#if USE_MP
# include <mp.h>
#endif
+#include <hal_proc.h>
// === FLAGS ===
#define DEBUG_TRACE_SWITCH 0
+#define DEBUG_DISABLE_DOUBLEFAULT 1
+#define DEBUG_VERY_SLOW_SWITCH 0
// === CONSTANTS ===
-#define SWITCH_MAGIC 0xFF5317C8 // FF SWITCH - There is no code in this area
// Base is 1193182
#define TIMER_BASE 1193182
-#define TIMER_DIVISOR 11932 //~100Hz
+#if DEBUG_VERY_SLOW_PERIOD
+# define TIMER_DIVISOR 1193 //~10Hz switch, with 10 quantum = 1s per thread
+#else
+# define TIMER_DIVISOR 11932 //~100Hz
+#endif
// === TYPES ===
-#if USE_MP
typedef struct sCPU
{
Uint8 APICID;
tThread *Current;
tThread *IdleThread;
} tCPU;
-#endif
// === IMPORTS ===
extern tGDT gGDT[];
extern tIDT gIDT[];
-extern void APWait(void); // 16-bit AP pause code
-extern void APStartup(void); // 16-bit AP startup code
+extern void APWait(void); // 16-bit AP pause code
+extern void APStartup(void); // 16-bit AP startup code
extern Uint GetEIP(void); // start.asm
-extern int GetCPUNum(void); // start.asm
+extern Uint GetEIP_Sched(void); // proc.asm
+extern void NewTaskHeader(tThread *Thread, void *Fcn, int nArgs, ...); // Actually takes cdecl args
+extern Uint Proc_CloneInt(Uint *ESP, Uint *CR3);
extern Uint32 gaInitPageDir[1024]; // start.asm
extern char Kernel_Stack_Top[];
extern tShortSpinlock glThreadListLock;
extern int giNumCPUs;
extern int giNextTID;
extern tThread gThreadZero;
-extern tThread *Threads_CloneTCB(Uint *Err, Uint Flags);
extern void Isr8(void); // Double Fault
-extern void Proc_ReturnToUser(tVAddr Handler, Uint Argument);
+extern void Proc_ReturnToUser(tVAddr Handler, Uint Argument, tVAddr KernelStack);
+extern char scheduler_return[]; // Return address in SchedulerBase
+extern char IRQCommon[]; // Common IRQ handler code
+extern char IRQCommon_handled[]; // IRQCommon call return location
+extern char GetEIP_Sched_ret[]; // GetEIP call return location
+extern void Threads_AddToDelete(tThread *Thread);
+extern void SwitchTasks(Uint NewSP, Uint *OldSP, Uint NewIP, Uint *OldIO, Uint CR3);
// === PROTOTYPES ===
-void ArchThreads_Init(void);
+//void ArchThreads_Init(void);
#if USE_MP
void MP_StartAP(int CPU);
void MP_SendIPI(Uint8 APICID, int Vector, int DeliveryMode);
#endif
-void Proc_Start(void);
-tThread *Proc_GetCurThread(void);
+void Proc_IdleThread(void *Ptr);
+//void Proc_Start(void);
+//tThread *Proc_GetCurThread(void);
void Proc_ChangeStack(void);
- int Proc_Clone(Uint *Err, Uint Flags);
-void Proc_StartProcess(Uint16 SS, Uint Stack, Uint Flags, Uint16 CS, Uint IP);
-void Proc_CallFaultHandler(tThread *Thread);
+// int Proc_NewKThread(void (*Fcn)(void*), void *Data);
