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ntfs-3g/ntfsprogs/ntfsinfo.c
Jean-Pierre André 3243e62396 Supported reparse tags for OneDrive cloud storage 
Newer versions of Windows 10 use several reparse tags for files which
are synchronized to OneDrive cloud storage (0x9000301a, 0x9000601a,
0x9000701a, ...). identify them as IO_REPARSE_TAG_CLOUD and use a
single plugin to process them.
2018-01-15 11:04:29 +01:00

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/**
* ntfsinfo - Part of the Linux-NTFS project.
*
* Copyright (c) 2002-2004 Matthew J. Fanto
* Copyright (c) 2002-2006 Anton Altaparmakov
* Copyright (c) 2002-2005 Richard Russon
* Copyright (c) 2003-2006 Szabolcs Szakacsits
* Copyright (c) 2004-2005 Yuval Fledel
* Copyright (c) 2004-2007 Yura Pakhuchiy
* Copyright (c) 2005 Cristian Klein
* Copyright (c) 2011-2018 Jean-Pierre Andre
*
* This utility will dump a file's attributes.
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program (in the main directory of the Linux-NTFS
* distribution in the file COPYING); if not, write to the Free Software
* Foundation,Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
/*
* TODO LIST:
* - Better error checking. (focus on ntfs_dump_volume)
* - Comment things better.
* - More things at verbose mode.
* - Dump ACLs when security_id exists (NTFS 3+ only).
* - Clean ups.
* - Internationalization.
* - Add more Indexed Attr Types.
* - Make formatting look more like www.flatcap.org/ntfs/info
*
* Still not dumping certain attributes. Need to find the best
* way to output some of these attributes.
*
* Still need to do:
* $REPARSE_POINT/$SYMBOLIC_LINK
* $LOGGED_UTILITY_STREAM
*/
#include "config.h"
#ifdef HAVE_STDIO_H
#include <stdio.h>
#endif
#ifdef HAVE_STDLIB_H
#include <stdlib.h>
#endif
#ifdef HAVE_STRING_H
#include <string.h>
#endif
#ifdef HAVE_TIME_H
#include <time.h>
#endif
#ifdef HAVE_GETOPT_H
#include <getopt.h>
#endif
#ifdef HAVE_ERRNO_H
#include <errno.h>
#endif
#include "types.h"
#include "mft.h"
#include "attrib.h"
#include "layout.h"
#include "inode.h"
#include "index.h"
#include "utils.h"
#include "security.h"
#include "mst.h"
#include "dir.h"
#include "ntfstime.h"
/* #include "version.h" */
#include "support.h"
#include "misc.h"
static const char *EXEC_NAME = "ntfsinfo";
static struct options {
const char *device; /* Device/File to work with */
const char *filename; /* Resolve this filename to mft number */
s64 inode; /* Info for this inode */
int quiet; /* Less output */
int verbose; /* Extra output */
int force; /* Override common sense */
int notime; /* Don't report timestamps at all */
int mft; /* Dump information about the volume as well */
} opts;
struct RUNCOUNT {
unsigned long runs;
unsigned long fragments;
} ;
/**
* version - Print version information about the program
*
* Print a copyright statement and a brief description of the program.
*
* Return: none
*/
static void version(void)
{
printf("\n%s v%s (libntfs-3g) - Display information about an NTFS "
"Volume.\n\n", EXEC_NAME, VERSION);
printf("Copyright (c)\n");
printf(" 2002-2004 Matthew J. Fanto\n");
printf(" 2002-2006 Anton Altaparmakov\n");
printf(" 2002-2005 Richard Russon\n");
printf(" 2003-2006 Szabolcs Szakacsits\n");
printf(" 2003 Leonard Norrgård\n");
printf(" 2004-2005 Yuval Fledel\n");
printf(" 2004-2007 Yura Pakhuchiy\n");
printf(" 2011-2018 Jean-Pierre Andre\n");
printf("\n%s\n%s%s\n", ntfs_gpl, ntfs_bugs, ntfs_home);
}
/**
* usage - Print a list of the parameters to the program
*
* Print a list of the parameters and options for the program.
*
* Return: none
*/
static void usage(void)
{
printf("\nUsage: %s [options] device\n"
" -i, --inode NUM Display information about this inode\n"
" -F, --file FILE Display information about this file (absolute path)\n"
" -m, --mft Dump information about the volume\n"
" -t, --notime Don't report timestamps\n"
"\n"
" -f, --force Use less caution\n"
" -q, --quiet Less output\n"
" -v, --verbose More output\n"
" -V, --version Display version information\n"
" -h, --help Display this help\n"
"\n",
EXEC_NAME);
printf("%s%s\n", ntfs_bugs, ntfs_home);
}
/**
* parse_options - Read and validate the programs command line
*
* Read the command line, verify the syntax and parse the options.
* This function is very long, but quite simple.
*
* Return: 1 Success
* 0 Error, one or more problems
*/
static int parse_options(int argc, char *argv[])
{
static const char *sopt = "-:dfhi:F:mqtTvV";
static const struct option lopt[] = {
{ "force", no_argument, NULL, 'f' },
{ "help", no_argument, NULL, 'h' },
{ "inode", required_argument, NULL, 'i' },
{ "file", required_argument, NULL, 'F' },
{ "quiet", no_argument, NULL, 'q' },
{ "verbose", no_argument, NULL, 'v' },
{ "version", no_argument, NULL, 'V' },
{ "notime", no_argument, NULL, 'T' },
{ "mft", no_argument, NULL, 'm' },
{ NULL, 0, NULL, 0 }
};
int c = -1;
int err = 0;
int ver = 0;
int help = 0;
int levels = 0;
opterr = 0; /* We'll handle the errors, thank you. */
opts.inode = -1;
opts.filename = NULL;
while ((c = getopt_long(argc, argv, sopt, lopt, NULL)) != -1) {
switch (c) {
case 1:
if (!opts.device)
opts.device = optarg;
else
err++;
break;
case 'i':
if ((opts.inode != -1) ||
(!utils_parse_size(optarg, &opts.inode, FALSE))) {
err++;
}
break;
case 'F':
if (opts.filename == NULL) {
/* The inode can not be resolved here,
store the filename */
opts.filename = argv[optind-1];
} else {
/* "-F" can't appear more than once */
err++;
}
break;
case 'f':
opts.force++;
break;
case 'h':
help++;
break;
case 'q':
opts.quiet++;
ntfs_log_clear_levels(NTFS_LOG_LEVEL_QUIET);
break;
case 't':
opts.notime++;
break;
case 'T':
/* 'T' is deprecated, notify */
ntfs_log_error("Option 'T' is deprecated, it was "
"replaced by 't'.\n");
err++;
break;
case 'v':
opts.verbose++;
ntfs_log_set_levels(NTFS_LOG_LEVEL_VERBOSE);
break;
case 'V':
ver++;
break;
case 'm':
opts.mft++;
break;
case '?':
if (optopt=='?') {
help++;
continue;
}
if (ntfs_log_parse_option(argv[optind-1]))
continue;
ntfs_log_error("Unknown option '%s'.\n",
argv[optind-1]);
err++;
break;
case ':':
ntfs_log_error("Option '%s' requires an "
"argument.\n", argv[optind-1]);
err++;
break;
default:
ntfs_log_error("Unhandled option case: %d.\n", c);
err++;
break;
}
}
/* Make sure we're in sync with the log levels */
levels = ntfs_log_get_levels();
if (levels & NTFS_LOG_LEVEL_VERBOSE)
opts.verbose++;
if (!(levels & NTFS_LOG_LEVEL_QUIET))
opts.quiet++;
if (help || ver) {
opts.quiet = 0;
} else {
if (opts.device == NULL) {
if (argc > 1)
ntfs_log_error("You must specify exactly one "
"device.\n");
err++;
}
if (opts.inode == -1 && !opts.filename && !opts.mft) {
if (argc > 1)
ntfs_log_error("You must specify an inode to "
"learn about.\n");
err++;
}
if (opts.quiet && opts.verbose) {
ntfs_log_error("You may not use --quiet and --verbose "
"at the same time.\n");
err++;
}
if ((opts.inode != -1) && (opts.filename != NULL)) {
if (argc > 1)
ntfs_log_error("You may not specify --inode "
"and --file together.\n");
err++;
}
}
if (ver)
version();
if (help || err)
usage();
/* tri-state 0 : done, 1 : error, -1 : proceed */
return (err ? 1 : (help || ver ? 0 : -1));
}
/* *************** utility functions ******************** */
/**
* ntfsinfo_time_to_str() -
* @sle_ntfs_clock: on disk time format in 100ns units since 1st jan 1601
* in little-endian format
*
* Return char* in a format 'Thu Jan 1 00:00:00 1970'.
* No need to free the returned memory.
*
* Example of usage:
* char *time_str = ntfsinfo_time_to_str(
* sle64_to_cpu(standard_attr->creation_time));
* printf("\tFile Creation Time:\t %s", time_str);
*/
static char *ntfsinfo_time_to_str(const sle64 sle_ntfs_clock)
{
/* JPA display timestamps in UTC */
static const char *months[]
= { "Jan", "Feb", "Mar", "Apr", "May", "Jun",
"Jul", "Aug", "Sep", "Oct", "Nov", "Dec" } ;
static const char *wdays[]
= { "Sun", "Mon", "Tue", "Wed", "Thu", "Fri", "Sat" } ;
static char str[30];
long long stamp;
u32 days;
u32 seconds;
unsigned int year;
unsigned int wday;
int mon;
int cnt;
stamp = sle64_to_cpu(sle_ntfs_clock);
days = (stamp/(86400*10000000LL)) & 0x7ffff;
seconds = ((stamp/10000000LL)%86400) & 0x1ffff;
wday = (days + 1)%7;
year = 1601;
/* periods of 400 years */
cnt = days/146097;
days -= 146097*cnt;
year += 400*cnt;
/* periods of 100 years */
cnt = (3*days + 3)/109573;
days -= 36524*cnt;
year += 100*cnt;
/* periods of 4 years */
cnt = days/1461;
days -= 1461*cnt;
year += 4*cnt;
/* periods of a single year */
cnt = (3*days + 3)/1096;
days -= 365*cnt;
year += cnt;
if ((!(year % 100) ? (year % 400) : (year % 4))
&& (days > 58)) days++;
if (days > 59) {
mon = (5*days + 161)/153;
days -= (153*mon - 162)/5;
} else {
mon = days/31 + 1;
days -= 31*(mon - 1) - 1;
}
sprintf(str,"%3s %3s %2u %02u:%02u:%02u %4u UTC\n",
wdays[wday],
months[mon-1],(unsigned int)days,
(unsigned int)(seconds/3600),
(unsigned int)(seconds/60%60),
(unsigned int)(seconds%60),
(unsigned int)year);
return (str);
}
/**
* ntfs_attr_get_name()
* @attr: a valid attribute record
*
* return multi-byte string containing the attribute name if exist. the user
* is then responsible of freeing that memory.
* null if no name exists (attr->name_length==0). no memory allocated.
