| |
| /*--------------------------------------------------------------------*/ |
| /*--- An implementation of malloc/free which doesn't use sbrk. ---*/ |
| /*--- vg_malloc2.c ---*/ |
| /*--------------------------------------------------------------------*/ |
| |
| /* |
| This file is part of Valgrind, an x86 protected-mode emulator |
| designed for debugging and profiling binaries on x86-Unixes. |
| |
| Copyright (C) 2000-2002 Julian Seward |
| jseward@acm.org |
| |
| This program is free software; you can redistribute it and/or |
| modify it under the terms of the GNU General Public License as |
| published by the Free Software Foundation; either version 2 of the |
| License, or (at your option) any later version. |
| |
| This program is distributed in the hope that it will be useful, but |
| WITHOUT ANY WARRANTY; without even the implied warranty of |
| MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU |
| General Public License for more details. |
| |
| You should have received a copy of the GNU General Public License |
| along with this program; if not, write to the Free Software |
| Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA |
| 02111-1307, USA. |
| |
| The GNU General Public License is contained in the file COPYING. |
| */ |
| |
| |
| #include "vg_include.h" |
| |
| /* Define to turn on (heavyweight) debugging machinery. */ |
| /* #define DEBUG_MALLOC */ |
| |
| |
| /*------------------------------------------------------------*/ |
| /*--- Structs n stuff ---*/ |
| /*------------------------------------------------------------*/ |
| |
| #define VG_REDZONE_LO_MASK 0x31415927 |
| #define VG_REDZONE_HI_MASK 0x14141356 |
| |
| #define VG_N_MALLOC_LISTS 16 /* do not change this */ |
| |
| |
| typedef UInt Word; |
| typedef Word WordF; |
| typedef Word WordL; |
| |
| |
| /* A superblock. */ |
| typedef |
| struct _Superblock { |
| struct _Superblock* next; |
| /* number of payload words in this superblock. */ |
| Int n_payload_words; |
| Word payload_words[0]; |
| } |
| Superblock; |
| |
| |
| /* An arena. */ |
| typedef |
| struct { |
| Char* name; |
| Int rz_szW; /* Red zone size in words */ |
| Bool rz_check; /* Check red-zone on free? */ |
| Int min_sblockW; /* Minimum superblock size */ |
| WordF* freelist[VG_N_MALLOC_LISTS]; |
| Superblock* sblocks; |
| /* Stats only. */ |
| UInt bytes_on_loan; |
| UInt bytes_mmaped; |
| UInt bytes_on_loan_max; |
| } |
| Arena; |
| |
| |
| /* Block layout: |
| |
| this block total sizeW (1 word) |
| freelist previous ptr (1 word) |
| freelist next ptr (1 word) |
| red zone words (depends on .rz_szW field of Arena) |
| (payload words) |
| red zone words (depends on .rz_szW field of Arena) |
| this block total sizeW (1 word) |
| |
| Total size in words (bszW) and payload size in words (pszW) |
| are related by |
| bszW == pszW + 4 + 2 * a->rz_szW |
| |
| Furthermore, both size fields in the block are negative if it is |
| not in use, and positive if it is in use. A block size of zero |
| is not possible, because a block always has at least four words |
| of overhead. |
| */ |
| typedef |
| struct { |
| Int bszW_lo; |
| Word* prev; |
| Word* next; |
| Word redzone[0]; |
| } |
| BlockHeader; |
| |
| |
| /*------------------------------------------------------------*/ |
| /*--- Forwardses ... and misc ... ---*/ |
| /*------------------------------------------------------------*/ |
| |
| static Bool blockSane ( Arena* a, Word* b ); |
| |
| /* Align ptr p upwards to an align-sized boundary. */ |
| static |
| void* align_upwards ( void* p, Int align ) |
| { |
| Addr a = (Addr)p; |
| if ((a % align) == 0) return (void*)a; |
| return (void*)(a - (a % align) + align); |
| } |
| |
| |
| /*------------------------------------------------------------*/ |
| /*--- Arena management stuff ---*/ |
| /*------------------------------------------------------------*/ |
| |
| /* The arena structures themselves. */ |
| static Arena vg_arena[VG_N_ARENAS]; |
| |
| /* Functions external to this module identify arenas using ArenaIds, |
| not Arena*s. This fn converts the former to the latter. */ |
| static Arena* arenaId_to_ArenaP ( ArenaId arena ) |
| { |
| vg_assert(arena >= 0 && arena < VG_N_ARENAS); |
| return & vg_arena[arena]; |
| } |
| |
| |
| /* Initialise an arena. */ |
| static |
| void arena_init ( Arena* a, Char* name, |
| Int rz_szW, Bool rz_check, Int min_sblockW ) |
| { |
| Int i; |
| vg_assert((min_sblockW % VKI_WORDS_PER_PAGE) == 0); |
| a->name = name; |
| a->rz_szW = rz_szW; |
| a->rz_check = rz_check; |
| a->min_sblockW = min_sblockW; |
| for (i = 0; i < VG_N_MALLOC_LISTS; i++) a->freelist[i] = NULL; |
| a->sblocks = NULL; |
| a->bytes_on_loan = 0; |
