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u-boot-brain/lib/lz4_wrapper.c

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SPDX: Convert all of our multiple license tags to Linux Kernel style When U-Boot started using SPDX tags we were among the early adopters and there weren't a lot of other examples to borrow from. So we picked the area of the file that usually had a full license text and replaced it with an appropriate SPDX-License-Identifier: entry. Since then, the Linux Kernel has adopted SPDX tags and they place it as the very first line in a file (except where shebangs are used, then it's second line) and with slightly different comment styles than us. In part due to community overlap, in part due to better tag visibility and in part for other minor reasons, switch over to that style. This commit changes all instances where we have multiple licenses (in these cases, dual license) declared in the SPDX-License-Identifier tag. In this case we change from listing "LICENSE-A LICENSE-B" or "LICENSE-A or LICENSE-B" or "(LICENSE-A OR LICENSE-B)" to "LICENSE-A OR LICENSE-B" as per the Linux Kernel style document. Note that parenthesis are allowed so when they were used before we continue to use them. Reviewed-by: Fabio Estevam <fabio.estevam@nxp.com> Signed-off-by: Tom Rini <trini@konsulko.com>
2018-05-07 07:27:01 +09:00
// SPDX-License-Identifier: GPL 2.0+ OR BSD-3-Clause
Add support for LZ4 decompression algorithm This patch adds support for LZ4-compressed FIT image contents. This algorithm has a slightly worse compression ration than LZO while being nearly twice as fast to decompress. When loading images from a fast storage medium this usually results in a boot time win. Sandbox-tested only since I don't have a U-Boot development system set up right now. The code was imported unchanged from coreboot where it's proven to work, though. I'm mostly interested in getting this recognized by mkImage for use in a downstream project. Signed-off-by: Julius Werner <jwerner@chromium.org> Acked-by: Simon Glass <sjg@chromium.org>
2015-10-07 12:03:53 +09:00
/*
* Copyright 2015 Google Inc.
*/
#include <common.h>
#include <compiler.h>
image: android: allow booting lz4-compressed kernels According to Android image format [1], kernel image resides at 1 page offset from the boot image address. Grab the magic number from there and allow U-Boot to handle LZ4-compressed KNL binaries instead of hardcoding compression type to IH_COMP_NONE. Other compression types, if needed, can be added later. Tested on H3ULCB-KF using the image detailed in [2]. [1] Excerpt from include/android_image.h +-----------------+ | boot header | 1 page +-----------------+ | kernel | n pages +-----------------+ | ramdisk | m pages +-----------------+ | second stage | o pages +-----------------+ [2] => iminfo 4c000000 ## Checking Image at 4c000000 ... Android image found kernel size: 85b9d1 kernel address: 48080000 ramdisk size: 54ddbc ramdisk addrress: 4a180000 second size: 0 second address: 48000800 tags address: 48000100 page size: 800 os_version: 1200012a (ver: 0.9.0, level: 2018.10) name: cmdline: buildvariant=userdebug Signed-off-by: Eugeniu Rosca <erosca@de.adit-jv.com>
2019-04-09 00:35:27 +09:00
#include <image.h>
common: Add a new lz4.h header file Add a header file to house the lz4 compression function. Add a comment while we are here, since it not even clear from the name what the function actuall does. Signed-off-by: Simon Glass <sjg@chromium.org> Reviewed-by: Tom Rini <trini@konsulko.com>
2019-11-15 04:57:25 +09:00
#include <lz4.h>
Add support for LZ4 decompression algorithm This patch adds support for LZ4-compressed FIT image contents. This algorithm has a slightly worse compression ration than LZO while being nearly twice as fast to decompress. When loading images from a fast storage medium this usually results in a boot time win. Sandbox-tested only since I don't have a U-Boot development system set up right now. The code was imported unchanged from coreboot where it's proven to work, though. I'm mostly interested in getting this recognized by mkImage for use in a downstream project. Signed-off-by: Julius Werner <jwerner@chromium.org> Acked-by: Simon Glass <sjg@chromium.org>
2015-10-07 12:03:53 +09:00
#include <linux/kernel.h>
#include <linux/types.h>
lz4: fix decompressor on big-endian powerpc Booting an lz4-compressed kernel image fails on our powerpc board with -EPROTONOSUPPORT. Adding a bit of debug prints, we get magic: 0x184d2204 flags: 0x64 reserved0: 1 has_content_checksum: 1 has_content_size: 0 has_block_checksum: 0 independent_blocks: 1 version: 0 block_descriptor: 70 reserved1: 7 max_block_size: 0 reserved2: 0 So the magic is ok, but the version check fails, also some reserved bits are apparently set. But that's because the code interprets the "flags" and "block_descriptor" bytes wrongly: Using bit-fields to access individual bits of an "on the wire" format is not portable, not even when restricted to the C flavour implemented by gcc. Quoting the gcc manual: * 'The order of allocation of bit-fields within a unit (C90 6.5.2.1, C99 and C11 6.7.2.1).' Determined by ABI. and indeed, the PPC Processor ABI supplement says * Bit-fields are allocated from right to left (least to most significant) on Little-Endian implementations and from left to right (most to least significant) on Big-Endian implementations. The upstream code (github.com/lz4/lz4) uses explicit shifts and masks for encoding/decoding: /* FLG Byte */ *dstPtr++ = (BYTE)(((1 & _2BITS) << 6) /* Version('01') */ + ((cctxPtr->prefs.frameInfo.blockMode & _1BIT ) << 5) + ((cctxPtr->prefs.frameInfo.blockChecksumFlag & _1BIT ) << 4) + ((unsigned)(cctxPtr->prefs.frameInfo.contentSize > 0) << 3) + ((cctxPtr->prefs.frameInfo.contentChecksumFlag & _1BIT ) << 2) + (cctxPtr->prefs.frameInfo.dictID > 0) ); /* Flags */ { U32 const FLG = srcPtr[4]; U32 const version = (FLG>>6) & _2BITS; blockChecksumFlag = (FLG>>4) & _1BIT; blockMode = (FLG>>5) & _1BIT; contentSizeFlag = (FLG>>3) & _1BIT; contentChecksumFlag = (FLG>>2) & _1BIT; dictIDFlag = FLG & _1BIT; /* validate */ if (((FLG>>1)&_1BIT) != 0) return err0r(LZ4F_ERROR_reservedFlag_set); /* Reserved bit */ if (version != 1) return err0r(LZ4F_ERROR_headerVersion_wrong); /* Version Number, only supported value */ } Do the same here, and while at it, be more careful to use unaligned accessors to what is most likely unaligned. Also update the comment to make it clear that it only refers to the lz4.c file, not the following code of lz4_wrapper.c. This has been tested partly, of course, by seeing that my lz4-compressed kernel now boots, partly by running the (de)compression test-suite in the (x86_64) sandbox - i.e., it should still work just fine on little-endian hosts. Reviewed-by: Julius Werner <jwerner@chromium.org> Signed-off-by: Rasmus Villemoes <rasmus.villemoes@prevas.dk>
2020-06-07 21:29:18 +09:00
#include <asm/unaligned.h>
Add support for LZ4 decompression algorithm This patch adds support for LZ4-compressed FIT image contents. This algorithm has a slightly worse compression ration than LZO while being nearly twice as fast to decompress. When loading images from a fast storage medium this usually results in a boot time win. Sandbox-tested only since I don't have a U-Boot development system set up right now. The code was imported unchanged from coreboot where it's proven to work, though. I'm mostly interested in getting this recognized by mkImage for use in a downstream project. Signed-off-by: Julius Werner <jwerner@chromium.org> Acked-by: Simon Glass <sjg@chromium.org>
2015-10-07 12:03:53 +09:00
lz4: Fix unaligned accesses Signed-off-by: Karl Beldan <karl.beldan+oss@gmail.com>
2021-03-18 07:31:58 +09:00
static u16 LZ4_readLE16(const void *src)
{
return get_unaligned_le16(src);
}
static void LZ4_copy4(void *dst, const void *src)
{
put_unaligned(get_unaligned((const u32 *)src), (u32 *)dst);
}
static void LZ4_copy8(void *dst, const void *src)
{
put_unaligned(get_unaligned((const u64 *)src), (u64 *)dst);
}
