minix/kernel/priv.h
David van Moolenbroek 8fea5ab8bd Kernel: make SIGKMESS target process list dynamic
The set of processes to which a SIGKMESS signal is sent whenever new
diagnostics messages are added to the kernel's message buffer, is now
no longer hardcoded. Instead, processes can (un)register themselves
to receive such notifications, by means of sys_diagctl().

Change-Id: I9d6ac006a5d9bbfad2757587a068fc1ec3cc083e
2014-03-01 09:04:54 +01:00

98 lines
3.7 KiB
C

#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:
* Nov 22, 2009 rewrite of privilege management (Cristiano Giuffrida)
* Jul 01, 2005 Created. (Jorrit N. Herder)
*/
#include <minix/com.h>
#include <minix/const.h>
#include <minix/priv.h>
#include "kernel/const.h"
#include "kernel/type.h"
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. */
/* Asynchronous sends */
vir_bytes s_asyntab; /* addr. of table in process' address space */
size_t s_asynsize; /* number of elements in table. 0 when not in
* use
*/
short s_trap_mask; /* allowed system call traps */
sys_map_t s_ipc_to; /* allowed destination processes */
/* allowed kernel calls */
bitchunk_t s_k_call_mask[SYS_CALL_MASK_SIZE];
endpoint_t s_sig_mgr; /* signal manager for system signals */
endpoint_t s_bak_sig_mgr; /* backup signal manager for system signals */
sys_map_t s_notify_pending; /* bit map with pending notifications */
sys_map_t s_asyn_pending; /* bit map with pending asyn messages */
irq_id_t s_int_pending; /* pending hardware interrupts */
sigset_t s_sig_pending; /* pending signals */
minix_timer_t s_alarm_timer; /* synchronous alarm timer */
reg_t *s_stack_guard; /* stack guard word for kernel tasks */
char s_diag_sig; /* send a SIGKMESS when diagnostics arrive? */
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 minix_mem_range s_mem_tab[NR_MEM_RANGE];
int s_nr_irq; /* allowed IRQ lines */
int s_irq_tab[NR_IRQ];
vir_bytes s_grant_table; /* grant table address of process, or 0 */
int s_grant_entries; /* no. of entries, or 0 */
};
/* Guard word for task stacks. */
#define STACK_GUARD ((reg_t) (sizeof(reg_t) == 2 ? 0xBEEF : 0xDEADBEEF))
/* Magic system structure table addresses. */
#define BEG_PRIV_ADDR (&priv[0])
#define END_PRIV_ADDR (&priv[NR_SYS_PROCS])
#define BEG_STATIC_PRIV_ADDR BEG_PRIV_ADDR
#define END_STATIC_PRIV_ADDR (BEG_STATIC_PRIV_ADDR + NR_STATIC_PRIV_IDS)
#define BEG_DYN_PRIV_ADDR END_STATIC_PRIV_ADDR
#define END_DYN_PRIV_ADDR END_PRIV_ADDR
#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
#define may_send_to(rp, nr) (get_sys_bit(priv(rp)->s_ipc_to, nr_to_id(nr)))
/* 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 */
/* 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 */