Actual source code: mal.c
1: /*
2: Code that allows a user to dictate what malloc() PETSc uses.
3: */
4: #define PETSC_DESIRE_FEATURE_TEST_MACROS /* for posix_memalign() */
5: #include <petscsys.h>
6: #include <stdarg.h>
7: #if defined(PETSC_HAVE_MALLOC_H)
8: #include <malloc.h>
9: #endif
10: #if defined(PETSC_HAVE_MEMKIND)
11: #include <errno.h>
12: #include <memkind.h>
13: typedef enum {
14: PETSC_MK_DEFAULT = 0,
15: PETSC_MK_HBW_PREFERRED = 1
16: } PetscMemkindType;
17: PetscMemkindType currentmktype = PETSC_MK_HBW_PREFERRED;
18: PetscMemkindType previousmktype = PETSC_MK_HBW_PREFERRED;
19: #endif
20: /*
21: We want to make sure that all mallocs of double or complex numbers are complex aligned.
22: 1) on systems with memalign() we call that routine to get an aligned memory location
23: 2) on systems without memalign() we
24: - allocate one sizeof(PetscScalar) extra space
25: - we shift the pointer up slightly if needed to get PetscScalar aligned
26: - if shifted we store at ptr[-1] the amount of shift (plus a classid)
27: */
28: #define SHIFT_CLASSID 456123
30: PETSC_EXTERN PetscErrorCode PetscMallocAlign(size_t mem, PetscBool clear, int line, const char func[], const char file[], void **result)
31: {
32: if (!mem) {
33: *result = NULL;
34: return PETSC_SUCCESS;
35: }
36: #if PetscDefined(HAVE_MEMKIND)
37: {
38: int err = memkind_posix_memalign(currentmktype ? MEMKIND_HBW_PREFERRED : MEMKIND_DEFAULT, result, PETSC_MEMALIGN, mem);
39: PetscCheck(err != EINVAL, PETSC_COMM_SELF, PETSC_ERR_MEM, "Memkind: invalid 3rd or 4th argument of memkind_posix_memalign()");
40: if (err == ENOMEM) PetscInfo(NULL, "Memkind: fail to request HBW memory %.0f, falling back to normal memory\n", (PetscLogDouble)mem);
41: PetscCheck(*result, PETSC_COMM_SELF, PETSC_ERR_MEM, "Memory requested %.0f", (PetscLogDouble)mem);
42: if (clear) PetscCall(PetscMemzero(*result, mem));
43: }
44: #else /* PetscDefined(HAVE_MEMKIND) */
45: #if PetscDefined(HAVE_DOUBLE_ALIGN_MALLOC) && (PETSC_MEMALIGN == 8)
46: if (clear) *result = calloc(1 + mem / sizeof(int), sizeof(int));
47: else *result = malloc(mem);
49: PetscCheck(*result, PETSC_COMM_SELF, PETSC_ERR_MEM, "Memory requested %.0f", (PetscLogDouble)mem);
50: if (PetscLogMemory) PetscCall(PetscMemzero(*result, mem));
51: #elif PetscDefined(HAVE_POSIX_MEMALIGN)
52: int ret = posix_memalign(result, PETSC_MEMALIGN, mem);
53: PetscCheck(ret == 0, PETSC_COMM_SELF, PETSC_ERR_MEM, "Memory requested %.0f", (PetscLogDouble)mem);
54: if (clear || PetscLogMemory) PetscCall(PetscMemzero(*result, mem));
55: #else /* PetscDefined(HAVE_DOUBLE_ALIGN_MALLOC) || PetscDefined(HAVE_POSIX_MEMALIGN) */
56: {
57: int *ptr, shift;
