#ifndef DEF_TASK_H #define DEF_TASK_H #include #include #include "idt.h" #include #include #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 USER_STACK_SIZE 0x10000 //64k, but pages will be mapped one by one as they are used typedef void (*thread_entry)(void*); typedef int FILE; // DUPLICATE FROM vfs/node.h class thread; class node; class process { public: uint32_t pid, uid, privilege, thread_count; process *parent; page_directory *pagedir; size_t stack, data; segment_map *dataseg; bool finished; int retval; thread *threads; thread *threads_waiting; // threads waiting for this process to end earray fd; // file descriptors process() : fd(4, 4) {} // must not be used directly process(process *parent, uint32_t uid, uint32_t privilege); void* set_args(char** args); size_t sbrk(ptrdiff_t size); void finish(int retval); }; class thread { public: class process *process; uint32_t esp, ebp, eip; uint8_t state; void* kernelStack_addr; uint32_t kernelStack_size; thread *next, *queue_next; //queue_next is used in sched.c thread(class process *proc, thread_entry entry_point, void *data, void *u_esp); ~thread(); void wakeUp(); }; extern thread *current_thread; extern process *current_process; void tasking_init(); #ifdef __cplusplus extern "C" void schedule(); #else void schedule(); #endif void tasking_updateKernelPagetable(uint32_t idx, page_table *table, uint32_t tablePhysical); uint32_t tasking_handleException(registers *regs); void thread_goInactive(); //Blocks the current thread. it is then waked up by another thread or a system event. int proc_priv(); //Returns current privilege level // syscalls void thread_exit(); void process_exit(size_t retval); size_t process_sbrk(ptrdiff_t size); void process_brk(size_t ptr); int process_run(char* file, char** args, FILE zero_fd); int process_waitpid(int pid, int block); #endif