| a->bytes_mmaped = 0; |
| a->bytes_on_loan_max = 0; |
| } |
| |
| |
| /* Print vital stats for an arena. */ |
| void VG_(show_all_arena_stats) ( void ) |
| { |
| Int i; |
| for (i = 0; i < VG_N_ARENAS; i++) { |
| VG_(message)(Vg_DebugMsg, |
| "Arena `%s': %7d max useful, %7d mmap'd, %7d current useful", |
| vg_arena[i].name, |
| vg_arena[i].bytes_on_loan_max, |
| vg_arena[i].bytes_mmaped, |
| vg_arena[i].bytes_on_loan |
| ); |
| } |
| } |
| |
| |
| /* It is important that this library is self-initialising, because it |
| may get called very early on -- as a result of C++ static |
| constructor initialisations -- before Valgrind itself is |
| initialised. Hence vg_malloc() and vg_free() below always call |
| ensure_mm_init() to ensure things are correctly initialised. */ |
| |
| static |
| void ensure_mm_init ( void ) |
| { |
| static Bool init_done = False; |
| if (init_done) return; |
| |
| /* Use a checked red zone size of 1 word for our internal stuff, |
| and an unchecked zone of arbitrary size for the client. Of |
| course the client's red zone is checked really, but using the |
| addressibility maps, not by the mechanism implemented here, |
| which merely checks at the time of freeing that the red zone |
| words are unchanged. */ |
| |
| arena_init ( &vg_arena[VG_AR_PRIVATE], "private ", |
| 1, True, 262144 ); |
| |
| arena_init ( &vg_arena[VG_AR_SYMTAB], "symtab ", |
| 1, True, 262144 ); |
| |
| arena_init ( &vg_arena[VG_AR_CLIENT], "client ", |
| VG_AR_CLIENT_REDZONE_SZW, False, 262144 ); |
| |
| arena_init ( &vg_arena[VG_AR_DEMANGLE], "demangle", |
| 4 /*paranoid*/, True, 16384 ); |
| |
| arena_init ( &vg_arena[VG_AR_EXECTXT], "exectxt ", |
| 1, True, 16384 ); |
| |
| arena_init ( &vg_arena[VG_AR_ERRCTXT], "errctxt ", |
| 1, True, 16384 ); |
| |
| arena_init ( &vg_arena[VG_AR_TRANSIENT], "transien", |
| 2, True, 16384 ); |
| |
| init_done = True; |
| # ifdef DEBUG_MALLOC |
| VG_(mallocSanityCheckAll)(); |
| # endif |
| } |
| |
| |
| /*------------------------------------------------------------*/ |
| /*--- Arena management stuff ---*/ |
| /*------------------------------------------------------------*/ |
| |
| static |
| Superblock* newSuperblock ( Arena* a, Int cszW ) |
| { |
| Superblock* sb; |
| cszW += 2; /* Take into account sb->next and sb->n_words fields */ |
| if (cszW < a->min_sblockW) cszW = a->min_sblockW; |
| while ((cszW % VKI_WORDS_PER_PAGE) > 0) cszW++; |
| sb = VG_(get_memory_from_mmap) ( cszW * sizeof(Word), |
| "newSuperblock" ); |
| sb->n_payload_words = cszW - 2; |
| a->bytes_mmaped += cszW * sizeof(Word); |
| if (0) |
| VG_(message)(Vg_DebugMsg, "newSuperblock, %d payload words", |
| sb->n_payload_words); |
| return sb; |
| } |
| |
| |
| /* Find the superblock containing the given chunk. */ |
| static |
| Superblock* findSb ( Arena* a, UInt* ch ) |
| { |
| Superblock* sb; |
| for (sb = a->sblocks; sb; sb = sb->next) |
| if (&sb->payload_words[0] <= ch |
| && ch < &sb->payload_words[sb->n_payload_words]) |
| return sb; |
| VG_(printf)("findSb: can't find pointer %p in arena `%s'\n", |
| ch, a->name ); |
| VG_(panic)("findSb: vg_free() in wrong arena?"); |
| return NULL; /*NOTREACHED*/ |
| } |
| |
| |
| /*------------------------------------------------------------*/ |
| /*--- Low-level functions for working with blocks. ---*/ |
| /*------------------------------------------------------------*/ |
| |
| /* Add the not-in-use attribute to a bszW. */ |
| static __inline__ |
| Int mk_free_bszW ( Int bszW ) |
| { |
| vg_assert(bszW != 0); |
| return (bszW < 0) ? bszW : -bszW; |
| } |
| |
| /* Add the in-use attribute to a bszW. */ |
| static __inline__ |
| Int mk_inuse_bszW ( Int bszW ) |
| { |
| vg_assert(bszW != 0); |
| return (bszW < 0) ? -bszW : bszW; |
| } |
| |
| /* Remove the in-use/not-in-use attribute from a bszW, leaving just |
| the size. */ |
| static __inline__ |
| Int mk_plain_bszW ( Int bszW ) |
| { |
| vg_assert(bszW != 0); |
| return (bszW < 0) ? -bszW : bszW; |
| } |
| |
| /* Does this bszW have the in-use attribute ? */ |
| static __inline__ |
| Bool is_inuse_bszW ( Int bszW ) |
| { |
| vg_assert(bszW != 0); |
| return (bszW < 0) ? False : True; |
| } |
| |
| |
| /* Given the addr of the first word of a block, return the addr of the |
| last word. */ |
| static __inline__ |
| WordL* first_to_last ( WordF* fw ) |
| { |
| return fw + mk_plain_bszW(fw[0]) - 1; |
| } |
| |
| /* Given the addr of the last word of a block, return the addr of the |
| first word. */ |
| static __inline__ |
| WordF* last_to_first ( WordL* lw ) |
| { |
| return lw - mk_plain_bszW(lw[0]) + 1; |
| } |
| |
| |
| /* Given the addr of the first word of a block, return the addr of the |
