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authorDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-11 08:27:49 +0000
committerDaniel Baumann <daniel.baumann@progress-linux.org>2024-04-11 08:27:49 +0000
commitace9429bb58fd418f0c81d4c2835699bddf6bde6 (patch)
treeb2d64bc10158fdd5497876388cd68142ca374ed3 /lib/decompress_unxz.c
parentInitial commit. (diff)
downloadlinux-ace9429bb58fd418f0c81d4c2835699bddf6bde6.tar.xz
linux-ace9429bb58fd418f0c81d4c2835699bddf6bde6.zip
Adding upstream version 6.6.15.upstream/6.6.15
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'lib/decompress_unxz.c')
-rw-r--r--lib/decompress_unxz.c409
1 files changed, 409 insertions, 0 deletions
diff --git a/lib/decompress_unxz.c b/lib/decompress_unxz.c
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+/*
+ * Wrapper for decompressing XZ-compressed kernel, initramfs, and initrd
+ *
+ * Author: Lasse Collin <lasse.collin@tukaani.org>
+ *
+ * This file has been put into the public domain.
+ * You can do whatever you want with this file.
+ */
+
+/*
+ * Important notes about in-place decompression
+ *
+ * At least on x86, the kernel is decompressed in place: the compressed data
+ * is placed to the end of the output buffer, and the decompressor overwrites
+ * most of the compressed data. There must be enough safety margin to
+ * guarantee that the write position is always behind the read position.
+ *
+ * The safety margin for XZ with LZMA2 or BCJ+LZMA2 is calculated below.
+ * Note that the margin with XZ is bigger than with Deflate (gzip)!
+ *
+ * The worst case for in-place decompression is that the beginning of
+ * the file is compressed extremely well, and the rest of the file is
+ * incompressible. Thus, we must look for worst-case expansion when the
+ * compressor is encoding incompressible data.
+ *
+ * The structure of the .xz file in case of a compressed kernel is as follows.
+ * Sizes (as bytes) of the fields are in parenthesis.
+ *
+ * Stream Header (12)
+ * Block Header:
+ * Block Header (8-12)
+ * Compressed Data (N)
+ * Block Padding (0-3)
+ * CRC32 (4)
+ * Index (8-20)
+ * Stream Footer (12)
+ *
+ * Normally there is exactly one Block, but let's assume that there are
+ * 2-4 Blocks just in case. Because Stream Header and also Block Header
+ * of the first Block don't make the decompressor produce any uncompressed
+ * data, we can ignore them from our calculations. Block Headers of possible
+ * additional Blocks have to be taken into account still. With these
+ * assumptions, it is safe to assume that the total header overhead is
+ * less than 128 bytes.
+ *
+ * Compressed Data contains LZMA2 or BCJ+LZMA2 encoded data. Since BCJ
+ * doesn't change the size of the data, it is enough to calculate the
+ * safety margin for LZMA2.
+ *
+ * LZMA2 stores the data in chunks. Each chunk has a header whose size is
+ * a maximum of 6 bytes, but to get round 2^n numbers, let's assume that
+ * the maximum chunk header size is 8 bytes. After the chunk header, there
+ * may be up to 64 KiB of actual payload in the chunk. Often the payload is
+ * quite a bit smaller though; to be safe, let's assume that an average
+ * chunk has only 32 KiB of payload.
+ *
+ * The maximum uncompressed size of the payload is 2 MiB. The minimum
+ * uncompressed size of the payload is in practice never less than the
+ * payload size itself. The LZMA2 format would allow uncompressed size
+ * to be less than the payload size, but no sane compressor creates such
+ * files. LZMA2 supports storing incompressible data in uncompressed form,
+ * so there's never a need to create payloads whose uncompressed size is
+ * smaller than the compressed size.
+ *
+ * The assumption, that the uncompressed size of the payload is never
+ * smaller than the payload itself, is valid only when talking about
+ * the payload as a whole. It is possible that the payload has parts where
+ * the decompressor consumes more input than it produces output. Calculating
+ * the worst case for this would be tricky. Instead of trying to do that,
+ * let's simply make sure that the decompressor never overwrites any bytes
+ * of the payload which it is currently reading.
+ *
+ * Now we have enough information to calculate the safety margin. We need
+ * - 128 bytes for the .xz file format headers;
+ * - 8 bytes per every 32 KiB of uncompressed size (one LZMA2 chunk header
+ * per chunk, each chunk having average payload size of 32 KiB); and
+ * - 64 KiB (biggest possible LZMA2 chunk payload size) to make sure that
+ * the decompressor never overwrites anything from the LZMA2 chunk
+ * payload it is currently reading.
