minix/lib/libsys/sef.c
Lionel Sambuc c3fc9df84a Adding ipc_ prefix to ipc primitives
* Also change _orig to _intr for clarity
 * Cleaned up {IPC,KER}VEC
 * Renamed _minix_kernel_info_struct to get_minix_kerninfo
 * Merged _senda.S into _ipc.S
 * Moved into separate files get_minix_kerninfo and _do_kernel_call
 * Adapted do_kernel_call to follow same _ convention as ipc functions
 * Drop patches in libc/net/send.c and libc/include/namespace.h

Change-Id: If4ea21ecb65435170d7d87de6c826328e84c18d0
2014-03-01 09:05:01 +01:00

326 lines
9.9 KiB
C

#include "syslib.h"
#include <assert.h>
#include <minix/sysutil.h>
#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <string.h>
/* Self variables. */
#define SEF_SELF_NAME_MAXLEN 20
char sef_self_name[SEF_SELF_NAME_MAXLEN];
endpoint_t sef_self_endpoint = NONE;
int sef_self_priv_flags;
int sef_self_first_receive_done;
int sef_self_receiving;
/* Debug. */
#if SEF_INIT_DEBUG || SEF_LU_DEBUG || SEF_PING_DEBUG || SEF_SIGNAL_DEBUG
#define SEF_DEBUG_HEADER_MAXLEN 32
static time_t sef_debug_boottime = 0;
static u32_t sef_debug_system_hz = 0;
static time_t sef_debug_time_sec = 0;
static time_t sef_debug_time_us = 0;
static char sef_debug_header_buff[SEF_DEBUG_HEADER_MAXLEN];
static void sef_debug_refresh_params(void);
char* sef_debug_header(void);
#endif
/* SEF Init prototypes. */
#ifdef USE_COVERAGE
EXTERN int do_sef_gcov_request(message *m_ptr);
#endif
EXTERN int do_sef_rs_init(endpoint_t old_endpoint);
EXTERN int do_sef_init_request(message *m_ptr);
/* SEF Ping prototypes. */
EXTERN int do_sef_ping_request(message *m_ptr);
/* SEF Live update prototypes. */
EXTERN void do_sef_lu_before_receive(void);
EXTERN int do_sef_lu_request(message *m_ptr);
/* SEF Signal prototypes. */
EXTERN int do_sef_signal_request(message *m_ptr);
/*===========================================================================*
* sef_startup *
*===========================================================================*/
void sef_startup()
{
/* SEF startup interface for system services. */
int r, status;
endpoint_t old_endpoint;
int priv_flags;
/* Get information about self. */
r = sys_whoami(&sef_self_endpoint, sef_self_name, SEF_SELF_NAME_MAXLEN,
&priv_flags);
if ( r != OK) {
sef_self_endpoint = SELF;
strlcpy(sef_self_name, "Unknown", sizeof(sef_self_name));
}
sef_self_priv_flags = priv_flags;
old_endpoint = NONE;
#if USE_LIVEUPDATE
/* RS may wake up with the wrong endpoint, perfom the update in that case. */
if((sef_self_priv_flags & ROOT_SYS_PROC) && sef_self_endpoint != RS_PROC_NR) {
r = vm_update(RS_PROC_NR, sef_self_endpoint);
if(r != OK) {
panic("unable to update RS from instance %d to %d: %d",
RS_PROC_NR, sef_self_endpoint, r);
}
old_endpoint = sef_self_endpoint;
sef_self_endpoint = RS_PROC_NR;
}
#endif /* USE_LIVEUPDATE */
#if INTERCEPT_SEF_INIT_REQUESTS
/* Intercept SEF Init requests. */
if(sef_self_priv_flags & ROOT_SYS_PROC) {
/* RS initialization is special. */
if((r = do_sef_rs_init(old_endpoint)) != OK) {
panic("RS unable to complete init: %d", r);
}
}
else if(sef_self_endpoint == VM_PROC_NR) {
/* VM handles initialization by RS later */
} else {
message m;
/* Wait for an initialization message from RS. We need this to learn the
* initialization type and parameters. When restarting after a crash, we
* may get some spurious IPC messages from RS (e.g. update request) that
* were originally meant to be delivered to the old instance. We discard
* these messages and block till a proper initialization request arrives.
*/
do {
r = ipc_receive(RS_PROC_NR, &m, &status);
if(r != OK) {
panic("unable to ipc_receive from RS: %d", r);
}
} while(!IS_SEF_INIT_REQUEST(&m));
/* Process initialization request for this system service. */
if((r = do_sef_init_request(&m)) != OK) {
panic("unable to process init request: %d", r);
}
}
#endif
/* (Re)initialize SEF variables. */
sef_self_first_receive_done = FALSE;
sef_self_priv_flags = priv_flags;
}
/*===========================================================================*
* sef_receive_status *
*===========================================================================*/
int sef_receive_status(endpoint_t src, message *m_ptr, int *status_ptr)
{
/* SEF receive() interface for system services. */
int r, status;
sef_self_receiving = TRUE;
while(TRUE) {
/* If the caller indicated that it no longer wants to receive a message,
* return now.
*/
if (!sef_self_receiving)
return EINTR;
#if INTERCEPT_SEF_LU_REQUESTS
/* Handle SEF Live update before receive events. */
do_sef_lu_before_receive();
#endif
/* Receive and return in case of error. */
r = ipc_receive(src, m_ptr, &status);
if(status_ptr) *status_ptr = status;
if(!sef_self_first_receive_done) sef_self_first_receive_done = TRUE;
if(r != OK) {
return r;
}
