#include "syscall.h"
#include "task.h"
#include "timer.h"
#include <ui/vt.h>
#include <core/sys.h>
#include <vfs/node.h>
#define CALL0(name, scname) static void scname(registers* r) { r->eax = name(); }
#define CALL1(name, scname) static void scname(registers* r) { \
r->eax = name(r->ebx); }
#define CALL2(name, scname) static void scname(registers* r) { \
r->eax = name(r->ebx, r->ecx); }
#define CALL3(name, scname) static void scname(registers* r) { \
r->eax = name(r->ebx, r->ecx, r->edx); }
#define CALL4(name, scname) static void scname(registers* r) { \
r->eax = name(r->ebx, r->ecx, r->edx, r->esi); }
#define CALL0V(name, scname) static void scname(registers* r) { name(); }
#define CALL1V(name, scname) static void scname(registers* r) { name(r->ebx); }
#define CALL2V(name, scname) static void scname(registers* r) { name(r->ebx, r->ecx); }
#define CALL3V(name, scname) static void scname(registers* r) { name(r->ebx, r->ecx, r->edx); }
#define CALL4V(name, scname) static void scname(registers* r) { name(r->ebx, r->ecx, r->edx, r->esi); }
CALL0V(thread_exit, thread_exit_sc);
CALL0V(schedule, schedule_sc);
CALL1V(thread_sleep, thread_sleep_sc);
CALL1V(process_exit, process_exit_sc);
CALL1V(idt_waitIrq, irq_wait_sc);
CALL0(proc_priv, proc_priv_sc);
CALL1(process_sbrk, proc_sbrk_sc);
CALL1V(process_brk, proc_brk_sc);
CALL1(process_waitpid, waitpid_sc);
CALL1V(close, close_sc);
static void printk_sc(registers *r) {
ke_vt->writeStr((char*)r->ebx);
}
static void thread_new_sc(registers* r) {
cli();
new thread(current_process, (thread_entry)r->ebx, (void*)r->ecx, (void*)r->edx);
sti();
}
static void run_sc(registers *r) {
r->eax = process_run((char*)r->ebx, (char**)r->ecx);
}
static void open_sc(registers *r) {
r->eax = open((char*)r->ebx, r->ecx);
}
static void open_relative_sc(registers *r) {
r->eax = open_relative(r->ebx, (char*)r->ecx, r->edx);
}
static void stat_sc(registers *r) {
r->eax = stat((char*)r->ebx, (file_info*)r->ecx);
}
static void stat_relative_sc(registers *r) {
r->eax = stat_relative(r->ebx, (char*)r->ecx, (file_info*)r->edx);
}
static void statf_sc(registers *r) {
r->eax = statf(r->ebx, (file_info*)r->ecx);
}
static void read_sc(registers *r) {
r->eax = read(r->ebx, r->ecx, r->edx, (char*)r->esi);
}
static void write_sc(registers *r) {
r->eax = write(r->ebx, r->ecx, r->edx, (char*)r->esi);
}
static void link_sc(registers *r) {
r->eax = link((char*)r->ebx, (char*)r->ecx, r->edx);
}
int_callback syscalls[NUMBER_OF_SYSCALLS] = { // This must correspond to common/include/tce/syscalls.h
0, // 0
thread_exit_sc,
schedule_sc,
thread_sleep_sc,
process_exit_sc,
printk_sc, //5
thread_new_sc,
irq_wait_sc,
proc_priv_sc,
0,
proc_sbrk_sc, //10
proc_brk_sc,
0,
0,
run_sc,
waitpid_sc, //15
0,
0,
0,
0,
open_sc, //20
open_relative_sc,
stat_sc,
stat_relative_sc,
statf_sc,
close_sc, //25
read_sc,
write_sc,
link_sc,
0
};
/* Called in idt_.asm on a system call (interrupt 64).
Calls the correct syscall handler (if any). */
extern "C" void idt_syscallHandler(registers regs) {
if (regs.eax < NUMBER_OF_SYSCALLS && syscalls[regs.eax] != 0) {
syscalls[regs.eax](®s);
}
}