#include <mboot.h>
#include <mm_virt.h>
-#define USE_STACK 1
+//#define USE_STACK 1
+#define TRACE_ALLOCS 0 // Print trace messages on AllocPhys/DerefPhys
#define REFERENCE_BASE 0xE0400000
extern void gKernelEnd;
// === PROTOTYPES ===
-tPAddr MM_AllocPhys(void);
-tPAddr MM_AllocPhysRange(int Pages, int MaxBits);
-void MM_RefPhys(tPAddr PAddr);
-void MM_DerefPhys(tPAddr PAddr);
+void MM_Install(tMBoot_Info *MBoot);
+//tPAddr MM_AllocPhys(void);
+//tPAddr MM_AllocPhysRange(int Pages, int MaxBits);
+//void MM_RefPhys(tPAddr PAddr);
+//void MM_DerefPhys(tPAddr PAddr);
+// int MM_GetRefCount(tPAddr PAddr);
// === GLOBALS ===
tMutex glPhysAlloc;
//LOG("Reference Pages %i", (giPageCount*4+0xFFF)>>12);
for(num = 0; num < (giPageCount*4+0xFFF)>>12; num++)
{
- MM_Allocate( REFERENCE_BASE + (num<<12) );
+ if( !MM_Allocate( REFERENCE_BASE + (num<<12) ) )
+ {
+ Panic("Oh, ****, no space for the reference pages, that's bad");
+ for(;;);
+ }
}
//LOG("Filling");
tPAddr MM_AllocPhys(void)
{
// int a, b, c;
- int indx;
+ int indx = -1;
tPAddr ret;
ENTER("");
Mutex_Acquire( &glPhysAlloc );
+ // Classful scan
+ #if 1
+ {
+ const int addrClasses[] = {0,16,20,24,32,64};
+ const int numAddrClasses = sizeof(addrClasses)/sizeof(addrClasses[0]);
+ int i;
+ int first, last;
+ for( i = numAddrClasses; i -- > 1; )
+ {
+// Log("Scanning %i (%i bits)", i, addrClasses[i]);
+ first = 1 << (addrClasses[i-1] - 12);
+ last = (1 << (addrClasses[i] - 12)) - 1;
+ // Range is above the last free page
+ if( first > giLastPossibleFree )
+ continue;
+ // Last possible free page is in the range
+ if( last > giLastPossibleFree )
+ last = giLastPossibleFree;
+
+// Log(" first=%i,max=%i", first, last);
+ // Scan the range
+ for( indx = first; indx < last; )
+ {
+// Log("indx = %i (< %i?)", indx, last);
+ if( gaSuperBitmap[indx>>10] == -1 ) {
+ indx += 1024;
+ continue;
+ }
+
+ if( gaPageBitmap[indx>>5] == -1 ) {
+ indx += 32;
+ continue;
+ }
+
+ if( gaPageBitmap[indx>>5] & (1 << (indx&31)) ) {
+ indx ++;
+ continue;
+ }
+ break;
+ }
+ if( indx < last ) break;
+
+ giLastPossibleFree = first; // Well, we couldn't find any in this range
+ }
+ // Out of memory?
