* decompress_common.h
*
* Header for decompression code shared by multiple compression formats.
+ *
+ * The author dedicates this file to the public domain.
+ * You can do whatever you want with this file.
*/
#ifndef _WIMLIB_DECOMPRESS_COMMON_H
#define _WIMLIB_DECOMPRESS_COMMON_H
-#include "wimlib/assert.h"
#include "wimlib/compiler.h"
-#include "wimlib/endianness.h"
#include "wimlib/types.h"
+#include "wimlib/unaligned.h"
-#ifndef INPUT_IDX_T_DEFINED
-#define INPUT_IDX_T_DEFINED
-typedef u32 input_idx_t;
-#endif
-
-/* Structure to encapsulate a block of in-memory data that is being interpreted
- * as a stream of bits.
- *
- * This is geared specifically towards the XPRESS and LZX compression formats
- * with regards to the actual ordering the bits within the byte sequence. */
+/* Structure that encapsulates a block of in-memory data being interpreted as a
+ * stream of bits, optionally with interwoven literal bytes. Bits are assumed
+ * to be stored in little endian 16-bit coding units, with the bits ordered high
+ * to low. */
struct input_bitstream {
- /* A variable of length at least 32 bits that is used to hold bits that
- * have been read from the stream. The bits are ordered from high-order
- * to low-order, and the next bit is always the high-order bit. */
+ /* Bits that have been read from the input buffer. The bits are
+ * left-justified; the next bit is always bit 31. */
u32 bitbuf;
- /* Number of bits in @bitbuf that are valid. */
- unsigned bitsleft;
+ /* Number of bits currently held in @bitbuf. */
+ u32 bitsleft;
- /* Pointer to the next byte to be retrieved from the input. */
- const u8 *data;
+ /* Pointer to the next byte to be retrieved from the input buffer. */
+ const u8 *next;
- /* Number of bytes of data that are left. */
- input_idx_t data_bytes_left;
+ /* Pointer past the end of the input buffer. */
+ const u8 *end;
};
-/* Initializes a bitstream to receive its input from @data. */
+/* Initialize a bitstream to read from the specified input buffer. */
static inline void
-init_input_bitstream(struct input_bitstream *istream,
- const void *data, input_idx_t num_data_bytes)
+init_input_bitstream(struct input_bitstream *is, const void *buffer, u32 size)
{
- istream->bitbuf = 0;
- istream->bitsleft = 0;
- istream->data = data;
- istream->data_bytes_left = num_data_bytes;
+ is->bitbuf = 0;
+ is->bitsleft = 0;
+ is->next = buffer;
+ is->end = is->next + size;
}
-/* Ensures the bit buffer variable for the bitstream contains at least @num_bits
+/* Note: for performance reasons, the following methods don't return error codes
+ * to the caller if the input buffer is overrun. Instead, they just assume that
+ * all overrun data is zeroes. This has no effect on well-formed compressed
+ * data. The only disadvantage is that bad compressed data may go undetected,
+ * but even this is irrelevant if higher level code checksums the uncompressed
+ * data anyway. */
+
+/* Ensure the bit buffer variable for the bitstream contains at least @num_bits
* bits. Following this, bitstream_peek_bits() and/or bitstream_remove_bits()
- * may be called on the bitstream to peek or remove up to @num_bits bits.
- *
- * If the input data is exhausted, any further bits are assumed to be 0. */
+ * may be called on the bitstream to peek or remove up to @num_bits bits. */
static inline void
-bitstream_ensure_bits(struct input_bitstream *istream, unsigned num_bits)
+bitstream_ensure_bits(struct input_bitstream *is, const unsigned num_bits)
{
- for (int nbits = num_bits; (int)istream->bitsleft < nbits; nbits -= 16) {
- u16 nextword;
- unsigned shift;
+ /* This currently works for at most 17 bits. */
- if (unlikely(istream->data_bytes_left < 2)) {
- istream->bitsleft = num_bits;
- return;
- }
+ if (is->bitsleft >= num_bits)
+ return;
+
+ if (unlikely(is->end - is->next < 2))
+ goto overflow;
- nextword = le16_to_cpu(*(const le16*)istream->data);
- shift = sizeof(istream->bitbuf) * 8 - 16 - istream->bitsleft;
- istream->bitbuf |= (u32)nextword << shift;
- istream->data += 2;
- istream->bitsleft += 16;
- istream->data_bytes_left -= 2;
+ is->bitbuf |= (u32)get_unaligned_u16_le(is->next) << (16 - is->bitsleft);
+ is->next += 2;
+ is->bitsleft += 16;
+
+ if (unlikely(num_bits == 17 && is->bitsleft == 16)) {
+ if (unlikely(is->end - is->next < 2))
+ goto overflow;
+
+ is->bitbuf |= (u32)get_unaligned_u16_le(is->next);
+ is->next += 2;
+ is->bitsleft = 32;
}
+
+ return;
+
+overflow:
+ is->bitsleft = 32;
}
-/* Returns the next @num_bits bits from the bitstream, without removing them.