* null if cannot convert to multi-byte string. errno would contain the
* error id. no memory allocated in that case
*/
static char *ntfs_attr_get_name_mbs(ATTR_RECORD *attr)
{
ntfschar *ucs_attr_name;
char *mbs_attr_name = NULL;
int mbs_attr_name_size;
/* Get name in unicode. */
ucs_attr_name = ntfs_attr_get_name(attr);
/* Convert unicode to printable format. */
mbs_attr_name_size = ntfs_ucstombs(ucs_attr_name, attr->name_length,
&mbs_attr_name, 0);
if (mbs_attr_name_size > 0)
return mbs_attr_name;
else
return NULL;
}
static const char *reparse_type_name(le32 tag)
{
const char *name;
le32 seltag;
seltag = tag;
if (tag & IO_REPARSE_TAG_WITH_FLAGS)
seltag &= IO_REPARSE_PLUGIN_SELECT;
switch (seltag) {
case IO_REPARSE_TAG_MOUNT_POINT :
name = " (mount point)";
break;
case IO_REPARSE_TAG_SYMLINK :
name = " (symlink)";
break;
case IO_REPARSE_TAG_WOF :
name = " (Wof compressed)";
break;
case IO_REPARSE_TAG_DEDUP :
name = " (deduplicated)";
break;
case IO_REPARSE_TAG_WCI :
name = " (Windows container)";
break;
case IO_REPARSE_TAG_CLOUD :
name = " (Cloud)";
break;
case IO_REPARSE_TAG_NFS :
name = " (NFS symlink)";
break;
case IO_REPARSE_TAG_LX_SYMLINK :
name = " (Linux symlink)";
break;
default :
name = "";
break;
}
return (name);
}
/* *************** functions for dumping global info ******************** */
/**
* ntfs_dump_volume - dump information about the volume
*/
static void ntfs_dump_volume(ntfs_volume *vol)
{
printf("Volume Information \n");
printf("\tName of device: %s\n", vol->dev->d_name);
printf("\tDevice state: %lu\n", vol->dev->d_state);
printf("\tVolume Name: %s\n", vol->vol_name);
printf("\tVolume State: %lu\n", vol->state);
printf("\tVolume Flags: 0x%04x", (int)le16_to_cpu(vol->flags));
if (vol->flags & VOLUME_IS_DIRTY)
printf(" DIRTY");
if (vol->flags & VOLUME_MODIFIED_BY_CHKDSK)
printf(" MODIFIED_BY_CHKDSK");
printf("\n");
printf("\tVolume Version: %u.%u\n", vol->major_ver, vol->minor_ver);
printf("\tSector Size: %hu\n", vol->sector_size);
printf("\tCluster Size: %u\n", (unsigned int)vol->cluster_size);
printf("\tIndex Block Size: %u\n", (unsigned int)vol->indx_record_size);
printf("\tVolume Size in Clusters: %lld\n",
(long long)vol->nr_clusters);
printf("MFT Information \n");
printf("\tMFT Record Size: %u\n", (unsigned int)vol->mft_record_size);
printf("\tMFT Zone Multiplier: %u\n", vol->mft_zone_multiplier);
printf("\tMFT Data Position: %lld\n", (long long)vol->mft_data_pos);
printf("\tMFT Zone Start: %lld\n", (long long)vol->mft_zone_start);
printf("\tMFT Zone End: %lld\n", (long long)vol->mft_zone_end);
printf("\tMFT Zone Position: %lld\n", (long long)vol->mft_zone_pos);
printf("\tCurrent Position in First Data Zone: %lld\n",
(long long)vol->data1_zone_pos);
printf("\tCurrent Position in Second Data Zone: %lld\n",
(long long)vol->data2_zone_pos);
printf("\tAllocated clusters %lld (%2.1lf%%)\n",
(long long)vol->mft_na->allocated_size
>> vol->cluster_size_bits,
100.0*(vol->mft_na->allocated_size
>> vol->cluster_size_bits)
/ vol->nr_clusters);
printf("\tLCN of Data Attribute for FILE_MFT: %lld\n",
(long long)vol->mft_lcn);
printf("\tFILE_MFTMirr Size: %d\n", vol->mftmirr_size);
printf("\tLCN of Data Attribute for File_MFTMirr: %lld\n",
(long long)vol->mftmirr_lcn);
printf("\tSize of Attribute Definition Table: %d\n",
(int)vol->attrdef_len);
printf("\tNumber of Attached Extent Inodes: %d\n",
(int)vol->mft_ni->nr_extents);
printf("FILE_Bitmap Information \n");
printf("\tFILE_Bitmap MFT Record Number: %llu\n",
(unsigned long long)vol->lcnbmp_ni->mft_no);
printf("\tState of FILE_Bitmap Inode: %lu\n", vol->lcnbmp_ni->state);
printf("\tLength of Attribute List: %u\n",
(unsigned int)vol->lcnbmp_ni->attr_list_size);
/* JPA printf("\tAttribute List: %s\n", vol->lcnbmp_ni->attr_list); */
printf("\tNumber of Attached Extent Inodes: %d\n",
(int)vol->lcnbmp_ni->nr_extents);
/* FIXME: need to add code for the union if nr_extens != 0, but
i dont know if it will ever != 0 with FILE_Bitmap */
printf("FILE_Bitmap Data Attribute Information\n");
printf("\tDecompressed Runlist: not done yet\n");
printf("\tBase Inode: %llu\n",
(unsigned long long)vol->lcnbmp_na->ni->mft_no);
printf("\tAttribute Types: not done yet\n");
//printf("\tAttribute Name: %s\n", vol->lcnbmp_na->name);
printf("\tAttribute Name Length: %u\n",
(unsigned int)vol->lcnbmp_na->name_len);
printf("\tAttribute State: %lu\n", vol->lcnbmp_na->state);
printf("\tAttribute Allocated Size: %lld\n",
(long long)vol->lcnbmp_na->allocated_size);
printf("\tAttribute Data Size: %lld\n",
(long long)vol->lcnbmp_na->data_size);
printf("\tAttribute Initialized Size: %lld\n",
(long long)vol->lcnbmp_na->initialized_size);
printf("\tAttribute Compressed Size: %lld\n",
(long long)vol->lcnbmp_na->compressed_size);
printf("\tCompression Block Size: %u\n",
(unsigned int)vol->lcnbmp_na->compression_block_size);
printf("\tCompression Block Size Bits: %u\n",
vol->lcnbmp_na->compression_block_size_bits);
printf("\tCompression Block Clusters: %u\n",
vol->lcnbmp_na->compression_block_clusters);
if (!ntfs_volume_get_free_space(vol))
printf("\tFree Clusters: %lld (%2.1lf%%)\n",
(long long)vol->free_clusters,
100.0*vol->free_clusters
/(double)vol->nr_clusters);
//TODO: Still need to add a few more attributes
}
/**
* ntfs_dump_flags - Dump flags for STANDARD_INFORMATION and FILE_NAME.
* @type: dump flags for this attribute type
* @flags: flags for dumping
*/
static void ntfs_dump_flags(const char *indent, ATTR_TYPES type, le32 flags)
{
const le32 original_flags = flags;
printf("%sFile attributes:\t", indent);
if (flags & FILE_ATTR_READONLY) {
printf(" READONLY");
flags &= ~FILE_ATTR_READONLY;
}
if (flags & FILE_ATTR_HIDDEN) {
printf(" HIDDEN");
flags &= ~FILE_ATTR_HIDDEN;
}
if (flags & FILE_ATTR_SYSTEM) {
printf(" SYSTEM");
flags &= ~FILE_ATTR_SYSTEM;
}
if (flags & FILE_ATTR_DIRECTORY) {
printf(" DIRECTORY");
flags &= ~FILE_ATTR_DIRECTORY;
}
if (flags & FILE_ATTR_ARCHIVE) {
printf(" ARCHIVE");
flags &= ~FILE_ATTR_ARCHIVE;
}
if (flags & FILE_ATTR_DEVICE) {
printf(" DEVICE");
flags &= ~FILE_ATTR_DEVICE;
}
if (flags & FILE_ATTR_NORMAL) {
printf(" NORMAL");
flags &= ~FILE_ATTR_NORMAL;
}
if (flags & FILE_ATTR_TEMPORARY) {
printf(" TEMPORARY");
flags &= ~FILE_ATTR_TEMPORARY;
}
if (flags & FILE_ATTR_SPARSE_FILE) {
printf(" SPARSE_FILE");
flags &= ~FILE_ATTR_SPARSE_FILE;
}
if (flags & FILE_ATTR_REPARSE_POINT) {
printf(" REPARSE_POINT");
flags &= ~FILE_ATTR_REPARSE_POINT;
}
if (flags & FILE_ATTR_COMPRESSED) {
printf(" COMPRESSED");
flags &= ~FILE_ATTR_COMPRESSED;
}
if (flags & FILE_ATTR_OFFLINE) {
printf(" OFFLINE");
flags &= ~FILE_ATTR_OFFLINE;
}
if (flags & FILE_ATTR_NOT_CONTENT_INDEXED) {
printf(" NOT_CONTENT_INDEXED");
flags &= ~FILE_ATTR_NOT_CONTENT_INDEXED;
}
if (flags & FILE_ATTR_ENCRYPTED) {
printf(" ENCRYPTED");
flags &= ~FILE_ATTR_ENCRYPTED;
}
/* We know that FILE_ATTR_I30_INDEX_PRESENT only exists on $FILE_NAME,
and in case we are wrong, let it appear as UNKNOWN */
if (type == AT_FILE_NAME) {
if (flags & FILE_ATTR_I30_INDEX_PRESENT) {
printf(" I30_INDEX");
flags &= ~FILE_ATTR_I30_INDEX_PRESENT;
}
}
if (flags & FILE_ATTR_VIEW_INDEX_PRESENT) {
printf(" VIEW_INDEX");
flags &= ~FILE_ATTR_VIEW_INDEX_PRESENT;
}
if (flags)
printf(" UNKNOWN: 0x%08x", (unsigned int)le32_to_cpu(flags));
/* Print all the flags in hex. */
printf(" (0x%08x)\n", (unsigned)le32_to_cpu(original_flags));
}
/**
* ntfs_dump_namespace
*/
static void ntfs_dump_namespace(const char *indent, u8 file_name_type)
{
const char *mbs_file_type;
/* name space */
switch (file_name_type) {
case FILE_NAME_POSIX:
mbs_file_type = "POSIX";
break;
case FILE_NAME_WIN32:
mbs_file_type = "Win32";
break;
case FILE_NAME_DOS:
mbs_file_type = "DOS";
break;
case FILE_NAME_WIN32_AND_DOS:
mbs_file_type = "Win32 & DOS";
break;
default:
mbs_file_type = "(unknown)";
}
printf("%sNamespace:\t\t %s\n", indent, mbs_file_type);
}
/* *************** functions for dumping attributes ******************** */
/**
* ntfs_dump_standard_information
*/
static void ntfs_dump_attr_standard_information(ATTR_RECORD *attr)
{
STANDARD_INFORMATION *standard_attr = NULL;
u32 value_length;
standard_attr = (STANDARD_INFORMATION*)((char *)attr +
le16_to_cpu(attr->value_offset));
/* time conversion stuff */
if (!opts.notime) {
char *ntfs_time_str = NULL;
ntfs_time_str = ntfsinfo_time_to_str(standard_attr->creation_time);
printf("\tFile Creation Time:\t %s",ntfs_time_str);
ntfs_time_str = ntfsinfo_time_to_str(
standard_attr->last_data_change_time);
printf("\tFile Altered Time:\t %s",ntfs_time_str);
ntfs_time_str = ntfsinfo_time_to_str(
