Merge branch 'master' of /home/wd/git/u-boot/master/

This commit is contained in:
Wolfgang Denk 2009-07-23 00:48:20 +02:00
commit 46edbc545d
89 changed files with 2283 additions and 2026 deletions

1
.gitignore vendored
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@ -54,6 +54,7 @@ series
cscope.*
# tags files
/tags
/ctags
/etags

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@ -140,8 +140,8 @@ endif
# The "tools" are needed early, so put this first
# Don't include stuff already done in $(LIBS)
SUBDIRS = tools \
examples \
api_examples
examples/standalone \
examples/api
.PHONY : $(SUBDIRS)
@ -3592,11 +3592,16 @@ grsim_leon2_config : unconfig
#########################################################################
clean:
@rm -f $(obj)examples/82559_eeprom $(obj)examples/eepro100_eeprom \
$(obj)examples/hello_world $(obj)examples/interrupt \
$(obj)examples/mem_to_mem_idma2intr \
$(obj)examples/sched $(obj)examples/smc91111_eeprom \
$(obj)examples/test_burst $(obj)examples/timer
@rm -f $(obj)examples/standalone/82559_eeprom \
$(obj)examples/standalone/eepro100_eeprom \
$(obj)examples/standalone/hello_world \
$(obj)examples/standalone/interrupt \
$(obj)examples/standalone/mem_to_mem_idma2intr \
$(obj)examples/standalone/sched \
$(obj)examples/standalone/smc91111_eeprom \
$(obj)examples/standalone/test_burst \
$(obj)examples/standalone/timer
@rm -f $(obj)examples/api/demo{,.bin}
@rm -f $(obj)tools/bmp_logo $(obj)tools/easylogo/easylogo \
$(obj)tools/env/{fw_printenv,fw_setenv} \
$(obj)tools/envcrc \
@ -3613,7 +3618,7 @@ clean:
@rm -f $(obj)include/bmp_logo.h
@rm -f $(obj)nand_spl/{u-boot-spl,u-boot-spl.map,System.map}
@rm -f $(obj)onenand_ipl/onenand-{ipl,ipl.bin,ipl-2k.bin,ipl-4k.bin,ipl.map}
@rm -f $(obj)api_examples/demo $(TIMESTAMP_FILE) $(VERSION_FILE)
@rm -f $(TIMESTAMP_FILE) $(VERSION_FILE)
@find $(OBJTREE) -type f \
\( -name 'core' -o -name '*.bak' -o -name '*~' \
-o -name '*.o' -o -name '*.a' -o -name '*.exe' \) -print \

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@ -203,8 +203,9 @@ static int ivm_check_crc (unsigned char *buf, int block)
crceeprom = (buf[CONFIG_SYS_IVM_EEPROM_PAGE_LEN - 1] + \
buf[CONFIG_SYS_IVM_EEPROM_PAGE_LEN - 2] * 256);
if (crc != crceeprom) {
printf ("Error CRC Block: %d EEprom: calculated: %lx EEprom: %lx\n",
block, crc, crceeprom);
if (block == 0)
printf ("Error CRC Block: %d EEprom: calculated: \
%lx EEprom: %lx\n", block, crc, crceeprom);
return -1;
}
return 0;
@ -287,7 +288,7 @@ int ivm_analyze_eeprom (unsigned char *buf, int len)
GET_STRING("IVM_CustomerProductID", IVM_POS_CUSTOMER_PROD_ID, 32)
if (ivm_check_crc (&buf[CONFIG_SYS_IVM_EEPROM_PAGE_LEN * 2], 2) != 0)
return -2;
return 0;
ivm_analyze_block2 (&buf[CONFIG_SYS_IVM_EEPROM_PAGE_LEN * 2], CONFIG_SYS_IVM_EEPROM_PAGE_LEN);
return 0;
@ -527,6 +528,34 @@ int fdt_set_node_and_value (void *blob,
}
return ret;
}
int fdt_get_node_and_value (void *blob,
char *nodename,
char *propname,
void **var)
{
int len;
int nodeoffset = 0;
nodeoffset = fdt_path_offset (blob, nodename);
if (nodeoffset >= 0) {
*var = (void *)fdt_getprop (blob, nodeoffset, propname, &len);
if (len == 0) {
/* no value */
printf ("%s no value\n", __FUNCTION__);
return -1;
} else if (len > 0) {
return len;
} else {
printf ("libfdt fdt_getprop(): %s\n",
fdt_strerror(len));
return -2;
}
} else {
printf("%s: cannot find %s node err:%s\n", __FUNCTION__,
nodename, fdt_strerror (nodeoffset));
return -3;
}
}
#endif
int ethernet_present (void)

View file

@ -17,4 +17,14 @@ int ivm_read_eeprom (void);
#ifdef CONFIG_KEYMILE_HDLC_ENET
int keymile_hdlc_enet_initialize (bd_t *bis);
#endif
int fdt_set_node_and_value (void *blob,
char *nodename,
char *regname,
void *var,
int size);
int fdt_get_node_and_value (void *blob,
char *nodename,
char *propname,
void **var);
#endif /* __KEYMILE_COMMON_H */

View file

@ -159,12 +159,6 @@ int hush_init_var (void)
}
#if defined(CONFIG_OF_BOARD_SETUP) && defined(CONFIG_OF_LIBFDT)
extern int fdt_set_node_and_value (void *blob,
char *nodename,
char *regname,
void *var,
int size);
/*
* update "memory" property in the blob
*/
@ -172,33 +166,53 @@ void ft_blob_update (void *blob, bd_t *bd)
{
ulong brg_data[1] = {0};
ulong memory_data[2] = {0};
ulong flash_data[4] = {0};
ulong *flash_data = NULL;
ulong flash_reg[3] = {0};
uchar enetaddr[6];
flash_info_t *info;
int len;
int i = 0;
memory_data[0] = cpu_to_be32 (bd->bi_memstart);
memory_data[1] = cpu_to_be32 (bd->bi_memsize);
fdt_set_node_and_value (blob, "/memory", "reg", memory_data,
sizeof (memory_data));
flash_data[2] = cpu_to_be32 (bd->bi_flashstart);
flash_data[3] = cpu_to_be32 (bd->bi_flashsize);
len = fdt_get_node_and_value (blob, "/localbus", "ranges",
(void *)&flash_data);
if (flash_data == NULL) {
printf ("%s: error /localbus/ranges entry\n", __FUNCTION__);
return;
}
/* update Flash addr, size */
while ( i < (len / 4)) {
switch (flash_data[i]) {
case 0:
info = flash_get_info(CONFIG_SYS_FLASH_BASE);
flash_data[i + 1] = 0;
flash_data[i + 2] = cpu_to_be32 (CONFIG_SYS_FLASH_BASE);
flash_data[i + 3] = cpu_to_be32 (info->size);
break;
default:
break;
}
i += 4;
}
fdt_set_node_and_value (blob, "/localbus", "ranges", flash_data,
sizeof (flash_data));
len);
flash_reg[2] = cpu_to_be32 (bd->bi_flashsize);
fdt_set_node_and_value (blob, "/localbus/flash@0,0", "reg", flash_reg,
sizeof (flash_reg));
/* BRG */
brg_data[0] = cpu_to_be32 (bd->bi_busfreq);
fdt_set_node_and_value (blob, "/soc/cpm", "brg-frequency", brg_data,
sizeof (brg_data));
/* MAC adr */
eth_getenv_enetaddr("ethaddr", enetaddr);
fdt_set_node_and_value (blob, "/soc/cpm/ethernet", "mac-address",
enetaddr, sizeof (u8) * 6);
bd->bi_enetaddr, sizeof (u8) * 6);
}
void ft_board_setup(void *blob, bd_t *bd)

View file

@ -187,9 +187,60 @@ int checkboard (void)
}
#if defined(CONFIG_OF_BOARD_SETUP)
/*
* update "/localbus/ranges" property in the blob
*/
void ft_blob_update (void *blob, bd_t *bd)
{
ulong *flash_data = NULL;
flash_info_t *info;
ulong flash_reg[6] = {0};
int len;
int size = 0;
int i = 0;
len = fdt_get_node_and_value (blob, "/localbus", "ranges",
(void *)&flash_data);
if (flash_data == NULL) {
printf ("%s: error /localbus/ranges entry\n", __FUNCTION__);
return;
}
/* update Flash addr, size */
while ( i < (len / 4)) {
switch (flash_data[i]) {
case 0:
info = flash_get_info(CONFIG_SYS_FLASH_BASE);
size = info->size;
info = flash_get_info(CONFIG_SYS_FLASH_BASE_1);
size += info->size;
flash_data[i + 1] = 0;
flash_data[i + 2] = cpu_to_be32 (CONFIG_SYS_FLASH_BASE);
flash_data[i + 3] = cpu_to_be32 (size);
break;
default:
break;
}
i += 4;
}
fdt_set_node_and_value (blob, "/localbus", "ranges", flash_data,
len);
info = flash_get_info(CONFIG_SYS_FLASH_BASE);
flash_reg[2] = cpu_to_be32 (size);
flash_reg[4] = flash_reg[2];
info = flash_get_info(CONFIG_SYS_FLASH_BASE_1);
flash_reg[5] = cpu_to_be32 (info->size);
fdt_set_node_and_value (blob, "/localbus/flash@f0000000,0", "reg", flash_reg,
sizeof (flash_reg));
}
void ft_board_setup (void *blob, bd_t *bd)
{
ft_cpu_setup (blob, bd);
ft_blob_update (blob, bd);
}
#endif

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@ -312,42 +312,71 @@ int hush_init_var (void)
}
#if defined(CONFIG_OF_BOARD_SETUP) && defined(CONFIG_OF_LIBFDT)
extern int fdt_set_node_and_value (void *blob,
char *nodename,
char *regname,
void *var,
int size);
/*
* update "memory" property in the blob
*/
void ft_blob_update (void *blob, bd_t *bd)
{
ulong memory_data[2] = {0};
ulong flash_data[8] = {0};
ulong *flash_data = NULL;
ulong flash_reg[6] = {0};
flash_info_t *info;
uchar enetaddr[6];
int len;
int size;
int i = 0;
memory_data[0] = cpu_to_be32 (bd->bi_memstart);
memory_data[1] = cpu_to_be32 (bd->bi_memsize);
fdt_set_node_and_value (blob, "/memory", "reg", memory_data,
sizeof (memory_data));
len = fdt_get_node_and_value (blob, "/localbus", "ranges",
(void *)&flash_data);
if (flash_data == NULL) {
printf ("%s: error /localbus/ranges entry\n", __FUNCTION__);
return;
}
/* update Flash addr, size */
info = flash_get_info(CONFIG_SYS_FLASH_BASE);
flash_data[2] = cpu_to_be32 (CONFIG_SYS_FLASH_BASE);
flash_data[3] = cpu_to_be32 (info->size);
flash_data[4] = cpu_to_be32 (5);
flash_data[5] = cpu_to_be32 (0);
info = flash_get_info(CONFIG_SYS_FLASH_BASE_1);
flash_data[6] = cpu_to_be32 (CONFIG_SYS_FLASH_BASE_1);
flash_data[7] = cpu_to_be32 (info->size);
while ( i < (len / 4)) {
switch (flash_data[i]) {
case 0:
info = flash_get_info(CONFIG_SYS_FLASH_BASE);
flash_data[i + 1] = 0;
flash_data[i + 2] = cpu_to_be32 (CONFIG_SYS_FLASH_BASE);
flash_data[i + 3] = cpu_to_be32 (info->size);
break;
case 5:
info = flash_get_info(CONFIG_SYS_FLASH_BASE_1);
size = info->size;
info = flash_get_info(CONFIG_SYS_FLASH_BASE_2);
size += info->size;
flash_data[i + 1] = 0;
flash_data[i + 2] = cpu_to_be32 (CONFIG_SYS_FLASH_BASE_1);
flash_data[i + 3] = cpu_to_be32 (size);
break;
default:
break;
}
i += 4;
}
fdt_set_node_and_value (blob, "/localbus", "ranges", flash_data,
sizeof (flash_data));
len);
info = flash_get_info(CONFIG_SYS_FLASH_BASE_1);
flash_reg[0] = cpu_to_be32 (5);
flash_reg[2] = cpu_to_be32 (info->size);
flash_reg[3] = flash_reg[0];
flash_reg[4] = flash_reg[2];
info = flash_get_info(CONFIG_SYS_FLASH_BASE_2);
flash_reg[5] = cpu_to_be32 (info->size);
fdt_set_node_and_value (blob, "/localbus/flash@5,0", "reg", flash_reg,
sizeof (flash_reg));
/* MAC addr */
eth_getenv_enetaddr("ethaddr", enetaddr);
fdt_set_node_and_value (blob, "/soc/cpm/ethernet", "mac-address",
enetaddr, sizeof (u8) * 6);
bd->bi_enetaddr, sizeof (u8) * 6);
}
void ft_board_setup (void *blob, bd_t *bd)

View file

@ -52,9 +52,8 @@
#endif
#ifdef CONFIG_LZMA
#define _7ZIP_BYTE_DEFINED /* Byte already defined by zlib */
#include <lzma/LzmaTypes.h>
#include <lzma/LzmaDecode.h>
#include <lzma/LzmaDec.h>
#include <lzma/LzmaTools.h>
#endif /* CONFIG_LZMA */
@ -390,7 +389,7 @@ static int bootm_load_os(image_info_t os, ulong *load_end, int boot_progress)
int ret = lzmaBuffToBuffDecompress(
(unsigned char *)load, &unc_len,
(unsigned char *)image_start, image_len);
if (ret != LZMA_RESULT_OK) {
if (ret != SZ_OK) {
printf ("LZMA: uncompress or overwrite error %d "
"- must RESET board to recover\n", ret);
show_boot_progress (-6);

View file

@ -83,7 +83,7 @@ RANLIB = $(CROSS_COMPILE)RANLIB
sinclude $(OBJTREE)/include/autoconf.mk
ifdef ARCH
sinclude $(TOPDIR)/$(ARCH)_config.mk # include architecture dependend rules
sinclude $(TOPDIR)/lib_$(ARCH)/config.mk # include architecture dependend rules
endif
ifdef CPU
sinclude $(TOPDIR)/cpu/$(CPU)/config.mk # include CPU specific rules

