blob: a43edf6454daac0eee9bc0c6af7adc2d1b7422aa [file] [log] [blame]
with Ada.Unchecked_Conversion;
with Interfaces.C;
use Interfaces.C;
package body FILO.FS.VFS is
State : T := Initial;
Path_Max : constant := 4096;
Max_Link_Depth : constant := 32;
subtype Path_Length is Natural range 0 .. Path_Max;
subtype Path_Index_Plus is Positive range 1 .. Path_Max + 1;
subtype Path_Index is Path_Index_Plus range 1 .. Path_Max;
subtype Path_Buffer is Buffer_Type (Path_Index)
with
Object_Size => Path_Max * 8;
Path_Buf : Path_Buffer;
subtype Path_String is String (Path_Index)
with
Object_Size => Path_Max * 8;
Path : Path_String;
function C_Mount return int
with
SPARK_Mode => Off
is
Success : Boolean;
begin
if not Is_Mounted (State) then
State := Initial; -- Work around not having an unmount in FILO.
end if;
Mount (State, Part_Len, Success);
return (if Success then 1 else 0);
end C_Mount;
procedure Open (File_Path : System.Address; Ret : out int)
is
function Str_Len (S : System.Address) return Natural;
function Str_Len (S : System.Address) return Natural
with
SPARK_Mode => Off
is
Buf : Buffer_Type (1 .. Path_Max + 1)
with
Convention => C,
Address => S;
begin
for I in Buf'Range loop
if Buf (I) = 16#00# then
return I - 1;
end if;
end loop;
return Path_Max + 1;
end Str_Len;
procedure Str_Cpy (Dst : out String; Src : in System.Address);
procedure Str_Cpy (Dst : out String; Src : in System.Address)
with
SPARK_Mode => Off
is
Src_String : String (Dst'Range)
with
Convention => C,
Address => Src;
begin
Dst := Src_String;
end Str_Cpy;
function Component_Start (Path : Path_String; Pos : Positive) return Path_Index_Plus is
begin
for I in Pos .. Path'Last loop
if Path (I) /= '/' then
return I;
end if;
end loop;
return Path'Last + 1;
end Component_Start;
function Component_End (Path : Path_String; Start : Path_Index_Plus; Limit : Path_Index) return Path_Length
with
Post => Component_End'Result <= Limit
is
begin
for I in Start .. Limit loop
if Path (I) = '/' or Is_Space (Path (I)) then
return I - 1;
end if;
end loop;
return Limit;
end Component_End;
function Path_End (Path : Path_String; Start : Path_Index) return Path_Length is
begin
for I in Start .. Path'Last loop
if Is_Space (Path (I)) then
return I - 1;
end if;
end loop;
return Path'Last;
end Path_End;
procedure Read_Link
(Path : in out Path_String;
Rest_First : in Path_Index_Plus;
Rest_Last : in Path_Index;
Link_Len : in Natural;
Success : out Boolean)
with
Pre =>
Is_Open (State) and
Rest_First - 1 <= Rest_Last,
Post =>
Is_Open (State)
is
function As_String is new Ada.Unchecked_Conversion (Path_Buffer, Path_String);
Rest_Len : constant Natural := Rest_Last - Rest_First + 1;
File_Pos : File_Offset := 0;
Read_Len : Natural;
begin
if Path_Max - Rest_Len < Link_Len then
Success := False;
return;
end if;
Read
(State => State,
File_Pos => File_Pos,
Buf => Path_Buf (1 .. Link_Len),
Len => Read_Len);
Success := Read_Len = Link_Len;
if Success then
Path (Link_Len + 1 .. Link_Len + Rest_Len) := Path (Rest_First .. Rest_Last);
Path (Link_Len + Rest_Len + 1 .. Path'Last) := (others => ' ');
Path (1 .. Link_Len) := As_String (Path_Buf) (1 .. Link_Len);
end if;
end Read_Link;
Path_Len : constant Natural := Str_Len (File_Path);
Root_Dir : Boolean := True;
begin
Ret := 0;
if not Is_Mounted (State) or Path_Len > Path_Max then
return;
end if;
Str_Cpy (Path (1 .. Path_Len), File_Path);
Path (Path_Len + 1 .. Path'Last) := (others => ' ');
Link_Loop :
for I in 1 .. Max_Link_Depth loop
pragma Loop_Invariant (Is_Mounted (State));
declare
Path_Pos : Path_Index_Plus := Path'First;
Path_Last : constant Path_Length := Path_End (Path, Path_Pos);
begin
if Path_Last < Path'First then
return;
end if;
Path_Loop :
loop
pragma Loop_Invariant
(Is_Mounted (State) and
Path_Last in Path'Range);
declare
Comp_First : constant Path_Index_Plus := Component_Start (Path, Path_Pos);
Comp_Last : constant Path_Length := Component_End (Path, Comp_First, Path_Last);
File_Type : FS.File_Type;
File_Len : File_Length;
Success : Boolean;
begin
if Comp_First > Comp_Last then
return;
end if;
Open
(State => State,
File_Len => File_Len,
File_Type => File_Type,
File_Name => Path (Comp_First .. Comp_Last),
In_Root => Root_Dir,
Success => Success);
if not Success then
return;
end if;
Root_Dir := False;
case File_Type is
when Dir =>
if Comp_Last = Path_Last then
Close (State);
return;
end if;
Path_Pos := Comp_Last + 1;
when Regular =>
if Comp_Last = Path_Last then
Set_File_Max (File_Len);
Ret := 1;
return;
else
Close (State);
return;
end if;
when Link =>
if File_Len > Path_Max then
Success := False;
else
Read_Link
(Path => Path,
Rest_First => Comp_Last + 1,
Rest_Last => Path_Last,
Link_Len => Natural (File_Len),
Success => Success);
end if;
Close (State);
if not Success then
return;
end if;
Root_Dir := Path (1) = '/';
exit Path_Loop; -- continue in Link_Loop
end case;
end;
end loop Path_Loop;
end;
end loop Link_Loop;
end Open;
function C_Open (File_Path : System.Address) return int
with
SPARK_Mode => Off
is
Ret : int;
begin
if Is_Mounted (State) then
Open (File_Path, Ret);
else
Ret := 0;
end if;
return Ret;
end C_Open;
procedure C_Close is
begin
if Is_Open (State) then
Close (State);
end if;
end C_Close;
function C_Read (Buf : System.Address; Len : int) return int
with
SPARK_Mode => Off
is
subtype Buffer_Range is Natural range 0 .. Integer (Len) - 1;
Buffer : Buffer_Type (Buffer_Range)
with
Convention => C,
Address => Buf;
File_Pos : File_Offset := FILO.FS.File_Pos;
Read_Len : Natural;
begin
if Is_Open (State) then
Read (State, File_Pos, Buffer, Read_Len);
Set_File_Pos (File_Pos);
else
Read_Len := 0;
end if;
return int (Read_Len);
end C_Read;
end FILO.FS.VFS;