+ *
+ * We get the following formula:
+ *
+ * safety_margin = 128 + uncompressed_size * 8 / 32768 + 65536
+ * = 128 + (uncompressed_size >> 12) + 65536
+ *
+ * For comparison, according to arch/x86/boot/compressed/misc.c, the
+ * equivalent formula for Deflate is this:
+ *
+ * safety_margin = 18 + (uncompressed_size >> 12) + 32768
+ *
+ * Thus, when updating Deflate-only in-place kernel decompressor to
+ * support XZ, the fixed overhead has to be increased from 18+32768 bytes
+ * to 128+65536 bytes.
+ */
+
+/*
+ * STATIC is defined to "static" if we are being built for kernel
+ * decompression (pre-boot code). <linux/decompress/mm.h> will define
+ * STATIC to empty if it wasn't already defined. Since we will need to
+ * know later if we are being used for kernel decompression, we define
+ * XZ_PREBOOT here.
+ */
+#ifdef STATIC
+# define XZ_PREBOOT
+#else
+#include <linux/decompress/unxz.h>
+#endif
+#ifdef __KERNEL__
+# include <linux/decompress/mm.h>
+#endif
+#define XZ_EXTERN STATIC
+
+#ifndef XZ_PREBOOT
+# include <linux/slab.h>
+# include <linux/xz.h>
+#else
+/*
+ * Use the internal CRC32 code instead of kernel's CRC32 module, which
+ * is not available in early phase of booting.
+ */
+#define XZ_INTERNAL_CRC32 1
+
+/*
+ * For boot time use, we enable only the BCJ filter of the current
+ * architecture or none if no BCJ filter is available for the architecture.
+ */
+#ifdef CONFIG_X86
+# define XZ_DEC_X86
+#endif
+#ifdef CONFIG_PPC
+# define XZ_DEC_POWERPC
+#endif
+#ifdef CONFIG_ARM
+# define XZ_DEC_ARM
+#endif
+#ifdef CONFIG_IA64
+# define XZ_DEC_IA64
+#endif
+#ifdef CONFIG_SPARC
+# define XZ_DEC_SPARC
+#endif
+
+/*
+ * This will get the basic headers so that memeq() and others
+ * can be defined.
+ */
+#include "xz/xz_private.h"
+
+/*
+ * Replace the normal allocation functions with the versions from
+ * <linux/decompress/mm.h>. vfree() needs to support vfree(NULL)
+ * when XZ_DYNALLOC is used, but the pre-boot free() doesn't support it.
+ * Workaround it here because the other decompressors don't need it.
+ */
+#undef kmalloc
+#undef kfree
+#undef vmalloc
+#undef vfree
+#define kmalloc(size, flags) malloc(size)
+#define kfree(ptr) free(ptr)
+#define vmalloc(size) malloc(size)
+#define vfree(ptr) do { if (ptr != NULL) free(ptr); } while (0)
+
+/*
+ * FIXME: Not all basic memory functions are provided in architecture-specific
+ * files (yet). We define our own versions here for now, but this should be
+ * only a temporary solution.
+ *
+ * memeq and memzero are not used much and any remotely sane implementation
+ * is fast enough. memcpy/memmove speed matters in multi-call mode, but
+ * the kernel image is decompressed in single-call mode, in which only
+ * memmove speed can matter and only if there is a lot of incompressible data
+ * (LZMA2 stores incompressible chunks in uncompressed form). Thus, the
+ * functions below should just be kept small; it's probably not worth
+ * optimizing for speed.
+ */
+
+#ifndef memeq
+static bool memeq(const void *a, const void *b, size_t size)
+{
+ const uint8_t *x = a;
+ const uint8_t *y = b;
+ size_t i;
+
+ for (i = 0; i < size; ++i)
+ if (x[i] != y[i])
+ return false;
+
+ return true;
+}
+#endif
+
+#ifndef memzero
+static void memzero(void *buf, size_t size)
+{
+ uint8_t *b = buf;
+ uint8_t *e = b + size;
+
+ while (b != e)
+ *b++ = '\0';
+}
+#endif
+
+#ifndef memmove
+/* Not static to avoid a conflict with the prototype in the Linux headers. */
+void *memmove(void *dest, const void *src, size_t size)
+{
+ uint8_t *d = dest;
+ const uint8_t *s = src;
+ size_t i;
+
+ if (d < s) {
+ for (i = 0; i < size; ++i)
+ d[i] = s[i];
+ } else if (d > s) {
+ i = size;
+ while (i-- > 0)
+ d[i] = s[i];
+ }
+
+ return dest;
+}
+#endif
+
+/*
+ * Since we need memmove anyway, would use it as memcpy too.
+ * Commented out for now to avoid breaking things.
+ */
+/*
+#ifndef memcpy
+# define memcpy memmove
+#endif
+*/
+
+#include "xz/xz_crc32.c"
+#include "xz/xz_dec_stream.c"
+#include "xz/xz_dec_lzma2.c"
+#include "xz/xz_dec_bcj.c"
+
+#endif /* XZ_PREBOOT */
+
+/* Size of the input and output buffers in multi-call mode */
+#define XZ_IOBUF_SIZE 4096
+
+/*
+ * This function implements the API defined in <linux/decompress/generic.h>.
