src/filo-fs-ext2.adb - filo-scratch - Gitiles

 -- Derived from GRUB  --  GRand Unified Bootloader
 -- Copyright (C) 1999, 2001, 2003  Free Software Foundation, Inc.
 -- Copyright (C) 2023 secunet Security Networks AG
 --
 -- This program is free software; you can redistribute it and/or modify
 -- it under the terms of the GNU General Public License as published by
 -- the Free Software Foundation; either version 2 of the License, or
 -- (at your option) any later version.

 with System;
 with Interfaces;
 with Interfaces.C;
 with Interfaces.C.Strings;

 with FILO.Blockdev;
 with FILO.FS.VFS;

 use Interfaces.C;

 package body FILO.FS.Ext2 is

    function Is_Mounted (State : T) return Boolean is (State.S >= Mounted);
    function Is_Open (State : T) return Boolean is (State.S = File_Opened);

    --------------------------------------------------------------------------

    SUPERBLOCK_SIZE            : constant := 1024;
    SUPERBLOCK_BLOCKS          : constant := SUPERBLOCK_SIZE / BLOCK_SIZE;

    SUPERBLOCK_MAGIC           : constant := 16#ef53#;
    OLD_REV                    : constant := 0;
    DYNAMIC_REV                : constant := 1;
    FEATURE_INCOMPAT_EXTENTS   : constant := 16#0040#;
    FEATURE_INCOMPAT_64BIT     : constant := 16#0080#;

    -- Minimum ext2 block size is 1KiB (two 512B blocks)
    type FSBlock_Offset is new Block_Offset range 0 .. Block_Offset'Last / 2;

    procedure Mount
      (State    : in out T;
       Part_Len : in     Partition_Length;
       Success  :    out Boolean)
    is
       Super_Block : Buffer_Type (0 .. SUPERBLOCK_SIZE - 1) := (others => 0);
    begin
       if Part_Len < 2 * SUPERBLOCK_SIZE then
          Success := False;
          return;
       end if;

       Blockdev.Read (Super_Block, 1 * SUPERBLOCK_SIZE, Success);
       if not Success then
          return;
       end if;

       if Read_LE16 (Super_Block, 14 * 4) /= 16#ef53# then
          Success := False;
          return;
       end if;

       State.Part_Len := Part_Len;
       State.First_Data_Block := Block_Offset (Read_LE32 (Super_Block, 5 * 4));

       declare
          S_Log_Block_Size : constant Unsigned_32 := Read_LE32 (Super_Block, 6 * 4);
       begin
          if S_Log_Block_Size <= Unsigned_32 (Log_Block_Size'Last - 10) then
             State.Block_Size_Bits := Log_Block_Size (S_Log_Block_Size + 10);
          else
             Success := False;
             return;
          end if;
       end;

       declare
          S_Inodes_Per_Group : constant Unsigned_32 := Read_LE32 (Super_Block, 10 * 4);
       begin
          if S_Inodes_Per_Group in 1 .. Unsigned_32 (Positive'Last) then
             State.Inodes_Per_Group := Positive (S_Inodes_Per_Group);
          else
             Success := False;
             return;
          end if;
       end;

       declare
          S_Rev_Level : constant Unsigned_32 := Read_LE32 (Super_Block, 19 * 4);
       begin
          if S_Rev_Level >= DYNAMIC_REV then
             declare
                S_Inode_Size : constant Unsigned_16 := Read_LE16 (Super_Block, 22 * 4);
             begin
                if S_Inode_Size in
                   Unsigned_16 (Inode_Size'First) .. Unsigned_16 (Inode_Size'Last)
                then
                   State.Inode_Size := Inode_Size (S_Inode_Size);
                else
                   Success := False;
                   return;
                end if;
             end;
          else
             State.Inode_Size := Inode_Size'First;
          end if;
       end;

       declare
          S_Feature_Incompat : constant Unsigned_32 := Read_LE32 (Super_Block, 24 * 4);
       begin
          State.Feature_Extents := (S_Feature_Incompat and FEATURE_INCOMPAT_EXTENTS) /= 0;
          State.Feature_64Bit     := (S_Feature_Incompat and FEATURE_INCOMPAT_64BIT) /= 0;
          if State.Feature_64Bit then
             declare
                S_Desc_Size : constant Unsigned_16 := Read_LE16 (Super_Block, 63 * 4 + 2);
             begin
                if S_Desc_Size in
                   Unsigned_16 (Desc_Size'First) .. Unsigned_16 (Desc_Size'Last)
                then
                   State.Desc_Size := Desc_Size (S_Desc_Size);
                else
                   Success := False;
                   return;
                end if;
             end;
          else
             State.Desc_Size := Desc_Size'First;
          end if;
       end;