Add support for LZ4 decompression algorithm This patch adds support for LZ4-compressed FIT image contents. This algorithm has a slightly worse compression ration than LZO while being nearly twice as fast to decompress. When loading images from a fast storage medium this usually results in a boot time win. Sandbox-tested only since I don't have a U-Boot development system set up right now. The code was imported unchanged from coreboot where it's proven to work, though. I'm mostly interested in getting this recognized by mkImage for use in a downstream project. Signed-off-by: Julius Werner <jwerner@chromium.org> Acked-by: Simon Glass <sjg@chromium.org>
2015-10-07 12:03:53 +09:00
typedef uint8_t BYTE;
typedef uint16_t U16;
typedef uint32_t U32;
typedef int32_t S32;
typedef uint64_t U64;
#define FORCE_INLINE static inline __attribute__((always_inline))
lz4: fix decompressor on big-endian powerpc Booting an lz4-compressed kernel image fails on our powerpc board with -EPROTONOSUPPORT. Adding a bit of debug prints, we get magic: 0x184d2204 flags: 0x64 reserved0: 1 has_content_checksum: 1 has_content_size: 0 has_block_checksum: 0 independent_blocks: 1 version: 0 block_descriptor: 70 reserved1: 7 max_block_size: 0 reserved2: 0 So the magic is ok, but the version check fails, also some reserved bits are apparently set. But that's because the code interprets the "flags" and "block_descriptor" bytes wrongly: Using bit-fields to access individual bits of an "on the wire" format is not portable, not even when restricted to the C flavour implemented by gcc. Quoting the gcc manual: * 'The order of allocation of bit-fields within a unit (C90 6.5.2.1, C99 and C11 6.7.2.1).' Determined by ABI. and indeed, the PPC Processor ABI supplement says * Bit-fields are allocated from right to left (least to most significant) on Little-Endian implementations and from left to right (most to least significant) on Big-Endian implementations. The upstream code (github.com/lz4/lz4) uses explicit shifts and masks for encoding/decoding: /* FLG Byte */ *dstPtr++ = (BYTE)(((1 & _2BITS) << 6) /* Version('01') */ + ((cctxPtr->prefs.frameInfo.blockMode & _1BIT ) << 5) + ((cctxPtr->prefs.frameInfo.blockChecksumFlag & _1BIT ) << 4) + ((unsigned)(cctxPtr->prefs.frameInfo.contentSize > 0) << 3) + ((cctxPtr->prefs.frameInfo.contentChecksumFlag & _1BIT ) << 2) + (cctxPtr->prefs.frameInfo.dictID > 0) ); /* Flags */ { U32 const FLG = srcPtr[4]; U32 const version = (FLG>>6) & _2BITS; blockChecksumFlag = (FLG>>4) & _1BIT; blockMode = (FLG>>5) & _1BIT; contentSizeFlag = (FLG>>3) & _1BIT; contentChecksumFlag = (FLG>>2) & _1BIT; dictIDFlag = FLG & _1BIT; /* validate */ if (((FLG>>1)&_1BIT) != 0) return err0r(LZ4F_ERROR_reservedFlag_set); /* Reserved bit */ if (version != 1) return err0r(LZ4F_ERROR_headerVersion_wrong); /* Version Number, only supported value */ } Do the same here, and while at it, be more careful to use unaligned accessors to what is most likely unaligned. Also update the comment to make it clear that it only refers to the lz4.c file, not the following code of lz4_wrapper.c. This has been tested partly, of course, by seeing that my lz4-compressed kernel now boots, partly by running the (de)compression test-suite in the (x86_64) sandbox - i.e., it should still work just fine on little-endian hosts. Reviewed-by: Julius Werner <jwerner@chromium.org> Signed-off-by: Rasmus Villemoes <rasmus.villemoes@prevas.dk>
2020-06-07 21:29:18 +09:00
/* lz4.c is unaltered (except removing unrelated code) from github.com/Cyan4973/lz4. */
Add support for LZ4 decompression algorithm This patch adds support for LZ4-compressed FIT image contents. This algorithm has a slightly worse compression ration than LZO while being nearly twice as fast to decompress. When loading images from a fast storage medium this usually results in a boot time win. Sandbox-tested only since I don't have a U-Boot development system set up right now. The code was imported unchanged from coreboot where it's proven to work, though. I'm mostly interested in getting this recognized by mkImage for use in a downstream project. Signed-off-by: Julius Werner <jwerner@chromium.org> Acked-by: Simon Glass <sjg@chromium.org>
2015-10-07 12:03:53 +09:00
#include "lz4.c" /* #include for inlining, do not link! */
lz4: fix decompressor on big-endian powerpc Booting an lz4-compressed kernel image fails on our powerpc board with -EPROTONOSUPPORT. Adding a bit of debug prints, we get magic: 0x184d2204 flags: 0x64 reserved0: 1 has_content_checksum: 1 has_content_size: 0 has_block_checksum: 0 independent_blocks: 1 version: 0 block_descriptor: 70 reserved1: 7 max_block_size: 0 reserved2: 0 So the magic is ok, but the version check fails, also some reserved bits are apparently set. But that's because the code interprets the "flags" and "block_descriptor" bytes wrongly: Using bit-fields to access individual bits of an "on the wire" format is not portable, not even when restricted to the C flavour implemented by gcc. Quoting the gcc manual: * 'The order of allocation of bit-fields within a unit (C90 6.5.2.1, C99 and C11 6.7.2.1).' Determined by ABI. and indeed, the PPC Processor ABI supplement says * Bit-fields are allocated from right to left (least to most significant) on Little-Endian implementations and from left to right (most to least significant) on Big-Endian implementations. The upstream code (github.com/lz4/lz4) uses explicit shifts and masks for encoding/decoding: /* FLG Byte */ *dstPtr++ = (BYTE)(((1 & _2BITS) << 6) /* Version('01') */ + ((cctxPtr->prefs.frameInfo.blockMode & _1BIT ) << 5) + ((cctxPtr->prefs.frameInfo.blockChecksumFlag & _1BIT ) << 4) + ((unsigned)(cctxPtr->prefs.frameInfo.contentSize > 0) << 3) + ((cctxPtr->prefs.frameInfo.contentChecksumFlag & _1BIT ) << 2) + (cctxPtr->prefs.frameInfo.dictID > 0) ); /* Flags */ { U32 const FLG = srcPtr[4]; U32 const version = (FLG>>6) & _2BITS; blockChecksumFlag = (FLG>>4) & _1BIT; blockMode = (FLG>>5) & _1BIT; contentSizeFlag = (FLG>>3) & _1BIT; contentChecksumFlag = (FLG>>2) & _1BIT; dictIDFlag = FLG & _1BIT; /* validate */ if (((FLG>>1)&_1BIT) != 0) return err0r(LZ4F_ERROR_reservedFlag_set); /* Reserved bit */ if (version != 1) return err0r(LZ4F_ERROR_headerVersion_wrong); /* Version Number, only supported value */ } Do the same here, and while at it, be more careful to use unaligned accessors to what is most likely unaligned. Also update the comment to make it clear that it only refers to the lz4.c file, not the following code of lz4_wrapper.c. This has been tested partly, of course, by seeing that my lz4-compressed kernel now boots, partly by running the (de)compression test-suite in the (x86_64) sandbox - i.e., it should still work just fine on little-endian hosts. Reviewed-by: Julius Werner <jwerner@chromium.org> Signed-off-by: Rasmus Villemoes <rasmus.villemoes@prevas.dk>
2020-06-07 21:29:18 +09:00
#define LZ4F_BLOCKUNCOMPRESSED_FLAG 0x80000000U
Add support for LZ4 decompression algorithm This patch adds support for LZ4-compressed FIT image contents. This algorithm has a slightly worse compression ration than LZO while being nearly twice as fast to decompress. When loading images from a fast storage medium this usually results in a boot time win. Sandbox-tested only since I don't have a U-Boot development system set up right now. The code was imported unchanged from coreboot where it's proven to work, though. I'm mostly interested in getting this recognized by mkImage for use in a downstream project. Signed-off-by: Julius Werner <jwerner@chromium.org> Acked-by: Simon Glass <sjg@chromium.org>
2015-10-07 12:03:53 +09:00
int ulz4fn(const void *src, size_t srcn, void *dst, size_t *dstn)
{
const void *end = dst + *dstn;
const void *in = src;
void *out = dst;
int has_block_checksum;
int ret;
*dstn = 0;
{ /* With in-place decompression the header may become invalid later. */