standard_attr->last_mft_change_time);
printf("\tMFT Changed Time:\t %s",ntfs_time_str);
ntfs_time_str = ntfsinfo_time_to_str(standard_attr->last_access_time);
printf("\tLast Accessed Time:\t %s",ntfs_time_str);
}
ntfs_dump_flags("\t", attr->type, standard_attr->file_attributes);
value_length = le32_to_cpu(attr->value_length);
if (value_length == 48) {
/* Only 12 reserved bytes here */
} else if (value_length == 72) {
printf("\tMaximum versions:\t %u \n", (unsigned int)
le32_to_cpu(standard_attr->maximum_versions));
printf("\tVersion number:\t\t %u \n", (unsigned int)
le32_to_cpu(standard_attr->version_number));
printf("\tClass ID:\t\t %u \n",
(unsigned int)le32_to_cpu(standard_attr->class_id));
printf("\tUser ID:\t\t %u (0x%x)\n",
(unsigned int)le32_to_cpu(standard_attr->owner_id),
(unsigned int)le32_to_cpu(standard_attr->owner_id));
printf("\tSecurity ID:\t\t %u (0x%x)\n",
(unsigned int)le32_to_cpu(standard_attr->security_id),
(unsigned int)le32_to_cpu(standard_attr->security_id));
printf("\tQuota charged:\t\t %llu (0x%llx)\n",
(unsigned long long)
le64_to_cpu(standard_attr->quota_charged),
(unsigned long long)
le64_to_cpu(standard_attr->quota_charged));
printf("\tUpdate Sequence Number:\t %llu (0x%llx)\n",
(unsigned long long)
le64_to_cpu(standard_attr->usn),
(unsigned long long)
le64_to_cpu(standard_attr->usn));
} else {
printf("\tSize of STANDARD_INFORMATION is %u (0x%x). It "
"should be either 72 or 48, something is "
"wrong...\n", (unsigned int)value_length,
(unsigned)value_length);
}
}
static void ntfs_dump_bytes(u8 *buf, int start, int stop)
{
int i;
for (i = start; i < stop; i++) {
printf("%02x ", buf[i]);
}
}
/**
* ntfs_dump_attr_list()
*/
static void ntfs_dump_attr_list(ATTR_RECORD *attr, ntfs_volume *vol)
{
ATTR_LIST_ENTRY *entry;
u8 *value;
s64 l;
if (!opts.verbose)
return;
l = ntfs_get_attribute_value_length(attr);
if (!l) {
ntfs_log_perror("ntfs_get_attribute_value_length failed");
return;
}
value = ntfs_malloc(l);
if (!value)
return;
l = ntfs_get_attribute_value(vol, attr, value);
if (!l) {
ntfs_log_perror("ntfs_get_attribute_value failed");
free(value);
return;
}
printf("\tDumping attribute list:");
entry = (ATTR_LIST_ENTRY *) value;
for (;(u8 *)entry < (u8 *) value + l; entry = (ATTR_LIST_ENTRY *)
((u8 *) entry + le16_to_cpu(entry->length))) {
printf("\n");
printf("\t\tAttribute type:\t0x%x\n",
(unsigned int)le32_to_cpu(entry->type));
printf("\t\tRecord length:\t%u (0x%x)\n",
(unsigned)le16_to_cpu(entry->length),
(unsigned)le16_to_cpu(entry->length));
printf("\t\tName length:\t%u (0x%x)\n",
(unsigned)entry->name_length,
(unsigned)entry->name_length);
printf("\t\tName offset:\t%u (0x%x)\n",
(unsigned)entry->name_offset,
(unsigned)entry->name_offset);
printf("\t\tStarting VCN:\t%lld (0x%llx)\n",
(long long)sle64_to_cpu(entry->lowest_vcn),
(unsigned long long)
sle64_to_cpu(entry->lowest_vcn));
printf("\t\tMFT reference:\t%lld (0x%llx)\n",
(unsigned long long)
MREF_LE(entry->mft_reference),
(unsigned long long)
MREF_LE(entry->mft_reference));
printf("\t\tInstance:\t%u (0x%x)\n",
(unsigned)le16_to_cpu(entry->instance),
(unsigned)le16_to_cpu(entry->instance));
printf("\t\tName:\t\t");
if (entry->name_length) {
char *name = NULL;
int name_size;
name_size = ntfs_ucstombs(entry->name,
entry->name_length, &name, 0);
if (name_size > 0) {
printf("%s\n", name);
free(name);
} else
ntfs_log_perror("ntfs_ucstombs failed");
} else
printf("unnamed\n");
printf("\t\tPadding:\t");
ntfs_dump_bytes((u8 *)entry, entry->name_offset +
sizeof(ntfschar) * entry->name_length,
le16_to_cpu(entry->length));
printf("\n");
}
free(value);
printf("\tEnd of attribute list reached.\n");
}
/**
* ntfs_dump_filename()
*/
static void ntfs_dump_filename(const char *indent,
FILE_NAME_ATTR *file_name_attr)
{
le32 tag;
printf("%sParent directory:\t %lld (0x%llx)\n", indent,
(long long)MREF_LE(file_name_attr->parent_directory),
(long long)MREF_LE(file_name_attr->parent_directory));
/* time stuff */
if (!opts.notime) {
char *ntfs_time_str;
ntfs_time_str = ntfsinfo_time_to_str(
file_name_attr->creation_time);
printf("%sFile Creation Time:\t %s", indent, ntfs_time_str);
ntfs_time_str = ntfsinfo_time_to_str(
file_name_attr->last_data_change_time);
printf("%sFile Altered Time:\t %s", indent, ntfs_time_str);
ntfs_time_str = ntfsinfo_time_to_str(
file_name_attr->last_mft_change_time);
printf("%sMFT Changed Time:\t %s", indent, ntfs_time_str);
ntfs_time_str = ntfsinfo_time_to_str(
file_name_attr->last_access_time);
printf("%sLast Accessed Time:\t %s", indent, ntfs_time_str);
}
/* other basic stuff about the file */
printf("%sAllocated Size:\t\t %lld (0x%llx)\n", indent, (long long)
sle64_to_cpu(file_name_attr->allocated_size),
(unsigned long long)
sle64_to_cpu(file_name_attr->allocated_size));
printf("%sData Size:\t\t %lld (0x%llx)\n", indent,
(long long)sle64_to_cpu(file_name_attr->data_size),
(unsigned long long)
sle64_to_cpu(file_name_attr->data_size));
printf("%sFilename Length:\t %d (0x%x)\n", indent,
(unsigned)file_name_attr->file_name_length,
(unsigned)file_name_attr->file_name_length);
ntfs_dump_flags(indent, AT_FILE_NAME, file_name_attr->file_attributes);
if (file_name_attr->file_attributes & FILE_ATTR_REPARSE_POINT &&
file_name_attr->reparse_point_tag) {
tag = file_name_attr->reparse_point_tag;
printf("%sReparse point tag:\t 0x%08lx%s\n", indent,
(long)le32_to_cpu(tag),
reparse_type_name(tag));
} else if (file_name_attr->reparse_point_tag) {
printf("%sEA Length:\t\t %d (0x%x)\n", indent, (unsigned)
le16_to_cpu(file_name_attr->packed_ea_size),
(unsigned)
le16_to_cpu(file_name_attr->packed_ea_size));
if (file_name_attr->reserved)
printf("%sReserved:\t\t %d (0x%x)\n", indent,
(unsigned)
le16_to_cpu(file_name_attr->reserved),
(unsigned)
le16_to_cpu(file_name_attr->reserved));
}
/* The filename. */
ntfs_dump_namespace(indent, file_name_attr->file_name_type);
if (file_name_attr->file_name_length > 0) {
/* but first we need to convert the little endian unicode string
into a printable format */
char *mbs_file_name = NULL;
int mbs_file_name_size;
mbs_file_name_size = ntfs_ucstombs(file_name_attr->file_name,
file_name_attr->file_name_length,&mbs_file_name,0);
if (mbs_file_name_size>0) {
printf("%sFilename:\t\t '%s'\n", indent, mbs_file_name);
free(mbs_file_name);
} else {
/* an error occurred, errno holds the reason - notify the user */
ntfs_log_perror("ntfsinfo error: could not parse file name");
}
} else {
printf("%sFile Name:\t\t unnamed?!?\n", indent);
}
}
/**
* ntfs_dump_attr_file_name()
*/
static void ntfs_dump_attr_file_name(ATTR_RECORD *attr)
{
ntfs_dump_filename("\t", (FILE_NAME_ATTR*)((u8*)attr +
le16_to_cpu(attr->value_offset)));
}
/**
* ntfs_dump_object_id
*
* dump the $OBJECT_ID attribute - not present on all systems
*/
static void ntfs_dump_attr_object_id(ATTR_RECORD *attr,ntfs_volume *vol)
{
OBJECT_ID_ATTR *obj_id_attr = NULL;
obj_id_attr = (OBJECT_ID_ATTR *)((u8*)attr +
le16_to_cpu(attr->value_offset));
if (vol->major_ver >= 3.0) {
u32 value_length;
char printable_GUID[37];
value_length = le32_to_cpu(attr->value_length);
/* Object ID is mandatory. */
ntfs_guid_to_mbs(&obj_id_attr->object_id, printable_GUID);
printf("\tObject ID:\t\t %s\n", printable_GUID);
/* Dump Birth Volume ID. */
if ((value_length > sizeof(GUID)) && !ntfs_guid_is_zero(
&obj_id_attr->birth_volume_id)) {
ntfs_guid_to_mbs(&obj_id_attr->birth_volume_id,
printable_GUID);
printf("\tBirth Volume ID:\t\t %s\n", printable_GUID);
} else
printf("\tBirth Volume ID:\t missing\n");
/* Dumping Birth Object ID */
if ((value_length > sizeof(GUID)) && !ntfs_guid_is_zero(
&obj_id_attr->birth_object_id)) {
ntfs_guid_to_mbs(&obj_id_attr->birth_object_id,
printable_GUID);
printf("\tBirth Object ID:\t\t %s\n", printable_GUID);
} else
printf("\tBirth Object ID:\t missing\n");
/* Dumping Domain_id - reserved for now */
if ((value_length > sizeof(GUID)) && !ntfs_guid_is_zero(
&obj_id_attr->domain_id)) {
ntfs_guid_to_mbs(&obj_id_attr->domain_id,
printable_GUID);
printf("\tDomain ID:\t\t\t %s\n", printable_GUID);
} else
printf("\tDomain ID:\t\t missing\n");
} else
printf("\t$OBJECT_ID not present. Only NTFS versions > 3.0\n"
"\thave $OBJECT_ID. Your version of NTFS is %d.\n",
vol->major_ver);
}
/**
* ntfs_dump_acl
*
* given an acl, print it in a beautiful & lovely way.
*/
static void ntfs_dump_acl(const char *prefix, ACL *acl)
{
unsigned int i;
u16 ace_count;
ACCESS_ALLOWED_ACE *ace;
printf("%sRevision\t %u\n", prefix, acl->revision);
/*
* Do not recalculate le16_to_cpu every iteration (minor speedup on
* big-endian machines.
