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1 //===- MSFCommon.h - Common types and functions for MSF files ---*- C++ -*-===//
2 //
3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4 // See https://llvm.org/LICENSE.txt for license information.
5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6 //
7 //===----------------------------------------------------------------------===//
9 #ifndef LLVM_DEBUGINFO_MSF_MSFCOMMON_H
10 #define LLVM_DEBUGINFO_MSF_MSFCOMMON_H
17 #include <cstdint>
18 #include <vector>
28 // The superblock is overlaid at the beginning of the file (offset 0).
29 // It starts with a magic header and is followed by information which
30 // describes the layout of the file system.
33 // The file system is split into a variable number of fixed size elements.
34 // These elements are referred to as blocks. The size of a block may vary
35 // from system to system.
37 // The index of the free block map.
39 // This contains the number of blocks resident in the file system. In
40 // practice, NumBlocks * BlockSize is equivalent to the size of the MSF
41 // file.
43 // This contains the number of bytes which make up the directory.
45 // This field's purpose is not yet known.
47 // This contains the block # of the block map.
49 };
57 }
60 // If mainFpmBlock is 1, this is 2. If mainFpmBlock is 2, this is 1.
62 }
65 BitVector FreePageMap;
69 };
71 /// Describes the layout of a stream in an MSF layout. A "stream" here
72 /// is defined as any logical unit of data which may be arranged inside the MSF
73 /// file as a sequence of (possibly discontiguous) blocks. When we want to read
74 /// from a particular MSF Stream, we fill out a stream layout structure and the
75 /// reader uses it to determine which blocks in the underlying MSF file contain
76 /// the data, so that it can be pieced together in the right order.
81 };
83 /// Determine the layout of the FPM stream, given the MSF layout. An FPM
84 /// stream spans 1 or more blocks, each at equally spaced intervals throughout
85 /// the file.
97 }
99 }
101 // Super Block, Fpm0, Fpm1, and Block Map
104 // Super Block, Fpm0, and Fpm1 are reserved. The Block Map, although required
105 // need not be at block 3.
110 }
114 }
118 }
120 /// Given an MSF with the specified block size and number of blocks, determine
121 /// how many pieces the specified Fpm is split into.
122 /// \p BlockSize - the block size of the MSF
123 /// \p NumBlocks - the total number of blocks in the MSF
124 /// \p IncludeUnusedFpmData - When true, this will count every block that is
125 /// both in the file and matches the form of an FPM block, even if some of
126 /// those FPM blocks are unused (a single FPM block can describe the
127 /// allocation status of up to 32,767 blocks, although one appears only
128 /// every 4,096 blocks). So there are 8x as many blocks that match the
129 /// form as there are blocks that are necessary to describe the allocation
130 /// status of the file. When this parameter is false, these extraneous
131 /// trailing blocks are not counted.
136 // This calculation determines how many times a number of the form
137 // BlockSize * k + N appears in the range [0, NumBlocks). We only need to
138 // do this when unused data is included, since the number of blocks dwarfs
139 // the number of fpm blocks.
141 }
143 // We want the minimum number of intervals required, where each interval can
144 // represent BlockSize * 8 blocks.
146 }
152 IncludeUnusedFpmData,
154 }