// SONIC ROBO BLAST 2 //----------------------------------------------------------------------------- // Copyright (C) 2006 by Graue. // Copyright (C) 2006-2016 by Sonic Team Junior. // // This program is free software distributed under the // terms of the GNU General Public License, version 2. // See the 'LICENSE' file for more details. //----------------------------------------------------------------------------- /// \file z_zone.c /// \brief Zone memory allocation. /// This file does zone memory allocation. Each allocation is done with a /// tag, and this file keeps track of all the allocations made. Later, you /// can purge everything with a given tag. /// /// Some tags (PU_CACHE, for example) may be automatically purged whenever /// the space is needed, so memory allocated with these tags is no longer /// guaranteed to be valid after another call to Z_Malloc(). /// /// The original implementation allocated a large block (48 MB, as of the /// last version of SRB2 that did this) upfront, and Z_Malloc() carved /// pieces out of that. Unfortunately, this had the effect of masking a /// lot of read/write past end of buffer type bugs which we have since /// caught with this direct-malloc version. We also suspected that SRB2's /// allocator was fragmenting badly. Finally, this version is a bit /// simpler (about half the lines of code). #include "doomdef.h" #include "doomstat.h" #include "i_system.h" // I_GetFreeMem #include "i_video.h" // rendermode #include "z_zone.h" #include "m_misc.h" // M_Memcpy #include "lua_script.h" #ifdef HWRENDER #include "hardware/hw_main.h" // For hardware memory info #endif #ifdef HAVE_VALGRIND #include "valgrind.h" static boolean Z_calloc = false; #include "memcheck.h" #endif #define ZONEID 0xa441d13d #ifdef ZDEBUG //#define ZDEBUG2 #endif struct memblock_s; typedef struct { struct memblock_s *block; // Describing this memory UINT32 id; // Should be ZONEID } ATTRPACK memhdr_t; // Some code might want aligned memory. Assume it wants memory n bytes // aligned -- then we allocate n-1 extra bytes and return a pointer to // the first byte aligned as requested. // Thus, "real" is the pointer we get from malloc() and will free() // later, but "hdr" is where the memhdr_t starts. // For non-aligned allocations they will be the same. typedef struct memblock_s { void *real; memhdr_t *hdr; void **user; INT32 tag; // purgelevel size_t size; // including the header and blocks size_t realsize; // size of real data only #ifdef ZDEBUG const char *ownerfile; INT32 ownerline; #endif struct memblock_s *next, *prev; } ATTRPACK memblock_t; #ifdef ZDEBUG #define Ptr2Memblock(s, f) Ptr2Memblock2(s, f, __FILE__, __LINE__) static memblock_t *Ptr2Memblock2(void *ptr, const char* func, const char *file, INT32 line) #else static memblock_t *Ptr2Memblock(void *ptr, const char* func) #endif { memhdr_t *hdr; memblock_t *block; if (ptr == NULL) return NULL; #ifdef ZDEBUG2 CONS_Printf("%s %s:%d\n", func, file, line); #endif hdr = (memhdr_t *)((UINT8 *)ptr - sizeof *hdr); #ifdef VALGRIND_MAKE_MEM_DEFINED VALGRIND_MAKE_MEM_DEFINED(hdr, sizeof *hdr); #endif #ifdef