usbloadergx/source/libntfs/security.c

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2009-12-19 15:06:57 +01:00
/**
* security.c - Handling security/ACLs in NTFS. Originated from the Linux-NTFS project.
*
* Copyright (c) 2004 Anton Altaparmakov
* Copyright (c) 2005-2006 Szabolcs Szakacsits
* Copyright (c) 2006 Yura Pakhuchiy
* Copyright (c) 2007-2009 Jean-Pierre Andre
*
* This program/include file 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/include file 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 NTFS-3G
* distribution in the file COPYING); if not, write to the Free Software
* Foundation,Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#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_ERRNO_H
#include <errno.h>
#endif
#ifdef HAVE_FCNTL_H
#include <fcntl.h>
#endif
#ifdef HAVE_SYS_STAT_H
#include <sys/stat.h>
#endif
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#ifdef HAVE_SETXATTR
#include <sys/xattr.h>
#endif
#include <unistd.h>
#include <pwd.h>
#include <grp.h>
#include "types.h"
#include "layout.h"
#include "attrib.h"
#include "index.h"
#include "dir.h"
#include "bitmap.h"
#include "security.h"
#include "acls.h"
#include "misc.h"
/*
* JPA NTFS constants or structs
* should be moved to layout.h
*/
#define ALIGN_SDS_BLOCK 0x40000 /* Alignment for a $SDS block */
#define ALIGN_SDS_ENTRY 16 /* Alignment for a $SDS entry */
#define STUFFSZ 0x4000 /* unitary stuffing size for $SDS */
#define FIRST_SECURITY_ID 0x100 /* Lowest security id */
/* Mask for attributes which can be forced */
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#define FILE_ATTR_SETTABLE ( FILE_ATTR_READONLY \
| FILE_ATTR_HIDDEN \
| FILE_ATTR_SYSTEM \
| FILE_ATTR_ARCHIVE \
| FILE_ATTR_TEMPORARY \
| FILE_ATTR_OFFLINE \
| FILE_ATTR_NOT_CONTENT_INDEXED )
struct SII { /* this is an image of an $SII index entry */
le16 offs;
le16 size;
le32 fill1;
le16 indexsz;
le16 indexksz;
le16 flags;
le16 fill2;
le32 keysecurid;
/* did not find official description for the following */
le32 hash;
le32 securid;
le32 dataoffsl; /* documented as badly aligned */
le32 dataoffsh;
le32 datasize;
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} ;
struct SDH { /* this is an image of an $SDH index entry */
le16 offs;
le16 size;
le32 fill1;
le16 indexsz;
le16 indexksz;
le16 flags;
le16 fill2;
le32 keyhash;
le32 keysecurid;
/* did not find official description for the following */
le32 hash;
le32 securid;
le32 dataoffsl;
le32 dataoffsh;
le32 datasize;
le32 fill3;
} ;
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/*
* A few useful constants
*/
static ntfschar sii_stream[] = { const_cpu_to_le16('$'),
const_cpu_to_le16('S'),
const_cpu_to_le16('I'),
const_cpu_to_le16('I'),
const_cpu_to_le16(0) };
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static ntfschar sdh_stream[] = { const_cpu_to_le16('$'),
const_cpu_to_le16('S'),
const_cpu_to_le16('D'),
const_cpu_to_le16('H'),
const_cpu_to_le16(0) };
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/*
* null SID (S-1-0-0)
*/
extern const SID *nullsid;
/*
* The zero GUID.
*/
static const GUID __zero_guid = { const_cpu_to_le32(0), const_cpu_to_le16(0),
const_cpu_to_le16(0), { 0, 0, 0, 0, 0, 0, 0, 0 } };
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static const GUID *const zero_guid = &__zero_guid;
/**
* ntfs_guid_is_zero - check if a GUID is zero
* @guid: [IN] guid to check
*
* Return TRUE if @guid is a valid pointer to a GUID and it is the zero GUID
* and FALSE otherwise.
*/
BOOL ntfs_guid_is_zero(const GUID *guid)
{
return (memcmp(guid, zero_guid, sizeof(*zero_guid)));
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}
/**
* ntfs_guid_to_mbs - convert a GUID to a multi byte string
* @guid: [IN] guid to convert
* @guid_str: [OUT] string in which to return the GUID (optional)
*
* Convert the GUID pointed to by @guid to a multi byte string of the form
* "XXXXXXXX-XXXX-XXXX-XXXX-XXXXXXXXXXXX". Therefore, @guid_str (if not NULL)
* needs to be able to store at least 37 bytes.
*
* If @guid_str is not NULL it will contain the converted GUID on return. If
* it is NULL a string will be allocated and this will be returned. The caller
* is responsible for free()ing the string in that case.
*
* On success return the converted string and on failure return NULL with errno
* set to the error code.
*/
char *ntfs_guid_to_mbs(const GUID *guid, char *guid_str)
{
char *_guid_str;
int res;
if (!guid) {
errno = EINVAL;
return NULL;
}
_guid_str = guid_str;
if (!_guid_str) {
_guid_str = (char*)ntfs_malloc(37);
if (!_guid_str)
return _guid_str;
}
res = snprintf(_guid_str, 37,
"%08x-%04x-%04x-%02x%02x-%02x%02x%02x%02x%02x%02x",
(unsigned int)le32_to_cpu(guid->data1),
le16_to_cpu(guid->data2), le16_to_cpu(guid->data3),
guid->data4[0], guid->data4[1],
guid->data4[2], guid->data4[3], guid->data4[4],
guid->data4[5], guid->data4[6], guid->data4[7]);
if (res == 36)
return _guid_str;
if (!guid_str)
free(_guid_str);
errno = EINVAL;
return NULL;
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}
/**
* ntfs_sid_to_mbs_size - determine maximum size for the string of a SID
* @sid: [IN] SID for which to determine the maximum string size
*
* Determine the maximum multi byte string size in bytes which is needed to
* store the standard textual representation of the SID pointed to by @sid.
* See ntfs_sid_to_mbs(), below.
*
* On success return the maximum number of bytes needed to store the multi byte
* string and on failure return -1 with errno set to the error code.
*/
int ntfs_sid_to_mbs_size(const SID *sid)
{
int size, i;
if (!ntfs_sid_is_valid(sid)) {
errno = EINVAL;
return -1;
}
/* Start with "S-". */
size = 2;
/*
* Add the SID_REVISION. Hopefully the compiler will optimize this
* away as SID_REVISION is a constant.
*/
for (i = SID_REVISION; i > 0; i /= 10)
size++;
/* Add the "-". */
size++;
/*
* Add the identifier authority. If it needs to be in decimal, the
* maximum is 2^32-1 = 4294967295 = 10 characters. If it needs to be
* in hexadecimal, then maximum is 0x665544332211 = 14 characters.
*/
if (!sid->identifier_authority.high_part)
size += 10;
else
size += 14;
/*
* Finally, add the sub authorities. For each we have a "-" followed
* by a decimal which can be up to 2^32-1 = 4294967295 = 10 characters.
*/
size += (1 + 10) * sid->sub_authority_count;
/* We need the zero byte at the end, too. */
size++;
return size * sizeof(char);
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}
/**
* ntfs_sid_to_mbs - convert a SID to a multi byte string
* @sid: [IN] SID to convert
* @sid_str: [OUT] string in which to return the SID (optional)
* @sid_str_size: [IN] size in bytes of @sid_str
*
* Convert the SID pointed to by @sid to its standard textual representation.
* @sid_str (if not NULL) needs to be able to store at least
* ntfs_sid_to_mbs_size() bytes. @sid_str_size is the size in bytes of
* @sid_str if @sid_str is not NULL.
*
* The standard textual representation of the SID is of the form:
* S-R-I-S-S...
* Where:
* - The first "S" is the literal character 'S' identifying the following
* digits as a SID.
* - R is the revision level of the SID expressed as a sequence of digits
* in decimal.
* - I is the 48-bit identifier_authority, expressed as digits in decimal,
* if I < 2^32, or hexadecimal prefixed by "0x", if I >= 2^32.
* - S... is one or more sub_authority values, expressed as digits in
* decimal.
*
* If @sid_str is not NULL it will contain the converted SUID on return. If it
* is NULL a string will be allocated and this will be returned. The caller is
* responsible for free()ing the string in that case.
*
* On success return the converted string and on failure return NULL with errno
* set to the error code.
*/
char *ntfs_sid_to_mbs(const SID *sid, char *sid_str, size_t sid_str_size)
{
u64 u;
le32 leauth;
char *s;
int i, j, cnt;
/*
* No need to check @sid if !@sid_str since ntfs_sid_to_mbs_size() will
* check @sid, too. 8 is the minimum SID string size.
*/
if (sid_str && (sid_str_size < 8 || !ntfs_sid_is_valid(sid))) {
errno = EINVAL;
return NULL;
}
/* Allocate string if not provided. */
if (!sid_str) {
cnt = ntfs_sid_to_mbs_size(sid);
if (cnt < 0)
return NULL;
s = (char*)ntfs_malloc(cnt);
if (!s)
return s;
sid_str = s;
/* So we know we allocated it. */
sid_str_size = 0;
} else {
s = sid_str;
cnt = sid_str_size;
}
/* Start with "S-R-". */
i = snprintf(s, cnt, "S-%hhu-", (unsigned char)sid->revision);
if (i < 0 || i >= cnt)
goto err_out;
s += i;
cnt -= i;
/* Add the identifier authority. */
for (u = i = 0, j = 40; i < 6; i++, j -= 8)
u += (u64)sid->identifier_authority.value[i] << j;
if (!sid->identifier_authority.high_part)
i = snprintf(s, cnt, "%lu", (unsigned long)u);
else
i = snprintf(s, cnt, "0x%llx", (unsigned long long)u);
if (i < 0 || i >= cnt)
goto err_out;
s += i;
cnt -= i;
/* Finally, add the sub authorities. */
for (j = 0; j < sid->sub_authority_count; j++) {
leauth = sid->sub_authority[j];
i = snprintf(s, cnt, "-%u", (unsigned int)
le32_to_cpu(leauth));
if (i < 0 || i >= cnt)
goto err_out;
s += i;
cnt -= i;
}
return sid_str;
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err_out:
if (i >= cnt)
i = EMSGSIZE;
else
i = errno;
if (!sid_str_size)
free(sid_str);
errno = i;
return NULL;
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}
/**
* ntfs_generate_guid - generatates a random current guid.
* @guid: [OUT] pointer to a GUID struct to hold the generated guid.
*
* perhaps not a very good random number generator though...
*/
void ntfs_generate_guid(GUID *guid)
{
unsigned int i;
u8 *p = (u8 *)guid;
for (i = 0; i < sizeof(GUID); i++) {
p[i] = (u8)(random() & 0xFF);
if (i == 7)
p[7] = (p[7] & 0x0F) | 0x40;
if (i == 8)
p[8] = (p[8] & 0x3F) | 0x80;
}
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}
/**
* ntfs_security_hash - calculate the hash of a security descriptor
* @sd: self-relative security descriptor whose hash to calculate
* @length: size in bytes of the security descritor @sd
*
* Calculate the hash of the self-relative security descriptor @sd of length
* @length bytes.
*
* This hash is used in the $Secure system file as the primary key for the $SDH
* index and is also stored in the header of each security descriptor in the
* $SDS data stream as well as in the index data of both the $SII and $SDH
* indexes. In all three cases it forms part of the SDS_ENTRY_HEADER
* structure.
*
* Return the calculated security hash in little endian.
*/
le32 ntfs_security_hash(const SECURITY_DESCRIPTOR_RELATIVE *sd, const u32 len)
{
const le32 *pos = (const le32*)sd;
const le32 *end = pos + (len >> 2);
u32 hash = 0;
while (pos < end) {
hash = le32_to_cpup(pos) + ntfs_rol32(hash, 3);
pos++;
}
return cpu_to_le32(hash);
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}
/*
* Internal read
* copied and pasted from ntfs_fuse_read() and made independent
* of fuse context
*/
static int ntfs_local_read(ntfs_inode *ni,
ntfschar *stream_name, int stream_name_len,
char *buf, size_t size, off_t offset)
{
ntfs_attr *na = NULL;
int res, total = 0;
na = ntfs_attr_open(ni, AT_DATA, stream_name, stream_name_len);
if (!na) {
res = -errno;
goto exit;
}
if ((size_t)offset < (size_t)na->data_size) {
if (offset + size > (size_t)na->data_size)
size = na->data_size - offset;
while (size) {
res = ntfs_attr_pread(na, offset, size, buf);
if ((off_t)res < (off_t)size)
ntfs_log_perror("ntfs_attr_pread partial read "
"(%lld : %lld <> %d)",
(long long)offset,
(long long)size, res);
if (res <= 0) {
res = -errno;
goto exit;
}
size -= res;
offset += res;
total += res;
}
}
res = total;
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exit:
if (na)
ntfs_attr_close(na);
return res;
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}
/*
* Internal write
* copied and pasted from ntfs_fuse_write() and made independent
* of fuse context
*/
static int ntfs_local_write(ntfs_inode *ni,
ntfschar *stream_name, int stream_name_len,
char *buf, size_t size, off_t offset)
{
ntfs_attr *na = NULL;
int res, total = 0;
na = ntfs_attr_open(ni, AT_DATA, stream_name, stream_name_len);
if (!na) {
res = -errno;
goto exit;
}
while (size) {
res = ntfs_attr_pwrite(na, offset, size, buf);
if (res < (s64)size)
ntfs_log_perror("ntfs_attr_pwrite partial write (%lld: "
"%lld <> %d)", (long long)offset,
(long long)size, res);
if (res <= 0) {
res = -errno;
goto exit;
}
size -= res;
offset += res;
total += res;
}
res = total;
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exit:
if (na)
ntfs_attr_close(na);
return res;
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}
/*
* Get the first entry of current index block
* cut and pasted form ntfs_ie_get_first() in index.c
*/
static INDEX_ENTRY *ntfs_ie_get_first(INDEX_HEADER *ih)
{
return (INDEX_ENTRY*)((u8*)ih + le32_to_cpu(ih->entries_offset));
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}
/*
* Stuff a 256KB block into $SDS before writing descriptors
* into the block.
*
* This prevents $SDS from being automatically declared as sparse
* when the second copy of the first security descriptor is written
* 256KB further ahead.
*
* Having $SDS declared as a sparse file is not wrong by itself
* and chkdsk leaves it as a sparse file. It does however complain
* and add a sparse flag (0x0200) into field file_attributes of
* STANDARD_INFORMATION of $Secure. This probably means that a
* sparse attribute (ATTR_IS_SPARSE) is only allowed in sparse
* files (FILE_ATTR_SPARSE_FILE).
*
* Windows normally does not convert to sparse attribute or sparse
* file. Stuffing is just a way to get to the same result.
*/
static int entersecurity_stuff(ntfs_volume *vol, off_t offs)
{
int res;
int written;
unsigned long total;
char *stuff;
res = 0;
total = 0;
stuff = (char*)ntfs_malloc(STUFFSZ);
if (stuff) {
memset(stuff, 0, STUFFSZ);
do {
written = ntfs_local_write(vol->secure_ni,
STREAM_SDS, 4, stuff, STUFFSZ, offs);
if (written == STUFFSZ) {
total += STUFFSZ;
offs += STUFFSZ;
} else {
errno = ENOSPC;
res = -1;
}
} while (!res && (total < ALIGN_SDS_BLOCK));
free(stuff);
} else {
errno = ENOMEM;
res = -1;
}
return (res);
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}
/*
* Enter a new security descriptor into $Secure (data only)
* it has to be written twice with an offset of 256KB
*
* Should only be called by entersecurityattr() to ensure consistency
*
* Returns zero if sucessful
*/
static int entersecurity_data(ntfs_volume *vol,
const SECURITY_DESCRIPTOR_RELATIVE *attr, s64 attrsz,
le32 hash, le32 keyid, off_t offs, int gap)
{
int res;
int written1;
int written2;
char *fullattr;
int fullsz;
SECURITY_DESCRIPTOR_HEADER *phsds;
res = -1;
fullsz = attrsz + gap + sizeof(SECURITY_DESCRIPTOR_HEADER);
fullattr = (char*)ntfs_malloc(fullsz);
if (fullattr) {
/*
* Clear the gap from previous descriptor
* this could be useful for appending the second
* copy to the end of file. When creating a new
* 256K block, the gap is cleared while writing
* the first copy
*/
if (gap)
memset(fullattr,0,gap);
memcpy(&fullattr[gap + sizeof(SECURITY_DESCRIPTOR_HEADER)],
attr,attrsz);
phsds = (SECURITY_DESCRIPTOR_HEADER*)&fullattr[gap];
phsds->hash = hash;
phsds->security_id = keyid;
phsds->offset = cpu_to_le64(offs);
phsds->length = cpu_to_le32(fullsz - gap);
written1 = ntfs_local_write(vol->secure_ni,
STREAM_SDS, 4, fullattr, fullsz,
offs - gap);
written2 = ntfs_local_write(vol->secure_ni,
STREAM_SDS, 4, fullattr, fullsz,
offs - gap + ALIGN_SDS_BLOCK);
if ((written1 == fullsz)
&& (written2 == written1))
res = 0;
else
errno = ENOSPC;
free(fullattr);
} else
errno = ENOMEM;
return (res);
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}
/*
* Enter a new security descriptor in $Secure (indexes only)
*
* Should only be called by entersecurityattr() to ensure consistency
*
* Returns zero if sucessful
*/
static int entersecurity_indexes(ntfs_volume *vol, s64 attrsz,
le32 hash, le32 keyid, off_t offs)
{
union {
struct {
le32 dataoffsl;
le32 dataoffsh;
} parts;
le64 all;
} realign;
int res;
ntfs_index_context *xsii;
ntfs_index_context *xsdh;
struct SII newsii;
struct SDH newsdh;
res = -1;
/* enter a new $SII record */
xsii = vol->secure_xsii;
ntfs_index_ctx_reinit(xsii);
newsii.offs = const_cpu_to_le16(20);
newsii.size = const_cpu_to_le16(sizeof(struct SII) - 20);
newsii.fill1 = const_cpu_to_le32(0);
newsii.indexsz = const_cpu_to_le16(sizeof(struct SII));
newsii.indexksz = const_cpu_to_le16(sizeof(SII_INDEX_KEY));
newsii.flags = const_cpu_to_le16(0);
newsii.fill2 = const_cpu_to_le16(0);
newsii.keysecurid = keyid;
newsii.hash = hash;
newsii.securid = keyid;
realign.all = cpu_to_le64(offs);
newsii.dataoffsh = realign.parts.dataoffsh;
newsii.dataoffsl = realign.parts.dataoffsl;
newsii.datasize = cpu_to_le32(attrsz
+ sizeof(SECURITY_DESCRIPTOR_HEADER));
if (!ntfs_ie_add(xsii,(INDEX_ENTRY*)&newsii)) {
/* enter a new $SDH record */
xsdh = vol->secure_xsdh;
ntfs_index_ctx_reinit(xsdh);
newsdh.offs = const_cpu_to_le16(24);
newsdh.size = const_cpu_to_le16(
sizeof(SECURITY_DESCRIPTOR_HEADER));
newsdh.fill1 = const_cpu_to_le32(0);
newsdh.indexsz = const_cpu_to_le16(
sizeof(struct SDH));
newsdh.indexksz = const_cpu_to_le16(
sizeof(SDH_INDEX_KEY));
newsdh.flags = const_cpu_to_le16(0);
newsdh.fill2 = const_cpu_to_le16(0);
newsdh.keyhash = hash;
newsdh.keysecurid = keyid;
newsdh.hash = hash;
newsdh.securid = keyid;
newsdh.dataoffsh = realign.parts.dataoffsh;
newsdh.dataoffsl = realign.parts.dataoffsl;
newsdh.datasize = cpu_to_le32(attrsz
+ sizeof(SECURITY_DESCRIPTOR_HEADER));
/* special filler value, Windows generally */
/* fills with 0x00490049, sometimes with zero */
newsdh.fill3 = const_cpu_to_le32(0x00490049);
if (!ntfs_ie_add(xsdh,(INDEX_ENTRY*)&newsdh))
res = 0;
}
return (res);
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}
/*
* Enter a new security descriptor in $Secure (data and indexes)
* Returns id of entry, or zero if there is a problem.
