docs/PDB/MsfFile.rst - llvm - Git at Google

 =====================================
 The MSF File Format
 =====================================

 .. contents::
    :local:

 .. _msf_layout:

 File Layout
 ===========

 The MSF file format consists of the following components:

 1. :ref:`msf_superblock`
 2. :ref:`msf_freeblockmap` (also know as Free Page Map, or FPM)
 3. Data

 Each component is stored as an indexed block, the length of which is specified
 in ``SuperBlock::BlockSize``. The file consists of 1 or more iterations of the
 following pattern (sometimes referred to as an "interval"):

 1. 1 block of data
 2. Free Block Map 1 (corresponds to ``SuperBlock::FreeBlockMapBlock`` 1)
 3. Free Block Map 2 (corresponds to ``SuperBlock::FreeBlockMapBlock`` 2)
 4. ``SuperBlock::BlockSize - 3`` blocks of data

 In the first interval, the first data block is used to store
 :ref:`msf_superblock`.

 The following diagram demonstrates the general layout of the file (\| denotes
 the end of an interval, and is for visualization purposes only):

 +-------------+-----------------------+------------------+------------------+----------+----+------+------+------+-------------+----+-----+
 | Block Index | 0                     | 1                | 2                | 3 - 4095 | \| | 4096 | 4097 | 4098 | 4099 - 8191 | \| | ... |
 +=============+=======================+==================+==================+==========+====+======+======+======+=============+====+=====+
 | Meaning     | :ref:`msf_superblock` | Free Block Map 1 | Free Block Map 2 | Data     | \| | Data | FPM1 | FPM2 | Data        | \| | ... |
 +-------------+-----------------------+------------------+------------------+----------+----+------+------+------+-------------+----+-----+

 The file may end after any block, including immediately after a FPM1.

 .. note::
   LLVM only supports 4096 byte blocks (sometimes referred to as the "BigMsf"
   variant), so the rest of this document will assume a block size of 4096.

 .. _msf_superblock:

 The Superblock
 ==============
 At file offset 0 in an MSF file is the MSF *SuperBlock*, which is laid out as
 follows:

 .. code-block:: c++

   struct SuperBlock {
     char FileMagic[sizeof(Magic)];
     ulittle32_t BlockSize;
     ulittle32_t FreeBlockMapBlock;
     ulittle32_t NumBlocks;
     ulittle32_t NumDirectoryBytes;
     ulittle32_t Unknown;
     ulittle32_t BlockMapAddr;
   };

 - **FileMagic** - Must be equal to ``"Microsoft C / C++ MSF 7.00\\r\\n"``
   followed by the bytes ``1A 44 53 00 00 00``.
 - **BlockSize** - The block size of the internal file system.  Valid values are
   512, 1024, 2048, and 4096 bytes.  Certain aspects of the MSF file layout vary
   depending on the block sizes.  For the purposes of LLVM, we handle only block
   sizes of 4KiB, and all further discussion assumes a block size of 4KiB.
 - **FreeBlockMapBlock** - The index of a block within the file, at which begins
   a bitfield representing the set of all blocks within the file which are "free"
   (i.e. the data within that block is not used).  See :ref:`msf_freeblockmap` for
   more information.
   **Important**: ``FreeBlockMapBlock`` can only be ``1`` or ``2``!
 - **NumBlocks** - The total number of blocks in the file.  ``NumBlocks * BlockSize``
   should equal the size of the file on disk.
 - **NumDirectoryBytes** - The size of the stream directory, in bytes.  The stream
   directory contains information about each stream's size and the set of blocks
   that it occupies.  It will be described in more detail later.
 - **BlockMapAddr** - The index of a block within the MSF file.  At this block is
   an array of ``ulittle32_t``'s listing the blocks that the stream directory
   resides on.  For large MSF files, the stream directory (which describes the
   block layout of each stream) may not fit entirely on a single block.  As a
   result, this extra layer of indirection is introduced, whereby this block
   contains the list of blocks that the stream directory occupies, and the stream
   directory itself can be stitched together accordingly.  The number of
   ``ulittle32_t``'s in this array is given by ``ceil(NumDirectoryBytes / BlockSize)``.