*/
ace_count = le16_to_cpu(acl->ace_count);
/* initialize 'ace' to the first ace (if any) */
ace = (ACCESS_ALLOWED_ACE *)((char *)acl + 8);
/* iterate through ACE's */
for (i = 1; i <= ace_count; i++) {
const char *ace_type;
char *sid;
/* set ace_type. */
switch (ace->type) {
case ACCESS_ALLOWED_ACE_TYPE:
ace_type = "allow";
break;
case ACCESS_DENIED_ACE_TYPE:
ace_type = "deny";
break;
case SYSTEM_AUDIT_ACE_TYPE:
ace_type = "audit";
break;
default:
ace_type = "unknown";
break;
}
printf("%sACE:\t\t type:%s flags:0x%x access:0x%x\n", prefix,
ace_type, (unsigned int)ace->flags,
(unsigned int)le32_to_cpu(ace->mask));
/* get a SID string */
sid = ntfs_sid_to_mbs(&ace->sid, NULL, 0);
printf("%s\t\t SID: %s\n", prefix, sid);
free(sid);
/* proceed to next ACE */
ace = (ACCESS_ALLOWED_ACE *)(((char *)ace) +
le16_to_cpu(ace->size));
}
}
static void ntfs_dump_security_descriptor(SECURITY_DESCRIPTOR_ATTR *sec_desc,
const char *indent)
{
char *sid;
printf("%s\tRevision:\t\t %u\n", indent, sec_desc->revision);
/* TODO: parse the flags */
printf("%s\tControl:\t\t 0x%04x\n", indent,
le16_to_cpu(sec_desc->control));
if (~sec_desc->control & SE_SELF_RELATIVE) {
SECURITY_DESCRIPTOR *sd = (SECURITY_DESCRIPTOR *)sec_desc;
printf("%s\tOwner SID pointer:\t %p\n", indent, sd->owner);
printf("%s\tGroup SID pointer:\t %p\n", indent, sd->group);
printf("%s\tSACL pointer:\t\t %p\n", indent, sd->sacl);
printf("%s\tDACL pointer:\t\t %p\n", indent, sd->dacl);
return;
}
if (sec_desc->owner) {
sid = ntfs_sid_to_mbs((SID *)((char *)sec_desc +
le32_to_cpu(sec_desc->owner)), NULL, 0);
printf("%s\tOwner SID:\t\t %s\n", indent, sid);
free(sid);
} else
printf("%s\tOwner SID:\t\t missing\n", indent);
if (sec_desc->group) {
sid = ntfs_sid_to_mbs((SID *)((char *)sec_desc +
le32_to_cpu(sec_desc->group)), NULL, 0);
printf("%s\tGroup SID:\t\t %s\n", indent, sid);
free(sid);
} else
printf("%s\tGroup SID:\t\t missing\n", indent);
printf("%s\tSystem ACL:\t\t ", indent);
if (sec_desc->control & SE_SACL_PRESENT) {
if (sec_desc->control & SE_SACL_DEFAULTED) {
printf("defaulted");
}
printf("\n");
ntfs_dump_acl(indent ? "\t\t\t" : "\t\t",
(ACL *)((char *)sec_desc +
le32_to_cpu(sec_desc->sacl)));
} else {
printf("missing\n");
}
printf("%s\tDiscretionary ACL:\t ", indent);
if (sec_desc->control & SE_DACL_PRESENT) {
if (sec_desc->control & SE_SACL_DEFAULTED) {
printf("defaulted");
}
printf("\n");
ntfs_dump_acl(indent ? "\t\t\t" : "\t\t",
(ACL *)((char *)sec_desc +
le32_to_cpu(sec_desc->dacl)));
} else {
printf("missing\n");
}
}
/**
* ntfs_dump_security_descriptor()
*
* dump the security information about the file
*/
static void ntfs_dump_attr_security_descriptor(ATTR_RECORD *attr, ntfs_volume *vol)
{
SECURITY_DESCRIPTOR_ATTR *sec_desc_attr;
if (attr->non_resident) {
/* FIXME: We don't handle fragmented mapping pairs case. */
runlist *rl = ntfs_mapping_pairs_decompress(vol, attr, NULL);
if (rl) {
s64 data_size, bytes_read;
data_size = sle64_to_cpu(attr->data_size);
sec_desc_attr = ntfs_malloc(data_size);
if (!sec_desc_attr) {
free(rl);
return;
}
bytes_read = ntfs_rl_pread(vol, rl, 0,
data_size, sec_desc_attr);
if (bytes_read != data_size) {
ntfs_log_error("ntfsinfo error: could not "
"read security descriptor\n");
free(rl);
free(sec_desc_attr);
return;
}
free(rl);
} else {
ntfs_log_error("ntfsinfo error: could not "
"decompress runlist\n");
return;
}
} else {
sec_desc_attr = (SECURITY_DESCRIPTOR_ATTR *)((u8*)attr +
le16_to_cpu(attr->value_offset));
}
ntfs_dump_security_descriptor(sec_desc_attr, "");
if (attr->non_resident)
free(sec_desc_attr);
}
/**
* ntfs_dump_volume_name()
*
* dump the name of the volume the inode belongs to
*/
static void ntfs_dump_attr_volume_name(ATTR_RECORD *attr)
{
ntfschar *ucs_vol_name = NULL;
if (le32_to_cpu(attr->value_length) > 0) {
char *mbs_vol_name = NULL;
int mbs_vol_name_size;
/* calculate volume name position */
ucs_vol_name = (ntfschar*)((u8*)attr +
le16_to_cpu(attr->value_offset));
/* convert the name to current locale multibyte sequence */
mbs_vol_name_size = ntfs_ucstombs(ucs_vol_name,
le32_to_cpu(attr->value_length) /
sizeof(ntfschar), &mbs_vol_name, 0);
if (mbs_vol_name_size>0) {
/* output the converted name. */
printf("\tVolume Name:\t\t '%s'\n", mbs_vol_name);
free(mbs_vol_name);
} else
ntfs_log_perror("ntfsinfo error: could not parse "
"volume name");
} else
printf("\tVolume Name:\t\t unnamed\n");
}
/**
* ntfs_dump_volume_information()
*
* dump the information for the volume the inode belongs to
*
*/
static void ntfs_dump_attr_volume_information(ATTR_RECORD *attr)
{
VOLUME_INFORMATION *vol_information = NULL;
vol_information = (VOLUME_INFORMATION*)((char *)attr+
le16_to_cpu(attr->value_offset));
printf("\tVolume Version:\t\t %d.%d\n", vol_information->major_ver,
vol_information->minor_ver);
printf("\tVolume Flags:\t\t ");
if (vol_information->flags & VOLUME_IS_DIRTY)
printf("DIRTY ");
if (vol_information->flags & VOLUME_RESIZE_LOG_FILE)
printf("RESIZE_LOG ");
if (vol_information->flags & VOLUME_UPGRADE_ON_MOUNT)
printf("UPG_ON_MOUNT ");
if (vol_information->flags & VOLUME_MOUNTED_ON_NT4)
printf("MOUNTED_NT4 ");
if (vol_information->flags & VOLUME_DELETE_USN_UNDERWAY)
printf("DEL_USN ");
if (vol_information->flags & VOLUME_REPAIR_OBJECT_ID)
printf("REPAIR_OBJID ");
if (vol_information->flags & VOLUME_CHKDSK_UNDERWAY)
printf("CHKDSK_UNDERWAY ");
if (vol_information->flags & VOLUME_MODIFIED_BY_CHKDSK)
printf("MOD_BY_CHKDSK ");
if (vol_information->flags & VOLUME_FLAGS_MASK) {
printf("(0x%04x)\n",
(unsigned)le16_to_cpu(vol_information->flags));
} else
printf("none set (0x0000)\n");
if (vol_information->flags & (~VOLUME_FLAGS_MASK))
printf("\t\t\t\t Unknown Flags: 0x%04x\n",
le16_to_cpu(vol_information->flags &
(~VOLUME_FLAGS_MASK)));
}
static ntfschar NTFS_DATA_SDS[5] = { const_cpu_to_le16('$'),
const_cpu_to_le16('S'), const_cpu_to_le16('D'),
const_cpu_to_le16('S'), const_cpu_to_le16('\0') };
static void ntfs_dump_sds_entry(SECURITY_DESCRIPTOR_HEADER *sds)
{
SECURITY_DESCRIPTOR_RELATIVE *sd;
ntfs_log_verbose("\n");
ntfs_log_verbose("\t\tHash:\t\t\t 0x%08x\n",
(unsigned)le32_to_cpu(sds->hash));
ntfs_log_verbose("\t\tSecurity id:\t\t %u (0x%x)\n",
(unsigned)le32_to_cpu(sds->security_id),
(unsigned)le32_to_cpu(sds->security_id));
ntfs_log_verbose("\t\tOffset:\t\t\t %llu (0x%llx)\n",
(unsigned long long)le64_to_cpu(sds->offset),
(unsigned long long)le64_to_cpu(sds->offset));
ntfs_log_verbose("\t\tLength:\t\t\t %u (0x%x)\n",
(unsigned)le32_to_cpu(sds->length),
(unsigned)le32_to_cpu(sds->length));
sd = (SECURITY_DESCRIPTOR_RELATIVE *)((char *)sds +
sizeof(SECURITY_DESCRIPTOR_HEADER));
ntfs_dump_security_descriptor(sd, "\t");
}
static void ntfs_dump_sds(ATTR_RECORD *attr, ntfs_inode *ni)
{
SECURITY_DESCRIPTOR_HEADER *sds, *sd;
ntfschar *name;
int name_len;
s64 data_size;
u64 inode;
inode = ni->mft_no;
if (ni->nr_extents < 0)
inode = ni->base_ni->mft_no;
if (FILE_Secure != inode)
return;
name_len = attr->name_length;
if (!name_len)
return;
name = (ntfschar *)((u8 *)attr + le16_to_cpu(attr->name_offset));
if (!ntfs_names_are_equal(NTFS_DATA_SDS, sizeof(NTFS_DATA_SDS) / 2 - 1,
name, name_len, CASE_SENSITIVE, NULL, 0))
return;
sd = sds = ntfs_attr_readall(ni, AT_DATA, name, name_len, &data_size);
if (!sd) {
ntfs_log_perror("Failed to read $SDS attribute");
return;
}
/*
* FIXME: The right way is based on the indexes, so we couldn't
* miss real entries. For now, dump until it makes sense.