58: /*
59: malloc space for two extra chunks and shift ptr 1 + enough to get it PetscScalar aligned
60: */
61: if (clear) {
62: ptr = (int *)calloc(1 + (mem + 2 * PETSC_MEMALIGN) / sizeof(int), sizeof(int));
63: } else {
64: ptr = (int *)malloc(mem + 2 * PETSC_MEMALIGN);
65: }
66: PetscCheck(ptr, PETSC_COMM_SELF, PETSC_ERR_MEM, "Memory requested %.0f", (PetscLogDouble)mem);
67: shift = (int)(((PETSC_UINTPTR_T)ptr) % PETSC_MEMALIGN);
68: shift = (2 * PETSC_MEMALIGN - shift) / sizeof(int);
69: ptr[shift - 1] = shift + SHIFT_CLASSID;
70: ptr += shift;
71: *result = (void *)ptr;
72: if (PetscLogMemory) PetscCall(PetscMemzero(*result, mem));
73: }
74: #endif /* PetscDefined(HAVE_DOUBLE_ALIGN_MALLOC) || PetscDefined(HAVE_POSIX_MEMALIGN) */
75: #endif /* PetscDefined(HAVE_MEMKIND) */
76: return PETSC_SUCCESS;
77: }
79: PETSC_EXTERN PetscErrorCode PetscFreeAlign(void *ptr, int line, const char func[], const char file[])
80: {
81: if (!ptr) return PETSC_SUCCESS;
82: #if PetscDefined(HAVE_MEMKIND)
83: memkind_free(0, ptr); /* specify the kind to 0 so that memkind will look up for the right type */
84: #else /* PetscDefined(HAVE_MEMKIND) */
85: #if (!(PetscDefined(HAVE_DOUBLE_ALIGN_MALLOC) && (PETSC_MEMALIGN == 8)) && !PetscDefined(HAVE_POSIX_MEMALIGN))
86: {
87: /*
88: Previous int tells us how many ints the pointer has been shifted from
89: the original address provided by the system malloc().
90: */
91: const int shift = *(((int *)ptr) - 1) - SHIFT_CLASSID;
93: PetscCheck(shift <= PETSC_MEMALIGN - 1, PETSC_COMM_SELF, PETSC_ERR_PLIB, "Likely memory corruption in heap");
94: PetscCheck(shift >= 0, PETSC_COMM_SELF, PETSC_ERR_PLIB, "Likely memory corruption in heap");
95: ptr = (void *)(((int *)ptr) - shift);
96: }
97: #endif
99: #if PetscDefined(HAVE_FREE_RETURN_INT)
100: int err = free(ptr);
101: PetscCheck(!err, PETSC_COMM_SELF, PETSC_ERR_PLIB, "System free returned error %d\n", err);
102: #else
103: free(ptr);
104: #endif
105: #endif
106: return PETSC_SUCCESS;
107: }
109: PETSC_EXTERN PetscErrorCode PetscReallocAlign(size_t mem, int line, const char func[], const char file[], void **result)
110: {
111: if (!mem) {
112: PetscCall(PetscFreeAlign(*result, line, func, file));
113: *result = NULL;
114: return PETSC_SUCCESS;
115: }
116: #if PetscDefined(HAVE_MEMKIND)
117: *result = memkind_realloc(currentmktype ? MEMKIND_HBW_PREFERRED : MEMKIND_DEFAULT, *result, mem);
118: #else
119: #if (!(PetscDefined(HAVE_DOUBLE_ALIGN_MALLOC) && (PETSC_MEMALIGN == 8)) && !PetscDefined(HAVE_POSIX_MEMALIGN))
120: {
121: /*
122: Previous int tells us how many ints the pointer has been shifted from
123: the original address provided by the system malloc().