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@ -81,7 +81,7 @@ void dprint_buffer(unsigned char *buf, int len)
printf("\n\r");
}
static void fsl_sata_dump_sfis(struct sfis *s)
static void fsl_sata_dump_sfis(struct sata_fis_d2h *s)
{
printf("Status FIS dump:\n\r");
printf("fis_type: %02x\n\r", s->fis_type);
@ -347,7 +347,7 @@ static void fsl_sata_dump_regs(fsl_sata_reg_t *reg)
printf("SYSPR: %08x\n\r", in_be32(&reg->syspr));
}
static int fsl_ata_exec_ata_cmd(struct fsl_sata *sata, struct cfis *cfis,
static int fsl_ata_exec_ata_cmd(struct fsl_sata *sata, struct sata_fis_h2d *cfis,
int is_ncq, int tag, u8 *buffer, u32 len)
{
cmd_hdr_entry_t *cmd_hdr;
@ -483,7 +483,7 @@ static int fsl_ata_exec_ata_cmd(struct fsl_sata *sata, struct cfis *cfis,
if (val32) {
u32 der;
fsl_sata_dump_sfis((struct sfis *)cmd_desc->sfis);
fsl_sata_dump_sfis((struct sata_fis_d2h *)cmd_desc->sfis);
printf("CE at device\n\r");
fsl_sata_dump_regs(reg);
der = in_le32(&reg->der);
@ -498,13 +498,13 @@ static int fsl_ata_exec_ata_cmd(struct fsl_sata *sata, struct cfis *cfis,
return len;
}
static int fsl_ata_exec_reset_cmd(struct fsl_sata *sata, struct cfis *cfis,
static int fsl_ata_exec_reset_cmd(struct fsl_sata *sata, struct sata_fis_h2d *cfis,
int tag, u8 *buffer, u32 len)
{
return 0;
}
static int fsl_sata_exec_cmd(struct fsl_sata *sata, struct cfis *cfis,
static int fsl_sata_exec_cmd(struct fsl_sata *sata, struct sata_fis_h2d *cfis,
enum cmd_type command_type, int tag, u8 *buffer, u32 len)
{
int rc;
@ -539,11 +539,9 @@ static int fsl_sata_exec_cmd(struct fsl_sata *sata, struct cfis *cfis,
static void fsl_sata_identify(int dev, u16 *id)
{
fsl_sata_t *sata = (fsl_sata_t *)sata_dev_desc[dev].priv;
struct sata_fis_h2d h2d;
struct cfis *cfis;
struct sata_fis_h2d h2d, *cfis = &h2d;
cfis = (struct cfis *)&h2d;
memset((void *)cfis, 0, sizeof(struct cfis));
memset(cfis, 0, sizeof(struct sata_fis_h2d));
cfis->fis_type = SATA_FIS_TYPE_REGISTER_H2D;
cfis->pm_port_c = 0x80; /* is command */
@ -566,12 +564,10 @@ static void fsl_sata_xfer_mode(int dev, u16 *id)
static void fsl_sata_set_features(int dev)
{
fsl_sata_t *sata = (fsl_sata_t *)sata_dev_desc[dev].priv;
struct sata_fis_h2d h2d;
struct cfis *cfis;
struct sata_fis_h2d h2d, *cfis = &h2d;
u8 udma_cap;
cfis = (struct cfis *)&h2d;
memset((void *)cfis, 0, sizeof(struct cfis));
memset(cfis, 0, sizeof(struct sata_fis_h2d));
cfis->fis_type = SATA_FIS_TYPE_REGISTER_H2D;
cfis->pm_port_c = 0x80; /* is command */
@ -597,14 +593,12 @@ static void fsl_sata_set_features(int dev)
static u32 fsl_sata_rw_cmd(int dev, u32 start, u32 blkcnt, u8 *buffer, int is_write)
{
fsl_sata_t *sata = (fsl_sata_t *)sata_dev_desc[dev].priv;
struct sata_fis_h2d h2d;
struct cfis *cfis;
struct sata_fis_h2d h2d, *cfis = &h2d;
u32 block;
block = start;
cfis = (struct cfis *)&h2d;
memset((void *)cfis, 0, sizeof(struct cfis));
memset(cfis, 0, sizeof(struct sata_fis_h2d));
cfis->fis_type = SATA_FIS_TYPE_REGISTER_H2D;
cfis->pm_port_c = 0x80; /* is command */
@ -624,12 +618,9 @@ static u32 fsl_sata_rw_cmd(int dev, u32 start, u32 blkcnt, u8 *buffer, int is_wr
void fsl_sata_flush_cache(int dev)
{
fsl_sata_t *sata = (fsl_sata_t *)sata_dev_desc[dev].priv;
struct sata_fis_h2d h2d;
struct cfis *cfis;
struct sata_fis_h2d h2d, *cfis = &h2d;
cfis = (struct cfis *)&h2d;
memset((void *)cfis, 0, sizeof(struct cfis));
memset(cfis, 0, sizeof(struct sata_fis_h2d));
cfis->fis_type = SATA_FIS_TYPE_REGISTER_H2D;
cfis->pm_port_c = 0x80; /* is command */
@ -641,14 +632,12 @@ void fsl_sata_flush_cache(int dev)
static u32 fsl_sata_rw_cmd_ext(int dev, u32 start, u32 blkcnt, u8 *buffer, int is_write)
{
fsl_sata_t *sata = (fsl_sata_t *)sata_dev_desc[dev].priv;
struct sata_fis_h2d h2d;
struct cfis *cfis;
struct sata_fis_h2d h2d, *cfis = &h2d;
u64 block;
block = (u64)start;
cfis = (struct cfis *)&h2d;
memset((void *)cfis, 0, sizeof(struct cfis));
memset(cfis, 0, sizeof(struct sata_fis_h2d));
cfis->fis_type = SATA_FIS_TYPE_REGISTER_H2D;
cfis->pm_port_c = 0x80; /* is command */
@ -673,8 +662,7 @@ static u32 fsl_sata_rw_cmd_ext(int dev, u32 start, u32 blkcnt, u8 *buffer, int i
u32 fsl_sata_rw_ncq_cmd(int dev, u32 start, u32 blkcnt, u8 *buffer, int is_write)
{
fsl_sata_t *sata = (fsl_sata_t *)sata_dev_desc[dev].priv;
struct sata_fis_h2d h2d;
struct cfis *cfis;
struct sata_fis_h2d h2d, *cfis = &h2d;
int ncq_channel;
u64 block;
@ -684,9 +672,8 @@ u32 fsl_sata_rw_ncq_cmd(int dev, u32 start, u32 blkcnt, u8 *buffer, int is_write
}
block = (u64)start;
cfis = (struct cfis *)&h2d;
memset((void *)cfis, 0, sizeof(struct cfis));
memset(cfis, 0, sizeof(struct sata_fis_h2d));
cfis->fis_type = SATA_FIS_TYPE_REGISTER_H2D;
cfis->pm_port_c = 0x80; /* is command */
@ -718,12 +705,9 @@ u32 fsl_sata_rw_ncq_cmd(int dev, u32 start, u32 blkcnt, u8 *buffer, int is_write
void fsl_sata_flush_cache_ext(int dev)
{
fsl_sata_t *sata = (fsl_sata_t *)sata_dev_desc[dev].priv;
struct sata_fis_h2d h2d;
struct cfis *cfis;
struct sata_fis_h2d h2d, *cfis = &h2d;
cfis = (struct cfis *)&h2d;
memset((void *)cfis, 0, sizeof(struct cfis));
memset(cfis, 0, sizeof(struct sata_fis_h2d));
cfis->fis_type = SATA_FIS_TYPE_REGISTER_H2D;
cfis->pm_port_c = 0x80; /* is command */

View file

@ -288,52 +288,6 @@ typedef struct cmd_desc {
#define SATA_HC_CMD_DESC_SIZE sizeof(struct cmd_desc)
#define SATA_HC_CMD_DESC_ALIGN 4
/*
* CFIS - Command FIS, which is H2D register FIS, the struct defination
* of Non-Queued command is different than NCQ command. see them is sata2.h
*/
typedef struct cfis {
u8 fis_type;
u8 pm_port_c;
u8 command;
u8 features;
u8 lba_low;
u8 lba_mid;
u8 lba_high;
u8 device;
u8 lba_low_exp;
u8 lba_mid_exp;
u8 lba_high_exp;
u8 features_exp;
u8 sector_count;
u8 sector_count_exp;
u8 res1;
u8 control;
u8 res2[4];
} __attribute__ ((packed)) cfis_t;
/*
* SFIS - Status FIS, which is D2H register FIS.
*/
typedef struct sfis {
u8 fis_type;
u8 pm_port_i;
u8 status;
u8 error;
u8 lba_low;
u8 lba_mid;
u8 lba_high;
u8 device;
u8 lba_low_exp;
u8 lba_mid_exp;
u8 lba_high_exp;
u8 res1;
u8 sector_count;
u8 sector_count_exp;
u8 res2[2];
u8 res3[4];
} __attribute__ ((packed)) sfis_t;
/*
* SATA device driver info
*/

View file

@ -33,13 +33,13 @@ include $(TOPDIR)/config.mk
OUTPUT-$(CONFIG_API) = $(obj)demo
OUTPUT = $(OUTPUT-y)
# Source files located in the api_examples directory
# Source files located in the examples/api directory
SOBJ_FILES-$(CONFIG_API) += crt0.o
COBJ_FILES-$(CONFIG_API) += demo.o
COBJ_FILES-$(CONFIG_API) += glue.o
COBJ_FILES-$(CONFIG_API) += libgenwrap.o
# Source files which exist outside the api_examples directory
# Source files which exist outside the examples/api directory
EXT_COBJ_FILES-$(CONFIG_API) += lib_generic/crc32.o
EXT_COBJ_FILES-$(CONFIG_API) += lib_generic/ctype.o
EXT_COBJ_FILES-$(CONFIG_API) += lib_generic/string.o
@ -51,8 +51,8 @@ endif
# Create a list of source files so their dependencies can be auto-generated
SRCS += $(addprefix $(SRCTREE)/,$(EXT_COBJ_FILES-y:.o=.c))
SRCS += $(addprefix $(SRCTREE)/,$(EXT_SOBJ_FILES-y:.o=.S))
SRCS += $(addprefix $(SRCTREE)/api_examples/,$(COBJ_FILES-y:.o=.c))
SRCS += $(addprefix $(SRCTREE)/api_examples/,$(SOBJ_FILES-y:.o=.S))
SRCS += $(addprefix $(SRCTREE)/examples/api/,$(COBJ_FILES-y:.o=.c))
SRCS += $(addprefix $(SRCTREE)/examples/api/,$(SOBJ_FILES-y:.o=.S))
# Create a list of object files to be compiled
OBJS += $(addprefix $(obj),$(SOBJ_FILES-y))

View file

@ -0,0 +1,18 @@
#ifndef _ASM_ARM_UNALIGNED_H
#define _ASM_ARM_UNALIGNED_H
#include <linux/unaligned/access_ok.h>
#include <linux/unaligned/generic.h>
/*
* Select endianness
*/
#ifndef __ARMEB__
#define get_unaligned __get_unaligned_le
#define put_unaligned __put_unaligned_le
#else
#define get_unaligned __get_unaligned_be
#define put_unaligned __put_unaligned_be
#endif
#endif /* _ASM_ARM_UNALIGNED_H */

View file

@ -697,6 +697,7 @@ void show_boot_progress(int val);
#define ARRAY_SIZE(x) (sizeof(x) / sizeof((x)[0]))
#define ROUND(a,b) (((a) + (b)) & ~((b) - 1))
#define DIV_ROUND(n,d) (((n) + ((d)/2)) / (d))
#define DIV_ROUND_UP(n,d) (((n) + (d) - 1) / (d))
#define roundup(x, y) ((((x) + ((y) - 1)) / (y)) * (y))

View file

@ -161,7 +161,6 @@
#define CONFIG_SYS_LONGHELP 1
#define CONFIG_CMDLINE_EDITING 1
#define ROUND(A, B) (((A) + (B)) & ~((B) - 1))
/*
* Size of malloc() pool
*/

View file

@ -203,7 +203,6 @@
#define CONFIG_SYS_LONGHELP 1
#define CONFIG_CMDLINE_EDITING 1
#define ROUND(A, B) (((A) + (B)) & ~((B) - 1))
/*
* Size of malloc() pool
*/

View file

@ -311,7 +311,6 @@ struct bd_info_ext {
*/
#define CONFIG_SYS_HZ_CLOCK (AT91C_MASTER_CLOCK / 2)
#define ROUND(A, B) (((A) + (B)) & ~((B) - 1))
/*
* Size of malloc() pool
*/

View file

@ -207,7 +207,6 @@
#define CONFIG_SYS_LONGHELP 1
#define CONFIG_CMDLINE_EDITING 1
#define ROUND(A, B) (((A) + (B)) & ~((B) - 1))
/*
* Size of malloc() pool
*/

View file

@ -225,7 +225,6 @@
#define CONFIG_SYS_LONGHELP 1
#define CONFIG_CMDLINE_EDITING 1
#define ROUND(A, B) (((A) + (B)) & ~((B) - 1))
/*
* Size of malloc() pool
*/

View file

@ -335,7 +335,6 @@
#define CONFIG_SYS_HUSH_PARSER
#define CONFIG_SYS_PROMPT_HUSH_PS2 "> "
#define ROUND(A, B) (((A) + (B)) & ~((B) - 1))
/*
* Size of malloc() pool
*/

View file

@ -212,7 +212,6 @@
#define CONFIG_SYS_HUSH_PARSER
#define CONFIG_SYS_PROMPT_HUSH_PS2 "> "
#define ROUND(A, B) (((A) + (B)) & ~((B) - 1))
/*
* Size of malloc() pool
*/

View file

@ -170,7 +170,6 @@
#define CONFIG_SYS_LONGHELP 1
#define CONFIG_CMDLINE_EDITING 1
#define ROUND(A, B) (((A) + (B)) & ~((B) - 1))
/*
* Size of malloc() pool
*/

View file

@ -45,6 +45,7 @@
#define CONFIG_CMD_I2C
#define CONFIG_CMD_JFFS2
#define CONFIG_JFFS2_CMDLINE
#define CONFIG_CMD_MTDPARTS
#undef CONFIG_WATCHDOG /* disable platform specific watchdog */
@ -97,7 +98,7 @@
#define CONFIG_SYS_SLOT_ID_MASK (0x3f) /* mask for slot ID bits */
#define CONFIG_I2C_MULTI_BUS 1
#define CONFIG_SYS_MAX_I2C_BUS 2
#define CONFIG_SYS_MAX_I2C_BUS 1
#define CONFIG_SYS_I2C_INIT_BOARD 1
#define CONFIG_I2C_MUX 1
@ -122,6 +123,20 @@
#define CONFIG_BOOTP_GATEWAY
#define CONFIG_BOOTP_HOSTNAME
#define CONFIG_ENV_SIZE 0x04000 /* Size of Environment */
#define CONFIG_SYS_MALLOC_LEN (1024 * 1024) /* Reserved for malloc */
#define CONFIG_SYS_64BIT_VSPRINTF /* needed for UBI/UBIFS */
/* UBI Support for all Keymile boards */
#define CONFIG_CMD_UBI
#define CONFIG_RBTREE
#define CONFIG_MTD_PARTITIONS
#define CONFIG_FLASH_CFI_MTD
#define CONFIG_MTD_DEVICE
#define CONFIG_MTD_CONCAT
/* define this to use the keymile's io muxing feature */
/*#define CONFIG_IO_MUXING */

View file

@ -121,7 +121,6 @@
#define CONFIG_SYS_FLASH_BASE 0xf0000000
#define CONFIG_SYS_MONITOR_LEN (384 << 10) /* 384 kB for Monitor */
#define CONFIG_SYS_MONITOR_BASE CONFIG_SYS_FLASH_BASE
#define CONFIG_SYS_MALLOC_LEN (256 << 10) /* 256 kB for malloc() */
/*
* For booting Linux, the board info and command line data
@ -146,7 +145,6 @@
#define CONFIG_ENV_IS_IN_FLASH 1
#define CONFIG_ENV_OFFSET CONFIG_SYS_MONITOR_LEN
#define CONFIG_ENV_SIZE 0x04000 /* Total Size of Environment Sector */
#define CONFIG_ENV_SECT_SIZE 0x20000 /* Total Size of Environment Sector */
/* Address and size of Redundant Environment Sector */

View file

@ -158,7 +158,6 @@
#endif
#define CONFIG_SYS_MONITOR_LEN (384 * 1024) /* Reserve 384 kB for Mon */
#define CONFIG_SYS_MALLOC_LEN (128 * 1024) /* Reserved for malloc */
/*
* Initial RAM Base Address Setup
@ -292,7 +291,6 @@
#define CONFIG_ENV_IS_IN_FLASH 1
#define CONFIG_ENV_ADDR (CONFIG_SYS_MONITOR_BASE + CONFIG_SYS_MONITOR_LEN)
#define CONFIG_ENV_SECT_SIZE 0x20000 /* 128K(one sector) for env */
#define CONFIG_ENV_SIZE 0x20000
#define CONFIG_ENV_OFFSET (CONFIG_SYS_MONITOR_LEN)
/* Address and size of Redundant Environment Sector */
@ -314,7 +312,6 @@
#define CONFIG_SYS_I2C_SLAVE 0x7F
#define CONFIG_SYS_I2C_OFFSET 0x3000
#define CONFIG_I2C_MULTI_BUS 1
#define CONFIG_SYS_MAX_I2C_BUS 2
#define CONFIG_I2C_MUX 1
/* EEprom support */
@ -326,7 +323,7 @@
#define CONFIG_SYS_DTT_MAX_TEMP 70
#define CONFIG_SYS_DTT_LOW_TEMP -30
#define CONFIG_SYS_DTT_HYSTERESIS 3
#define CONFIG_SYS_DTT_BUS_NUM (2)
#define CONFIG_SYS_DTT_BUS_NUM (CONFIG_SYS_MAX_I2C_BUS)
#if defined(CONFIG_PCI)
#define CONFIG_CMD_PCI
@ -433,7 +430,7 @@
#define CONFIG_PRAM 512 /* protected RAM [KBytes] */
#define MTDIDS_DEFAULT "nor0=app"
#define MTDIDS_DEFAULT "nor2=app"
#define MTDPARTS_DEFAULT \
"mtdparts=app:256k(u-boot),128k(env),128k(envred)," \
"1536k(esw0),8704k(rootfs0),1536k(esw1),2432k(rootfs1),640k(var),768k(cfg)"