*/
while (sd->length && sd->hash &&
le64_to_cpu(sd->offset) < (u64)data_size &&
le32_to_cpu(sd->length) < (u64)data_size &&
le64_to_cpu(sd->offset) +
le32_to_cpu(sd->length) < (u64)data_size) {
ntfs_dump_sds_entry(sd);
sd = (SECURITY_DESCRIPTOR_HEADER *)((char*)sd +
((le32_to_cpu(sd->length) + 15) & ~15));
}
free(sds);
}
static const char *get_attribute_type_name(le32 type)
{
switch (type) {
case AT_UNUSED: return "$UNUSED";
case AT_STANDARD_INFORMATION: return "$STANDARD_INFORMATION";
case AT_ATTRIBUTE_LIST: return "$ATTRIBUTE_LIST";
case AT_FILE_NAME: return "$FILE_NAME";
case AT_OBJECT_ID: return "$OBJECT_ID";
case AT_SECURITY_DESCRIPTOR: return "$SECURITY_DESCRIPTOR";
case AT_VOLUME_NAME: return "$VOLUME_NAME";
case AT_VOLUME_INFORMATION: return "$VOLUME_INFORMATION";
case AT_DATA: return "$DATA";
case AT_INDEX_ROOT: return "$INDEX_ROOT";
case AT_INDEX_ALLOCATION: return "$INDEX_ALLOCATION";
case AT_BITMAP: return "$BITMAP";
case AT_REPARSE_POINT: return "$REPARSE_POINT";
case AT_EA_INFORMATION: return "$EA_INFORMATION";
case AT_EA: return "$EA";
case AT_PROPERTY_SET: return "$PROPERTY_SET";
case AT_LOGGED_UTILITY_STREAM: return "$LOGGED_UTILITY_STREAM";
case AT_END: return "$END";
}
return "$UNKNOWN";
}
static const char * ntfs_dump_lcn(LCN lcn)
{
switch (lcn) {
case LCN_HOLE:
return "<HOLE>\t";
case LCN_RL_NOT_MAPPED:
return "<RL_NOT_MAPPED>";
case LCN_ENOENT:
return "<ENOENT>\t";
case LCN_EINVAL:
return "<EINVAL>\t";
case LCN_EIO:
return "<EIO>\t";
default:
ntfs_log_error("Invalid LCN value %llx passed to "
"ntfs_dump_lcn().\n", (long long)lcn);
return "???\t";
}
}
static void ntfs_dump_attribute_header(ntfs_attr_search_ctx *ctx,
ntfs_volume *vol, struct RUNCOUNT *runcount)
{
ATTR_RECORD *a = ctx->attr;
printf("Dumping attribute %s (0x%x) from mft record %lld (0x%llx)\n",
get_attribute_type_name(a->type),
(unsigned)le32_to_cpu(a->type),
(unsigned long long)ctx->ntfs_ino->mft_no,
(unsigned long long)ctx->ntfs_ino->mft_no);
ntfs_log_verbose("\tAttribute length:\t %u (0x%x)\n",
(unsigned)le32_to_cpu(a->length),
(unsigned)le32_to_cpu(a->length));
printf("\tResident: \t\t %s\n", a->non_resident ? "No" : "Yes");
ntfs_log_verbose("\tName length:\t\t %u (0x%x)\n",
(unsigned)a->name_length, (unsigned)a->name_length);
ntfs_log_verbose("\tName offset:\t\t %u (0x%x)\n",
(unsigned)le16_to_cpu(a->name_offset),
(unsigned)le16_to_cpu(a->name_offset));
/* Dump the attribute (stream) name */
if (a->name_length) {
char *attribute_name = NULL;
attribute_name = ntfs_attr_get_name_mbs(a);
if (attribute_name) {
printf("\tAttribute name:\t\t '%s'\n", attribute_name);
free(attribute_name);
} else
ntfs_log_perror("Error: couldn't parse attribute name");
}
/* TODO: parse the flags */
printf("\tAttribute flags:\t 0x%04x\n",
(unsigned)le16_to_cpu(a->flags));
printf("\tAttribute instance:\t %u (0x%x)\n",
(unsigned)le16_to_cpu(a->instance),
(unsigned)le16_to_cpu(a->instance));
/* Resident attribute */
if (!a->non_resident) {
printf("\tData size:\t\t %u (0x%x)\n",
(unsigned)le32_to_cpu(a->value_length),
(unsigned)le32_to_cpu(a->value_length));
ntfs_log_verbose("\tData offset:\t\t %u (0x%x)\n",
(unsigned)le16_to_cpu(a->value_offset),
(unsigned)le16_to_cpu(a->value_offset));
/* TODO: parse the flags */
printf("\tResident flags:\t\t 0x%02x\n",
(unsigned)a->resident_flags);
ntfs_log_verbose("\tReservedR:\t\t %d (0x%x)\n",
(unsigned)a->reservedR, (unsigned)a->reservedR);
return;
}
/* Non-resident attribute */
ntfs_log_verbose("\tLowest VCN\t\t %lld (0x%llx)\n",
(long long)sle64_to_cpu(a->lowest_vcn),
(unsigned long long)sle64_to_cpu(a->lowest_vcn));
ntfs_log_verbose("\tHighest VCN:\t\t %lld (0x%llx)\n",
(long long)sle64_to_cpu(a->highest_vcn),
(unsigned long long)sle64_to_cpu(a->highest_vcn));
ntfs_log_verbose("\tMapping pairs offset:\t %u (0x%x)\n",
(unsigned)le16_to_cpu(a->mapping_pairs_offset),
(unsigned)le16_to_cpu(a->mapping_pairs_offset));
printf("\tCompression unit:\t %u (0x%x)\n",
(unsigned)a->compression_unit,
(unsigned)a->compression_unit);
/* TODO: dump the 5 reserved bytes here in verbose mode */
if (!a->lowest_vcn) {
printf("\tData size:\t\t %llu (0x%llx)\n",
(long long)sle64_to_cpu(a->data_size),
(unsigned long long)sle64_to_cpu(a->data_size));
printf("\tAllocated size:\t\t %llu (0x%llx)\n",
(long long)sle64_to_cpu(a->allocated_size),
(unsigned long long)
sle64_to_cpu(a->allocated_size));
printf("\tInitialized size:\t %llu (0x%llx)\n",
(long long)sle64_to_cpu(a->initialized_size),
(unsigned long long)
sle64_to_cpu(a->initialized_size));
if (a->compression_unit || a->flags & ATTR_IS_COMPRESSED ||
a->flags & ATTR_IS_SPARSE)
printf("\tCompressed size:\t %llu (0x%llx)\n",
(signed long long)
sle64_to_cpu(a->compressed_size),
(signed long long)
sle64_to_cpu(a->compressed_size));
}
if (opts.verbose) {
runlist *rl;
rl = ntfs_mapping_pairs_decompress(vol, a, NULL);
if (rl) {
runlist *rlc = rl;
LCN next_lcn;
next_lcn = LCN_HOLE;
// TODO: Switch this to properly aligned hex...
printf("\tRunlist:\tVCN\t\tLCN\t\tLength\n");
runcount->fragments++;
while (rlc->length) {
runcount->runs++;
if (rlc->lcn >= 0) {
printf("\t\t\t0x%llx\t\t0x%llx\t\t"
"0x%llx\n",
(long long)rlc->vcn,
(long long)rlc->lcn,
(long long)rlc->length);
if ((next_lcn >= 0)
&& (rlc->lcn != next_lcn))
runcount->fragments++;
next_lcn = rlc->lcn + rlc->length;
} else
printf("\t\t\t0x%llx\t\t%s\t"
"0x%llx\n",
(long long)rlc->vcn,
ntfs_dump_lcn(rlc->lcn),
(long long)rlc->length);
rlc++;
}
free(rl);
} else
ntfs_log_error("Error: couldn't decompress runlist\n");
}
}
/**
* ntfs_dump_data_attr()
*
* dump some info about the data attribute if it's metadata
*/
static void ntfs_dump_attr_data(ATTR_RECORD *attr, ntfs_inode *ni)
{
if (opts.verbose)
ntfs_dump_sds(attr, ni);
}
typedef enum {
INDEX_ATTR_UNKNOWN,
INDEX_ATTR_DIRECTORY_I30,
INDEX_ATTR_SECURE_SII,
INDEX_ATTR_SECURE_SDH,
INDEX_ATTR_OBJID_O,
INDEX_ATTR_REPARSE_R,
INDEX_ATTR_QUOTA_O,
INDEX_ATTR_QUOTA_Q,
} INDEX_ATTR_TYPE;
static void ntfs_dump_index_key(INDEX_ENTRY *entry, INDEX_ATTR_TYPE type)
{
char *sid;
char printable_GUID[37];
le32 tag;
switch (type) {
case INDEX_ATTR_SECURE_SII:
ntfs_log_verbose("\t\tKey security id:\t %u (0x%x)\n",
(unsigned)
le32_to_cpu(entry->key.sii.security_id),
(unsigned)
le32_to_cpu(entry->key.sii.security_id));
break;
case INDEX_ATTR_SECURE_SDH:
ntfs_log_verbose("\t\tKey hash:\t\t 0x%08x\n",
(unsigned)le32_to_cpu(entry->key.sdh.hash));
ntfs_log_verbose("\t\tKey security id:\t %u (0x%x)\n",
(unsigned)
le32_to_cpu(entry->key.sdh.security_id),
(unsigned)
le32_to_cpu(entry->key.sdh.security_id));
break;
case INDEX_ATTR_OBJID_O:
ntfs_guid_to_mbs(&entry->key.object_id, printable_GUID);
ntfs_log_verbose("\t\tKey GUID:\t\t %s\n", printable_GUID);
break;
case INDEX_ATTR_REPARSE_R:
tag = entry->key.reparse.reparse_tag;
ntfs_log_verbose("\t\tKey reparse tag:\t 0x%08lx%s\n",
(long)le32_to_cpu(tag),
reparse_type_name(tag));
ntfs_log_verbose("\t\tKey file id:\t\t %llu (0x%llx)\n",
(unsigned long long)
le64_to_cpu(entry->key.reparse.file_id),
(unsigned long long)
le64_to_cpu(entry->key.reparse.file_id));
break;
case INDEX_ATTR_QUOTA_O:
sid = ntfs_sid_to_mbs(&entry->key.sid, NULL, 0);
ntfs_log_verbose("\t\tKey SID:\t\t %s\n", sid);
free(sid);
break;
case INDEX_ATTR_QUOTA_Q:
ntfs_log_verbose("\t\tKey owner id:\t\t %u (0x%x)\n",
(unsigned)le32_to_cpu(entry->key.owner_id),
(unsigned)le32_to_cpu(entry->key.owner_id));
break;
default:
ntfs_log_verbose("\t\tIndex attr type is UNKNOWN: \t 0x%08x\n",
(unsigned)type);
break;
}
}
typedef union {
SII_INDEX_DATA sii; /* $SII index data in $Secure */
SDH_INDEX_DATA sdh; /* $SDH index data in $Secure */
QUOTA_O_INDEX_DATA quota_o; /* $O index data in $Quota */
QUOTA_CONTROL_ENTRY quota_q; /* $Q index data in $Quota */
} __attribute__((__packed__)) INDEX_ENTRY_DATA;
static void ntfs_dump_index_data(INDEX_ENTRY *entry, INDEX_ATTR_TYPE type)
{
INDEX_ENTRY_DATA *data;
data = (INDEX_ENTRY_DATA *)((u8 *)entry +
le16_to_cpu(entry->data_offset));
switch (type) {
case INDEX_ATTR_SECURE_SII:
ntfs_log_verbose("\t\tHash:\t\t\t 0x%08x\n",
(unsigned)le32_to_cpu(data->sii.hash));
ntfs_log_verbose("\t\tSecurity id:\t\t %u (0x%x)\n",
(unsigned)le32_to_cpu(data->sii.security_id),
(unsigned)le32_to_cpu(data->sii.security_id));
ntfs_log_verbose("\t\tOffset in $SDS:\t\t %llu (0x%llx)\n",
(unsigned long long)
le64_to_cpu(data->sii.offset),
(unsigned long long)
le64_to_cpu(data->sii.offset));
ntfs_log_verbose("\t\tLength in $SDS:\t\t %u (0x%x)\n",
(unsigned)le32_to_cpu(data->sii.length),
(unsigned)le32_to_cpu(data->sii.length));
break;
case INDEX_ATTR_SECURE_SDH:
ntfs_log_verbose("\t\tHash:\t\t\t 0x%08x\n",
(unsigned)le32_to_cpu(data->sdh.hash));
ntfs_log_verbose("\t\tSecurity id:\t\t %u (0x%x)\n",
(unsigned)le32_to_cpu(data->sdh.security_id),
(unsigned)le32_to_cpu(data->sdh.security_id));