+// int Proc_Clone(Uint *Err, Uint Flags);
+Uint Proc_MakeUserStack(void);
+//void Proc_StartUser(Uint Entrypoint, Uint *Bases, int ArgC, char **ArgV, char **EnvP, int DataSize);
+void Proc_StartProcess(Uint16 SS, Uint Stack, Uint Flags, Uint16 CS, Uint IP) NORETURN;
+ int Proc_Demote(Uint *Err, int Dest, tRegs *Regs);
+//void Proc_CallFaultHandler(tThread *Thread);
+//void Proc_DumpThreadCPUState(tThread *Thread);
void Proc_Scheduler(int CPU);
// === GLOBALS ===
volatile Uint32 giMP_TimerCount; // Start Count for Local APIC Timer
tAPIC *gpMP_LocalAPIC = NULL;
Uint8 gaAPIC_to_CPU[256] = {0};
-tCPU gaCPUs[MAX_CPUS];
-tTSS gaTSSs[MAX_CPUS]; // TSS Array
int giProc_BootProcessorID = 0;
-#else
-tThread *gCurrentThread = NULL;
-tThread *gpIdleThread = NULL;
-#endif
-#if USE_PAE
-Uint32 *gPML4s[4] = NULL;
+tTSS gaTSSs[MAX_CPUS]; // TSS Array
#endif
+tCPU gaCPUs[MAX_CPUS];
tTSS *gTSSs = NULL; // Pointer to TSS array
tTSS gTSS0 = {0};
// --- Error Recovery ---
#else
giNumCPUs = 1;
gTSSs = &gTSS0;
- MM_FinishVirtualInit();
#endif
- #if 0
+ #if !DEBUG_DISABLE_DOUBLEFAULT
// Initialise Double Fault TSS
gGDT[5].BaseLow = (Uint)&gDoubleFault_TSS & 0xFFFF;
gGDT[5].BaseMid = (Uint)&gDoubleFault_TSS >> 16;
__asm__ __volatile__ ("mov %0, %%db0"::"r"(&gThreadZero));
__asm__ __volatile__ ("mov %0, %%db1"::"r"(0));
- #if USE_MP
gaCPUs[0].Current = &gThreadZero;
- #else
- gCurrentThread = &gThreadZero;
- #endif
gThreadZero.CurCPU = 0;
- #if USE_PAE
- gThreadZero.MemState.PDP[0] = 0;
- gThreadZero.MemState.PDP[1] = 0;
- gThreadZero.MemState.PDP[2] = 0;
- #else
gThreadZero.MemState.CR3 = (Uint)gaInitPageDir - KERNEL_BASE;
- #endif
// Create Per-Process Data Block
- MM_Allocate(MM_PPD_CFG);
+ if( !MM_Allocate(MM_PPD_CFG) )
+ {
+ Panic("OOM - No space for initial Per-Process Config");
+ }
// Change Stacks
Proc_ChangeStack();
}
#endif
+void Proc_IdleThread(void *Ptr)
+{
+ tCPU *cpu = Ptr;
+ cpu->IdleThread->ThreadName = strdup("Idle Thread");
+ Threads_SetPriority( cpu->IdleThread, -1 ); // Never called randomly
+ cpu->IdleThread->Quantum = 1; // 1 slice quantum
+ for(;;) {
+ HALT();
+ Proc_Reschedule();
+ }
+}
+
/**
* \fn void Proc_Start(void)
* \brief Start process scheduler
*/
void Proc_Start(void)
{
+ int tid;
#if USE_MP
int i;
#endif
// 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
- }
+ tid = Proc_NewKThread(Proc_IdleThread, &gaCPUs[i]);
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 ) {
while( giNumInitingCPUs ) __asm__ __volatile__ ("hlt");
#else
// Create Idle Task
- if(Proc_Clone(0, 0) == 0)
- {
- gpIdleThread = Proc_GetCurThread();
- gpIdleThread->ThreadName = "Idle Thread";