124: */
125: int shift = *(((int *)*result) - 1) - SHIFT_CLASSID;
126: PetscCheck(shift <= PETSC_MEMALIGN - 1, PETSC_COMM_SELF, PETSC_ERR_PLIB, "Likely memory corruption in heap");
127: PetscCheck(shift >= 0, PETSC_COMM_SELF, PETSC_ERR_PLIB, "Likely memory corruption in heap");
128: *result = (void *)(((int *)*result) - shift);
129: }
130: #endif
132: #if (PetscDefined(HAVE_DOUBLE_ALIGN_MALLOC) && (PETSC_MEMALIGN == 8)) || PetscDefined(HAVE_POSIX_MEMALIGN)
133: *result = realloc(*result, mem);
134: #else
135: {
136: /*
137: malloc space for two extra chunks and shift ptr 1 + enough to get it PetscScalar aligned
138: */
139: int *ptr = (int *)realloc(*result, mem + 2 * PETSC_MEMALIGN);
140: if (ptr) {
141: int shift = (int)(((PETSC_UINTPTR_T)ptr) % PETSC_MEMALIGN);
142: shift = (2 * PETSC_MEMALIGN - shift) / sizeof(int);
143: ptr[shift - 1] = shift + SHIFT_CLASSID;
144: ptr += shift;
145: *result = (void *)ptr;
146: } else {
147: *result = NULL;
148: }
149: }
150: #endif
151: #endif
152: PetscCheck(*result, PETSC_COMM_SELF, PETSC_ERR_MEM, "Memory requested %.0f", (PetscLogDouble)mem);
153: #if PetscDefined(HAVE_POSIX_MEMALIGN)
154: /* There are no standard guarantees that realloc() maintains the alignment of memalign(), so I think we have to
155: * realloc and, if the alignment is wrong, malloc/copy/free. */
156: if (((size_t)(*result)) % PETSC_MEMALIGN) {
157: void *newResult;
158: #if PetscDefined(HAVE_MEMKIND)
159: {
160: int err = memkind_posix_memalign(currentmktype ? MEMKIND_HBW_PREFERRED : MEMKIND_DEFAULT, &newResult, PETSC_MEMALIGN, mem);
161: PetscCheck(err != EINVAL, PETSC_COMM_SELF, PETSC_ERR_MEM, "Memkind: invalid 3rd or 4th argument of memkind_posix_memalign()");
162: if (err == ENOMEM) PetscInfo(NULL, "Memkind: fail to request HBW memory %.0f, falling back to normal memory\n", (PetscLogDouble)mem);
163: }
164: PetscCheck(newResult, PETSC_COMM_SELF, PETSC_ERR_MEM, "Memory requested %.0f", (PetscLogDouble)mem);
165: #else
166: int ret = posix_memalign(&newResult, PETSC_MEMALIGN, mem);
167: PetscCheck(ret == 0, PETSC_COMM_SELF, PETSC_ERR_LIB, "posix_memalign() failed with error code %d, memory requested %.0f", ret, (PetscLogDouble)mem);
168: #endif
169: PetscCall(PetscMemcpy(newResult, *result, mem));
170: #if PetscDefined(HAVE_FREE_RETURN_INT)
171: {
172: int err = free(*result);
173: PetscCheck(!err, PETSC_COMM_SELF, PETSC_ERR_PLIB, "System free returned error %d", err);
174: }
175: #else
176: #if defined(PETSC_HAVE_MEMKIND)
177: memkind_free(0, *result);
178: #else
179: free(*result);
180: #endif
181: #endif
182: *result = newResult;
183: }
184: #endif
185: return PETSC_SUCCESS;
186: }
188: PetscErrorCode (*PetscTrMalloc)(size_t, PetscBool, int, const char[], const char[], void **) = PetscMallocAlign;
189: PetscErrorCode (*PetscTrFree)(void *, int, const char[], const char[]) = PetscFreeAlign;
190: PetscErrorCode (*PetscTrRealloc)(size_t, int, const char[], const char[], void **) = PetscReallocAlign;
192: PETSC_INTERN PetscBool petscsetmallocvisited;
193: PetscBool petscsetmallocvisited = PETSC_FALSE;
195: /*@C
196: PetscMallocSet - Sets the routines used to do mallocs and frees.
197: This routine MUST be called before `PetscInitialize()` and may be
198: called only once.