View file

@ -98,13 +98,11 @@
"addcon=setenv bootargs ${bootargs} " \
"console=ttyCPM0,${baudrate}\0" \
"mtdids=nor0=boot,nor1=app \0" \
"mtdparts=mtdparts=boot:384k(u-boot),128k(env),128k(envred)," \
"3456k(free);app:3m(esw0),10m(rootfs0),3m(esw1)," \
"10m(rootfs1),1m(var),5m(cfg) \0" \
"partition=nor1,5 \0" \
"new_env=prot off FE060000 FE09FFFF; era FE060000 FE09FFFF \0" \
"EEprom_ivm=pca9544a:70:4 \0" \
"mtdparts=" MK_STR(MTDPARTS_DEFAULT) "\0" \
"mtdparts=" MK_STR(MTDPARTS_DEFAULT) "\0" \
"unlock=yes\0" \
""
#define CONFIG_SYS_SDRAM_BASE 0x00000000
@ -112,13 +110,17 @@
#define CONFIG_SYS_FLASH_SIZE 32
#define CONFIG_SYS_FLASH_CFI
#define CONFIG_FLASH_CFI_DRIVER
#define CONFIG_SYS_MAX_FLASH_BANKS 2 /* max num of flash banks */
#define CONFIG_SYS_MAX_FLASH_BANKS 3 /* max num of flash banks */
#define CONFIG_SYS_MAX_FLASH_SECT 512 /* max num of sects on one chip */
#define CONFIG_SYS_FLASH_BASE_1 0x50000000
#define CONFIG_SYS_FLASH_SIZE_1 64
#define CONFIG_SYS_FLASH_SIZE_1 32
#define CONFIG_SYS_FLASH_BASE_2 0x52000000
#define CONFIG_SYS_FLASH_SIZE_2 32
#define CONFIG_SYS_FLASH_BANKS_LIST { CONFIG_SYS_FLASH_BASE, CONFIG_SYS_FLASH_BASE_1 }
#define CONFIG_SYS_FLASH_BANKS_LIST { CONFIG_SYS_FLASH_BASE, \
CONFIG_SYS_FLASH_BASE_1, \
CONFIG_SYS_FLASH_BASE_2 }
#define CONFIG_SYS_MONITOR_BASE TEXT_BASE
#if (CONFIG_SYS_MONITOR_BASE < CONFIG_SYS_FLASH_BASE)
@ -193,7 +195,6 @@
#define BOOTFLAG_COLD 0x01 /* Normal Power-On: Boot from FLASH */
#define BOOTFLAG_WARM 0x02 /* Software reboot */
#define CONFIG_SYS_MALLOC_LEN (4096 << 10) /* Reserve 4 MB for malloc() */
#define CONFIG_SYS_BOOTMAPSZ (8 << 20) /* Initial Memory map for Linux */
#define CONFIG_SYS_CACHELINE_SIZE 32 /* For MPC8260 CPUs */
@ -333,9 +334,10 @@
#define CONFIG_SYS_BR5_PRELIM ((CONFIG_SYS_FLASH_BASE_1 & BRx_BA_MSK) |\
BRx_PS_16 | BRx_MS_GPCM_P | BRx_V)
#define CONFIG_SYS_OR5_PRELIM (MEG_TO_AM(CONFIG_SYS_FLASH_SIZE_1) |\
ORxG_CSNT | ORxG_ACS_DIV2 |\
ORxG_SCY_5_CLK | ORxG_TRLX )
#define CONFIG_SYS_OR5_PRELIM (MEG_TO_AM(CONFIG_SYS_FLASH_SIZE_1 + \
CONFIG_SYS_FLASH_SIZE_2) |\
ORxG_CSNT | ORxG_ACS_DIV2 |\
ORxG_SCY_5_CLK | ORxG_TRLX )
#define CONFIG_SYS_RESET_ADDRESS 0xFDFFFFFC /* "bad" address */

View file

@ -368,7 +368,6 @@
#define CONFIG_SYS_LONGHELP 1
#define CONFIG_CMDLINE_EDITING 1
#define ROUND(A, B) (((A) + (B)) & ~((B) - 1))
/*
* Size of malloc() pool
*/

View file

@ -397,7 +397,6 @@
#define CONFIG_SYS_LONGHELP 1
#define CONFIG_CMDLINE_EDITING 1
#define ROUND(A, B) (((A) + (B)) & ~((B) - 1))
/*
* Size of malloc() pool
*/

View file

@ -163,6 +163,8 @@
#undef CONFIG_MEMSIZE_IN_BYTES
#define CONFIG_LZMA
/*-----------------------------------------------------------------------
* Cache Configuration
*/

View file

@ -47,7 +47,9 @@
#define I2C_RXTX_LEN 128 /* maximum tx/rx buffer length */
#if defined(CONFIG_I2C_MULTI_BUS)
#if !defined(CONFIG_SYS_MAX_I2C_BUS)
#define CONFIG_SYS_MAX_I2C_BUS 2
#endif
#define I2C_GET_BUS() i2c_get_bus_num()
#define I2C_SET_BUS(a) i2c_set_bus_num(a)
#else

View file

@ -1,7 +1,7 @@
/*
* Fake include for LzmaDecode.h
* Fake include for LzmaDec.h
*
* Copyright (C) 2007-2008 Industrie Dial Face S.p.A.
* Copyright (C) 2007-2009 Industrie Dial Face S.p.A.
* Luigi 'Comio' Mantellini (luigi.mantellini@idf-hit.com)
*
* See file CREDITS for list of people who contributed to this
@ -23,9 +23,9 @@
* MA 02111-1307 USA
*/
#ifndef __LZMADECODE_H__FAKE__
#define __LZMADECODE_H__FAKE__
#ifndef __LZMADEC_H__FAKE__
#define __LZMADEC_H__FAKE__
#include "../../lib_generic/lzma/LzmaDecode.h"
#include "../../lib_generic/lzma/LzmaDec.h"
#endif

View file

@ -1,7 +1,7 @@
/*
* Fake include for LzmaTools.h
*
* Copyright (C) 2007-2008 Industrie Dial Face S.p.A.
* Copyright (C) 2007-2009 Industrie Dial Face S.p.A.
* Luigi 'Comio' Mantellini (luigi.mantellini@idf-hit.com)
*
* See file CREDITS for list of people who contributed to this

View file

@ -1,7 +1,7 @@
/*
* Fake include for LzmaTypes.h
* Fake include for Types.h
*
* Copyright (C) 2007-2008 Industrie Dial Face S.p.A.
* Copyright (C) 2007-2009 Industrie Dial Face S.p.A.
* Luigi 'Comio' Mantellini (luigi.mantellini@idf-hit.com)
*
* See file CREDITS for list of people who contributed to this
@ -23,9 +23,14 @@
* MA 02111-1307 USA
*/
#ifndef __LZMATYPES_H__FAKE__
#define __LZMATYPES_H__FAKE__
#ifndef __TYPES_H__FAKE__
#define __TYPES_H__FAKE__
#include "../../lib_generic/lzma/LzmaTypes.h"
/*
*This avoids the collition with zlib.h Byte definition
*/
#define Byte LZByte
#include "../../lib_generic/lzma/Types.h"
#endif

View file

@ -1,502 +0,0 @@
GNU LESSER GENERAL PUBLIC LICENSE
Version 2.1, February 1999
Copyright (C) 1991, 1999 Free Software Foundation, Inc.
59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
Everyone is permitted to copy and distribute verbatim copies
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[This is the first released version of the Lesser GPL. It also counts
as the successor of the GNU Library Public License, version 2, hence
the version number 2.1.]
Preamble
The licenses for most software are designed to take away your
freedom to share and change it. By contrast, the GNU General Public
Licenses are intended to guarantee your freedom to share and change
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This license, the Lesser General Public License, applies to some
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That's all there is to it!

1007
lib_generic/lzma/LzmaDec.c Normal file

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223
lib_generic/lzma/LzmaDec.h Normal file
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/* LzmaDec.h -- LZMA Decoder
2008-10-04 : Igor Pavlov : Public domain */
#ifndef __LZMADEC_H
#define __LZMADEC_H
#include "Types.h"
/* #define _LZMA_PROB32 */
/* _LZMA_PROB32 can increase the speed on some CPUs,
but memory usage for CLzmaDec::probs will be doubled in that case */
#ifdef _LZMA_PROB32
#define CLzmaProb UInt32
#else
#define CLzmaProb UInt16
#endif
/* ---------- LZMA Properties ---------- */
#define LZMA_PROPS_SIZE 5
typedef struct _CLzmaProps
{
unsigned lc, lp, pb;
UInt32 dicSize;
} CLzmaProps;
/* LzmaProps_Decode - decodes properties
Returns:
SZ_OK
SZ_ERROR_UNSUPPORTED - Unsupported properties
*/
SRes LzmaProps_Decode(CLzmaProps *p, const Byte *data, unsigned size);
/* ---------- LZMA Decoder state ---------- */
/* LZMA_REQUIRED_INPUT_MAX = number of required input bytes for worst case.
Num bits = log2((2^11 / 31) ^ 22) + 26 < 134 + 26 = 160; */
#define LZMA_REQUIRED_INPUT_MAX 20
typedef struct
{
CLzmaProps prop;
CLzmaProb *probs;
Byte *dic;
const Byte *buf;
UInt32 range, code;
SizeT dicPos;
SizeT dicBufSize;
UInt32 processedPos;
UInt32 checkDicSize;
unsigned state;
UInt32 reps[4];
unsigned remainLen;
int needFlush;
int needInitState;
UInt32 numProbs;
unsigned tempBufSize;
Byte tempBuf[LZMA_REQUIRED_INPUT_MAX];
} CLzmaDec;
#define LzmaDec_Construct(p) { (p)->dic = 0; (p)->probs = 0; }
void LzmaDec_Init(CLzmaDec *p);
/* There are two types of LZMA streams:
0) Stream with end mark. That end mark adds about 6 bytes to compressed size.
1) Stream without end mark. You must know exact uncompressed size to decompress such stream. */
typedef enum
{
LZMA_FINISH_ANY, /* finish at any point */
LZMA_FINISH_END /* block must be finished at the end */
} ELzmaFinishMode;
/* ELzmaFinishMode has meaning only if the decoding reaches output limit !!!
You must use LZMA_FINISH_END, when you know that current output buffer
covers last bytes of block. In other cases you must use LZMA_FINISH_ANY.
If LZMA decoder sees end marker before reaching output limit, it returns SZ_OK,
and output value of destLen will be less than output buffer size limit.
You can check status result also.
You can use multiple checks to test data integrity after full decompression:
1) Check Result and "status" variable.
2) Check that output(destLen) = uncompressedSize, if you know real uncompressedSize.
3) Check that output(srcLen) = compressedSize, if you know real compressedSize.
You must use correct finish mode in that case. */
typedef enum
{
LZMA_STATUS_NOT_SPECIFIED, /* use main error code instead */
LZMA_STATUS_FINISHED_WITH_MARK, /* stream was finished with end mark. */
LZMA_STATUS_NOT_FINISHED, /* stream was not finished */
LZMA_STATUS_NEEDS_MORE_INPUT, /* you must provide more input bytes */
LZMA_STATUS_MAYBE_FINISHED_WITHOUT_MARK /* there is probability that stream was finished without end mark */
} ELzmaStatus;
/* ELzmaStatus is used only as output value for function call */
/* ---------- Interfaces ---------- */
/* There are 3 levels of interfaces:
1) Dictionary Interface
2) Buffer Interface
3) One Call Interface
You can select any of these interfaces, but don't mix functions from different
groups for same object. */
/* There are two variants to allocate state for Dictionary Interface:
1) LzmaDec_Allocate / LzmaDec_Free
2) LzmaDec_AllocateProbs / LzmaDec_FreeProbs
You can use variant 2, if you set dictionary buffer manually.
For Buffer Interface you must always use variant 1.
LzmaDec_Allocate* can return:
SZ_OK
SZ_ERROR_MEM - Memory allocation error
SZ_ERROR_UNSUPPORTED - Unsupported properties
*/
SRes LzmaDec_AllocateProbs(CLzmaDec *p, const Byte *props, unsigned propsSize, ISzAlloc *alloc);
void LzmaDec_FreeProbs(CLzmaDec *p, ISzAlloc *alloc);
SRes LzmaDec_Allocate(CLzmaDec *state, const Byte *prop, unsigned propsSize, ISzAlloc *alloc);
void LzmaDec_Free(CLzmaDec *state, ISzAlloc *alloc);
/* ---------- Dictionary Interface ---------- */
/* You can use it, if you want to eliminate the overhead for data copying from
dictionary to some other external buffer.
You must work with CLzmaDec variables directly in this interface.
STEPS:
LzmaDec_Constr()
LzmaDec_Allocate()
for (each new stream)
{
LzmaDec_Init()
while (it needs more decompression)
{
LzmaDec_DecodeToDic()
use data from CLzmaDec::dic and update CLzmaDec::dicPos
}
}
LzmaDec_Free()
*/
/* LzmaDec_DecodeToDic
The decoding to internal dictionary buffer (CLzmaDec::dic).
You must manually update CLzmaDec::dicPos, if it reaches CLzmaDec::dicBufSize !!!
finishMode:
It has meaning only if the decoding reaches output limit (dicLimit).
LZMA_FINISH_ANY - Decode just dicLimit bytes.
LZMA_FINISH_END - Stream must be finished after dicLimit.
Returns:
SZ_OK
status:
LZMA_STATUS_FINISHED_WITH_MARK
LZMA_STATUS_NOT_FINISHED
LZMA_STATUS_NEEDS_MORE_INPUT
LZMA_STATUS_MAYBE_FINISHED_WITHOUT_MARK
SZ_ERROR_DATA - Data error
*/
SRes LzmaDec_DecodeToDic(CLzmaDec *p, SizeT dicLimit,
const Byte *src, SizeT *srcLen, ELzmaFinishMode finishMode, ELzmaStatus *status);
/* ---------- Buffer Interface ---------- */
/* It's zlib-like interface.
See LzmaDec_DecodeToDic description for information about STEPS and return results,
but you must use LzmaDec_DecodeToBuf instead of LzmaDec_DecodeToDic and you don't need
to work with CLzmaDec variables manually.
finishMode:
It has meaning only if the decoding reaches output limit (*destLen).
LZMA_FINISH_ANY - Decode just destLen bytes.
LZMA_FINISH_END - Stream must be finished after (*destLen).
*/
SRes LzmaDec_DecodeToBuf(CLzmaDec *p, Byte *dest, SizeT *destLen,
const Byte *src, SizeT *srcLen, ELzmaFinishMode finishMode, ELzmaStatus *status);
/* ---------- One Call Interface ---------- */
/* LzmaDecode
finishMode:
It has meaning only if the decoding reaches output limit (*destLen).
LZMA_FINISH_ANY - Decode just destLen bytes.
LZMA_FINISH_END - Stream must be finished after (*destLen).
Returns:
SZ_OK
status:
LZMA_STATUS_FINISHED_WITH_MARK
LZMA_STATUS_NOT_FINISHED
LZMA_STATUS_MAYBE_FINISHED_WITHOUT_MARK
SZ_ERROR_DATA - Data error
SZ_ERROR_MEM - Memory allocation error
SZ_ERROR_UNSUPPORTED - Unsupported properties
SZ_ERROR_INPUT_EOF - It needs more bytes in input buffer (src).
*/
SRes LzmaDecode(Byte *dest, SizeT *destLen, const Byte *src, SizeT *srcLen,
const Byte *propData, unsigned propSize, ELzmaFinishMode finishMode,
ELzmaStatus *status, ISzAlloc *alloc);
#endif