       State.S := Mounted;
    end Mount;

    procedure Read_FSBlock
      (State    : in     T;
       Buf      :    out Buffer_Type;
       FSBlock  : in     FSBlock_Offset;
       Success  :    out Boolean)
    with
       Pre =>
          Is_Mounted (State) and
          Buf'Length = 2 ** State.Block_Size_Bits
    is
       Block_Size : constant Blockdev_Length := 2 ** State.Block_Size_Bits;
       Max_Block_Offset : constant FSBlock_Offset :=
          FSBlock_Offset (State.Part_Len / Block_Size - 1);
    begin
       if FSBlock > Max_Block_Offset then
          Success := False;
          return;
       end if;
       Blockdev.Read (Buf, Blockdev_Length (FSBlock) * Block_Size, Success);
    end Read_FSBlock;

    procedure Open
      (State       : in out T;
       File_Len    :    out File_Length;
       File_Path   : in     String;
       Success     : out    Boolean)
    is
    begin
       File_Len := 0;
       Success := False;
    end Open;

    procedure Close (State : in out T) is
    begin
       State.S := Mounted;
    end Close;

    procedure Read
      (State    : in out T;
       File_Len : in     File_Length;
       File_Pos : in out File_Offset;
       Buf      :    out Buffer_Type;
       Len      :    out Natural)
    is
    begin
       Buf := (others => 0);
       Len := 0;
    end Read;

    --------------------------------------------------------------------------

    package C is new VFS (T => T, Initial => (S => Unmounted, others => <>));

    function C_Mount return int
    with
       Export,
       Convention => C,
       External_Name => "ext2fs_mount";
    function C_Mount return int
    with
       SPARK_Mode => Off
    is
    begin
       return C.C_Mount;
    end C_Mount;

    function C_Open (File_Path : Strings.chars_ptr) return int
    with
       Export,
       Convention => C,
       External_Name => "ext2fs_dir";
    function C_Open (File_Path : Strings.chars_ptr) return int
    with
       SPARK_Mode => Off
    is
    begin
       return C.C_Open (File_Path);
    end C_Open;

    function C_Read (Buf : System.Address; Len : int) return int
    with
       Export,
       Convention => C,
       External_Name => "ext2fs_read";
    function C_Read (Buf : System.Address; Len : int) return int
    with
       SPARK_Mode => Off
    is
    begin
       return C.C_Read (Buf, Len);
    end C_Read;

 end FILO.FS.Ext2;
	-- Derived from GRUB -- GRand Unified Bootloader
	-- Copyright (C) 1999, 2001, 2003 Free Software Foundation, Inc.
	-- Copyright (C) 2023 secunet Security Networks AG
	--
	-- This program is free software; you can redistribute it and/or modify
	-- it under the terms of the GNU General Public License as published by
	-- the Free Software Foundation; either version 2 of the License, or
	-- (at your option) any later version.

	with System;
	with Interfaces;
	with Interfaces.C;
	with Interfaces.C.Strings;

	with FILO.Blockdev;
	with FILO.FS.VFS;

	use Interfaces.C;

	package body FILO.FS.Ext2 is

	function Is_Mounted (State : T) return Boolean is (State.S >= Mounted);
	function Is_Open (State : T) return Boolean is (State.S = File_Opened);

	--------------------------------------------------------------------------

	SUPERBLOCK_SIZE : constant := 1024;
	SUPERBLOCK_BLOCKS : constant := SUPERBLOCK_SIZE / BLOCK_SIZE;

	SUPERBLOCK_MAGIC : constant := 16#ef53#;
	OLD_REV : constant := 0;
	DYNAMIC_REV : constant := 1;
	FEATURE_INCOMPAT_EXTENTS : constant := 16#0040#;
	FEATURE_INCOMPAT_64BIT : constant := 16#0080#;

	-- Minimum ext2 block size is 1KiB (two 512B blocks)
	type FSBlock_Offset is new Block_Offset range 0 .. Block_Offset'Last / 2;

	procedure Mount
	(State : in out T;
	Part_Len : in Partition_Length;
	Success : out Boolean)
	is
	Super_Block : Buffer_Type (0 .. SUPERBLOCK_SIZE - 1) := (others => 0);
	begin
	if Part_Len < 2 * SUPERBLOCK_SIZE then
	Success := False;
	return;
	end if;

	Blockdev.Read (Super_Block, 1 * SUPERBLOCK_SIZE, Success);
	if not Success then
	return;
	end if;

	if Read_LE16 (Super_Block, 14 * 4) /= 16#ef53# then
	Success := False;
	return;
	end if;

