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authorIsaac Dunham <idunham@lavabit.com>2013-07-17 17:25:07 -0500
committerIsaac Dunham <idunham@lavabit.com>2013-07-17 17:25:07 -0500
commit9641a3c6c5447c76f56cefd1844a4e545c015822 (patch)
tree29de575e151a93d9a270cb69c4551a485bd2deea /toys/pending
parent72756670274dac9562b869761c50c59ed57b7295 (diff)
downloadtoybox-9641a3c6c5447c76f56cefd1844a4e545c015822.tar.gz
xzcat: remove XZ_(PREALLOC|SINGLE), inline xz_dec_bcj_create
Because we only use XZ_DYNALLOC, there's a bunch of dead code. This patch removes the #ifdef's and if()s associated with support for multiple modes. single_call was only used to store the mode; it is no longer needed. A little bit of reorganization was needed to reduce the number of prototypes. Documentation associated with dead code was dropped. There are still some relics of multiple modes in the continued presence of "XZ_DYNALLOC" and xz_mode. Additionally, I inlined xz_dec_bcj_create; it was called once. This loses about 125 lines, mostly comments.
Diffstat (limited to 'toys/pending')
-rw-r--r--toys/pending/xzcat.c213
1 files changed, 44 insertions, 169 deletions
diff --git a/toys/pending/xzcat.c b/toys/pending/xzcat.c
index 3bbb8230..42d5ba37 100644
--- a/toys/pending/xzcat.c
+++ b/toys/pending/xzcat.c
@@ -25,30 +25,16 @@ config XZCAT
/**
* enum xz_mode - Operation mode
*
- * @XZ_SINGLE: Single-call mode. This uses less RAM than
- * than multi-call modes, because the LZMA2
- * dictionary doesn't need to be allocated as
- * part of the decoder state. All required data
- * structures are allocated at initialization,
- * so xz_dec_run() cannot return XZ_MEM_ERROR.
- * @XZ_PREALLOC: Multi-call mode with preallocated LZMA2
- * dictionary buffer. All data structures are
- * allocated at initialization, so xz_dec_run()
- * cannot return XZ_MEM_ERROR.
* @XZ_DYNALLOC: Multi-call mode. The LZMA2 dictionary is
* allocated once the required size has been
* parsed from the stream headers. If the
* allocation fails, xz_dec_run() will return
* XZ_MEM_ERROR.
*
- * It is possible to enable support only for a subset of the above
- * modes at compile time by defining XZ_DEC_SINGLE, XZ_DEC_PREALLOC,
- * or XZ_DEC_DYNALLOC. xzcat uses only XZ_DEC_DYNALLOC,
- * so that is the default.
+ * xzcat uses only XZ_DEC_DYNALLOC, though xz-embedded supports
+ * XZ_DEC_SINGLE and XZ_DEC_PREALLOC
*/
enum xz_mode {
- XZ_SINGLE,
- XZ_PREALLOC,
XZ_DYNALLOC
};
@@ -158,25 +144,6 @@ struct xz_dec;
* except for kernel and initramfs images where a bigger
* dictionary can be fine and useful.
*
- * Single-call mode (XZ_SINGLE): xz_dec_run() decodes the whole stream at
- * once. The caller must provide enough output space or the decoding will
- * fail. The output space is used as the dictionary buffer, which is why
- * there is no need to allocate the dictionary as part of the decoder's
- * internal state.
- *
- * Because the output buffer is used as the workspace, streams encoded using
- * a big dictionary are not a problem in single-call mode. It is enough that
- * the output buffer is big enough to hold the actual uncompressed data; it
- * can be smaller than the dictionary size stored in the stream headers.
- *
- * Multi-call mode with preallocated dictionary (XZ_PREALLOC): dict_max bytes
- * of memory is preallocated for the LZMA2 dictionary. This way there is no
- * risk that xz_dec_run() could run out of memory, since xz_dec_run() will
- * never allocate any memory. Instead, if the preallocated dictionary is too
- * small for decoding the given input stream, xz_dec_run() will return
- * XZ_MEMLIMIT_ERROR. Thus, it is important to know what kind of data will be
- * decoded to avoid allocating excessive amount of memory for the dictionary.
- *
* Multi-call mode with dynamically allocated dictionary (XZ_DYNALLOC):
* dict_max specifies the maximum allowed dictionary size that xz_dec_run()
* may allocate once it has parsed the dictionary size from the stream
@@ -435,43 +402,7 @@ static inline void put_unaligned_be32(uint32_t val, uint8_t *buf)
# define get_le32 get_unaligned_le32
#endif
-
#define XZ_DEC_DYNALLOC
-/* DYNALLOC is what we use, but we may want these later.
-#define XZ_DEC_SINGLE
-#define XZ_DEC_PREALLOC
-*/
-
-/*
- * The DEC_IS_foo(mode) macros are used in "if" statements. If only some
- * of the supported modes are enabled, these macros will evaluate to true or
- * false at compile time and thus allow the compiler to omit unneeded code.