+ *
+ * This wrapper will automatically choose single-call or multi-call mode
+ * of the native XZ decoder API. The single-call mode can be used only when
+ * both input and output buffers are available as a single chunk, i.e. when
+ * fill() and flush() won't be used.
+ */
+STATIC int INIT unxz(unsigned char *in, long in_size,
+ long (*fill)(void *dest, unsigned long size),
+ long (*flush)(void *src, unsigned long size),
+ unsigned char *out, long *in_used,
+ void (*error)(char *x))
+{
+ struct xz_buf b;
+ struct xz_dec *s;
+ enum xz_ret ret;
+ bool must_free_in = false;
+
+#if XZ_INTERNAL_CRC32
+ xz_crc32_init();
+#endif
+
+ if (in_used != NULL)
+ *in_used = 0;
+
+ if (fill == NULL && flush == NULL)
+ s = xz_dec_init(XZ_SINGLE, 0);
+ else
+ s = xz_dec_init(XZ_DYNALLOC, (uint32_t)-1);
+
+ if (s == NULL)
+ goto error_alloc_state;
+
+ if (flush == NULL) {
+ b.out = out;
+ b.out_size = (size_t)-1;
+ } else {
+ b.out_size = XZ_IOBUF_SIZE;
+ b.out = malloc(XZ_IOBUF_SIZE);
+ if (b.out == NULL)
+ goto error_alloc_out;
+ }
+
+ if (in == NULL) {
+ must_free_in = true;
+ in = malloc(XZ_IOBUF_SIZE);
+ if (in == NULL)
+ goto error_alloc_in;
+ }
+
+ b.in = in;
+ b.in_pos = 0;
+ b.in_size = in_size;
+ b.out_pos = 0;
+
+ if (fill == NULL && flush == NULL) {
+ ret = xz_dec_run(s, &b);
+ } else {
+ do {
+ if (b.in_pos == b.in_size && fill != NULL) {
+ if (in_used != NULL)
+ *in_used += b.in_pos;
+
+ b.in_pos = 0;
+
+ in_size = fill(in, XZ_IOBUF_SIZE);
+ if (in_size < 0) {
+ /*
+ * This isn't an optimal error code
+ * but it probably isn't worth making
+ * a new one either.
+ */
+ ret = XZ_BUF_ERROR;
+ break;
+ }
+
+ b.in_size = in_size;
+ }
+
+ ret = xz_dec_run(s, &b);
+
+ if (flush != NULL && (b.out_pos == b.out_size
+ || (ret != XZ_OK && b.out_pos > 0))) {
+ /*
+ * Setting ret here may hide an error
+ * returned by xz_dec_run(), but probably
+ * it's not too bad.
+ */
+ if (flush(b.out, b.out_pos) != (long)b.out_pos)
+ ret = XZ_BUF_ERROR;
+
+ b.out_pos = 0;
+ }
+ } while (ret == XZ_OK);
+
+ if (must_free_in)
+ free(in);
+
+ if (flush != NULL)
+ free(b.out);
+ }
+
+ if (in_used != NULL)
+ *in_used += b.in_pos;
+
+ xz_dec_end(s);
+
+ switch (ret) {
+ case XZ_STREAM_END:
+ return 0;
+
+ case XZ_MEM_ERROR:
+ /* This can occur only in multi-call mode. */
+ error("XZ decompressor ran out of memory");
+ break;
+
+ case XZ_FORMAT_ERROR:
+ error("Input is not in the XZ format (wrong magic bytes)");
+ break;
+
+ case XZ_OPTIONS_ERROR:
+ error("Input was encoded with settings that are not "
+ "supported by this XZ decoder");
+ break;
+
+ case XZ_DATA_ERROR:
+ case XZ_BUF_ERROR:
+ error("XZ-compressed data is corrupt");
+ break;
+
+ default:
+ error("Bug in the XZ decompressor");
+ break;
+ }
+
+ return -1;
+
+error_alloc_in:
+ if (flush != NULL)
+ free(b.out);
+
+error_alloc_out:
+ xz_dec_end(s);
+
+error_alloc_state:
+ error("XZ decompressor ran out of memory");
+ return -1;
+}
+
+/*
+ * This macro is used by architecture-specific files to decompress
+ * the kernel image.
+ */
+#ifdef XZ_PREBOOT
+STATIC int INIT __decompress(unsigned char *buf, long len,
+ long (*fill)(void*, unsigned long),
+ long (*flush)(void*, unsigned long),
+ unsigned char *out_buf, long olen,
+ long *pos,
+ void (*error)(char *x))
+{
+ return unxz(buf, len, fill, flush, out_buf, pos, error);
+}
+#endif