View file

@ -1,584 +0,0 @@
/*
LzmaDecode.c
LZMA Decoder (optimized for Speed version)
LZMA SDK 4.40 Copyright (c) 1999-2006 Igor Pavlov (2006-05-01)
http://www.7-zip.org/
LZMA SDK is licensed under two licenses:
1) GNU Lesser General Public License (GNU LGPL)
2) Common Public License (CPL)
It means that you can select one of these two licenses and
follow rules of that license.
SPECIAL EXCEPTION:
Igor Pavlov, as the author of this Code, expressly permits you to
statically or dynamically link your Code (or bind by name) to the
interfaces of this file without subjecting your linked Code to the
terms of the CPL or GNU LGPL. Any modifications or additions
to this file, however, are subject to the LGPL or CPL terms.
*/
#include "LzmaDecode.h"
#define kNumTopBits 24
#define kTopValue ((UInt32)1 << kNumTopBits)
#define kNumBitModelTotalBits 11
#define kBitModelTotal (1 << kNumBitModelTotalBits)
#define kNumMoveBits 5
#define RC_READ_BYTE (*Buffer++)
#define RC_INIT2 Code = 0; Range = 0xFFFFFFFF; \
{ int i; for(i = 0; i < 5; i++) { RC_TEST; Code = (Code << 8) | RC_READ_BYTE; }}
#ifdef _LZMA_IN_CB
#define RC_TEST { if (Buffer == BufferLim) \
{ SizeT size; int result = InCallback->Read(InCallback, &Buffer, &size); if (result != LZMA_RESULT_OK) return result; \
BufferLim = Buffer + size; if (size == 0) return LZMA_RESULT_DATA_ERROR; }}
#define RC_INIT Buffer = BufferLim = 0; RC_INIT2
#else
#define RC_TEST { if (Buffer == BufferLim) return LZMA_RESULT_DATA_ERROR; }
#define RC_INIT(buffer, bufferSize) Buffer = buffer; BufferLim = buffer + bufferSize; RC_INIT2
#endif
#define RC_NORMALIZE if (Range < kTopValue) { RC_TEST; Range <<= 8; Code = (Code << 8) | RC_READ_BYTE; }
#define IfBit0(p) RC_NORMALIZE; bound = (Range >> kNumBitModelTotalBits) * *(p); if (Code < bound)
#define UpdateBit0(p) Range = bound; *(p) += (kBitModelTotal - *(p)) >> kNumMoveBits;
#define UpdateBit1(p) Range -= bound; Code -= bound; *(p) -= (*(p)) >> kNumMoveBits;
#define RC_GET_BIT2(p, mi, A0, A1) IfBit0(p) \
{ UpdateBit0(p); mi <<= 1; A0; } else \
{ UpdateBit1(p); mi = (mi + mi) + 1; A1; }
#define RC_GET_BIT(p, mi) RC_GET_BIT2(p, mi, ; , ;)
#define RangeDecoderBitTreeDecode(probs, numLevels, res) \
{ int i = numLevels; res = 1; \
do { CProb *p = probs + res; RC_GET_BIT(p, res) } while(--i != 0); \
res -= (1 << numLevels); }
#define kNumPosBitsMax 4
#define kNumPosStatesMax (1 << kNumPosBitsMax)
#define kLenNumLowBits 3
#define kLenNumLowSymbols (1 << kLenNumLowBits)
#define kLenNumMidBits 3
#define kLenNumMidSymbols (1 << kLenNumMidBits)
#define kLenNumHighBits 8
#define kLenNumHighSymbols (1 << kLenNumHighBits)
#define LenChoice 0
#define LenChoice2 (LenChoice + 1)
#define LenLow (LenChoice2 + 1)
#define LenMid (LenLow + (kNumPosStatesMax << kLenNumLowBits))
#define LenHigh (LenMid + (kNumPosStatesMax << kLenNumMidBits))
#define kNumLenProbs (LenHigh + kLenNumHighSymbols)
#define kNumStates 12
#define kNumLitStates 7
#define kStartPosModelIndex 4
#define kEndPosModelIndex 14
#define kNumFullDistances (1 << (kEndPosModelIndex >> 1))
#define kNumPosSlotBits 6
#define kNumLenToPosStates 4
#define kNumAlignBits 4
#define kAlignTableSize (1 << kNumAlignBits)
#define kMatchMinLen 2
#define IsMatch 0
#define IsRep (IsMatch + (kNumStates << kNumPosBitsMax))
#define IsRepG0 (IsRep + kNumStates)
#define IsRepG1 (IsRepG0 + kNumStates)
#define IsRepG2 (IsRepG1 + kNumStates)
#define IsRep0Long (IsRepG2 + kNumStates)
#define PosSlot (IsRep0Long + (kNumStates << kNumPosBitsMax))
#define SpecPos (PosSlot + (kNumLenToPosStates << kNumPosSlotBits))
#define Align (SpecPos + kNumFullDistances - kEndPosModelIndex)
#define LenCoder (Align + kAlignTableSize)
#define RepLenCoder (LenCoder + kNumLenProbs)
#define Literal (RepLenCoder + kNumLenProbs)
#if Literal != LZMA_BASE_SIZE
StopCompilingDueBUG
#endif
int LzmaDecodeProperties(CLzmaProperties *propsRes, const unsigned char *propsData, int size)
{
unsigned char prop0;
if (size < LZMA_PROPERTIES_SIZE)
return LZMA_RESULT_DATA_ERROR;
prop0 = propsData[0];
if (prop0 >= (9 * 5 * 5))
return LZMA_RESULT_DATA_ERROR;
{
for (propsRes->pb = 0; prop0 >= (9 * 5); propsRes->pb++, prop0 -= (9 * 5));
for (propsRes->lp = 0; prop0 >= 9; propsRes->lp++, prop0 -= 9);
propsRes->lc = prop0;
/*
unsigned char remainder = (unsigned char)(prop0 / 9);
propsRes->lc = prop0 % 9;
propsRes->pb = remainder / 5;
propsRes->lp = remainder % 5;
*/
}
#ifdef _LZMA_OUT_READ
{
int i;
propsRes->DictionarySize = 0;
for (i = 0; i < 4; i++)
propsRes->DictionarySize += (UInt32)(propsData[1 + i]) << (i * 8);
if (propsRes->DictionarySize == 0)
propsRes->DictionarySize = 1;
}
#endif
return LZMA_RESULT_OK;
}
#define kLzmaStreamWasFinishedId (-1)
int LzmaDecode(CLzmaDecoderState *vs,
#ifdef _LZMA_IN_CB
ILzmaInCallback *InCallback,
#else
const unsigned char *inStream, SizeT inSize, SizeT *inSizeProcessed,
#endif
unsigned char *outStream, SizeT outSize, SizeT *outSizeProcessed)
{
CProb *p = vs->Probs;
SizeT nowPos = 0;
Byte previousByte = 0;
UInt32 posStateMask = (1 << (vs->Properties.pb)) - 1;
UInt32 literalPosMask = (1 << (vs->Properties.lp)) - 1;
int lc = vs->Properties.lc;
#ifdef _LZMA_OUT_READ
UInt32 Range = vs->Range;
UInt32 Code = vs->Code;
#ifdef _LZMA_IN_CB
const Byte *Buffer = vs->Buffer;
const Byte *BufferLim = vs->BufferLim;
#else
const Byte *Buffer = inStream;
const Byte *BufferLim = inStream + inSize;
#endif
int state = vs->State;
UInt32 rep0 = vs->Reps[0], rep1 = vs->Reps[1], rep2 = vs->Reps[2], rep3 = vs->Reps[3];
int len = vs->RemainLen;
UInt32 globalPos = vs->GlobalPos;
UInt32 distanceLimit = vs->DistanceLimit;
Byte *dictionary = vs->Dictionary;
UInt32 dictionarySize = vs->Properties.DictionarySize;
UInt32 dictionaryPos = vs->DictionaryPos;
Byte tempDictionary[4];
#ifndef _LZMA_IN_CB
*inSizeProcessed = 0;
#endif
*outSizeProcessed = 0;
if (len == kLzmaStreamWasFinishedId)
return LZMA_RESULT_OK;
if (dictionarySize == 0)
{
dictionary = tempDictionary;
dictionarySize = 1;
tempDictionary[0] = vs->TempDictionary[0];
}
if (len == kLzmaNeedInitId)
{
{
UInt32 numProbs = Literal + ((UInt32)LZMA_LIT_SIZE << (lc + vs->Properties.lp));
UInt32 i;
for (i = 0; i < numProbs; i++)
p[i] = kBitModelTotal >> 1;
rep0 = rep1 = rep2 = rep3 = 1;
state = 0;
globalPos = 0;
distanceLimit = 0;
dictionaryPos = 0;
dictionary[dictionarySize - 1] = 0;
#ifdef _LZMA_IN_CB
RC_INIT;
#else
RC_INIT(inStream, inSize);
#endif
}
len = 0;
}
while(len != 0 && nowPos < outSize)
{
UInt32 pos = dictionaryPos - rep0;
if (pos >= dictionarySize)
pos += dictionarySize;
outStream[nowPos++] = dictionary[dictionaryPos] = dictionary[pos];
if (++dictionaryPos == dictionarySize)
dictionaryPos = 0;
len--;
}
if (dictionaryPos == 0)
previousByte = dictionary[dictionarySize - 1];
else
previousByte = dictionary[dictionaryPos - 1];
#else /* if !_LZMA_OUT_READ */
int state = 0;
UInt32 rep0 = 1, rep1 = 1, rep2 = 1, rep3 = 1;
int len = 0;
const Byte *Buffer;
const Byte *BufferLim;
UInt32 Range;
UInt32 Code;
#ifndef _LZMA_IN_CB
*inSizeProcessed = 0;
#endif
*outSizeProcessed = 0;
{
UInt32 i;
UInt32 numProbs = Literal + ((UInt32)LZMA_LIT_SIZE << (lc + vs->Properties.lp));
for (i = 0; i < numProbs; i++)
p[i] = kBitModelTotal >> 1;
}
#ifdef _LZMA_IN_CB
RC_INIT;
#else
RC_INIT(inStream, inSize);
#endif
#endif /* _LZMA_OUT_READ */
while(nowPos < outSize)
{
CProb *prob;
UInt32 bound;
int posState = (int)(
(nowPos
#ifdef _LZMA_OUT_READ
+ globalPos
#endif
)
& posStateMask);
prob = p + IsMatch + (state << kNumPosBitsMax) + posState;
IfBit0(prob)
{
int symbol = 1;
UpdateBit0(prob)
prob = p + Literal + (LZMA_LIT_SIZE *
(((
(nowPos
#ifdef _LZMA_OUT_READ
+ globalPos
#endif
)
& literalPosMask) << lc) + (previousByte >> (8 - lc))));
if (state >= kNumLitStates)
{
int matchByte;
#ifdef _LZMA_OUT_READ
UInt32 pos = dictionaryPos - rep0;
if (pos >= dictionarySize)
pos += dictionarySize;
matchByte = dictionary[pos];
#else
matchByte = outStream[nowPos - rep0];
#endif
do
{
int bit;
CProb *probLit;
matchByte <<= 1;
bit = (matchByte & 0x100);
probLit = prob + 0x100 + bit + symbol;
RC_GET_BIT2(probLit, symbol, if (bit != 0) break, if (bit == 0) break)
}
while (symbol < 0x100);
}
while (symbol < 0x100)
{
CProb *probLit = prob + symbol;
RC_GET_BIT(probLit, symbol)
}
previousByte = (Byte)symbol;
outStream[nowPos++] = previousByte;
#ifdef _LZMA_OUT_READ
if (distanceLimit < dictionarySize)
distanceLimit++;
dictionary[dictionaryPos] = previousByte;
if (++dictionaryPos == dictionarySize)
dictionaryPos = 0;
#endif
if (state < 4) state = 0;
else if (state < 10) state -= 3;
else state -= 6;
}
else
{
UpdateBit1(prob);
prob = p + IsRep + state;
IfBit0(prob)
{
UpdateBit0(prob);
rep3 = rep2;
rep2 = rep1;
rep1 = rep0;
state = state < kNumLitStates ? 0 : 3;
prob = p + LenCoder;
}
else
{
UpdateBit1(prob);
prob = p + IsRepG0 + state;
IfBit0(prob)
{
UpdateBit0(prob);
prob = p + IsRep0Long + (state << kNumPosBitsMax) + posState;
IfBit0(prob)
{
#ifdef _LZMA_OUT_READ
UInt32 pos;
#endif
UpdateBit0(prob);
#ifdef _LZMA_OUT_READ
if (distanceLimit == 0)
#else
if (nowPos == 0)
#endif
return LZMA_RESULT_DATA_ERROR;
state = state < kNumLitStates ? 9 : 11;
#ifdef _LZMA_OUT_READ
pos = dictionaryPos - rep0;
if (pos >= dictionarySize)
pos += dictionarySize;
previousByte = dictionary[pos];
dictionary[dictionaryPos] = previousByte;
if (++dictionaryPos == dictionarySize)
dictionaryPos = 0;
#else
previousByte = outStream[nowPos - rep0];
#endif
outStream[nowPos++] = previousByte;
#ifdef _LZMA_OUT_READ
if (distanceLimit < dictionarySize)
distanceLimit++;
#endif
continue;
}
else
{
UpdateBit1(prob);
}
}
else
{
UInt32 distance;
UpdateBit1(prob);
prob = p + IsRepG1 + state;
IfBit0(prob)
{
UpdateBit0(prob);
distance = rep1;
}
else
{
UpdateBit1(prob);
prob = p + IsRepG2 + state;
IfBit0(prob)
{
UpdateBit0(prob);
distance = rep2;
}
else
{
UpdateBit1(prob);
distance = rep3;
rep3 = rep2;
}
rep2 = rep1;
}
rep1 = rep0;
rep0 = distance;
}
state = state < kNumLitStates ? 8 : 11;
prob = p + RepLenCoder;
}
{
int numBits, offset;
CProb *probLen = prob + LenChoice;
IfBit0(probLen)
{
UpdateBit0(probLen);
probLen = prob + LenLow + (posState << kLenNumLowBits);
offset = 0;
numBits = kLenNumLowBits;
}
else
{
UpdateBit1(probLen);
probLen = prob + LenChoice2;
IfBit0(probLen)
{
UpdateBit0(probLen);
probLen = prob + LenMid + (posState << kLenNumMidBits);
offset = kLenNumLowSymbols;
numBits = kLenNumMidBits;
}
else
{
UpdateBit1(probLen);
probLen = prob + LenHigh;
offset = kLenNumLowSymbols + kLenNumMidSymbols;
numBits = kLenNumHighBits;
}
}
RangeDecoderBitTreeDecode(probLen, numBits, len);
len += offset;
}
if (state < 4)
{
int posSlot;
state += kNumLitStates;
prob = p + PosSlot +
((len < kNumLenToPosStates ? len : kNumLenToPosStates - 1) <<
kNumPosSlotBits);
RangeDecoderBitTreeDecode(prob, kNumPosSlotBits, posSlot);
if (posSlot >= kStartPosModelIndex)
{
int numDirectBits = ((posSlot >> 1) - 1);
rep0 = (2 | ((UInt32)posSlot & 1));
if (posSlot < kEndPosModelIndex)
{
rep0 <<= numDirectBits;
prob = p + SpecPos + rep0 - posSlot - 1;
}
else
{
numDirectBits -= kNumAlignBits;
do
{
RC_NORMALIZE
Range >>= 1;
rep0 <<= 1;
if (Code >= Range)
{
Code -= Range;
rep0 |= 1;
}
}
while (--numDirectBits != 0);
prob = p + Align;
rep0 <<= kNumAlignBits;
numDirectBits = kNumAlignBits;
}
{
int i = 1;
int mi = 1;
do
{
CProb *prob3 = prob + mi;
RC_GET_BIT2(prob3, mi, ; , rep0 |= i);
i <<= 1;
}
while(--numDirectBits != 0);
}
}
else
rep0 = posSlot;
if (++rep0 == (UInt32)(0))
{
/* it's for stream version */
len = kLzmaStreamWasFinishedId;
break;
}
}
len += kMatchMinLen;
#ifdef _LZMA_OUT_READ
if (rep0 > distanceLimit)
#else
if (rep0 > nowPos)
#endif
return LZMA_RESULT_DATA_ERROR;
#ifdef _LZMA_OUT_READ
if (dictionarySize - distanceLimit > (UInt32)len)
distanceLimit += len;
else
distanceLimit = dictionarySize;
#endif
do
{
#ifdef _LZMA_OUT_READ
UInt32 pos = dictionaryPos - rep0;
if (pos >= dictionarySize)
pos += dictionarySize;
previousByte = dictionary[pos];
dictionary[dictionaryPos] = previousByte;
if (++dictionaryPos == dictionarySize)
dictionaryPos = 0;
#else
previousByte = outStream[nowPos - rep0];
#endif
len--;
outStream[nowPos++] = previousByte;
}
while(len != 0 && nowPos < outSize);
}
}
RC_NORMALIZE;
#ifdef _LZMA_OUT_READ
vs->Range = Range;
vs->Code = Code;
vs->DictionaryPos = dictionaryPos;
vs->GlobalPos = globalPos + (UInt32)nowPos;
vs->DistanceLimit = distanceLimit;
vs->Reps[0] = rep0;
vs->Reps[1] = rep1;
vs->Reps[2] = rep2;
vs->Reps[3] = rep3;
vs->State = state;
vs->RemainLen = len;
vs->TempDictionary[0] = tempDictionary[0];
#endif
#ifdef _LZMA_IN_CB
vs->Buffer = Buffer;
vs->BufferLim = BufferLim;
#else
*inSizeProcessed = (SizeT)(Buffer - inStream);
#endif
*outSizeProcessed = nowPos;
return LZMA_RESULT_OK;
}