ntfs_log_verbose("\t\tOffset in $SDS:\t\t %llu (0x%llx)\n",
(unsigned long long)
le64_to_cpu(data->sdh.offset),
(unsigned long long)
le64_to_cpu(data->sdh.offset));
ntfs_log_verbose("\t\tLength in $SDS:\t\t %u (0x%x)\n",
(unsigned)le32_to_cpu(data->sdh.length),
(unsigned)le32_to_cpu(data->sdh.length));
ntfs_log_verbose("\t\tUnknown (padding):\t 0x%08x\n",
(unsigned)le32_to_cpu(data->sdh.reserved_II));
break;
case INDEX_ATTR_OBJID_O: {
OBJ_ID_INDEX_DATA *object_id_data;
char printable_GUID[37];
object_id_data = (OBJ_ID_INDEX_DATA*)((u8*)entry +
le16_to_cpu(entry->data_offset));
ntfs_log_verbose("\t\tMFT Number:\t\t 0x%llx\n",
(unsigned long long)
MREF_LE(object_id_data->mft_reference));
ntfs_log_verbose("\t\tMFT Sequence Number:\t 0x%x\n",
(unsigned)
MSEQNO_LE(object_id_data->mft_reference));
ntfs_guid_to_mbs(&object_id_data->birth_volume_id,
printable_GUID);
ntfs_log_verbose("\t\tBirth volume id GUID:\t %s\n",
printable_GUID);
ntfs_guid_to_mbs(&object_id_data->birth_object_id,
printable_GUID);
ntfs_log_verbose("\t\tBirth object id GUID:\t %s\n",
printable_GUID);
ntfs_guid_to_mbs(&object_id_data->domain_id, printable_GUID);
ntfs_log_verbose("\t\tDomain id GUID:\t\t %s\n",
printable_GUID);
}
break;
case INDEX_ATTR_REPARSE_R:
/* TODO */
break;
case INDEX_ATTR_QUOTA_O:
ntfs_log_verbose("\t\tOwner id:\t\t %u (0x%x)\n",
(unsigned)le32_to_cpu(data->quota_o.owner_id),
(unsigned)le32_to_cpu(data->quota_o.owner_id));
ntfs_log_verbose("\t\tUnknown:\t\t %u (0x%x)\n",
(unsigned)le32_to_cpu(data->quota_o.unknown),
(unsigned)le32_to_cpu(data->quota_o.unknown));
break;
case INDEX_ATTR_QUOTA_Q:
ntfs_log_verbose("\t\tVersion:\t\t %u\n",
(unsigned)le32_to_cpu(data->quota_q.version));
ntfs_log_verbose("\t\tQuota flags:\t\t 0x%08x\n",
(unsigned)le32_to_cpu(data->quota_q.flags));
ntfs_log_verbose("\t\tBytes used:\t\t %llu (0x%llx)\n",
(unsigned long long)
le64_to_cpu(data->quota_q.bytes_used),
(unsigned long long)
le64_to_cpu(data->quota_q.bytes_used));
ntfs_log_verbose("\t\tLast changed:\t\t %s",
ntfsinfo_time_to_str(
data->quota_q.change_time));
ntfs_log_verbose("\t\tThreshold:\t\t %lld (0x%llx)\n",
(unsigned long long)
sle64_to_cpu(data->quota_q.threshold),
(unsigned long long)
sle64_to_cpu(data->quota_q.threshold));
ntfs_log_verbose("\t\tLimit:\t\t\t %lld (0x%llx)\n",
(unsigned long long)
sle64_to_cpu(data->quota_q.limit),
(unsigned long long)
sle64_to_cpu(data->quota_q.limit));
ntfs_log_verbose("\t\tExceeded time:\t\t %lld (0x%llx)\n",
(unsigned long long)
sle64_to_cpu(data->quota_q.exceeded_time),
(unsigned long long)
sle64_to_cpu(data->quota_q.exceeded_time));
if (le16_to_cpu(entry->data_length) > 48) {
char *sid;
sid = ntfs_sid_to_mbs(&data->quota_q.sid, NULL, 0);
ntfs_log_verbose("\t\tOwner SID:\t\t %s\n", sid);
free(sid);
}
break;
default:
ntfs_log_verbose("\t\tIndex attr type is UNKNOWN: \t 0x%08x\n",
(unsigned)type);
break;
}
}
/**
* ntfs_dump_index_entries()
*
* dump sequence of index_entries and return number of entries dumped.
*/
static int ntfs_dump_index_entries(INDEX_ENTRY *entry, INDEX_ATTR_TYPE type)
{
int numb_entries = 1;
while (1) {
if (!opts.verbose) {
if (entry->ie_flags & INDEX_ENTRY_END)
break;
entry = (INDEX_ENTRY *)((u8 *)entry +
le16_to_cpu(entry->length));
numb_entries++;
continue;
}
ntfs_log_verbose("\t\tEntry length:\t\t %u (0x%x)\n",
(unsigned)le16_to_cpu(entry->length),
(unsigned)le16_to_cpu(entry->length));
ntfs_log_verbose("\t\tKey length:\t\t %u (0x%x)\n",
(unsigned)le16_to_cpu(entry->key_length),
(unsigned)le16_to_cpu(entry->key_length));
ntfs_log_verbose("\t\tIndex entry flags:\t 0x%02x\n",
(unsigned)le16_to_cpu(entry->ie_flags));
if (entry->ie_flags & INDEX_ENTRY_NODE)
ntfs_log_verbose("\t\tSubnode VCN:\t\t %lld (0x%llx)\n",
(long long)ntfs_ie_get_vcn(entry),
(long long)ntfs_ie_get_vcn(entry));
if (entry->ie_flags & INDEX_ENTRY_END)
break;
switch (type) {
case INDEX_ATTR_DIRECTORY_I30:
ntfs_log_verbose("\t\tFILE record number:\t %llu "
"(0x%llx)\n", (unsigned long long)
MREF_LE(entry->indexed_file),
(unsigned long long)
MREF_LE(entry->indexed_file));
ntfs_dump_filename("\t\t", &entry->key.file_name);
break;
default:
ntfs_log_verbose("\t\tData offset:\t\t %u (0x%x)\n",
(unsigned)
le16_to_cpu(entry->data_offset),
(unsigned)
le16_to_cpu(entry->data_offset));
ntfs_log_verbose("\t\tData length:\t\t %u (0x%x)\n",
(unsigned)
le16_to_cpu(entry->data_length),
(unsigned)
le16_to_cpu(entry->data_length));
ntfs_dump_index_key(entry, type);
ntfs_log_verbose("\t\tKey Data:\n");
ntfs_dump_index_data(entry, type);
break;
}
if (!entry->length) {
ntfs_log_verbose("\tWARNING: Corrupt index entry, "
"skipping the remainder of this index "
"block.\n");
break;
}
entry = (INDEX_ENTRY*)((u8*)entry + le16_to_cpu(entry->length));
numb_entries++;
ntfs_log_verbose("\n");
}
ntfs_log_verbose("\tEnd of index block reached\n");
return numb_entries;
}
#define COMPARE_INDEX_NAMES(attr, name) \
ntfs_names_are_equal((name), sizeof(name) / 2 - 1, \
(ntfschar*)((char*)(attr) + le16_to_cpu((attr)->name_offset)), \
(attr)->name_length, CASE_SENSITIVE, NULL, 0)
static INDEX_ATTR_TYPE get_index_attr_type(ntfs_inode *ni, ATTR_RECORD *attr,
INDEX_ROOT *index_root)
{
char file_name[64];
if (!attr->name_length)
return INDEX_ATTR_UNKNOWN;
if (index_root->type) {
if (index_root->type == AT_FILE_NAME)
return INDEX_ATTR_DIRECTORY_I30;
else
/* weird, this should be illegal */
ntfs_log_error("Unknown index attribute type: 0x%0X\n",
le32_to_cpu(index_root->type));
return INDEX_ATTR_UNKNOWN;
}
if (utils_is_metadata(ni) <= 0)
return INDEX_ATTR_UNKNOWN;
if (utils_inode_get_name(ni, file_name, sizeof(file_name)) <= 0)
return INDEX_ATTR_UNKNOWN;
if (COMPARE_INDEX_NAMES(attr, NTFS_INDEX_SDH))
return INDEX_ATTR_SECURE_SDH;
else if (COMPARE_INDEX_NAMES(attr, NTFS_INDEX_SII))
return INDEX_ATTR_SECURE_SII;
else if (COMPARE_INDEX_NAMES(attr, NTFS_INDEX_SII))
return INDEX_ATTR_SECURE_SII;
else if (COMPARE_INDEX_NAMES(attr, NTFS_INDEX_Q))
return INDEX_ATTR_QUOTA_Q;
else if (COMPARE_INDEX_NAMES(attr, NTFS_INDEX_R))
return INDEX_ATTR_REPARSE_R;
else if (COMPARE_INDEX_NAMES(attr, NTFS_INDEX_O)) {
if (!strcmp(file_name, "/$Extend/$Quota"))
return INDEX_ATTR_QUOTA_O;
else if (!strcmp(file_name, "/$Extend/$ObjId"))
return INDEX_ATTR_OBJID_O;
}
return INDEX_ATTR_UNKNOWN;
}
static void ntfs_dump_index_attr_type(INDEX_ATTR_TYPE type)
{
if (type == INDEX_ATTR_DIRECTORY_I30)
printf("DIRECTORY_I30");
else if (type == INDEX_ATTR_SECURE_SDH)
printf("SECURE_SDH");
else if (type == INDEX_ATTR_SECURE_SII)
printf("SECURE_SII");
else if (type == INDEX_ATTR_OBJID_O)
printf("OBJID_O");
else if (type == INDEX_ATTR_QUOTA_O)
printf("QUOTA_O");
else if (type == INDEX_ATTR_QUOTA_Q)
printf("QUOTA_Q");
else if (type == INDEX_ATTR_REPARSE_R)
printf("REPARSE_R");
else
printf("UNKNOWN");
printf("\n");
}
static void ntfs_dump_index_header(const char *indent, INDEX_HEADER *idx)
{
printf("%sEntries Offset:\t\t %u (0x%x)\n", indent,
(unsigned)le32_to_cpu(idx->entries_offset),
(unsigned)le32_to_cpu(idx->entries_offset));
printf("%sIndex Size:\t\t %u (0x%x)\n", indent,
(unsigned)le32_to_cpu(idx->index_length),
(unsigned)le32_to_cpu(idx->index_length));
printf("%sAllocated Size:\t\t %u (0x%x)\n", indent,
(unsigned)le32_to_cpu(idx->allocated_size),
(unsigned)le32_to_cpu(idx->allocated_size));
printf("%sIndex header flags:\t 0x%02x\n", indent, idx->ih_flags);
/* FIXME: there are 3 reserved bytes here */
}
/**
* ntfs_dump_attr_index_root()
*
* dump the index_root attribute
*/
static void ntfs_dump_attr_index_root(ATTR_RECORD *attr, ntfs_inode *ni)
{
INDEX_ATTR_TYPE type;
INDEX_ROOT *index_root = NULL;
INDEX_ENTRY *entry;
index_root = (INDEX_ROOT*)((u8*)attr + le16_to_cpu(attr->value_offset));
/* attr_type dumping */
type = get_index_attr_type(ni, attr, index_root);
printf("\tIndexed Attr Type:\t ");
ntfs_dump_index_attr_type(type);
/* collation rule dumping */
printf("\tCollation Rule:\t\t %u (0x%x)\n",
(unsigned)le32_to_cpu(index_root->collation_rule),
(unsigned)le32_to_cpu(index_root->collation_rule));
/* COLLATION_BINARY, COLLATION_FILE_NAME, COLLATION_UNICODE_STRING,
COLLATION_NTOFS_ULONG, COLLATION_NTOFS_SID,
COLLATION_NTOFS_SECURITY_HASH, COLLATION_NTOFS_ULONGS */
printf("\tIndex Block Size:\t %u (0x%x)\n",
(unsigned)le32_to_cpu(index_root->index_block_size),
(unsigned)le32_to_cpu(index_root->index_block_size));
if (le32_to_cpu(index_root->index_block_size) < ni->vol->cluster_size)
printf("\t512-byte Units Per Block:\t %u (0x%x)\n",
(unsigned)index_root->clusters_per_index_block,
(unsigned)index_root->clusters_per_index_block);
else
printf("\tClusters Per Block:\t %u (0x%x)\n",
(unsigned)index_root->clusters_per_index_block,
(unsigned)index_root->clusters_per_index_block);
ntfs_dump_index_header("\t", &index_root->index);
entry = (INDEX_ENTRY*)((u8*)index_root +
le32_to_cpu(index_root->index.entries_offset) + 0x10);