- Threads_SetPriority( gpIdleThread, -1 ); // Never called randomly
- gpIdleThread->Quantum = 1; // 1 slice quantum
- for(;;) HALT(); // Just yeilds
- }
+ tid = Proc_NewKThread(Proc_IdleThread, &gaCPUs[0]);
+ gaCPUs[0].IdleThread = Threads_GetThread(tid);
// Set current task
- gCurrentThread = &gThreadZero;
+ gaCPUs[0].Current = &gThreadZero;
+
+// while( gaCPUs[0].IdleThread == NULL )
+// Threads_Yield();
// Start Interrupts (and hence scheduler)
__asm__ __volatile__("sti");
#if USE_MP
return gaCPUs[ GetCPUNum() ].Current;
#else
- return gCurrentThread;
+ return gaCPUs[ 0 ].Current;
#endif
}
__asm__ __volatile__ ("mov %0, %%ebp"::"r"(ebp));
}
+int Proc_NewKThread(void (*Fcn)(void*), void *Data)
+{
+ Uint esp;
+ tThread *newThread, *cur;
+
+ cur = Proc_GetCurThread();
+ newThread = Threads_CloneTCB(0);
+ if(!newThread) return -1;
+
+ // Set CR3
+ newThread->MemState.CR3 = cur->MemState.CR3;
+
+ // Create new KStack
+ newThread->KernelStack = MM_NewKStack();
+ // Check for errors
+ if(newThread->KernelStack == 0) {
+ free(newThread);
+ return -1;
+ }
+
+ esp = newThread->KernelStack;
+ *(Uint*)(esp-=4) = (Uint)Data; // Data (shadowed)
+ *(Uint*)(esp-=4) = 1; // Number of params
+ *(Uint*)(esp-=4) = (Uint)Fcn; // Function to call
+ *(Uint*)(esp-=4) = (Uint)newThread; // Thread ID
+
+ newThread->SavedState.ESP = esp;
+ newThread->SavedState.EIP = (Uint)&NewTaskHeader;
+ Log("New (KThread) %p, esp = %p\n", newThread->SavedState.EIP, newThread->SavedState.ESP);
+
+// MAGIC_BREAK();
+ Threads_AddActive(newThread);
+
+ return newThread->TID;
+}
+
/**
* \fn int Proc_Clone(Uint *Err, Uint Flags)
* \brief Clone the current process
*/
-int Proc_Clone(Uint *Err, Uint Flags)
+int Proc_Clone(Uint Flags)
{
tThread *newThread;
tThread *cur = Proc_GetCurThread();
- Uint eip, esp, ebp;
-
- __asm__ __volatile__ ("mov %%esp, %0": "=r"(esp));
- __asm__ __volatile__ ("mov %%ebp, %0": "=r"(ebp));
-
- newThread = Threads_CloneTCB(Err, Flags);
- if(!newThread) return -1;
-
- // Initialise Memory Space (New Addr space or kernel stack)
- if(Flags & CLONE_VM) {
- newThread->MemState.CR3 = MM_Clone();
- newThread->KernelStack = cur->KernelStack;
- } else {
- Uint tmpEbp, oldEsp = esp;
-
- // Set CR3
- #if USE_PAE
- # warning "PAE Unimplemented"
- #else
- newThread->MemState.CR3 = cur->MemState.CR3;
- #endif
-
- // Create new KStack
- newThread->KernelStack = MM_NewKStack();
- // Check for errors
- if(newThread->KernelStack == 0) {
- free(newThread);
- return -1;
- }
+ Uint eip;
- // Get ESP as a used size
- esp = cur->KernelStack - esp;
- // Copy used stack