View file

@ -1,113 +0,0 @@
/*
LzmaDecode.h
LZMA Decoder interface
LZMA SDK 4.40 Copyright (c) 1999-2006 Igor Pavlov (2006-05-01)
http://www.7-zip.org/
LZMA SDK is licensed under two licenses:
1) GNU Lesser General Public License (GNU LGPL)
2) Common Public License (CPL)
It means that you can select one of these two licenses and
follow rules of that license.
SPECIAL EXCEPTION:
Igor Pavlov, as the author of this code, expressly permits you to
statically or dynamically link your code (or bind by name) to the
interfaces of this file without subjecting your linked code to the
terms of the CPL or GNU LGPL. Any modifications or additions
to this file, however, are subject to the LGPL or CPL terms.
*/
#ifndef __LZMADECODE_H
#define __LZMADECODE_H
#include "LzmaTypes.h"
/* #define _LZMA_IN_CB */
/* Use callback for input data */
/* #define _LZMA_OUT_READ */
/* Use read function for output data */
/* #define _LZMA_PROB32 */
/* It can increase speed on some 32-bit CPUs,
but memory usage will be doubled in that case */
/* #define _LZMA_LOC_OPT */
/* Enable local speed optimizations inside code */
#ifdef _LZMA_PROB32
#define CProb UInt32
#else
#define CProb UInt16
#endif
#define LZMA_RESULT_OK 0
#define LZMA_RESULT_DATA_ERROR 1
#ifdef _LZMA_IN_CB
typedef struct _ILzmaInCallback
{
int (*Read)(void *object, const unsigned char **buffer, SizeT *bufferSize);
} ILzmaInCallback;
#endif
#define LZMA_BASE_SIZE 1846
#define LZMA_LIT_SIZE 768
#define LZMA_PROPERTIES_SIZE 5
typedef struct _CLzmaProperties
{
int lc;
int lp;
int pb;
#ifdef _LZMA_OUT_READ
UInt32 DictionarySize;
#endif
}CLzmaProperties;
int LzmaDecodeProperties(CLzmaProperties *propsRes, const unsigned char *propsData, int size);
#define LzmaGetNumProbs(Properties) (LZMA_BASE_SIZE + (LZMA_LIT_SIZE << ((Properties)->lc + (Properties)->lp)))
#define kLzmaNeedInitId (-2)
typedef struct _CLzmaDecoderState
{
CLzmaProperties Properties;
CProb *Probs;
#ifdef _LZMA_IN_CB
const unsigned char *Buffer;
const unsigned char *BufferLim;
#endif
#ifdef _LZMA_OUT_READ
unsigned char *Dictionary;
UInt32 Range;
UInt32 Code;
UInt32 DictionaryPos;
UInt32 GlobalPos;
UInt32 DistanceLimit;
UInt32 Reps[4];
int State;
int RemainLen;
unsigned char TempDictionary[4];
#endif
} CLzmaDecoderState;
#ifdef _LZMA_OUT_READ
#define LzmaDecoderInit(vs) { (vs)->RemainLen = kLzmaNeedInitId; }
#endif
int LzmaDecode(CLzmaDecoderState *vs,
#ifdef _LZMA_IN_CB
ILzmaInCallback *inCallback,
#else
const unsigned char *inStream, SizeT inSize, SizeT *inSizeProcessed,
#endif
unsigned char *outStream, SizeT outSize, SizeT *outSizeProcessed);
#endif

View file

@ -1,7 +1,7 @@
/*
* Usefuls routines based on the LzmaTest.c file from LZMA SDK 4.57
* Usefuls routines based on the LzmaTest.c file from LZMA SDK 4.65
*
* Copyright (C) 2007-2008 Industrie Dial Face S.p.A.
* Copyright (C) 2007-2009 Industrie Dial Face S.p.A.
* Luigi 'Comio' Mantellini (luigi.mantellini@idf-hit.com)
*
* Copyright (C) 1999-2005 Igor Pavlov
@ -40,103 +40,88 @@
#ifdef CONFIG_LZMA
#define LZMA_PROPERTIES_OFFSET 0
#define LZMA_SIZE_OFFSET LZMA_PROPERTIES_SIZE
#define LZMA_SIZE_OFFSET LZMA_PROPS_SIZE
#define LZMA_DATA_OFFSET LZMA_SIZE_OFFSET+sizeof(uint64_t)
#include "LzmaTools.h"
#include "LzmaDecode.h"
#include "LzmaDec.h"
#include <linux/string.h>
#include <malloc.h>
static void *SzAlloc(void *p, size_t size) { p = p; return malloc(size); }
static void SzFree(void *p, void *address) { p = p; free(address); }
int lzmaBuffToBuffDecompress (unsigned char *outStream, SizeT *uncompressedSize,
unsigned char *inStream, SizeT length)
unsigned char *inStream, SizeT length)
{
int res = LZMA_RESULT_DATA_ERROR;
int i;
int res = SZ_ERROR_DATA;
int i;
ISzAlloc g_Alloc;
SizeT outSizeFull = 0xFFFFFFFF; /* 4GBytes limit */
SizeT inProcessed;
SizeT outProcessed;
SizeT outSize;
SizeT outSizeHigh;
CLzmaDecoderState state; /* it's about 24-80 bytes structure, if int is 32-bit */
unsigned char properties[LZMA_PROPERTIES_SIZE];
SizeT compressedSize = (SizeT)(length - LZMA_DATA_OFFSET);
SizeT outSizeFull = 0xFFFFFFFF; /* 4GBytes limit */
SizeT inProcessed;
SizeT outProcessed;
SizeT outSize;
SizeT outSizeHigh;
ELzmaStatus state;
SizeT compressedSize = (SizeT)(length - LZMA_PROPS_SIZE);
debug ("LZMA: Image address............... 0x%lx\n", inStream);
debug ("LZMA: Properties address.......... 0x%lx\n", inStream + LZMA_PROPERTIES_OFFSET);
debug ("LZMA: Uncompressed size address... 0x%lx\n", inStream + LZMA_SIZE_OFFSET);
debug ("LZMA: Compressed data address..... 0x%lx\n", inStream + LZMA_DATA_OFFSET);
debug ("LZMA: Destination address......... 0x%lx\n", outStream);
debug ("LZMA: Image address............... 0x%lx\n", inStream);
debug ("LZMA: Properties address.......... 0x%lx\n", inStream + LZMA_PROPERTIES_OFFSET);
debug ("LZMA: Uncompressed size address... 0x%lx\n", inStream + LZMA_SIZE_OFFSET);
debug ("LZMA: Compressed data address..... 0x%lx\n", inStream + LZMA_DATA_OFFSET);
debug ("LZMA: Destination address......... 0x%lx\n", outStream);
memcpy(properties, inStream + LZMA_PROPERTIES_OFFSET, LZMA_PROPERTIES_SIZE);
memset(&state, 0, sizeof(state));
memset(&state, 0, sizeof(state));
res = LzmaDecodeProperties(&state.Properties,
properties,
LZMA_PROPERTIES_SIZE);
if (res != LZMA_RESULT_OK) {
return res;
}
outSize = 0;
outSizeHigh = 0;
/* Read the uncompressed size */
for (i = 0; i < 8; i++) {
unsigned char b = inStream[LZMA_SIZE_OFFSET + i];
if (i < 4) {
outSize += (UInt32)(b) << (i * 8);
} else {
outSizeHigh += (UInt32)(b) << ((i - 4) * 8);
}
}
outSize = 0;
outSizeHigh = 0;
/* Read the uncompressed size */
for (i = 0; i < 8; i++) {
unsigned char b = inStream[LZMA_SIZE_OFFSET + i];
if (i < 4) {
outSize += (UInt32)(b) << (i * 8);
} else {
outSizeHigh += (UInt32)(b) << ((i - 4) * 8);
}
}
outSizeFull = (SizeT)outSize;
if (sizeof(SizeT) >= 8) {
/*
* SizeT is a 64 bit uint => We can manage files larger than 4GB!
*
*/
outSizeFull |= (((SizeT)outSizeHigh << 16) << 16);
} else if (outSizeHigh != 0 || (UInt32)(SizeT)outSize != outSize) {
/*
* SizeT is a 32 bit uint => We cannot manage files larger than
* 4GB!
*
*/
debug ("LZMA: 64bit support not enabled.\n");
return SZ_ERROR_DATA;
}
outSizeFull = (SizeT)outSize;
if (sizeof(SizeT) >= 8) {
/*
* SizeT is a 64 bit uint => We can manage files larger than 4GB!
*
*/
outSizeFull |= (((SizeT)outSizeHigh << 16) << 16);
} else if (outSizeHigh != 0 || (UInt32)(SizeT)outSize != outSize) {
/*
* SizeT is a 32 bit uint => We cannot manage files larger than
* 4GB!
*
*/
debug ("LZMA: 64bit support not enabled.\n");
return LZMA_RESULT_DATA_ERROR;
}
debug ("LZMA: Uncompresed size............ 0x%lx\n", outSizeFull);
debug ("LZMA: Compresed size.............. 0x%lx\n", compressedSize);
debug ("LZMA: Uncompresed size............ 0x%lx\n", outSizeFull);
debug ("LZMA: Compresed size.............. 0x%lx\n", compressedSize);
debug ("LZMA: Dynamic memory needed....... 0x%lx", LzmaGetNumProbs(&state.Properties) * sizeof(CProb));
g_Alloc.Alloc = SzAlloc;
g_Alloc.Free = SzFree;
state.Probs = (CProb *)malloc(LzmaGetNumProbs(&state.Properties) * sizeof(CProb));
/* Decompress */
outProcessed = outSizeFull;
res = LzmaDecode(
outStream, &outProcessed,
inStream + LZMA_DATA_OFFSET, &compressedSize,
inStream, LZMA_PROPS_SIZE, LZMA_FINISH_ANY, &state, &g_Alloc);
*uncompressedSize = outProcessed;
if (res != SZ_OK) {
return res;
}
if (state.Probs == 0
|| (outStream == 0 && outSizeFull != 0)
|| (inStream == 0 && compressedSize != 0)) {
free(state.Probs);
debug ("\n");
return LZMA_RESULT_DATA_ERROR;
}
debug (" allocated.\n");
/* Decompress */
res = LzmaDecode(&state,
inStream + LZMA_DATA_OFFSET, compressedSize, &inProcessed,
outStream, outSizeFull, &outProcessed);
if (res != LZMA_RESULT_OK) {
return res;
}
*uncompressedSize = outProcessed;
free(state.Probs);
return res;
return res;
}
#endif

View file

@ -1,5 +1,5 @@
/*
* Usefuls routines based on the LzmaTest.c file from LZMA SDK 4.57
* Usefuls routines based on the LzmaTest.c file from LZMA SDK 4.65
*
* Copyright (C) 2007-2008 Industrie Dial Face S.p.A.
* Luigi 'Comio' Mantellini (luigi.mantellini@idf-hit.com)
@ -28,7 +28,7 @@
#ifndef __LZMA_TOOL_H__
#define __LZMA_TOOL_H__
#include "LzmaTypes.h"
#include <lzma/LzmaTypes.h>
extern int lzmaBuffToBuffDecompress (unsigned char *outStream, SizeT *uncompressedSize,
unsigned char *inStream, SizeT length);

View file

@ -1,45 +0,0 @@
/*
LzmaTypes.h
Types for LZMA Decoder
This file written and distributed to public domain by Igor Pavlov.
This file is part of LZMA SDK 4.40 (2006-05-01)
*/
#ifndef __LZMATYPES_H
#define __LZMATYPES_H
#ifndef _7ZIP_BYTE_DEFINED
#define _7ZIP_BYTE_DEFINED
typedef unsigned char Byte;
#endif
#ifndef _7ZIP_UINT16_DEFINED
#define _7ZIP_UINT16_DEFINED
typedef unsigned short UInt16;
#endif
#ifndef _7ZIP_UINT32_DEFINED
#define _7ZIP_UINT32_DEFINED
#ifdef _LZMA_UINT32_IS_ULONG
typedef unsigned long UInt32;
#else
typedef unsigned int UInt32;
#endif
#endif
/* #define _LZMA_NO_SYSTEM_SIZE_T */
/* You can use it, if you don't want <stddef.h> */
#ifndef _7ZIP_SIZET_DEFINED
#define _7ZIP_SIZET_DEFINED
#ifdef _LZMA_NO_SYSTEM_SIZE_T
typedef UInt32 SizeT;
#else
#include <stddef.h>
typedef size_t SizeT;
#endif
#endif
#endif

View file

@ -30,7 +30,9 @@ LIB = $(obj)liblzma.a
SOBJS =
COBJS-$(CONFIG_LZMA) += LzmaDecode.o LzmaTools.o
CFLAGS += -D_LZMA_PROB32 -I$(TOPDIR)/include/linux
COBJS-$(CONFIG_LZMA) += LzmaDec.o LzmaTools.o
COBJS = $(COBJS-y)
SRCS := $(SOBJS:.o=.S) $(COBJS:.o=.c)

View file

@ -7,14 +7,14 @@ Author: Igor Pavlov
The import is made using the import_lzmasdk.sh script that:
* untars the lzmaXYY.tar.bz2 file (from the download web page)
* copies the files LzmaDecode.h, LzmaTypes.h, LzmaDecode.c, history.txt,
LGPL.txt, and lzma.txt from source archive into the lib_lzma directory (pwd).
* copies the files LzmaDec.h, Types.h, LzmaDec.c, history.txt,
and lzma.txt from source archive into the lib_lzma directory (pwd).
Example:
./import_lzmasdk.sh ~/lzma457.tar.bz2
. import_lzmasdk.sh ~/lzma465.tar.bz2
Notice: The files from lzma sdk are not _modified_ by this script!
Notice: The files from lzma sdk are _not modified_ by this script!
The files LzmaTools.{c,h} are provided to export the lzmaBuffToBuffDecompress()
function that wraps the complex LzmaDecode() function from the LZMA SDK. The