lz4: fix decompressor on big-endian powerpc Booting an lz4-compressed kernel image fails on our powerpc board with -EPROTONOSUPPORT. Adding a bit of debug prints, we get magic: 0x184d2204 flags: 0x64 reserved0: 1 has_content_checksum: 1 has_content_size: 0 has_block_checksum: 0 independent_blocks: 1 version: 0 block_descriptor: 70 reserved1: 7 max_block_size: 0 reserved2: 0 So the magic is ok, but the version check fails, also some reserved bits are apparently set. But that's because the code interprets the "flags" and "block_descriptor" bytes wrongly: Using bit-fields to access individual bits of an "on the wire" format is not portable, not even when restricted to the C flavour implemented by gcc. Quoting the gcc manual: * 'The order of allocation of bit-fields within a unit (C90 6.5.2.1, C99 and C11 6.7.2.1).' Determined by ABI. and indeed, the PPC Processor ABI supplement says * Bit-fields are allocated from right to left (least to most significant) on Little-Endian implementations and from left to right (most to least significant) on Big-Endian implementations. The upstream code (github.com/lz4/lz4) uses explicit shifts and masks for encoding/decoding: /* FLG Byte */ *dstPtr++ = (BYTE)(((1 & _2BITS) << 6) /* Version('01') */ + ((cctxPtr->prefs.frameInfo.blockMode & _1BIT ) << 5) + ((cctxPtr->prefs.frameInfo.blockChecksumFlag & _1BIT ) << 4) + ((unsigned)(cctxPtr->prefs.frameInfo.contentSize > 0) << 3) + ((cctxPtr->prefs.frameInfo.contentChecksumFlag & _1BIT ) << 2) + (cctxPtr->prefs.frameInfo.dictID > 0) ); /* Flags */ { U32 const FLG = srcPtr[4]; U32 const version = (FLG>>6) & _2BITS; blockChecksumFlag = (FLG>>4) & _1BIT; blockMode = (FLG>>5) & _1BIT; contentSizeFlag = (FLG>>3) & _1BIT; contentChecksumFlag = (FLG>>2) & _1BIT; dictIDFlag = FLG & _1BIT; /* validate */ if (((FLG>>1)&_1BIT) != 0) return err0r(LZ4F_ERROR_reservedFlag_set); /* Reserved bit */ if (version != 1) return err0r(LZ4F_ERROR_headerVersion_wrong); /* Version Number, only supported value */ } Do the same here, and while at it, be more careful to use unaligned accessors to what is most likely unaligned. Also update the comment to make it clear that it only refers to the lz4.c file, not the following code of lz4_wrapper.c. This has been tested partly, of course, by seeing that my lz4-compressed kernel now boots, partly by running the (de)compression test-suite in the (x86_64) sandbox - i.e., it should still work just fine on little-endian hosts. Reviewed-by: Julius Werner <jwerner@chromium.org> Signed-off-by: Rasmus Villemoes <rasmus.villemoes@prevas.dk>
2020-06-07 21:29:18 +09:00
u32 magic;
u8 flags, version, independent_blocks, has_content_size;
u8 block_desc;
Add support for LZ4 decompression algorithm This patch adds support for LZ4-compressed FIT image contents. This algorithm has a slightly worse compression ration than LZO while being nearly twice as fast to decompress. When loading images from a fast storage medium this usually results in a boot time win. Sandbox-tested only since I don't have a U-Boot development system set up right now. The code was imported unchanged from coreboot where it's proven to work, though. I'm mostly interested in getting this recognized by mkImage for use in a downstream project. Signed-off-by: Julius Werner <jwerner@chromium.org> Acked-by: Simon Glass <sjg@chromium.org>
2015-10-07 12:03:53 +09:00
lz4: fix decompressor on big-endian powerpc Booting an lz4-compressed kernel image fails on our powerpc board with -EPROTONOSUPPORT. Adding a bit of debug prints, we get magic: 0x184d2204 flags: 0x64 reserved0: 1 has_content_checksum: 1 has_content_size: 0 has_block_checksum: 0 independent_blocks: 1 version: 0 block_descriptor: 70 reserved1: 7 max_block_size: 0 reserved2: 0 So the magic is ok, but the version check fails, also some reserved bits are apparently set. But that's because the code interprets the "flags" and "block_descriptor" bytes wrongly: Using bit-fields to access individual bits of an "on the wire" format is not portable, not even when restricted to the C flavour implemented by gcc. Quoting the gcc manual: * 'The order of allocation of bit-fields within a unit (C90 6.5.2.1, C99 and C11 6.7.2.1).' Determined by ABI. and indeed, the PPC Processor ABI supplement says * Bit-fields are allocated from right to left (least to most significant) on Little-Endian implementations and from left to right (most to least significant) on Big-Endian implementations. The upstream code (github.com/lz4/lz4) uses explicit shifts and masks for encoding/decoding: /* FLG Byte */ *dstPtr++ = (BYTE)(((1 & _2BITS) << 6) /* Version('01') */ + ((cctxPtr->prefs.frameInfo.blockMode & _1BIT ) << 5) + ((cctxPtr->prefs.frameInfo.blockChecksumFlag & _1BIT ) << 4) + ((unsigned)(cctxPtr->prefs.frameInfo.contentSize > 0) << 3) + ((cctxPtr->prefs.frameInfo.contentChecksumFlag & _1BIT ) << 2) + (cctxPtr->prefs.frameInfo.dictID > 0) ); /* Flags */ { U32 const FLG = srcPtr[4]; U32 const version = (FLG>>6) & _2BITS; blockChecksumFlag = (FLG>>4) & _1BIT; blockMode = (FLG>>5) & _1BIT; contentSizeFlag = (FLG>>3) & _1BIT; contentChecksumFlag = (FLG>>2) & _1BIT; dictIDFlag = FLG & _1BIT; /* validate */ if (((FLG>>1)&_1BIT) != 0) return err0r(LZ4F_ERROR_reservedFlag_set); /* Reserved bit */ if (version != 1) return err0r(LZ4F_ERROR_headerVersion_wrong); /* Version Number, only supported value */ } Do the same here, and while at it, be more careful to use unaligned accessors to what is most likely unaligned. Also update the comment to make it clear that it only refers to the lz4.c file, not the following code of lz4_wrapper.c. This has been tested partly, of course, by seeing that my lz4-compressed kernel now boots, partly by running the (de)compression test-suite in the (x86_64) sandbox - i.e., it should still work just fine on little-endian hosts. Reviewed-by: Julius Werner <jwerner@chromium.org> Signed-off-by: Rasmus Villemoes <rasmus.villemoes@prevas.dk>
2020-06-07 21:29:18 +09:00
if (srcn < sizeof(u32) + 3*sizeof(u8))
Add support for LZ4 decompression algorithm This patch adds support for LZ4-compressed FIT image contents. This algorithm has a slightly worse compression ration than LZO while being nearly twice as fast to decompress. When loading images from a fast storage medium this usually results in a boot time win. Sandbox-tested only since I don't have a U-Boot development system set up right now. The code was imported unchanged from coreboot where it's proven to work, though. I'm mostly interested in getting this recognized by mkImage for use in a downstream project. Signed-off-by: Julius Werner <jwerner@chromium.org> Acked-by: Simon Glass <sjg@chromium.org>
2015-10-07 12:03:53 +09:00
return -EINVAL; /* input overrun */
lz4: fix decompressor on big-endian powerpc Booting an lz4-compressed kernel image fails on our powerpc board with -EPROTONOSUPPORT. Adding a bit of debug prints, we get magic: 0x184d2204 flags: 0x64 reserved0: 1 has_content_checksum: 1 has_content_size: 0 has_block_checksum: 0 independent_blocks: 1 version: 0 block_descriptor: 70 reserved1: 7 max_block_size: 0 reserved2: 0 So the magic is ok, but the version check fails, also some reserved bits are apparently set. But that's because the code interprets the "flags" and "block_descriptor" bytes wrongly: Using bit-fields to access individual bits of an "on the wire" format is not portable, not even when restricted to the C flavour implemented by gcc. Quoting the gcc manual: * 'The order of allocation of bit-fields within a unit (C90 6.5.2.1, C99 and C11 6.7.2.1).' Determined by ABI. and indeed, the PPC Processor ABI supplement says * Bit-fields are allocated from right to left (least to most significant) on Little-Endian implementations and from left to right (most to least significant) on Big-Endian implementations. The upstream code (github.com/lz4/lz4) uses explicit shifts and masks for encoding/decoding: /* FLG Byte */ *dstPtr++ = (BYTE)(((1 & _2BITS) << 6) /* Version('01') */ + ((cctxPtr->prefs.frameInfo.blockMode & _1BIT ) << 5) + ((cctxPtr->prefs.frameInfo.blockChecksumFlag & _1BIT ) << 4) + ((unsigned)(cctxPtr->prefs.frameInfo.contentSize > 0) << 3) + ((cctxPtr->prefs.frameInfo.contentChecksumFlag & _1BIT ) << 2) + (cctxPtr->prefs.frameInfo.dictID > 0) ); /* Flags */ { U32 const FLG = srcPtr[4]; U32 const version = (FLG>>6) & _2BITS; blockChecksumFlag = (FLG>>4) & _1BIT; blockMode = (FLG>>5) & _1BIT; contentSizeFlag = (FLG>>3) & _1BIT; contentChecksumFlag = (FLG>>2) & _1BIT; dictIDFlag = FLG & _1BIT; /* validate */ if (((FLG>>1)&_1BIT) != 0) return err0r(LZ4F_ERROR_reservedFlag_set); /* Reserved bit */ if (version != 1) return err0r(LZ4F_ERROR_headerVersion_wrong); /* Version Number, only supported value */ } Do the same here, and while at it, be more careful to use unaligned accessors to what is most likely unaligned. Also update the comment to make it clear that it only refers to the lz4.c file, not the following code of lz4_wrapper.c. This has been tested partly, of course, by seeing that my lz4-compressed kernel now boots, partly by running the (de)compression test-suite in the (x86_64) sandbox - i.e., it should still work just fine on little-endian hosts. Reviewed-by: Julius Werner <jwerner@chromium.org> Signed-off-by: Rasmus Villemoes <rasmus.villemoes@prevas.dk>