 .. _msf_freeblockmap:

 The Free Block Map
 ==================

 The Free Block Map (sometimes referred to as the Free Page Map, or FPM) is a
 series of blocks which contains a bit flag for every block in the file. The
 flag will be set to 0 if the block is in use, and 1 if the block is unused.

 Each file contains two FPMs, one of which is active at any given time. This
 feature is designed to support incremental and atomic updates of the underlying
 MSF file. While writing to an MSF file, if the active FPM is FPM1, you can
 write your new modified bitfield to FPM2, and vice versa. Only when you commit
 the file to disk do you need to swap the value in the SuperBlock to point to
 the new ``FreeBlockMapBlock``.

 The Free Block Maps are stored as a series of single blocks thoughout the file
 at intervals of BlockSize. Because each FPM block is of size ``BlockSize``
 bytes, it contains 8 times as many bits as an interval has blocks. This means
 that the first block of each FPM refers to the first 8 intervals of the file
 (the first 32768 blocks), the second block of each FPM refers to the next 8
 blocks, and so on. This results in far more FPM blocks being present than are
 required, but in order to maintain backwards compatibility the format must stay
 this way.

 The Stream Directory
 ====================
 The Stream Directory is the root of all access to the other streams in an MSF
 file.  Beginning at byte 0 of the stream directory is the following structure:

 .. code-block:: c++

   struct StreamDirectory {
     ulittle32_t NumStreams;
     ulittle32_t StreamSizes[NumStreams];
     ulittle32_t StreamBlocks[NumStreams][];
   };

 And this structure occupies exactly ``SuperBlock->NumDirectoryBytes`` bytes.
 Note that each of the last two arrays is of variable length, and in particular
 that the second array is jagged.

 **Example:** Suppose a hypothetical PDB file with a 4KiB block size, and 4
 streams of lengths {1000 bytes, 8000 bytes, 16000 bytes, 9000 bytes}.

 Stream 0: ceil(1000 / 4096) = 1 block

 Stream 1: ceil(8000 / 4096) = 2 blocks

 Stream 2: ceil(16000 / 4096) = 4 blocks

 Stream 3: ceil(9000 / 4096) = 3 blocks

 In total, 10 blocks are used.  Let's see what the stream directory might look
 like:

 .. code-block:: c++

   struct StreamDirectory {
     ulittle32_t NumStreams = 4;
     ulittle32_t StreamSizes[] = {1000, 8000, 16000, 9000};
     ulittle32_t StreamBlocks[][] = {
       {4},
       {5, 6},
       {11, 9, 7, 8},
       {10, 15, 12}
     };
   };

 In total, this occupies ``15 * 4 = 60`` bytes, so ``SuperBlock->NumDirectoryBytes``
 would equal ``60``, and ``SuperBlock->BlockMapAddr`` would be an array of one
 ``ulittle32_t``, since ``60 <= SuperBlock->BlockSize``.

 Note also that the streams are discontiguous, and that part of stream 3 is in the
 middle of part of stream 2.  You cannot assume anything about the layout of the
 blocks!

 Alignment and Block Boundaries
 ==============================
 As may be clear by now, it is possible for a single field (whether it be a high
 level record, a long string field, or even a single ``uint16``) to begin and
 end in separate blocks.  For example, if the block size is 4096 bytes, and a
 ``uint16`` field begins at the last byte of the current block, then it would
 need to end on the first byte of the next block.  Since blocks are not
 necessarily contiguously laid out in the file, this means that both the consumer
 and the producer of an MSF file must be prepared to split data apart
 accordingly.  In the aforementioned example, the high byte of the ``uint16``
 would be written to the last byte of block N, and the low byte would be written
 to the first byte of block N+1, which could be tens of thousands of bytes later
 (or even earlier!) in the file, depending on what the stream directory says.
	=====================================
	The MSF File Format
	=====================================