- */
-#ifdef XZ_DEC_SINGLE
-# define DEC_IS_SINGLE(mode) ((mode) == XZ_SINGLE)
-#else
-# define DEC_IS_SINGLE(mode) (0)
-#endif
-
-#ifdef XZ_DEC_PREALLOC
-# define DEC_IS_PREALLOC(mode) ((mode) == XZ_PREALLOC)
-#else
-# define DEC_IS_PREALLOC(mode) (0)
-#endif
-
-#ifdef XZ_DEC_DYNALLOC
-# define DEC_IS_DYNALLOC(mode) ((mode) == XZ_DYNALLOC)
-#else
-# define DEC_IS_DYNALLOC(mode) (0)
-#endif
-
-#if !defined(XZ_DEC_SINGLE)
-# define DEC_IS_MULTI(mode) (1)
-#elif defined(XZ_DEC_PREALLOC) || defined(XZ_DEC_DYNALLOC)
-# define DEC_IS_MULTI(mode) ((mode) != XZ_SINGLE)
-#else
-# define DEC_IS_MULTI(mode) (0)
-#endif
/*
* If any of the BCJ filter decoders are wanted, define XZ_DEC_BCJ.
@@ -506,31 +437,6 @@ enum xz_ret xz_dec_lzma2_reset(struct xz_dec_lzma2 *s,
enum xz_ret xz_dec_lzma2_run(struct xz_dec_lzma2 *s,
struct xz_buf *b);
-#ifdef XZ_DEC_BCJ
-/*
- * Allocate memory for BCJ decoders. xz_dec_bcj_reset() must be used before
- * calling xz_dec_bcj_run().
- */
-struct xz_dec_bcj *xz_dec_bcj_create(int single_call);
-
-/*
- * Decode the Filter ID of a BCJ filter. This implementation doesn't
- * support custom start offsets, so no decoding of Filter Properties
- * is needed. Returns XZ_OK if the given Filter ID is supported.
- * Otherwise XZ_OPTIONS_ERROR is returned.
- */
-enum xz_ret xz_dec_bcj_reset(struct xz_dec_bcj *s, uint8_t id);
-
-/*
- * Decode raw BCJ + LZMA2 stream. This must be used only if there actually is
- * a BCJ filter in the chain. If the chain has only LZMA2, xz_dec_lzma2_run()
- * must be called directly.
- */
-enum xz_ret xz_dec_bcj_run(struct xz_dec_bcj *s,
- struct xz_dec_lzma2 *lzma2,
- struct xz_buf *b);
-#endif
-
// END "xz_private.h"
@@ -561,9 +467,6 @@ struct xz_dec_bcj {
*/
enum xz_ret ret;
- /* True if we are operating in single-call mode. */
- int single_call;
-
/*
* Absolute position relative to the beginning of the uncompressed
* data (in a single .xz Block). We care only about the lowest 32
@@ -602,6 +505,23 @@ struct xz_dec_bcj {
} temp;
};
+/*
+ * Decode the Filter ID of a BCJ filter. This implementation doesn't
+ * support custom start offsets, so no decoding of Filter Properties
+ * is needed. Returns XZ_OK if the given Filter ID is supported.
+ * Otherwise XZ_OPTIONS_ERROR is returned.
+ */
+enum xz_ret xz_dec_bcj_reset(struct xz_dec_bcj *s, uint8_t id);
+
+/*
+ * Decode raw BCJ + LZMA2 stream. This must be used only if there actually is
+ * a BCJ filter in the chain. If the chain has only LZMA2, xz_dec_lzma2_run()
+ * must be called directly.
+ */
+enum xz_ret xz_dec_bcj_run(struct xz_dec_bcj *s,
+ struct xz_dec_lzma2 *lzma2,
+ struct xz_buf *b);
+
#ifdef XZ_DEC_X86
/*
* This is used to test the most significant byte of a memory address
@@ -980,7 +900,7 @@ enum xz_ret xz_dec_bcj_run(struct xz_dec_bcj *s,
s->ret = xz_dec_lzma2_run(lzma2, b);
if (s->ret != XZ_STREAM_END
- && (s->ret != XZ_OK || s->single_call))
+ && (s->ret != XZ_OK ))
return s->ret;
bcj_apply(s, b->out, &out_start, b->out_pos);
@@ -1051,15 +971,6 @@ enum xz_ret xz_dec_bcj_run(struct xz_dec_bcj *s,
return s->ret;
}
-struct xz_dec_bcj *xz_dec_bcj_create(int single_call)
-{
- struct xz_dec_bcj *s = malloc(sizeof(*s));
- if (s != NULL)
- s->single_call = single_call;
-
- return s;
-}
-
enum xz_ret xz_dec_bcj_reset(struct xz_dec_bcj *s, uint8_t id)
{
switch (id) {
@@ -1578,11 +1489,6 @@ struct xz_dec_lzma2 {
*/
static void dict_reset(struct dictionary *dict, struct xz_buf *b)
{
- if (DEC_IS_SINGLE(dict->mode)) {
- dict->buf = b->out + b->out_pos;