2020-06-07 21:29:18 +09:00
magic = get_unaligned_le32(in);
in += sizeof(u32);
flags = *(u8 *)in;
in += sizeof(u8);
block_desc = *(u8 *)in;
in += sizeof(u8);
version = (flags >> 6) & 0x3;
independent_blocks = (flags >> 5) & 0x1;
has_block_checksum = (flags >> 4) & 0x1;
has_content_size = (flags >> 3) & 0x1;
Add support for LZ4 decompression algorithm This patch adds support for LZ4-compressed FIT image contents. This algorithm has a slightly worse compression ration than LZO while being nearly twice as fast to decompress. When loading images from a fast storage medium this usually results in a boot time win. Sandbox-tested only since I don't have a U-Boot development system set up right now. The code was imported unchanged from coreboot where it's proven to work, though. I'm mostly interested in getting this recognized by mkImage for use in a downstream project. Signed-off-by: Julius Werner <jwerner@chromium.org> Acked-by: Simon Glass <sjg@chromium.org>
2015-10-07 12:03:53 +09:00
/* We assume there's always only a single, standard frame. */
lz4: fix decompressor on big-endian powerpc Booting an lz4-compressed kernel image fails on our powerpc board with -EPROTONOSUPPORT. Adding a bit of debug prints, we get magic: 0x184d2204 flags: 0x64 reserved0: 1 has_content_checksum: 1 has_content_size: 0 has_block_checksum: 0 independent_blocks: 1 version: 0 block_descriptor: 70 reserved1: 7 max_block_size: 0 reserved2: 0 So the magic is ok, but the version check fails, also some reserved bits are apparently set. But that's because the code interprets the "flags" and "block_descriptor" bytes wrongly: Using bit-fields to access individual bits of an "on the wire" format is not portable, not even when restricted to the C flavour implemented by gcc. Quoting the gcc manual: * 'The order of allocation of bit-fields within a unit (C90 6.5.2.1, C99 and C11 6.7.2.1).' Determined by ABI. and indeed, the PPC Processor ABI supplement says * Bit-fields are allocated from right to left (least to most significant) on Little-Endian implementations and from left to right (most to least significant) on Big-Endian implementations. The upstream code (github.com/lz4/lz4) uses explicit shifts and masks for encoding/decoding: /* FLG Byte */ *dstPtr++ = (BYTE)(((1 & _2BITS) << 6) /* Version('01') */ + ((cctxPtr->prefs.frameInfo.blockMode & _1BIT ) << 5) + ((cctxPtr->prefs.frameInfo.blockChecksumFlag & _1BIT ) << 4) + ((unsigned)(cctxPtr->prefs.frameInfo.contentSize > 0) << 3) + ((cctxPtr->prefs.frameInfo.contentChecksumFlag & _1BIT ) << 2) + (cctxPtr->prefs.frameInfo.dictID > 0) ); /* Flags */ { U32 const FLG = srcPtr[4]; U32 const version = (FLG>>6) & _2BITS; blockChecksumFlag = (FLG>>4) & _1BIT; blockMode = (FLG>>5) & _1BIT; contentSizeFlag = (FLG>>3) & _1BIT; contentChecksumFlag = (FLG>>2) & _1BIT; dictIDFlag = FLG & _1BIT; /* validate */ if (((FLG>>1)&_1BIT) != 0) return err0r(LZ4F_ERROR_reservedFlag_set); /* Reserved bit */ if (version != 1) return err0r(LZ4F_ERROR_headerVersion_wrong); /* Version Number, only supported value */ } Do the same here, and while at it, be more careful to use unaligned accessors to what is most likely unaligned. Also update the comment to make it clear that it only refers to the lz4.c file, not the following code of lz4_wrapper.c. This has been tested partly, of course, by seeing that my lz4-compressed kernel now boots, partly by running the (de)compression test-suite in the (x86_64) sandbox - i.e., it should still work just fine on little-endian hosts. Reviewed-by: Julius Werner <jwerner@chromium.org> Signed-off-by: Rasmus Villemoes <rasmus.villemoes@prevas.dk>
2020-06-07 21:29:18 +09:00
if (magic != LZ4F_MAGIC || version != 1)
Add support for LZ4 decompression algorithm This patch adds support for LZ4-compressed FIT image contents. This algorithm has a slightly worse compression ration than LZO while being nearly twice as fast to decompress. When loading images from a fast storage medium this usually results in a boot time win. Sandbox-tested only since I don't have a U-Boot development system set up right now. The code was imported unchanged from coreboot where it's proven to work, though. I'm mostly interested in getting this recognized by mkImage for use in a downstream project. Signed-off-by: Julius Werner <jwerner@chromium.org> Acked-by: Simon Glass <sjg@chromium.org>
2015-10-07 12:03:53 +09:00
return -EPROTONOSUPPORT; /* unknown format */
lz4: fix decompressor on big-endian powerpc Booting an lz4-compressed kernel image fails on our powerpc board with -EPROTONOSUPPORT. Adding a bit of debug prints, we get magic: 0x184d2204 flags: 0x64 reserved0: 1 has_content_checksum: 1 has_content_size: 0 has_block_checksum: 0 independent_blocks: 1 version: 0 block_descriptor: 70 reserved1: 7 max_block_size: 0 reserved2: 0 So the magic is ok, but the version check fails, also some reserved bits are apparently set. But that's because the code interprets the "flags" and "block_descriptor" bytes wrongly: Using bit-fields to access individual bits of an "on the wire" format is not portable, not even when restricted to the C flavour implemented by gcc. Quoting the gcc manual: * 'The order of allocation of bit-fields within a unit (C90 6.5.2.1, C99 and C11 6.7.2.1).' Determined by ABI. and indeed, the PPC Processor ABI supplement says * Bit-fields are allocated from right to left (least to most significant) on Little-Endian implementations and from left to right (most to least significant) on Big-Endian implementations. The upstream code (github.com/lz4/lz4) uses explicit shifts and masks for encoding/decoding: /* FLG Byte */ *dstPtr++ = (BYTE)(((1 & _2BITS) << 6) /* Version('01') */ + ((cctxPtr->prefs.frameInfo.blockMode & _1BIT ) << 5) + ((cctxPtr->prefs.frameInfo.blockChecksumFlag & _1BIT ) << 4) + ((unsigned)(cctxPtr->prefs.frameInfo.contentSize > 0) << 3) + ((cctxPtr->prefs.frameInfo.contentChecksumFlag & _1BIT ) << 2) + (cctxPtr->prefs.frameInfo.dictID > 0) ); /* Flags */ { U32 const FLG = srcPtr[4]; U32 const version = (FLG>>6) & _2BITS; blockChecksumFlag = (FLG>>4) & _1BIT; blockMode = (FLG>>5) & _1BIT; contentSizeFlag = (FLG>>3) & _1BIT; contentChecksumFlag = (FLG>>2) & _1BIT; dictIDFlag = FLG & _1BIT; /* validate */ if (((FLG>>1)&_1BIT) != 0) return err0r(LZ4F_ERROR_reservedFlag_set); /* Reserved bit */ if (version != 1) return err0r(LZ4F_ERROR_headerVersion_wrong); /* Version Number, only supported value */ } Do the same here, and while at it, be more careful to use unaligned accessors to what is most likely unaligned. Also update the comment to make it clear that it only refers to the lz4.c file, not the following code of lz4_wrapper.c. This has been tested partly, of course, by seeing that my lz4-compressed kernel now boots, partly by running the (de)compression test-suite in the (x86_64) sandbox - i.e., it should still work just fine on little-endian hosts. Reviewed-by: Julius Werner <jwerner@chromium.org> Signed-off-by: Rasmus Villemoes <rasmus.villemoes@prevas.dk>
2020-06-07 21:29:18 +09:00
if ((flags & 0x03) || (block_desc & 0x8f))
return -EINVAL; /* reserved bits must be zero */
if (!independent_blocks)
Add support for LZ4 decompression algorithm This patch adds support for LZ4-compressed FIT image contents. This algorithm has a slightly worse compression ration than LZO while being nearly twice as fast to decompress. When loading images from a fast storage medium this usually results in a boot time win. Sandbox-tested only since I don't have a U-Boot development system set up right now. The code was imported unchanged from coreboot where it's proven to work, though. I'm mostly interested in getting this recognized by mkImage for use in a downstream project. Signed-off-by: Julius Werner <jwerner@chromium.org> Acked-by: Simon Glass <sjg@chromium.org>
2015-10-07 12:03:53 +09:00
return -EPROTONOSUPPORT; /* we can't support this yet */
