// === GLOBALS ===
tSpinlock glPhysicalPages;
-Uint64 *gaSuperBitmap; // 1 bit = 64 Pages, 16 MiB Per Word
-Uint64 *gaMainBitmap; // 1 bit = 1 Page, 256 KiB per Word
-Uint64 *gaMultiBitmap; // Each bit means that the page is being used multiple times
+Uint64 *gaSuperBitmap = (void*)MM_PAGE_SUPBMP; // 1 bit = 64 Pages, 16 MiB Per Word
+Uint64 *gaMainBitmap = (void*)MM_PAGE_BITMAP; // 1 bit = 1 Page, 256 KiB per Word
+Uint64 *gaMultiBitmap = (void*)MM_PAGE_DBLBMP; // Each bit means that the page is being used multiple times
Uint32 *gaiPageReferences = (void*)MM_PAGE_COUNTS; // Reference Counts
tPAddr giFirstFreePage; // First possibly free page
Uint64 giPhysRangeFree[NUM_MM_PHYS_RANGES]; // Number of free pages in each range
LOG("Clearing multi bitmap");
// Fill the bitmaps
- memset(gaMultiBitmap, 0, numPages<<12);
+ memset(gaMultiBitmap, 0, (numPages<<12)/8);
// - initialise to one, then clear the avaliable areas
- memset(gaMainBitmap, -1, numPages<<12);
+ memset(gaMainBitmap, -1, (numPages<<12)/8);
+ memset(gaSuperBitmap, -1, (numPages<<12)/(8*64));
LOG("Setting main bitmap");
// - Clear all Type=1 areas
LOG("Clearing valid regions");
// Base is 1193182
#define TIMER_DIVISOR 11931 //~100Hz
+// === TYPES ===
+typedef struct sCPU
+{
+ Uint8 APICID;
+ Uint8 State; // 0: Unavaliable, 1: Idle, 2: Active
+ Uint16 Resvd;
+ tThread *Current;
+ tThread *IdleThread;
+} tCPU;
+
// === IMPORTS ===
extern tGDT gGDT[];
extern void APStartup(void); // 16-bit AP startup code
extern int giTotalTickets;
extern int giNumActiveThreads;
extern tThread gThreadZero;
-extern tThread *gActiveThreads;
-extern tThread *gSleepingThreads;
-extern tThread *gDeleteThreads;
-extern tThread *Threads_GetNextToRun(int CPU);
+//extern tThread *Threads_GetNextToRun(int CPU);
extern void Threads_Dump(void);
extern tThread *Threads_CloneTCB(Uint *Err, Uint Flags);
extern void Proc_ReturnToUser(void);
tMPInfo *gMPFloatPtr = NULL;
tAPIC *gpMP_LocalAPIC = NULL;
Uint8 gaAPIC_to_CPU[256] = {0};
-tCPU gaCPUs[MAX_CPUS];
-#else
-tThread *gCurrentThread = NULL;
#endif
+tCPU gaCPUs[MAX_CPUS];
tTSS *gTSSs = NULL;
tTSS gTSS0 = {0};
// --- Error Recovery ---
}
#endif
- #if USE_MP
gaCPUs[0].Current = &gThreadZero;
- #else
- gCurrentThread = &gThreadZero;
- #endif
gThreadZero.MemState.CR3 = (Uint)gInitialPML4 - KERNEL_BASE;
*/
void Proc_Start(void)
{
+ #if USE_MP
+ int i;
+ #endif
+
+ #if USE_MP
+ // Start APs
+ for( i = 0; i < giNumCPUs; i ++ )
+ {
+ int tid;
+ if(i) gaCPUs[i].Current = NULL;
+
+ // Create Idle Task
+ if( (tid = Proc_Clone(0, 0)) == 0)
+ {
+ for(;;) HALT(); // Just yeilds
+ }
+ gaCPUs[i].IdleThread = Threads_GetThread(tid);
+ gaCPUs[i].IdleThread->ThreadName = "Idle Thread";
+ Threads_SetTickets( gaCPUs[i].IdleThread, 0 ); // Never called randomly
