mirror of https://github.com/PCSX2/pcsx2.git
530 lines
14 KiB
C
530 lines
14 KiB
C
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//[module] SYSMEM
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//[processor] IOP
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//[type] ELF-IRX
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//[name] System_Memory_Manager
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//[version] 0x101
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//[memory map] 0x00001500(0x000015C3) in RAM
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//[handlers] see fileio/80000003
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//[entry point] sysmem_start, sysmem_stub(it is handeled specialy by loadcore)
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//[made by] [RO]man (roman_ps2dev@hotmail.com) september 2002
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#define min(a, b) ((a)<(b)?(a):(b))
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#define max(a, b) ((a)>(b)?(a):(b))
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#include <tamtypes.h>
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#include "ksysmem.h"
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#include "kloadcore.h"
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#include "iopdebug.h"
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#define EIGHTMEGSm256 (8*1024*1024-256) //0x007FFF00
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#define ALIGN256 0xFFFFFF00
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#define mALLOCATED(info) (info & 1)
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#define mADDRESS(info) ((info >> 1) & 0x7FFF)
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#define mSIZE(info) (info >> 17)
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//[000000000000000 0 000000000000000 1]
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//[ size of block |?|address of block|a]located
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//upper 15bits are the size of block in 256bytes units [8MB addressability]
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//unknown 1 bit
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//15bits for address of block in 256bytes units [8MB addressability; 15+8 bits]
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//the lower bit means that block is allocated or not (1/0)
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struct allocELEM{ //sizeof()=8
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struct allocELEM *next;
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/* unsigned int size :15,
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unknown :1, // info could be declared this way
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addr :15,
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allocated:1; */
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unsigned int info; // here is stored data about
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// an allocable memory chunk
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};
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#define smFIRST 0
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#define smFIRSTF 2 //first one that can be freed
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#define smCHECK 27
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#define smLAST 30
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#define smMAX (smLAST+1) //max number of elements = 31
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struct allocTABLE{ //sizeof()=256=0x100
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struct allocTABLE *next; //+00
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struct allocELEM list[31]; //+04 8 * 31 = 248 = 0xF8;
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int dummy;
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};
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char* (*_Kprintf)(unsigned int, ...);
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unsigned int unk;
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///////////////////////////////////////////////////////////////////////
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unsigned int memsize;
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void *_start(u32 iopmemsize);
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void *sysmem_init_memory();
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void sysmem_retonly();
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unsigned int *sysmem_return_addr_of_memsize();
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//////////////////////////////entrypoint///////////////////////////////
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struct export sysmem_stub __attribute__((section(".text"))) = {
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0x41C00000,
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0,
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VER(1, 1), // 1.1 => 0x101
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0,
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"sysmem",
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(func)_start, // entrypoint
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(func)sysmem_init_memory,
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(func)sysmem_retonly,
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(func)sysmem_return_addr_of_memsize,
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(func)AllocSysMemory,
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(func)FreeSysMemory,
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(func)QueryMemSize,
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(func)QueryMaxFreeMemSize,
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(func)QueryTotalFreeMemSize,
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(func)QueryBlockTopAddress,
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(func)QueryBlockSize,
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(func)sysmem_retonly,
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(func)sysmem_retonly,
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(func)sysmem_retonly,
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(func)Kprintf,
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(func)sysmem_call15_set_Kprintf,
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0
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};
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struct allocTABLE *alloclist;
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char _alloclist[0x200]; // temp buffer
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//struct allocTABLE _alloclist; // has to be last!, also temp!
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void Kputc(u8 c) {
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*((u8*)0x1f80380c) = c;
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}
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void Kputs(u8 *s) {
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while (*s != 0) {
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Kputc(*s++);
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}
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}
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void Kprintnum(unsigned int n)
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{
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char chars[16] = "0123456789abcdef";
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int i = 0;
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while(i < 8) {
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Kputc(chars[n>>28]);
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n <<= 4;
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++i;
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}
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}
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///////////////////////////////////////////////////////////////////////[OK]
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void sysmem_retonly(){}
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//////////////////////////////entrypoint///////////////////////////////[OK]
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void *_start(u32 iopmemsize)
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{
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iopmemsize=min(EIGHTMEGSm256, iopmemsize);
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alloclist = (struct allocTABLE*)(((u32)&_alloclist + 255) & 0xFFFFFF00); // round up
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memsize = iopmemsize & 0xFFFFFF00;
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//__printf("sysmem_start: %x, %x\n", memsize, ((u32)alloclist+sizeof(struct allocTABLE)));
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//Kprintnum((int)alloclist); Kputs(" alloclist\n");
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//Kprintnum((int)&alloclist); Kputs(" &alloclist\n");
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if (memsize >= ((u32)alloclist+sizeof(struct allocTABLE))) //alloctable must fit memory
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return sysmem_init_memory();
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alloclist = NULL;
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return NULL;
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}
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///////////////////////////////////////////////////////////////////////
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extern void* _end;
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void *sysmem_init_memory(){ //mark all mem as not allocated, available
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unsigned int i;
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struct allocELEM *p;
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//__printf("system_init_memory\n");
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if (alloclist == NULL) return NULL;
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alloclist->next=NULL;
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for (i=smFIRST; i<smMAX; i++){
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alloclist->list[i].next=&alloclist->list[i+1];
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alloclist->list[i].info=0;
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}
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alloclist->list[smLAST].next=NULL;
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alloclist->list[smFIRST].info &= 0x0001FFFF;
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alloclist->list[smFIRST].info |= (((memsize<0 ?