208
lib_generic/lzma/Types.h Normal file
View file

@ -0,0 +1,208 @@
/* Types.h -- Basic types
2008-11-23 : Igor Pavlov : Public domain */
#ifndef __7Z_TYPES_H
#define __7Z_TYPES_H
#include <stddef.h>
#ifdef _WIN32
#include <windows.h>
#endif
#define SZ_OK 0
#define SZ_ERROR_DATA 1
#define SZ_ERROR_MEM 2
#define SZ_ERROR_CRC 3
#define SZ_ERROR_UNSUPPORTED 4
#define SZ_ERROR_PARAM 5
#define SZ_ERROR_INPUT_EOF 6
#define SZ_ERROR_OUTPUT_EOF 7
#define SZ_ERROR_READ 8
#define SZ_ERROR_WRITE 9
#define SZ_ERROR_PROGRESS 10
#define SZ_ERROR_FAIL 11
#define SZ_ERROR_THREAD 12
#define SZ_ERROR_ARCHIVE 16
#define SZ_ERROR_NO_ARCHIVE 17
typedef int SRes;
#ifdef _WIN32
typedef DWORD WRes;
#else
typedef int WRes;
#endif
#ifndef RINOK
#define RINOK(x) { int __result__ = (x); if (__result__ != 0) return __result__; }
#endif
typedef unsigned char Byte;
typedef short Int16;
typedef unsigned short UInt16;
#ifdef _LZMA_UINT32_IS_ULONG
typedef long Int32;
typedef unsigned long UInt32;
#else
typedef int Int32;
typedef unsigned int UInt32;
#endif
#ifdef _SZ_NO_INT_64
/* define _SZ_NO_INT_64, if your compiler doesn't support 64-bit integers.
NOTES: Some code will work incorrectly in that case! */
typedef long Int64;
typedef unsigned long UInt64;
#else
#if defined(_MSC_VER) || defined(__BORLANDC__)
typedef __int64 Int64;
typedef unsigned __int64 UInt64;
#else
typedef long long int Int64;
typedef unsigned long long int UInt64;
#endif
#endif
#ifdef _LZMA_NO_SYSTEM_SIZE_T
typedef UInt32 SizeT;
#else
typedef size_t SizeT;
#endif
typedef int Bool;
#define True 1
#define False 0
#ifdef _MSC_VER
#if _MSC_VER >= 1300
#define MY_NO_INLINE __declspec(noinline)
#else
#define MY_NO_INLINE
#endif
#define MY_CDECL __cdecl
#define MY_STD_CALL __stdcall
#define MY_FAST_CALL MY_NO_INLINE __fastcall
#else
#define MY_CDECL
#define MY_STD_CALL
#define MY_FAST_CALL
#endif
/* The following interfaces use first parameter as pointer to structure */
typedef struct
{
SRes (*Read)(void *p, void *buf, size_t *size);
/* if (input(*size) != 0 && output(*size) == 0) means end_of_stream.
(output(*size) < input(*size)) is allowed */
} ISeqInStream;
/* it can return SZ_ERROR_INPUT_EOF */
SRes SeqInStream_Read(ISeqInStream *stream, void *buf, size_t size);
SRes SeqInStream_Read2(ISeqInStream *stream, void *buf, size_t size, SRes errorType);
SRes SeqInStream_ReadByte(ISeqInStream *stream, Byte *buf);
typedef struct
{
size_t (*Write)(void *p, const void *buf, size_t size);
/* Returns: result - the number of actually written bytes.
(result < size) means error */
} ISeqOutStream;
typedef enum
{
SZ_SEEK_SET = 0,
SZ_SEEK_CUR = 1,
SZ_SEEK_END = 2
} ESzSeek;
typedef struct
{
SRes (*Read)(void *p, void *buf, size_t *size); /* same as ISeqInStream::Read */
SRes (*Seek)(void *p, Int64 *pos, ESzSeek origin);
} ISeekInStream;
typedef struct
{
SRes (*Look)(void *p, void **buf, size_t *size);
/* if (input(*size) != 0 && output(*size) == 0) means end_of_stream.
(output(*size) > input(*size)) is not allowed
(output(*size) < input(*size)) is allowed */
SRes (*Skip)(void *p, size_t offset);
/* offset must be <= output(*size) of Look */
SRes (*Read)(void *p, void *buf, size_t *size);
/* reads directly (without buffer). It's same as ISeqInStream::Read */
SRes (*Seek)(void *p, Int64 *pos, ESzSeek origin);
} ILookInStream;
SRes LookInStream_LookRead(ILookInStream *stream, void *buf, size_t *size);
SRes LookInStream_SeekTo(ILookInStream *stream, UInt64 offset);
/* reads via ILookInStream::Read */
SRes LookInStream_Read2(ILookInStream *stream, void *buf, size_t size, SRes errorType);
SRes LookInStream_Read(ILookInStream *stream, void *buf, size_t size);
#define LookToRead_BUF_SIZE (1 << 14)
typedef struct
{
ILookInStream s;
ISeekInStream *realStream;
size_t pos;
size_t size;
Byte buf[LookToRead_BUF_SIZE];
} CLookToRead;
void LookToRead_CreateVTable(CLookToRead *p, int lookahead);
void LookToRead_Init(CLookToRead *p);
typedef struct
{
ISeqInStream s;
ILookInStream *realStream;
} CSecToLook;
void SecToLook_CreateVTable(CSecToLook *p);
typedef struct
{
ISeqInStream s;
ILookInStream *realStream;
} CSecToRead;
void SecToRead_CreateVTable(CSecToRead *p);
typedef struct
{
SRes (*Progress)(void *p, UInt64 inSize, UInt64 outSize);
/* Returns: result. (result != SZ_OK) means break.
Value (UInt64)(Int64)-1 for size means unknown value. */
} ICompressProgress;
typedef struct
{
void *(*Alloc)(void *p, size_t size);
void (*Free)(void *p, void *address); /* address can be 0 */
} ISzAlloc;
#define IAlloc_Alloc(p, size) (p)->Alloc((p), size)
#define IAlloc_Free(p, a) (p)->Free((p), a)
#endif

View file

@ -1,192 +1,230 @@
HISTORY of the LZMA SDK
-----------------------
4.57 2007-12-12
-------------------------
- Speed optimizations in Ñ++ LZMA Decoder.
- Small changes for more compatibility with some C/C++ compilers.
4.65 2009-02-03
-------------------------
- Some minor fixes
4.49 beta 2007-07-05
-------------------------
- .7z ANSI-C Decoder:
- now it supports BCJ and BCJ2 filters
- now it supports files larger than 4 GB.
- now it supports "Last Write Time" field for files.
- C++ code for .7z archives compressing/decompressing from 7-zip
was included to LZMA SDK.
4.63 2008-12-31
-------------------------
- Some minor fixes
4.43 2006-06-04
-------------------------
- Small changes for more compatibility with some C/C++ compilers.
4.61 beta 2008-11-23
-------------------------
- The bug in ANSI-C LZMA Decoder was fixed:
If encoded stream was corrupted, decoder could access memory
outside of allocated range.
- Some changes in ANSI-C 7z Decoder interfaces.
- LZMA SDK is placed in the public domain.
4.42 2006-05-15
-------------------------
- Small changes in .h files in ANSI-C version.
4.60 beta 2008-08-19
-------------------------
- Some minor fixes.
4.39 beta 2006-04-14
-------------------------
- Bug in versions 4.33b:4.38b was fixed:
C++ version of LZMA encoder could not correctly compress
files larger than 2 GB with HC4 match finder (-mfhc4).
4.59 beta 2008-08-13
-------------------------
- The bug was fixed:
LZMA Encoder in fast compression mode could access memory outside of
allocated range in some rare cases.
4.37 beta 2005-04-06
-------------------------
- Fixes in C++ code: code could no be compiled if _NO_EXCEPTIONS was defined.
4.58 beta 2008-05-05
-------------------------
- ANSI-C LZMA Decoder was rewritten for speed optimizations.
- ANSI-C LZMA Encoder was included to LZMA SDK.
- C++ LZMA code now is just wrapper over ANSI-C code.
4.35 beta 2005-03-02
-------------------------
- Bug was fixed in C++ version of LZMA Decoder:
If encoded stream was corrupted, decoder could access memory
outside of allocated range.
4.57 2007-12-12
-------------------------
- Speed optimizations in Ñ++ LZMA Decoder.
- Small changes for more compatibility with some C/C++ compilers.
4.34 beta 2006-02-27
-------------------------
- Compressing speed and memory requirements for compressing were increased
- LZMA now can use only these match finders: HC4, BT2, BT3, BT4
4.49 beta 2007-07-05
-------------------------
- .7z ANSI-C Decoder:
- now it supports BCJ and BCJ2 filters
- now it supports files larger than 4 GB.
- now it supports "Last Write Time" field for files.
- C++ code for .7z archives compressing/decompressing from 7-zip
was included to LZMA SDK.
4.32 2005-12-09
-------------------------
- Java version of LZMA SDK was included
4.43 2006-06-04
-------------------------
- Small changes for more compatibility with some C/C++ compilers.
4.30 2005-11-20
-------------------------
- Compression ratio was improved in -a2 mode
- Speed optimizations for compressing in -a2 mode
- -fb switch now supports values up to 273
- Bug in 7z_C (7zIn.c) was fixed:
It used Alloc/Free functions from different memory pools.
So if program used two memory pools, it worked incorrectly.
- 7z_C: .7z format supporting was improved
- LZMA# SDK (C#.NET version) was included
4.42 2006-05-15
-------------------------
- Small changes in .h files in ANSI-C version.
4.27 (Updated) 2005-09-21
-------------------------
- Some GUIDs/interfaces in C++ were changed.
IStream.h:
ISequentialInStream::Read now works as old ReadPart
ISequentialOutStream::Write now works as old WritePart
4.39 beta 2006-04-14
-------------------------
- The bug in versions 4.33b:4.38b was fixed:
C++ version of LZMA encoder could not correctly compress
files larger than 2 GB with HC4 match finder (-mfhc4).
4.27 2005-08-07
-------------------------
- Bug in LzmaDecodeSize.c was fixed:
if _LZMA_IN_CB and _LZMA_OUT_READ were defined,
decompressing worked incorrectly.
4.37 beta 2005-04-06
-------------------------
- Fixes in C++ code: code could no be compiled if _NO_EXCEPTIONS was defined.
4.26 2005-08-05
-------------------------
- Fixes in 7z_C code and LzmaTest.c:
previous versions could work incorrectly,
if malloc(0) returns 0
4.35 beta 2005-03-02
-------------------------
- The bug was fixed in C++ version of LZMA Decoder:
If encoded stream was corrupted, decoder could access memory
outside of allocated range.
4.23 2005-06-29
-------------------------
- Small fixes in C++ code
4.34 beta 2006-02-27
-------------------------
- Compressing speed and memory requirements for compressing were increased
- LZMA now can use only these match finders: HC4, BT2, BT3, BT4
4.22 2005-06-10
-------------------------
- Small fixes
4.32 2005-12-09
-------------------------
- Java version of LZMA SDK was included
4.21 2005-06-08
-------------------------
- Interfaces for ANSI-C LZMA Decoder (LzmaDecode.c) were changed
- New additional version of ANSI-C LZMA Decoder with zlib-like interface:
- LzmaStateDecode.h
- LzmaStateDecode.c
- LzmaStateTest.c
- ANSI-C LZMA Decoder now can decompress files larger than 4 GB
4.30 2005-11-20
-------------------------
- Compression ratio was improved in -a2 mode
- Speed optimizations for compressing in -a2 mode
- -fb switch now supports values up to 273
- The bug in 7z_C (7zIn.c) was fixed:
It used Alloc/Free functions from different memory pools.
So if program used two memory pools, it worked incorrectly.
- 7z_C: .7z format supporting was improved
- LZMA# SDK (C#.NET version) was included
4.17 2005-04-18
-------------------------
- New example for RAM->RAM compressing/decompressing:
LZMA + BCJ (filter for x86 code):
- LzmaRam.h
- LzmaRam.cpp
- LzmaRamDecode.h
- LzmaRamDecode.c
- -f86 switch for lzma.exe
4.27 (Updated) 2005-09-21
-------------------------
- Some GUIDs/interfaces in C++ were changed.
IStream.h:
ISequentialInStream::Read now works as old ReadPart
ISequentialOutStream::Write now works as old WritePart
4.16 2005-03-29
-------------------------
- Bug was fixed in LzmaDecode.c (ANSI-C LZMA Decoder):
If _LZMA_OUT_READ was defined, and if encoded stream was corrupted,
decoder could access memory outside of allocated range.
- Speed optimization of ANSI-C LZMA Decoder (now it's about 20% faster).
Old version of LZMA Decoder now is in file LzmaDecodeSize.c.
LzmaDecodeSize.c can provide slightly smaller code than LzmaDecode.c
- Small speed optimization in LZMA C++ code
- filter for SPARC's code was added
- Simplified version of .7z ANSI-C Decoder was included
4.27 2005-08-07
-------------------------
- The bug in LzmaDecodeSize.c was fixed:
if _LZMA_IN_CB and _LZMA_OUT_READ were defined,
decompressing worked incorrectly.
4.06 2004-09-05
-------------------------
- Bug in v4.05 was fixed:
LZMA-Encoder didn't release output stream in some cases.
4.26 2005-08-05
-------------------------
- Fixes in 7z_C code and LzmaTest.c:
previous versions could work incorrectly,
if malloc(0) returns 0
4.05 2004-08-25
-------------------------
- Source code of filters for x86, IA-64, ARM, ARM-Thumb
and PowerPC code was included to SDK
- Some internal minor changes
4.23 2005-06-29
-------------------------
- Small fixes in C++ code
4.04 2004-07-28
-------------------------
- More compatibility with some C++ compilers
4.22 2005-06-10
-------------------------
- Small fixes
4.03 2004-06-18
-------------------------
- "Benchmark" command was added. It measures compressing
and decompressing speed and shows rating values.
Also it checks hardware errors.
4.21 2005-06-08
-------------------------
- Interfaces for ANSI-C LZMA Decoder (LzmaDecode.c) were changed
- New additional version of ANSI-C LZMA Decoder with zlib-like interface:
- LzmaStateDecode.h
- LzmaStateDecode.c
- LzmaStateTest.c
- ANSI-C LZMA Decoder now can decompress files larger than 4 GB
4.02 2004-06-10
-------------------------
- C++ LZMA Encoder/Decoder code now is more portable
and it can be compiled by GCC on Linux.
4.17 2005-04-18
-------------------------
- New example for RAM->RAM compressing/decompressing:
LZMA + BCJ (filter for x86 code):
- LzmaRam.h
- LzmaRam.cpp
- LzmaRamDecode.h
- LzmaRamDecode.c
- -f86 switch for lzma.exe
4.01 2004-02-15
-------------------------
- Some detection of data corruption was enabled.
LzmaDecode.c / RangeDecoderReadByte
.....
{
rd->ExtraBytes = 1;
return 0xFF;
}
4.16 2005-03-29
-------------------------
- The bug was fixed in LzmaDecode.c (ANSI-C LZMA Decoder):
If _LZMA_OUT_READ was defined, and if encoded stream was corrupted,
decoder could access memory outside of allocated range.
- Speed optimization of ANSI-C LZMA Decoder (now it's about 20% faster).
Old version of LZMA Decoder now is in file LzmaDecodeSize.c.
LzmaDecodeSize.c can provide slightly smaller code than LzmaDecode.c
- Small speed optimization in LZMA C++ code
- filter for SPARC's code was added
- Simplified version of .7z ANSI-C Decoder was included
4.00 2004-02-13
-------------------------
- Original version of LZMA SDK
4.06 2004-09-05
-------------------------
- The bug in v4.05 was fixed:
LZMA-Encoder didn't release output stream in some cases.
4.05 2004-08-25
-------------------------
- Source code of filters for x86, IA-64, ARM, ARM-Thumb
and PowerPC code was included to SDK
- Some internal minor changes
4.04 2004-07-28
-------------------------
- More compatibility with some C++ compilers
4.03 2004-06-18
-------------------------
- "Benchmark" command was added. It measures compressing
and decompressing speed and shows rating values.
Also it checks hardware errors.
4.02 2004-06-10
-------------------------
- C++ LZMA Encoder/Decoder code now is more portable
and it can be compiled by GCC on Linux.
4.01 2004-02-15
-------------------------
- Some detection of data corruption was enabled.
LzmaDecode.c / RangeDecoderReadByte
.....
{
rd->ExtraBytes = 1;
return 0xFF;
}
4.00 2004-02-13
-------------------------
- Original version of LZMA SDK
HISTORY of the LZMA
-------------------
2001-2007: Improvements to LZMA compressing/decompressing code,
keeping compatibility with original LZMA format
2001-2008: Improvements to LZMA compressing/decompressing code,
keeping compatibility with original LZMA format
1996-2001: Development of LZMA compression format
Some milestones:

View file

@ -17,14 +17,12 @@ fi
BASENAME=`basename $1 .tar.bz2`
TMPDIR=/tmp/tmp_lib_$BASENAME
FILES="C/Compress/Lzma/LzmaDecode.h
C/Compress/Lzma/LzmaTypes.h
C/Compress/Lzma/LzmaDecode.c
FILES="C/LzmaDec.h
C/Types.h
C/LzmaDec.c
history.txt
LGPL.txt
lzma.txt"
mkdir -p $TMPDIR
echo "Untar $1 -> $TMPDIR"
tar -jxf $1 -C $TMPDIR

View file

@ -0,0 +1,3 @@
License
LZMA SDK is placed in the public domain.