* (should not be called for NTFS version < 3.0)
*
* important : calls have to be serialized, however no locking is
* needed while fuse is not multithreaded
*/
static le32 entersecurityattr(ntfs_volume *vol,
const SECURITY_DESCRIPTOR_RELATIVE *attr, s64 attrsz,
le32 hash)
{
union {
struct {
le32 dataoffsl;
le32 dataoffsh;
} parts;
le64 all;
} realign;
le32 securid;
le32 keyid;
u32 newkey;
off_t offs;
int gap;
int size;
BOOL found;
struct SII *psii;
INDEX_ENTRY *entry;
INDEX_ENTRY *next;
ntfs_index_context *xsii;
ntfs_attr *na;
int olderrno;
/* find the first available securid beyond the last key */
/* in $Secure:$SII. This also determines the first */
/* available location in $Secure:$SDS, as this stream */
/* is always appended to and the id's are allocated */
/* in sequence */
securid = const_cpu_to_le32(0);
xsii = vol->secure_xsii;
ntfs_index_ctx_reinit(xsii);
offs = size = 0;
keyid = const_cpu_to_le32(-1);
olderrno = errno;
found = !ntfs_index_lookup((char*)&keyid,
sizeof(SII_INDEX_KEY), xsii);
if (!found && (errno != ENOENT)) {
ntfs_log_perror("Inconsistency in index $SII");
psii = (struct SII*)NULL;
} else {
/* restore errno to avoid misinterpretation */
errno = olderrno;
entry = xsii->entry;
psii = (struct SII*)xsii->entry;
}
if (psii) {
/*
* Get last entry in block, but must get first one
* one first, as we should already be beyond the
* last one. For some reason the search for the last
* entry sometimes does not return the last block...
* we assume this can only happen in root block
*/
if (xsii->is_in_root)
entry = ntfs_ie_get_first
((INDEX_HEADER*)&xsii->ir->index);
else
entry = ntfs_ie_get_first
((INDEX_HEADER*)&xsii->ib->index);
/*
* All index blocks should be at least half full
* so there always is a last entry but one,
* except when creating the first entry in index root.
* A simplified version of next(), limited to
* current index node, could be used
*/
keyid = const_cpu_to_le32(0);
while (entry) {
next = ntfs_index_next(entry,xsii);
if (next) {
psii = (struct SII*)next;
/* save last key and */
/* available position */
keyid = psii->keysecurid;
realign.parts.dataoffsh
= psii->dataoffsh;
realign.parts.dataoffsl
= psii->dataoffsl;
offs = le64_to_cpu(realign.all);
size = le32_to_cpu(psii->datasize);
}
entry = next;
}
}
if (!keyid) {
/*
* could not find any entry, before creating the first
* entry, make a double check by making sure size of $SII
* is less than needed for one entry
*/
securid = const_cpu_to_le32(0);
na = ntfs_attr_open(vol->secure_ni,AT_INDEX_ROOT,sii_stream,4);
if (na) {
if ((size_t)na->data_size < sizeof(struct SII)) {
ntfs_log_error("Creating the first security_id\n");
securid = const_cpu_to_le32(FIRST_SECURITY_ID);
}
ntfs_attr_close(na);
}
if (!securid) {
ntfs_log_error("Error creating a security_id\n");
errno = EIO;
}
} else {
newkey = le32_to_cpu(keyid) + 1;
securid = cpu_to_le32(newkey);
}
/*
* The security attr has to be written twice 256KB
* apart. This implies that offsets like
* 0x40000*odd_integer must be left available for
* the second copy. So align to next block when
* the last byte overflows on a wrong block.
*/
if (securid) {
gap = (-size) & (ALIGN_SDS_ENTRY - 1);
offs += gap + size;
if ((offs + attrsz + sizeof(SECURITY_DESCRIPTOR_HEADER) - 1)
& ALIGN_SDS_BLOCK) {
offs = ((offs + attrsz
+ sizeof(SECURITY_DESCRIPTOR_HEADER) - 1)
| (ALIGN_SDS_BLOCK - 1)) + 1;
}
if (!(offs & (ALIGN_SDS_BLOCK - 1)))
entersecurity_stuff(vol, offs);
/*
* now write the security attr to storage :
* first data, then SII, then SDH
* If failure occurs while writing SDS, data will never
* be accessed through indexes, and will be overwritten
* by the next allocated descriptor
* If failure occurs while writing SII, the id has not
* recorded and will be reallocated later
* If failure occurs while writing SDH, the space allocated
* in SDS or SII will not be reused, an inconsistency
* will persist with no significant consequence
*/
if (entersecurity_data(vol, attr, attrsz, hash, securid, offs, gap)
|| entersecurity_indexes(vol, attrsz, hash, securid, offs))
securid = const_cpu_to_le32(0);
}
/* inode now is dirty, synchronize it all */
ntfs_index_entry_mark_dirty(vol->secure_xsii);
ntfs_index_ctx_reinit(vol->secure_xsii);
ntfs_index_entry_mark_dirty(vol->secure_xsdh);
ntfs_index_ctx_reinit(vol->secure_xsdh);
NInoSetDirty(vol->secure_ni);
if (ntfs_inode_sync(vol->secure_ni))
ntfs_log_perror("Could not sync $Secure\n");
return (securid);
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}
/*
* Find a matching security descriptor in $Secure,
* if none, allocate a new id and write the descriptor to storage
* Returns id of entry, or zero if there is a problem.
*
* important : calls have to be serialized, however no locking is
* needed while fuse is not multithreaded
*/
static le32 setsecurityattr(ntfs_volume *vol,
const SECURITY_DESCRIPTOR_RELATIVE *attr, s64 attrsz)
{
struct SDH *psdh; /* this is an image of index (le) */
union {
struct {
le32 dataoffsl;
le32 dataoffsh;
} parts;
le64 all;
} realign;
BOOL found;
BOOL collision;
size_t size;
size_t rdsize;
s64 offs;
int res;
ntfs_index_context *xsdh;
char *oldattr;
SDH_INDEX_KEY key;
INDEX_ENTRY *entry;
le32 securid;
le32 hash;
int olderrno;
hash = ntfs_security_hash(attr,attrsz);
oldattr = (char*)NULL;
securid = const_cpu_to_le32(0);
res = 0;
xsdh = vol->secure_xsdh;
if (vol->secure_ni && xsdh && !vol->secure_reentry++) {
ntfs_index_ctx_reinit(xsdh);
/*
* find the nearest key as (hash,0)
* (do not search for partial key : in case of collision,
* it could return a key which is not the first one which
* collides)
*/
key.hash = hash;
key.security_id = const_cpu_to_le32(0);
olderrno = errno;
found = !ntfs_index_lookup((char*)&key,
sizeof(SDH_INDEX_KEY), xsdh);
if (!found && (errno != ENOENT))
ntfs_log_perror("Inconsistency in index $SDH");
else {
/* restore errno to avoid misinterpretation */
errno = olderrno;
entry = xsdh->entry;
found = FALSE;
/*
* lookup() may return a node with no data,
* if so get next
*/
if (entry->ie_flags & INDEX_ENTRY_END)
entry = ntfs_index_next(entry,xsdh);
do {
collision = FALSE;
psdh = (struct SDH*)entry;
if (psdh)
size = (size_t) le32_to_cpu(psdh->datasize)
- sizeof(SECURITY_DESCRIPTOR_HEADER);
else size = 0;
/* if hash is not the same, the key is not present */
if (psdh && (size > 0)
&& (psdh->keyhash == hash)) {
/* if hash is the same */
/* check the whole record */
realign.parts.dataoffsh = psdh->dataoffsh;
realign.parts.dataoffsl = psdh->dataoffsl;
offs = le64_to_cpu(realign.all)
+ sizeof(SECURITY_DESCRIPTOR_HEADER);
oldattr = (char*)ntfs_malloc(size);
if (oldattr) {
rdsize = ntfs_local_read(
vol->secure_ni,
STREAM_SDS, 4,
oldattr, size, offs);
found = (rdsize == size)
&& !memcmp(oldattr,attr,size);
free(oldattr);
/* if the records do not compare */
/* (hash collision), try next one */
if (!found) {
entry = ntfs_index_next(
entry,xsdh);
collision = TRUE;
}
} else
res = ENOMEM;
}
} while (collision && entry);
if (found)
securid = psdh->keysecurid;
else {
if (res) {
errno = res;
securid = const_cpu_to_le32(0);
} else {
/*
* no matching key :
* have to build a new one
*/
securid = entersecurityattr(vol,
attr, attrsz, hash);
}
}
}
}
if (--vol->secure_reentry)
ntfs_log_perror("Reentry error, check no multithreading\n");
return (securid);
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}
/*
* Update the security descriptor of a file
* Either as an attribute (complying with pre v3.x NTFS version)
* or, when possible, as an entry in $Secure (for NTFS v3.x)
*
* returns 0 if success
*/
static int update_secur_descr(ntfs_volume *vol,
char *newattr, ntfs_inode *ni)
{
int newattrsz;
int written;
int res;
ntfs_attr *na;
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newattrsz = ntfs_attr_size(newattr);
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#if !FORCE_FORMAT_v1x
if ((vol->major_ver < 3) || !vol->secure_ni) {
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#endif
/* update for NTFS format v1.x */
/* update the old security attribute */
na = ntfs_attr_open(ni, AT_SECURITY_DESCRIPTOR, AT_UNNAMED, 0);
if (na) {
/* resize attribute */
res = ntfs_attr_truncate(na, (s64) newattrsz);
/* overwrite value */
if (!res) {
written = (int)ntfs_attr_pwrite(na, (s64) 0,
(s64) newattrsz, newattr);
if (written != newattrsz) {
ntfs_log_error("Failed to update "
"a v1.x security descriptor\n");
errno = EIO;
res = -1;
}
}
ntfs_attr_close(na);
/* if old security attribute was found, also */
/* truncate standard information attribute to v1.x */
/* this is needed when security data is wanted */
/* as v1.x though volume is formatted for v3.x */
na = ntfs_attr_open(ni, AT_STANDARD_INFORMATION,
AT_UNNAMED, 0);
if (na) {
clear_nino_flag(ni, v3_Extensions);
/*
* Truncating the record does not sweep extensions
* from copy in memory. Clear security_id to be safe
*/
ni->security_id = const_cpu_to_le32(0);
res = ntfs_attr_truncate(na, (s64)48);
ntfs_attr_close(na);
clear_nino_flag(ni, v3_Extensions);
}
} else {
/*
* insert the new security attribute if there
* were none
*/
res = ntfs_attr_add(ni, AT_SECURITY_DESCRIPTOR,
AT_UNNAMED, 0, (u8*)newattr,
(s64) newattrsz);
}
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#if !FORCE_FORMAT_v1x
} else {
/* update for NTFS format v3.x */
le32 securid;
securid = setsecurityattr(vol,
(const SECURITY_DESCRIPTOR_RELATIVE*)newattr,
(s64)newattrsz);
if (securid) {
na = ntfs_attr_open(ni, AT_STANDARD_INFORMATION,
AT_UNNAMED, 0);
if (na) {
res = 0;
if (!test_nino_flag(ni, v3_Extensions)) {
/* expand standard information attribute to v3.x */
res = ntfs_attr_truncate(na,
(s64)sizeof(STANDARD_INFORMATION));
ni->owner_id = const_cpu_to_le32(0);
ni->quota_charged = const_cpu_to_le64(0);
ni->usn = const_cpu_to_le64(0);
ntfs_attr_remove(ni,
AT_SECURITY_DESCRIPTOR,
AT_UNNAMED, 0);
}
set_nino_flag(ni, v3_Extensions);
ni->security_id = securid;
ntfs_attr_close(na);
} else {
ntfs_log_error("Failed to update "
"standard informations\n");
errno = EIO;
res = -1;
}
} else
res = -1;
}
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#endif
/* mark node as dirty */
NInoSetDirty(ni);
ntfs_inode_sync(ni); /* useful ? */
return (res);
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}
/*
* Upgrade the security descriptor of a file
* This is intended to allow graceful upgrades for files which
* were created in previous versions, with a security attributes
* and no security id.
*
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* It will allocate a security id and replace the individual
* security attribute by a reference to the global one
*
* Special files are not upgraded (currently / and files in
* directories /$*)
*
* Though most code is similar to update_secur_desc() it has
* been kept apart to facilitate the further processing of
* special cases or even to remove it if found dangerous.
*
* returns 0 if success,
* 1 if not upgradable. This is not an error.
* -1 if there is a problem
*/
static int upgrade_secur_desc(ntfs_volume *vol, const char *path,
const char *attr, ntfs_inode *ni)
{
int attrsz;
int res;
le32 securid;
ntfs_attr *na;
/*
* upgrade requires NTFS format v3.x
* also refuse upgrading for special files
*/
if ((vol->major_ver >= 3)
&& (path[0] == '/')
&& (path[1] != '$') && (path[1] != '\0')) {
attrsz = ntfs_attr_size(attr);
securid = setsecurityattr(vol,
(const SECURITY_DESCRIPTOR_RELATIVE*)attr,
(s64)attrsz);
if (securid) {
na = ntfs_attr_open(ni, AT_STANDARD_INFORMATION,
AT_UNNAMED, 0);
if (na) {
res = 0;
/* expand standard information attribute to v3.x */
res = ntfs_attr_truncate(na,
(s64)sizeof(STANDARD_INFORMATION));
ni->owner_id = const_cpu_to_le32(0);
ni->quota_charged = const_cpu_to_le64(0);
ni->usn = const_cpu_to_le64(0);
ntfs_attr_remove(ni, AT_SECURITY_DESCRIPTOR,
AT_UNNAMED, 0);
set_nino_flag(ni, v3_Extensions);
ni->security_id = securid;
ntfs_attr_close(na);
} else {
ntfs_log_error("Failed to upgrade "
"standard informations\n");
errno = EIO;
res = -1;
}
} else
res = -1;
/* mark node as dirty */
NInoSetDirty(ni);
ntfs_inode_sync(ni); /* useful ? */
} else
res = 1;
return (res);
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}
/*
* Optional simplified checking of group membership
*
* This only takes into account the groups defined in
* /etc/group at initialization time.
* It does not take into account the groups dynamically set by
* setgroups() nor the changes in /etc/group since initialization
*
* This optional method could be useful if standard checking
* leads to a performance concern.
*
* Should not be called for user root, however the group may be root
*
*/
static BOOL staticgroupmember(struct SECURITY_CONTEXT *scx, uid_t uid, gid_t gid)
{
BOOL ingroup;
int grcnt;
gid_t *groups;
struct MAPPING *user;
ingroup = FALSE;
if (uid) {
user = scx->mapping[MAPUSERS];
while (user && ((uid_t)user->xid != uid))
user = user->next;
if (user) {
groups = user->groups;
grcnt = user->grcnt;
while ((--grcnt >= 0) && (groups[grcnt] != gid)) { }
ingroup = (grcnt >= 0);
}
}
return (ingroup);
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}
/*
* Check whether current thread owner is member of file group
*
* Should not be called for user root, however the group may be root
*
* As indicated by Miklos Szeredi :
*
* The group list is available in
*
* /proc/$PID/task/$TID/status
*
* and fuse supplies TID in get_fuse_context()->pid. The only problem is
* finding out PID, for which I have no good solution, except to iterate
* through all processes. This is rather slow, but may be speeded up
* with caching and heuristics (for single threaded programs PID = TID).
*
* The following implementation gets the group list from
* /proc/$TID/task/$TID/status which apparently exists and
* contains the same data.