200: Not Collective
202: Input Parameters:
203: + imalloc - the routine that provides the malloc (also provides calloc(), which is used depends on the second argument)
204: . ifree - the routine that provides the free
205: - iralloc - the routine that provides the realloc
207: Level: developer
209: .seealso: `PetscMallocClear()`
210: @*/
211: PetscErrorCode PetscMallocSet(PetscErrorCode (*imalloc)(size_t, PetscBool, int, const char[], const char[], void **), PetscErrorCode (*ifree)(void *, int, const char[], const char[]), PetscErrorCode (*iralloc)(size_t, int, const char[], const char[], void **))
212: {
213: PetscFunctionBegin;
214: PetscCheck(!petscsetmallocvisited || !(imalloc != PetscTrMalloc || ifree != PetscTrFree), PETSC_COMM_SELF, PETSC_ERR_SUP, "cannot call multiple times");
215: PetscTrMalloc = imalloc;
216: PetscTrFree = ifree;
217: PetscTrRealloc = iralloc;
218: petscsetmallocvisited = PETSC_TRUE;
219: PetscFunctionReturn(PETSC_SUCCESS);
220: }
222: /*@C
223: PetscMallocClear - Resets the routines used to do mallocs and frees to the defaults.
225: Not Collective
227: Level: developer
229: Note:
230: In general one should never run a PETSc program with different malloc() and
231: free() settings for different parts; this is because one NEVER wants to
232: free() an address that was malloced by a different memory management system
234: Called in `PetscFinalize()` so that if `PetscInitialize()` is called again it starts with a fresh slate of allocation information
236: .seealso: `PetscMallocSet`
237: @*/
238: PetscErrorCode PetscMallocClear(void)
239: {
240: PetscFunctionBegin;
241: PetscTrMalloc = PetscMallocAlign;
242: PetscTrFree = PetscFreeAlign;
243: PetscTrRealloc = PetscReallocAlign;
244: petscsetmallocvisited = PETSC_FALSE;
245: PetscFunctionReturn(PETSC_SUCCESS);
246: }
248: PetscErrorCode PetscMemoryTrace(const char label[])
249: {
250: PetscLogDouble mem, mal;
251: static PetscLogDouble oldmem = 0, oldmal = 0;
253: PetscFunctionBegin;
254: PetscCall(PetscMemoryGetCurrentUsage(&mem));
255: PetscCall(PetscMallocGetCurrentUsage(&mal));
257: PetscCall(PetscPrintf(PETSC_COMM_WORLD, "%s High water %8.3f MB increase %8.3f MB Current %8.3f MB increase %8.3f MB\n", label, mem * 1e-6, (mem - oldmem) * 1e-6, mal * 1e-6, (mal - oldmal) * 1e-6));
258: oldmem = mem;
259: oldmal = mal;
260: PetscFunctionReturn(PETSC_SUCCESS);
261: }
263: static PetscErrorCode (*PetscTrMallocOld)(size_t, PetscBool, int, const char[], const char[], void **) = PetscMallocAlign;
264: static PetscErrorCode (*PetscTrReallocOld)(size_t, int, const char[], const char[], void **) = PetscReallocAlign;
265: static PetscErrorCode (*PetscTrFreeOld)(void *, int, const char[], const char[]) = PetscFreeAlign;
267: /*@C
268: PetscMallocSetDRAM - Set `PetscMalloc()` to use DRAM.
269: If memkind is available, change the memkind type. Otherwise, switch the
270: current malloc and free routines to the `PetscMallocAlign()` and
271: `PetscFreeAlign()` (PETSc default).
273: Not Collective
275: Level: developer
277: Note:
278: This provides a way to do the allocation on DRAM temporarily. One
279: can switch back to the previous choice by calling `PetscMallocReset()`.