+/* Return the next @num_bits bits from the bitstream, without removing them.
* There must be at least @num_bits remaining in the buffer variable, from a
* previous call to bitstream_ensure_bits(). */
static inline u32
-bitstream_peek_bits(const struct input_bitstream *istream, unsigned num_bits)
+bitstream_peek_bits(const struct input_bitstream *is, const unsigned num_bits)
{
if (unlikely(num_bits == 0))
return 0;
- return istream->bitbuf >> (sizeof(istream->bitbuf) * 8 - num_bits);
+ return is->bitbuf >> (32 - num_bits);
}
-/* Removes @num_bits from the bitstream. There must be at least @num_bits
+/* Remove @num_bits from the bitstream. There must be at least @num_bits
* remaining in the buffer variable, from a previous call to
* bitstream_ensure_bits(). */
static inline void
-bitstream_remove_bits(struct input_bitstream *istream, unsigned num_bits)
+bitstream_remove_bits(struct input_bitstream *is, unsigned num_bits)
{
- istream->bitbuf <<= num_bits;
- istream->bitsleft -= num_bits;
+ is->bitbuf <<= num_bits;
+ is->bitsleft -= num_bits;
}
-/* Removes and returns @num_bits bits from the bitstream. There must be at
- * least @num_bits remaining in the buffer variable, from a previous call to
+/* Remove and return @num_bits bits from the bitstream. There must be at least
+ * @num_bits remaining in the buffer variable, from a previous call to
* bitstream_ensure_bits(). */
static inline u32
-bitstream_pop_bits(struct input_bitstream *istream, unsigned num_bits)
+bitstream_pop_bits(struct input_bitstream *is, unsigned num_bits)
{
- u32 n = bitstream_peek_bits(istream, num_bits);
- bitstream_remove_bits(istream, num_bits);
- return n;
+ u32 bits = bitstream_peek_bits(is, num_bits);
+ bitstream_remove_bits(is, num_bits);
+ return bits;
}
-/* Reads and returns the next @num_bits bits from the bitstream.
- * If the input data is exhausted, the bits are assumed to be 0. */
+/* Read and return the next @num_bits bits from the bitstream. */
static inline u32
-bitstream_read_bits(struct input_bitstream *istream, unsigned num_bits)
+bitstream_read_bits(struct input_bitstream *is, unsigned num_bits)
{
- bitstream_ensure_bits(istream, num_bits);
- return bitstream_pop_bits(istream, num_bits);
+ bitstream_ensure_bits(is, num_bits);
+ return bitstream_pop_bits(is, num_bits);
}
-/* Reads and returns the next literal byte embedded in the bitstream.
- * If the input data is exhausted, the byte is assumed to be 0. */
+/* Read and return the next literal byte embedded in the bitstream. */
static inline u8
-bitstream_read_byte(struct input_bitstream *istream)
+bitstream_read_byte(struct input_bitstream *is)
+{
+ if (unlikely(is->end == is->next))
+ return 0;
+ return *is->next++;
+}
+
+/* Read and return the next 16-bit integer embedded in the bitstream. */
+static inline u16
+bitstream_read_u16(struct input_bitstream *is)
+{
+ u16 v;
+
+ if (unlikely(is->end - is->next < 2))
+ return 0;
+ v = get_unaligned_u16_le(is->next);
+ is->next += 2;
+ return v;
+}
+
+/* Read and return the next 32-bit integer embedded in the bitstream. */
+static inline u32
+bitstream_read_u32(struct input_bitstream *is)
{
- if (unlikely(istream->data_bytes_left == 0))
+ u32 v;
+
+ if (unlikely(is->end - is->next < 4))
return 0;
- istream->data_bytes_left--;
- return *istream->data++;
+ v = get_unaligned_u32_le(is->next);
+ is->next += 4;
+ return v;
}
+/* Read an array of literal bytes embedded in the bitstream. Return a pointer
+ * to the resulting array, or NULL if the read overflows the input buffer. */
+static inline const u8 *
+bitstream_read_bytes(struct input_bitstream *is, size_t count)
+{
+ const u8 *p;
+
+ if (unlikely(is->end - is->next < count))
+ return NULL;
+ p = is->next;
+ is->next += count;
+ return p;
+}
+
+/* Align the input bitstream on a coding-unit boundary. */
+static inline void
+bitstream_align(struct input_bitstream *is)
+{
+ is->bitsleft = 0;
+ is->bitbuf = 0;
+}
/* Needed alignment of decode_table parameter to make_huffman_decode_table().