lz4: fix decompressor on big-endian powerpc Booting an lz4-compressed kernel image fails on our powerpc board with -EPROTONOSUPPORT. Adding a bit of debug prints, we get magic: 0x184d2204 flags: 0x64 reserved0: 1 has_content_checksum: 1 has_content_size: 0 has_block_checksum: 0 independent_blocks: 1 version: 0 block_descriptor: 70 reserved1: 7 max_block_size: 0 reserved2: 0 So the magic is ok, but the version check fails, also some reserved bits are apparently set. But that's because the code interprets the "flags" and "block_descriptor" bytes wrongly: Using bit-fields to access individual bits of an "on the wire" format is not portable, not even when restricted to the C flavour implemented by gcc. Quoting the gcc manual: * 'The order of allocation of bit-fields within a unit (C90 6.5.2.1, C99 and C11 6.7.2.1).' Determined by ABI. and indeed, the PPC Processor ABI supplement says * Bit-fields are allocated from right to left (least to most significant) on Little-Endian implementations and from left to right (most to least significant) on Big-Endian implementations. The upstream code (github.com/lz4/lz4) uses explicit shifts and masks for encoding/decoding: /* FLG Byte */ *dstPtr++ = (BYTE)(((1 & _2BITS) << 6) /* Version('01') */ + ((cctxPtr->prefs.frameInfo.blockMode & _1BIT ) << 5) + ((cctxPtr->prefs.frameInfo.blockChecksumFlag & _1BIT ) << 4) + ((unsigned)(cctxPtr->prefs.frameInfo.contentSize > 0) << 3) + ((cctxPtr->prefs.frameInfo.contentChecksumFlag & _1BIT ) << 2) + (cctxPtr->prefs.frameInfo.dictID > 0) ); /* Flags */ { U32 const FLG = srcPtr[4]; U32 const version = (FLG>>6) & _2BITS; blockChecksumFlag = (FLG>>4) & _1BIT; blockMode = (FLG>>5) & _1BIT; contentSizeFlag = (FLG>>3) & _1BIT; contentChecksumFlag = (FLG>>2) & _1BIT; dictIDFlag = FLG & _1BIT; /* validate */ if (((FLG>>1)&_1BIT) != 0) return err0r(LZ4F_ERROR_reservedFlag_set); /* Reserved bit */ if (version != 1) return err0r(LZ4F_ERROR_headerVersion_wrong); /* Version Number, only supported value */ } Do the same here, and while at it, be more careful to use unaligned accessors to what is most likely unaligned. Also update the comment to make it clear that it only refers to the lz4.c file, not the following code of lz4_wrapper.c. This has been tested partly, of course, by seeing that my lz4-compressed kernel now boots, partly by running the (de)compression test-suite in the (x86_64) sandbox - i.e., it should still work just fine on little-endian hosts. Reviewed-by: Julius Werner <jwerner@chromium.org> Signed-off-by: Rasmus Villemoes <rasmus.villemoes@prevas.dk>
2020-06-07 21:29:18 +09:00
if (has_content_size) {
if (srcn < sizeof(u32) + 3*sizeof(u8) + sizeof(u64))
return -EINVAL; /* input overrun */
Add support for LZ4 decompression algorithm This patch adds support for LZ4-compressed FIT image contents. This algorithm has a slightly worse compression ration than LZO while being nearly twice as fast to decompress. When loading images from a fast storage medium this usually results in a boot time win. Sandbox-tested only since I don't have a U-Boot development system set up right now. The code was imported unchanged from coreboot where it's proven to work, though. I'm mostly interested in getting this recognized by mkImage for use in a downstream project. Signed-off-by: Julius Werner <jwerner@chromium.org> Acked-by: Simon Glass <sjg@chromium.org>
2015-10-07 12:03:53 +09:00
in += sizeof(u64);
lz4: fix decompressor on big-endian powerpc Booting an lz4-compressed kernel image fails on our powerpc board with -EPROTONOSUPPORT. Adding a bit of debug prints, we get magic: 0x184d2204 flags: 0x64 reserved0: 1 has_content_checksum: 1 has_content_size: 0 has_block_checksum: 0 independent_blocks: 1 version: 0 block_descriptor: 70 reserved1: 7 max_block_size: 0 reserved2: 0 So the magic is ok, but the version check fails, also some reserved bits are apparently set. But that's because the code interprets the "flags" and "block_descriptor" bytes wrongly: Using bit-fields to access individual bits of an "on the wire" format is not portable, not even when restricted to the C flavour implemented by gcc. Quoting the gcc manual: * 'The order of allocation of bit-fields within a unit (C90 6.5.2.1, C99 and C11 6.7.2.1).' Determined by ABI. and indeed, the PPC Processor ABI supplement says * Bit-fields are allocated from right to left (least to most significant) on Little-Endian implementations and from left to right (most to least significant) on Big-Endian implementations. The upstream code (github.com/lz4/lz4) uses explicit shifts and masks for encoding/decoding: /* FLG Byte */ *dstPtr++ = (BYTE)(((1 & _2BITS) << 6) /* Version('01') */ + ((cctxPtr->prefs.frameInfo.blockMode & _1BIT ) << 5) + ((cctxPtr->prefs.frameInfo.blockChecksumFlag & _1BIT ) << 4) + ((unsigned)(cctxPtr->prefs.frameInfo.contentSize > 0) << 3) + ((cctxPtr->prefs.frameInfo.contentChecksumFlag & _1BIT ) << 2) + (cctxPtr->prefs.frameInfo.dictID > 0) ); /* Flags */ { U32 const FLG = srcPtr[4]; U32 const version = (FLG>>6) & _2BITS; blockChecksumFlag = (FLG>>4) & _1BIT; blockMode = (FLG>>5) & _1BIT; contentSizeFlag = (FLG>>3) & _1BIT; contentChecksumFlag = (FLG>>2) & _1BIT; dictIDFlag = FLG & _1BIT; /* validate */ if (((FLG>>1)&_1BIT) != 0) return err0r(LZ4F_ERROR_reservedFlag_set); /* Reserved bit */ if (version != 1) return err0r(LZ4F_ERROR_headerVersion_wrong); /* Version Number, only supported value */ } Do the same here, and while at it, be more careful to use unaligned accessors to what is most likely unaligned. Also update the comment to make it clear that it only refers to the lz4.c file, not the following code of lz4_wrapper.c. This has been tested partly, of course, by seeing that my lz4-compressed kernel now boots, partly by running the (de)compression test-suite in the (x86_64) sandbox - i.e., it should still work just fine on little-endian hosts. Reviewed-by: Julius Werner <jwerner@chromium.org> Signed-off-by: Rasmus Villemoes <rasmus.villemoes@prevas.dk>
2020-06-07 21:29:18 +09:00
}
/* Header checksum byte */
Add support for LZ4 decompression algorithm This patch adds support for LZ4-compressed FIT image contents. This algorithm has a slightly worse compression ration than LZO while being nearly twice as fast to decompress. When loading images from a fast storage medium this usually results in a boot time win. Sandbox-tested only since I don't have a U-Boot development system set up right now. The code was imported unchanged from coreboot where it's proven to work, though. I'm mostly interested in getting this recognized by mkImage for use in a downstream project. Signed-off-by: Julius Werner <jwerner@chromium.org> Acked-by: Simon Glass <sjg@chromium.org>
2015-10-07 12:03:53 +09:00
in += sizeof(u8);
}
while (1) {
lz4: fix decompressor on big-endian powerpc Booting an lz4-compressed kernel image fails on our powerpc board with -EPROTONOSUPPORT. Adding a bit of debug prints, we get magic: 0x184d2204 flags: 0x64 reserved0: 1 has_content_checksum: 1 has_content_size: 0 has_block_checksum: 0 independent_blocks: 1 version: 0 block_descriptor: 70 reserved1: 7 max_block_size: 0 reserved2: 0 So the magic is ok, but the version check fails, also some reserved bits are apparently set. But that's because the code interprets the "flags" and "block_descriptor" bytes wrongly: Using bit-fields to access individual bits of an "on the wire" format is not portable, not even when restricted to the C flavour implemented by gcc. Quoting the gcc manual: * 'The order of allocation of bit-fields within a unit (C90 6.5.2.1, C99 and C11 6.7.2.1).' Determined by ABI. and indeed, the PPC Processor ABI supplement says * Bit-fields are allocated from right to left (least to most significant) on Little-Endian implementations and from left to right (most to least significant) on Big-Endian implementations. The upstream code (github.com/lz4/lz4) uses explicit shifts and masks for encoding/decoding: /* FLG Byte */ *dstPtr++ = (BYTE)(((1 & _2BITS) << 6) /* Version('01') */ + ((cctxPtr->prefs.frameInfo.blockMode & _1BIT ) << 5) + ((cctxPtr->prefs.frameInfo.blockChecksumFlag & _1BIT ) << 4) + ((unsigned)(cctxPtr->prefs.frameInfo.contentSize > 0) << 3) + ((cctxPtr->prefs.frameInfo.contentChecksumFlag & _1BIT ) << 2) + (cctxPtr->prefs.frameInfo.dictID > 0) ); /* Flags */ { U32 const FLG = srcPtr[4]; U32 const version = (FLG>>6) & _2BITS; blockChecksumFlag = (FLG>>4) & _1BIT; blockMode = (FLG>>5) & _1BIT; contentSizeFlag = (FLG>>3) & _1BIT; contentChecksumFlag = (FLG>>2) & _1BIT; dictIDFlag = FLG & _1BIT; /* validate */ if (((FLG>>1)&_1BIT) != 0) return err0r(LZ4F_ERROR_reservedFlag_set); /* Reserved bit */ if (version != 1) return err0r(LZ4F_ERROR_headerVersion_wrong); /* Version Number, only supported value */ } Do the same here, and while at it, be more careful to use unaligned accessors to what is most likely unaligned. Also update the comment to make it clear that it only refers to the lz4.c file, not the following code of lz4_wrapper.c. This has been tested partly, of course, by seeing that my lz4-compressed kernel now boots, partly by running the (de)compression test-suite in the (x86_64) sandbox - i.e., it should still work just fine on little-endian hosts. Reviewed-by: Julius Werner <jwerner@chromium.org> Signed-off-by: Rasmus Villemoes <rasmus.villemoes@prevas.dk>