| first word of its payload. */ |
| static __inline__ |
| Word* first_to_payload ( Arena* a, WordF* fw ) |
| { |
| return & fw[3 + a->rz_szW]; |
| } |
| |
| /* Given the addr of the first word of a the payload of a block, |
| return the addr of the first word of the block. */ |
| static __inline__ |
| Word* payload_to_first ( Arena* a, WordF* payload ) |
| { |
| return & payload[- 3 - a->rz_szW]; |
| } |
| |
| /* Set and get the lower size field of a block. */ |
| static __inline__ |
| void set_bszW_lo ( WordF* fw, Int bszW ) { |
| fw[0] = bszW; |
| } |
| static __inline__ |
| Int get_bszW_lo ( WordF* fw ) |
| { |
| return fw[0]; |
| } |
| |
| |
| /* Set and get the next and previous link fields of a block. */ |
| static __inline__ |
| void set_prev_p ( WordF* fw, Word* prev_p ) { |
| fw[1] = (Word)prev_p; |
| } |
| static __inline__ |
| void set_next_p ( WordF* fw, Word* next_p ) { |
| fw[2] = (Word)next_p; |
| } |
| static __inline__ |
| Word* get_prev_p ( WordF* fw ) { |
| return (Word*)(fw[1]); |
| } |
| static __inline__ |
| Word* get_next_p ( WordF* fw ) { |
| return (Word*)(fw[2]); |
| } |
| |
| |
| /* Set and get the upper size field of a block. */ |
| static __inline__ |
| void set_bszW_hi ( WordF* fw, Int bszW ) { |
| WordL* lw = first_to_last(fw); |
| vg_assert(lw == fw + mk_plain_bszW(bszW) - 1); |
| lw[0] = bszW; |
| } |
| static __inline__ |
| Int get_bszW_hi ( WordF* fw ) { |
| WordL* lw = first_to_last(fw); |
| return lw[0]; |
| } |
| |
| /* Get the upper size field of a block, given a pointer to the last |
| word of it. */ |
| static __inline__ |
| Int get_bszW_hi_from_last_word ( WordL* lw ) { |
| WordF* fw = last_to_first(lw); |
| return get_bszW_lo(fw); |
| } |
| |
| |
| /* Read and write the lower and upper red-zone words of a block. */ |
| static __inline__ |
| void set_rz_lo_word ( Arena* a, WordF* fw, Int rz_wordno, Word w ) |
| { |
| fw[3 + rz_wordno] = w; |
| } |
| static __inline__ |
| void set_rz_hi_word ( Arena* a, WordF* fw, Int rz_wordno, Word w ) |
| { |
| WordL* lw = first_to_last(fw); |
| lw[-1-rz_wordno] = w; |
| } |
| static __inline__ |
| Word get_rz_lo_word ( Arena* a, WordF* fw, Int rz_wordno ) |
| { |
| return fw[3 + rz_wordno]; |
| } |
| static __inline__ |
| Word get_rz_hi_word ( Arena* a, WordF* fw, Int rz_wordno ) |
| { |
| WordL* lw = first_to_last(fw); |
| return lw[-1-rz_wordno]; |
| } |
| |
| |
| /* Return the lower, upper and total overhead in words for a block. |
| These are determined purely by which arena the block lives in. */ |
| static __inline__ |
| Int overhead_szW_lo ( Arena* a ) |
| { |
| return 3 + a->rz_szW; |
| } |
| static __inline__ |
| Int overhead_szW_hi ( Arena* a ) |
| { |
| return 1 + a->rz_szW; |
| } |
| static __inline__ |
| Int overhead_szW ( Arena* a ) |
| { |
| return overhead_szW_lo(a) + overhead_szW_hi(a); |
| } |
| |
| |
| /* Convert pointer size in words to block size in words, and back. */ |
| static __inline__ |
| Int pszW_to_bszW ( Arena* a, Int pszW ) |
| { |
| vg_assert(pszW >= 0); |
| return pszW + overhead_szW(a); |
| } |
| static __inline__ |
| Int bszW_to_pszW ( Arena* a, Int bszW ) |
| { |
| Int pszW = bszW - overhead_szW(a); |
| vg_assert(pszW >= 0); |
| return pszW; |
| } |
| |
| /*------------------------------------------------------------*/ |
| /*--- Functions for working with freelists. ---*/ |
| /*------------------------------------------------------------*/ |
| |
| /* Determination of which freelist a block lives on is based on the |
| payload size, not block size, in words. */ |
| |
| /* Convert a payload size in words to a freelist number. */ |
| |
| static |
| Int pszW_to_listNo ( Int pszW ) |
| { |
| vg_assert(pszW >= 0); |
| if (pszW <= 3) return 0; |
| if (pszW <= 4) return 1; |
| if (pszW <= 5) return 2; |
| if (pszW <= 6) return 3; |
| if (pszW <= 7) return 4; |
| if (pszW <= 8) return 5; |
| if (pszW <= 9) return 6; |
| if (pszW <= 10) return 7; |
| if (pszW <= 11) return 8; |
| if (pszW <= 12) return 9; |
| if (pszW <= 16) return 10; |
| if (pszW <= 32) return 11; |
| if (pszW <= 64) return 12; |
| if (pszW <= 128) return 13; |
| if (pszW <= 256) return 14; |
| return 15; |
| } |
| |
| |
| /* What are the minimum and maximum payload sizes for a given list? */ |
| |
| static |
| Int listNo_to_pszW_min ( Int listNo ) |
| { |
| Int pszW = 0; |
| vg_assert(listNo >= 0 && listNo <= VG_N_MALLOC_LISTS); |
| while (pszW_to_listNo(pszW) < listNo) pszW++; |
| return pszW; |
| } |
| |
| static |
| Int listNo_to_pszW_max ( Int listNo ) |
| { |
| vg_assert(listNo >= 0 && listNo <= VG_N_MALLOC_LISTS); |
| if (listNo == VG_N_MALLOC_LISTS-1) { |
| return 999999999; |
| } else { |