	State.Part_Len := Part_Len;
	State.First_Data_Block := Block_Offset (Read_LE32 (Super_Block, 5 * 4));

	declare
	S_Log_Block_Size : constant Unsigned_32 := Read_LE32 (Super_Block, 6 * 4);
	begin
	if S_Log_Block_Size <= Unsigned_32 (Log_Block_Size'Last - 10) then
	State.Block_Size_Bits := Log_Block_Size (S_Log_Block_Size + 10);
	else
	Success := False;
	return;
	end if;
	end;

	declare
	S_Inodes_Per_Group : constant Unsigned_32 := Read_LE32 (Super_Block, 10 * 4);
	begin
	if S_Inodes_Per_Group in 1 .. Unsigned_32 (Positive'Last) then
	State.Inodes_Per_Group := Positive (S_Inodes_Per_Group);
	else
	Success := False;
	return;
	end if;
	end;

	declare
	S_Rev_Level : constant Unsigned_32 := Read_LE32 (Super_Block, 19 * 4);
	begin
	if S_Rev_Level >= DYNAMIC_REV then
	declare
	S_Inode_Size : constant Unsigned_16 := Read_LE16 (Super_Block, 22 * 4);
	begin
	if S_Inode_Size in
	Unsigned_16 (Inode_Size'First) .. Unsigned_16 (Inode_Size'Last)
	then
	State.Inode_Size := Inode_Size (S_Inode_Size);
	else
	Success := False;
	return;
	end if;
	end;
	else
	State.Inode_Size := Inode_Size'First;
	end if;
	end;

	declare
	S_Feature_Incompat : constant Unsigned_32 := Read_LE32 (Super_Block, 24 * 4);
	begin
	State.Feature_Extents := (S_Feature_Incompat and FEATURE_INCOMPAT_EXTENTS) /= 0;
	State.Feature_64Bit := (S_Feature_Incompat and FEATURE_INCOMPAT_64BIT) /= 0;
	if State.Feature_64Bit then
	declare
	S_Desc_Size : constant Unsigned_16 := Read_LE16 (Super_Block, 63 * 4 + 2);
	begin
	if S_Desc_Size in
	Unsigned_16 (Desc_Size'First) .. Unsigned_16 (Desc_Size'Last)
	then
	State.Desc_Size := Desc_Size (S_Desc_Size);
	else
	Success := False;
	return;
	end if;
	end;
	else
	State.Desc_Size := Desc_Size'First;
	end if;
	end;

	State.S := Mounted;
	end Mount;

	procedure Read_FSBlock
	(State : in T;
	Buf : out Buffer_Type;
	FSBlock : in FSBlock_Offset;
	Success : out Boolean)
	with
	Pre =>
	Is_Mounted (State) and
	Buf'Length = 2 ** State.Block_Size_Bits
	is
	Block_Size : constant Blockdev_Length := 2 ** State.Block_Size_Bits;
	Max_Block_Offset : constant FSBlock_Offset :=
	FSBlock_Offset (State.Part_Len / Block_Size - 1);
	begin
	if FSBlock > Max_Block_Offset then
	Success := False;
	return;
	end if;
	Blockdev.Read (Buf, Blockdev_Length (FSBlock) * Block_Size, Success);
	end Read_FSBlock;

	procedure Open
	(State : in out T;
	File_Len : out File_Length;
	File_Path : in String;
	Success : out Boolean)
	is
	begin
	File_Len := 0;
	Success := False;
	end Open;

	procedure Close (State : in out T) is
	begin
	State.S := Mounted;
	end Close;

	procedure Read
	(State : in out T;
	File_Len : in File_Length;
	File_Pos : in out File_Offset;
	Buf : out Buffer_Type;
	Len : out Natural)
	is
	begin
	Buf := (others => 0);
	Len := 0;
	end Read;

	--------------------------------------------------------------------------

	package C is new VFS (T => T, Initial => (S => Unmounted, others => <>));

	function C_Mount return int
	with
	Export,
	Convention => C,
	External_Name => "ext2fs_mount";
	function C_Mount return int
	with
	SPARK_Mode => Off
	is
	begin
	return C.C_Mount;
	end C_Mount;

	function C_Open (File_Path : Strings.chars_ptr) return int
	with
	Export,
	Convention => C,
	External_Name => "ext2fs_dir";
	function C_Open (File_Path : Strings.chars_ptr) return int
	with
	SPARK_Mode => Off
	is
	begin
	return C.C_Open (File_Path);
	end C_Open;

	function C_Read (Buf : System.Address; Len : int) return int
	with
	Export,
	Convention => C,
	External_Name => "ext2fs_read";
	function C_Read (Buf : System.Address; Len : int) return int
	with
	SPARK_Mode => Off
	is
	begin
	return C.C_Read (Buf, Len);
	end C_Read;

	end FILO.FS.Ext2;