	.. contents::
	:local:

	.. _msf_layout:

	File Layout
	===========

	The MSF file format consists of the following components:

	1. :ref:`msf_superblock`
	2. :ref:`msf_freeblockmap` (also know as Free Page Map, or FPM)
	3. Data

	Each component is stored as an indexed block, the length of which is specified
	in ``SuperBlock::BlockSize``. The file consists of 1 or more iterations of the
	following pattern (sometimes referred to as an "interval"):

	1. 1 block of data
	2. Free Block Map 1 (corresponds to ``SuperBlock::FreeBlockMapBlock`` 1)
	3. Free Block Map 2 (corresponds to ``SuperBlock::FreeBlockMapBlock`` 2)
	4. ``SuperBlock::BlockSize - 3`` blocks of data

	In the first interval, the first data block is used to store
	:ref:`msf_superblock`.

	The following diagram demonstrates the general layout of the file (\\| denotes
	the end of an interval, and is for visualization purposes only):

	+-------------+-----------------------+------------------+------------------+----------+----+------+------+------+-------------+----+-----+
	\| Block Index \| 0 \| 1 \| 2 \| 3 - 4095 \| \\| \| 4096 \| 4097 \| 4098 \| 4099 - 8191 \| \\| \| ... \|
	+=============+=======================+==================+==================+==========+====+======+======+======+=============+====+=====+
	\| Meaning \| :ref:`msf_superblock` \| Free Block Map 1 \| Free Block Map 2 \| Data \| \\| \| Data \| FPM1 \| FPM2 \| Data \| \\| \| ... \|
	+-------------+-----------------------+------------------+------------------+----------+----+------+------+------+-------------+----+-----+

	The file may end after any block, including immediately after a FPM1.

	.. note::
	LLVM only supports 4096 byte blocks (sometimes referred to as the "BigMsf"
	variant), so the rest of this document will assume a block size of 4096.

	.. _msf_superblock:

	The Superblock
	==============
	At file offset 0 in an MSF file is the MSF SuperBlock, which is laid out as
	follows:

	.. code-block:: c++

	struct SuperBlock {
	char FileMagic[sizeof(Magic)];
	ulittle32_t BlockSize;
	ulittle32_t FreeBlockMapBlock;
	ulittle32_t NumBlocks;
	ulittle32_t NumDirectoryBytes;
	ulittle32_t Unknown;
	ulittle32_t BlockMapAddr;
	};

	- FileMagic - Must be equal to ``"Microsoft C / C++ MSF 7.00\\r\\n"``
	followed by the bytes ``1A 44 53 00 00 00``.
	- BlockSize - The block size of the internal file system. Valid values are
	512, 1024, 2048, and 4096 bytes. Certain aspects of the MSF file layout vary
	depending on the block sizes. For the purposes of LLVM, we handle only block
	sizes of 4KiB, and all further discussion assumes a block size of 4KiB.
	- FreeBlockMapBlock - The index of a block within the file, at which begins
	a bitfield representing the set of all blocks within the file which are "free"
	(i.e. the data within that block is not used). See :ref:`msf_freeblockmap` for
	more information.
	Important: ``FreeBlockMapBlock`` can only be ``1`` or ``2``!
	- NumBlocks - The total number of blocks in the file. ``NumBlocks * BlockSize``
	should equal the size of the file on disk.
	- NumDirectoryBytes - The size of the stream directory, in bytes. The stream
	directory contains information about each stream's size and the set of blocks
	that it occupies. It will be described in more detail later.
	- BlockMapAddr - The index of a block within the MSF file. At this block is
	an array of ``ulittle32_t``'s listing the blocks that the stream directory
	resides on. For large MSF files, the stream directory (which describes the
	block layout of each stream) may not fit entirely on a single block. As a
	result, this extra layer of indirection is introduced, whereby this block
	contains the list of blocks that the stream directory occupies, and the stream
	directory itself can be stitched together accordingly. The number of
	``ulittle32_t``'s in this array is given by ``ceil(NumDirectoryBytes / BlockSize)``.