| return listNo_to_pszW_min(listNo+1) - 1; |
| } |
| } |
| |
| |
| /* A nasty hack to try and reduce fragmentation. Try and replace |
| a->freelist[lno] with another block on the same list but with a |
| lower address, with the idea of attempting to recycle the same |
| blocks rather than cruise through the address space. */ |
| |
| static |
| void swizzle ( Arena* a, Int lno ) |
| { |
| UInt* p_best; |
| UInt* pp; |
| UInt* pn; |
| Int i; |
| |
| p_best = a->freelist[lno]; |
| if (p_best == NULL) return; |
| |
| pn = pp = p_best; |
| for (i = 0; i < 20; i++) { |
| pn = get_next_p(pn); |
| pp = get_prev_p(pp); |
| if (pn < p_best) p_best = pn; |
| if (pp < p_best) p_best = pp; |
| } |
| if (p_best < a->freelist[lno]) { |
| # ifdef DEBUG_MALLOC |
| VG_(printf)("retreat by %d\n", |
| ((Char*)(a->freelist[lno])) - ((Char*)p_best)); |
| # endif |
| a->freelist[lno] = p_best; |
| } |
| } |
| |
| |
| /*------------------------------------------------------------*/ |
| /*--- Creating and deleting blocks. ---*/ |
| /*------------------------------------------------------------*/ |
| |
| /* Mark the words at b .. b+bszW-1 as not in use, and add them to the |
| relevant free list. */ |
| |
| static |
| void mkFreeBlock ( Arena* a, Word* b, Int bszW, Int b_lno ) |
| { |
| Int pszW = bszW_to_pszW(a, bszW); |
| vg_assert(pszW >= 0); |
| vg_assert(b_lno == pszW_to_listNo(pszW)); |
| /* Set the size fields and indicate not-in-use. */ |
| set_bszW_lo(b, mk_free_bszW(bszW)); |
| set_bszW_hi(b, mk_free_bszW(bszW)); |
| |
| /* Add to the relevant list. */ |
| if (a->freelist[b_lno] == NULL) { |
| set_prev_p(b, b); |
| set_next_p(b, b); |
| a->freelist[b_lno] = b; |
| } else { |
| Word* b_prev = get_prev_p(a->freelist[b_lno]); |
| Word* b_next = a->freelist[b_lno]; |
| set_next_p(b_prev, b); |
| set_prev_p(b_next, b); |
| set_next_p(b, b_next); |
| set_prev_p(b, b_prev); |
| } |
| # ifdef DEBUG_MALLOC |
| (void)blockSane(a,b); |
| # endif |
| } |
| |
| |
| /* Mark the words at b .. b+bszW-1 as in use, and set up the block |
| appropriately. */ |
| static |
| void mkInuseBlock ( Arena* a, UInt* b, UInt bszW ) |
| { |
| Int i; |
| set_bszW_lo(b, mk_inuse_bszW(bszW)); |
| set_bszW_hi(b, mk_inuse_bszW(bszW)); |
| set_prev_p(b, NULL); |
| set_next_p(b, NULL); |
| if (a->rz_check) { |
| for (i = 0; i < a->rz_szW; i++) { |
| set_rz_lo_word(a, b, i, (UInt)b ^ VG_REDZONE_LO_MASK); |
| set_rz_hi_word(a, b, i, (UInt)b ^ VG_REDZONE_HI_MASK); |
| } |
| } |
| # ifdef DEBUG_MALLOC |
| (void)blockSane(a,b); |
| # endif |
| } |
| |
| |
| /* Remove a block from a given list. Does no sanity checking. */ |
| static |
| void unlinkBlock ( Arena* a, UInt* b, Int listno ) |
| { |
| vg_assert(listno >= 0 && listno < VG_N_MALLOC_LISTS); |
| if (get_prev_p(b) == b) { |
| /* Only one element in the list; treat it specially. */ |
| vg_assert(get_next_p(b) == b); |
| a->freelist[listno] = NULL; |
| } else { |
| UInt* b_prev = get_prev_p(b); |
| UInt* b_next = get_next_p(b); |
| a->freelist[listno] = b_prev; |
| set_next_p(b_prev, b_next); |
| set_prev_p(b_next, b_prev); |
| swizzle ( a, listno ); |
| } |
| set_prev_p(b, NULL); |
| set_next_p(b, NULL); |
| } |
| |
| |
| /* Split an existing free block into two pieces, and put the fragment |
| (the second one along in memory) onto the relevant free list. |
| req_bszW is the required size of the block which isn't the |
| fragment. */ |
| static |
| void splitChunk ( Arena* a, UInt* b, Int b_listno, UInt req_bszW ) |
| { |
| Int b_bszW, frag_bszW; |
| b_bszW = mk_plain_bszW(get_bszW_lo(b)); |
| vg_assert(req_bszW < b_bszW); |
| frag_bszW = b_bszW - req_bszW; |
| vg_assert(frag_bszW >= overhead_szW(a)); |
| /* |
| printf( "split %d into %d and %d\n", |
| b_bszW,req_bszW,frag_bszW ); |
| */ |
| vg_assert(bszW_to_pszW(a, frag_bszW) > 0); |
| unlinkBlock(a, b, b_listno); |
| mkInuseBlock(a, b, req_bszW); |
| mkFreeBlock(a, &b[req_bszW], frag_bszW, |
| pszW_to_listNo(bszW_to_pszW(a, frag_bszW))); |
| } |
| |
| |
| /*------------------------------------------------------------*/ |
| /*--- Sanity-check/debugging machinery. ---*/ |
| /*------------------------------------------------------------*/ |
| |
| /* Do some crude sanity checks on a chunk. */ |
| static |
| Bool blockSane ( Arena* a, Word* b ) |
| { |
| # define BLEAT(str) VG_(printf)("blockSane: fail -- %s\n",str) |
| Int i; |
| if (get_bszW_lo(b) != get_bszW_hi(b)) |
| {BLEAT("sizes");return False;} |
| if (a->rz_check && is_inuse_bszW(get_bszW_lo(b))) { |
| for (i = 0; i < a->rz_szW; i++) { |
| if (get_rz_lo_word(a, b, i) != ((Word)b ^ VG_REDZONE_LO_MASK)) |
| {BLEAT("redzone-lo");return False;} |
| if (get_rz_hi_word(a, b, i) != ((Word)b ^ VG_REDZONE_HI_MASK)) |