+ if( i <= 1 ) indx = -1;
+// Log("indx = %i", indx);
+ }
+ #elif 0
// Find free page
// Scan downwards
- #if 1
LOG("giLastPossibleFree = %i", giLastPossibleFree);
for( indx = giLastPossibleFree; indx >= 0; )
{
indx -= 1024;
continue;
}
+
if( gaPageBitmap[indx>>5] == -1 ) {
indx -= 32;
continue;
}
break;
}
+ if( indx >= 0 )
+ giLastPossibleFree = indx;
LOG("indx = %i", indx);
#else
c = giLastPossibleFree % 32;
for( ; gaSuperBitmap[a] == -1 && a >= 0; a-- );
if(a < 0) {
Mutex_Release( &glPhysAlloc );
- Warning("MM_AllocPhys - OUT OF MEMORY (Called by %p)", __builtin_return_address(0));
+ Warning("MM_AllocPhys - OUT OF MEMORY (Called by %p) - %lli/%lli used",
+ __builtin_return_address(0), giPhysAlloc, giPageCount);
LEAVE('i', 0);
return 0;
}
for( ; gaPageBitmap[a*32+b] & (1<<c); c-- );
LOG("a=%i,b=%i,c=%i", a, b, c);
indx = (a << 10) | (b << 5) | c;
+ if( indx >= 0 )
+ giLastPossibleFree = indx;
#endif
+ if( indx < 0 ) {
+ Mutex_Release( &glPhysAlloc );
+ Warning("MM_AllocPhys - OUT OF MEMORY (Called by %p) - %lli/%lli used (indx = %x)",
+ __builtin_return_address(0), giPhysAlloc, giPageCount, indx);
+ Log_Debug("PMem", "giLastPossibleFree = %lli", giLastPossibleFree);
+ LEAVE('i', 0);
+ return 0;
+ }
+
+ if( indx > 0xFFFFF ) {
+ Panic("The fuck? Too many pages! (indx = 0x%x)", indx);
+ }
+
+ if( indx >= giPageCount ) {
+ Mutex_Release( &glPhysAlloc );
+ Log_Error("PMem", "MM_AllocPhys - indx(%i) > giPageCount(%i)", indx, giPageCount);
+ LEAVE('i', 0);
+ return 0;
+ }
+
// Mark page used
if(gaPageReferences)
gaPageReferences[ indx ] = 1;
gaPageBitmap[ indx>>5 ] |= 1 << (indx&31);
+ giPhysAlloc ++;
// Get address
ret = indx << 12;
- giLastPossibleFree = indx;
// Mark used block
- if(gaPageBitmap[ indx>>5 ] == -1)
+ if(gaPageBitmap[ indx>>5 ] == -1) {
gaSuperBitmap[indx>>10] |= 1 << ((indx>>5)&31);
+ }
// Release Spinlock
Mutex_Release( &glPhysAlloc );
LEAVE('X', ret);
- //Log("MM_AllocPhys: RETURN 0x%x", ret);
+ #if TRACE_ALLOCS
+ Log_Debug("PMem", "MM_AllocPhys: RETURN 0x%llx (%i free)", ret, giPageCount-giPhysAlloc);
+ #endif
return ret;
}
gaPageReferences[idx*32+sidx] = 1;
gaPageBitmap[ idx ] |= 1 << sidx;
sidx ++;
+ giPhysAlloc ++;
if(sidx == 32) { sidx = 0; idx ++; }
}
Mutex_Release( &glPhysAlloc );
LEAVE('X', ret);
+ #if TRACE_ALLOCS
+ Log_Debug("PMem", "MM_AllocPhysRange: RETURN 0x%llx-0x%llx (%i free)",
+ ret, ret + (1<<Pages)-1, giPageCount-giPhysAlloc);
+ #endif
return ret;
}
// Mark as free in bitmaps
if( gaPageReferences[ PAddr ] == 0 )
{
+ #if TRACE_ALLOCS
+ Log_Debug("PMem", "MM_DerefPhys: Free'd 0x%x (%i free)", PAddr, giPageCount-giPhysAlloc);
+ #endif
//LOG("Freed 0x%x by %p\n", PAddr<<12, __builtin_return_address(0));
+ giPhysAlloc --;
gaPageBitmap[ PAddr / 32 ] &= ~(1 << (PAddr&31));
if(gaPageReferences[ PAddr ] == 0)
gaSuperBitmap[ PAddr >> 10 ] &= ~(1 << ((PAddr >> 5)&31));
/**
* \fn int MM_GetRefCount(tPAddr Addr)
*/
-int MM_GetRefCount(tPAddr Addr)
+int MM_GetRefCount(tPAddr PAddr)
{
// Get page number
- Addr >>= 12;
+ PAddr >>= 12;
// We don't care about non-ram pages
- if(Addr >= giPageCount) return -1;
+ if(PAddr >= giPageCount) return -1;
// Check if it is freed
- return gaPageReferences[ Addr ];
+ return gaPageReferences[ PAddr ];
}