*/
static BOOL groupmember(struct SECURITY_CONTEXT *scx, uid_t uid, gid_t gid)
{
static char key[] = "\nGroups:";
char buf[BUFSZ+1];
char filename[64];
enum { INKEY, INSEP, INNUM, INEND } state;
int fd;
char c;
int matched;
BOOL ismember;
int got;
char *p;
gid_t grp;
pid_t tid;
if (scx->vol->secure_flags & (1 << SECURITY_STATICGRPS))
ismember = staticgroupmember(scx, uid, gid);
else {
ismember = FALSE; /* default return */
tid = scx->tid;
sprintf(filename,"/proc/%u/task/%u/status",tid,tid);
fd = open(filename,O_RDONLY);
if (fd >= 0) {
got = read(fd, buf, BUFSZ);
buf[got] = 0;
state = INKEY;
matched = 0;
p = buf;
grp = 0;
/*
* A simple automaton to process lines like
* Groups: 14 500 513
*/
do {
c = *p++;
if (!c) {
/* refill buffer */
got = read(fd, buf, BUFSZ);
buf[got] = 0;
p = buf;
c = *p++; /* 0 at end of file */
}
switch (state) {
case INKEY :
if (key[matched] == c) {
if (!key[++matched])
state = INSEP;
} else
if (key[0] == c)
matched = 1;
else
matched = 0;
break;
case INSEP :
if ((c >= '0') && (c <= '9')) {
grp = c - '0';
state = INNUM;
} else
if ((c != ' ') && (c != '\t'))
state = INEND;
break;
case INNUM :
if ((c >= '0') && (c <= '9'))
grp = grp*10 + c - '0';
else {
ismember = (grp == gid);
if ((c != ' ') && (c != '\t'))
state = INEND;
else
state = INSEP;
}
default :
break;
}
} while (!ismember && c && (state != INEND));
close(fd);
if (!c)
ntfs_log_error("No group record found in %s\n",filename);
} else
ntfs_log_error("Could not open %s\n",filename);
}
return (ismember);
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}
/*
* Cacheing is done two-way :
* - from uid, gid and perm to securid (CACHED_SECURID)
* - from a securid to uid, gid and perm (CACHED_PERMISSIONS)
*
* CACHED_SECURID data is kept in a most-recent-first list
* which should not be too long to be efficient. Its optimal
* size is depends on usage and is hard to determine.
*
* CACHED_PERMISSIONS data is kept in a two-level indexed array. It
* is optimal at the expense of storage. Use of a most-recent-first
* list would save memory and provide similar performances for
* standard usage, but not for file servers with too many file
* owners
*
* CACHED_PERMISSIONS_LEGACY is a special case for CACHED_PERMISSIONS
* for legacy directories which were not allocated a security_id
* it is organized in a most-recent-first list.
*
* In main caches, data is never invalidated, as the meaning of
* a security_id only changes when user mapping is changed, which
* current implies remounting. However returned entries may be
* overwritten at next update, so data has to be copied elsewhere
* before another cache update is made.
* In legacy cache, data has to be invalidated when protection is
* changed.
*
* Though the same data may be found in both list, they
* must be kept separately : the interpretation of ACL
* in both direction are approximations which could be non
* reciprocal for some configuration of the user mapping data
*
* During the process of recompiling ntfs-3g from a tgz archive,
* security processing added 7.6% to the cpu time used by ntfs-3g
* and 30% if the cache is disabled.
*/
static struct PERMISSIONS_CACHE *create_caches(struct SECURITY_CONTEXT *scx,
u32 securindex)
{
struct PERMISSIONS_CACHE *cache;
unsigned int index1;
unsigned int i;
cache = (struct PERMISSIONS_CACHE*)NULL;
/* create the first permissions blocks */
index1 = securindex >> CACHE_PERMISSIONS_BITS;
cache = (struct PERMISSIONS_CACHE*)
ntfs_malloc(sizeof(struct PERMISSIONS_CACHE)
+ index1*sizeof(struct CACHED_PERMISSIONS*));
if (cache) {
cache->head.last = index1;
cache->head.p_reads = 0;
cache->head.p_hits = 0;
cache->head.p_writes = 0;
*scx->pseccache = cache;
for (i=0; i<=index1; i++)
cache->cachetable[i]
= (struct CACHED_PERMISSIONS*)NULL;
}
return (cache);
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}
/*
* Free memory used by caches
* The only purpose is to facilitate the detection of memory leaks
*/
static void free_caches(struct SECURITY_CONTEXT *scx)
{
unsigned int index1;
struct PERMISSIONS_CACHE *pseccache;
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pseccache = *scx->pseccache;
if (pseccache) {
for (index1=0; index1<=pseccache->head.last; index1++)
if (pseccache->cachetable[index1]) {
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#if POSIXACLS
struct CACHED_PERMISSIONS *cacheentry;
unsigned int index2;
for (index2=0; index2<(1<< CACHE_PERMISSIONS_BITS); index2++) {
cacheentry = &pseccache->cachetable[index1][index2];
if (cacheentry->valid
&& cacheentry->pxdesc)
free(cacheentry->pxdesc);
}
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#endif
free(pseccache->cachetable[index1]);
}
free(pseccache);
}
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}
static int compare(const struct CACHED_SECURID *cached,
const struct CACHED_SECURID *item)
{
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#if POSIXACLS
size_t csize;
size_t isize;
/* only compare data and sizes */
csize = (cached->variable ?
sizeof(struct POSIX_ACL)
+ (((struct POSIX_SECURITY*)cached->variable)->acccnt
+ ((struct POSIX_SECURITY*)cached->variable)->defcnt)
*sizeof(struct POSIX_ACE) :
0);
isize = (item->variable ?
sizeof(struct POSIX_ACL)
+ (((struct POSIX_SECURITY*)item->variable)->acccnt
+ ((struct POSIX_SECURITY*)item->variable)->defcnt)
*sizeof(struct POSIX_ACE) :
0);
return ((cached->uid != item->uid)
|| (cached->gid != item->gid)
|| (cached->dmode != item->dmode)
|| (csize != isize)
|| (csize
&& isize
&& memcmp(&((struct POSIX_SECURITY*)cached->variable)->acl,
&((struct POSIX_SECURITY*)item->variable)->acl, csize)));
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#else
return ((cached->uid != item->uid)
|| (cached->gid != item->gid)
|| (cached->dmode != item->dmode));
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#endif
}
static int leg_compare(const struct CACHED_PERMISSIONS_LEGACY *cached,
const struct CACHED_PERMISSIONS_LEGACY *item)
{
return (cached->mft_no != item->mft_no);
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}
/*
* Resize permission cache table
* do not call unless resizing is needed
*
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* If allocation fails, the cache size is not updated
* Lack of memory is not considered as an error, the cache is left
* consistent and errno is not set.
*/
static void resize_cache(struct SECURITY_CONTEXT *scx,
u32 securindex)
{
struct PERMISSIONS_CACHE *oldcache;
struct PERMISSIONS_CACHE *newcache;
int newcnt;
int oldcnt;
unsigned int index1;
unsigned int i;
oldcache = *scx->pseccache;
index1 = securindex >> CACHE_PERMISSIONS_BITS;
newcnt = index1 + 1;
if (newcnt <= ((CACHE_PERMISSIONS_SIZE
+ (1 << CACHE_PERMISSIONS_BITS)
- 1) >> CACHE_PERMISSIONS_BITS)) {
/* expand cache beyond current end, do not use realloc() */
/* to avoid losing data when there is no more memory */
oldcnt = oldcache->head.last + 1;
newcache = (struct PERMISSIONS_CACHE*)
ntfs_malloc(
sizeof(struct PERMISSIONS_CACHE)
+ (newcnt - 1)*sizeof(struct CACHED_PERMISSIONS*));
if (newcache) {
memcpy(newcache,oldcache,
sizeof(struct PERMISSIONS_CACHE)
+ (oldcnt - 1)*sizeof(struct CACHED_PERMISSIONS*));
free(oldcache);
/* mark new entries as not valid */
for (i=newcache->head.last+1; i<=index1; i++)
newcache->cachetable[i]
= (struct CACHED_PERMISSIONS*)NULL;
newcache->head.last = index1;
*scx->pseccache = newcache;
}
}
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}
/*
* Enter uid, gid and mode into cache, if possible
*
* returns the updated or created cache entry,
* or NULL if not possible (typically if there is no
* security id associated)
*/
#if POSIXACLS
static struct CACHED_PERMISSIONS *enter_cache(struct SECURITY_CONTEXT *scx,
ntfs_inode *ni, uid_t uid, gid_t gid,
struct POSIX_SECURITY *pxdesc)
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#else
static struct CACHED_PERMISSIONS *enter_cache(struct SECURITY_CONTEXT *scx,
ntfs_inode *ni, uid_t uid, gid_t gid, mode_t mode)
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#endif
{
struct CACHED_PERMISSIONS *cacheentry;
struct CACHED_PERMISSIONS *cacheblock;
struct PERMISSIONS_CACHE *pcache;
u32 securindex;
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#if POSIXACLS
int pxsize;
struct POSIX_SECURITY *pxcached;
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#endif
unsigned int index1;
unsigned int index2;
int i;
/* cacheing is only possible if a security_id has been defined */
if (test_nino_flag(ni, v3_Extensions)
&& ni->security_id) {
/*
* Immediately test the most frequent situation
* where the entry exists
*/
securindex = le32_to_cpu(ni->security_id);
index1 = securindex >> CACHE_PERMISSIONS_BITS;
index2 = securindex & ((1 << CACHE_PERMISSIONS_BITS) - 1);
pcache = *scx->pseccache;
if (pcache
&& (pcache->head.last >= index1)
&& pcache->cachetable[index1]) {
cacheentry = &pcache->cachetable[index1][index2];
cacheentry->uid = uid;
cacheentry->gid = gid;
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#if POSIXACLS
if (cacheentry->valid && cacheentry->pxdesc)
free(cacheentry->pxdesc);
if (pxdesc) {
pxsize = sizeof(struct POSIX_SECURITY)
+ (pxdesc->acccnt + pxdesc->defcnt)*sizeof(struct POSIX_ACE);
pxcached = (struct POSIX_SECURITY*)malloc(pxsize);
if (pxcached) {
memcpy(pxcached, pxdesc, pxsize);
cacheentry->pxdesc = pxcached;
} else {
cacheentry->valid = 0;
cacheentry = (struct CACHED_PERMISSIONS*)NULL;
}
cacheentry->mode = pxdesc->mode & 07777;
} else
cacheentry->pxdesc = (struct POSIX_SECURITY*)NULL;
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#else
cacheentry->mode = mode & 07777;
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#endif
cacheentry->inh_fileid = const_cpu_to_le32(0);
cacheentry->inh_dirid = const_cpu_to_le32(0);
cacheentry->valid = 1;
pcache->head.p_writes++;
} else {
if (!pcache) {
/* create the first cache block */
pcache = create_caches(scx, securindex);
} else {
if (index1 > pcache->head.last) {
resize_cache(scx, securindex);
pcache = *scx->pseccache;
}
}
/* allocate block, if cache table was allocated */
if (pcache && (index1 <= pcache->head.last)) {
cacheblock = (struct CACHED_PERMISSIONS*)
malloc(sizeof(struct CACHED_PERMISSIONS)
<< CACHE_PERMISSIONS_BITS);
pcache->cachetable[index1] = cacheblock;
for (i=0; i<(1 << CACHE_PERMISSIONS_BITS); i++)
cacheblock[i].valid = 0;
cacheentry = &cacheblock[index2];
if (cacheentry) {
cacheentry->uid = uid;
cacheentry->gid = gid;
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#if POSIXACLS
if (pxdesc) {
pxsize = sizeof(struct POSIX_SECURITY)
+ (pxdesc->acccnt + pxdesc->defcnt)*sizeof(struct POSIX_ACE);
pxcached = (struct POSIX_SECURITY*)malloc(pxsize);
if (pxcached) {
memcpy(pxcached, pxdesc, pxsize);
cacheentry->pxdesc = pxcached;
} else {
cacheentry->valid = 0;
cacheentry = (struct CACHED_PERMISSIONS*)NULL;
}
cacheentry->mode = pxdesc->mode & 07777;
} else
cacheentry->pxdesc = (struct POSIX_SECURITY*)NULL;
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#else
cacheentry->mode = mode & 07777;
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#endif
cacheentry->inh_fileid = const_cpu_to_le32(0);
cacheentry->inh_dirid = const_cpu_to_le32(0);
cacheentry->valid = 1;
pcache->head.p_writes++;
}
} else
cacheentry = (struct CACHED_PERMISSIONS*)NULL;
}
} else {
cacheentry = (struct CACHED_PERMISSIONS*)NULL;
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#if CACHE_LEGACY_SIZE
if (ni->mrec->flags & MFT_RECORD_IS_DIRECTORY) {
struct CACHED_PERMISSIONS_LEGACY wanted;
struct CACHED_PERMISSIONS_LEGACY *legacy;
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wanted.perm.uid = uid;
wanted.perm.gid = gid;
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#if POSIXACLS
wanted.perm.mode = pxdesc->mode & 07777;
wanted.perm.inh_fileid = const_cpu_to_le32(0);
wanted.perm.inh_dirid = const_cpu_to_le32(0);
wanted.mft_no = ni->mft_no;
wanted.variable = (void*)pxdesc;
wanted.varsize = sizeof(struct POSIX_SECURITY)
+ (pxdesc->acccnt + pxdesc->defcnt)*sizeof(struct POSIX_ACE);
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#else
wanted.perm.mode = mode & 07777;
wanted.perm.inh_fileid = const_cpu_to_le32(0);
wanted.perm.inh_dirid = const_cpu_to_le32(0);
wanted.mft_no = ni->mft_no;
wanted.variable = (void*)NULL;
wanted.varsize = 0;
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#endif
legacy = (struct CACHED_PERMISSIONS_LEGACY*)ntfs_enter_cache(
scx->vol->legacy_cache, GENERIC(&wanted),
(cache_compare)leg_compare);
if (legacy) {
cacheentry = &legacy->perm;
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#if POSIXACLS
/*
* give direct access to the cached pxdesc
* in the permissions structure
*/
cacheentry->pxdesc = legacy->variable;
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#endif
}
}
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#endif
}
return (cacheentry);
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}
/*
* Fetch owner, group and permission of a file, if cached
*
* Beware : do not use the returned entry after a cache update :
* the cache may be relocated making the returned entry meaningless
*
* returns the cache entry, or NULL if not available
*/
static struct CACHED_PERMISSIONS *fetch_cache(struct SECURITY_CONTEXT *scx,
ntfs_inode *ni)
{
struct CACHED_PERMISSIONS *cacheentry;
struct PERMISSIONS_CACHE *pcache;
u32 securindex;
unsigned int index1;
unsigned int index2;
/* cacheing is only possible if a security_id has been defined */
cacheentry = (struct CACHED_PERMISSIONS*)NULL;
if (test_nino_flag(ni, v3_Extensions)
&& (ni->security_id)) {
securindex = le32_to_cpu(ni->security_id);
index1 = securindex >> CACHE_PERMISSIONS_BITS;
index2 = securindex & ((1 << CACHE_PERMISSIONS_BITS) - 1);
pcache = *scx->pseccache;
if (pcache
&& (pcache->head.last >= index1)
&& pcache->cachetable[index1]) {
cacheentry = &pcache->cachetable[index1][index2];
/* reject if entry is not valid */
if (!cacheentry->valid)
cacheentry = (struct CACHED_PERMISSIONS*)NULL;
else
pcache->head.p_hits++;
if (pcache)
pcache->head.p_reads++;
}
}
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#if CACHE_LEGACY_SIZE
else {
cacheentry = (struct CACHED_PERMISSIONS*)NULL;
if (ni->mrec->flags & MFT_RECORD_IS_DIRECTORY) {
struct CACHED_PERMISSIONS_LEGACY wanted;
struct CACHED_PERMISSIONS_LEGACY *legacy;
wanted.mft_no = ni->mft_no;
wanted.variable = (void*)NULL;
wanted.varsize = 0;
legacy = (struct CACHED_PERMISSIONS_LEGACY*)ntfs_fetch_cache(
scx->vol->legacy_cache, GENERIC(&wanted),
(cache_compare)leg_compare);
if (legacy) cacheentry = &legacy->perm;
}
}
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#endif
#if POSIXACLS
if (cacheentry && !cacheentry->pxdesc) {
ntfs_log_error("No Posix descriptor in cache\n");
cacheentry = (struct CACHED_PERMISSIONS*)NULL;
}
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#endif
return (cacheentry);
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}
/*
* Retrieve a security attribute from $Secure
*/
static char *retrievesecurityattr(ntfs_volume *vol, SII_INDEX_KEY id)
{
struct SII *psii;
union {
struct {
le32 dataoffsl;
le32 dataoffsh;
} parts;
le64 all;
} realign;
int found;
size_t size;
size_t rdsize;
s64 offs;
ntfs_inode *ni;
ntfs_index_context *xsii;
char *securattr;
securattr = (char*)NULL;
ni = vol->secure_ni;
xsii = vol->secure_xsii;
if (ni && xsii) {
ntfs_index_ctx_reinit(xsii);
found =
!ntfs_index_lookup((char*)&id,
sizeof(SII_INDEX_KEY), xsii);
if (found) {
psii = (struct SII*)xsii->entry;
size =
(size_t) le32_to_cpu(psii->datasize)
- sizeof(SECURITY_DESCRIPTOR_HEADER);
/* work around bad alignment problem */
realign.parts.dataoffsh = psii->dataoffsh;
realign.parts.dataoffsl = psii->dataoffsl;
offs = le64_to_cpu(realign.all)
+ sizeof(SECURITY_DESCRIPTOR_HEADER);
securattr = (char*)ntfs_malloc(size);
if (securattr) {
rdsize = ntfs_local_read(
ni, STREAM_SDS, 4,
securattr, size, offs);
if ((rdsize != size)
|| !ntfs_valid_descr(securattr,
rdsize)) {
/* error to be logged by caller */
free(securattr);
securattr = (char*)NULL;
}
}
} else
if (errno != ENOENT)
ntfs_log_perror("Inconsistency in index $SII");
}
if (!securattr) {
ntfs_log_error("Failed to retrieve a security descriptor\n");
errno = EIO;
}
return (securattr);
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}
/*
* Get the security descriptor associated to a file
*
* Either :
* - read the security descriptor attribute (v1.x format)
* - or find the descriptor in $Secure:$SDS (v3.x format)
*
* in both case, sanity checks are done on the attribute and
* the descriptor can be assumed safe
*
* The returned descriptor is dynamically allocated and has to be freed
*/
static char *getsecurityattr(ntfs_volume *vol,
const char *path, ntfs_inode *ni)
{
SII_INDEX_KEY securid;
char *securattr;
s64 readallsz;
/*
* Warning : in some situations, after fixing by chkdsk,
* v3_Extensions are marked present (long standard informations)
* with a default security descriptor inserted in an
* attribute
*/
if (test_nino_flag(ni, v3_Extensions)
&& vol->secure_ni && ni->security_id) {
/* get v3.x descriptor in $Secure */
securid.security_id = ni->security_id;
securattr = retrievesecurityattr(vol,securid);
if (!securattr)
ntfs_log_error("Bad security descriptor for 0x%lx\n",
(long)le32_to_cpu(ni->security_id));
} else {
/* get v1.x security attribute */
readallsz = 0;
securattr = ntfs_attr_readall(ni, AT_SECURITY_DESCRIPTOR,
AT_UNNAMED, 0, &readallsz);
if (securattr && !ntfs_valid_descr(securattr, readallsz)) {
ntfs_log_error("Bad security descriptor for %s\n",
path);
free(securattr);
securattr = (char*)NULL;
}
}
if (!securattr) {
/*
* in some situations, there is no security
* descriptor, and chkdsk does not detect or fix
* anything. This could be a normal situation.