| {BLEAT("redzone-hi");return False;} |
| } |
| } |
| return True; |
| # undef BLEAT |
| } |
| |
| |
| /* Print superblocks (only for debugging). */ |
| static |
| void ppSuperblocks ( Arena* a ) |
| { |
| Int i, ch_bszW, blockno; |
| UInt* ch; |
| Superblock* sb = a->sblocks; |
| blockno = 1; |
| |
| while (sb) { |
| VG_(printf)( "\n" ); |
| VG_(printf)( "superblock %d at %p, sb->n_pl_ws = %d, next = %p\n", |
| blockno++, sb, sb->n_payload_words, sb->next ); |
| i = 0; |
| while (True) { |
| if (i >= sb->n_payload_words) break; |
| ch = &sb->payload_words[i]; |
| ch_bszW = get_bszW_lo(ch); |
| VG_(printf)( " block at %d, bszW %d: ", i, mk_plain_bszW(ch_bszW) ); |
| VG_(printf)( "%s, ", is_inuse_bszW(ch_bszW) ? "inuse" : "free" ); |
| VG_(printf)( "%s\n", blockSane(a,ch) ? "ok" : "BAD" ); |
| i += mk_plain_bszW(ch_bszW); |
| } |
| if (i > sb->n_payload_words) |
| VG_(printf)( " last block overshoots end of SB\n"); |
| sb = sb->next; |
| } |
| VG_(printf)( "end of superblocks\n\n" ); |
| } |
| |
| |
| /* Sanity check both the superblocks and the chains. */ |
| void VG_(mallocSanityCheckArena) ( ArenaId aid ) |
| { |
| Int i, superblockctr, b_bszW, b_pszW, blockctr_sb, blockctr_li; |
| Int blockctr_sb_free, listno, list_min_pszW, list_max_pszW; |
| Superblock* sb; |
| Bool thisFree, lastWasFree; |
| Word* b; |
| Word* b_prev; |
| UInt arena_bytes_on_loan; |
| Arena* a; |
| |
| # define BOMB VG_(panic)("vg_mallocSanityCheckArena") |
| |
| a = arenaId_to_ArenaP(aid); |
| |
| /* First, traverse all the superblocks, inspecting the chunks in |
| each. */ |
| superblockctr = blockctr_sb = blockctr_sb_free = 0; |
| arena_bytes_on_loan = 0; |
| sb = a->sblocks; |
| while (sb) { |
| lastWasFree = False; |
| superblockctr++; |
| i = 0; |
| while (True) { |
| if (i >= sb->n_payload_words) break; |
| blockctr_sb++; |
| b = &sb->payload_words[i]; |
| b_bszW = get_bszW_lo(b); |
| if (!blockSane(a, b)) { |
| VG_(printf)( "mallocSanityCheck: sb %p, block %d (bszW %d): " |
| "BAD\n", |
| sb, i, b_bszW ); |
| BOMB; |
| } |
| thisFree = !is_inuse_bszW(b_bszW); |
| if (thisFree && lastWasFree) { |
| VG_(printf)( "mallocSanityCheck: sb %p, block %d (bszW %d): " |
| "UNMERGED FREES\n", |
| sb, i, b_bszW ); |
| BOMB; |
| } |
| lastWasFree = thisFree; |
| if (thisFree) blockctr_sb_free++; |
| if (!thisFree) |
| arena_bytes_on_loan += sizeof(Word) * bszW_to_pszW(a, b_bszW); |
| i += mk_plain_bszW(b_bszW); |
| } |
| if (i > sb->n_payload_words) { |
| VG_(printf)( "mallocSanityCheck: sb %p: last block " |
| "overshoots end\n", sb); |
| BOMB; |
| } |
| sb = sb->next; |
| } |
| |
| if (arena_bytes_on_loan != a->bytes_on_loan) { |
| VG_(printf)( |
| "mallocSanityCheck: a->bytes_on_loan %d, " |
| "arena_bytes_on_loan %d: " |
| "MISMATCH\n", a->bytes_on_loan, arena_bytes_on_loan); |
| ppSuperblocks(a); |
| BOMB; |
| } |
| |
| /* Second, traverse each list, checking that the back pointers make |
| sense, counting blocks encountered, and checking that each block |
| is an appropriate size for this list. */ |
| blockctr_li = 0; |
| for (listno = 0; listno < VG_N_MALLOC_LISTS; listno++) { |
| list_min_pszW = listNo_to_pszW_min(listno); |
| list_max_pszW = listNo_to_pszW_max(listno); |
| b = a->freelist[listno]; |
| if (b == NULL) continue; |
| while (True) { |
| b_prev = b; |
| b = get_next_p(b); |
| if (get_prev_p(b) != b_prev) { |
| VG_(printf)( "mallocSanityCheck: list %d at %p: " |
| "BAD LINKAGE\n", |
| listno, b ); |
| BOMB; |
| } |
| b_pszW = bszW_to_pszW(a, mk_plain_bszW(get_bszW_lo(b))); |
| if (b_pszW < list_min_pszW || b_pszW > list_max_pszW) { |
| VG_(printf)( |
| "mallocSanityCheck: list %d at %p: " |
| "WRONG CHAIN SIZE %d (%d, %d)\n", |
| listno, b, b_pszW, list_min_pszW, list_max_pszW ); |
| BOMB; |
| } |
| blockctr_li++; |
| if (b == a->freelist[listno]) break; |
| } |
| } |
| |
| if (blockctr_sb_free != blockctr_li) { |
| VG_(printf)( |
| "mallocSanityCheck: BLOCK COUNT MISMATCH " |
| "(via sbs %d, via lists %d)\n", |
| blockctr_sb_free, blockctr_li ); |
| ppSuperblocks(a); |
| BOMB; |
| } |
| |
| VG_(message)(Vg_DebugMsg, |
| "mSC [%s]: %2d sbs, %5d tot bs, %4d/%-4d free bs, " |
| "%2d lists, %7d mmap, %7d loan", |
| a->name, |
| superblockctr, |
| blockctr_sb, blockctr_sb_free, blockctr_li, |
| VG_N_MALLOC_LISTS, |
| a->bytes_mmaped, a->bytes_on_loan); |
| # undef BOMB |
| } |
| |
| |
| void VG_(mallocSanityCheckAll) ( void ) |
| { |
| Int i; |
| for (i = 0; i < VG_N_ARENAS; i++) |
| VG_(mallocSanityCheckArena) ( i ); |
| } |
| |
| |
| /* Really, this isn't the right place for this. Nevertheless: find |
| out if an arena is empty -- currently has no bytes on loan. This |
| is useful for checking for memory leaks (of valgrind, not the |
