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sortix--sortix/sortix/thread.h
Jonas 'Sortie' Termansen 7d39906acc Added support for saving FPU registers upon context switch.
This code uses the cr0 task switched bit to disable the FPU upon task
switch, which allows the kernel to delay copying the registers until
another task starts using them. Or better yet, if no other thread actually
uses the registers, then it won't need to do any copying at all!
2012-09-08 18:45:52 +02:00

146 lines
4.3 KiB
C++

/*******************************************************************************
Copyright(C) Jonas 'Sortie' Termansen 2011, 2012.
This file is part of Sortix.
Sortix is free software: you can redistribute it and/or modify it under the
terms of the GNU General Public License as published by the Free Software
Foundation, either version 3 of the License, or (at your option) any later
version.
Sortix is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
details.
You should have received a copy of the GNU General Public License along with
Sortix. If not, see <http://www.gnu.org/licenses/>.
thread.h
Describes a thread belonging to a process.
*******************************************************************************/
#ifndef SORTIX_THREAD_H
#define SORTIX_THREAD_H
#include <sortix/signal.h>
#include "signal.h"
typedef struct multiboot_info multiboot_info_t;
namespace Sortix
{
class Process;
class Thread;
extern "C" void KernelInit(unsigned long magic, multiboot_info_t* bootinfo);
typedef void (*ThreadEntry)(void* user);
// Simply exits the kernel thread.
void KernelThreadExit() SORTIX_NORETURN;
// Internally used as a kernel thread entry point that exits the thread
// upon the actual thread entry returning.
extern "C" void BootstrapKernelThread(void* user, ThreadEntry entry) SORTIX_NORETURN;
// These functions create a new kernel process but doesn't start it.
Thread* CreateKernelThread(Process* process, CPU::InterruptRegisters* regs);
Thread* CreateKernelThread(Process* process, ThreadEntry entry, void* user,
size_t stacksize = 0);
Thread* CreateKernelThread(ThreadEntry entry, void* user, size_t stacksize = 0);
// This function can be used to start a thread from the above functions.
void StartKernelThread(Thread* thread);
// Alternatively, these functions both create and start the thread.
Thread* RunKernelThread(Process* process, CPU::InterruptRegisters* regs);
Thread* RunKernelThread(Process* process, ThreadEntry entry, void* user,
size_t stacksize = 0);
Thread* RunKernelThread(ThreadEntry entry, void* user, size_t stacksize = 0);
void SetupKernelThreadRegs(CPU::InterruptRegisters* regs, ThreadEntry entry,
void* user, addr_t stack, size_t stacksize);
extern "C" void Thread__OnSigKill(Thread* thread);
typedef void (*sighandler_t)(int);
class Thread
{
friend Thread* CreateKernelThread(Process* process,
CPU::InterruptRegisters* regs);
friend void KernelInit(unsigned long magic, multiboot_info_t* bootinfo);
friend void Thread__OnSigKill(Thread* thread);
public:
enum State { NONE, RUNNABLE, BLOCKING, DEAD };
public:
static void Init();
private:
Thread();
public:
~Thread();
public:
size_t id;
Process* process;
bool terminated;
Thread* prevsibling;
Thread* nextsibling;
// These are some things used internally by the scheduler and should not be
// touched by anything but it. Consider it private.
public:
Thread* schedulerlistprev;
Thread* schedulerlistnext;
volatile State state;
uint8_t fpuenv[512UL + 16UL];
uint8_t* fpuenvaligned;
bool fpuinitialized;
public:
addr_t addrspace;
addr_t stackpos;
size_t stacksize;
sighandler_t sighandler;
addr_t kernelstackpos;
size_t kernelstacksize;
bool kernelstackmalloced;
private:
CPU::InterruptRegisters registers;
Signal::Queue signalqueue;
int currentsignal;
int siglevel;
int signums[SIG_NUM_LEVELS];
CPU::InterruptRegisters sigregs[SIG_NUM_LEVELS];
public:
void SaveRegisters(const CPU::InterruptRegisters* src);
void LoadRegisters(CPU::InterruptRegisters* dest);
void HandleSignal(CPU::InterruptRegisters* regs);
void HandleSigreturn(CPU::InterruptRegisters* regs);
bool DeliverSignal(int signum);
addr_t SwitchAddressSpace(addr_t newaddrspace);
private:
void GotoOnSigKill(CPU::InterruptRegisters* regs);
void OnSigKill() SORTIX_NORETURN;
void LastPrayer();
void SetHavePendingSignals();
void HandleSignalFixupRegsCPU(CPU::InterruptRegisters* regs);
void HandleSignalCPU(CPU::InterruptRegisters* regs);
};
Thread* CurrentThread();
}
#endif