2020-06-07 21:29:18 +09:00
u32 block_header, block_size;
Fix sandbox build on Ubuntu 10.04 gcc 4.4.3 (which is the default native compiler on x86-64 Ubuntu 10.04) doesn't seem to like initializers for sub-fields of anonymous unions. Solve this by replacing the initialization with an assignment. This fixes: lib/lz4_wrapper.c: In function ‘ulz4fn’: lib/lz4_wrapper.c:97: error: unknown field ‘raw’ specified in initializer Signed-off-by: Stephen Warren <swarren@wwwdotorg.org> Reviewed-by: Tom Rini <trini@konsulko.com> Acked-by: Simon Glass <sjg@chromium.org>
2015-11-15 15:53:49 +09:00
lz4: fix decompressor on big-endian powerpc Booting an lz4-compressed kernel image fails on our powerpc board with -EPROTONOSUPPORT. Adding a bit of debug prints, we get magic: 0x184d2204 flags: 0x64 reserved0: 1 has_content_checksum: 1 has_content_size: 0 has_block_checksum: 0 independent_blocks: 1 version: 0 block_descriptor: 70 reserved1: 7 max_block_size: 0 reserved2: 0 So the magic is ok, but the version check fails, also some reserved bits are apparently set. But that's because the code interprets the "flags" and "block_descriptor" bytes wrongly: Using bit-fields to access individual bits of an "on the wire" format is not portable, not even when restricted to the C flavour implemented by gcc. Quoting the gcc manual: * 'The order of allocation of bit-fields within a unit (C90 6.5.2.1, C99 and C11 6.7.2.1).' Determined by ABI. and indeed, the PPC Processor ABI supplement says * Bit-fields are allocated from right to left (least to most significant) on Little-Endian implementations and from left to right (most to least significant) on Big-Endian implementations. The upstream code (github.com/lz4/lz4) uses explicit shifts and masks for encoding/decoding: /* FLG Byte */ *dstPtr++ = (BYTE)(((1 & _2BITS) << 6) /* Version('01') */ + ((cctxPtr->prefs.frameInfo.blockMode & _1BIT ) << 5) + ((cctxPtr->prefs.frameInfo.blockChecksumFlag & _1BIT ) << 4) + ((unsigned)(cctxPtr->prefs.frameInfo.contentSize > 0) << 3) + ((cctxPtr->prefs.frameInfo.contentChecksumFlag & _1BIT ) << 2) + (cctxPtr->prefs.frameInfo.dictID > 0) ); /* Flags */ { U32 const FLG = srcPtr[4]; U32 const version = (FLG>>6) & _2BITS; blockChecksumFlag = (FLG>>4) & _1BIT; blockMode = (FLG>>5) & _1BIT; contentSizeFlag = (FLG>>3) & _1BIT; contentChecksumFlag = (FLG>>2) & _1BIT; dictIDFlag = FLG & _1BIT; /* validate */ if (((FLG>>1)&_1BIT) != 0) return err0r(LZ4F_ERROR_reservedFlag_set); /* Reserved bit */ if (version != 1) return err0r(LZ4F_ERROR_headerVersion_wrong); /* Version Number, only supported value */ } Do the same here, and while at it, be more careful to use unaligned accessors to what is most likely unaligned. Also update the comment to make it clear that it only refers to the lz4.c file, not the following code of lz4_wrapper.c. This has been tested partly, of course, by seeing that my lz4-compressed kernel now boots, partly by running the (de)compression test-suite in the (x86_64) sandbox - i.e., it should still work just fine on little-endian hosts. Reviewed-by: Julius Werner <jwerner@chromium.org> Signed-off-by: Rasmus Villemoes <rasmus.villemoes@prevas.dk>
2020-06-07 21:29:18 +09:00
block_header = get_unaligned_le32(in);
in += sizeof(u32);
block_size = block_header & ~LZ4F_BLOCKUNCOMPRESSED_FLAG;
Add support for LZ4 decompression algorithm This patch adds support for LZ4-compressed FIT image contents. This algorithm has a slightly worse compression ration than LZO while being nearly twice as fast to decompress. When loading images from a fast storage medium this usually results in a boot time win. Sandbox-tested only since I don't have a U-Boot development system set up right now. The code was imported unchanged from coreboot where it's proven to work, though. I'm mostly interested in getting this recognized by mkImage for use in a downstream project. Signed-off-by: Julius Werner <jwerner@chromium.org> Acked-by: Simon Glass <sjg@chromium.org>
2015-10-07 12:03:53 +09:00
lz4: fix decompressor on big-endian powerpc Booting an lz4-compressed kernel image fails on our powerpc board with -EPROTONOSUPPORT. Adding a bit of debug prints, we get magic: 0x184d2204 flags: 0x64 reserved0: 1 has_content_checksum: 1 has_content_size: 0 has_block_checksum: 0 independent_blocks: 1 version: 0 block_descriptor: 70 reserved1: 7 max_block_size: 0 reserved2: 0 So the magic is ok, but the version check fails, also some reserved bits are apparently set. But that's because the code interprets the "flags" and "block_descriptor" bytes wrongly: Using bit-fields to access individual bits of an "on the wire" format is not portable, not even when restricted to the C flavour implemented by gcc. Quoting the gcc manual: * 'The order of allocation of bit-fields within a unit (C90 6.5.2.1, C99 and C11 6.7.2.1).' Determined by ABI. and indeed, the PPC Processor ABI supplement says * Bit-fields are allocated from right to left (least to most significant) on Little-Endian implementations and from left to right (most to least significant) on Big-Endian implementations. The upstream code (github.com/lz4/lz4) uses explicit shifts and masks for encoding/decoding: /* FLG Byte */ *dstPtr++ = (BYTE)(((1 & _2BITS) << 6) /* Version('01') */ + ((cctxPtr->prefs.frameInfo.blockMode & _1BIT ) << 5) + ((cctxPtr->prefs.frameInfo.blockChecksumFlag & _1BIT ) << 4) + ((unsigned)(cctxPtr->prefs.frameInfo.contentSize > 0) << 3) + ((cctxPtr->prefs.frameInfo.contentChecksumFlag & _1BIT ) << 2) + (cctxPtr->prefs.frameInfo.dictID > 0) ); /* Flags */ { U32 const FLG = srcPtr[4]; U32 const version = (FLG>>6) & _2BITS; blockChecksumFlag = (FLG>>4) & _1BIT; blockMode = (FLG>>5) & _1BIT; contentSizeFlag = (FLG>>3) & _1BIT; contentChecksumFlag = (FLG>>2) & _1BIT; dictIDFlag = FLG & _1BIT; /* validate */ if (((FLG>>1)&_1BIT) != 0) return err0r(LZ4F_ERROR_reservedFlag_set); /* Reserved bit */ if (version != 1) return err0r(LZ4F_ERROR_headerVersion_wrong); /* Version Number, only supported value */ } Do the same here, and while at it, be more careful to use unaligned accessors to what is most likely unaligned. Also update the comment to make it clear that it only refers to the lz4.c file, not the following code of lz4_wrapper.c. This has been tested partly, of course, by seeing that my lz4-compressed kernel now boots, partly by running the (de)compression test-suite in the (x86_64) sandbox - i.e., it should still work just fine on little-endian hosts. Reviewed-by: Julius Werner <jwerner@chromium.org> Signed-off-by: Rasmus Villemoes <rasmus.villemoes@prevas.dk>
2020-06-07 21:29:18 +09:00
if (in - src + block_size > srcn) {
Add support for LZ4 decompression algorithm This patch adds support for LZ4-compressed FIT image contents. This algorithm has a slightly worse compression ration than LZO while being nearly twice as fast to decompress. When loading images from a fast storage medium this usually results in a boot time win. Sandbox-tested only since I don't have a U-Boot development system set up right now. The code was imported unchanged from coreboot where it's proven to work, though. I'm mostly interested in getting this recognized by mkImage for use in a downstream project. Signed-off-by: Julius Werner <jwerner@chromium.org> Acked-by: Simon Glass <sjg@chromium.org>
2015-10-07 12:03:53 +09:00
ret = -EINVAL; /* input overrun */
break;
}