| client.) |
| */ |
| Bool VG_(is_empty_arena) ( ArenaId aid ) |
| { |
| Arena* a; |
| Superblock* sb; |
| WordF* b; |
| Int b_bszW; |
| ensure_mm_init(); |
| a = arenaId_to_ArenaP(aid); |
| for (sb = a->sblocks; sb != NULL; sb = sb->next) { |
| /* If the superblock is empty, it should contain a single free |
| block, of the right size. */ |
| b = &(sb->payload_words[0]); |
| b_bszW = get_bszW_lo(b); |
| if (is_inuse_bszW(b_bszW)) return False; |
| if (mk_plain_bszW(b_bszW) != sb->n_payload_words) return False; |
| /* So this block is not in use and is of the right size. Keep |
| going. */ |
| } |
| return True; |
| } |
| |
| |
| /*------------------------------------------------------------*/ |
| /*--- Externally-visible functions. ---*/ |
| /*------------------------------------------------------------*/ |
| |
| void* VG_(malloc) ( ArenaId aid, Int req_pszB ) |
| { |
| Int req_pszW, req_bszW, frag_bszW, b_bszW, lno; |
| Superblock* new_sb; |
| Word* b; |
| Arena* a; |
| |
| VGP_PUSHCC(VgpMalloc); |
| |
| ensure_mm_init(); |
| a = arenaId_to_ArenaP(aid); |
| |
| vg_assert(req_pszB >= 0); |
| vg_assert(req_pszB < 0x7FFFFFF0); |
| |
| req_pszW = (req_pszB + VKI_BYTES_PER_WORD - 1) / VKI_BYTES_PER_WORD; |
| |
| /* Keep gcc -O happy: */ |
| b = NULL; |
| |
| /* Start searching at this list. */ |
| lno = pszW_to_listNo(req_pszW); |
| |
| /* This loop finds a list which has a block big enough, or sets |
| req_listno to N_LISTS if no such block exists. */ |
| while (True) { |
| if (lno == VG_N_MALLOC_LISTS) break; |
| /* If this list is empty, try the next one. */ |
| if (a->freelist[lno] == NULL) { |
| lno++; |
| continue; |
| } |
| /* Scan a->list[lno] to find a big-enough chunk. */ |
| b = a->freelist[lno]; |
| b_bszW = mk_plain_bszW(get_bszW_lo(b)); |
| while (True) { |
| if (bszW_to_pszW(a, b_bszW) >= req_pszW) break; |
| b = get_next_p(b); |
| b_bszW = mk_plain_bszW(get_bszW_lo(b)); |
| if (b == a->freelist[lno]) break; |
| } |
| if (bszW_to_pszW(a, b_bszW) >= req_pszW) break; |
| /* No luck? Try a larger list. */ |
| lno++; |
| } |
| |
| /* Either lno < VG_N_MALLOC_LISTS and b points to the selected |
| block, or lno == VG_N_MALLOC_LISTS, and we have to allocate a |
| new superblock. */ |
| |
| if (lno == VG_N_MALLOC_LISTS) { |
| req_bszW = pszW_to_bszW(a, req_pszW); |
| new_sb = newSuperblock(a, req_bszW); |
| vg_assert(new_sb != NULL); |
| new_sb->next = a->sblocks; |
| a->sblocks = new_sb; |
| b = &(new_sb->payload_words[0]); |
| lno = pszW_to_listNo(bszW_to_pszW(a, new_sb->n_payload_words)); |
| mkFreeBlock ( a, b, new_sb->n_payload_words, lno); |
| } |
| |
| /* Ok, we can allocate from b, which lives in list req_listno. */ |
| vg_assert(b != NULL); |
| vg_assert(lno >= 0 && lno < VG_N_MALLOC_LISTS); |
| vg_assert(a->freelist[lno] != NULL); |
| b_bszW = mk_plain_bszW(get_bszW_lo(b)); |
| req_bszW = pszW_to_bszW(a, req_pszW); |
| /* req_bszW is the size of the block we are after. b_bszW is the |
| size of what we've actually got. */ |
| vg_assert(b_bszW >= req_bszW); |
| |
| /* Could we split this block and still get a useful fragment? |
| Where "useful" means that the payload size of the frag is at |
| least one word. */ |
| frag_bszW = b_bszW - req_bszW; |
| if (frag_bszW > overhead_szW(a)) { |
| splitChunk(a, b, lno, req_bszW); |
| } else { |
| /* No, mark as in use and use as-is. */ |
| unlinkBlock(a, b, lno); |
| /* |
| set_bszW_lo(b, mk_inuse_bszW(b_bszW)); |
| set_bszW_hi(b, mk_inuse_bszW(b_bszW)); |
| */ |
| mkInuseBlock(a, b, b_bszW); |
| } |
| vg_assert(req_bszW <= mk_plain_bszW(get_bszW_lo(b))); |
| |
| a->bytes_on_loan |
| += sizeof(Word) |
| * bszW_to_pszW(a, mk_plain_bszW(get_bszW_lo(b))); |
| if (a->bytes_on_loan > a->bytes_on_loan_max) |
| a->bytes_on_loan_max = a->bytes_on_loan; |
| |
| # ifdef DEBUG_MALLOC |
| VG_(mallocSanityCheckArena)(aid); |
| # endif |
| |
| VGP_POPCC; |
| return first_to_payload(a, b); |
| } |
| |
| |
| void VG_(free) ( ArenaId aid, void* ptr ) |
| { |
| Superblock* sb; |
| UInt* sb_payl_firstw; |
| UInt* sb_payl_lastw; |
| UInt* other; |
| UInt* ch; |
| Int ch_bszW, ch_pszW, other_bszW, ch_listno; |
| Arena* a; |
| |
| VGP_PUSHCC(VgpMalloc); |
| |
| ensure_mm_init(); |
| a = arenaId_to_ArenaP(aid); |
| |
| if (ptr == NULL) return; |
| |
| ch = payload_to_first(a, ptr); |
| |
| # ifdef DEBUG_MALLOC |
| vg_assert(blockSane(a,ch)); |
| # endif |
| |
| a->bytes_on_loan |
| -= sizeof(Word) |
| * bszW_to_pszW(a, mk_plain_bszW(get_bszW_lo(ch))); |
| |
| sb = findSb( a, ch ); |
| sb_payl_firstw = &(sb->payload_words[0]); |
| sb_payl_lastw = &(sb->payload_words[sb->n_payload_words-1]); |
| |
| /* Put this chunk back on a list somewhere. */ |