ntfs_log_verbose("\tDumping index root:\n");
printf("\tIndex entries total:\t %d\n",
ntfs_dump_index_entries(entry, type));
}
static void ntfs_dump_usa_lsn(const char *indent, MFT_RECORD *mrec)
{
printf("%sUpd. Seq. Array Off.:\t %u (0x%x)\n", indent,
(unsigned)le16_to_cpu(mrec->usa_ofs),
(unsigned)le16_to_cpu(mrec->usa_ofs));
printf("%sUpd. Seq. Array Count:\t %u (0x%x)\n", indent,
(unsigned)le16_to_cpu(mrec->usa_count),
(unsigned)le16_to_cpu(mrec->usa_count));
printf("%sUpd. Seq. Number:\t %u (0x%x)\n", indent,
(unsigned)le16_to_cpup((le16*)((u8*)mrec +
le16_to_cpu(mrec->usa_ofs))),
(unsigned)le16_to_cpup((le16*)((u8*)mrec +
le16_to_cpu(mrec->usa_ofs))));
printf("%sLogFile Seq. Number:\t 0x%llx\n", indent,
(unsigned long long)sle64_to_cpu(mrec->lsn));
}
static s32 ntfs_dump_index_block(INDEX_BLOCK *ib, INDEX_ATTR_TYPE type,
u32 ib_size)
{
INDEX_ENTRY *entry;
if (ntfs_mst_post_read_fixup((NTFS_RECORD*)ib, ib_size)) {
ntfs_log_perror("Damaged INDX record");
return -1;
}
ntfs_log_verbose("\tDumping index block:\n");
if (opts.verbose)
ntfs_dump_usa_lsn("\t\t", (MFT_RECORD*)ib);
ntfs_log_verbose("\t\tNode VCN:\t\t %lld (0x%llx)\n",
(unsigned long long)sle64_to_cpu(ib->index_block_vcn),
(unsigned long long)sle64_to_cpu(ib->index_block_vcn));
entry = (INDEX_ENTRY*)((u8*)ib +
le32_to_cpu(ib->index.entries_offset) + 0x18);
if (opts.verbose) {
ntfs_dump_index_header("\t\t", &ib->index);
printf("\n");
}
return ntfs_dump_index_entries(entry, type);
}
/**
* ntfs_dump_attr_index_allocation()
*
* dump context of the index_allocation attribute
*/
static void ntfs_dump_attr_index_allocation(ATTR_RECORD *attr, ntfs_inode *ni)
{
INDEX_ALLOCATION *allocation, *tmp_alloc;
INDEX_ROOT *ir;
INDEX_ATTR_TYPE type;
int total_entries = 0;
int total_indx_blocks = 0;
u8 *bitmap, *byte;
int bit;
ntfschar *name;
u32 name_len;
s64 data_size;
ir = ntfs_index_root_get(ni, attr);
if (!ir) {
ntfs_log_perror("Failed to read $INDEX_ROOT attribute");
return;
}
type = get_index_attr_type(ni, attr, ir);
name = (ntfschar *)((u8 *)attr + le16_to_cpu(attr->name_offset));
name_len = attr->name_length;
byte = bitmap = ntfs_attr_readall(ni, AT_BITMAP, name, name_len, NULL);
if (!byte) {
ntfs_log_perror("Failed to read $BITMAP attribute");
goto out_index_root;
}
tmp_alloc = allocation = ntfs_attr_readall(ni, AT_INDEX_ALLOCATION,
name, name_len, &data_size);
if (!tmp_alloc) {
ntfs_log_perror("Failed to read $INDEX_ALLOCATION attribute");
goto out_bitmap;
}
bit = 0;
while ((u8 *)tmp_alloc < (u8 *)allocation + data_size) {
if (*byte & (1 << bit)) {
int entries;
entries = ntfs_dump_index_block(tmp_alloc, type,
le32_to_cpu(
ir->index_block_size));
if (entries != -1) {
total_entries += entries;
total_indx_blocks++;
ntfs_log_verbose("\tIndex entries:\t\t %d\n",
entries);
}
}
tmp_alloc = (INDEX_ALLOCATION *)((u8 *)tmp_alloc +
le32_to_cpu(
ir->index_block_size));
bit++;
if (bit > 7) {
bit = 0;
byte++;
}
}
printf("\tIndex entries total:\t %d\n", total_entries);
printf("\tINDX blocks total:\t %d\n", total_indx_blocks);
free(allocation);
out_bitmap:
free(bitmap);
out_index_root:
free(ir);
}
/**
* ntfs_dump_attr_bitmap()
*
* dump the bitmap attribute
*/
static void ntfs_dump_attr_bitmap(ATTR_RECORD *attr __attribute__((unused)))
{
/* TODO */
}
/**
* ntfs_dump_attr_reparse_point()
*
* of ntfs 3.x dumps the reparse_point attribute
*/
static void ntfs_dump_attr_reparse_point(ATTR_RECORD *attr
__attribute__((unused)), ntfs_inode *inode)
{
REPARSE_POINT *reparse;
le32 tag;
const char *name;
u8 *pvalue;
s64 size;
unsigned int length;
unsigned int cnt;
if (attr->non_resident) {
reparse = ntfs_attr_readall(inode, AT_REPARSE_POINT,
(ntfschar*)NULL, 0, &size);
} else {
reparse = (REPARSE_POINT*)((u8*)attr +
le16_to_cpu(attr->value_offset));
}
if (reparse) {
tag = reparse->reparse_tag;
name = reparse_type_name(tag);
printf("\tReparse tag:\t\t 0x%08lx%s\n",
(long)le32_to_cpu(tag),name);
length = le16_to_cpu(reparse->reparse_data_length);
printf("\tData length:\t\t %u (0x%x)\n",
(unsigned int)length,(unsigned int)length);
cnt = length;
pvalue = reparse->reparse_data;
printf("\tData:\t\t\t");
printf(cnt ? " 0x" : "(NONE)");
if (cnt > 32)
cnt = 32;
while (cnt-- > 0)
printf("%02x",*pvalue++);
if (length > 32)
printf("...\n");
else
printf("\n");
if (attr->non_resident)
free(reparse);
} else {
ntfs_log_perror("Failed to get the reparse data");
}
}
/**
* ntfs_dump_attr_ea_information()
*
* dump the ea_information attribute
*/
static void ntfs_dump_attr_ea_information(ATTR_RECORD *attr)
{
EA_INFORMATION *ea_info;
ea_info = (EA_INFORMATION*)((u8*)attr +
le16_to_cpu(attr->value_offset));
printf("\tPacked EA length:\t %u (0x%x)\n",
(unsigned)le16_to_cpu(ea_info->ea_length),
(unsigned)le16_to_cpu(ea_info->ea_length));
printf("\tNEED_EA count:\t\t %u (0x%x)\n",
(unsigned)le16_to_cpu(ea_info->need_ea_count),
(unsigned)le16_to_cpu(ea_info->need_ea_count));
printf("\tUnpacked EA length:\t %u (0x%x)\n",
(unsigned)le32_to_cpu(ea_info->ea_query_length),
(unsigned)le32_to_cpu(ea_info->ea_query_length));
}
/**
* ntfs_dump_attr_ea()
*
* dump the ea attribute
*/
static void ntfs_dump_attr_ea(ATTR_RECORD *attr, ntfs_volume *vol)
{
const EA_ATTR *ea;
const u8 *pvalue;
u8 *buf = NULL;
const le32 *pval;
int offset;
int cnt;
s64 data_size;
if (attr->non_resident) {
runlist *rl;
data_size = sle64_to_cpu(attr->data_size);
if (!opts.verbose)
return;
/* FIXME: We don't handle fragmented mapping pairs case. */
rl = ntfs_mapping_pairs_decompress(vol, attr, NULL);
if (rl) {
s64 bytes_read;
buf = ntfs_malloc(data_size);
if (!buf) {
free(rl);
return;
}
bytes_read = ntfs_rl_pread(vol, rl, 0, data_size, buf);
if (bytes_read != data_size) {
ntfs_log_perror("ntfs_rl_pread failed");
free(buf);
free(rl);
return;
}
free(rl);
ea = (EA_ATTR*)buf;
} else {
ntfs_log_perror("ntfs_mapping_pairs_decompress failed");
return;
}
} else {
data_size = le32_to_cpu(attr->value_length);
if (!opts.verbose)
return;
ea = (EA_ATTR*)((u8*)attr + le16_to_cpu(attr->value_offset));
}
offset = 0;
while (1) {
printf("\n\tEA flags:\t\t ");
if (ea->flags) {
if (ea->flags == NEED_EA)
printf("NEED_EA\n");
else
printf("Unknown (0x%02x)\n",
(unsigned)ea->flags);
} else
printf("NONE\n");
printf("\tName length:\t %d (0x%x)\n",
(unsigned)ea->name_length,
(unsigned)ea->name_length);
printf("\tValue length:\t %d (0x%x)\n",
(unsigned)le16_to_cpu(ea->value_length),
(unsigned)le16_to_cpu(ea->value_length));
/* Name expected to be null terminated ? */
printf("\tName:\t\t '%s'\n", ea->name);
printf("\tValue:\t\t ");
if (ea->name_length == 11 &&
!strncmp((const char*)"SETFILEBITS",
(const char*)ea->name, 11)) {
pval = (const le32*)(ea->value + ea->name_length + 1);
printf("0%lo\n", (unsigned long)le32_to_cpu(*pval));
} else {
/* No alignment for value */
pvalue = ea->value + ea->name_length + 1;
/* Hex show a maximum of 32 bytes */
cnt = le16_to_cpu(ea->value_length);
printf(cnt ? "0x" : "(NONE)");
if (cnt > 32)
cnt = 32;
while (cnt-- > 0)
printf("%02x",*pvalue++);
if (le16_to_cpu(ea->value_length) > 32)
printf("...\n");
else
printf("\n");
}
if (ea->next_entry_offset) {
offset += le32_to_cpu(ea->next_entry_offset);
ea = (const EA_ATTR*)((const u8*)ea
+ le32_to_cpu(ea->next_entry_offset));
} else
break;
if (offset >= data_size)
break;
}
free(buf);
}
/**
* ntfs_dump_attr_property_set()
*
* dump the property_set attribute
*/
static void ntfs_dump_attr_property_set(ATTR_RECORD *attr __attribute__((unused)))
{
/* TODO */
}
static void ntfs_hex_dump(void *buf,unsigned int length);
/**
* ntfs_dump_attr_logged_utility_stream()
*
* dump the property_set attribute
*/
static void ntfs_dump_attr_logged_utility_stream(ATTR_RECORD *attr,
ntfs_inode *ni)
{
char *buf;
s64 size;
if (!opts.verbose)
return;
buf = ntfs_attr_readall(ni, AT_LOGGED_UTILITY_STREAM,
ntfs_attr_get_name(attr), attr->name_length, &size);
if (buf)
ntfs_hex_dump(buf, size);
free(buf);
/* TODO */
}
/**
* ntfs_hex_dump
*/
static void ntfs_hex_dump(void *buf,unsigned int length)
{
unsigned int i=0;
while (i<length) {
unsigned int j;
/* line start */
printf("\t%04X ",i);
/* hex content */
for (j=i;(j<length) && (j<i+16);j++) {
unsigned char c = *((char *)buf + j);
printf("%02hhX ",c);
}
/* realign */
for (;j<i+16;j++) {
printf(" ");
}
/* char content */
for (j=i;(j<length) && (j<i+16);j++) {
unsigned char c = *((char *)buf + j);
/* display unprintable chars as '.' */
if ((c<32) || (c>126)) {
c = '.';
}
printf("%c",c);
}
/* end line */
printf("\n");
i=j;
}
}
/**
* ntfs_dump_attr_unknown
*/
static void ntfs_dump_attr_unknown(ATTR_RECORD *attr)
{
printf("===== Please report this unknown attribute type to %s =====\n",
NTFS_DEV_LIST);
if (!attr->non_resident) {
/* hex dump */
printf("\tDumping some of the attribute data:\n");
ntfs_hex_dump((u8*)attr + le16_to_cpu(attr->value_offset),
(le32_to_cpu(attr->value_length) > 128) ?