lz4: fix decompressor on big-endian powerpc Booting an lz4-compressed kernel image fails on our powerpc board with -EPROTONOSUPPORT. Adding a bit of debug prints, we get magic: 0x184d2204 flags: 0x64 reserved0: 1 has_content_checksum: 1 has_content_size: 0 has_block_checksum: 0 independent_blocks: 1 version: 0 block_descriptor: 70 reserved1: 7 max_block_size: 0 reserved2: 0 So the magic is ok, but the version check fails, also some reserved bits are apparently set. But that's because the code interprets the "flags" and "block_descriptor" bytes wrongly: Using bit-fields to access individual bits of an "on the wire" format is not portable, not even when restricted to the C flavour implemented by gcc. Quoting the gcc manual: * 'The order of allocation of bit-fields within a unit (C90 6.5.2.1, C99 and C11 6.7.2.1).' Determined by ABI. and indeed, the PPC Processor ABI supplement says * Bit-fields are allocated from right to left (least to most significant) on Little-Endian implementations and from left to right (most to least significant) on Big-Endian implementations. The upstream code (github.com/lz4/lz4) uses explicit shifts and masks for encoding/decoding: /* FLG Byte */ *dstPtr++ = (BYTE)(((1 & _2BITS) << 6) /* Version('01') */ + ((cctxPtr->prefs.frameInfo.blockMode & _1BIT ) << 5) + ((cctxPtr->prefs.frameInfo.blockChecksumFlag & _1BIT ) << 4) + ((unsigned)(cctxPtr->prefs.frameInfo.contentSize > 0) << 3) + ((cctxPtr->prefs.frameInfo.contentChecksumFlag & _1BIT ) << 2) + (cctxPtr->prefs.frameInfo.dictID > 0) ); /* Flags */ { U32 const FLG = srcPtr[4]; U32 const version = (FLG>>6) & _2BITS; blockChecksumFlag = (FLG>>4) & _1BIT; blockMode = (FLG>>5) & _1BIT; contentSizeFlag = (FLG>>3) & _1BIT; contentChecksumFlag = (FLG>>2) & _1BIT; dictIDFlag = FLG & _1BIT; /* validate */ if (((FLG>>1)&_1BIT) != 0) return err0r(LZ4F_ERROR_reservedFlag_set); /* Reserved bit */ if (version != 1) return err0r(LZ4F_ERROR_headerVersion_wrong); /* Version Number, only supported value */ } Do the same here, and while at it, be more careful to use unaligned accessors to what is most likely unaligned. Also update the comment to make it clear that it only refers to the lz4.c file, not the following code of lz4_wrapper.c. This has been tested partly, of course, by seeing that my lz4-compressed kernel now boots, partly by running the (de)compression test-suite in the (x86_64) sandbox - i.e., it should still work just fine on little-endian hosts. Reviewed-by: Julius Werner <jwerner@chromium.org> Signed-off-by: Rasmus Villemoes <rasmus.villemoes@prevas.dk>
2020-06-07 21:29:18 +09:00
if (!block_size) {
Add support for LZ4 decompression algorithm This patch adds support for LZ4-compressed FIT image contents. This algorithm has a slightly worse compression ration than LZO while being nearly twice as fast to decompress. When loading images from a fast storage medium this usually results in a boot time win. Sandbox-tested only since I don't have a U-Boot development system set up right now. The code was imported unchanged from coreboot where it's proven to work, though. I'm mostly interested in getting this recognized by mkImage for use in a downstream project. Signed-off-by: Julius Werner <jwerner@chromium.org> Acked-by: Simon Glass <sjg@chromium.org>
2015-10-07 12:03:53 +09:00
ret = 0; /* decompression successful */
break;
}
lz4: fix decompressor on big-endian powerpc Booting an lz4-compressed kernel image fails on our powerpc board with -EPROTONOSUPPORT. Adding a bit of debug prints, we get magic: 0x184d2204 flags: 0x64 reserved0: 1 has_content_checksum: 1 has_content_size: 0 has_block_checksum: 0 independent_blocks: 1 version: 0 block_descriptor: 70 reserved1: 7 max_block_size: 0 reserved2: 0 So the magic is ok, but the version check fails, also some reserved bits are apparently set. But that's because the code interprets the "flags" and "block_descriptor" bytes wrongly: Using bit-fields to access individual bits of an "on the wire" format is not portable, not even when restricted to the C flavour implemented by gcc. Quoting the gcc manual: * 'The order of allocation of bit-fields within a unit (C90 6.5.2.1, C99 and C11 6.7.2.1).' Determined by ABI. and indeed, the PPC Processor ABI supplement says * Bit-fields are allocated from right to left (least to most significant) on Little-Endian implementations and from left to right (most to least significant) on Big-Endian implementations. The upstream code (github.com/lz4/lz4) uses explicit shifts and masks for encoding/decoding: /* FLG Byte */ *dstPtr++ = (BYTE)(((1 & _2BITS) << 6) /* Version('01') */ + ((cctxPtr->prefs.frameInfo.blockMode & _1BIT ) << 5) + ((cctxPtr->prefs.frameInfo.blockChecksumFlag & _1BIT ) << 4) + ((unsigned)(cctxPtr->prefs.frameInfo.contentSize > 0) << 3) + ((cctxPtr->prefs.frameInfo.contentChecksumFlag & _1BIT ) << 2) + (cctxPtr->prefs.frameInfo.dictID > 0) ); /* Flags */ { U32 const FLG = srcPtr[4]; U32 const version = (FLG>>6) & _2BITS; blockChecksumFlag = (FLG>>4) & _1BIT; blockMode = (FLG>>5) & _1BIT; contentSizeFlag = (FLG>>3) & _1BIT; contentChecksumFlag = (FLG>>2) & _1BIT; dictIDFlag = FLG & _1BIT; /* validate */ if (((FLG>>1)&_1BIT) != 0) return err0r(LZ4F_ERROR_reservedFlag_set); /* Reserved bit */ if (version != 1) return err0r(LZ4F_ERROR_headerVersion_wrong); /* Version Number, only supported value */ } Do the same here, and while at it, be more careful to use unaligned accessors to what is most likely unaligned. Also update the comment to make it clear that it only refers to the lz4.c file, not the following code of lz4_wrapper.c. This has been tested partly, of course, by seeing that my lz4-compressed kernel now boots, partly by running the (de)compression test-suite in the (x86_64) sandbox - i.e., it should still work just fine on little-endian hosts. Reviewed-by: Julius Werner <jwerner@chromium.org> Signed-off-by: Rasmus Villemoes <rasmus.villemoes@prevas.dk>
2020-06-07 21:29:18 +09:00
if (block_header & LZ4F_BLOCKUNCOMPRESSED_FLAG) {
size_t size = min((ptrdiff_t)block_size, end - out);
Add support for LZ4 decompression algorithm This patch adds support for LZ4-compressed FIT image contents. This algorithm has a slightly worse compression ration than LZO while being nearly twice as fast to decompress. When loading images from a fast storage medium this usually results in a boot time win. Sandbox-tested only since I don't have a U-Boot development system set up right now. The code was imported unchanged from coreboot where it's proven to work, though. I'm mostly interested in getting this recognized by mkImage for use in a downstream project. Signed-off-by: Julius Werner <jwerner@chromium.org> Acked-by: Simon Glass <sjg@chromium.org>
2015-10-07 12:03:53 +09:00
memcpy(out, in, size);
out += size;
lz4: fix decompressor on big-endian powerpc Booting an lz4-compressed kernel image fails on our powerpc board with -EPROTONOSUPPORT. Adding a bit of debug prints, we get magic: 0x184d2204 flags: 0x64 reserved0: 1 has_content_checksum: 1 has_content_size: 0 has_block_checksum: 0 independent_blocks: 1 version: 0 block_descriptor: 70 reserved1: 7 max_block_size: 0 reserved2: 0 So the magic is ok, but the version check fails, also some reserved bits are apparently set. But that's because the code interprets the "flags" and "block_descriptor" bytes wrongly: Using bit-fields to access individual bits of an "on the wire" format is not portable, not even when restricted to the C flavour implemented by gcc. Quoting the gcc manual: * 'The order of allocation of bit-fields within a unit (C90 6.5.2.1, C99 and C11 6.7.2.1).' Determined by ABI. and indeed, the PPC Processor ABI supplement says * Bit-fields are allocated from right to left (least to most significant) on Little-Endian implementations and from left to right (most to least significant) on Big-Endian implementations. The upstream code (github.com/lz4/lz4) uses explicit shifts and masks for encoding/decoding: /* FLG Byte */ *dstPtr++ = (BYTE)(((1 & _2BITS) << 6) /* Version('01') */ + ((cctxPtr->prefs.frameInfo.blockMode & _1BIT ) << 5) + ((cctxPtr->prefs.frameInfo.blockChecksumFlag & _1BIT ) << 4) + ((unsigned)(cctxPtr->prefs.frameInfo.contentSize > 0) << 3) + ((cctxPtr->prefs.frameInfo.contentChecksumFlag & _1BIT ) << 2) + (cctxPtr->prefs.frameInfo.dictID > 0) ); /* Flags */ { U32 const FLG = srcPtr[4]; U32 const version = (FLG>>6) & _2BITS; blockChecksumFlag = (FLG>>4) & _1BIT; blockMode = (FLG>>5) & _1BIT; contentSizeFlag = (FLG>>3) & _1BIT; contentChecksumFlag = (FLG>>2) & _1BIT; dictIDFlag = FLG & _1BIT; /* validate */ if (((FLG>>1)&_1BIT) != 0) return err0r(LZ4F_ERROR_reservedFlag_set); /* Reserved bit */ if (version != 1) return err0r(LZ4F_ERROR_headerVersion_wrong); /* Version Number, only supported value */ } Do the same here, and while at it, be more careful to use unaligned accessors to what is most likely unaligned. Also update the comment to make it clear that it only refers to the lz4.c file, not the following code of lz4_wrapper.c. This has been tested partly, of course, by seeing that my lz4-compressed kernel now boots, partly by running the (de)compression test-suite in the (x86_64) sandbox - i.e., it should still work just fine on little-endian hosts. Reviewed-by: Julius Werner <jwerner@chromium.org> Signed-off-by: Rasmus Villemoes <rasmus.villemoes@prevas.dk>