	.. _msf_freeblockmap:

	The Free Block Map
	==================

	The Free Block Map (sometimes referred to as the Free Page Map, or FPM) is a
	series of blocks which contains a bit flag for every block in the file. The
	flag will be set to 0 if the block is in use, and 1 if the block is unused.

	Each file contains two FPMs, one of which is active at any given time. This
	feature is designed to support incremental and atomic updates of the underlying
	MSF file. While writing to an MSF file, if the active FPM is FPM1, you can
	write your new modified bitfield to FPM2, and vice versa. Only when you commit
	the file to disk do you need to swap the value in the SuperBlock to point to
	the new ``FreeBlockMapBlock``.

	The Free Block Maps are stored as a series of single blocks thoughout the file
	at intervals of BlockSize. Because each FPM block is of size ``BlockSize``
	bytes, it contains 8 times as many bits as an interval has blocks. This means
	that the first block of each FPM refers to the first 8 intervals of the file
	(the first 32768 blocks), the second block of each FPM refers to the next 8
	blocks, and so on. This results in far more FPM blocks being present than are
	required, but in order to maintain backwards compatibility the format must stay
	this way.

	The Stream Directory
	====================
	The Stream Directory is the root of all access to the other streams in an MSF
	file. Beginning at byte 0 of the stream directory is the following structure:

	.. code-block:: c++

	struct StreamDirectory {
	ulittle32_t NumStreams;
	ulittle32_t StreamSizes[NumStreams];
	ulittle32_t StreamBlocks[NumStreams][];
	};

	And this structure occupies exactly ``SuperBlock->NumDirectoryBytes`` bytes.
	Note that each of the last two arrays is of variable length, and in particular
	that the second array is jagged.

	Example: Suppose a hypothetical PDB file with a 4KiB block size, and 4
	streams of lengths {1000 bytes, 8000 bytes, 16000 bytes, 9000 bytes}.

	Stream 0: ceil(1000 / 4096) = 1 block

	Stream 1: ceil(8000 / 4096) = 2 blocks

	Stream 2: ceil(16000 / 4096) = 4 blocks

	Stream 3: ceil(9000 / 4096) = 3 blocks

	In total, 10 blocks are used. Let's see what the stream directory might look
	like:

	.. code-block:: c++

	struct StreamDirectory {
	ulittle32_t NumStreams = 4;
	ulittle32_t StreamSizes[] = {1000, 8000, 16000, 9000};
	ulittle32_t StreamBlocks[][] = {
	{4},
	{5, 6},
	{11, 9, 7, 8},
	{10, 15, 12}
	};
	};

	In total, this occupies ``15 * 4 = 60`` bytes, so ``SuperBlock->NumDirectoryBytes``
	would equal ``60``, and ``SuperBlock->BlockMapAddr`` would be an array of one
	``ulittle32_t``, since ``60 <= SuperBlock->BlockSize``.

	Note also that the streams are discontiguous, and that part of stream 3 is in the
	middle of part of stream 2. You cannot assume anything about the layout of the
	blocks!

	Alignment and Block Boundaries
	==============================
	As may be clear by now, it is possible for a single field (whether it be a high
	level record, a long string field, or even a single ``uint16``) to begin and
	end in separate blocks. For example, if the block size is 4096 bytes, and a
	``uint16`` field begins at the last byte of the current block, then it would
	need to end on the first byte of the next block. Since blocks are not
	necessarily contiguously laid out in the file, this means that both the consumer
	and the producer of an MSF file must be prepared to split data apart
	accordingly. In the aforementioned example, the high byte of the ``uint16``
	would be written to the last byte of block N, and the low byte would be written
	to the first byte of block N+1, which could be tens of thousands of bytes later
	(or even earlier!) in the file, depending on what the stream directory says.