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memsize+255:memsize) >> 8) << 17);
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// _end ~= alloclist + sizeof(struct alocTABLE);
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//this is not NULL! but the starting address of the first 0x1500 bytes allocated
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if ( AllocSysMemory(ALLOC_FIRST, (int)alloclist, NULL)==0) {
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if (alloclist==AllocSysMemory(ALLOC_FIRST, sizeof(struct allocTABLE)-4, NULL)){ //alloc allocated allocation table;-)
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for (p=alloclist->list; p; p=p->next) {
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if (!mALLOCATED(p->info)) {
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return (void*)((mADDRESS(p->info))<<8);//next free block address
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}
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}
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return NULL;
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}
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}
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alloclist=NULL;
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return NULL;
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}
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///////////////////////////////////////////////////////////////////////[OK]
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unsigned int QueryMemSize(){
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if (alloclist)
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return memsize;//2*1024*1024-256=0x001FFF00
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return 0;
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}
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///////////////////////////////////////////////////////////////////////[OK]
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unsigned int QueryMaxFreeMemSize(){
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unsigned int maxfree=0;
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struct allocELEM *p;
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if (alloclist)
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for (p=alloclist->list; p; p=p->next)
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if (!mALLOCATED(p->info))
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maxfree = max(maxfree, mSIZE(p->info));
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return maxfree<<8; // => 256bytes allocation units
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}
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///////////////////////////////////////////////////////////////////////[OK]
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unsigned int QueryTotalFreeMemSize(){
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unsigned int freesize=0;
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struct allocELEM *p;
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if (alloclist)
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for (p=alloclist->list; p; p=p->next)
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if (!mALLOCATED(p->info))
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freesize+=mSIZE(p->info);
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return freesize<<8; // => 256bytes allocation units
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}
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void *alloc(int flags, int size, void *mem);
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void maintain();
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///////////////////////////////////////////////////////////////////////[OK]
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void *AllocSysMemory(int flags, int size, void *mem){
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if (alloclist && (flags<3)){
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void *r=alloc(flags, size, mem);
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maintain();
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//Kprintnum((int)r); Kputs("\n");
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return (void*)r;
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}
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return NULL;
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}
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int free(void *mem);
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///////////////////////////////////////////////////////////////////////[OK]
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int FreeSysMemory(void *mem){
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struct allocTABLE *table;
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int r;
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for (table=alloclist; table; table=table->next) //must not be among
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if (mem==table) //the allocation tables
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return -1;
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if (r=free(mem))
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return r;
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maintain();
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return r; //r==0 ;-)
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}
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struct allocELEM *findblock(void *a);
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///////////////////////////////////////////////////////////////////////[OK]
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void *QueryBlockTopAddress(void *address){
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struct allocELEM *p;
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if (p=findblock(address))
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return (void*)((mADDRESS(p->info) << 8) +
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(mALLOCATED(p->info) ? USED : FREE));
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return (void*)-1;
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}
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///////////////////////////////////////////////////////////////////////[OK]
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int QueryBlockSize(void *address){
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struct allocELEM *p;
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if (p=findblock(address))
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return (mSIZE(p->info) << 8) |
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(mALLOCATED(p->info) ? USED : FREE);
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return -1;
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}
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///////////////////////////////////////////////////////////////////////[OK]
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unsigned int *sysmem_return_addr_of_memsize(){
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return &memsize;
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}
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///////////////////////////////////////////////////////////////////////
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void *alloc(int flags, int size, void *mem){
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struct allocELEM *a, *last, *k;
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unsigned int bsize, //block size in 256bytes units
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baddress, //block address in 256bytes units
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i, tmp;
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void *address;
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bsize = (size+255) >> 8; // round to upper
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if (bsize==0) return NULL;
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switch (flags){
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case ALLOC_FIRST:
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for (a = alloclist->list; a; a=a->next)
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if ((!mALLOCATED(a->info)))
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if (mSIZE(a->info) >= bsize)
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break;
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if (a==NULL) return NULL;
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if (mSIZE(a->info) == bsize){
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a->info|=1; //alloc it
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return (void*)(mADDRESS(a->info) << 8); //all done, how quick!