281: .seealso: `PetscMallocReset()`
282: @*/
283: PetscErrorCode PetscMallocSetDRAM(void)
284: {
285: PetscFunctionBegin;
286: if (PetscTrMalloc == PetscMallocAlign) {
287: #if defined(PETSC_HAVE_MEMKIND)
288: previousmktype = currentmktype;
289: currentmktype = PETSC_MK_DEFAULT;
290: #endif
291: } else {
292: /* Save the previous choice */
293: PetscTrMallocOld = PetscTrMalloc;
294: PetscTrReallocOld = PetscTrRealloc;
295: PetscTrFreeOld = PetscTrFree;
296: PetscTrMalloc = PetscMallocAlign;
297: PetscTrFree = PetscFreeAlign;
298: PetscTrRealloc = PetscReallocAlign;
299: }
300: PetscFunctionReturn(PETSC_SUCCESS);
301: }
303: /*@C
304: PetscMallocResetDRAM - Reset the changes made by `PetscMallocSetDRAM()`
306: Not Collective
308: Level: developer
310: .seealso: `PetscMallocSetDRAM()`
311: @*/
312: PetscErrorCode PetscMallocResetDRAM(void)
313: {
314: PetscFunctionBegin;
315: if (PetscTrMalloc == PetscMallocAlign) {
316: #if defined(PETSC_HAVE_MEMKIND)
317: currentmktype = previousmktype;
318: #endif
319: } else {
320: /* Reset to the previous choice */
321: PetscTrMalloc = PetscTrMallocOld;
322: PetscTrRealloc = PetscTrReallocOld;
323: PetscTrFree = PetscTrFreeOld;
324: }
325: PetscFunctionReturn(PETSC_SUCCESS);
326: }
328: static PetscBool petscmalloccoalesce =
329: #if defined(PETSC_USE_MALLOC_COALESCED)
330: PETSC_TRUE;
331: #else
332: PETSC_FALSE;
333: #endif
335: /*@C
336: PetscMallocSetCoalesce - Use coalesced malloc when allocating groups of objects
338: Not Collective
340: Input Parameters:
341: . coalesce - `PETSC_TRUE` to use coalesced malloc for multi-object allocation.
343: Options Database Keys:
344: . -malloc_coalesce - turn coalesced malloc on or off
346: Notes:
347: PETSc uses coalesced malloc by default for optimized builds and not for debugging builds.
349: This default can be changed via the command-line option -malloc_coalesce or by calling this function.
351: This function can only be called immediately after `PetscInitialize()`
353: Level: developer
355: .seealso: `PetscMallocA()`
356: @*/
357: PetscErrorCode PetscMallocSetCoalesce(PetscBool coalesce)
358: {
359: PetscFunctionBegin;
360: petscmalloccoalesce = coalesce;
361: PetscFunctionReturn(PETSC_SUCCESS);
362: }
364: /*@C
365: PetscMallocA - Allocate and optionally clear one or more objects, possibly using coalesced malloc
367: Not Collective
369: Input Parameters:
370: + n - number of objects to allocate (at least 1)
371: . clear - use calloc() to allocate space initialized to zero
372: . lineno - line number to attribute allocation (typically __LINE__)
373: . function - function to attribute allocation (typically PETSC_FUNCTION_NAME)
374: . filename - file name to attribute allocation (typically __FILE__)
375: - bytes0 - first of n object sizes
377: Output Parameters:
378: . ptr0 - first of n pointers to allocate
380: Notes
381: This function is not normally called directly by users, but rather via the macros `PetscMalloc1()`, `PetscMalloc2()`, or `PetscCalloc1()`, etc.
383: Level: developer
385: .seealso: `PetscMallocAlign()`, `PetscMallocSet()`, `PetscMalloc1()`, `PetscMalloc2()`, `PetscMalloc3()`, `PetscMalloc4()`, `PetscMalloc5()`, `PetscMalloc6()`, `PetscMalloc7()`, `PetscCalloc1()`, `PetscCalloc2()`, `PetscCalloc3()`, `PetscCalloc4()`, `PetscCalloc5()`, `PetscCalloc6()`, `PetscCalloc7()`, `PetscFreeA()`
386: @*/
387: PetscErrorCode PetscMallocA(int n, PetscBool clear, int lineno, const char *function, const char *filename, size_t bytes0, void *ptr0, ...)