VALGRIND_MEMPOOL_EXISTS if (!VALGRIND_MEMPOOL_EXISTS(hdr->block)) { #ifdef ZDEBUG I_Error("%s: bad memblock from %s:%d", func, file, line); #else I_Error("%s: bad memblock", func); #endif } #endif if (hdr->id != ZONEID) { #ifdef ZDEBUG I_Error("%s: wrong id from %s:%d", func, file, line); #else I_Error("%s: wrong id", func); #endif } block = hdr->block; #ifdef VALGRIND_MAKE_MEM_NOACCESS VALGRIND_MAKE_MEM_NOACCESS(hdr, sizeof *hdr); #endif return block; } static memblock_t head; static void Command_Memfree_f(void); #ifdef ZDEBUG static void Command_Memdump_f(void); #endif void Z_Init(void) { UINT32 total, memfree; memset(&head, 0x00, sizeof(head)); head.next = head.prev = &head; memfree = I_GetFreeMem(&total)>>20; CONS_Printf("System memory: %uMB - Free: %uMB\n", total>>20, memfree); // Note: This allocates memory. Watch out. COM_AddCommand("memfree", Command_Memfree_f); #ifdef ZDEBUG COM_AddCommand("memdump", Command_Memdump_f); #endif } #ifdef ZDEBUG void Z_Free2(void *ptr, const char *file, INT32 line) #else void Z_Free(void *ptr) #endif { memblock_t *block; if (ptr == NULL) return; #ifdef ZDEBUG2 CONS_Debug(DBG_MEMORY, "Z_Free %s:%d\n", file, line); #endif #ifdef ZDEBUG block = Ptr2Memblock2(ptr, "Z_Free", file, line); #else block = Ptr2Memblock(ptr, "Z_Free"); #endif #ifdef ZDEBUG // Write every Z_Free call to a debug file. CONS_Debug(DBG_MEMORY, "Z_Free at %s:%d\n", file, line); #endif #ifdef HAVE_BLUA // anything that isn't by lua gets passed to lua just in case. if (block->tag != PU_LUA) LUA_InvalidateUserdata(ptr); #endif // TODO: if zdebugging, make sure no other block has a user // that is about to be freed. // Clear the user's mark. if (block->user != NULL) *block->user = NULL; // Free the memory and get rid of the block. free(block->real); block->prev->next = block->next; block->next->prev = block->prev; free(block); #ifdef VALGRIND_DESTROY_MEMPOOL VALGRIND_DESTROY_MEMPOOL(block); #endif } // malloc() that doesn't accept failure. static void *xm(size_t size) { const size_t padedsize = size+sizeof (size_t); void *p = malloc(padedsize); if (p == NULL) { // Oh crumbs: we're out of heap. Try purging the cache and reallocating. Z_FreeTags(PU_PURGELEVEL, INT32_MAX); p = malloc(padedsize); if (p == NULL) { I_Error("Out of memory allocating %s bytes", sizeu1(size)); } } return p; } // Z_Malloc // You can pass Z_Malloc() a NULL user if the tag is less than // PU_PURGELEVEL. #ifdef ZDEBUG void *Z_Malloc2(size_t size, INT32 tag, void *user, INT32 alignbits, const char *file, INT32 line) #else void *Z_MallocAlign(size_t size, INT32 tag, void *user, INT32 alignbits) #endif { size_t extrabytes = (1<next = head.next; block->prev = &head; head.next = block; block->next->prev = block; block->real = ptr; block->hdr = hdr; block->tag = tag; block->user = NULL; #ifdef ZDEBUG block->ownerline = line; block->ownerfile = file; #endif block->size = blocksize; block->realsize = size; hdr->id = ZONEID; hdr->block = block; #ifdef VALGRIND_MAKE_MEM_NOACCESS VALGRIND_MAKE_MEM_NOACCESS(hdr, sizeof *hdr); #endif if (user != NULL) { block->user = user; *(void **)user = given; } else if (tag >= PU_PURGELEVEL) I_Error("Z_Malloc: attempted to allocate purgable block " "(size %s) with no user", sizeu1(size)); return given; } #ifdef ZDEBUG void *Z_Calloc2(size_t size, INT32 tag, void *user, INT32 alignbits, const char *file, INT32 line) #else void *Z_CallocAlign(size_t size, INT32 tag, void *user, INT32 alignbits) #endif { #ifdef VALGRIND_MEMPOOL_ALLOC Z_calloc = true; #endif #ifdef ZDEBUG return memset(Z_Malloc2 (size, tag, user, alignbits, file, line), 0, size); #else return memset(Z_MallocAlign(size, tag, user, alignbits ), 0, size); #endif } #ifdef ZDEBUG void *Z_Realloc2(void *ptr, size_t size, INT32 tag, void *user, INT32 alignbits, const char *file, INT32 line) #else void *Z_ReallocAlign(void *ptr, size_t size,INT32 tag, void *user, INT32 alignbits) #endif { void *rez; memblock_t *block; size_t copysize; #ifdef ZDEBUG2 CONS_Debug(DBG_MEMORY, "Z_Realloc %s:%d\n", file, line); #endif if (!size) { Z_Free(ptr); return NULL; } if (!ptr) { #ifdef ZDEBUG return Z_Calloc2(size, tag, user, alignbits, file , line); #else return Z_CallocAlign(size, tag, user, alignbits); #endif } #ifdef ZDEBUG block = Ptr2Memblock2(ptr, "Z_Realloc", file, line); #else block = Ptr2Memblock(ptr, "Z_Realloc"); #endif if (block == NULL) return NULL; #ifdef ZDEBUG // Write every Z_Realloc call to a debug file. DEBFILE(va("Z_Realloc at %s:%d\n", file, line)); rez = Z_Malloc2(size, tag, user, alignbits, file, line); #else rez = Z_MallocAlign(size, tag, user, alignbits); #endif if (size < block->realsize) copysize = size; else copysize = block->realsize; M_Memcpy(rez, ptr, copysize); #ifdef ZDEBUG Z_Free2(ptr, file, line); #else Z_Free(ptr); #endif // Need to set the user in case the old block had the same one, in // which case the Z_Free will just have NULLed it out. if (user) *((void**)user) = rez; if (size > copysize) memset((char*)rez+copysize, 0x00, size-copysize); return rez; } void Z_FreeTags(INT32 lowtag, INT32 hightag) { memblock_t *block, *next; Z_CheckHeap(420); for (block = head.next; block != &head; block = next) { next = block->next; // get link before freeing if (block->tag >= lowtag && block->tag <= hightag) Z_Free((UINT8 *)block->hdr + sizeof *block->hdr); } } void Z_FreeTag(INT32 tagnum) { Z_FreeTags(tagnum, tagnum); } // // Z_CheckMemCleanup // // TODO: Currently blocks >= PU_PURGELEVEL are freed every // CLEANUPCOUNT. It might be better to keep track of // the total size of all purgable memory and free it when the // size exceeds some value. // // This was in Z_Malloc, but was freeing data at // unsafe times. Now it is only called when it is safe // to cleanup memory. #define CLEANUPCOUNT 2000 static INT32 nextcleanup = CLEANUPCOUNT; void Z_CheckMemCleanup(void) { if (nextcleanup-- == 0) { nextcleanup = CLEANUPCOUNT; Z_FreeTags(PU_PURGELEVEL, INT32_MAX); } } /** Checks the heap, as well as the memhdr_ts, for any corruption or * other problems. * \param i Identifies from where in the code Z_CheckHeap was called. * \author Graue */ void Z_CheckHeap(INT32 i) { memblock_t *block; memhdr_t *hdr; UINT32 blocknumon = 0; void *given; for (block = head.next; block != &head; block = block->next) { blocknumon++; hdr = block->hdr; given = (UINT8 *)hdr + sizeof *hdr; #ifdef ZDEBUG2 CONS_Debug(DBG_MEMORY, "block %u owned by %s:%d\n", blocknumon, block->ownerfile, block->ownerline); #endif #ifdef VALGRIND_MEMPOOL_EXISTS if (!VALGRIND_MEMPOOL_EXISTS(block)) { I_Error("Z_CheckHeap %d: block %u" #ifdef ZDEBUG "(owned by %s:%d)" #endif " should not exist", i, blocknumon #ifdef ZDEBUG , block->ownerfile, block->ownerline #endif ); } #endif if (block->user != NULL && *(block->user) != given) { I_Error("Z_CheckHeap %d: block %u" #ifdef ZDEBUG "(owned by %s:%d)" #endif " doesn't have a proper user", i, blocknumon #ifdef ZDEBUG , block->ownerfile, block->ownerline #endif ); } if (block->next->prev != block) { I_Error("Z_CheckHeap %d: block %u" #ifdef ZDEBUG "(owned by %s:%d)" #endif " lacks proper backlink", i, blocknumon #ifdef ZDEBUG , block->ownerfile, block->ownerline #endif ); } if (block->prev->next != block) { I_Error("Z_CheckHeap %d: block %u" #ifdef ZDEBUG "(owned by %s:%d)" #endif " lacks proper forward link", i, blocknumon #ifdef ZDEBUG , block->ownerfile, block->ownerline #endif ); } #ifdef VALGRIND_MAKE_MEM_DEFINED VALGRIND_MAKE_MEM_DEFINED(hdr, sizeof *hdr); #endif if (hdr->block != block) { I_Error("Z_CheckHeap %d: block %u" #ifdef ZDEBUG "(owned by %s:%d)" #endif " doesn't have linkback from allocated memory", i, blocknumon #ifdef ZDEBUG , block->ownerfile, block->ownerline #endif ); } if (hdr->id != ZONEID) { I_Error("Z_CheckHeap %d: block %u" #ifdef ZDEBUG "(owned by %s:%d)" #endif " have the wrong ID", i, blocknumon #ifdef ZDEBUG , block->ownerfile, block->ownerline #endif ); } #ifdef VALGRIND_MAKE_MEM_NOACCESS VALGRIND_MAKE_MEM_NOACCESS(hdr, sizeof *hdr); #endif } } #ifdef PARANOIA void Z_ChangeTag2(void *ptr, INT32 tag, const char *file, INT32 line) #else void Z_ChangeTag(void *ptr, INT32 tag) #endif { memblock_t *block; memhdr_t *hdr; if (ptr == NULL) return; hdr = (memhdr_t *)((UINT8 *)ptr - sizeof *hdr); #ifdef VALGRIND_MAKE_MEM_DEFINED VALGRIND_MAKE_MEM_DEFINED(hdr, sizeof *hdr); #endif #ifdef VALGRIND_MEMPOOL_EXISTS if (!VALGRIND_MEMPOOL_EXISTS(hdr->block)) { #ifdef PARANOIA I_Error("Z_CT at %s:%d: bad memblock", file, line); #else I_Error("Z_CT: bad memblock"); #endif } #endif #ifdef PARANOIA if (hdr->id != ZONEID) I_Error("Z_CT at %s:%d: wrong id", file, line); #endif block = hdr->block; #ifdef VALGRIND_MAKE_MEM_NOACCESS VALGRIND_MAKE_MEM_NOACCESS(hdr, sizeof *hdr); #endif if (tag >= PU_PURGELEVEL && block->user == NULL) I_Error("Internal memory management error: " "tried to make block purgable but it has no owner"); block->tag = tag; } /** Calculates memory usage for a given set of tags. * \param lowtag The lowest tag to consider. * \param hightag The highest tag to consider. * \return Number of bytes currently allocated in the heap for the * given tags. * \sa Z_TagUsage */ size_t Z_TagsUsage(INT32 lowtag, INT32 hightag) { size_t cnt = 0; memblock_t *rover; for (rover = head.next; rover != &head; rover = rover->next) { if (rover->tag < lowtag || rover->tag > hightag) continue; cnt += rover->size + sizeof *rover; } return cnt; } size_t