size); - else - assert(remainder_size == request2size(sizes[i])); - check_inuse_chunk(av, mem2chunk(marray)); - } - - for (i = 0; i != n_elements; ++i) - check_inuse_chunk(av, mem2chunk(marray[i])); -#endif - - return marray; -} -#endif /* _LIBC */ - /* ------------------------------ valloc ------------------------------ */ -static Void_t* -#if __STD_C +static void* _int_valloc(mstate av, size_t bytes) -#else -_int_valloc(av, bytes) mstate av; size_t bytes; -#endif { /* Ensure initialization/consolidation */ if (have_fastchunks(av)) malloc_consolidate(av); @@ -5796,12 +4590,8 @@ _int_valloc(av, bytes) mstate av; size_t bytes; */ -static Void_t* -#if __STD_C +static void* _int_pvalloc(mstate av, size_t bytes) -#else -_int_pvalloc(av, bytes) mstate av, size_t bytes; -#endif { size_t pagesz; @@ -5816,11 +4606,7 @@ _int_pvalloc(av, bytes) mstate av, size_t bytes; ------------------------------ malloc_trim ------------------------------ */ -#if __STD_C static int mTRIm(mstate av, size_t pad) -#else -static int mTRIm(av, pad) mstate av; size_t pad; -#endif { /* Ensure initialization/consolidation */ malloc_consolidate (av); @@ -5879,11 +4665,7 @@ static int mTRIm(av, pad) mstate av; size_t pad; ------------------------- malloc_usable_size ------------------------- */ -#if __STD_C -size_t mUSABLe(Void_t* mem) -#else -size_t mUSABLe(mem) Void_t* mem; -#endif +size_t mUSABLe(void* mem) { mchunkptr p; if (mem != 0) { @@ -5971,11 +4753,9 @@ void mSTATs() if(__malloc_initialized < 0) ptmalloc_init (); -#ifdef _LIBC _IO_flockfile (stderr); int old_flags2 = ((_IO_FILE *) stderr)->_flags2; ((_IO_FILE *) stderr)->_flags2 |= _IO_FLAGS2_NOTCANCEL; -#endif for (i=0, ar_ptr = &main_arena;; i++) { (void)mutex_lock(&ar_ptr->mutex); mi = mALLINFo(ar_ptr); @@ -5997,21 +4777,12 @@ void mSTATs() ar_ptr = ar_ptr->next; if(ar_ptr == &main_arena) break; } -#if HAVE_MMAP fprintf(stderr, "Total (incl. mmap):\n"); -#else - fprintf(stderr, "Total:\n"); -#endif fprintf(stderr, "system bytes = %10u\n", system_b); fprintf(stderr, "in use bytes = %10u\n", in_use_b); -#ifdef NO_THREADS - fprintf(stderr, "max system bytes = %10u\n", (unsigned int)mp_.max_total_mem); -#endif -#if HAVE_MMAP fprintf(stderr, "max mmap regions = %10u\n", (unsigned int)mp_.max_n_mmaps); fprintf(stderr, "max mmap bytes = %10lu\n", (unsigned long)mp_.max_mmapped_mem); -#endif #if THREAD_STATS fprintf(stderr, "heaps created = %10d\n", stat_n_heaps); fprintf(stderr, "locked directly = %10ld\n", stat_lock_direct); @@ -6020,10 +4791,8 @@ void mSTATs() fprintf(stderr, "locked total = %10ld\n", stat_lock_direct + stat_lock_loop + stat_lock_wait); #endif -#ifdef _LIBC ((_IO_FILE *) stderr)->_flags2 |= old_flags2; _IO_funlockfile (stderr); -#endif } @@ -6031,11 +4800,7 @@ void mSTATs() ------------------------------ mallopt ------------------------------ */ -#if __STD_C int mALLOPt(int param_number, int value) -#else -int mALLOPt(param_number, value) int param_number; int value; -#endif { mstate av = &main_arena; int res = 1; @@ -6066,22 +4831,15 @@ int mALLOPt(param_number, value) int param_number; int value; break; case M_MMAP_THRESHOLD: -#if USE_ARENAS /* Forbid setting the threshold too high. */ if((unsigned long)value > HEAP_MAX_SIZE/2) res = 0; else -#endif mp_.mmap_threshold = value; mp_.no_dyn_threshold = 1; break; case M_MMAP_MAX: -#if !HAVE_MMAP - if (value != 0) - res = 0; - else -#endif mp_.n_mmaps_max = value; mp_.no_dyn_threshold = 1; break; @@ -6171,10 +4929,10 @@ int mALLOPt(param_number, value) int param_number; int value; work across all reasonable possibilities. Additionally, if MORECORE ever returns failure for a positive - request, and HAVE_MMAP is true, then mmap is used as a noncontiguous - system allocator. This is a useful backup strategy for systems with - holes in address spaces -- in this case sbrk cannot contiguously - expand the heap, but mmap may be able to map noncontiguous space. + request, then mmap is used as a noncontiguous system allocator. This + is a useful backup strategy for systems with holes in address spaces + -- in this case sbrk cannot contiguously expand the heap, but mmap + may be able to map noncontiguous space. If you'd like mmap to ALWAYS be used, you can define MORECORE to be a function that always returns MORECORE_FAILURE. @@ -6276,8 +5034,7 @@ malloc_printerr(int action, const char *str, void *ptr) abort (); } -#ifdef _LIBC -# include <sys/param.h> +#include <sys/param.h> /* We need a wrapper function for one of the additions of POSIX. */ int @@ -6520,7 +5277,6 @@ weak_alias (__malloc_trim, malloc_trim) weak_alias (__malloc_get_state, malloc_get_state) weak_alias (__malloc_set_state, malloc_set_state) -#endif /* _LIBC */ /* ------------------------------------------------------------ History: |