Kernel/syscalls.c

   1 /*
   2  * AcessOS Microkernel Version
   3  * syscalls.c
   4  */
   5 #define DEBUG   0
   6
   7 #include <common.h>
   8 #include <syscalls.h>
   9 #include <proc.h>
  10 #include <errno.h>
  11
  12 // === IMPORTS ===
  13 extern int      Proc_Clone(Uint *Err, Uint Flags);
  14 extern int      Threads_WaitTID(int TID, int *status);
  15 extern Uint     Proc_SendMessage(Uint *Err, Uint Dest, Uint Length, void *Data);
  16 extern int      Proc_GetMessage(Uint *Err, Uint *Source, void *Buffer);
  17 extern int      Proc_Execve(char *File, char **ArgV, char **EnvP);
  18 extern Uint     Binary_Load(char *file, Uint *entryPoint);
  19 extern int      VFS_FInfo(int FD, void *Dest, int MaxACLs);
  20 extern int      VFS_GetACL(int FD, void *Dest);
  21 extern int      VFS_ChDir(char *Dest);
  22 extern int      Threads_SetName(char *NewName);
  23 extern int      Threads_GetPID();
  24 extern int      Threads_GetTID();
  25 extern int      Threads_GetUID();
  26 extern int      Threads_GetGID();
  27
  28 // === PROTOTYPES ===
  29  int    Syscall_ValidString(Uint Addr);
  30  int    Syscall_Valid(int Size, Uint Addr);
  31
  32 // === CODE ===
  33 // TODO: Do sanity checking on arguments, ATM the user can really fuck with the kernel
  34 void SyscallHandler(tSyscallRegs *Regs)
  35 {
  36         Uint64  ret = 0;
  37         Uint    err = 0;
  38         #if DEBUG
  39         ENTER("iThread iNum", Threads_GetTID(), Regs->Num);
  40         if(Regs->Num < NUM_SYSCALLS)
  41                 LOG("Syscall %s", cSYSCALL_NAMES[Regs->Num]);
  42         LOG("Arg1: 0x%x, Arg2: 0x%x, Arg3: 0x%x", Regs->Arg1, Regs->Arg2, Regs->Arg3);
  43         #endif
  44
  45         switch(Regs->Num)
  46         {
  47         // -- Exit the current thread
  48         case SYS_EXIT:  Threads_Exit(0, Regs->Arg1);    break;
  49
  50         // -- Put the current thread to sleep
  51         case SYS_SLEEP: Threads_Sleep();        break;
  52
  53         // -- Yield current timeslice
  54         case SYS_YIELD: Threads_Yield();        break;
  55
  56         // -- Clone the current thread
  57         case SYS_CLONE:
  58                 // Call clone system call
  59                 ret = Proc_Clone(&err, Regs->Arg1);
  60                 // Change user stack if a new stack address is passed
  61                 if(ret == 0 && Regs->Arg2)
  62                         Regs->StackPointer = Regs->Arg2;
  63                 break;
  64
  65         // -- Send a signal
  66         case SYS_KILL:
  67                 err = -ENOSYS;
  68                 ret = -1;
  69                 break;
  70
  71         // -- Wait for a thread
  72         case SYS_WAITTID:
  73                 ret = Threads_WaitTID(Regs->Arg1, (void*)Regs->Arg2);
  74                 break;
  75
  76         // -- Get the physical address of a page
  77         case SYS_GETPHYS:
  78                 ret = MM_GetPhysAddr(Regs->Arg1);
  79                 break;
  80
  81         // -- Map an address
  82         case SYS_MAP:   MM_Map(Regs->Arg1, Regs->Arg2); break;
  83
  84         // -- Allocate an address
  85         case SYS_ALLOCATE:      ret = MM_Allocate(Regs->Arg1);  break;
  86
  87         // -- Unmap an address
  88         case SYS_UNMAP:         MM_Deallocate(Regs->Arg1);      break;
  89
  90         // -- Get Thread/Process IDs
  91         case SYS_GETTID:        ret = Threads_GetTID(); break;
  92         case SYS_GETPID:        ret = Threads_GetPID(); break;
  93
  94         // -- Get User/Group IDs
  95         case SYS_GETUID:        ret = Threads_GetUID(); break;
  96         case SYS_GETGID:        ret = Threads_GetGID(); break;
  97
  98         // -- Set User/Group IDs
  99         case SYS_SETUID:        Log("Setting User ID to %i", Regs->Arg1);       break;
 100         case SYS_SETGID:        Log("Setting Group ID to %i", Regs->Arg1);      break;
 101
 102         // -- Send Message
 103         case SYS_SENDMSG:
 104                 ret = Proc_SendMessage(&err, Regs->Arg1, Regs->Arg2, (void*)Regs->Arg3);
 105                 break;
 106         // -- Check for messages
 107         case SYS_GETMSG:
 108                 ret = Proc_GetMessage(&err, (Uint*)Regs->Arg1, (void*)Regs->Arg2);
 109                 break;
 110
 111         // -- Set the thread's name
 112         case SYS_SETNAME:
 113                 // Sanity Check
 114                 if(!Regs->Arg1) {       ret = -1;       err = -EINVAL;  break;  }
 115                 Threads_SetName( (void*)Regs->Arg1 );
 116                 break;
 117
 118         // ---
 119         // Binary Control
 120         // ---
 121         case SYS_EXECVE:
 122                 if( !Syscall_ValidString(Regs->Arg1) ) {
 123                         err = -EINVAL;
 124                         ret = -1;
 125                         break;