- memcpy( (void*)(newThread->KernelStack - esp), (void*)(cur->KernelStack - esp), esp );
- // Get ESP as an offset in the new stack
- esp = newThread->KernelStack - esp;
- // Adjust EBP
- ebp = newThread->KernelStack - (cur->KernelStack - ebp);
-
- // Repair EBPs & Stack Addresses
- // Catches arguments also, but may trash stack-address-like values
- for(tmpEbp = esp; tmpEbp < newThread->KernelStack; tmpEbp += 4)
- {
- if(oldEsp < *(Uint*)tmpEbp && *(Uint*)tmpEbp < cur->KernelStack)
- *(Uint*)tmpEbp += newThread->KernelStack - cur->KernelStack;
- }
+ // Sanity, please
+ if( !(Flags & CLONE_VM) ) {
+ Log_Error("Proc", "Proc_Clone: Don't leave CLONE_VM unset, use Proc_NewKThread instead");
+ return -1;
}
- // Save core machine state
- newThread->SavedState.ESP = esp;
- newThread->SavedState.EBP = ebp;
- eip = GetEIP();
- if(eip == SWITCH_MAGIC) {
- __asm__ __volatile__ ("mov %0, %%db0" : : "r" (newThread) );
- #if USE_MP
+ // New thread
+ newThread = Threads_CloneTCB(Flags);
+ if(!newThread) return -1;
+
+ newThread->KernelStack = cur->KernelStack;
+
+ // Clone state
+ eip = Proc_CloneInt(&newThread->SavedState.ESP, &newThread->MemState.CR3);
+ if( eip == 0 ) {
// ACK the interrupt
- if( GetCPUNum() )
- gpMP_LocalAPIC->EOI.Val = 0;
- else
- #endif
- outb(0x20, 0x20); // ACK Timer and return as child
- __asm__ __volatile__ ("sti"); // Restart interrupts
return 0;
}
-
- // Set EIP as parent
newThread->SavedState.EIP = eip;
- // Lock list and add to active
+ // Check for errors
+ if( newThread->MemState.CR3 == 0 ) {
+ Log_Error("Proc", "Proc_Clone: MM_Clone failed");
+ Threads_AddToDelete(newThread);
+ return -1;
+ }
+
+ // Add the new thread to the run queue
Threads_AddActive(newThread);
-
return newThread->TID;
}
* \fn int Proc_SpawnWorker(void)
* \brief Spawns a new worker thread
*/
-int Proc_SpawnWorker(void)
+int Proc_SpawnWorker(void (*Fcn)(void*), void *Data)
{
- tThread *new, *cur;
- Uint eip, esp, ebp;
-
- cur = Proc_GetCurThread();
+ tThread *new;
+ Uint stack_contents[4];
// Create new thread
- new = malloc( sizeof(tThread) );
+ new = Threads_CloneThreadZero();
if(!new) {
Warning("Proc_SpawnWorker - Out of heap space!\n");
return -1;
}
- memcpy(new, &gThreadZero, sizeof(tThread));
- // Set Thread ID
- new->TID = giNextTID++;
- // Create a new worker stack (in PID0's address space)
- // - The stack is relocated by this function
- new->KernelStack = MM_NewWorkerStack();
- // Get ESP and EBP based in the new stack
- __asm__ __volatile__ ("mov %%esp, %0": "=r"(esp));
- __asm__ __volatile__ ("mov %%ebp, %0": "=r"(ebp));
- esp = new->KernelStack - (cur->KernelStack - esp);