+ gaCPUs[i].IdleThread->Quantum = 1; // 1 slice quantum
+
+
+ // Start the AP
+ if( i != giProc_BootProcessorID ) {
+ MP_StartAP( i );
+ }
+ }
+
+ // BSP still should run the current task
+ gaCPUs[0].Current = &gThreadZero;
+
+ // Start interrupts and wait for APs to come up
+ Log("Waiting for APs to come up\n");
+ __asm__ __volatile__ ("sti");
+ while( giNumInitingCPUs ) __asm__ __volatile__ ("hlt");
+ #else
+ // Create Idle Task
+ if(Proc_Clone(0, 0) == 0)
+ {
+ gaCPUs[0].IdleThread = Proc_GetCurThread();
+ gaCPUs[0].IdleThread->ThreadName = "Idle Thread";
+ gaCPUs[0].IdleThread->NumTickets = 0; // Never called randomly
+ gaCPUs[0].IdleThread->Quantum = 1; // 1 slice quantum
+ for(;;) HALT(); // Just yeilds
+ }
+
+ // Set current task
+ gaCPUs[0].Current = &gThreadZero;
+
// Start Interrupts (and hence scheduler)
__asm__ __volatile__("sti");
+ #endif
+ MM_FinishVirtualInit();
}
/**
#if USE_MP
return gaCPUs[ GetCPUNum() ].Current;
#else
- return gCurrentThread;
+ return gaCPUs[ 0 ].Current;
#endif
}
// If the spinlock is set, let it complete
if(IS_LOCKED(&glThreadListLock)) return;
-
- // Clear Delete Queue
- while(gDeleteThreads)
- {
- thread = gDeleteThreads->Next;
- if(gDeleteThreads->IsLocked) { // Only free if structure is unused
- gDeleteThreads->Status = THREAD_STAT_NULL;
- free( gDeleteThreads );
- }
- gDeleteThreads = thread;
- }
-
- // Check if there is any tasks running
- if(giNumActiveThreads == 0) {
- Log("No Active threads, sleeping");
- __asm__ __volatile__ ("hlt");
- return;
- }
-
+
// Get current thread
- #if USE_MP
thread = gaCPUs[CPU].Current;
- #else
- thread = gCurrentThread;
- #endif
// Reduce remaining quantum and continue timeslice if non-zero
if(thread->Remaining--) return;
thread->SavedState.RIP = rip;
// Get next thread
- thread = Threads_GetNextToRun(CPU);
+ thread = Threads_GetNextToRun(CPU, thread);
// Error Check
if(thread == NULL) {
+ thread = gaCPUs[CPU].IdleThread;
Warning("Hmm... Threads_GetNextToRun returned NULL, I don't think this should happen.\n");
return;
}
#endif
// Set current thread
- #if USE_MP
gaCPUs[CPU].Current = thread;
- #else
- gCurrentThread = thread;
- #endif
// Update Kernel Stack pointer
gTSSs[CPU].RSP0 = thread->KernelStack-4;
// Set address space
- #if USE_PAE
- # error "Todo: Implement PAE Address space switching"
- #else
- __asm__ __volatile__ ("mov %0, %%cr3"::"a"(thread->MemState.CR3));
- #endif
-
- #if 0
- if(thread->SavedState.RSP > 0xC0000000
- && thread->SavedState.RSP < thread->KernelStack-0x2000) {
- Log_Warning("Proc", "Possible bad ESP %p (PID %i)", thread->SavedState.ESP);
- }
- #endif
+ __asm__ __volatile__ ("mov %0, %%cr3"::"a"(thread->MemState.CR3));
// Switch threads
__asm__ __volatile__ (
git.ucc.asn.au / tpg / acess2.git / commitdiff
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