 126                 }
 127                 ret = Proc_Execve((char*)Regs->Arg1, (char**)Regs->Arg2, (char**)Regs->Arg3);
 128                 break;
 129         case SYS_LOADBIN:
 130                 if( !Syscall_ValidString(Regs->Arg1)
 131                 ||  !Syscall_Valid(sizeof(Uint), Regs->Arg2) ) {
 132                         err = -EINVAL;
 133                         ret = -1;
 134                         break;
 135                 }
 136                 ret = Binary_Load((char*)Regs->Arg1, (Uint*)Regs->Arg2);
 137                 break;
 138
 139         // ---
 140         // Virtual Filesystem
 141         // ---
 142         case SYS_OPEN:
 143                 if( !Syscall_ValidString(Regs->Arg1) ) {
 144                         err = -EINVAL;
 145                         ret = -1;
 146                         break;
 147                 }
 148                 ret = VFS_Open((char*)Regs->Arg1, Regs->Arg2 | VFS_OPENFLAG_USER);
 149                 break;
 150
 151         case SYS_CLOSE:
 152                 VFS_Close( Regs->Arg1 );
 153                 break;
 154
 155         case SYS_WRITE:
 156                 #if BITS < 64
 157                 ret = VFS_Write( Regs->Arg1, Regs->Arg2|((Uint64)Regs->Arg3<<32), (void*)Regs->Arg4 );
 158                 #else
 159                 ret = VFS_Write( Regs->Arg1, Regs->Arg2, (void*)Regs->Arg3 );
 160                 #endif
 161                 break;
 162
 163         case SYS_READ:
 164                 #if BITS < 64
 165                 ret = VFS_Read( Regs->Arg1, Regs->Arg2|((Uint64)Regs->Arg3<<32), (void*)Regs->Arg4 );
 166                 #else
 167                 ret = VFS_Read( Regs->Arg1, Regs->Arg2, (void*)Regs->Arg3 );
 168                 #endif
 169                 break;
 170
 171         case SYS_FINFO:
 172                 ret = VFS_FInfo( Regs->Arg1, (void*)Regs->Arg2, Regs->Arg3 );
 173                 break;
 174
 175         // Get ACL Value
 176         case SYS_GETACL:
 177                 if( !Syscall_Valid(8, Regs->Arg1) ) {
 178                         err = -EINVAL;
 179                         ret = -1;
 180                         break;
 181                 }
 182                 ret = VFS_GetACL( Regs->Arg1, (void*)Regs->Arg2 );
 183                 break;
 184
 185         // Read Directory
 186         case SYS_READDIR:
 187                 if( !Syscall_ValidString(Regs->Arg2) ) {
 188                         err = -EINVAL;
 189                         ret = -1;
 190                         break;
 191                 }
 192                 ret = VFS_ReadDir( Regs->Arg1, (void*)Regs->Arg2 );
 193                 break;
 194
 195         // Change Directory
 196         case SYS_CHDIR:
 197                 if( !Syscall_ValidString(Regs->Arg1) ) {
 198                         err = -EINVAL;
 199                         ret = -1;
 200                         break;
 201                 }
 202                 ret = VFS_ChDir( (void*)Regs->Arg1 );
 203                 break;
 204
 205         // -- Debug
 206         case SYS_DEBUG:
 207                 Log((char*)Regs->Arg1,
 208                         Regs->Arg2, Regs->Arg3, Regs->Arg4, Regs->Arg5, Regs->Arg6);
 209                 break;
 210
 211         // -- Default (Return Error)
 212         default:
 213                 Warning("SyscallHandler: Unknown System Call %i", Regs->Num);
 214                 if(Regs->Num < NUM_SYSCALLS)
 215                         Warning(" Syscall '%s'", cSYSCALL_NAMES[Regs->Num]);
 216                 err = -ENOSYS;
 217                 ret = -1;
 218                 break;
 219         }
 220         #if BITS < 64
 221         Regs->Return = ret&0xFFFFFFFF;
 222         Regs->RetHi = ret >> 32;
 223         #else
 224         Regs->Return = ret;
 225         #endif
 226         Regs->Error = err;
 227         #if DEBUG
 228         LOG("SyscallHandler: err = %i", err);
 229         LEAVE('x', ret);
 230         #endif
 231 }
 232
 233 /**
 234  * \fn int Syscall_ValidString(Uint Addr)
 235  * \brief Checks if a memory address contains a valid string
 236  */
 237 int Syscall_ValidString(Uint Addr)
 238 {
 239         // Check 1st page
 240         if(!MM_GetPhysAddr(Addr))       return 0;
 241
 242         // Traverse String
 243         while(*(char*)Addr)
 244         {
 245                 if(!MM_GetPhysAddr(Addr))       return 0;
 246                 // Increment string pointer
 247                 Addr ++;
 248         }
 249
 250         return 1;
 251 }
 252
 253 /**
 254  * \fn int Syscall_Valid(int Size, Uint Addr)
 255  * \brief Checks if a memory address is valid
 256  */
 257 int Syscall_Valid(int Size, Uint Addr)
 258 {
 259         while(Size--)
 260         {
 261                 if(!MM_GetPhysAddr(Addr))       return 0;
 262                 Addr ++;
 263         }
 264         return 1;
 265 }