| ch_bszW = get_bszW_lo(ch); |
| ch_pszW = bszW_to_pszW(a, ch_bszW); |
| ch_listno = pszW_to_listNo(ch_pszW); |
| mkFreeBlock( a, ch, ch_bszW, ch_listno ); |
| |
| /* See if this block can be merged with the following one. */ |
| other = ch + ch_bszW; |
| /* overhead_szW(a) is the smallest possible bszW for this arena. |
| So the nearest possible end to the block beginning at other is |
| other+overhead_szW(a)-1. Hence the test below. */ |
| if (other+overhead_szW(a)-1 <= sb_payl_lastw) { |
| other_bszW = get_bszW_lo(other); |
| if (!is_inuse_bszW(other_bszW)) { |
| /* VG_(printf)( "merge-successor\n"); */ |
| other_bszW = mk_plain_bszW(other_bszW); |
| # ifdef DEBUG_MALLOC |
| vg_assert(blockSane(a, other)); |
| # endif |
| unlinkBlock( a, ch, ch_listno ); |
| unlinkBlock( a, other, pszW_to_listNo(bszW_to_pszW(a,other_bszW)) ); |
| ch_bszW += other_bszW; |
| ch_listno = pszW_to_listNo(bszW_to_pszW(a, ch_bszW)); |
| mkFreeBlock( a, ch, ch_bszW, ch_listno ); |
| } |
| } |
| |
| /* See if this block can be merged with its predecessor. */ |
| if (ch-overhead_szW(a) >= sb_payl_firstw) { |
| other_bszW = get_bszW_hi_from_last_word( ch-1 ); |
| if (!is_inuse_bszW(other_bszW)) { |
| /* VG_(printf)( "merge-predecessor\n"); */ |
| other = last_to_first( ch-1 ); |
| other_bszW = mk_plain_bszW(other_bszW); |
| unlinkBlock( a, ch, ch_listno ); |
| unlinkBlock( a, other, pszW_to_listNo(bszW_to_pszW(a, other_bszW)) ); |
| ch = other; |
| ch_bszW += other_bszW; |
| ch_listno = pszW_to_listNo(bszW_to_pszW(a, ch_bszW)); |
| mkFreeBlock( a, ch, ch_bszW, ch_listno ); |
| } |
| } |
| |
| # ifdef DEBUG_MALLOC |
| VG_(mallocSanityCheckArena)(aid); |
| # endif |
| |
| VGP_POPCC; |
| } |
| |
| |
| /* |
| The idea for malloc_aligned() is to allocate a big block, base, and |
| then split it into two parts: frag, which is returned to the the |
| free pool, and align, which is the bit we're really after. Here's |
| a picture. L and H denote the block lower and upper overheads, in |
| words. The details are gruesome. Note it is slightly complicated |
| because the initial request to generate base may return a bigger |
| block than we asked for, so it is important to distinguish the base |
| request size and the base actual size. |
| |
| frag_b align_b |
| | | |
| | frag_p | align_p |
| | | | | |
| v v v v |
| |
| +---+ +---+---+ +---+ |
| | L |----------------| H | L |---------------| H | |
| +---+ +---+---+ +---+ |
| |
| ^ ^ ^ |
| | | : |
| | base_p this addr must be aligned |
| | |
| base_b |
| |
| . . . . . . . |
| <------ frag_bszW -------> . . . |
| . <------------- base_pszW_act -----------> . |
| . . . . . . . |
| |
| */ |
| void* VG_(malloc_aligned) ( ArenaId aid, Int req_alignB, Int req_pszB ) |
| { |
| Int req_alignW, req_pszW, base_pszW_req, base_pszW_act, frag_bszW; |
| Word *base_b, *base_p, *align_p; |
| UInt saved_bytes_on_loan; |
| Arena* a; |
| |
| ensure_mm_init(); |
| a = arenaId_to_ArenaP(aid); |
| |
| vg_assert(req_pszB >= 0); |
| vg_assert(req_pszB < 0x7FFFFFF0); |
| |
| /* Check that the requested alignment seems reasonable; that is, is |
| a power of 2. */ |
| switch (req_alignB) { |
| case 4: |
| case 8: case 16: case 32: case 64: case 128: case 256: |
| case 512: case 1024: case 2048: case 4096: case 8192: |
| case 16384: case 32768: case 65536: case 131072: |
| case 262144: |
| case 1048576: |
| /* can't be bothered to calculate larger ones */ |
| break; |
| default: |
| VG_(printf)("vg_malloc_aligned(%p, %d, %d)\nbad alignment request", |
| a, req_pszB, req_alignB ); |
| VG_(panic)("vg_malloc_aligned"); |
| /*NOTREACHED*/ |
| } |
| |
| /* Required alignment, in words. Since it's constrained to be a |
| power of 2 >= word size, no need to align the alignment. Still, |
| we check. */ |
| req_alignW = req_alignB / VKI_BYTES_PER_WORD; |
| vg_assert(req_alignB == req_alignW * VKI_BYTES_PER_WORD); |
| |
| /* Required payload size for the aligned chunk. */ |
| req_pszW = (req_pszB + VKI_BYTES_PER_WORD - 1) / VKI_BYTES_PER_WORD; |
| |
| /* Payload size to request for the big block that we will split |
| up. */ |
| base_pszW_req = req_pszW + overhead_szW(a) + req_alignW; |
| |
| /* Payload ptr for the block we are going to split. Note this |
| changes a->bytes_on_loan; we save and restore it ourselves. */ |
| saved_bytes_on_loan = a->bytes_on_loan; |
| base_p = VG_(malloc) ( aid, base_pszW_req * VKI_BYTES_PER_WORD ); |
| a->bytes_on_loan = saved_bytes_on_loan; |
| |
| /* Block ptr for the block we are going to split. */ |
| base_b = payload_to_first ( a, base_p ); |
| |
| /* Pointer to the payload of the aligned block we are going to |
| return. This has to be suitably aligned. */ |