* When this happens, simulate a descriptor with
* minimum rights, so that a real descriptor can
* be created by chown or chmod
*/
ntfs_log_error("No security descriptor found for %s\n",path);
securattr = ntfs_build_descr(0, 0, adminsid, adminsid);
}
return (securattr);
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}
#if POSIXACLS
/*
* Determine which access types to a file are allowed
* according to the relation of current process to the file
*
* Do not call if default_permissions is set
*/
static int access_check_posix(struct SECURITY_CONTEXT *scx,
struct POSIX_SECURITY *pxdesc, mode_t request,
uid_t uid, gid_t gid)
{
struct POSIX_ACE *pxace;
int userperms;
int groupperms;
int mask;
BOOL somegroup;
mode_t perms;
int i;
perms = pxdesc->mode;
/* owner and root access */
if (!scx->uid || (uid == scx->uid)) {
if (!scx->uid) {
/* root access if owner or other execution */
if (perms & 0101)
perms = 07777;
else {
/* root access if some group execution */
groupperms = 0;
mask = 7;
for (i=pxdesc->acccnt-1; i>=0 ; i--) {
pxace = &pxdesc->acl.ace[i];
switch (pxace->tag) {
case POSIX_ACL_USER_OBJ :
case POSIX_ACL_GROUP_OBJ :
case POSIX_ACL_GROUP :
groupperms |= pxace->perms;
break;
case POSIX_ACL_MASK :
mask = pxace->perms & 7;
break;
default :
break;
}
}
perms = (groupperms & mask & 1) | 6;
}
} else
perms &= 07700;
} else {
/* analyze designated users and get mask */
userperms = -1;
groupperms = -1;
mask = 7;
for (i=pxdesc->acccnt-1; i>=0 ; i--) {
pxace = &pxdesc->acl.ace[i];
switch (pxace->tag) {
case POSIX_ACL_USER :
if ((uid_t)pxace->id == scx->uid)
userperms = pxace->perms;
break;
case POSIX_ACL_MASK :
mask = pxace->perms & 7;
break;
default :
break;
}
}
/* designated users */
if (userperms >= 0)
perms = (perms & 07000) + (userperms & mask);
else {
/* owning group */
if (!(~(perms >> 3) & request & mask)
&& ((gid == scx->gid)
|| groupmember(scx, scx->uid, gid)))
perms &= 07070;
else {
/* other groups */
groupperms = -1;
somegroup = FALSE;
for (i=pxdesc->acccnt-1; i>=0 ; i--) {
pxace = &pxdesc->acl.ace[i];
if ((pxace->tag == POSIX_ACL_GROUP)
&& groupmember(scx, uid, pxace->id)) {
if (!(~pxace->perms & request & mask))
groupperms = pxace->perms;
somegroup = TRUE;
}
}
if (groupperms >= 0)
perms = (perms & 07000) + (groupperms & mask);
else
if (somegroup)
perms = 0;
else
perms &= 07007;
}
}
}
return (perms);
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}
/*
* Get permissions to access a file
* Takes into account the relation of user to file (owner, group, ...)
* Do no use as mode of the file
* Do no call if default_permissions is set
*
* returns -1 if there is a problem
*/
static int ntfs_get_perm(struct SECURITY_CONTEXT *scx,
const char *path, ntfs_inode * ni, mode_t request)
{
const SECURITY_DESCRIPTOR_RELATIVE *phead;
const struct CACHED_PERMISSIONS *cached;
char *securattr;
const SID *usid; /* owner of file/directory */
const SID *gsid; /* group of file/directory */
uid_t uid;
gid_t gid;
int perm;
BOOL isdir;
struct POSIX_SECURITY *pxdesc;
if (!scx->mapping[MAPUSERS])
perm = 07777;
else {
/* check whether available in cache */
cached = fetch_cache(scx,ni);
if (cached) {
uid = cached->uid;
gid = cached->gid;
perm = access_check_posix(scx,cached->pxdesc,request,uid,gid);
} else {
perm = 0; /* default to no permission */
isdir = (ni->mrec->flags & MFT_RECORD_IS_DIRECTORY)
!= const_cpu_to_le16(0);
securattr = getsecurityattr(scx->vol, path, ni);
if (securattr) {
phead = (const SECURITY_DESCRIPTOR_RELATIVE*)
securattr;
gsid = (const SID*)&
securattr[le32_to_cpu(phead->group)];
gid = ntfs_find_group(scx->mapping[MAPGROUPS],gsid);
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#if OWNERFROMACL
usid = ntfs_acl_owner(securattr);
pxdesc = ntfs_build_permissions_posix(scx->mapping,securattr,
usid, gsid, isdir);
if (pxdesc)
perm = pxdesc->mode & 07777;
else
perm = -1;
uid = ntfs_find_user(scx->mapping[MAPUSERS],usid);
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#else
usid = (const SID*)&
securattr[le32_to_cpu(phead->owner)];
pxdesc = ntfs_build_permissions_posix(scx,securattr,
usid, gsid, isdir);
if (pxdesc)
perm = pxdesc->mode & 07777;
else
perm = -1;
if (!perm && ntfs_same_sid(usid, adminsid)) {
uid = find_tenant(scx, securattr);
if (uid)
perm = 0700;
} else
uid = ntfs_find_user(scx->mapping[MAPUSERS],usid);
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#endif
/*
* Create a security id if there were none
* and upgrade option is selected
*/
if (!test_nino_flag(ni, v3_Extensions)
&& (perm >= 0)
&& (scx->vol->secure_flags
& (1 << SECURITY_ADDSECURIDS))) {
upgrade_secur_desc(scx->vol, path,
securattr, ni);
/*
* fetch owner and group for cacheing
* if there is a securid
*/
}
if (test_nino_flag(ni, v3_Extensions)
&& (perm >= 0)) {
enter_cache(scx, ni, uid,
gid, pxdesc);
}
if (pxdesc) {
perm = access_check_posix(scx,pxdesc,request,uid,gid);
free(pxdesc);
}
free(securattr);
} else {
perm = -1;
uid = gid = 0;
}
}
}
return (perm);
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}
/*
* Get a Posix ACL
*
* returns size or -errno if there is a problem
* if size was too small, no copy is done and errno is not set,
* the caller is expected to issue a new call
*/
int ntfs_get_posix_acl(struct SECURITY_CONTEXT *scx, const char *path,
const char *name, char *value, size_t size,
ntfs_inode *ni)
{
const SECURITY_DESCRIPTOR_RELATIVE *phead;
struct POSIX_SECURITY *pxdesc;
const struct CACHED_PERMISSIONS *cached;
char *securattr;
const SID *usid; /* owner of file/directory */
const SID *gsid; /* group of file/directory */
uid_t uid;
gid_t gid;
int perm;
BOOL isdir;
size_t outsize;
outsize = 0; /* default to error */
if (!scx->mapping[MAPUSERS])
errno = ENOTSUP;
else {
/* check whether available in cache */
cached = fetch_cache(scx,ni);
if (cached)
pxdesc = cached->pxdesc;
else {
securattr = getsecurityattr(scx->vol, path, ni);
isdir = (ni->mrec->flags & MFT_RECORD_IS_DIRECTORY)
!= const_cpu_to_le16(0);
if (securattr) {
phead =
(const SECURITY_DESCRIPTOR_RELATIVE*)
securattr;
gsid = (const SID*)&
securattr[le32_to_cpu(phead->group)];
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#if OWNERFROMACL
usid = ntfs_acl_owner(securattr);
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#else
usid = (const SID*)&
securattr[le32_to_cpu(phead->owner)];
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#endif
pxdesc = ntfs_build_permissions_posix(scx->mapping,securattr,
usid, gsid, isdir);
/*
* fetch owner and group for cacheing
*/
if (pxdesc) {
perm = pxdesc->mode & 07777;
/*
* Create a security id if there were none
* and upgrade option is selected
*/
if (!test_nino_flag(ni, v3_Extensions)
&& (scx->vol->secure_flags
& (1 << SECURITY_ADDSECURIDS))) {
upgrade_secur_desc(scx->vol,
path, securattr, ni);
}
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#if OWNERFROMACL
uid = ntfs_find_user(scx->mapping[MAPUSERS],usid);
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#else
if (!perm && ntfs_same_sid(usid, adminsid)) {
uid = find_tenant(scx,
securattr);
if (uid)
perm = 0700;
} else
uid = ntfs_find_user(scx->mapping[MAPUSERS],usid);
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#endif
gid = ntfs_find_group(scx->mapping[MAPGROUPS],gsid);
if (pxdesc->tagsset & POSIX_ACL_EXTENSIONS)
enter_cache(scx, ni, uid,
gid, pxdesc);
}
free(securattr);
} else
pxdesc = (struct POSIX_SECURITY*)NULL;
}
if (pxdesc) {
if (ntfs_valid_posix(pxdesc)) {
if (!strcmp(name,"system.posix_acl_default")) {
if (ni->mrec->flags
& MFT_RECORD_IS_DIRECTORY)
outsize = sizeof(struct POSIX_ACL)
+ pxdesc->defcnt*sizeof(struct POSIX_ACE);
else {
/*
* getting default ACL from plain file :
* return EACCES if size > 0 as
* indicated in the man, but return ok
* if size == 0, so that ls does not
* display an error
*/
if (size > 0) {
outsize = 0;
errno = EACCES;
} else
outsize = sizeof(struct POSIX_ACL);
}
if (outsize && (outsize <= size)) {
memcpy(value,&pxdesc->acl,sizeof(struct POSIX_ACL));
memcpy(&value[sizeof(struct POSIX_ACL)],
&pxdesc->acl.ace[pxdesc->firstdef],
outsize-sizeof(struct POSIX_ACL));
}
} else {
outsize = sizeof(struct POSIX_ACL)
+ pxdesc->acccnt*sizeof(struct POSIX_ACE);
if (outsize <= size)
memcpy(value,&pxdesc->acl,outsize);
}
} else {
outsize = 0;
errno = EIO;
ntfs_log_error("Invalid Posix ACL built\n");
}
if (!cached)
free(pxdesc);
} else
outsize = 0;
}
return (outsize ? (int)outsize : -errno);
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}
#else /* POSIXACLS */
/*
* Get permissions to access a file
* Takes into account the relation of user to file (owner, group, ...)
* Do no use as mode of the file
*
* returns -1 if there is a problem
*
* This is only used for checking creation of DOS file names
*/
static int ntfs_get_perm(struct SECURITY_CONTEXT *scx,
const char *path, ntfs_inode *ni,
mode_t request __attribute__((unused)))
{
const SECURITY_DESCRIPTOR_RELATIVE *phead;
const struct CACHED_PERMISSIONS *cached;
char *securattr;
const SID *usid; /* owner of file/directory */
const SID *gsid; /* group of file/directory */
BOOL isdir;
uid_t uid;
gid_t gid;
int perm;
if (!scx->mapping[MAPUSERS] || !scx->uid)
perm = 07777;
else {
/* check whether available in cache */
cached = fetch_cache(scx,ni);
if (cached) {
perm = cached->mode;
uid = cached->uid;
gid = cached->gid;
} else {
perm = 0; /* default to no permission */
isdir = (ni->mrec->flags & MFT_RECORD_IS_DIRECTORY)
!= const_cpu_to_le16(0);
securattr = getsecurityattr(scx->vol, path, ni);
if (securattr) {
phead = (const SECURITY_DESCRIPTOR_RELATIVE*)
securattr;
gsid = (const SID*)&
securattr[le32_to_cpu(phead->group)];
gid = ntfs_find_group(scx->mapping[MAPGROUPS],gsid);
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#if OWNERFROMACL
usid = ntfs_acl_owner(securattr);
perm = ntfs_build_permissions(securattr,
usid, gsid, isdir);
uid = ntfs_find_user(scx->mapping[MAPUSERS],usid);
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#else
usid = (const SID*)&
securattr[le32_to_cpu(phead->owner)];
perm = ntfs_build_permissions(securattr,
usid, gsid, isdir);
if (!perm && ntfs_same_sid(usid, adminsid)) {
uid = find_tenant(scx, securattr);
if (uid)
perm = 0700;
} else
uid = ntfs_find_user(scx->mapping[MAPUSERS],usid);
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#endif
/*
* Create a security id if there were none
* and upgrade option is selected
*/
if (!test_nino_flag(ni, v3_Extensions)
&& (perm >= 0)
&& (scx->vol->secure_flags
& (1 << SECURITY_ADDSECURIDS))) {
upgrade_secur_desc(scx->vol, path,
securattr, ni);
/*
* fetch owner and group for cacheing
* if there is a securid
*/
}
if (test_nino_flag(ni, v3_Extensions)
&& (perm >= 0)) {
enter_cache(scx, ni, uid,
gid, perm);
}
free(securattr);
} else {
perm = -1;
uid = gid = 0;
}
}
if (perm >= 0) {
if (uid == scx->uid)
perm &= 07700;
else
if ((gid == scx->gid)
|| groupmember(scx, scx->uid, gid))
perm &= 07070;
else
perm &= 07007;
}
}
return (perm);
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}
#endif /* POSIXACLS */
/*
* Get an NTFS ACL
*
* Returns size or -errno if there is a problem
* if size was too small, no copy is done and errno is not set,
* the caller is expected to issue a new call
*/
int ntfs_get_ntfs_acl(struct SECURITY_CONTEXT *scx, const char *path,
const char *name __attribute__((unused)),
char *value, size_t size, ntfs_inode *ni)
{
char *securattr;
size_t outsize;
outsize = 0; /* default to no data and no error */
securattr = getsecurityattr(scx->vol, path, ni);
if (securattr) {
outsize = ntfs_attr_size(securattr);
if (outsize <= size) {
memcpy(value,securattr,outsize);
}
free(securattr);
}
return (outsize ? (int)outsize : -errno);
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}
/*
* Get owner, group and permissions in an stat structure
* returns permissions, or -1 if there is a problem
*/
int ntfs_get_owner_mode(struct SECURITY_CONTEXT *scx,
const char *path, ntfs_inode * ni,
struct stat *stbuf)
{
const SECURITY_DESCRIPTOR_RELATIVE *phead;
char *securattr;
const SID *usid; /* owner of file/directory */
const SID *gsid; /* group of file/directory */
const struct CACHED_PERMISSIONS *cached;
int perm;
BOOL isdir;
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#if POSIXACLS
struct POSIX_SECURITY *pxdesc;
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#endif
if (!scx->mapping[MAPUSERS])
perm = 07777;
else {
/* check whether available in cache */
cached = fetch_cache(scx,ni);
if (cached) {
perm = cached->mode;
stbuf->st_uid = cached->uid;
stbuf->st_gid = cached->gid;
stbuf->st_mode = (stbuf->st_mode & ~07777) + perm;
} else {
perm = -1; /* default to error */
isdir = (ni->mrec->flags & MFT_RECORD_IS_DIRECTORY)
!= const_cpu_to_le16(0);
securattr = getsecurityattr(scx->vol, path, ni);
if (securattr) {
phead =
(const SECURITY_DESCRIPTOR_RELATIVE*)
securattr;
gsid = (const SID*)&
securattr[le32_to_cpu(phead->group)];
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#if OWNERFROMACL
usid = ntfs_acl_owner(securattr);
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#else
usid = (const SID*)&
securattr[le32_to_cpu(phead->owner)];
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#endif
#if POSIXACLS
pxdesc = ntfs_build_permissions_posix(scx->mapping, securattr,
usid, gsid, isdir);
if (pxdesc)
perm = pxdesc->mode & 07777;
else
perm = -1;
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#else
perm = ntfs_build_permissions(securattr,
usid, gsid, isdir);
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#endif
/*
* fetch owner and group for cacheing
*/
if (perm >= 0) {
/*
* Create a security id if there were none
* and upgrade option is selected
*/
if (!test_nino_flag(ni, v3_Extensions)
&& (scx->vol->secure_flags
& (1 << SECURITY_ADDSECURIDS))) {
upgrade_secur_desc(scx->vol,
path, securattr, ni);
}
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#if OWNERFROMACL
stbuf->st_uid = ntfs_find_user(scx->mapping[MAPUSERS],usid);
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#else
if (!perm && ntfs_same_sid(usid, adminsid)) {
stbuf->st_uid =
find_tenant(scx,
securattr);
if (stbuf->st_uid)
perm = 0700;
} else
stbuf->st_uid = ntfs_find_user(scx->mapping[MAPUSERS],usid);
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#endif
stbuf->st_gid = ntfs_find_group(scx->mapping[MAPGROUPS],gsid);
stbuf->st_mode =
(stbuf->st_mode & ~07777) + perm;
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#if POSIXACLS
enter_cache(scx, ni, stbuf->st_uid,
stbuf->st_gid, pxdesc);
free(pxdesc);
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#else
enter_cache(scx, ni, stbuf->st_uid,
stbuf->st_gid, perm);
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#endif
}
free(securattr);
}
}
}
return (perm);
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}
#if POSIXACLS
/*
* Get the base for a Posix inheritance and
* build an inherited Posix descriptor
*/
static struct POSIX_SECURITY *inherit_posix(struct SECURITY_CONTEXT *scx,
const char *dir_path, ntfs_inode *dir_ni,
mode_t mode, BOOL isdir)
{
const struct CACHED_PERMISSIONS *cached;
const SECURITY_DESCRIPTOR_RELATIVE *phead;
struct POSIX_SECURITY *pxdesc;
struct POSIX_SECURITY *pydesc;
char *securattr;
const SID *usid;
const SID *gsid;
uid_t uid;
gid_t gid;
pydesc = (struct POSIX_SECURITY*)NULL;
/* check whether parent directory is available in cache */
cached = fetch_cache(scx,dir_ni);
if (cached) {
uid = cached->uid;
gid = cached->gid;
pxdesc = cached->pxdesc;
if (pxdesc) {
pydesc = ntfs_build_inherited_posix(pxdesc,mode,
scx->umask,isdir);
}
} else {
securattr = getsecurityattr(scx->vol, dir_path, dir_ni);
if (securattr) {
phead = (const SECURITY_DESCRIPTOR_RELATIVE*)
securattr;
gsid = (const SID*)&
securattr[le32_to_cpu(phead->group)];
gid = ntfs_find_group(scx->mapping[MAPGROUPS],gsid);
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#if OWNERFROMACL
usid = ntfs_acl_owner(securattr);
pxdesc = ntfs_build_permissions_posix(scx->mapping,securattr,
usid, gsid, TRUE);
uid = ntfs_find_user(scx->mapping[MAPUSERS],usid);
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#else
usid = (const SID*)&
securattr[le32_to_cpu(phead->owner)];
pxdesc = ntfs_build_permissions_posix(scx->mapping,securattr,