- ebp = new->KernelStack - (cur->KernelStack - ebp);
+ // Create the stack contents
+ stack_contents[3] = (Uint)Data;
+ stack_contents[2] = 1;
+ stack_contents[1] = (Uint)Fcn;
+ stack_contents[0] = (Uint)new;
+ // Create a new worker stack (in PID0's address space)
+ new->KernelStack = MM_NewWorkerStack(stack_contents, sizeof(stack_contents));
+
// Save core machine state
- new->SavedState.ESP = esp;
- new->SavedState.EBP = ebp;
- eip = GetEIP();
- if(eip == SWITCH_MAGIC) {
- __asm__ __volatile__ ("mov %0, %%db0" : : "r"(new));
- #if USE_MP
- // ACK the interrupt
- if(GetCPUNum())
- gpMP_LocalAPIC->EOI.Val = 0;
- else
- #endif
- outb(0x20, 0x20); // ACK Timer and return as child
- __asm__ __volatile__ ("sti"); // Restart interrupts
- return 0;
- }
+ new->SavedState.ESP = new->KernelStack - sizeof(stack_contents);
+ new->SavedState.EBP = 0;
+ new->SavedState.EIP = (Uint)NewTaskHeader;
- // Set EIP as parent
- new->SavedState.EIP = eip;
// Mark as active
+ new->Status = THREAD_STAT_PREINIT;
Threads_AddActive( new );
return new->TID;
// Allocate Stack - Allocate incrementally to clean up MM_Dump output
for( i = 0; i < USER_STACK_SZ/0x1000; i++ )
- MM_Allocate( base + (i<<12) );
+ {
+ if( !MM_Allocate( base + (i<<12) ) )
+ {
+ Warning("OOM: Proc_MakeUserStack");
+ return 0;
+ }
+ }
return base + USER_STACK_SZ;
}
-/**
- * \fn void Proc_StartUser(Uint Entrypoint, Uint *Bases, int ArgC, char **ArgV, char **EnvP, int DataSize)
- * \brief Starts a user task
- */
-void Proc_StartUser(Uint Entrypoint, Uint *Bases, int ArgC, char **ArgV, char **EnvP, int DataSize)
+void Proc_StartUser(Uint Entrypoint, Uint Base, int ArgC, char **ArgV, int DataSize)
{
- Uint *stack = (void*)Proc_MakeUserStack();
+ Uint *stack;
int i;
- Uint delta;
+ char **envp = NULL;
Uint16 ss, cs;
- //Log("stack = %p", stack);
-
- // Copy Arguments
+ // Copy data to the user stack and free original buffer
+ stack = (void*)Proc_MakeUserStack();
stack -= DataSize/sizeof(*stack);
memcpy( stack, ArgV, DataSize );
+ free(ArgV);
- //Log("stack = %p", stack);
-
+ // Adjust Arguments and environment
if( DataSize )
{
- // Adjust Arguments and environment
- delta = (Uint)stack - (Uint)ArgV;
+ Uint delta = (Uint)stack - (Uint)ArgV;
ArgV = (char**)stack;
- for( i = 0; ArgV[i]; i++ )
- ArgV[i] += delta;
- i ++;
-
- // Do we care about EnvP?
- if( EnvP ) {
- EnvP = &ArgV[i];
- for( i = 0; EnvP[i]; i++ )
- EnvP[i] += delta;
- }
+ for( i = 0; ArgV[i]; i++ ) ArgV[i] += delta;
+ envp = &ArgV[i+1];
+ for( i = 0; envp[i]; i++ ) envp[i] += delta;
}
// User Mode Segments
ss = 0x23; cs = 0x1B;
// Arguments
- *--stack = (Uint)EnvP;