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}
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address = (void*)(mADDRESS(a->info) << 8);
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i = a->info;
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a->info=((a->info | 1) & 0x1FFFF) | //alloc block
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(bsize << 17); //of wanted size
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i = (i & 0xFFFF0001) | (((mADDRESS(i) + bsize) & 0x7FFF) << 1);
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i = (i & 0x1FFFF) | ((mSIZE(i) - bsize) << 17);
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a=a->next;
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while (mSIZE(i)>0){
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tmp=a->info;
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a->info=i;
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i=tmp;
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a = a->next;
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}
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return address;
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case ALLOC_LAST:
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last=NULL;
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for (a = alloclist->list; a; a=a->next)
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if ((!mALLOCATED(a->info)))
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if (mSIZE(a->info) >= bsize)
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last=a; //use last one suitable
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a = last;
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if (a==0) return NULL;
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if (mSIZE(a->info) == bsize){
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a->info|=1; //alloc it
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return (void*)(mADDRESS(a->info) << 8);
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}
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a->info = (a->info & 0x0001FFFF) |
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((mSIZE(a->info) - bsize) << 17); //put rest of block
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i = (((i & 0xFFFF0001)//this line has no use; this is stupid
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| ((mADDRESS(a->info) + mSIZE(a->info)) & 0x7FFF) << 1) //calculate address of block to use
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& 0x0001FFFF) //keep only address (and alloc' state)
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| (bsize << 17) //put size
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| 1; //mark as allocated
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a=a->next;
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address = (void*)(mADDRESS(i) << 8); //address in bytes
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while (mSIZE(i)>0){
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tmp=a->info;
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a->info=i;
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i=tmp;
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a = a->next;
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}
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return address;
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case ALLOC_LATER:
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if ((unsigned int)mem & 0xFF) return NULL;
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baddress = (unsigned int)mem >> 8; //addr in 256bytes units
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for (a = alloclist->list; a ; a=a->next){
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if (baddress < mADDRESS(a->info)) return NULL;//cannot realloc
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if ((!mALLOCATED(a->info)) &&
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(mSIZE(a->info) + mADDRESS(a->info) >= baddress + bsize))
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break;
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}
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if (a==0) return NULL;
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if (mADDRESS(a->info) < baddress){
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tmp = mADDRESS(a->info) + mSIZE(a->info) - baddress;
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a->info= (a->info & 0x1FFFF) |
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((mSIZE(a->info) - tmp) << 17);
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i =(((i & 0xFFFF0001) | //stupid compiler
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((mADDRESS(a->info) + mSIZE(a->info)) & 0x7FFF) << 1)
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& 0x1FFFE)
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| (tmp << 17);
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k = a = a->next;
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while (mSIZE(i)>0){
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tmp=a->info;
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a->info=i;
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i=tmp;
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a=a->next;
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}
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a = k;
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}
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if (mSIZE(a->info)==bsize){
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a->info|=1; //alloc it
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return (void*)(mADDRESS(a->info) << 8);
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}
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address = (void*)(mADDRESS(a->info) << 8);
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i = a->info;
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a->info=((a->info | 1) & 0x1FFFF) | //alloc block
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(bsize << 17);
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i = (i & 0xFFFF0001) | (((mADDRESS(i) + bsize) & 0x7FFF) << 1);
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i = (i & 0x1FFFF) | ((mSIZE(i) - bsize) << 17);
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a=a->next;
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while (mSIZE(i)>0){
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tmp=a->info;
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a->info=i;
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i=tmp;
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a = a->next;
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}
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return address;
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}
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return NULL;
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}
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/***original while (mSIZE(i)>0){
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x=a->next; //stupid, n'est ce pas?
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tmp=a->info;
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a->next=z; //stupid, n'est ce pas?
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a->info=i;
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a->next=x; //stupid, n'est ce pas?
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z=x; //stupid, n'est ce pas?
