#ifndef DEF_TASK_H
#define DEF_TASK_H
#include <types.h>
#include <mem/paging.h>
#include <lib/earray.h>
#include "idt.h"
#define TS_RUNNING 0
#define TS_WAKEWAIT 2 //Waiting to be waked up by something precise (thread currently blocked)
#define PL_UNKNOWN 2
#define PL_USER 1
#define PL_KERNEL 0
#define EX_TH_NORMAL 0x10000 //ERROR code : just one thread exits, because it has to
#define EX_TH_EXCEPTION 0x10001 //ERROR code : just one thread exits, because of an unhandled exception
#define EX_PR_EXCEPTION 0x10002 //ERROR code : all process finishes, because of an unhandled exception
#define USER_STACK_SIZE 0x10000 //64k, but pages will be mapped one by one as they are used
typedef void (*thread_entry)(void*);
struct process {
uint32_t pid, uid, privilege, thread_count;
struct process *parent;
struct page_directory *pagedir;
size_t stack, data;
struct segment_map *dataseg;
struct earray handles;
struct process *next; //Forms a linked list
struct thread *threads;
};
struct thread {
struct process *process;
uint32_t esp, ebp, eip;
uint8_t state;
uint32_t timeWait;
void* kernelStack_addr;
uint32_t kernelStack_size;
struct thread *next, *queue_next; //queue_next is used in sched.c
};
extern struct thread *current_thread;
#define current_process (current_thread != 0 ? current_thread->process : 0)
void tasking_init();
void schedule();
void tasking_updateKernelPagetable(uint32_t idx, struct page_table *table, uint32_t tablePhysical);
uint32_t tasking_handleException(struct registers *regs);
void thread_goInactive(); //Blocks the current thread. it is then waked up by another thread or a system event.
void thread_wakeUp(struct thread *t);
int proc_priv(); //Returns current privilege level
struct thread * thread_new(struct process *proc, thread_entry entry_point, void *data, void *u_esp);
struct process* process_new(struct process *parent, uint32_t uid, uint32_t privilege);
void thread_exit(); //syscall
void process_exit(size_t retval); //syscall
size_t process_sbrk(size_t size);
void process_brk(size_t ptr);
#endif