*
* input data is exhausted, the Huffman symbol is decoded as if the missing bits
* are all zeroes.
*
- * XXX: This is mostly duplicated in lzms_huffman_decode_symbol() in
- * lzms-decompress.c. */
+ * XXX: This is mostly duplicated in lzms_decode_huffman_symbol() in
+ * lzms_decompress.c. */
static inline u16
read_huffsym(struct input_bitstream *istream, const u16 decode_table[],
unsigned table_bits, unsigned max_codeword_len)
{
- u16 entry;
- u16 key_bits;
+ unsigned entry;
+ unsigned key_bits;
bitstream_ensure_bits(istream, max_codeword_len);
unsigned num_bits, const u8 lens[],
unsigned max_codeword_len);
+static inline void
+copy_word_unaligned(const void *src, void *dst)
+{
+ store_word_unaligned(load_word_unaligned(src), dst);
+}
+
+static inline machine_word_t
+repeat_byte(u8 b)
+{
+ machine_word_t v;
+
+ BUILD_BUG_ON(WORDSIZE != 4 && WORDSIZE != 8);
+
+ v = b;
+ v |= v << 8;
+ v |= v << 16;
+ v |= v << ((WORDSIZE == 8) ? 32 : 0);
+ return v;
+}
+
+/*
+ * Copy an LZ77 match at (dst - offset) to dst.
+ *
+ * The length and offset must be already validated --- that is, (dst - offset)
+ * can't underrun the output buffer, and (dst + length) can't overrun the output
+ * buffer. Also, the length cannot be 0.
+ *
+ * @winend points to the byte past the end of the output buffer.
+ * This function won't write any data beyond this position.
+ */
+static inline void
+lz_copy(u8 *dst, u32 length, u32 offset, const u8 *winend, u32 min_length)
+{
+ const u8 *src = dst - offset;
+ const u8 * const end = dst + length;
+
+ /*
+ * Try to copy one machine word at a time. On i386 and x86_64 this is
+ * faster than copying one byte at a time, unless the data is
+ * near-random and all the matches have very short lengths. Note that
+ * since this requires unaligned memory accesses, it won't necessarily
+ * be faster on every architecture.
+ *
+ * Also note that we might copy more than the length of the match. For
+ * example, if a word is 8 bytes and the match is of length 5, then
+ * we'll simply copy 8 bytes. This is okay as long as we don't write
+ * beyond the end of the output buffer, hence the check for (winend -
+ * end >= WORDSIZE - 1).
+ */
+ if (UNALIGNED_ACCESS_IS_VERY_FAST &&
+ likely(winend - end >= WORDSIZE - 1))
+ {
+
+ if (offset >= WORDSIZE) {
+ /* The source and destination words don't overlap. */
+
+ /* To improve branch prediction, one iteration of this
+ * loop is unrolled. Most matches are short and will
+ * fail the first check. But if that check passes, then
+ * it becomes increasing likely that the match is long
+ * and we'll need to continue copying. */
+
+ copy_word_unaligned(src, dst);
+ src += WORDSIZE;
+ dst += WORDSIZE;
+
+ if (dst < end) {
+ do {
+ copy_word_unaligned(src, dst);
+ src += WORDSIZE;
+ dst += WORDSIZE;
+ } while (dst < end);
+ }
+ return;
+ } else if (offset == 1) {
+
+ /* Offset 1 matches are equivalent to run-length
+ * encoding of the previous byte. This case is common
+ * if the data contains many repeated bytes. */
+
+ machine_word_t v = repeat_byte(*(dst - 1));
+ do {
+ store_word_unaligned(v, dst);
+ src += WORDSIZE;
+ dst += WORDSIZE;
+ } while (dst < end);
+ return;
+ }
+ /*
+ * We don't bother with special cases for other 'offset <
+ * WORDSIZE', which are usually rarer than 'offset == 1'. Extra
+ * checks will just slow things down. Actually, it's possible
+ * to handle all the 'offset < WORDSIZE' cases using the same
+ * code, but it still becomes more complicated doesn't seem any
+ * faster overall; it definitely slows down the more common
+ * 'offset == 1' case.
+ */
+ }
+
+ /* Fall back to a bytewise copy. */
+
+ if (min_length >= 2) {
+ *dst++ = *src++;
+ length--;
+ }
+ if (min_length >= 3) {
+ *dst++ = *src++;
+ length--;
+ }
+ if (min_length >= 4) {
+ *dst++ = *src++;
+ length--;
+ }
+ do {
+ *dst++ = *src++;
+ } while (--length);
+}
+
#endif /* _WIMLIB_DECOMPRESS_COMMON_H */