of: MSI: Simplify irqdomain lookup
[linux/fpc-iii.git] / lib / 842 / 842.h
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2 #ifndef __842_H__
3 #define __842_H__
5 /* The 842 compressed format is made up of multiple blocks, each of
6 * which have the format:
8 * <template>[arg1][arg2][arg3][arg4]
10 * where there are between 0 and 4 template args, depending on the specific
11 * template operation. For normal operations, each arg is either a specific
12 * number of data bytes to add to the output buffer, or an index pointing
13 * to a previously-written number of data bytes to copy to the output buffer.
15 * The template code is a 5-bit value. This code indicates what to do with
16 * the following data. Template codes from 0 to 0x19 should use the template
17 * table, the static "decomp_ops" table used in decompress. For each template
18 * (table row), there are between 1 and 4 actions; each action corresponds to
19 * an arg following the template code bits. Each action is either a "data"
20 * type action, or a "index" type action, and each action results in 2, 4, or 8
21 * bytes being written to the output buffer. Each template (i.e. all actions
22 * in the table row) will add up to 8 bytes being written to the output buffer.
23 * Any row with less than 4 actions is padded with noop actions, indicated by
24 * N0 (for which there is no corresponding arg in the compressed data buffer).
26 * "Data" actions, indicated in the table by D2, D4, and D8, mean that the
27 * corresponding arg is 2, 4, or 8 bytes, respectively, in the compressed data
28 * buffer should be copied directly to the output buffer.
30 * "Index" actions, indicated in the table by I2, I4, and I8, mean the
31 * corresponding arg is an index parameter that points to, respectively, a 2,
32 * 4, or 8 byte value already in the output buffer, that should be copied to
33 * the end of the output buffer. Essentially, the index points to a position
34 * in a ring buffer that contains the last N bytes of output buffer data.
35 * The number of bits for each index's arg are: 8 bits for I2, 9 bits for I4,
36 * and 8 bits for I8. Since each index points to a 2, 4, or 8 byte section,
37 * this means that I2 can reference 512 bytes ((2^8 bits = 256) * 2 bytes), I4
38 * can reference 2048 bytes ((2^9 = 512) * 4 bytes), and I8 can reference 2048
39 * bytes ((2^8 = 256) * 8 bytes). Think of it as a kind-of ring buffer for
40 * each of I2, I4, and I8 that are updated for each byte written to the output
41 * buffer. In this implementation, the output buffer is directly used for each
42 * index; there is no additional memory required. Note that the index is into
43 * a ring buffer, not a sliding window; for example, if there have been 260
44 * bytes written to the output buffer, an I2 index of 0 would index to byte 256
45 * in the output buffer, while an I2 index of 16 would index to byte 16 in the
46 * output buffer.
48 * There are also 3 special template codes; 0x1b for "repeat", 0x1c for
49 * "zeros", and 0x1e for "end". The "repeat" operation is followed by a 6 bit
50 * arg N indicating how many times to repeat. The last 8 bytes written to the
51 * output buffer are written again to the output buffer, N + 1 times. The
52 * "zeros" operation, which has no arg bits, writes 8 zeros to the output
53 * buffer. The "end" operation, which also has no arg bits, signals the end
54 * of the compressed data. There may be some number of padding (don't care,
55 * but usually 0) bits after the "end" operation bits, to fill the buffer
56 * length to a specific byte multiple (usually a multiple of 8, 16, or 32
57 * bytes).
59 * This software implementation also uses one of the undefined template values,
60 * 0x1d as a special "short data" template code, to represent less than 8 bytes
61 * of uncompressed data. It is followed by a 3 bit arg N indicating how many
62 * data bytes will follow, and then N bytes of data, which should be copied to
63 * the output buffer. This allows the software 842 compressor to accept input
64 * buffers that are not an exact multiple of 8 bytes long. However, those
65 * compressed buffers containing this sw-only template will be rejected by
66 * the 842 hardware decompressor, and must be decompressed with this software
67 * library. The 842 software compression module includes a parameter to
68 * disable using this sw-only "short data" template, and instead simply
69 * reject any input buffer that is not a multiple of 8 bytes long.
71 * After all actions for each operation code are processed, another template
72 * code is in the next 5 bits. The decompression ends once the "end" template
73 * code is detected.
76 #include <linux/module.h>
77 #include <linux/kernel.h>
78 #include <linux/bitops.h>
79 #include <linux/crc32.h>
80 #include <asm/unaligned.h>
82 #include <linux/sw842.h>
84 /* special templates */
85 #define OP_REPEAT (0x1B)
86 #define OP_ZEROS (0x1C)
87 #define OP_END (0x1E)
89 /* sw only template - this is not in the hw design; it's used only by this
90 * software compressor and decompressor, to allow input buffers that aren't
91 * a multiple of 8.
93 #define OP_SHORT_DATA (0x1D)
95 /* additional bits of each op param */
96 #define OP_BITS (5)
97 #define REPEAT_BITS (6)
98 #define SHORT_DATA_BITS (3)
99 #define I2_BITS (8)
100 #define I4_BITS (9)
101 #define I8_BITS (8)
102 #define CRC_BITS (32)
104 #define REPEAT_BITS_MAX (0x3f)
105 #define SHORT_DATA_BITS_MAX (0x7)
107 /* Arbitrary values used to indicate action */
108 #define OP_ACTION (0x70)
109 #define OP_ACTION_INDEX (0x10)
110 #define OP_ACTION_DATA (0x20)
111 #define OP_ACTION_NOOP (0x40)
112 #define OP_AMOUNT (0x0f)
113 #define OP_AMOUNT_0 (0x00)
114 #define OP_AMOUNT_2 (0x02)
115 #define OP_AMOUNT_4 (0x04)
116 #define OP_AMOUNT_8 (0x08)
118 #define D2 (OP_ACTION_DATA | OP_AMOUNT_2)
119 #define D4 (OP_ACTION_DATA | OP_AMOUNT_4)
120 #define D8 (OP_ACTION_DATA | OP_AMOUNT_8)
121 #define I2 (OP_ACTION_INDEX | OP_AMOUNT_2)
122 #define I4 (OP_ACTION_INDEX | OP_AMOUNT_4)
123 #define I8 (OP_ACTION_INDEX | OP_AMOUNT_8)
124 #define N0 (OP_ACTION_NOOP | OP_AMOUNT_0)
126 /* the max of the regular templates - not including the special templates */
127 #define OPS_MAX (0x1a)
129 #endif