128 : le32_to_cpu(attr->value_length));
}
}
/**
* ntfs_dump_inode_general_info
*/
static void ntfs_dump_inode_general_info(ntfs_inode *inode)
{
MFT_RECORD *mrec = inode->mrec;
le16 inode_flags = mrec->flags;
printf("Dumping Inode %llu (0x%llx)\n",
(long long)inode->mft_no,
(unsigned long long)inode->mft_no);
ntfs_dump_usa_lsn("", mrec);
printf("MFT Record Seq. Numb.:\t %u (0x%x)\n",
(unsigned)le16_to_cpu(mrec->sequence_number),
(unsigned)le16_to_cpu(mrec->sequence_number));
printf("Number of Hard Links:\t %u (0x%x)\n",
(unsigned)le16_to_cpu(mrec->link_count),
(unsigned)le16_to_cpu(mrec->link_count));
printf("Attribute Offset:\t %u (0x%x)\n",
(unsigned)le16_to_cpu(mrec->attrs_offset),
(unsigned)le16_to_cpu(mrec->attrs_offset));
printf("MFT Record Flags:\t ");
if (inode_flags) {
if (MFT_RECORD_IN_USE & inode_flags) {
printf("IN_USE ");
inode_flags &= ~MFT_RECORD_IN_USE;
}
if (MFT_RECORD_IS_DIRECTORY & inode_flags) {
printf("DIRECTORY ");
inode_flags &= ~MFT_RECORD_IS_DIRECTORY;
}
/* The meaning of IS_4 is illusive but not its existence. */
if (MFT_RECORD_IS_4 & inode_flags) {
printf("IS_4 ");
inode_flags &= ~MFT_RECORD_IS_4;
}
if (MFT_RECORD_IS_VIEW_INDEX & inode_flags) {
printf("VIEW_INDEX ");
inode_flags &= ~MFT_RECORD_IS_VIEW_INDEX;
}
if (inode_flags)
printf("UNKNOWN: 0x%04x", (unsigned)le16_to_cpu(
inode_flags));
} else {
printf("none");
}
printf("\n");
printf("Bytes Used:\t\t %u (0x%x) bytes\n",
(unsigned)le32_to_cpu(mrec->bytes_in_use),
(unsigned)le32_to_cpu(mrec->bytes_in_use));
printf("Bytes Allocated:\t %u (0x%x) bytes\n",
(unsigned)le32_to_cpu(mrec->bytes_allocated),
(unsigned)le32_to_cpu(mrec->bytes_allocated));
if (mrec->base_mft_record) {
printf("Base MFT Record:\t %llu (0x%llx)\n",
(unsigned long long)
MREF_LE(mrec->base_mft_record),
(unsigned long long)
MREF_LE(mrec->base_mft_record));
}
printf("Next Attribute Instance: %u (0x%x)\n",
(unsigned)le16_to_cpu(mrec->next_attr_instance),
(unsigned)le16_to_cpu(mrec->next_attr_instance));
printf("MFT Padding:\t");
ntfs_dump_bytes((u8 *)mrec, le16_to_cpu(mrec->usa_ofs) +
2 * le16_to_cpu(mrec->usa_count),
le16_to_cpu(mrec->attrs_offset));
printf("\n");
}
/**
* ntfs_get_file_attributes
*/
static void ntfs_dump_file_attributes(ntfs_inode *inode)
{
struct RUNCOUNT runcount;
ntfs_attr_search_ctx *ctx = NULL;
runcount.runs = 0;
runcount.fragments = 0;
/* then start enumerating attributes
see ntfs_attr_lookup documentation for detailed explanation */
ctx = ntfs_attr_get_search_ctx(inode, NULL);
while (!ntfs_attr_lookup(AT_UNUSED, NULL, 0, CASE_SENSITIVE,
0, NULL, 0, ctx)) {
if (ctx->attr->type == AT_END || ctx->attr->type == AT_UNUSED) {
printf("Weird: %s attribute type was found, please "
"report this.\n",
get_attribute_type_name(
ctx->attr->type));
continue;
}
ntfs_dump_attribute_header(ctx, inode->vol, &runcount);
switch (ctx->attr->type) {
case AT_STANDARD_INFORMATION:
ntfs_dump_attr_standard_information(ctx->attr);
break;
case AT_ATTRIBUTE_LIST:
ntfs_dump_attr_list(ctx->attr, inode->vol);
break;
case AT_FILE_NAME:
ntfs_dump_attr_file_name(ctx->attr);
break;
case AT_OBJECT_ID:
ntfs_dump_attr_object_id(ctx->attr, inode->vol);
break;
case AT_SECURITY_DESCRIPTOR:
ntfs_dump_attr_security_descriptor(ctx->attr,
inode->vol);
break;
case AT_VOLUME_NAME:
ntfs_dump_attr_volume_name(ctx->attr);
break;
case AT_VOLUME_INFORMATION:
ntfs_dump_attr_volume_information(ctx->attr);
break;
case AT_DATA:
ntfs_dump_attr_data(ctx->attr, inode);
break;
case AT_INDEX_ROOT:
ntfs_dump_attr_index_root(ctx->attr, inode);
break;
case AT_INDEX_ALLOCATION:
ntfs_dump_attr_index_allocation(ctx->attr, inode);
break;
case AT_BITMAP:
ntfs_dump_attr_bitmap(ctx->attr);
break;
case AT_REPARSE_POINT:
ntfs_dump_attr_reparse_point(ctx->attr, inode);
break;
case AT_EA_INFORMATION:
ntfs_dump_attr_ea_information(ctx->attr);
break;
case AT_EA:
ntfs_dump_attr_ea(ctx->attr, inode->vol);
break;
case AT_PROPERTY_SET:
ntfs_dump_attr_property_set(ctx->attr);
break;
case AT_LOGGED_UTILITY_STREAM:
ntfs_dump_attr_logged_utility_stream(ctx->attr, inode);
break;
default:
ntfs_dump_attr_unknown(ctx->attr);
}
}
/* if we exited the loop before we're done - notify the user */
if (errno != ENOENT) {
ntfs_log_perror("ntfsinfo error: stopped before finished "
"enumerating attributes");
} else {
printf("End of inode reached\n");
if (opts.verbose) {
printf("Total runs: %lu (fragments: %lu)\n",
runcount.runs, runcount.fragments);
}
}
/* close all data-structures we used */
ntfs_attr_put_search_ctx(ctx);
ntfs_inode_close(inode);
}
/**
* main() - Begin here
*
* Start from here.
*
* Return: 0 Success, the program worked
* 1 Error, something went wrong
*/
int main(int argc, char **argv)
{
ntfs_volume *vol;
int res;
setlinebuf(stdout);
ntfs_log_set_handler(ntfs_log_handler_outerr);
res = parse_options(argc, argv);
if (res > 0)
printf("Failed to parse command line options\n");
if (res >= 0)
exit(res);
utils_set_locale();
vol = utils_mount_volume(opts.device, NTFS_MNT_RDONLY |
(opts.force ? NTFS_MNT_RECOVER : 0));
if (!vol) {
printf("Failed to open '%s'.\n", opts.device);
exit(1);
}
/*
* if opts.mft is not 0, then we will print out information about
* the volume, such as the sector size and whatnot.
*/
if (opts.mft)
ntfs_dump_volume(vol);
if ((opts.inode != -1) || opts.filename) {
ntfs_inode *inode;
/* obtain the inode */
if (opts.filename) {
#ifdef HAVE_WINDOWS_H
char *unix_name;
unix_name = ntfs_utils_unix_path(opts.filename);
if (unix_name) {
inode = ntfs_pathname_to_inode(vol, NULL,
unix_name);
free(unix_name);
} else
inode = (ntfs_inode*)NULL;
#else
inode = ntfs_pathname_to_inode(vol, NULL,
opts.filename);
#endif
} else {
inode = ntfs_inode_open(vol, MK_MREF(opts.inode, 0));
}
/* dump the inode information */
if (inode) {
/* general info about the inode's mft record */
ntfs_dump_inode_general_info(inode);
/* dump attributes */
ntfs_dump_file_attributes(inode);
} else {
/* can't open inode */
/*
* note: when the specified inode does not exist, either
* EIO or or ESPIPE is returned, we should notify better
* in those cases
*/
ntfs_log_perror("Error loading node");
}
}
ntfs_umount(vol, FALSE);
return 0;
}
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