- dict->end = b->out_size - b->out_pos;
- }
-
dict->start = 0;
dict->pos = 0;
dict->limit = 0;
@@ -1685,13 +1591,11 @@ static void dict_uncompressed(struct dictionary *dict, struct xz_buf *b,
if (dict->full < dict->pos)
dict->full = dict->pos;
- if (DEC_IS_MULTI(dict->mode)) {
- if (dict->pos == dict->end)
- dict->pos = 0;
+ if (dict->pos == dict->end)
+ dict->pos = 0;
- memcpy(b->out + b->out_pos, b->in + b->in_pos,
- copy_size);
- }
+ memcpy(b->out + b->out_pos, b->in + b->in_pos,
+ copy_size);
dict->start = dict->pos;
@@ -1709,13 +1613,11 @@ static uint32_t dict_flush(struct dictionary *dict, struct xz_buf *b)
{
size_t copy_size = dict->pos - dict->start;
- if (DEC_IS_MULTI(dict->mode)) {
- if (dict->pos == dict->end)
- dict->pos = 0;
+ if (dict->pos == dict->end)
+ dict->pos = 0;
- memcpy(b->out + b->out_pos, dict->buf + dict->start,
- copy_size);
- }
+ memcpy(b->out + b->out_pos, dict->buf + dict->start,
+ copy_size);
dict->start = dict->pos;
b->out_pos += copy_size;
@@ -2401,16 +2303,8 @@ struct xz_dec_lzma2 *xz_dec_lzma2_create(enum xz_mode mode,
s->dict.mode = mode;
s->dict.size_max = dict_max;
- if (DEC_IS_PREALLOC(mode)) {
- s->dict.buf = malloc(dict_max);
- if (s->dict.buf == NULL) {
- free(s);
- return NULL;
- }
- } else if (DEC_IS_DYNALLOC(mode)) {
- s->dict.buf = NULL;
- s->dict.allocated = 0;
- }
+ s->dict.buf = NULL;
+ s->dict.allocated = 0;
return s;
}
@@ -2424,21 +2318,17 @@ enum xz_ret xz_dec_lzma2_reset(struct xz_dec_lzma2 *s, uint8_t props)
s->dict.size = 2 + (props & 1);
s->dict.size <<= (props >> 1) + 11;
- if (DEC_IS_MULTI(s->dict.mode)) {
- if (s->dict.size > s->dict.size_max)
- return XZ_MEMLIMIT_ERROR;
+ if (s->dict.size > s->dict.size_max)
+ return XZ_MEMLIMIT_ERROR;
- s->dict.end = s->dict.size;
+ s->dict.end = s->dict.size;
- if (DEC_IS_DYNALLOC(s->dict.mode)) {
- if (s->dict.allocated < s->dict.size) {
- free(s->dict.buf);
- s->dict.buf = malloc(s->dict.size);
- if (s->dict.buf == NULL) {
- s->dict.allocated = 0;
- return XZ_MEM_ERROR;
- }
- }
+ if (s->dict.allocated < s->dict.size) {
+ free(s->dict.buf);
+ s->dict.buf = malloc(s->dict.size);
+ if (s->dict.buf == NULL) {
+ s->dict.allocated = 0;
+ return XZ_MEM_ERROR;
}
}
@@ -3234,25 +3124,11 @@ enum xz_ret xz_dec_run(struct xz_dec *s, struct xz_buf *b)
size_t out_start;
enum xz_ret ret;
- if (DEC_IS_SINGLE(s->mode))
- xz_dec_reset(s);
-
in_start = b->in_pos;
out_start = b->out_pos;
ret = dec_main(s, b);
- if (DEC_IS_SINGLE(s->mode)) {
- if (ret == XZ_OK)
- ret = b->in_pos == b->in_size
- ? XZ_DATA_ERROR : XZ_BUF_ERROR;
-
- if (ret != XZ_STREAM_END) {
- b->in_pos = in_start;
- b->out_pos = out_start;
- }
-
- } else if (ret == XZ_OK && in_start == b->in_pos
- && out_start == b->out_pos) {
+ if (ret == XZ_OK && in_start == b->in_pos && out_start == b->out_pos) {
if (s->allow_buf_error)
ret = XZ_BUF_ERROR;
@@ -3267,14 +3143,14 @@ enum xz_ret xz_dec_run(struct xz_dec *s, struct xz_buf *b)
struct xz_dec *xz_dec_init(enum xz_mode mode, uint32_t dict_max)
{
struct xz_dec *s = malloc(sizeof(*s));
- if (s == NULL)
+ if (!s)
return NULL;
s->mode = mode;
#ifdef XZ_DEC_BCJ
- s->bcj = xz_dec_bcj_create(DEC_IS_SINGLE(mode));
- if (s->bcj == NULL)
+ s->bcj = malloc(sizeof(*s->bcj));
+ if (!s->bcj)
goto error_bcj;
#endif
@@ -3309,8 +3185,7 @@ void xz_dec_reset(struct xz_dec *s)
void xz_dec_end(struct xz_dec *s)
{
if (s != NULL) {
- if (DEC_IS_MULTI((s->lzma2)->dict.mode))
- free((s->lzma2)->dict.buf);
+ free((s->lzma2)->dict.buf);
free(s->lzma2);
#ifdef XZ_DEC_BCJ