View file

@ -1,8 +1,6 @@
LZMA SDK 4.57
LZMA SDK 4.65
-------------
LZMA SDK Copyright (C) 1999-2007 Igor Pavlov
LZMA SDK provides the documentation, samples, header files, libraries,
and tools you need to develop applications that use LZMA compression.
@ -20,70 +18,7 @@ decompressing.
LICENSE
-------
LZMA SDK is available under any of the following licenses:
1) GNU Lesser General Public License (GNU LGPL)
2) Common Public License (CPL)
3) Simplified license for unmodified code (read SPECIAL EXCEPTION)
4) Proprietary license
It means that you can select one of these four options and follow rules of that license.
1,2) GNU LGPL and CPL licenses are pretty similar and both these
licenses are classified as
- "Free software licenses" at http://www.gnu.org/
- "OSI-approved" at http://www.opensource.org/
3) SPECIAL EXCEPTION
Igor Pavlov, as the author of this code, expressly permits you
to statically or dynamically link your code (or bind by name)
to the files from LZMA SDK without subjecting your linked
code to the terms of the CPL or GNU LGPL.
Any modifications or additions to files from LZMA SDK, however,
are subject to the GNU LGPL or CPL terms.
SPECIAL EXCEPTION allows you to use LZMA SDK in applications with closed code,
while you keep LZMA SDK code unmodified.
SPECIAL EXCEPTION #2: Igor Pavlov, as the author of this code, expressly permits
you to use this code under the same terms and conditions contained in the License
Agreement you have for any previous version of LZMA SDK developed by Igor Pavlov.
SPECIAL EXCEPTION #2 allows owners of proprietary licenses to use latest version
of LZMA SDK as update for previous versions.
SPECIAL EXCEPTION #3: Igor Pavlov, as the author of this code, expressly permits
you to use code of the following files:
BranchTypes.h, LzmaTypes.h, LzmaTest.c, LzmaStateTest.c, LzmaAlone.cpp,
LzmaAlone.cs, LzmaAlone.java
as public domain code.
4) Proprietary license
LZMA SDK also can be available under a proprietary license which
can include:
1) Right to modify code without subjecting modified code to the
terms of the CPL or GNU LGPL
2) Technical support for code
To request such proprietary license or any additional consultations,
send email message from that page:
http://www.7-zip.org/support.html
You should have received a copy of the GNU Lesser General Public
License along with this library; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
You should have received a copy of the Common Public License
along with this library.
LZMA SDK is written and placed in the public domain by Igor Pavlov.
LZMA SDK Contents
@ -91,87 +26,71 @@ LZMA SDK Contents
LZMA SDK includes:
- C++ source code of LZMA compressing and decompressing
- ANSI-C compatible source code for LZMA decompressing
- C# source code for LZMA compressing and decompressing
- Java source code for LZMA compressing and decompressing
- ANSI-C/C++/C#/Java source code for LZMA compressing and decompressing
- Compiled file->file LZMA compressing/decompressing program for Windows system
ANSI-C LZMA decompression code was ported from original C++ sources to C.
Also it was simplified and optimized for code size.
But it is fully compatible with LZMA from 7-Zip.
UNIX/Linux version
------------------
To compile C++ version of file->file LZMA, go to directory
C/7zip/Compress/LZMA_Alone
and type "make" or "make clean all" to recompile all.
To compile C++ version of file->file LZMA encoding, go to directory
C++/7zip/Compress/LZMA_Alone
and call make to recompile it:
make -f makefile.gcc clean all
In some UNIX/Linux versions you must compile LZMA with static libraries.
To compile with static libraries, change string in makefile
LIB = -lm
to string
To compile with static libraries, you can use
LIB = -lm -static
Files
---------------------
C - C source code
CPP - CPP source code
CS - C# source code
Java - Java source code
lzma.txt - LZMA SDK description (this file)
lzma.txt - LZMA SDK description (this file)
7zFormat.txt - 7z Format description
7zC.txt - 7z ANSI-C Decoder description (this file)
7zC.txt - 7z ANSI-C Decoder description
methods.txt - Compression method IDs for .7z
LGPL.txt - GNU Lesser General Public License
CPL.html - Common Public License
lzma.exe - Compiled file->file LZMA encoder/decoder for Windows
history.txt - history of the LZMA SDK
lzma.exe - Compiled file->file LZMA encoder/decoder for Windows
history.txt - history of the LZMA SDK
Source code structure
---------------------
C - C files
Compress - files related to compression/decompression
Lz - files related to LZ (Lempel-Ziv) compression algorithm
Lzma - ANSI-C compatible LZMA decompressor
C/ - C files
7zCrc*.* - CRC code
Alloc.* - Memory allocation functions
Bra*.* - Filters for x86, IA-64, ARM, ARM-Thumb, PowerPC and SPARC code
LzFind.* - Match finder for LZ (LZMA) encoders
LzFindMt.* - Match finder for LZ (LZMA) encoders for multithreading encoding
LzHash.h - Additional file for LZ match finder
LzmaDec.* - LZMA decoding
LzmaEnc.* - LZMA encoding
LzmaLib.* - LZMA Library for DLL calling
Types.h - Basic types for another .c files
Threads.* - The code for multithreading.
LzmaDecode.h - interface for LZMA decoding on ANSI-C
LzmaDecode.c - LZMA decoding on ANSI-C (new fastest version)
LzmaDecodeSize.c - LZMA decoding on ANSI-C (old size-optimized version)
LzmaTest.c - test application that decodes LZMA encoded file
LzmaTypes.h - basic types for LZMA Decoder
LzmaStateDecode.h - interface for LZMA decoding (State version)
LzmaStateDecode.c - LZMA decoding on ANSI-C (State version)
LzmaStateTest.c - test application (State version)
LzmaLib - LZMA Library (.DLL for Windows)
Branch - Filters for x86, IA-64, ARM, ARM-Thumb, PowerPC and SPARC code
LzmaUtil - LZMA Utility (file->file LZMA encoder/decoder).
Archive - files related to archiving
7z_C - 7z ANSI-C Decoder
7z - 7z ANSI-C Decoder
CPP -- CPP files
CPP/ -- CPP files
Common - common files for C++ projects
Windows - common files for Windows related code
7zip - files related to 7-Zip Project
7zip - files related to 7-Zip Project
Common - common files for 7-Zip
Compress - files related to compression/decompression
LZ - files related to LZ (Lempel-Ziv) compression algorithm
Copy - Copy coder
Copy - Copy coder
RangeCoder - Range Coder (special code of compression/decompression)
LZMA - LZMA compression/decompression on C++
LZMA - LZMA compression/decompression on C++
LZMA_Alone - file->file LZMA compression/decompression
Branch - Filters for x86, IA-64, ARM, ARM-Thumb, PowerPC and SPARC code
Branch - Filters for x86, IA-64, ARM, ARM-Thumb, PowerPC and SPARC code
Archive - files related to archiving
@ -180,67 +99,61 @@ CPP -- CPP files
Bundles - Modules that are bundles of other modules
Alone7z - 7zr.exe: Standalone version of 7z.exe that supports only 7z/LZMA/BCJ/BCJ2
Format7zR - 7zr.dll: Reduced version of 7za.dll: extracting/compressing to 7z/LZMA/BCJ/BCJ2
Format7zExtractR - 7zxr.dll: Reduced version of 7zxa.dll: extracting from 7z/LZMA/BCJ/BCJ2.
Alone7z - 7zr.exe: Standalone version of 7z.exe that supports only 7z/LZMA/BCJ/BCJ2
Format7zR - 7zr.dll: Reduced version of 7za.dll: extracting/compressing to 7z/LZMA/BCJ/BCJ2
Format7zExtractR - 7zxr.dll: Reduced version of 7zxa.dll: extracting from 7z/LZMA/BCJ/BCJ2.
UI - User Interface files
UI - User Interface files
Client7z - Test application for 7za.dll, 7zr.dll, 7zxr.dll
Client7z - Test application for 7za.dll, 7zr.dll, 7zxr.dll
Common - Common UI files
Console - Code for console archiver
CS - C# files
CS/ - C# files
7zip
Common - some common files for 7-Zip
Compress - files related to compression/decompression
LZ - files related to LZ (Lempel-Ziv) compression algorithm
LZMA - LZMA compression/decompression
LZMA - LZMA compression/decompression
LzmaAlone - file->file LZMA compression/decompression
RangeCoder - Range Coder (special code of compression/decompression)
Java - Java files
Java/ - Java files
SevenZip
Compression - files related to compression/decompression
LZ - files related to LZ (Lempel-Ziv) compression algorithm
LZMA - LZMA compression/decompression
LZ - files related to LZ (Lempel-Ziv) compression algorithm
LZMA - LZMA compression/decompression
RangeCoder - Range Coder (special code of compression/decompression)
C/C++ source code of LZMA SDK is part of 7-Zip project.
You can find ANSI-C LZMA decompressing code at folder
C/7zip/Compress/Lzma
7-Zip doesn't use that ANSI-C LZMA code and that code was developed
specially for this SDK. And files from C/7zip/Compress/Lzma do not need
files from other directories of SDK for compiling.
7-Zip source code can be downloaded from 7-Zip's SourceForge page:
http://sourceforge.net/projects/sevenzip/
LZMA features
-------------
- Variable dictionary size (up to 1 GB)
- Estimated compressing speed: about 1 MB/s on 1 GHz CPU
- Estimated compressing speed: about 2 MB/s on 2 GHz CPU
- Estimated decompressing speed:
- 8-12 MB/s on 1 GHz Intel Pentium 3 or AMD Athlon
- 500-1000 KB/s on 100 MHz ARM, MIPS, PowerPC or other simple RISC
- Small memory requirements for decompressing (8-32 KB + DictionarySize)
- Small code size for decompressing: 2-8 KB (depending from
speed optimizations)
- 20-30 MB/s on 2 GHz Core 2 or AMD Athlon 64
- 1-2 MB/s on 200 MHz ARM, MIPS, PowerPC or other simple RISC
- Small memory requirements for decompressing (16 KB + DictionarySize)
- Small code size for decompressing: 5-8 KB
LZMA decoder uses only integer operations and can be
implemented in any modern 32-bit CPU (or on 16-bit CPU with some conditions).
Some critical operations that affect to speed of LZMA decompression:
Some critical operations that affect the speed of LZMA decompression:
1) 32*16 bit integer multiply
2) Misspredicted branches (penalty mostly depends from pipeline length)
3) 32-bit shift and arithmetic operations
Speed of LZMA decompressing mostly depends from CPU speed.
The speed of LZMA decompressing mostly depends from CPU speed.
Memory speed has no big meaning. But if your CPU has small data cache,
overall weight of memory speed will slightly increase.
@ -251,7 +164,7 @@ How To Use
Using LZMA encoder/decoder executable
--------------------------------------
Usage: LZMA <e|d> inputFile outputFile [<switches>...]
Usage: LZMA <e|d> inputFile outputFile [<switches>...]
e: encode file
@ -260,11 +173,11 @@ Usage: LZMA <e|d> inputFile outputFile [<switches>...]
b: Benchmark. There are two tests: compressing and decompressing
with LZMA method. Benchmark shows rating in MIPS (million
instructions per second). Rating value is calculated from
measured speed and it is normalized with AMD Athlon 64 X2 CPU
results. Also Benchmark checks possible hardware errors (RAM
measured speed and it is normalized with Intel's Core 2 results.
Also Benchmark checks possible hardware errors (RAM
errors in most cases). Benchmark uses these settings:
(-a1, -d21, -fb32, -mfbt4). You can change only -d. Also you
can change number of iterations. Example for 30 iterations:
(-a1, -d21, -fb32, -mfbt4). You can change only -d parameter.
Also you can change the number of iterations. Example for 30 iterations:
LZMA b 30
Default number of iterations is 10.
@ -272,52 +185,52 @@ Usage: LZMA <e|d> inputFile outputFile [<switches>...]
-a{N}: set compression mode 0 = fast, 1 = normal
default: 1 (normal)
default: 1 (normal)
d{N}: Sets Dictionary size - [0, 30], default: 23 (8MB)
The maximum value for dictionary size is 1 GB = 2^30 bytes.
Dictionary size is calculated as DictionarySize = 2^N bytes.
For decompressing file compressed by LZMA method with dictionary
size D = 2^N you need about D bytes of memory (RAM).
The maximum value for dictionary size is 1 GB = 2^30 bytes.
Dictionary size is calculated as DictionarySize = 2^N bytes.
For decompressing file compressed by LZMA method with dictionary
size D = 2^N you need about D bytes of memory (RAM).
-fb{N}: set number of fast bytes - [5, 273], default: 128
Usually big number gives a little bit better compression ratio
and slower compression process.
Usually big number gives a little bit better compression ratio
and slower compression process.
-lc{N}: set number of literal context bits - [0, 8], default: 3
Sometimes lc=4 gives gain for big files.
Sometimes lc=4 gives gain for big files.
-lp{N}: set number of literal pos bits - [0, 4], default: 0
lp switch is intended for periodical data when period is
equal 2^N. For example, for 32-bit (4 bytes)
periodical data you can use lp=2. Often it's better to set lc0,
if you change lp switch.
lp switch is intended for periodical data when period is
equal 2^N. For example, for 32-bit (4 bytes)
periodical data you can use lp=2. Often it's better to set lc0,
if you change lp switch.
-pb{N}: set number of pos bits - [0, 4], default: 2
pb switch is intended for periodical data
when period is equal 2^N.
pb switch is intended for periodical data
when period is equal 2^N.
-mf{MF_ID}: set Match Finder. Default: bt4.
Algorithms from hc* group doesn't provide good compression
ratio, but they often works pretty fast in combination with
fast mode (-a0).
Algorithms from hc* group doesn't provide good compression
ratio, but they often works pretty fast in combination with
fast mode (-a0).
Memory requirements depend from dictionary size
(parameter "d" in table below).
Memory requirements depend from dictionary size
(parameter "d" in table below).
MF_ID Memory Description
MF_ID Memory Description
bt2 d * 9.5 + 4MB Binary Tree with 2 bytes hashing.
bt3 d * 11.5 + 4MB Binary Tree with 3 bytes hashing.
bt4 d * 11.5 + 4MB Binary Tree with 4 bytes hashing.
hc4 d * 7.5 + 4MB Hash Chain with 4 bytes hashing.
bt2 d * 9.5 + 4MB Binary Tree with 2 bytes hashing.
bt3 d * 11.5 + 4MB Binary Tree with 3 bytes hashing.
bt4 d * 11.5 + 4MB Binary Tree with 4 bytes hashing.
hc4 d * 7.5 + 4MB Hash Chain with 4 bytes hashing.
-eos: write End Of Stream marker. By default LZMA doesn't write
eos marker, since LZMA decoder knows uncompressed size
stored in .lzma file header.
eos marker, since LZMA decoder knows uncompressed size
stored in .lzma file header.
-si: Read data from stdin (it will write End Of Stream marker).
-so: Write data to stdout
-si: Read data from stdin (it will write End Of Stream marker).
-so: Write data to stdout
Examples:
@ -345,32 +258,29 @@ Compression ratio hints
Recommendations
---------------
To increase compression ratio for LZMA compressing it's desirable
To increase the compression ratio for LZMA compressing it's desirable
to have aligned data (if it's possible) and also it's desirable to locate
data in such order, where code is grouped in one place and data is
grouped in other place (it's better than such mixing: code, data, code,
data, ...).
Using Filters
-------------
You can increase compression ratio for some data types, using
Filters
-------
You can increase the compression ratio for some data types, using
special filters before compressing. For example, it's possible to
increase compression ratio on 5-10% for code for those CPU ISAs:
increase the compression ratio on 5-10% for code for those CPU ISAs:
x86, IA-64, ARM, ARM-Thumb, PowerPC, SPARC.
You can find C/C++ source code of such filters in folder "7zip/Compress/Branch"
You can find C source code of such filters in C/Bra*.* files
You can check compression ratio gain of these filters with such
You can check the compression ratio gain of these filters with such
7-Zip commands (example for ARM code):
No filter:
7z a a1.7z a.bin -m0=lzma
With filter for little-endian ARM code:
7z a a2.7z a.bin -m0=bc_arm -m1=lzma
With filter for big-endian ARM code (using additional Swap4 filter):
7z a a3.7z a.bin -m0=swap4 -m1=bc_arm -m2=lzma
7z a a2.7z a.bin -m0=arm -m1=lzma
It works in such manner:
Compressing = Filter_encoding + LZMA_encoding
@ -383,8 +293,7 @@ since compression ratio with filtering is higher.
These filters convert CALL (calling procedure) instructions