usid, gsid, TRUE);
if (pxdesc && ntfs_same_sid(usid, adminsid)) {
uid = find_tenant(scx, securattr);
} else
uid = ntfs_find_user(scx->mapping[MAPUSERS],usid);
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#endif
if (pxdesc) {
/*
* Create a security id if there were none
* and upgrade option is selected
*/
if (!test_nino_flag(dir_ni, v3_Extensions)
&& (scx->vol->secure_flags
& (1 << SECURITY_ADDSECURIDS))) {
upgrade_secur_desc(scx->vol, dir_path,
securattr, dir_ni);
/*
* fetch owner and group for cacheing
* if there is a securid
*/
}
if (test_nino_flag(dir_ni, v3_Extensions)) {
enter_cache(scx, dir_ni, uid,
gid, pxdesc);
}
pydesc = ntfs_build_inherited_posix(pxdesc,
mode, scx->umask, isdir);
free(pxdesc);
}
free(securattr);
}
}
return (pydesc);
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}
/*
* Allocate a security_id for a file being created
*
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* Returns zero if not possible (NTFS v3.x required)
*/
le32 ntfs_alloc_securid(struct SECURITY_CONTEXT *scx,
uid_t uid, gid_t gid, const char *dir_path,
ntfs_inode *dir_ni, mode_t mode, BOOL isdir)
{
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#if !FORCE_FORMAT_v1x
const struct CACHED_SECURID *cached;
struct CACHED_SECURID wanted;
struct POSIX_SECURITY *pxdesc;
char *newattr;
int newattrsz;
const SID *usid;
const SID *gsid;
BIGSID defusid;
BIGSID defgsid;
le32 securid;
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#endif
securid = const_cpu_to_le32(0);
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#if !FORCE_FORMAT_v1x
pxdesc = inherit_posix(scx, dir_path, dir_ni, mode, isdir);
if (pxdesc) {
/* check whether target securid is known in cache */
wanted.uid = uid;
wanted.gid = gid;
wanted.dmode = pxdesc->mode & mode & 07777;
if (isdir) wanted.dmode |= 0x10000;
wanted.variable = (void*)pxdesc;
wanted.varsize = sizeof(struct POSIX_SECURITY)
+ (pxdesc->acccnt + pxdesc->defcnt)*sizeof(struct POSIX_ACE);
cached = (const struct CACHED_SECURID*)ntfs_fetch_cache(
scx->vol->securid_cache, GENERIC(&wanted),
(cache_compare)compare);
/* quite simple, if we are lucky */
if (cached)
securid = cached->securid;
/* not in cache : make sure we can create ids */
if (!cached && (scx->vol->major_ver >= 3)) {
usid = ntfs_find_usid(scx->mapping[MAPUSERS],uid,(SID*)&defusid);
gsid = ntfs_find_gsid(scx->mapping[MAPGROUPS],gid,(SID*)&defgsid);
if (!usid || !gsid) {
ntfs_log_error("File created by an unmapped user/group %d/%d\n",
(int)uid, (int)gid);
usid = gsid = adminsid;
}
newattr = ntfs_build_descr_posix(scx->mapping, pxdesc,
isdir, usid, gsid);
if (newattr) {
newattrsz = ntfs_attr_size(newattr);
securid = setsecurityattr(scx->vol,
(const SECURITY_DESCRIPTOR_RELATIVE*)newattr,
newattrsz);
if (securid) {
/* update cache, for subsequent use */
wanted.securid = securid;
ntfs_enter_cache(scx->vol->securid_cache,
GENERIC(&wanted),
(cache_compare)compare);
}
free(newattr);
} else {
/*
* could not build new security attribute
* errno set by ntfs_build_descr()
*/
}
}
free(pxdesc);
}
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#endif
return (securid);
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}
/*
* Apply Posix inheritance to a newly created file
* (for NTFS 1.x only : no securid)
*/
int ntfs_set_inherited_posix(struct SECURITY_CONTEXT *scx,
ntfs_inode *ni, uid_t uid, gid_t gid,
const char *dir_path, ntfs_inode *dir_ni, mode_t mode)
{
struct POSIX_SECURITY *pxdesc;
char *newattr;
const SID *usid;
const SID *gsid;
BIGSID defusid;
BIGSID defgsid;
BOOL isdir;
int res;
res = -1;
isdir = (ni->mrec->flags & MFT_RECORD_IS_DIRECTORY) != const_cpu_to_le16(0);
pxdesc = inherit_posix(scx, dir_path, dir_ni, mode, isdir);
if (pxdesc) {
usid = ntfs_find_usid(scx->mapping[MAPUSERS],uid,(SID*)&defusid);
gsid = ntfs_find_gsid(scx->mapping[MAPGROUPS],gid,(SID*)&defgsid);
if (!usid || !gsid) {
ntfs_log_error("File created by an unmapped user/group %d/%d\n",
(int)uid, (int)gid);
usid = gsid = adminsid;
}
newattr = ntfs_build_descr_posix(scx->mapping, pxdesc,
isdir, usid, gsid);
if (newattr) {
/* Adjust Windows read-only flag */
res = update_secur_descr(scx->vol, newattr, ni);
if (!res) {
if (mode & S_IWUSR)
ni->flags &= ~FILE_ATTR_READONLY;
else
ni->flags |= FILE_ATTR_READONLY;
}
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#if CACHE_LEGACY_SIZE
/* also invalidate legacy cache */
if (isdir && !ni->security_id) {
struct CACHED_PERMISSIONS_LEGACY legacy;
legacy.mft_no = ni->mft_no;
legacy.variable = pxdesc;
legacy.varsize = sizeof(struct POSIX_SECURITY)
+ (pxdesc->acccnt + pxdesc->defcnt)*sizeof(struct POSIX_ACE);
ntfs_invalidate_cache(scx->vol->legacy_cache,
GENERIC(&legacy),
(cache_compare)leg_compare);
}
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#endif
free(newattr);
} else {
/*
* could not build new security attribute
* errno set by ntfs_build_descr()
*/
}
}
return (res);
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}
#else
le32 ntfs_alloc_securid(struct SECURITY_CONTEXT *scx,
uid_t uid, gid_t gid, mode_t mode, BOOL isdir)
{
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#if !FORCE_FORMAT_v1x
const struct CACHED_SECURID *cached;
struct CACHED_SECURID wanted;
char *newattr;
int newattrsz;
const SID *usid;
const SID *gsid;
BIGSID defusid;
BIGSID defgsid;
le32 securid;
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#endif
securid = const_cpu_to_le32(0);
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#if !FORCE_FORMAT_v1x
/* check whether target securid is known in cache */
wanted.uid = uid;
wanted.gid = gid;
wanted.dmode = mode & 07777;
if (isdir) wanted.dmode |= 0x10000;
wanted.variable = (void*)NULL;
wanted.varsize = 0;
cached = (const struct CACHED_SECURID*)ntfs_fetch_cache(
scx->vol->securid_cache, GENERIC(&wanted),
(cache_compare)compare);
/* quite simple, if we are lucky */
if (cached)
securid = cached->securid;
/* not in cache : make sure we can create ids */
if (!cached && (scx->vol->major_ver >= 3)) {
usid = ntfs_find_usid(scx->mapping[MAPUSERS],uid,(SID*)&defusid);
gsid = ntfs_find_gsid(scx->mapping[MAPGROUPS],gid,(SID*)&defgsid);
if (!usid || !gsid) {
ntfs_log_error("File created by an unmapped user/group %d/%d\n",
(int)uid, (int)gid);
usid = gsid = adminsid;
}
newattr = ntfs_build_descr(mode, isdir, usid, gsid);
if (newattr) {
newattrsz = ntfs_attr_size(newattr);
securid = setsecurityattr(scx->vol,
(const SECURITY_DESCRIPTOR_RELATIVE*)newattr,
newattrsz);
if (securid) {
/* update cache, for subsequent use */
wanted.securid = securid;
ntfs_enter_cache(scx->vol->securid_cache,
GENERIC(&wanted),
(cache_compare)compare);
}
free(newattr);
} else {
/*
* could not build new security attribute
* errno set by ntfs_build_descr()
*/
}
}
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#endif
return (securid);
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}
#endif
/*
* Update ownership and mode of a file, reusing an existing
* security descriptor when possible
*
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* Returns zero if successful
*/
#if POSIXACLS
int ntfs_set_owner_mode(struct SECURITY_CONTEXT *scx, ntfs_inode *ni,
uid_t uid, gid_t gid, mode_t mode,
struct POSIX_SECURITY *pxdesc)
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#else
int ntfs_set_owner_mode(struct SECURITY_CONTEXT *scx, ntfs_inode *ni,
uid_t uid, gid_t gid, mode_t mode)
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#endif
{
int res;
const struct CACHED_SECURID *cached;
struct CACHED_SECURID wanted;
char *newattr;
const SID *usid;
const SID *gsid;
BIGSID defusid;
BIGSID defgsid;
BOOL isdir;
res = 0;
/* check whether target securid is known in cache */
isdir = (ni->mrec->flags & MFT_RECORD_IS_DIRECTORY) != const_cpu_to_le16(0);
wanted.uid = uid;
wanted.gid = gid;
wanted.dmode = mode & 07777;
if (isdir) wanted.dmode |= 0x10000;
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#if POSIXACLS
wanted.variable = (void*)pxdesc;
if (pxdesc)
wanted.varsize = sizeof(struct POSIX_SECURITY)
+ (pxdesc->acccnt + pxdesc->defcnt)*sizeof(struct POSIX_ACE);
else
wanted.varsize = 0;
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#else
wanted.variable = (void*)NULL;
wanted.varsize = 0;
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#endif
if (test_nino_flag(ni, v3_Extensions)) {
cached = (const struct CACHED_SECURID*)ntfs_fetch_cache(
scx->vol->securid_cache, GENERIC(&wanted),
(cache_compare)compare);
/* quite simple, if we are lucky */
if (cached) {
ni->security_id = cached->securid;
NInoSetDirty(ni);
}
} else cached = (struct CACHED_SECURID*)NULL;
if (!cached) {
/*
* Do not use usid and gsid from former attributes,
* but recompute them to get repeatable results
* which can be kept in cache.
*/
usid = ntfs_find_usid(scx->mapping[MAPUSERS],uid,(SID*)&defusid);
gsid = ntfs_find_gsid(scx->mapping[MAPGROUPS],gid,(SID*)&defgsid);
if (!usid || !gsid) {
ntfs_log_error("File made owned by an unmapped user/group %d/%d\n",
uid, gid);
usid = gsid = adminsid;
}
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#if POSIXACLS
if (pxdesc)
newattr = ntfs_build_descr_posix(scx->mapping, pxdesc,
isdir, usid, gsid);
else
newattr = ntfs_build_descr(mode,
isdir, usid, gsid);
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#else
newattr = ntfs_build_descr(mode,
isdir, usid, gsid);
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#endif
if (newattr) {
res = update_secur_descr(scx->vol, newattr, ni);
if (!res) {
/* adjust Windows read-only flag */
if (mode & S_IWUSR)
ni->flags &= ~FILE_ATTR_READONLY;
else
ni->flags |= FILE_ATTR_READONLY;
/* update cache, for subsequent use */
if (test_nino_flag(ni, v3_Extensions)) {
wanted.securid = ni->security_id;
ntfs_enter_cache(scx->vol->securid_cache,
GENERIC(&wanted),
(cache_compare)compare);
}
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#if CACHE_LEGACY_SIZE
/* also invalidate legacy cache */
if (isdir && !ni->security_id) {
struct CACHED_PERMISSIONS_LEGACY legacy;
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legacy.mft_no = ni->mft_no;
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#if POSIXACLS
legacy.variable = wanted.variable;
legacy.varsize = wanted.varsize;
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#else
legacy.variable = (void*)NULL;
legacy.varsize = 0;
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#endif
ntfs_invalidate_cache(scx->vol->legacy_cache,
GENERIC(&legacy),
(cache_compare)leg_compare);
}
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#endif
}
free(newattr);
} else {
/*
* could not build new security attribute
* errno set by ntfs_build_descr()
*/
res = -1;
}
}
return (res);
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}
/*
* Check whether user has ownership rights on a file
*
* Returns TRUE if allowed
* if not, errno tells why
*/
BOOL ntfs_allowed_as_owner(struct SECURITY_CONTEXT *scx,
const char *path, ntfs_inode *ni)
{
const struct CACHED_PERMISSIONS *cached;
char *oldattr;
const SID *usid;
uid_t processuid;
uid_t uid;
BOOL gotowner;
int allowed;
gotowner = FALSE; /* default */
processuid = scx->uid;
/* get the owner, either from cache or from old attribute */
cached = fetch_cache(scx, ni);
if (cached) {
uid = cached->uid;
gotowner = TRUE;
} else {
oldattr = getsecurityattr(scx->vol,path, ni);
if (oldattr) {
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#if OWNERFROMACL
usid = ntfs_acl_owner(oldattr);
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#else
const SECURITY_DESCRIPTOR_RELATIVE *phead;
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phead = (const SECURITY_DESCRIPTOR_RELATIVE*)oldattr;
usid = (const SID*)&oldattr[le32_to_cpu(phead->owner)];
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#endif
uid = ntfs_find_user(scx->mapping[MAPUSERS],usid);
gotowner = TRUE;
free(oldattr);
}
}
allowed = FALSE;
if (gotowner) {
/* TODO : use CAP_FOWNER process capability */
if (!processuid || (processuid == uid))
allowed = TRUE;
else
errno = EPERM;
}
return (allowed);
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}
#ifdef HAVE_SETXATTR /* extended attributes interface required */
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#if POSIXACLS
/*
* Set a new access or default Posix ACL to a file
* (or remove ACL if no input data)
* Validity of input data is checked after merging
*
* Returns 0, or -1 if there is a problem which errno describes
*/
int ntfs_set_posix_acl(struct SECURITY_CONTEXT *scx, const char *path,
const char *name, const char *value, size_t size,
int flags, ntfs_inode *ni)
{
const SECURITY_DESCRIPTOR_RELATIVE *phead;
const struct CACHED_PERMISSIONS *cached;
char *oldattr;
uid_t processuid;
const SID *usid;
const SID *gsid;
uid_t uid;
uid_t gid;
int res;
mode_t mode;
BOOL isdir;
BOOL deflt;
BOOL exist;
int count;
struct POSIX_SECURITY *oldpxdesc;
struct POSIX_SECURITY *newpxdesc;
/* get the current pxsec, either from cache or from old attribute */
res = -1;
deflt = !strcmp(name,"system.posix_acl_default");
if (size)
count = (size - sizeof(struct POSIX_ACL)) / sizeof(struct POSIX_ACE);
else
count = 0;
isdir = (ni->mrec->flags & MFT_RECORD_IS_DIRECTORY) != const_cpu_to_le16(0);
newpxdesc = (struct POSIX_SECURITY*)NULL;
if (!deflt || isdir || !size) {
cached = fetch_cache(scx, ni);
if (cached) {
uid = cached->uid;
gid = cached->gid;
oldpxdesc = cached->pxdesc;
if (oldpxdesc) {
mode = oldpxdesc->mode;
newpxdesc = ntfs_replace_acl(oldpxdesc,
(const struct POSIX_ACL*)value,count,deflt);
}
} else {
oldattr = getsecurityattr(scx->vol,path, ni);
if (oldattr) {
phead = (const SECURITY_DESCRIPTOR_RELATIVE*)oldattr;
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#if OWNERFROMACL
usid = ntfs_acl_owner(oldattr);
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#else
usid = (const SID*)&oldattr[le32_to_cpu(phead->owner)];
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#endif
gsid = (const SID*)&oldattr[le32_to_cpu(phead->group)];
uid = ntfs_find_user(scx->mapping[MAPUSERS],usid);
gid = ntfs_find_group(scx->mapping[MAPGROUPS],gsid);
oldpxdesc = ntfs_build_permissions_posix(scx->mapping,
oldattr, usid, gsid, isdir);
if (oldpxdesc) {
if (deflt)
exist = oldpxdesc->defcnt > 0;
else
exist = oldpxdesc->acccnt > 3;
if ((exist && (flags & XATTR_CREATE))
|| (!exist && (flags & XATTR_REPLACE))) {
errno = (exist ? EEXIST : ENODATA);
} else {
mode = oldpxdesc->mode;
newpxdesc = ntfs_replace_acl(oldpxdesc,
(const struct POSIX_ACL*)value,count,deflt);
}
free(oldpxdesc);
}
free(oldattr);
}
}
} else
errno = EINVAL;
if (newpxdesc) {
processuid = scx->uid;
/* TODO : use CAP_FOWNER process capability */
if (!processuid || (uid == processuid)) {
/*
* clear setgid if file group does
* not match process group
*/
if (processuid && (gid != scx->gid)
&& !groupmember(scx, scx->uid, gid)) {
newpxdesc->mode &= ~S_ISGID;
}
res = ntfs_set_owner_mode(scx, ni, uid, gid,
newpxdesc->mode, newpxdesc);
} else
errno = EPERM;
free(newpxdesc);
}
return (res ? -1 : 0);
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}
/*
* Remove a default Posix ACL from a file
*
* Returns 0, or -1 if there is a problem which errno describes
*/
int ntfs_remove_posix_acl(struct SECURITY_CONTEXT *scx, const char *path,
const char *name, ntfs_inode *ni)
{
return (ntfs_set_posix_acl(scx, path, name,
(const char*)NULL, 0, 0, ni));
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}
#endif
/*
* Set a new NTFS ACL to a file
*
* Returns 0, or -1 if there is a problem
*/
int ntfs_set_ntfs_acl(struct SECURITY_CONTEXT *scx,
const char *path __attribute__((unused)),
const char *name __attribute__((unused)),
const char *value, size_t size, int flags,
ntfs_inode *ni)
{
char *attr;
int res;
res = -1;
if ((size > 0)
&& !(flags & XATTR_CREATE)
&& ntfs_valid_descr(value,size)
&& (ntfs_attr_size(value) == size)) {
/* need copying in order to write */
attr = (char*)ntfs_malloc(size);
if (attr) {
memcpy(attr,value,size);
res = update_secur_descr(scx->vol, attr, ni);
/*
* No need to invalidate standard caches :
* the relation between a securid and
* the associated protection is unchanged,
* only the relation between a file and
* its securid and protection is changed.