388: {
389: va_list Argp;
390: size_t bytes[8], sumbytes;
391: void **ptr[8];
392: int i;
394: PetscFunctionBegin;
395: PetscCheck(n <= 8, PETSC_COMM_SELF, PETSC_ERR_ARG_OUTOFRANGE, "Attempt to allocate %d objects but only 8 supported", n);
396: bytes[0] = bytes0;
397: ptr[0] = (void **)ptr0;
398: sumbytes = (bytes0 + PETSC_MEMALIGN - 1) & ~(PETSC_MEMALIGN - 1);
399: va_start(Argp, ptr0);
400: for (i = 1; i < n; i++) {
401: bytes[i] = va_arg(Argp, size_t);
402: ptr[i] = va_arg(Argp, void **);
403: sumbytes += (bytes[i] + PETSC_MEMALIGN - 1) & ~(PETSC_MEMALIGN - 1);
404: }
405: va_end(Argp);
406: if (petscmalloccoalesce) {
407: char *p;
408: PetscCall((*PetscTrMalloc)(sumbytes, clear, lineno, function, filename, (void **)&p));
409: if (p == NULL) {
410: for (i = 0; i < n; i++) *ptr[i] = NULL;
411: } else {
412: for (i = 0; i < n; i++) {
413: *ptr[i] = bytes[i] ? p : NULL;
414: p = (char *)PetscAddrAlign(p + bytes[i]);
415: }
416: }
417: } else {
418: for (i = 0; i < n; i++) PetscCall((*PetscTrMalloc)(bytes[i], clear, lineno, function, filename, (void **)ptr[i]));
419: }
420: PetscFunctionReturn(PETSC_SUCCESS);
421: }
423: /*@C
424: PetscFreeA - Free one or more objects, possibly allocated using coalesced malloc
426: Not Collective
428: Input Parameters:
429: + n - number of objects to free (at least 1)
430: . lineno - line number to attribute deallocation (typically __LINE__)
431: . function - function to attribute deallocation (typically PETSC_FUNCTION_NAME)
432: . filename - file name to attribute deallocation (typically __FILE__)
433: - ptr0 ... - first of n pointers to free
435: Notes:
436: This function is not normally called directly by users, but rather via the macros `PetscFree()`, `PetscFree2()`, etc.
438: The pointers are zeroed to prevent users from accidentally reusing space that has been freed.
440: Level: developer
442: .seealso: `PetscMallocAlign()`, `PetscMallocSet()`, `PetscMallocA()`, `PetscFree1()`, `PetscFree2()`, `PetscFree3()`, `PetscFree4()`, `PetscFree5()`, `PetscFree6()`, `PetscFree7()`
443: @*/
444: PetscErrorCode PetscFreeA(int n, int lineno, const char *function, const char *filename, void *ptr0, ...)
445: {
446: va_list Argp;
447: void **ptr[8];
448: int i;
450: PetscFunctionBegin;
451: PetscCheck(n <= 8, PETSC_COMM_SELF, PETSC_ERR_ARG_OUTOFRANGE, "Attempt to allocate %d objects but only up to 8 supported", n);
452: ptr[0] = (void **)ptr0;
453: va_start(Argp, ptr0);
454: for (i = 1; i < n; i++) ptr[i] = va_arg(Argp, void **);
455: va_end(Argp);
456: if (petscmalloccoalesce) {
457: for (i = 0; i < n; i++) { /* Find first nonempty allocation */
458: if (*ptr[i]) break;
459: }
460: while (--n > i) *ptr[n] = NULL;
461: PetscCall((*PetscTrFree)(*ptr[n], lineno, function, filename));
462: *ptr[n] = NULL;
463: } else {
464: while (--n >= 0) {
465: PetscCall((*PetscTrFree)(*ptr[n], lineno, function, filename));
466: *ptr[n] = NULL;
467: }
468: }
469: PetscFunctionReturn(PETSC_SUCCESS);
470: }