from relative offsets to absolute addresses, so such data becomes more
compressible. Source code of these CALL filters is pretty simple
(about 20 lines of C++), so you can convert it from C++ version yourself.
compressible.
For some ISAs (for example, for MIPS) it's impossible to get gain from such filter.
@ -392,272 +301,294 @@ For some ISAs (for example, for MIPS) it's impossible to get gain from such filt
LZMA compressed file format
---------------------------
Offset Size Description
0 1 Special LZMA properties for compressed data
1 4 Dictionary size (little endian)
5 8 Uncompressed size (little endian). -1 means unknown size
13 Compressed data
0 1 Special LZMA properties (lc,lp, pb in encoded form)
1 4 Dictionary size (little endian)
5 8 Uncompressed size (little endian). -1 means unknown size
13 Compressed data
ANSI-C LZMA Decoder
~~~~~~~~~~~~~~~~~~~
To compile ANSI-C LZMA Decoder you can use one of the following files sets:
1) LzmaDecode.h + LzmaDecode.c + LzmaTest.c (fastest version)
2) LzmaDecode.h + LzmaDecodeSize.c + LzmaTest.c (old size-optimized version)
3) LzmaStateDecode.h + LzmaStateDecode.c + LzmaStateTest.c (zlib-like interface)
Please note that interfaces for ANSI-C code were changed in LZMA SDK 4.58.
If you want to use old interfaces you can download previous version of LZMA SDK
from sourceforge.net site.
To use ANSI-C LZMA Decoder you need the following files:
1) LzmaDec.h + LzmaDec.c + Types.h
LzmaUtil/LzmaUtil.c is example application that uses these files.
Memory requirements for LZMA decoding
-------------------------------------
LZMA decoder doesn't allocate memory itself, so you must
allocate memory and send it to LZMA.
Stack usage of LZMA decoding function for local variables is not
larger than 200 bytes.
larger than 200-400 bytes.
LZMA Decoder uses dictionary buffer and internal state structure.
Internal state structure consumes
state_size = (4 + (1.5 << (lc + lp))) KB
by default (lc=3, lp=0), state_size = 16 KB.
How To decompress data
----------------------
LZMA Decoder (ANSI-C version) now supports 5 interfaces:
LZMA Decoder (ANSI-C version) now supports 2 interfaces:
1) Single-call Decompressing
2) Single-call Decompressing with input stream callback
3) Multi-call Decompressing with output buffer
4) Multi-call Decompressing with input callback and output buffer
5) Multi-call State Decompressing (zlib-like interface)
2) Multi-call State Decompressing (zlib-like interface)
Variant-5 is similar to Variant-4, but Variant-5 doesn't use callback functions.
You must use external allocator:
Example:
void *SzAlloc(void *p, size_t size) { p = p; return malloc(size); }
void SzFree(void *p, void *address) { p = p; free(address); }
ISzAlloc alloc = { SzAlloc, SzFree };
Decompressing steps
-------------------
1) read LZMA properties (5 bytes):
unsigned char properties[LZMA_PROPERTIES_SIZE];
2) read uncompressed size (8 bytes, little-endian)
3) Decode properties:
CLzmaDecoderState state; /* it's 24-140 bytes structure, if int is 32-bit */
if (LzmaDecodeProperties(&state.Properties, properties, LZMA_PROPERTIES_SIZE) != LZMA_RESULT_OK)
return PrintError(rs, "Incorrect stream properties");
4) Allocate memory block for internal Structures:
state.Probs = (CProb *)malloc(LzmaGetNumProbs(&state.Properties) * sizeof(CProb));
if (state.Probs == 0)
return PrintError(rs, kCantAllocateMessage);
LZMA decoder uses array of CProb variables as internal structure.
By default, CProb is unsigned_short. But you can define _LZMA_PROB32 to make
it unsigned_int. It can increase speed on some 32-bit CPUs, but memory
usage will be doubled in that case.
You can use p = p; operator to disable compiler warnings.
5) Main Decompressing
You must use one of the following interfaces:
5.1 Single-call Decompressing
-----------------------------
Single-call Decompressing
-------------------------
When to use: RAM->RAM decompressing
Compile files: LzmaDecode.h, LzmaDecode.c
Compile files: LzmaDec.h + LzmaDec.c + Types.h
Compile defines: no defines
Memory Requirements:
- Input buffer: compressed size
- Output buffer: uncompressed size
- LZMA Internal Structures (~16 KB for default settings)
- LZMA Internal Structures: state_size (16 KB for default settings)
Interface:
int res = LzmaDecode(&state,
inStream, compressedSize, &inProcessed,
outStream, outSize, &outProcessed);
int LzmaDecode(Byte *dest, SizeT *destLen, const Byte *src, SizeT *srcLen,
const Byte *propData, unsigned propSize, ELzmaFinishMode finishMode,
ELzmaStatus *status, ISzAlloc *alloc);
In:
dest - output data
destLen - output data size
src - input data
srcLen - input data size
propData - LZMA properties (5 bytes)
propSize - size of propData buffer (5 bytes)
finishMode - It has meaning only if the decoding reaches output limit (*destLen).
LZMA_FINISH_ANY - Decode just destLen bytes.
LZMA_FINISH_END - Stream must be finished after (*destLen).
You can use LZMA_FINISH_END, when you know that
current output buffer covers last bytes of stream.
alloc - Memory allocator.
Out:
destLen - processed output size
srcLen - processed input size
Output:
SZ_OK
status:
LZMA_STATUS_FINISHED_WITH_MARK
LZMA_STATUS_NOT_FINISHED
LZMA_STATUS_MAYBE_FINISHED_WITHOUT_MARK
SZ_ERROR_DATA - Data error
SZ_ERROR_MEM - Memory allocation error
SZ_ERROR_UNSUPPORTED - Unsupported properties
SZ_ERROR_INPUT_EOF - It needs more bytes in input buffer (src).
If LZMA decoder sees end_marker before reaching output limit, it returns OK result,
and output value of destLen will be less than output buffer size limit.
You can use multiple checks to test data integrity after full decompression:
1) Check Result and "status" variable.
2) Check that output(destLen) = uncompressedSize, if you know real uncompressedSize.
3) Check that output(srcLen) = compressedSize, if you know real compressedSize.
You must use correct finish mode in that case. */
5.2 Single-call Decompressing with input stream callback
--------------------------------------------------------
When to use: File->RAM or Flash->RAM decompressing.
Compile files: LzmaDecode.h, LzmaDecode.c
Compile defines: _LZMA_IN_CB
Memory Requirements:
- Buffer for input stream: any size (for example, 16 KB)
- Output buffer: uncompressed size
- LZMA Internal Structures (~16 KB for default settings)
Multi-call State Decompressing (zlib-like interface)
----------------------------------------------------
Interface:
typedef struct _CBuffer
{
ILzmaInCallback InCallback;
FILE *File;
unsigned char Buffer[kInBufferSize];
} CBuffer;
int LzmaReadCompressed(void *object, const unsigned char **buffer, SizeT *size)
{
CBuffer *bo = (CBuffer *)object;
*buffer = bo->Buffer;
*size = MyReadFile(bo->File, bo->Buffer, kInBufferSize);
return LZMA_RESULT_OK;
}
CBuffer g_InBuffer;
g_InBuffer.File = inFile;
g_InBuffer.InCallback.Read = LzmaReadCompressed;
int res = LzmaDecode(&state,
&g_InBuffer.InCallback,
outStream, outSize, &outProcessed);
5.3 Multi-call decompressing with output buffer
-----------------------------------------------
When to use: RAM->File decompressing
Compile files: LzmaDecode.h, LzmaDecode.c
Compile defines: _LZMA_OUT_READ
Memory Requirements:
- Input buffer: compressed size
- Buffer for output stream: any size (for example, 16 KB)
- LZMA Internal Structures (~16 KB for default settings)
- LZMA dictionary (dictionary size is encoded in stream properties)
Interface:
state.Dictionary = (unsigned char *)malloc(state.Properties.DictionarySize);
LzmaDecoderInit(&state);
do
{
LzmaDecode(&state,
inBuffer, inAvail, &inProcessed,
g_OutBuffer, outAvail, &outProcessed);
inAvail -= inProcessed;
inBuffer += inProcessed;
}
while you need more bytes
see LzmaTest.c for more details.
5.4 Multi-call decompressing with input callback and output buffer
------------------------------------------------------------------
When to use: File->File decompressing
Compile files: LzmaDecode.h, LzmaDecode.c
Compile defines: _LZMA_IN_CB, _LZMA_OUT_READ
Memory Requirements:
- Buffer for input stream: any size (for example, 16 KB)
- Buffer for output stream: any size (for example, 16 KB)
- LZMA Internal Structures (~16 KB for default settings)
- LZMA dictionary (dictionary size is encoded in stream properties)
Interface:
state.Dictionary = (unsigned char *)malloc(state.Properties.DictionarySize);
LzmaDecoderInit(&state);
do
{
LzmaDecode(&state,
&bo.InCallback,
g_OutBuffer, outAvail, &outProcessed);
}
while you need more bytes
see LzmaTest.c for more details:
5.5 Multi-call State Decompressing (zlib-like interface)
------------------------------------------------------------------
When to use: file->file decompressing
Compile files: LzmaStateDecode.h, LzmaStateDecode.c
Compile defines:
Compile files: LzmaDec.h + LzmaDec.c + Types.h
Memory Requirements:
- Buffer for input stream: any size (for example, 16 KB)
- Buffer for output stream: any size (for example, 16 KB)
- LZMA Internal Structures (~16 KB for default settings)
- LZMA dictionary (dictionary size is encoded in stream properties)
- LZMA Internal Structures: state_size (16 KB for default settings)
- LZMA dictionary (dictionary size is encoded in LZMA properties header)
Interface:
1) read LZMA properties (5 bytes) and uncompressed size (8 bytes, little-endian) to header:
unsigned char header[LZMA_PROPS_SIZE + 8];
ReadFile(inFile, header, sizeof(header)
state.Dictionary = (unsigned char *)malloc(state.Properties.DictionarySize);
2) Allocate CLzmaDec structures (state + dictionary) using LZMA properties
CLzmaDec state;
LzmaDec_Constr(&state);
res = LzmaDec_Allocate(&state, header, LZMA_PROPS_SIZE, &g_Alloc);
if (res != SZ_OK)
return res;
LzmaDecoderInit(&state);
do
3) Init LzmaDec structure before any new LZMA stream. And call LzmaDec_DecodeToBuf in loop
LzmaDec_Init(&state);
for (;;)
{
res = LzmaDecode(&state,
inBuffer, inAvail, &inProcessed,
g_OutBuffer, outAvail, &outProcessed,
finishDecoding);
inAvail -= inProcessed;
inBuffer += inProcessed;
...
int res = LzmaDec_DecodeToBuf(CLzmaDec *p, Byte *dest, SizeT *destLen,
const Byte *src, SizeT *srcLen, ELzmaFinishMode finishMode);
...
}
while you need more bytes
see LzmaStateTest.c for more details:
6) Free all allocated blocks
4) Free all allocated structures
LzmaDec_Free(&state, &g_Alloc);
For full code example, look at C/LzmaUtil/LzmaUtil.c code.
Note
----
LzmaDecodeSize.c is size-optimized version of LzmaDecode.c.
But compiled code of LzmaDecodeSize.c can be larger than
compiled code of LzmaDecode.c. So it's better to use
LzmaDecode.c in most cases.
How To compress data
--------------------
Compile files: LzmaEnc.h + LzmaEnc.c + Types.h +
LzFind.c + LzFind.h + LzFindMt.c + LzFindMt.h + LzHash.h
Memory Requirements:
- (dictSize * 11.5 + 6 MB) + state_size
Lzma Encoder can use two memory allocators:
1) alloc - for small arrays.
2) allocBig - for big arrays.
For example, you can use Large RAM Pages (2 MB) in allocBig allocator for
better compression speed. Note that Windows has bad implementation for
Large RAM Pages.
It's OK to use same allocator for alloc and allocBig.
EXIT codes
-----------
Single-call Compression with callbacks
--------------------------------------
LZMA decoder can return one of the following codes:
Check C/LzmaUtil/LzmaUtil.c as example,
#define LZMA_RESULT_OK 0
#define LZMA_RESULT_DATA_ERROR 1
When to use: file->file decompressing
If you use callback function for input data and you return some
error code, LZMA Decoder also returns that code.
1) you must implement callback structures for interfaces:
ISeqInStream
ISeqOutStream
ICompressProgress
ISzAlloc
static void *SzAlloc(void *p, size_t size) { p = p; return MyAlloc(size); }
static void SzFree(void *p, void *address) { p = p; MyFree(address); }
static ISzAlloc g_Alloc = { SzAlloc, SzFree };
CFileSeqInStream inStream;
CFileSeqOutStream outStream;
inStream.funcTable.Read = MyRead;
inStream.file = inFile;
outStream.funcTable.Write = MyWrite;
outStream.file = outFile;
2) Create CLzmaEncHandle object;
CLzmaEncHandle enc;
enc = LzmaEnc_Create(&g_Alloc);
if (enc == 0)
return SZ_ERROR_MEM;
3) initialize CLzmaEncProps properties;
LzmaEncProps_Init(&props);
Then you can change some properties in that structure.
4) Send LZMA properties to LZMA Encoder
res = LzmaEnc_SetProps(enc, &props);
5) Write encoded properties to header
Byte header[LZMA_PROPS_SIZE + 8];
size_t headerSize = LZMA_PROPS_SIZE;
UInt64 fileSize;
int i;
res = LzmaEnc_WriteProperties(enc, header, &headerSize);
fileSize = MyGetFileLength(inFile);
for (i = 0; i < 8; i++)
header[headerSize++] = (Byte)(fileSize >> (8 * i));
MyWriteFileAndCheck(outFile, header, headerSize)
6) Call encoding function:
res = LzmaEnc_Encode(enc, &outStream.funcTable, &inStream.funcTable,
NULL, &g_Alloc, &g_Alloc);
7) Destroy LZMA Encoder Object
LzmaEnc_Destroy(enc, &g_Alloc, &g_Alloc);
If callback function return some error code, LzmaEnc_Encode also returns that code.
Single-call RAM->RAM Compression
--------------------------------
Single-call RAM->RAM Compression is similar to Compression with callbacks,
but you provide pointers to buffers instead of pointers to stream callbacks:
HRes LzmaEncode(Byte *dest, SizeT *destLen, const Byte *src, SizeT srcLen,
CLzmaEncProps *props, Byte *propsEncoded, SizeT *propsSize, int writeEndMark,
ICompressProgress *progress, ISzAlloc *alloc, ISzAlloc *allocBig);
Return code:
SZ_OK - OK
SZ_ERROR_MEM - Memory allocation error
SZ_ERROR_PARAM - Incorrect paramater
SZ_ERROR_OUTPUT_EOF - output buffer overflow
SZ_ERROR_THREAD - errors in multithreading functions (only for Mt version)
LZMA Defines
------------
_LZMA_IN_CB - Use callback for input data
_LZMA_SIZE_OPT - Enable some optimizations in LZMA Decoder to get smaller executable code.
_LZMA_OUT_READ - Use read function for output data
_LZMA_PROB32 - It can increase the speed on some 32-bit CPUs, but memory usage for
some structures will be doubled in that case.
_LZMA_LOC_OPT - Enable local speed optimizations inside code.
_LZMA_LOC_OPT is only for LzmaDecodeSize.c (size-optimized version).
_LZMA_LOC_OPT doesn't affect LzmaDecode.c (speed-optimized version)
and LzmaStateDecode.c
_LZMA_PROB32 - It can increase speed on some 32-bit CPUs,
but memory usage will be doubled in that case
_LZMA_UINT32_IS_ULONG - Define it if int is 16-bit on your compiler
and long is 32-bit.
_LZMA_SYSTEM_SIZE_T - Define it if you want to use system's size_t.
You can use it to enable 64-bit sizes supporting
_LZMA_UINT32_IS_ULONG - Define it if int is 16-bit on your compiler and long is 32-bit.
_LZMA_NO_SYSTEM_SIZE_T - Define it if you don't want to use size_t type.
C++ LZMA Encoder/Decoder
~~~~~~~~~~~~~~~~~~~~~~~~
C++ LZMA code use COM-like interfaces. So if you want to use it,
you can study basics of COM/OLE.
C++ LZMA code is just wrapper over ANSI-C code.
By default, LZMA Encoder contains all Match Finders.
But for compressing it's enough to have just one of them.
So for reducing size of compressing code you can define:
#define COMPRESS_MF_BT
#define COMPRESS_MF_BT4
and it will use only bt4 match finder.
C++ Notes
~~~~~~~~~~~~~~~~~~~~~~~~
If you use some C++ code folders in 7-Zip (for example, C++ code for .7z handling),
you must check that you correctly work with "new" operator.
7-Zip can be compiled with MSVC 6.0 that doesn't throw "exception" from "new" operator.
So 7-Zip uses "CPP\Common\NewHandler.cpp" that redefines "new" operator:
operator new(size_t size)
{
void *p = ::malloc(size);
if (p == 0)
throw CNewException();
return p;
}
If you use MSCV that throws exception for "new" operator, you can compile without
"NewHandler.cpp". So standard exception will be used. Actually some code of
7-Zip catches any exception in internal code and converts it to HRESULT code.
So you don't need to catch CNewException, if you call COM interfaces of 7-Zip.
---
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