*/
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#if CACHE_LEGACY_SIZE
/*
* we must however invalidate the legacy
* cache, which is based on inode numbers.
* For safety, invalidate even if updating
* failed.
*/
if ((ni->mrec->flags & MFT_RECORD_IS_DIRECTORY)
&& !ni->security_id) {
struct CACHED_PERMISSIONS_LEGACY legacy;
legacy.mft_no = ni->mft_no;
legacy.variable = (char*)NULL;
legacy.varsize = 0;
ntfs_invalidate_cache(scx->vol->legacy_cache,
GENERIC(&legacy),
(cache_compare)leg_compare);
}
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#endif
free(attr);
} else
errno = ENOMEM;
} else
errno = EINVAL;
return (res ? -1 : 0);
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}
#endif /* HAVE_SETXATTR */
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/*
* Set new permissions to a file
* Checks user mapping has been defined before request for setting
*
* rejected if request is not originated by owner or root
*
* returns 0 on success
* -1 on failure, with errno = EIO
*/
int ntfs_set_mode(struct SECURITY_CONTEXT *scx,
const char *path, ntfs_inode *ni, mode_t mode)
{
const SECURITY_DESCRIPTOR_RELATIVE *phead;
const struct CACHED_PERMISSIONS *cached;
char *oldattr;
const SID *usid;
const SID *gsid;
uid_t processuid;
uid_t uid;
uid_t gid;
int res;
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#if POSIXACLS
BOOL isdir;
int pxsize;
const struct POSIX_SECURITY *oldpxdesc;
struct POSIX_SECURITY *newpxdesc = (struct POSIX_SECURITY*)NULL;
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#endif
/* get the current owner, either from cache or from old attribute */
res = 0;
cached = fetch_cache(scx, ni);
if (cached) {
uid = cached->uid;
gid = cached->gid;
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#if POSIXACLS
oldpxdesc = cached->pxdesc;
if (oldpxdesc) {
/* must copy before merging */
pxsize = sizeof(struct POSIX_SECURITY)
+ (oldpxdesc->acccnt + oldpxdesc->defcnt)*sizeof(struct POSIX_ACE);
newpxdesc = (struct POSIX_SECURITY*)malloc(pxsize);
if (newpxdesc) {
memcpy(newpxdesc, oldpxdesc, pxsize);
if (ntfs_merge_mode_posix(newpxdesc, mode))
res = -1;
} else
res = -1;
} else
newpxdesc = (struct POSIX_SECURITY*)NULL;
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#endif
} else {
oldattr = getsecurityattr(scx->vol,path, ni);
if (oldattr) {
phead = (const SECURITY_DESCRIPTOR_RELATIVE*)oldattr;
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#if OWNERFROMACL
usid = ntfs_acl_owner(oldattr);
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#else
usid = (const SID*)&oldattr[le32_to_cpu(phead->owner)];
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#endif
gsid = (const SID*)&oldattr[le32_to_cpu(phead->group)];
uid = ntfs_find_user(scx->mapping[MAPUSERS],usid);
gid = ntfs_find_group(scx->mapping[MAPGROUPS],gsid);
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#if POSIXACLS
isdir = (ni->mrec->flags & MFT_RECORD_IS_DIRECTORY) != const_cpu_to_le16(0);
newpxdesc = ntfs_build_permissions_posix(scx->mapping,
oldattr, usid, gsid, isdir);
if (!newpxdesc || ntfs_merge_mode_posix(newpxdesc, mode))
res = -1;
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#endif
free(oldattr);
} else
res = -1;
}
if (!res) {
processuid = scx->uid;
/* TODO : use CAP_FOWNER process capability */
if (!processuid || (uid == processuid)) {
/*
* clear setgid if file group does
* not match process group
*/
if (processuid && (gid != scx->gid)
&& !groupmember(scx, scx->uid, gid))
mode &= ~S_ISGID;
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#if POSIXACLS
if (newpxdesc) {
newpxdesc->mode = mode;
res = ntfs_set_owner_mode(scx, ni, uid, gid,
mode, newpxdesc);
} else
res = ntfs_set_owner_mode(scx, ni, uid, gid,
mode, newpxdesc);
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#else
res = ntfs_set_owner_mode(scx, ni, uid, gid, mode);
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#endif
} else {
errno = EPERM;
res = -1; /* neither owner nor root */
}
} else {
/*
* Should not happen : a default descriptor is generated
* by getsecurityattr() when there are none
*/
ntfs_log_error("File has no security descriptor\n");
res = -1;
errno = EIO;
}
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#if POSIXACLS
if (newpxdesc) free(newpxdesc);
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#endif
return (res ? -1 : 0);
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}
/*
* Create a default security descriptor for files whose descriptor
* cannot be inherited
*/
int ntfs_sd_add_everyone(ntfs_inode *ni)
{
/* JPA SECURITY_DESCRIPTOR_ATTR *sd; */
SECURITY_DESCRIPTOR_RELATIVE *sd;
ACL *acl;
ACCESS_ALLOWED_ACE *ace;
SID *sid;
int ret, sd_len;
/* Create SECURITY_DESCRIPTOR attribute (everyone has full access). */
/*
* Calculate security descriptor length. We have 2 sub-authorities in
* owner and group SIDs, but structure SID contain only one, so add
* 4 bytes to every SID.
*/
sd_len = sizeof(SECURITY_DESCRIPTOR_ATTR) + 2 * (sizeof(SID) + 4) +
sizeof(ACL) + sizeof(ACCESS_ALLOWED_ACE);
sd = (SECURITY_DESCRIPTOR_RELATIVE*)ntfs_calloc(sd_len);
if (!sd)
return -1;
sd->revision = SECURITY_DESCRIPTOR_REVISION;
sd->control = SE_DACL_PRESENT | SE_SELF_RELATIVE;
sid = (SID*)((u8*)sd + sizeof(SECURITY_DESCRIPTOR_ATTR));
sid->revision = SID_REVISION;
sid->sub_authority_count = 2;
sid->sub_authority[0] = const_cpu_to_le32(SECURITY_BUILTIN_DOMAIN_RID);
sid->sub_authority[1] = const_cpu_to_le32(DOMAIN_ALIAS_RID_ADMINS);
sid->identifier_authority.value[5] = 5;
sd->owner = cpu_to_le32((u8*)sid - (u8*)sd);
sid = (SID*)((u8*)sid + sizeof(SID) + 4);
sid->revision = SID_REVISION;
sid->sub_authority_count = 2;
sid->sub_authority[0] = const_cpu_to_le32(SECURITY_BUILTIN_DOMAIN_RID);
sid->sub_authority[1] = const_cpu_to_le32(DOMAIN_ALIAS_RID_ADMINS);
sid->identifier_authority.value[5] = 5;
sd->group = cpu_to_le32((u8*)sid - (u8*)sd);
acl = (ACL*)((u8*)sid + sizeof(SID) + 4);
acl->revision = ACL_REVISION;
acl->size = const_cpu_to_le16(sizeof(ACL) + sizeof(ACCESS_ALLOWED_ACE));
acl->ace_count = const_cpu_to_le16(1);
sd->dacl = cpu_to_le32((u8*)acl - (u8*)sd);
ace = (ACCESS_ALLOWED_ACE*)((u8*)acl + sizeof(ACL));
ace->type = ACCESS_ALLOWED_ACE_TYPE;
ace->flags = OBJECT_INHERIT_ACE | CONTAINER_INHERIT_ACE;
ace->size = const_cpu_to_le16(sizeof(ACCESS_ALLOWED_ACE));
ace->mask = const_cpu_to_le32(0x1f01ff); /* FIXME */
ace->sid.revision = SID_REVISION;
ace->sid.sub_authority_count = 1;
ace->sid.sub_authority[0] = const_cpu_to_le32(0);
ace->sid.identifier_authority.value[5] = 1;
ret = ntfs_attr_add(ni, AT_SECURITY_DESCRIPTOR, AT_UNNAMED, 0, (u8*)sd,
sd_len);
if (ret)
ntfs_log_perror("Failed to add initial SECURITY_DESCRIPTOR");
free(sd);
return ret;
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}
/*
* Check whether user can access a file in a specific way
*
* Returns 1 if access is allowed, including user is root or no
* user mapping defined
* 2 if sticky and accesstype is S_IWRITE + S_IEXEC + S_ISVTX
* 0 and sets errno if there is a problem or if access
* is not allowed
*
* This is used for Posix ACL and checking creation of DOS file names
*/
int ntfs_allowed_access(struct SECURITY_CONTEXT *scx,
const char *path, ntfs_inode *ni,
int accesstype) /* access type required (S_Ixxx values) */
{
int perm;
int res;
int allow;
struct stat stbuf;
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#if POSIXACLS
/* shortcut, use only if Posix ACLs in use */
if (scx->vol->secure_flags & (1 << SECURITY_DEFAULT)) return (1);
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#endif
/*
* Always allow for root unless execution is requested.
* (was checked by fuse until kernel 2.6.29)
* Also always allow if no mapping has been defined
*/
if (!scx->mapping[MAPUSERS]
|| (!scx->uid
&& (!(accesstype & S_IEXEC)
|| (ni->mrec->flags & MFT_RECORD_IS_DIRECTORY))))
allow = 1;
else {
perm = ntfs_get_perm(scx, path, ni, accesstype);
if (perm >= 0) {
res = EACCES;
switch (accesstype) {
case S_IEXEC:
allow = (perm & (S_IXUSR | S_IXGRP | S_IXOTH)) != 0;
break;
case S_IWRITE:
allow = (perm & (S_IWUSR | S_IWGRP | S_IWOTH)) != 0;
break;
case S_IWRITE + S_IEXEC:
allow = ((perm & (S_IWUSR | S_IWGRP | S_IWOTH)) != 0)
&& ((perm & (S_IXUSR | S_IXGRP | S_IXOTH)) != 0);
break;
case S_IREAD:
allow = (perm & (S_IRUSR | S_IRGRP | S_IROTH)) != 0;
break;
case S_IREAD + S_IEXEC:
allow = ((perm & (S_IRUSR | S_IRGRP | S_IROTH)) != 0)
&& ((perm & (S_IXUSR | S_IXGRP | S_IXOTH)) != 0);
break;
case S_IREAD + S_IWRITE:
allow = ((perm & (S_IRUSR | S_IRGRP | S_IROTH)) != 0)
&& ((perm & (S_IWUSR | S_IWGRP | S_IWOTH)) != 0);
break;
case S_IWRITE + S_IEXEC + S_ISVTX:
if (perm & S_ISVTX) {
if ((ntfs_get_owner_mode(scx,path,ni,&stbuf) >= 0)
&& (stbuf.st_uid == scx->uid))
allow = 1;
else
allow = 2;
} else
allow = ((perm & (S_IWUSR | S_IWGRP | S_IWOTH)) != 0)
&& ((perm & (S_IXUSR | S_IXGRP | S_IXOTH)) != 0);
break;
default :
res = EINVAL;
allow = 0;
break;
}
if (!allow)
errno = res;
} else
allow = 0;
}
return (allow);
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}
/*
* Check whether user can access the parent directory
* of a file in a specific way
*
* Returns true if access is allowed, including user is root and
* no user mapping defined
*
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* Sets errno if there is a problem or if not allowed
*
* This is used for Posix ACL and checking creation of DOS file names
*/
BOOL ntfs_allowed_dir_access(struct SECURITY_CONTEXT *scx,
const char *path, int accesstype)
{
int allow;
char *dirpath;
char *name;
ntfs_inode *ni;
ntfs_inode *dir_ni;
struct stat stbuf;
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#if POSIXACLS
/* shortcut, use only if Posix ACLs in use */
if (scx->vol->secure_flags & (1 << SECURITY_DEFAULT)) return (TRUE);
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#endif
allow = 0;
dirpath = strdup(path);
if (dirpath) {
/* the root of file system is seen as a parent of itself */
/* is that correct ? */
name = strrchr(dirpath, '/');
*name = 0;
dir_ni = ntfs_pathname_to_inode(scx->vol, NULL, dirpath);
if (dir_ni) {
allow = ntfs_allowed_access(scx,dirpath,
dir_ni, accesstype);
ntfs_inode_close(dir_ni);
/*
* for an not-owned sticky directory, have to
* check whether file itself is owned
*/
if ((accesstype == (S_IWRITE + S_IEXEC + S_ISVTX))
&& (allow == 2)) {
ni = ntfs_pathname_to_inode(scx->vol, NULL,
path);
allow = FALSE;
if (ni) {
allow = (ntfs_get_owner_mode(scx,path,ni,&stbuf) >= 0)
&& (stbuf.st_uid == scx->uid);
ntfs_inode_close(ni);
}
}
}
free(dirpath);
}
return (allow); /* errno is set if not allowed */
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}
/*
* Define a new owner/group to a file
*
* returns zero if successful
*/
int ntfs_set_owner(struct SECURITY_CONTEXT *scx,
const char *path, ntfs_inode *ni, uid_t uid, gid_t gid)
{
const SECURITY_DESCRIPTOR_RELATIVE *phead;
const struct CACHED_PERMISSIONS *cached;
char *oldattr;
const SID *usid;
const SID *gsid;
uid_t fileuid;
uid_t filegid;
mode_t mode;
int perm;
BOOL isdir;
int res;
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#if POSIXACLS
struct POSIX_SECURITY *pxdesc;
BOOL pxdescbuilt = FALSE;
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#endif
res = 0;
/* get the current owner and mode from cache or security attributes */
oldattr = (char*)NULL;
cached = fetch_cache(scx,ni);
if (cached) {
fileuid = cached->uid;
filegid = cached->gid;
mode = cached->mode;
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#if POSIXACLS
pxdesc = cached->pxdesc;
if (!pxdesc)
res = -1;
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#endif
} else {
fileuid = 0;
filegid = 0;
mode = 0;
oldattr = getsecurityattr(scx->vol, path, ni);
if (oldattr) {
isdir = (ni->mrec->flags & MFT_RECORD_IS_DIRECTORY)
!= const_cpu_to_le16(0);
phead = (const SECURITY_DESCRIPTOR_RELATIVE*)
oldattr;
gsid = (const SID*)
&oldattr[le32_to_cpu(phead->group)];
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#if OWNERFROMACL
usid = ntfs_acl_owner(oldattr);
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#else
usid = (const SID*)
&oldattr[le32_to_cpu(phead->owner)];
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#endif
#if POSIXACLS
pxdesc = ntfs_build_permissions_posix(scx->mapping, oldattr,
usid, gsid, isdir);
if (pxdesc) {
pxdescbuilt = TRUE;
fileuid = ntfs_find_user(scx->mapping[MAPUSERS],usid);
filegid = ntfs_find_group(scx->mapping[MAPGROUPS],gsid);
mode = perm = pxdesc->mode;
} else
res = -1;
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#else
mode = perm = ntfs_build_permissions(oldattr,
usid, gsid, isdir);
if (perm >= 0) {
fileuid = ntfs_find_user(scx->mapping[MAPUSERS],usid);
filegid = ntfs_find_group(scx->mapping[MAPGROUPS],gsid);
} else
res = -1;
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#endif
free(oldattr);
} else
res = -1;
}
if (!res) {
/* check requested by root */
/* or chgrp requested by owner to an owned group */
if (!scx->uid
|| ((((int)uid < 0) || (uid == fileuid))
&& ((gid == scx->gid) || groupmember(scx, scx->uid, gid))
&& (fileuid == scx->uid))) {
/* replace by the new usid and gsid */
/* or reuse old gid and sid for cacheing */
if ((int)uid < 0)
uid = fileuid;
if ((int)gid < 0)
gid = filegid;
/* clear setuid and setgid if owner has changed */
/* unless request originated by root */
if (uid && (fileuid != uid))
mode &= 01777;
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#if POSIXACLS
res = ntfs_set_owner_mode(scx, ni, uid, gid,
mode, pxdesc);
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#else
res = ntfs_set_owner_mode(scx, ni, uid, gid, mode);
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#endif
} else {
res = -1; /* neither owner nor root */
errno = EPERM;
}
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#if POSIXACLS
if (pxdescbuilt)
free(pxdesc);
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#endif
} else {
/*
* Should not happen : a default descriptor is generated
* by getsecurityattr() when there are none
*/
ntfs_log_error("File has no security descriptor\n");
res = -1;
errno = EIO;
}
return (res ? -1 : 0);
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}
/*
* Build a security id for a descriptor inherited from
* parent directory the Windows way
*/
static le32 build_inherited_id(struct SECURITY_CONTEXT *scx,
const char *parentattr, BOOL fordir)
{
const SECURITY_DESCRIPTOR_RELATIVE *pphead;
const ACL *ppacl;
const SID *usid;
const SID *gsid;
BIGSID defusid;
BIGSID defgsid;
int offpacl;
int offowner;
int offgroup;
SECURITY_DESCRIPTOR_RELATIVE *pnhead;
ACL *pnacl;
int parentattrsz;
char *newattr;
int newattrsz;
int aclsz;
int usidsz;
int gsidsz;
int pos;
le32 securid;
parentattrsz = ntfs_attr_size(parentattr);
pphead = (const SECURITY_DESCRIPTOR_RELATIVE*)parentattr;
if (scx->mapping[MAPUSERS]) {
usid = ntfs_find_usid(scx->mapping[MAPUSERS], scx->uid, (SID*)&defusid);
gsid = ntfs_find_gsid(scx->mapping[MAPGROUPS], scx->gid, (SID*)&defgsid);
if (!usid)
usid = adminsid;
if (!gsid)
gsid = adminsid;
} else {
/*
* If there is no user mapping, we have to copy owner
* and group from parent directory.
