minix/servers/rs/type.h
David van Moolenbroek 664b726cd3 VFS: further cleanup of device code
- all TTY-related exceptions have now been merged into the regular
  code paths, allowing non-TTY drivers to expose TTY-like devices;
- as part of this, CTTY_MAJOR is now fully managed by VFS instead of
  being an ugly stepchild of the TTY driver;
- device styles have become completely obsolete, support for them has
  been removed throughout the system; same for device flags, which had
  already become useless a while ago;
- device map open/close and I/O function pointers have lost their use,
  thus finally making the VFS device code actually readable;
- the device-unrelated pm_setsid has been moved to misc.c;
- some other small cleanup-related changes.

Change-Id: If90b10d1818e98a12139da3e94a15d250c9933da
2014-03-01 09:04:58 +01:00

86 lines
3.1 KiB
C

/* Type definitions used in RS.
*/
#ifndef RS_TYPE_H
#define RS_TYPE_H
/* Definition of an entry of the boot image priv table. */
struct boot_image_priv {
endpoint_t endpoint; /* process endpoint number */
char label[RS_MAX_LABEL_LEN]; /* label to assign to this service */
int flags; /* privilege flags */
};
/* Definition of an entry of the boot image sys table. */
struct boot_image_sys {
endpoint_t endpoint; /* process endpoint number */
int flags; /* system flags */
};
/* Definition of an entry of the boot image dev table. */
struct boot_image_dev {
endpoint_t endpoint; /* process endpoint number */
dev_t dev_nr; /* major device number */
};
/* Definition of an entry of the system process table. */
struct rproc {
struct rprocpub *r_pub; /* pointer to the corresponding public entry */
struct rproc *r_old_rp; /* pointer to the slot with the old version */
struct rproc *r_new_rp; /* pointer to the slot with the new version */
struct rproc *r_prev_rp; /* pointer to the slot with the prev replica */
struct rproc *r_next_rp; /* pointer to the slot with the next replica */
pid_t r_pid; /* process id, -1 if the process is not there */
int r_restarts; /* number of restarts (initially zero) */
long r_backoff; /* number of periods to wait before revive */
unsigned r_flags; /* status and policy flags */
long r_period; /* heartbeat period (or zero) */
clock_t r_check_tm; /* timestamp of last check */
clock_t r_alive_tm; /* timestamp of last heartbeat */
clock_t r_stop_tm; /* timestamp of SIGTERM signal */
endpoint_t r_caller; /* RS_LATEREPLY caller */
int r_caller_request; /* RS_LATEREPLY caller request */
char r_cmd[MAX_COMMAND_LEN]; /* raw command plus arguments */
char r_args[MAX_COMMAND_LEN]; /* null-separated raw command plus arguments */
#define ARGV_ELEMENTS (MAX_NR_ARGS+2) /* path, args, null */
char *r_argv[ARGV_ELEMENTS];
int r_argc; /* number of arguments */
char r_script[MAX_SCRIPT_LEN]; /* name of the restart script executable */
char *r_exec; /* Executable image */
size_t r_exec_len; /* Length of image */
struct priv r_priv; /* Privilege structure to be passed to the
* kernel.
*/
uid_t r_uid;
endpoint_t r_scheduler; /* scheduler */
int r_priority; /* negative values are reserved for special meanings */
int r_quantum;
int r_cpu;
/* Backup values from the privilege structure. */
struct io_range r_io_tab[NR_IO_RANGE];
int r_nr_io_range;
int r_irq_tab[NR_IRQ];
int r_nr_irq;
char r_ipc_list[MAX_IPC_LIST];
int r_nr_control;
char r_control[RS_NR_CONTROL][RS_MAX_LABEL_LEN];
};
/* Definition of the global update descriptor. */
struct rupdate {
int flags; /* flags to keep track of the status of the update */
clock_t prepare_tm; /* timestamp of when the update was scheduled */
clock_t prepare_maxtime; /* max time to wait for the process to be ready */
struct rproc *rp; /* the process under update */
};
#endif /* RS_TYPE_H */