#if INTERCEPT_SEF_PING_REQUESTS
/* Intercept SEF Ping requests. */
if(IS_SEF_PING_REQUEST(m_ptr, status)) {
if(do_sef_ping_request(m_ptr) == OK) {
continue;
}
}
#endif
#if INTERCEPT_SEF_LU_REQUESTS
/* Intercept SEF Live update requests. */
if(IS_SEF_LU_REQUEST(m_ptr, status)) {
if(do_sef_lu_request(m_ptr) == OK) {
continue;
}
}
#endif
#if INTERCEPT_SEF_SIGNAL_REQUESTS
/* Intercept SEF Signal requests. */
if(IS_SEF_SIGNAL_REQUEST(m_ptr, status)) {
if(do_sef_signal_request(m_ptr) == OK) {
continue;
}
}
#endif
#ifdef USE_COVERAGE
/* Intercept GCOV data requests (sent by VFS in vfs/gcov.c). */
if(m_ptr->m_type == COMMON_REQ_GCOV_DATA &&
m_ptr->m_source == VFS_PROC_NR) {
if(do_sef_gcov_request(m_ptr) == OK) {
continue;
}
}
#endif
/* If we get this far, this is not a valid SEF request, return and
* let the caller deal with that.
*/
break;
}
return r;
}
/*===========================================================================*
* sef_self *
*===========================================================================*/
endpoint_t sef_self(void)
{
/* Return the process's own endpoint number. */
if (sef_self_endpoint == NONE)
panic("sef_self called before initialization");
return sef_self_endpoint;
}
/*===========================================================================*
* sef_cancel *
*===========================================================================*/
void sef_cancel(void)
{
/* Cancel receiving a message. This function be called from a callback invoked
* from within sef_receive_status(), which will then return an EINTR error
* code. In particular, this function can be used to exit from the main receive
* loop when a signal handler causes the process to want to shut down.
*/
sef_self_receiving = FALSE;
}
/*===========================================================================*
* sef_exit *
*===========================================================================*/
void sef_exit(int status)
{
/* System services use a special version of exit() that generates a
* self-termination signal.
*/
message m;
/* Ask the kernel to exit. */
sys_exit();
/* If sys_exit() fails, this is not a system service. Exit through PM. */
memset(&m, 0, sizeof(m));
m.PM_EXIT_STATUS = status;
_syscall(PM_PROC_NR, PM_EXIT, &m);
/* If everything else fails, hang. */
printf("Warning: system service %d couldn't exit\n", sef_self_endpoint);
for(;;) { }
}
/*===========================================================================*
* _exit *
*===========================================================================*/
void _exit(int status)
{
/* Make exit() an alias for sef_exit() for system services. */
sef_exit(status);
panic("sef_exit failed");
}
/*===========================================================================*
* __exit *
*===========================================================================*/
void __exit(int status)
{
/* Make exit() an alias for sef_exit() for system services. */
sef_exit(status);
panic("sef_exit failed");
}
#if SEF_INIT_DEBUG || SEF_LU_DEBUG || SEF_PING_DEBUG || SEF_SIGNAL_DEBUG
/*===========================================================================*
* sef_debug_refresh_params *
*===========================================================================*/
static void sef_debug_refresh_params(void)
{
/* Refresh SEF debug params. */
clock_t uptime;
int r;
/* Get boottime the first time. */
if(!sef_debug_boottime) {
r = sys_times(NONE, NULL, NULL, NULL, &sef_debug_boottime);
if ( r != OK) {
sef_debug_boottime = -1;
}
}
/* Get system hz the first time. */
if(!sef_debug_system_hz) {
r = sys_getinfo(GET_HZ, &sef_debug_system_hz,
sizeof(sef_debug_system_hz), 0, 0);
if ( r != OK) {
sef_debug_system_hz = -1;
}
}
/* Get uptime. */
uptime = -1;
if(sef_debug_boottime!=-1 && sef_debug_system_hz!=-1) {
r = sys_times(NONE, NULL, NULL, &uptime, NULL);
if ( r != OK) {
uptime = -1;
}
}
/* Compute current time. */
if(sef_debug_boottime==-1 || sef_debug_system_hz==-1 || uptime==-1) {
sef_debug_time_sec = 0;
sef_debug_time_us = 0;
}
else {
sef_debug_time_sec = (time_t) (sef_debug_boottime
+ (uptime/sef_debug_system_hz));
sef_debug_time_us = (uptime%sef_debug_system_hz)
* 1000000/sef_debug_system_hz;
}
}
/*===========================================================================*
* sef_debug_header *
*===========================================================================*/
char* sef_debug_header(void)
{
/* Build and return a SEF debug header. */
sef_debug_refresh_params();
snprintf(sef_debug_header_buff, sizeof(sef_debug_header_buff),
"%s: time = %ds %06dus", sef_self_name, (int) sef_debug_time_sec,
(int) sef_debug_time_us);
return sef_debug_header_buff;
}
#endif /*SEF_INIT_DEBUG || SEF_LU_DEBUG || SEF_PING_DEBUG || SEF_SIGNAL_DEBUG*/