* Windows never has to do that, because it can always
* rely on a user mapping
*/
offowner = le32_to_cpu(pphead->owner);
usid = (const SID*)&parentattr[offowner];
offgroup = le32_to_cpu(pphead->group);
gsid = (const SID*)&parentattr[offgroup];
}
/*
* new attribute is smaller than parent's
* except for differences in SIDs which appear in
* owner, group and possible grants and denials in
* generic creator-owner and creator-group ACEs.
* For directories, an ACE may be duplicated for
* access and inheritance, so we double the count.
*/
usidsz = ntfs_sid_size(usid);
gsidsz = ntfs_sid_size(gsid);
newattrsz = parentattrsz + 3*usidsz + 3*gsidsz;
if (fordir)
newattrsz *= 2;
newattr = (char*)ntfs_malloc(newattrsz);
if (newattr) {
pnhead = (SECURITY_DESCRIPTOR_RELATIVE*)newattr;
pnhead->revision = SECURITY_DESCRIPTOR_REVISION;
pnhead->alignment = 0;
pnhead->control = SE_SELF_RELATIVE;
pos = sizeof(SECURITY_DESCRIPTOR_RELATIVE);
/*
* locate and inherit DACL
* do not test SE_DACL_PRESENT (wrong for "DR Watson")
*/
pnhead->dacl = const_cpu_to_le32(0);
if (pphead->dacl) {
offpacl = le32_to_cpu(pphead->dacl);
ppacl = (const ACL*)&parentattr[offpacl];
pnacl = (ACL*)&newattr[pos];
aclsz = ntfs_inherit_acl(ppacl, pnacl, usid, gsid, fordir);
if (aclsz) {
pnhead->dacl = cpu_to_le32(pos);
pos += aclsz;
pnhead->control |= SE_DACL_PRESENT;
}
}
/*
* locate and inherit SACL
*/
pnhead->sacl = const_cpu_to_le32(0);
if (pphead->sacl) {
offpacl = le32_to_cpu(pphead->sacl);
ppacl = (const ACL*)&parentattr[offpacl];
pnacl = (ACL*)&newattr[pos];
aclsz = ntfs_inherit_acl(ppacl, pnacl, usid, gsid, fordir);
if (aclsz) {
pnhead->sacl = cpu_to_le32(pos);
pos += aclsz;
pnhead->control |= SE_SACL_PRESENT;
}
}
/*
* inherit or redefine owner
*/
memcpy(&newattr[pos],usid,usidsz);
pnhead->owner = cpu_to_le32(pos);
pos += usidsz;
/*
* inherit or redefine group
*/
memcpy(&newattr[pos],gsid,gsidsz);
pnhead->group = cpu_to_le32(pos);
pos += usidsz;
securid = setsecurityattr(scx->vol,
(SECURITY_DESCRIPTOR_RELATIVE*)newattr, pos);
free(newattr);
} else
securid = const_cpu_to_le32(0);
return (securid);
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}
/*
* Get an inherited security id
*
* For Windows compatibility, the normal initial permission setting
* may be inherited from the parent directory instead of being
* defined by the creation arguments.
*
* The following creates an inherited id for that purpose.
*
* Note : the owner and group of parent directory are also
* inherited (which is not the case on Windows) if no user mapping
* is defined.
*
* Returns the inherited id, or zero if not possible (eg on NTFS 1.x)
*/
le32 ntfs_inherited_id(struct SECURITY_CONTEXT *scx,
const char *dir_path, ntfs_inode *dir_ni, BOOL fordir)
{
struct CACHED_PERMISSIONS *cached;
char *parentattr;
le32 securid;
securid = const_cpu_to_le32(0);
cached = (struct CACHED_PERMISSIONS*)NULL;
/*
* Try to get inherited id from cache
*/
if (test_nino_flag(dir_ni, v3_Extensions)
&& dir_ni->security_id) {
cached = fetch_cache(scx, dir_ni);
if (cached)
securid = (fordir ? cached->inh_dirid
: cached->inh_fileid);
}
/*
* Not cached or not available in cache, compute it all
* Note : if parent directory has no id, it is not cacheable
*/
if (!securid) {
parentattr = getsecurityattr(scx->vol, dir_path, dir_ni);
if (parentattr) {
securid = build_inherited_id(scx,
parentattr, fordir);
free(parentattr);
/*
* Store the result into cache for further use
*/
if (securid) {
cached = fetch_cache(scx, dir_ni);
if (cached) {
if (fordir)
cached->inh_dirid = securid;
else
cached->inh_fileid = securid;
}
}
}
}
return (securid);
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}
/*
* Link a group to a member of group
*
* Returns 0 if OK, -1 (and errno set) if error
*/
static int link_single_group(struct MAPPING *usermapping, struct passwd *user,
gid_t gid)
{
struct group *group;
char **grmem;
int grcnt;
gid_t *groups;
int res;
res = 0;
group = getgrgid(gid);
if (group && group->gr_mem) {
grcnt = usermapping->grcnt;
groups = usermapping->groups;
grmem = group->gr_mem;
while (*grmem && strcmp(user->pw_name, *grmem))
grmem++;
if (*grmem) {
if (!grcnt)
groups = (gid_t*)malloc(sizeof(gid_t));
else
groups = (gid_t*)realloc(groups,
(grcnt+1)*sizeof(gid_t));
if (groups)
groups[grcnt++] = gid;
else {
res = -1;
errno = ENOMEM;
}
}
usermapping->grcnt = grcnt;
usermapping->groups = groups;
}
return (res);
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}
/*
* Statically link group to users
* This is based on groups defined in /etc/group and does not take
* the groups dynamically set by setgroups() nor any changes in
* /etc/group into account
*
* Only mapped groups and root group are linked to mapped users
*
* Returns 0 if OK, -1 (and errno set) if error
*
*/
static int link_group_members(struct SECURITY_CONTEXT *scx)
{
struct MAPPING *usermapping;
struct MAPPING *groupmapping;
struct passwd *user;
int res;
res = 0;
for (usermapping=scx->mapping[MAPUSERS]; usermapping && !res;
usermapping=usermapping->next) {
usermapping->grcnt = 0;
usermapping->groups = (gid_t*)NULL;
user = getpwuid(usermapping->xid);
if (user && user->pw_name) {
for (groupmapping=scx->mapping[MAPGROUPS];
groupmapping && !res;
groupmapping=groupmapping->next) {
if (link_single_group(usermapping, user,
groupmapping->xid))
res = -1;
}
if (!res && link_single_group(usermapping,
user, (gid_t)0))
res = -1;
}
}
return (res);
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}
/*
* Apply default single user mapping
* returns zero if successful
*/
static int ntfs_do_default_mapping(struct SECURITY_CONTEXT *scx,
const SID *usid)
{
struct MAPPING *usermapping;
struct MAPPING *groupmapping;
SID *sid;
int sidsz;
int res;
res = -1;
sidsz = ntfs_sid_size(usid);
sid = (SID*)ntfs_malloc(sidsz);
if (sid) {
memcpy(sid,usid,sidsz);
usermapping = (struct MAPPING*)ntfs_malloc(sizeof(struct MAPPING));
if (usermapping) {
groupmapping = (struct MAPPING*)ntfs_malloc(sizeof(struct MAPPING));
if (groupmapping) {
usermapping->sid = sid;
usermapping->xid = scx->uid;
usermapping->next = (struct MAPPING*)NULL;
groupmapping->sid = sid;
groupmapping->xid = scx->uid;
groupmapping->next = (struct MAPPING*)NULL;
scx->mapping[MAPUSERS] = usermapping;
scx->mapping[MAPGROUPS] = groupmapping;
res = 0;
}
}
}
return (res);
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}
/*
* Make sure there are no ambiguous mapping
* Ambiguous mapping may lead to undesired configurations and
* we had rather be safe until the consequences are understood
*/
#if 0 /* not activated for now */
static BOOL check_mapping(const struct MAPPING *usermapping,
const struct MAPPING *groupmapping)
{
const struct MAPPING *mapping1;
const struct MAPPING *mapping2;
BOOL ambiguous;
ambiguous = FALSE;
for (mapping1=usermapping; mapping1; mapping1=mapping1->next)
for (mapping2=mapping1->next; mapping2; mapping1=mapping2->next)
if (ntfs_same_sid(mapping1->sid,mapping2->sid)) {
if (mapping1->xid != mapping2->xid)
ambiguous = TRUE;
} else {
if (mapping1->xid == mapping2->xid)
ambiguous = TRUE;
}
for (mapping1=groupmapping; mapping1; mapping1=mapping1->next)
for (mapping2=mapping1->next; mapping2; mapping1=mapping2->next)
if (ntfs_same_sid(mapping1->sid,mapping2->sid)) {
if (mapping1->xid != mapping2->xid)
ambiguous = TRUE;
} else {
if (mapping1->xid == mapping2->xid)
ambiguous = TRUE;
}
return (ambiguous);
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}
#endif
/*
* Try and apply default single user mapping
* returns zero if successful
*/
static int ntfs_default_mapping(struct SECURITY_CONTEXT *scx)
{
const SECURITY_DESCRIPTOR_RELATIVE *phead;
ntfs_inode *ni;
char *securattr;
const SID *usid;
int res;
res = -1;
ni = ntfs_pathname_to_inode(scx->vol, NULL, "/.");
if (ni) {
securattr = getsecurityattr(scx->vol,"/.",ni);
if (securattr) {
phead = (const SECURITY_DESCRIPTOR_RELATIVE*)securattr;
usid = (SID*)&securattr[le32_to_cpu(phead->owner)];
if (ntfs_is_user_sid(usid))
res = ntfs_do_default_mapping(scx,usid);
free(securattr);
}
ntfs_inode_close(ni);
}
return (res);
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}
/*
* Basic read from a user mapping file on another volume
*/
static int basicread(void *fileid, char *buf, size_t size, off_t offs __attribute__((unused)))
{
return (read(*(int*)fileid, buf, size));
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}
/*
* Read from a user mapping file on current NTFS partition
*/
static int localread(void *fileid, char *buf, size_t size, off_t offs)
{
return (ntfs_local_read((ntfs_inode*)fileid,
AT_UNNAMED, 0, buf, size, offs));
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}
/*
* Build the user mapping
* - according to a mapping file if defined (or default present),
* - or try default single user mapping if possible
*
* The mapping is specific to a mounted device
* No locking done, mounting assumed non multithreaded
*
* returns zero if mapping is successful
* (failure should not be interpreted as an error)
*/
int ntfs_build_mapping(struct SECURITY_CONTEXT *scx, const char *usermap_path)
{
struct MAPLIST *item;
struct MAPLIST *firstitem;
struct MAPPING *usermapping;
struct MAPPING *groupmapping;
ntfs_inode *ni;
int fd;
/* be sure not to map anything until done */
scx->mapping[MAPUSERS] = (struct MAPPING*)NULL;
scx->mapping[MAPGROUPS] = (struct MAPPING*)NULL;
if (!usermap_path) usermap_path = MAPPINGFILE;
if (usermap_path[0] == '/') {
fd = open(usermap_path,O_RDONLY);
if (fd > 0) {
firstitem = ntfs_read_mapping(basicread, (void*)&fd);
close(fd);
} else
firstitem = (struct MAPLIST*)NULL;
} else {
ni = ntfs_pathname_to_inode(scx->vol, NULL, usermap_path);
if (ni) {
firstitem = ntfs_read_mapping(localread, ni);
ntfs_inode_close(ni);
} else
firstitem = (struct MAPLIST*)NULL;
}
if (firstitem) {
usermapping = ntfs_do_user_mapping(firstitem);
groupmapping = ntfs_do_group_mapping(firstitem);
if (usermapping && groupmapping) {
scx->mapping[MAPUSERS] = usermapping;
scx->mapping[MAPGROUPS] = groupmapping;
} else
ntfs_log_error("There were no valid user or no valid group\n");
/* now we can free the memory copy of input text */
/* and rely on internal representation */
while (firstitem) {
item = firstitem->next;
free(firstitem);
firstitem = item;
}
} else {
/* no mapping file, try default mapping */
if (scx->uid && scx->gid) {
if (!ntfs_default_mapping(scx))
ntfs_log_info("Using default user mapping\n");
}
}
return (!scx->mapping[MAPUSERS] || link_group_members(scx));
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}
#ifdef HAVE_SETXATTR /* extended attributes interface required */
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/*
* Get the ntfs attribute into an extended attribute
* The attribute is returned according to cpu endianness
*/
int ntfs_get_ntfs_attrib(const char *path __attribute__((unused)),
char *value, size_t size, ntfs_inode *ni)
{
u32 attrib;
size_t outsize;
outsize = 0; /* default to no data and no error */
if (ni) {
attrib = le32_to_cpu(ni->flags);
if (ni->mrec->flags & MFT_RECORD_IS_DIRECTORY)
attrib |= const_le32_to_cpu(FILE_ATTR_DIRECTORY);
else
attrib &= ~const_le32_to_cpu(FILE_ATTR_DIRECTORY);
if (!attrib)
attrib |= const_le32_to_cpu(FILE_ATTR_NORMAL);
outsize = sizeof(FILE_ATTR_FLAGS);
if (size >= outsize) {
if (value)
memcpy(value,&attrib,outsize);
else
errno = EINVAL;
}
}
return (outsize ? (int)outsize : -errno);
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}
/*
* Return the ntfs attribute into an extended attribute
* The attribute is expected according to cpu endianness
*
* Returns 0, or -1 if there is a problem
*/
int ntfs_set_ntfs_attrib(const char *path __attribute__((unused)),
const char *value, size_t size, int flags,
ntfs_inode *ni)
{
u32 attrib;
le32 settable;
ATTR_FLAGS dirflags;
int res;
res = -1;
if (ni && value && (size >= sizeof(FILE_ATTR_FLAGS))) {
if (!(flags & XATTR_CREATE)) {
/* copy to avoid alignment problems */
memcpy(&attrib,value,sizeof(FILE_ATTR_FLAGS));
settable = FILE_ATTR_SETTABLE;
res = 0;
if (ni->mrec->flags & MFT_RECORD_IS_DIRECTORY) {
/*
* Accept changing compression for a directory
* and set index root accordingly
*/
settable |= FILE_ATTR_COMPRESSED;
if ((ni->flags ^ cpu_to_le32(attrib))
& FILE_ATTR_COMPRESSED) {
if (ni->flags & FILE_ATTR_COMPRESSED)
dirflags = const_cpu_to_le16(0);
else
dirflags = ATTR_IS_COMPRESSED;
res = ntfs_attr_set_flags(ni,
AT_INDEX_ROOT,
NTFS_INDEX_I30, 4,
dirflags,
ATTR_COMPRESSION_MASK);
}
}
if (!res) {
ni->flags = (ni->flags & ~settable)
| (cpu_to_le32(attrib) & settable);
NInoSetDirty(ni);
}
} else
errno = EEXIST;
} else
errno = EINVAL;
return (res ? -1 : 0);
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}
#endif /* HAVE_SETXATTR */
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/*
* Open $Secure once for all
* returns zero if it succeeds
* non-zero if it fails. This is not an error (on NTFS v1.x)
*/
int ntfs_open_secure(ntfs_volume *vol)
{
ntfs_inode *ni;
int res;
res = -1;
vol->secure_ni = (ntfs_inode*)NULL;
vol->secure_xsii = (ntfs_index_context*)NULL;
vol->secure_xsdh = (ntfs_index_context*)NULL;
if (vol->major_ver >= 3) {
/* make sure this is a genuine $Secure inode 9 */
ni = ntfs_pathname_to_inode(vol, NULL, "$Secure");
if (ni && (ni->mft_no == 9)) {
vol->secure_reentry = 0;
vol->secure_xsii = ntfs_index_ctx_get(ni,
sii_stream, 4);
vol->secure_xsdh = ntfs_index_ctx_get(ni,
sdh_stream, 4);
if (ni && vol->secure_xsii && vol->secure_xsdh) {
vol->secure_ni = ni;
res = 0;
}
}
}
return (res);
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}
/*
* Final cleaning
* Allocated memory is freed to facilitate the detection of memory leaks
*/
void ntfs_close_secure(struct SECURITY_CONTEXT *scx)
{
ntfs_volume *vol;
vol = scx->vol;
if (vol->secure_ni) {
ntfs_index_ctx_put(vol->secure_xsii);
ntfs_index_ctx_put(vol->secure_xsdh);
ntfs_inode_close(vol->secure_ni);
}
ntfs_free_mapping(scx->mapping);
free_caches(scx);
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}
/*
* API for direct access to security descriptors
* based on Win32 API
*/
/*
* Selective feeding of a security descriptor into user buffer
*
* Returns TRUE if successful
*/
static BOOL feedsecurityattr(const char *attr, u32 selection,
char *buf, u32 buflen, u32 *psize)
{
const SECURITY_DESCRIPTOR_RELATIVE *phead;
SECURITY_DESCRIPTOR_RELATIVE *pnhead;
const ACL *pdacl;
const ACL *psacl;
const SID *pusid;
const SID *pgsid;
unsigned int offdacl;
unsigned int offsacl;
unsigned int offowner;
unsigned int offgroup;
unsigned int daclsz;
unsigned int saclsz;
unsigned int usidsz;
unsigned int gsidsz;
unsigned int size; /* size of requested attributes */
BOOL ok;
unsigned int pos;
unsigned int avail;
le16 control;
avail = 0;
control = SE_SELF_RELATIVE;
phead = (const SECURITY_DESCRIPTOR_RELATIVE*)attr;
size = sizeof(SECURITY_DESCRIPTOR_RELATIVE);
/* locate DACL if requested and available */
if (phead->dacl && (selection & DACL_SECURITY_INFORMATION)) {
offdacl = le32_to_cpu(phead->dacl);
pdacl = (const ACL*)&attr[offdacl];
daclsz = le16_to_cpu(pdacl->size);
size += daclsz;
avail |= DACL_SECURITY_INFORMATION;
} else
offdacl = daclsz = 0;
/* locate owner if requested and available */
offowner = le32_to_cpu(phead->owner);
if (offowner && (selection & OWNER_SECURITY_INFORMATION)) {
/* find end of USID */
pusid = (const SID*)&attr[offowner];
usidsz = ntfs_sid_size(pusid);
size += usidsz;
avail |= OWNER_SECURITY_INFORMATION;
} else
offowner = usidsz = 0;
/* locate group if requested and available */
offgroup = le32_to_cpu(phead->group);
if (offgroup && (selection & GROUP_SECURITY_INFORMATION)) {
/* find end of GSID */
pgsid = (const SID*)&attr[offgroup];
gsidsz = ntfs_sid_size(pgsid);
size += gsidsz;
avail |= GROUP_SECURITY_INFORMATION;
} else
offgroup = gsidsz = 0;
/* locate SACL if requested and available */
if (phead->sacl && (selection & SACL_SECURITY_INFORMATION)) {
/* find end of SACL */
offsacl = le32_to_cpu(phead->sacl);
psacl = (const ACL*)&attr[offsacl];
saclsz = le16_to_cpu(psacl->size);
size += saclsz;
avail |= SACL_SECURITY_INFORMATION;
} else
offsacl = saclsz = 0;
/*
* Check having enough size in destination buffer
* (required size is returned nevertheless so that
* the request can be reissued with adequate size)
*/
if (size > buflen) {
*psize = size;
errno = EINVAL;
ok = FALSE;
} else {
if (selection & OWNER_SECURITY_INFORMATION)
control |= phead->control & SE_OWNER_DEFAULTED;
if (selection & GROUP_SECURITY_INFORMATION)
control |= phead->control & SE_GROUP_DEFAULTED;
if (selection & DACL_SECURITY_INFORMATION)
control |= phead->control
& (SE_DACL_PRESENT
| SE_DACL_DEFAULTED
| SE_DACL_AUTO_INHERITED
| SE_DACL_PROTECTED);
if (selection & SACL_SECURITY_INFORMATION)
control |= phead->control
& (SE_SACL_PRESENT
| SE_SACL_DEFAULTED
| SE_SACL_AUTO_INHERITED
| SE_SACL_PROTECTED);
/*
* copy header and feed new flags, even if no detailed data
*/
memcpy(buf,attr,sizeof(SECURITY_DESCRIPTOR_RELATIVE));
pnhead = (SECURITY_DESCRIPTOR_RELATIVE*)buf;
pnhead->control = control;
pos = sizeof(SECURITY_DESCRIPTOR_RELATIVE);
/* copy DACL if requested and available */
if (selection & avail & DACL_SECURITY_INFORMATION) {
pnhead->dacl = cpu_to_le32(pos);
memcpy(&buf[pos],&attr[offdacl],daclsz);
pos += daclsz;
} else
pnhead->dacl = const_cpu_to_le32(0);
/* copy SACL if requested and available */
if (selection & avail & SACL_SECURITY_INFORMATION) {
pnhead->sacl = cpu_to_le32(pos);
memcpy(&buf[pos],&attr[offsacl],saclsz);
pos += saclsz;
} else
pnhead->sacl = const_cpu_to_le32(0);
/* copy owner if requested and available */
if (selection & avail & OWNER_SECURITY_INFORMATION) {
pnhead->owner = cpu_to_le32(pos);
memcpy(&buf[pos],&attr[offowner],usidsz);
pos += usidsz;
} else
pnhead->owner = const_cpu_to_le32(0);
/* copy group if requested and available */
if (selection & avail & GROUP_SECURITY_INFORMATION) {
pnhead->group = cpu_to_le32(pos);
memcpy(&buf[pos],&attr[offgroup],gsidsz);
pos += gsidsz;
} else
pnhead->group = const_cpu_to_le32(0);
if (pos != size)
ntfs_log_error("Error in security descriptor size\n");
*psize = size;
ok = TRUE;
}
return (ok);
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}
/*
* Merge a new security descriptor into the old one
* and assign to designated file
*
* Returns TRUE if successful
*/
static BOOL mergesecurityattr(ntfs_volume *vol, const char *oldattr,
const char *newattr, u32 selection, ntfs_inode *ni)
{
const SECURITY_DESCRIPTOR_RELATIVE *oldhead;
const SECURITY_DESCRIPTOR_RELATIVE *newhead;
SECURITY_DESCRIPTOR_RELATIVE *targhead;
const ACL *pdacl;
const ACL *psacl;
const SID *powner;
const SID *pgroup;
int offdacl;
int offsacl;
int offowner;
int offgroup;
unsigned int size;
le16 control;
char *target;
int pos;
int oldattrsz;
int newattrsz;
BOOL ok;
ok = FALSE; /* default return */
oldhead = (const SECURITY_DESCRIPTOR_RELATIVE*)oldattr;
newhead = (const SECURITY_DESCRIPTOR_RELATIVE*)newattr;
oldattrsz = ntfs_attr_size(oldattr);
newattrsz = ntfs_attr_size(newattr);
target = (char*)ntfs_malloc(oldattrsz + newattrsz);
if (target) {
targhead = (SECURITY_DESCRIPTOR_RELATIVE*)target;
pos = sizeof(SECURITY_DESCRIPTOR_RELATIVE);
control = SE_SELF_RELATIVE;
/*
* copy new DACL if selected
* or keep old DACL if any
*/
if ((selection & DACL_SECURITY_INFORMATION) ?
