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#include "kernel/kern.h"
#include "modules/intdrive.h"
//#include "modules/edf.h"
#include "modules/rm.h"
//#include "modules/hardcbs.h"
#include "modules/cbs.h"
#include "modules/rr.h"
#include "modules/dummy.h"
#include "modules/sem.h"
#include "modules/hartport.h"
#include "modules/cabs.h"
#include "hlp.h"
//#include "modules/srp.h"
//#include "modules/pi.h"
//#include "modules/npp.h"
#include <drivers/shark_linuxc26.h>
#include <drivers/shark_pci26.h>
#include <drivers/shark_input26.h>
#include <drivers/shark_keyb26.h>
#include "ll/i386/x-dos.h"
/*+ sysyem tick in us +*/
#define TICK 0
/*+ RR tick in us +*/
#define RRTICK 2000
/*+ Interrupt Server +*/
#define INTDRIVE_Q 1000
#define INTDRIVE_T 10000
#define INTDRIVE_FLAG 0
void call_shutdown_task(void *arg);
int device_drivers_init();
int device_drivers_close();
void set_shutdown_task();
TASK shutdown_task_body(void *arg);
PID shutdown_task_PID = -1;
/* This is the buffer used by read_myfile */
char myfilebuf[1000];
/* This is the number of bytes read by read_myfile */
int myfilebuf_length;
void read_myfile()
{
/* DOS file descriptor */
DOS_FILE *f;
/* Error code */
int err;
/* open the DOS file for reading (you can specify only "r" or "w") */
f = DOS_fopen("hlp.cfg","r");
/* check for open errors */
if (!f) {
/* error!! */
err = DOS_error();
/* note that if you call DOS_error() here, it return 0!!! */
myfilebuf_length = 0;
return;
}
/* read up to 1000 chars */
myfilebuf_length = DOS_fread(&myfilebuf,1,1000,f);
/* check for errors */
err = DOS_error();
if (err) {
cprintf("Error %d reading myfile.txt...\n", err);
myfilebuf_length = 0;
/* there is not return because I want to close the file! */
}
/* Close the file */
DOS_fclose(f);
}
TIME __kernel_register_levels__(void *arg)
{
struct multiboot_info *mb = (struct multiboot_info *)arg;
INTDRIVE_register_level(INTDRIVE_Q,INTDRIVE_T,INTDRIVE_FLAG);
read_myfile();
// EDF_register_level(EDF_ENABLE_ALL);
RM_register_level(RM_ENABLE_ALL);
// HCBS_register_level(HCBS_ENABLE_ALL, 1);
RR_register_level(RRTICK, RR_MAIN_YES, mb);
CBS_register_level(CBS_ENABLE_ALL, 1);
dummy_register_level();
// SEM_register_module();
//CABS_register_module();
HLP_register_module();
//SRP_register_module();
// PI_register_module();
// NPP_register_module();
return TICK;
}
TASK __init__(void *arg)
{
struct multiboot_info *mb = (struct multiboot_info *)arg;
HARTPORT_init();
/* Create the shutdown task. It will be activated at RUNLEVEL
SHUTDOWN */
set_shutdown_task();
/* Init the drivers */
device_drivers_init();
/* Set the shutdown task activation */
sys_atrunlevel(call_shutdown_task, NULL, RUNLEVEL_SHUTDOWN);
__call_main__(mb);
return (void *)0;
}
void set_shutdown_task() {
/* WARNING: the shutdown task is a background thread. It cannot execute
if the system is overloaded */
NRT_TASK_MODEL nrt;
nrt_task_default_model(nrt);
nrt_task_def_system(nrt);
shutdown_task_PID = task_create("Shutdown Task",shutdown_task_body,&nrt,NULL);
if (shutdown_task_PID == NIL) {
sys_shutdown_message("Error: Cannot create shutdown task\n");
sys_end();
}
}
int device_drivers_init() {
KEYB_PARMS kparms = BASE_KEYB;
LINUXC26_register_module();
PCI26_init();
INPUT26_init();
keyb_def_ctrlC(kparms, NULL);
KEYB26_init(&kparms);
return 0;
}
int device_drivers_close() {
KEYB26_close();
INPUT26_close();
return 0;
}
#define SHUTDOWN_TIMEOUT_SEC 3
void call_shutdown_task(void *arg)
{
struct timespec t;
sys_gettime(&t);
t.tv_sec += SHUTDOWN_TIMEOUT_SEC;
/* Emergency timeout to exit from RUNLEVEL_SHUTDOWN */
kern_event_post(&t,(void *)((void *)sys_abort_shutdown),(void *)0);
task_activate(shutdown_task_PID);
}
TASK shutdown_task_body(void *arg) {
device_drivers_close();
sys_shutdown_message("-- S.Ha.R.K. Closed --\n");
sys_abort_shutdown(0);
return NULL;
}