| align_p = align_upwards ( base_b + 2 * overhead_szW_lo(a) |
| + overhead_szW_hi(a), |
| req_alignB ); |
| |
| /* The block size of the fragment we will create. This must be big |
| enough to actually create a fragment. */ |
| frag_bszW = align_p - overhead_szW_lo(a) - base_b; |
| vg_assert(frag_bszW >= overhead_szW(a)); |
| |
| /* The actual payload size of the block we are going to split. */ |
| base_pszW_act = bszW_to_pszW(a, mk_plain_bszW(get_bszW_lo(base_b))); |
| |
| /* Create the fragment block, and put it back on the relevant free |
| list. */ |
| mkFreeBlock ( a, base_b, frag_bszW, |
| pszW_to_listNo(bszW_to_pszW(a, frag_bszW)) ); |
| |
| /* Create the aligned block. */ |
| mkInuseBlock ( a, |
| align_p - overhead_szW_lo(a), |
| base_p + base_pszW_act |
| + overhead_szW_hi(a) |
| - (align_p - overhead_szW_lo(a)) ); |
| |
| /* Final sanity checks. */ |
| vg_assert(( (UInt)align_p % req_alignB) == 0); |
| |
| vg_assert(is_inuse_bszW(get_bszW_lo(payload_to_first(a, align_p)))); |
| |
| vg_assert(req_pszW |
| <= |
| bszW_to_pszW(a, mk_plain_bszW(get_bszW_lo( |
| payload_to_first(a, align_p)))) |
| ); |
| |
| a->bytes_on_loan |
| += sizeof(Word) |
| * bszW_to_pszW(a, mk_plain_bszW(get_bszW_lo( |
| payload_to_first(a, align_p)))); |
| if (a->bytes_on_loan > a->bytes_on_loan_max) |
| a->bytes_on_loan_max = a->bytes_on_loan; |
| |
| # ifdef DEBUG_MALLOC |
| VG_(mallocSanityCheckArena)(aid); |
| # endif |
| |
| return align_p; |
| } |
| |
| |
| /*------------------------------------------------------------*/ |
| /*--- Services layered on top of malloc/free. ---*/ |
| /*------------------------------------------------------------*/ |
| |
| void* VG_(calloc) ( ArenaId aid, Int nmemb, Int nbytes ) |
| { |
| Int i, size; |
| UChar* p; |
| size = nmemb * nbytes; |
| vg_assert(size >= 0); |
| p = VG_(malloc) ( aid, size ); |
| for (i = 0; i < size; i++) p[i] = 0; |
| return p; |
| } |
| |
| |
| void* VG_(realloc) ( ArenaId aid, void* ptr, Int req_pszB ) |
| { |
| Arena* a; |
| Int old_bszW, old_pszW, old_pszB, i; |
| UChar *p_old, *p_new; |
| UInt* ch; |
| |
| ensure_mm_init(); |
| a = arenaId_to_ArenaP(aid); |
| |
| vg_assert(req_pszB >= 0); |
| vg_assert(req_pszB < 0x7FFFFFF0); |
| |
| ch = payload_to_first(a, ptr); |
| vg_assert(blockSane(a, ch)); |
| |
| old_bszW = get_bszW_lo(ch); |
| vg_assert(is_inuse_bszW(old_bszW)); |
| old_bszW = mk_plain_bszW(old_bszW); |
| old_pszW = bszW_to_pszW(a, old_bszW); |
| old_pszB = old_pszW * VKI_BYTES_PER_WORD; |
| |
| if (req_pszB <= old_pszB) return ptr; |
| |
| p_new = VG_(malloc) ( aid, req_pszB ); |
| p_old = (UChar*)ptr; |
| for (i = 0; i < old_pszB; i++) |
| p_new[i] = p_old[i]; |
| |
| VG_(free)(aid, p_old); |
| return p_new; |
| } |
| |
| |
| /*------------------------------------------------------------*/ |
| /*--- The original test driver machinery. ---*/ |
| /*------------------------------------------------------------*/ |
| |
| #if 0 |
| |
| #if 1 |
| #define N_TEST_TRANSACTIONS 100000000 |
| #define N_TEST_ARR 200000 |
| #define M_TEST_MALLOC 1000 |
| #else |
| #define N_TEST_TRANSACTIONS 500000 |
| #define N_TEST_ARR 30000 |
| #define M_TEST_MALLOC 500 |
| #endif |
| |
| |
| void* test_arr[N_TEST_ARR]; |
| |
| int main ( int argc, char** argv ) |
| { |
| Int i, j, k, nbytes, qq; |
| unsigned char* chp; |
| Arena* a = &arena[VG_AR_PRIVATE]; |
| srandom(1); |
| for (i = 0; i < N_TEST_ARR; i++) |
| test_arr[i] = NULL; |
| |
| for (i = 0; i < N_TEST_TRANSACTIONS; i++) { |
| if (i % 50000 == 0) mallocSanityCheck(a); |
| j = random() % N_TEST_ARR; |
| if (test_arr[j]) { |
| vg_free(a, test_arr[j]); |
| test_arr[j] = NULL; |
| } else { |
| nbytes = 1 + random() % M_TEST_MALLOC; |
| qq = random()%64; |
| if (qq == 32) |
| nbytes *= 17; |
| else if (qq == 33) |
| nbytes = 0; |
| test_arr[j] |
| = (i % 17) == 0 |
| ? vg_memalign(a, nbytes, 1<< (3+(random()%10))) |
| : vg_malloc( a, nbytes ); |
| chp = test_arr[j]; |
| for (k = 0; k < nbytes; k++) |
| chp[k] = (unsigned char)(k + 99); |
| } |
| } |
| |
| |
| for (i = 0; i < N_TEST_ARR; i++) { |
| if (test_arr[i]) { |
| vg_free(a, test_arr[i]); |
| test_arr[i] = NULL; |
| } |
| } |
| mallocSanityCheck(a); |
| |
| fprintf(stderr, "ALL DONE\n"); |
| |
| show_arena_stats(a); |
| fprintf(stderr, "%d max useful, %d bytes mmap'd (%4.1f%%), %d useful\n", |
| a->bytes_on_loan_max, |
| a->bytes_mmaped, |
| 100.0 * (double)a->bytes_on_loan_max / (double)a->bytes_mmaped, |
| a->bytes_on_loan ); |
| |
| return 0; |
| } |
| #endif /* 0 */ |
| |
| |
| /*--------------------------------------------------------------------*/ |
| /*--- end vg_malloc2.c ---*/ |
| /*--------------------------------------------------------------------*/ |