2020-06-07 21:29:18 +09:00
if (size < block_size) {
Add support for LZ4 decompression algorithm This patch adds support for LZ4-compressed FIT image contents. This algorithm has a slightly worse compression ration than LZO while being nearly twice as fast to decompress. When loading images from a fast storage medium this usually results in a boot time win. Sandbox-tested only since I don't have a U-Boot development system set up right now. The code was imported unchanged from coreboot where it's proven to work, though. I'm mostly interested in getting this recognized by mkImage for use in a downstream project. Signed-off-by: Julius Werner <jwerner@chromium.org> Acked-by: Simon Glass <sjg@chromium.org>
2015-10-07 12:03:53 +09:00
ret = -ENOBUFS; /* output overrun */
break;
}
} else {
/* constant folding essential, do not touch params! */
lz4: fix decompressor on big-endian powerpc Booting an lz4-compressed kernel image fails on our powerpc board with -EPROTONOSUPPORT. Adding a bit of debug prints, we get magic: 0x184d2204 flags: 0x64 reserved0: 1 has_content_checksum: 1 has_content_size: 0 has_block_checksum: 0 independent_blocks: 1 version: 0 block_descriptor: 70 reserved1: 7 max_block_size: 0 reserved2: 0 So the magic is ok, but the version check fails, also some reserved bits are apparently set. But that's because the code interprets the "flags" and "block_descriptor" bytes wrongly: Using bit-fields to access individual bits of an "on the wire" format is not portable, not even when restricted to the C flavour implemented by gcc. Quoting the gcc manual: * 'The order of allocation of bit-fields within a unit (C90 6.5.2.1, C99 and C11 6.7.2.1).' Determined by ABI. and indeed, the PPC Processor ABI supplement says * Bit-fields are allocated from right to left (least to most significant) on Little-Endian implementations and from left to right (most to least significant) on Big-Endian implementations. The upstream code (github.com/lz4/lz4) uses explicit shifts and masks for encoding/decoding: /* FLG Byte */ *dstPtr++ = (BYTE)(((1 & _2BITS) << 6) /* Version('01') */ + ((cctxPtr->prefs.frameInfo.blockMode & _1BIT ) << 5) + ((cctxPtr->prefs.frameInfo.blockChecksumFlag & _1BIT ) << 4) + ((unsigned)(cctxPtr->prefs.frameInfo.contentSize > 0) << 3) + ((cctxPtr->prefs.frameInfo.contentChecksumFlag & _1BIT ) << 2) + (cctxPtr->prefs.frameInfo.dictID > 0) ); /* Flags */ { U32 const FLG = srcPtr[4]; U32 const version = (FLG>>6) & _2BITS; blockChecksumFlag = (FLG>>4) & _1BIT; blockMode = (FLG>>5) & _1BIT; contentSizeFlag = (FLG>>3) & _1BIT; contentChecksumFlag = (FLG>>2) & _1BIT; dictIDFlag = FLG & _1BIT; /* validate */ if (((FLG>>1)&_1BIT) != 0) return err0r(LZ4F_ERROR_reservedFlag_set); /* Reserved bit */ if (version != 1) return err0r(LZ4F_ERROR_headerVersion_wrong); /* Version Number, only supported value */ } Do the same here, and while at it, be more careful to use unaligned accessors to what is most likely unaligned. Also update the comment to make it clear that it only refers to the lz4.c file, not the following code of lz4_wrapper.c. This has been tested partly, of course, by seeing that my lz4-compressed kernel now boots, partly by running the (de)compression test-suite in the (x86_64) sandbox - i.e., it should still work just fine on little-endian hosts. Reviewed-by: Julius Werner <jwerner@chromium.org> Signed-off-by: Rasmus Villemoes <rasmus.villemoes@prevas.dk>
2020-06-07 21:29:18 +09:00
ret = LZ4_decompress_generic(in, out, block_size,
Add support for LZ4 decompression algorithm This patch adds support for LZ4-compressed FIT image contents. This algorithm has a slightly worse compression ration than LZO while being nearly twice as fast to decompress. When loading images from a fast storage medium this usually results in a boot time win. Sandbox-tested only since I don't have a U-Boot development system set up right now. The code was imported unchanged from coreboot where it's proven to work, though. I'm mostly interested in getting this recognized by mkImage for use in a downstream project. Signed-off-by: Julius Werner <jwerner@chromium.org> Acked-by: Simon Glass <sjg@chromium.org>
2015-10-07 12:03:53 +09:00
end - out, endOnInputSize,
full, 0, noDict, out, NULL, 0);
if (ret < 0) {
ret = -EPROTO; /* decompression error */
break;
}
out += ret;
}
lz4: fix decompressor on big-endian powerpc Booting an lz4-compressed kernel image fails on our powerpc board with -EPROTONOSUPPORT. Adding a bit of debug prints, we get magic: 0x184d2204 flags: 0x64 reserved0: 1 has_content_checksum: 1 has_content_size: 0 has_block_checksum: 0 independent_blocks: 1 version: 0 block_descriptor: 70 reserved1: 7 max_block_size: 0 reserved2: 0 So the magic is ok, but the version check fails, also some reserved bits are apparently set. But that's because the code interprets the "flags" and "block_descriptor" bytes wrongly: Using bit-fields to access individual bits of an "on the wire" format is not portable, not even when restricted to the C flavour implemented by gcc. Quoting the gcc manual: * 'The order of allocation of bit-fields within a unit (C90 6.5.2.1, C99 and C11 6.7.2.1).' Determined by ABI. and indeed, the PPC Processor ABI supplement says * Bit-fields are allocated from right to left (least to most significant) on Little-Endian implementations and from left to right (most to least significant) on Big-Endian implementations. The upstream code (github.com/lz4/lz4) uses explicit shifts and masks for encoding/decoding: /* FLG Byte */ *dstPtr++ = (BYTE)(((1 & _2BITS) << 6) /* Version('01') */ + ((cctxPtr->prefs.frameInfo.blockMode & _1BIT ) << 5) + ((cctxPtr->prefs.frameInfo.blockChecksumFlag & _1BIT ) << 4) + ((unsigned)(cctxPtr->prefs.frameInfo.contentSize > 0) << 3) + ((cctxPtr->prefs.frameInfo.contentChecksumFlag & _1BIT ) << 2) + (cctxPtr->prefs.frameInfo.dictID > 0) ); /* Flags */ { U32 const FLG = srcPtr[4]; U32 const version = (FLG>>6) & _2BITS; blockChecksumFlag = (FLG>>4) & _1BIT; blockMode = (FLG>>5) & _1BIT; contentSizeFlag = (FLG>>3) & _1BIT; contentChecksumFlag = (FLG>>2) & _1BIT; dictIDFlag = FLG & _1BIT; /* validate */ if (((FLG>>1)&_1BIT) != 0) return err0r(LZ4F_ERROR_reservedFlag_set); /* Reserved bit */ if (version != 1) return err0r(LZ4F_ERROR_headerVersion_wrong); /* Version Number, only supported value */ } Do the same here, and while at it, be more careful to use unaligned accessors to what is most likely unaligned. Also update the comment to make it clear that it only refers to the lz4.c file, not the following code of lz4_wrapper.c. This has been tested partly, of course, by seeing that my lz4-compressed kernel now boots, partly by running the (de)compression test-suite in the (x86_64) sandbox - i.e., it should still work just fine on little-endian hosts. Reviewed-by: Julius Werner <jwerner@chromium.org> Signed-off-by: Rasmus Villemoes <rasmus.villemoes@prevas.dk>
2020-06-07 21:29:18 +09:00
in += block_size;
Add support for LZ4 decompression algorithm This patch adds support for LZ4-compressed FIT image contents. This algorithm has a slightly worse compression ration than LZO while being nearly twice as fast to decompress. When loading images from a fast storage medium this usually results in a boot time win. Sandbox-tested only since I don't have a U-Boot development system set up right now. The code was imported unchanged from coreboot where it's proven to work, though. I'm mostly interested in getting this recognized by mkImage for use in a downstream project. Signed-off-by: Julius Werner <jwerner@chromium.org> Acked-by: Simon Glass <sjg@chromium.org>
2015-10-07 12:03:53 +09:00
if (has_block_checksum)
in += sizeof(u32);
}
*dstn = out - dst;
return ret;
}