+ *--stack = (Uint)envp;
*--stack = (Uint)ArgV;
*--stack = (Uint)ArgC;
- while(*Bases)
- *--stack = *Bases++;
- *--stack = 0; // Return Address
+ *--stack = Base;
Proc_StartProcess(ss, (Uint)stack, 0x202, cs, Entrypoint);
}
{
// Rewinds the stack and calls the user function
// Never returns
- Proc_ReturnToUser( Thread->FaultHandler, Thread->CurFaultNum );
+ Proc_ReturnToUser( Thread->FaultHandler, Thread->CurFaultNum, Thread->KernelStack );
for(;;);
}
+void Proc_DumpThreadCPUState(tThread *Thread)
+{
+ if( Thread->CurCPU > -1 )
+ {
+ int maxBacktraceDistance = 6;
+ tRegs *regs = NULL;
+ Uint32 *stack;
+
+ if( Thread->CurCPU != GetCPUNum() ) {
+ Log(" Currently running");
+ return ;
+ }
+
+ // Backtrace to find the IRQ entrypoint
+ // - This will usually only be called by an IRQ, so this should
+ // work
+ __asm__ __volatile__ ("mov %%ebp, %0" : "=r" (stack));
+ while( maxBacktraceDistance -- )
+ {
+ // [ebp] = oldEbp
+ // [ebp+4] = retaddr
+
+ if( stack[1] == (tVAddr)&IRQCommon_handled ) {
+ regs = (void*)stack[2];
+ break;
+ }
+
+ stack = (void*)stack[0];
+ }
+
+ if( !regs ) {
+ Log(" Unable to find IRQ Entry");
+ return ;
+ }
+
+ Log(" at %04x:%08x", regs->cs, regs->eip);
+ return ;
+ }
+
+ #if 1
+ tVAddr diffFromScheduler = Thread->SavedState.EIP - (tVAddr)SwitchTasks;
+ tVAddr diffFromClone = Thread->SavedState.EIP - (tVAddr)Proc_CloneInt;
+ tVAddr diffFromSpawn = Thread->SavedState.EIP - (tVAddr)NewTaskHeader;
+
+ if( diffFromClone > 0 && diffFromClone < 40 ) // When I last checked, .newTask was at .+27
+ {
+ Log(" Creating process");
+ return ;
+ }
+
+ if( diffFromSpawn == 0 )
+ {
+ Log(" Creating thread");
+ return ;
+ }
+
+ if( diffFromScheduler > 0 && diffFromScheduler < 128 ) // When I last checked, GetEIP was at .+0x30
+ #else
+ Uint32 data[3];
+ MM_ReadFromAddrSpace(Thread->MemState.CR3, Thread->SavedState.EBP, data, 12);
+ if( data[1] == (Uint32)&IRQCommon + 25 )
+ {
+ tRegs *regs = (void *) data[2];
+ Log(" oldebp = 0x%08x, ret = 0x%08x, regs = 0x%x",
+ data[0], data[1], data[2]
+ );
+ // [EBP] = old EBP
+ // [EBP+0x04] = Return Addr
+ // [EBP+0x08] = Arg 1 (CPU Number)
+ // [EBP+0x0C] = Arg 2 (Thread)
+ // [EBP+0x10] = GS (start of tRegs)
+ Log(" IRQ%i from %02x:%08x", regs->int_num regs->cs, regs->eip);
+ }
+ if( stack[1] == (Uint32)&scheduler_return )
+ #endif
+ {
+ // Scheduled out
+ Log(" At %04x:%08x", Thread->SavedState.UserCS, Thread->SavedState.UserEIP);
+ return ;
+ }
+
+ Log(" Just created (unknown %p)", Thread->SavedState.EIP);
+}
+
+void Proc_Reschedule(void)
+{
+ tThread *nextthread, *curthread;
+ int cpu = GetCPUNum();
+
+ // TODO: Wait for it?
