minix/kernel/priv.h
2006-03-10 16:10:05 +00:00

100 lines
3.6 KiB
C
Executable file

#ifndef PRIV_H
#define PRIV_H
/* Declaration of the system privileges structure. It defines flags, system
* call masks, an synchronous alarm timer, I/O privileges, pending hardware
* interrupts and notifications, and so on.
* System processes each get their own structure with properties, whereas all
* user processes share one structure. This setup provides a clear separation
* between common and privileged process fields and is very space efficient.
*
* Changes:
* Jul 01, 2005 Created. (Jorrit N. Herder)
*/
#include <minix/com.h>
#include "protect.h"
#include "const.h"
#include "type.h"
/* Max. number of I/O ranges that can be assigned to a process */
#define NR_IO_RANGE 10
/* Max. number of device memory ranges that can be assigned to a process */
#define NR_MEM_RANGE 10
/* Max. number of IRQs that can be assigned to a process */
#define NR_IRQ 4
struct priv {
proc_nr_t s_proc_nr; /* number of associated process */
sys_id_t s_id; /* index of this system structure */
short s_flags; /* PREEMTIBLE, BILLABLE, etc. */
short s_trap_mask; /* allowed system call traps */
sys_map_t s_ipc_from; /* allowed callers to receive from */
sys_map_t s_ipc_to; /* allowed destination processes */
long s_call_mask; /* allowed kernel calls */
sys_map_t s_notify_pending; /* bit map with pending notifications */
irq_id_t s_int_pending; /* pending hardware interrupts */
sigset_t s_sig_pending; /* pending signals */
timer_t s_alarm_timer; /* synchronous alarm timer */
struct far_mem s_farmem[NR_REMOTE_SEGS]; /* remote memory map */
reg_t *s_stack_guard; /* stack guard word for kernel tasks */
int s_nr_io_range; /* allowed I/O ports */
struct io_range s_io_tab[NR_IO_RANGE];
int s_nr_mem_range; /* allowed memory ranges */
struct mem_range s_mem_tab[NR_MEM_RANGE];
int s_nr_irq; /* allowed IRQ lines */
int s_irq_tab[NR_IRQ];
};
/* Guard word for task stacks. */
#define STACK_GUARD ((reg_t) (sizeof(reg_t) == 2 ? 0xBEEF : 0xDEADBEEF))
/* Bits for the system property flags. */
#define PREEMPTIBLE 0x02 /* kernel tasks are not preemptible */
#define BILLABLE 0x04 /* some processes are not billable */
#define SYS_PROC 0x10 /* system processes have own priv structure */
#define CHECK_IO_PORT 0x20 /* check if I/O request is allowed */
#define CHECK_IRQ 0x40 /* check if IRQ can be used */
#define CHECK_MEM 0x80 /* check if (VM) mem map request is allowed */
/* Magic system structure table addresses. */
#define BEG_PRIV_ADDR (&priv[0])
#define END_PRIV_ADDR (&priv[NR_SYS_PROCS])
#define priv_addr(i) (ppriv_addr)[(i)]
#define priv_id(rp) ((rp)->p_priv->s_id)
#define priv(rp) ((rp)->p_priv)
#define id_to_nr(id) priv_addr(id)->s_proc_nr
#define nr_to_id(nr) priv(proc_addr(nr))->s_id
/* The system structures table and pointers to individual table slots. The
* pointers allow faster access because now a process entry can be found by
* indexing the psys_addr array, while accessing an element i requires a
* multiplication with sizeof(struct sys) to determine the address.
*/
EXTERN struct priv priv[NR_SYS_PROCS]; /* system properties table */
EXTERN struct priv *ppriv_addr[NR_SYS_PROCS]; /* direct slot pointers */
/* Unprivileged user processes all share the same privilege structure.
* This id must be fixed because it is used to check send mask entries.
*/
#define USER_PRIV_ID 0
/* Make sure the system can boot. The following sanity check verifies that
* the system privileges table is large enough for the number of processes
* in the boot image.
*/
#if (NR_BOOT_PROCS > NR_SYS_PROCS)
#error NR_SYS_PROCS must be larger than NR_BOOT_PROCS
#endif
#endif /* PRIV_H */