Z_TagUsage(INT32 tagnum) { return Z_TagsUsage(tagnum, tagnum); } void Command_Memfree_f(void) { UINT32 freebytes, totalbytes; Z_CheckHeap(-1); CONS_Printf("\x82%s", M_GetText("Memory Info\n")); CONS_Printf(M_GetText("Total heap used : %7s KB\n"), sizeu1(Z_TagsUsage(0, INT32_MAX)>>10)); CONS_Printf(M_GetText("Static : %7s KB\n"), sizeu1(Z_TagUsage(PU_STATIC)>>10)); CONS_Printf(M_GetText("Static (sound) : %7s KB\n"), sizeu1(Z_TagUsage(PU_SOUND)>>10)); CONS_Printf(M_GetText("Static (music) : %7s KB\n"), sizeu1(Z_TagUsage(PU_MUSIC)>>10)); CONS_Printf(M_GetText("Locked cache : %7s KB\n"), sizeu1(Z_TagUsage(PU_CACHE)>>10)); CONS_Printf(M_GetText("Level : %7s KB\n"), sizeu1(Z_TagUsage(PU_LEVEL)>>10)); CONS_Printf(M_GetText("Special thinker : %7s KB\n"), sizeu1(Z_TagUsage(PU_LEVSPEC)>>10)); CONS_Printf(M_GetText("All purgable : %7s KB\n"), sizeu1(Z_TagsUsage(PU_PURGELEVEL, INT32_MAX)>>10)); #ifdef HWRENDER if (rendermode != render_soft && rendermode != render_none) { CONS_Printf(M_GetText("Patch info headers: %7s KB\n"), sizeu1(Z_TagUsage(PU_HWRPATCHINFO)>>10)); CONS_Printf(M_GetText("Mipmap patches : %7s KB\n"), sizeu1(Z_TagUsage(PU_HWRPATCHCOLMIPMAP)>>10)); CONS_Printf(M_GetText("HW Texture cache : %7s KB\n"), sizeu1(Z_TagUsage(PU_HWRCACHE)>>10)); CONS_Printf(M_GetText("Plane polygons : %7s KB\n"), sizeu1(Z_TagUsage(PU_HWRPLANE)>>10)); CONS_Printf(M_GetText("HW Texture used : %7d KB\n"), HWR_GetTextureUsed()>>10); } #endif CONS_Printf("\x82%s", M_GetText("System Memory Info\n")); freebytes = I_GetFreeMem(&totalbytes); CONS_Printf(M_GetText(" Total physical memory: %7u KB\n"), totalbytes>>10); CONS_Printf(M_GetText("Available physical memory: %7u KB\n"), freebytes>>10); } #ifdef ZDEBUG static void Command_Memdump_f(void) { memblock_t *block; INT32 mintag = 0, maxtag = INT32_MAX; INT32 i; if ((i = COM_CheckParm("-min"))) mintag = atoi(COM_Argv(i + 1)); if ((i = COM_CheckParm("-max"))) maxtag = atoi(COM_Argv(i + 1)); for (block = head.next; block != &head; block = block->next) if (block->tag >= mintag && block->tag <= maxtag) { char *filename = strrchr(block->ownerfile, PATHSEP[0]); CONS_Printf("[%3d] %s (%s) bytes @ %s:%d\n", block->tag, sizeu1(block->size), sizeu2(block->realsize), filename ? filename + 1 : block->ownerfile, block->ownerline); } } #endif // Creates a copy of a string. char *Z_StrDup(const char *s) { return strcpy(ZZ_Alloc(strlen(s) + 1), s); } #ifdef PARANOIA void Z_SetUser2(void *ptr, void **newuser, const char *file, INT32 line) #else void Z_SetUser(void *ptr, void **newuser) #endif { memblock_t *block; memhdr_t *hdr; if (ptr == NULL) return; hdr = (memhdr_t *)((UINT8 *)ptr - sizeof *hdr); #ifdef VALGRIND_MAKE_MEM_DEFINED VALGRIND_MAKE_MEM_DEFINED(hdr, sizeof *hdr); #endif #ifdef PARANOIA if (hdr->id != ZONEID) I_Error("Z_CT at %s:%d: wrong id", file, line); #endif block = hdr->block; #ifdef VALGRIND_MAKE_MEM_NOACCESS VALGRIND_MAKE_MEM_NOACCESS(hdr, sizeof *hdr); #endif if (block->tag >= PU_PURGELEVEL && newuser == NULL) I_Error("Internal memory management error: " "tried to make block purgable but it has no owner"); block->user = (void*)newuser; *newuser = ptr; }