+ if(IS_LOCKED(&glThreadListLock)) return;
+
+ curthread = Proc_GetCurThread();
+
+ nextthread = Threads_GetNextToRun(cpu, curthread);
+
+ if(!nextthread)
+ nextthread = gaCPUs[cpu].IdleThread;
+ if(!nextthread || nextthread == curthread)
+ return ;
+
+ #if DEBUG_TRACE_SWITCH
+ LogF("\nSwitching to task %i, CR3 = 0x%x, EIP = %p, ESP = %p\n",
+ nextthread->TID,
+ nextthread->MemState.CR3,
+ nextthread->SavedState.EIP,
+ nextthread->SavedState.ESP
+ );
+ #endif
+
+ // Update CPU state
+ gaCPUs[cpu].Current = nextthread;
+ gTSSs[cpu].ESP0 = nextthread->KernelStack-4;
+ __asm__ __volatile__("mov %0, %%db0\n\t" : : "r"(nextthread) );
+
+ SwitchTasks(
+ nextthread->SavedState.ESP, &curthread->SavedState.ESP,
+ nextthread->SavedState.EIP, &curthread->SavedState.EIP,
+ nextthread->MemState.CR3
+ );
+ return ;
+}
+
/**
* \fn void Proc_Scheduler(int CPU)
* \brief Swap current thread and clears dead threads
*/
void Proc_Scheduler(int CPU)
{
- Uint esp, ebp, eip;
tThread *thread;
// If the spinlock is set, let it complete
if(IS_LOCKED(&glThreadListLock)) return;
// Get current thread
- #if USE_MP
thread = gaCPUs[CPU].Current;
- #else
- thread = gCurrentThread;
- #endif
if( thread )
{
+ tRegs *regs;
+ Uint ebp;
// Reduce remaining quantum and continue timeslice if non-zero
if( thread->Remaining-- )
return;
// Reset quantum for next call
thread->Remaining = thread->Quantum;
- // Get machine state
- __asm__ __volatile__ ( "mov %%esp, %0" : "=r" (esp) );
- __asm__ __volatile__ ( "mov %%ebp, %0" : "=r" (ebp) );
- eip = GetEIP();
- if(eip == SWITCH_MAGIC) return; // Check if a switch happened
+ // TODO: Make this more stable somehow
+ __asm__ __volatile__("mov %%ebp, %0" : "=r" (ebp));
+ regs = (tRegs*)(ebp+(2+2)*4); // EBP,Ret + CPU,CurThread
+ thread->SavedState.UserCS = regs->cs;
+ thread->SavedState.UserEIP = regs->eip;
- // Save machine state
- thread->SavedState.ESP = esp;
- thread->SavedState.EBP = ebp;
- thread->SavedState.EIP = eip;
- }
-
- // Get next thread to run
- thread = Threads_GetNextToRun(CPU, thread);
-
- // No avaliable tasks, just go into low power mode (idle thread)
- if(thread == NULL) {
- #if USE_MP
- thread = gaCPUs[CPU].IdleThread;
- Log("CPU %i Running Idle Thread", CPU);
- #else
- thread = gpIdleThread;
- #endif
+ if(thread->bInstrTrace) {
+ regs->eflags |= 0x100; // Set TF
+ Log("%p De-scheduled", thread);
+ }
+ else
+ regs->eflags &= ~0x100; // Clear TF
}
-
- // Set current thread
+
+#if 0
+ // TODO: Ack timer?
#if USE_MP
- gaCPUs[CPU].Current = thread;
- #else
- gCurrentThread = thread;
- #endif
-
- #if DEBUG_TRACE_SWITCH
- Log("Switching to task %i, CR3 = 0x%x, EIP = %p",
- thread->TID,
- thread->MemState.CR3,
- thread->SavedState.EIP
- );
- #endif
-
- #if USE_MP // MP Debug
- Log("CPU = %i, Thread %p", CPU, thread);
- #endif
-
- // Update Kernel Stack pointer
- gTSSs[CPU].ESP0 = 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.ESP > 0xC0000000
- && thread->SavedState.ESP < thread->KernelStack-0x2000) {
- Log_Warning("Proc", "Possible bad ESP %p (PID %i)", thread->SavedState.ESP);
- }
+ if( GetCPUNum() )
+ gpMP_LocalAPIC->EOI.Val = 0;
+ else
#endif
-
- // Switch threads
- __asm__ __volatile__ (
- "mov %1, %%esp\n\t" // Restore ESP
- "mov %2, %%ebp\n\t" // and EBP
- "jmp *%3" : : // And return to where we saved state (Proc_Clone or Proc_Scheduler)
- "a"(SWITCH_MAGIC), "b"(thread->SavedState.ESP),
- "d"(thread->SavedState.EBP), "c"(thread->SavedState.EIP)
- );
- for(;;); // Shouldn't reach here
+ outb(0x20, 0x20);
+ __asm__ __volatile__ ("sti");
+ Proc_Reschedule();
+#endif
}
// === EXPORTS ===