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i=tmp;
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a = a->next;
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} ***/
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///////////////////////////////////////////////////////////////////////[OK]
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int free(void *mem){
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int skip; // counter (0,1,2) of elements to remove
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struct allocELEM *a, // an element
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*p, // prev
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*n; // next
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if ((unsigned int)mem & 0xFF) return -1; // only 256byte multiple
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for (a=&alloclist->list[smFIRSTF], p=NULL; a; a=a->next){
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if ((mSIZE(a->info) && (mADDRESS(a->info)==
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((unsigned int)mem >> 8)))) // convert to 256byte units
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break;
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p=a;
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}
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if (a==NULL) return -1; //block not found
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if (!mALLOCATED(a->info))return -1; //cannot free a freed block
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n=NULL;
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skip=0;
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a->info&=0xFFFFFFFE; //free block
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if ((a->next) && (!mALLOCATED(a->next->info))){//bind with next free block
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n = a->next;
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skip = 1;
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a->info = (a->info & 0x1FFFE) |
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((mSIZE(a->info) + mSIZE(a->next->info)) << 17);
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}
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|
|
||
|
if (p && (!mALLOCATED(p->info))){ //bind with previous free block
|
||
|
n=a;
|
||
|
skip++; // or skip=2;
|
||
|
p->info=(p->info & 0x1FFFF) |
|
||
|
((mSIZE(p->info) + mSIZE(a->info)) << 17);
|
||
|
}
|
||
|
|
||
|
if (skip){
|
||
|
a=n;
|
||
|
while (--skip!=-1)
|
||
|
a=a->next;
|
||
|
while (a){
|
||
|
n->info=a->info;
|
||
|
a=a->next;
|
||
|
n=n->next;
|
||
|
}
|
||
|
}
|
||
|
return 0;
|
||
|
}
|
||
|
/***original while (a){
|
||
|
t1=n->next;
|
||
|
t2=a->next;
|
||
|
t3=a->info;
|
||
|
n->next=t2; //stupid compiler, see above
|
||
|
n->info=t3;
|
||
|
n->next=t1;
|
||
|
a=a->next;
|
||
|
n=t1;
|
||
|
}***/
|
||
|
|
||
|
///////////////////////////////////////////////////////////////////////[OK]
|
||
|
void maintain(){
|
||
|
struct allocTABLE *table, *new;
|
||
|
int i;
|
||
|
|
||
|
for (table=alloclist; table->next; table = table->next) //+0x00
|
||
|
; //move to last non-NULL
|
||
|
if (mSIZE(table->list[smCHECK].info)>0) //+0xE0 //27 (i.e.28th)
|
||
|
// a new table is needed; alloc it
|
||
|
if (new=(struct allocTABLE*)alloc(0, sizeof(struct allocTABLE), 0)){
|
||
|
table->next=new; // link it
|
||
|
table->list[smLAST].next=&new->list[smFIRST];// link it's table elements
|
||
|
table=table->next; // move to it
|
||
|
table->next=NULL; // mark as end of tables
|
||
|
for (i=0; i<smMAX; i++){ // init table elements
|
||
|
table->list[i].next=&table->list[i+1];
|
||
|
table->list[i].info=0;
|
||
|
}
|
||
|
table->list[smLAST].next=NULL;
|
||
|
}
|
||
|
|
||
|
table=alloclist;
|
||
|
if (table->next){
|
||
|
while (table->next->next)
|
||
|
table=table->next;
|
||
|
if (table->next) //redundant check
|
||
|
if (mSIZE(table->list[smCHECK].info)==0){
|
||
|
struct allocTABLE *t=table->next;
|
||
|
table->list[smLAST].next=NULL;
|
||
|
table->next =NULL;
|
||
|
free(t);
|
||
|
}
|
||
|
}
|
||
|
}
|
||
|
|
||
|
///////////////////////////////////////////////////////////////////////[OK]
|
||
|
struct allocELEM *findblock(void *a){ // it finds the block for a given address
|
||
|
struct allocELEM *p;
|
||
|
for (p = alloclist->list; p; p=p->next)
|
||
|
if (((unsigned int)a >= (mADDRESS(p->info) << 8)) &&
|
||
|
((unsigned int)a < (mADDRESS(p->info) << 8) + mSIZE(p->info)))
|
||
|
break;
|
||
|
return p;
|
||
|
}
|
||
|
|
||
|
///////////////////////////////////////////////////////////////////////[OK]
|
||
|
char *Kprintf(const char *format,...){
|
||
|
if (_Kprintf)
|
||
|
return _Kprintf(unk, format, (void*)(format+4));//it is not accurate since mips
|
||
|
// have the 2nd, 3rd & 4th parameters
|
||
|
// in regs and not in stack,
|
||
|
// but you got the idea
|
||
|
return NULL;
|
||
|
}
|
||
|
|
||
|
///////////////////////////////////////////////////////////////////////[OK]
|
||
|
void sysmem_call15_set_Kprintf(char* (*newKprintf)(unsigned int, const char*, ...), unsigned int newunk){
|
||
|
if (_Kprintf && newKprintf)
|
||
|
newKprintf(newunk, _Kprintf(0));
|
||
|
unk = newunk;
|
||
|
_Kprintf = newKprintf;
|
||
|
}
|