newhead->dacl : oldhead->dacl) {
if (selection & DACL_SECURITY_INFORMATION) {
offdacl = le32_to_cpu(newhead->dacl);
pdacl = (const ACL*)&newattr[offdacl];
} else {
offdacl = le32_to_cpu(oldhead->dacl);
pdacl = (const ACL*)&oldattr[offdacl];
}
size = le16_to_cpu(pdacl->size);
memcpy(&target[pos], pdacl, size);
targhead->dacl = cpu_to_le32(pos);
pos += size;
} else
targhead->dacl = const_cpu_to_le32(0);
if (selection & DACL_SECURITY_INFORMATION) {
control |= newhead->control
& (SE_DACL_PRESENT
| SE_DACL_DEFAULTED
| SE_DACL_PROTECTED);
if (newhead->control & SE_DACL_AUTO_INHERIT_REQ)
control |= SE_DACL_AUTO_INHERITED;
} else
control |= oldhead->control
& (SE_DACL_PRESENT
| SE_DACL_DEFAULTED
| SE_DACL_AUTO_INHERITED
| SE_DACL_PROTECTED);
/*
* copy new SACL if selected
* or keep old SACL if any
*/
if ((selection & SACL_SECURITY_INFORMATION) ?
newhead->sacl : oldhead->sacl) {
if (selection & SACL_SECURITY_INFORMATION) {
offsacl = le32_to_cpu(newhead->sacl);
psacl = (const ACL*)&newattr[offsacl];
} else {
offsacl = le32_to_cpu(oldhead->sacl);
psacl = (const ACL*)&oldattr[offsacl];
}
size = le16_to_cpu(psacl->size);
memcpy(&target[pos], psacl, size);
targhead->sacl = cpu_to_le32(pos);
pos += size;
} else
targhead->sacl = const_cpu_to_le32(0);
if (selection & SACL_SECURITY_INFORMATION) {
control |= newhead->control
& (SE_SACL_PRESENT
| SE_SACL_DEFAULTED
| SE_SACL_PROTECTED);
if (newhead->control & SE_SACL_AUTO_INHERIT_REQ)
control |= SE_SACL_AUTO_INHERITED;
} else
control |= oldhead->control
& (SE_SACL_PRESENT
| SE_SACL_DEFAULTED
| SE_SACL_AUTO_INHERITED
| SE_SACL_PROTECTED);
/*
* copy new OWNER if selected
* or keep old OWNER if any
*/
if ((selection & OWNER_SECURITY_INFORMATION) ?
newhead->owner : oldhead->owner) {
if (selection & OWNER_SECURITY_INFORMATION) {
offowner = le32_to_cpu(newhead->owner);
powner = (const SID*)&newattr[offowner];
} else {
offowner = le32_to_cpu(oldhead->owner);
powner = (const SID*)&oldattr[offowner];
}
size = ntfs_sid_size(powner);
memcpy(&target[pos], powner, size);
targhead->owner = cpu_to_le32(pos);
pos += size;
} else
targhead->owner = const_cpu_to_le32(0);
if (selection & OWNER_SECURITY_INFORMATION)
control |= newhead->control & SE_OWNER_DEFAULTED;
else
control |= oldhead->control & SE_OWNER_DEFAULTED;
/*
* copy new GROUP if selected
* or keep old GROUP if any
*/
if ((selection & GROUP_SECURITY_INFORMATION) ?
newhead->group : oldhead->group) {
if (selection & GROUP_SECURITY_INFORMATION) {
offgroup = le32_to_cpu(newhead->group);
pgroup = (const SID*)&newattr[offgroup];
control |= newhead->control
& SE_GROUP_DEFAULTED;
} else {
offgroup = le32_to_cpu(oldhead->group);
pgroup = (const SID*)&oldattr[offgroup];
control |= oldhead->control
& SE_GROUP_DEFAULTED;
}
size = ntfs_sid_size(pgroup);
memcpy(&target[pos], pgroup, size);
targhead->group = cpu_to_le32(pos);
pos += size;
} else
targhead->group = const_cpu_to_le32(0);
if (selection & GROUP_SECURITY_INFORMATION)
control |= newhead->control & SE_GROUP_DEFAULTED;
else
control |= oldhead->control & SE_GROUP_DEFAULTED;
targhead->revision = SECURITY_DESCRIPTOR_REVISION;
targhead->alignment = 0;
targhead->control = control;
ok = !update_secur_descr(vol, target, ni);
free(target);
}
return (ok);
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}
/*
* Return the security descriptor of a file
* This is intended to be similar to GetFileSecurity() from Win32
* in order to facilitate the development of portable tools
*
* returns zero if unsuccessful (following Win32 conventions)
* -1 if no securid
* the securid if any
*
* The Win32 API is :
*
* BOOL WINAPI GetFileSecurity(
* __in LPCTSTR lpFileName,
* __in SECURITY_INFORMATION RequestedInformation,
* __out_opt PSECURITY_DESCRIPTOR pSecurityDescriptor,
* __in DWORD nLength,
* __out LPDWORD lpnLengthNeeded
* );
*
*/
int ntfs_get_file_security(struct SECURITY_API *scapi,
const char *path, u32 selection,
char *buf, u32 buflen, u32 *psize)
{
ntfs_inode *ni;
char *attr;
int res;
res = 0; /* default return */
if (scapi && (scapi->magic == MAGIC_API)) {
ni = ntfs_pathname_to_inode(scapi->security.vol, NULL, path);
if (ni) {
attr = getsecurityattr(scapi->security.vol, path, ni);
if (attr) {
if (feedsecurityattr(attr,selection,
buf,buflen,psize)) {
if (test_nino_flag(ni, v3_Extensions)
&& ni->security_id)
res = le32_to_cpu(
ni->security_id);
else
res = -1;
}
free(attr);
}
ntfs_inode_close(ni);
} else
errno = ENOENT;
if (!res) *psize = 0;
} else
errno = EINVAL; /* do not clear *psize */
return (res);
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}
/*
* Set the security descriptor of a file or directory
* This is intended to be similar to SetFileSecurity() from Win32
* in order to facilitate the development of portable tools
*
* returns zero if unsuccessful (following Win32 conventions)
* -1 if no securid
* the securid if any
*
* The Win32 API is :
*
* BOOL WINAPI SetFileSecurity(
* __in LPCTSTR lpFileName,
* __in SECURITY_INFORMATION SecurityInformation,
* __in PSECURITY_DESCRIPTOR pSecurityDescriptor
* );
*/
int ntfs_set_file_security(struct SECURITY_API *scapi,
const char *path, u32 selection, const char *attr)
{
const SECURITY_DESCRIPTOR_RELATIVE *phead;
ntfs_inode *ni;
int attrsz;
BOOL missing;
char *oldattr;
int res;
res = 0; /* default return */
if (scapi && (scapi->magic == MAGIC_API) && attr) {
phead = (const SECURITY_DESCRIPTOR_RELATIVE*)attr;
attrsz = ntfs_attr_size(attr);
/* if selected, owner and group must be present or defaulted */
missing = ((selection & OWNER_SECURITY_INFORMATION)
&& !phead->owner
&& !(phead->control & SE_OWNER_DEFAULTED))
|| ((selection & GROUP_SECURITY_INFORMATION)
&& !phead->group
&& !(phead->control & SE_GROUP_DEFAULTED));
if (!missing
&& (phead->control & SE_SELF_RELATIVE)
&& ntfs_valid_descr(attr, attrsz)) {
ni = ntfs_pathname_to_inode(scapi->security.vol,
NULL, path);
if (ni) {
oldattr = getsecurityattr(scapi->security.vol,
path, ni);
if (oldattr) {
if (mergesecurityattr(
scapi->security.vol,
oldattr, attr,
selection, ni)) {
if (test_nino_flag(ni,
v3_Extensions))
res = le32_to_cpu(
ni->security_id);
else
res = -1;
}
free(oldattr);
}
ntfs_inode_close(ni);
}
} else
errno = EINVAL;
} else
errno = EINVAL;
return (res);
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}
/*
* Return the attributes of a file
* This is intended to be similar to GetFileAttributes() from Win32
* in order to facilitate the development of portable tools
*
* returns -1 if unsuccessful (Win32 : INVALID_FILE_ATTRIBUTES)
*
* The Win32 API is :
*
* DWORD WINAPI GetFileAttributes(
* __in LPCTSTR lpFileName
* );
*/
int ntfs_get_file_attributes(struct SECURITY_API *scapi, const char *path)
{
ntfs_inode *ni;
s32 attrib;
attrib = -1; /* default return */
if (scapi && (scapi->magic == MAGIC_API) && path) {
ni = ntfs_pathname_to_inode(scapi->security.vol, NULL, path);
if (ni) {
attrib = le32_to_cpu(ni->flags);
if (ni->mrec->flags & MFT_RECORD_IS_DIRECTORY)
attrib |= const_le32_to_cpu(FILE_ATTR_DIRECTORY);
else
attrib &= ~const_le32_to_cpu(FILE_ATTR_DIRECTORY);
if (!attrib)
attrib |= const_le32_to_cpu(FILE_ATTR_NORMAL);
ntfs_inode_close(ni);
} else
errno = ENOENT;
} else
errno = EINVAL; /* do not clear *psize */
return (attrib);
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}
/*
* Set attributes to a file or directory
* This is intended to be similar to SetFileAttributes() from Win32
* in order to facilitate the development of portable tools
*
* Only a few flags can be set (same list as Win32)
*
* returns zero if unsuccessful (following Win32 conventions)
* nonzero if successful
*
* The Win32 API is :
*
* BOOL WINAPI SetFileAttributes(
* __in LPCTSTR lpFileName,
* __in DWORD dwFileAttributes
* );
*/
BOOL ntfs_set_file_attributes(struct SECURITY_API *scapi,
const char *path, s32 attrib)
{
ntfs_inode *ni;
le32 settable;
ATTR_FLAGS dirflags;
int res;
res = 0; /* default return */
if (scapi && (scapi->magic == MAGIC_API) && path) {
ni = ntfs_pathname_to_inode(scapi->security.vol, NULL, path);
if (ni) {
settable = FILE_ATTR_SETTABLE;
if (ni->mrec->flags & MFT_RECORD_IS_DIRECTORY) {
/*
* Accept changing compression for a directory
* and set index root accordingly
*/
settable |= FILE_ATTR_COMPRESSED;
if ((ni->flags ^ cpu_to_le32(attrib))
& FILE_ATTR_COMPRESSED) {
if (ni->flags & FILE_ATTR_COMPRESSED)
dirflags = const_cpu_to_le16(0);
else
dirflags = ATTR_IS_COMPRESSED;
res = ntfs_attr_set_flags(ni,
AT_INDEX_ROOT,
NTFS_INDEX_I30, 4,
dirflags,
ATTR_COMPRESSION_MASK);
}
}
if (!res) {
ni->flags = (ni->flags & ~settable)
| (cpu_to_le32(attrib) & settable);
NInoSetDirty(ni);
}
if (!ntfs_inode_close(ni))
res = -1;
} else
errno = ENOENT;
}
return (res);
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}
BOOL ntfs_read_directory(struct SECURITY_API *scapi,
const char *path, ntfs_filldir_t callback, void *context)
{
ntfs_inode *ni;
BOOL ok;
s64 pos;
ok = FALSE; /* default return */
if (scapi && (scapi->magic == MAGIC_API) && callback) {
ni = ntfs_pathname_to_inode(scapi->security.vol, NULL, path);
if (ni) {
if (ni->mrec->flags & MFT_RECORD_IS_DIRECTORY) {
pos = 0;
ntfs_readdir(ni,&pos,context,callback);
ok = !ntfs_inode_close(ni);
} else {
ntfs_inode_close(ni);
errno = ENOTDIR;
}
} else
errno = ENOENT;
} else
errno = EINVAL; /* do not clear *psize */
return (ok);
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}
/*
* read $SDS (for auditing security data)
*
* Returns the number or read bytes, or -1 if there is an error
*/
int ntfs_read_sds(struct SECURITY_API *scapi,
char *buf, u32 size, u32 offset)
{
int got;
got = -1; /* default return */
if (scapi && (scapi->magic == MAGIC_API)) {
if (scapi->security.vol->secure_ni)
got = ntfs_local_read(scapi->security.vol->secure_ni,
STREAM_SDS, 4, buf, size, offset);
else
errno = EOPNOTSUPP;
} else
errno = EINVAL;
return (got);
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}
/*
* read $SII (for auditing security data)
*
* Returns next entry, or NULL if there is an error
*/
INDEX_ENTRY *ntfs_read_sii(struct SECURITY_API *scapi,
INDEX_ENTRY *entry)
{
SII_INDEX_KEY key;
INDEX_ENTRY *ret;
BOOL found;
ntfs_index_context *xsii;
ret = (INDEX_ENTRY*)NULL; /* default return */
if (scapi && (scapi->magic == MAGIC_API)) {
xsii = scapi->security.vol->secure_xsii;
if (xsii) {
if (!entry) {
key.security_id = const_cpu_to_le32(0);
found = !ntfs_index_lookup((char*)&key,
sizeof(SII_INDEX_KEY), xsii);
/* not supposed to find */
if (!found && (errno == ENOENT))
ret = xsii->entry;
} else
ret = ntfs_index_next(entry,xsii);
if (!ret)
errno = ENODATA;
} else
errno = EOPNOTSUPP;
} else
errno = EINVAL;
return (ret);
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}
/*
* read $SDH (for auditing security data)
*
* Returns next entry, or NULL if there is an error
*/
INDEX_ENTRY *ntfs_read_sdh(struct SECURITY_API *scapi,
INDEX_ENTRY *entry)
{
SDH_INDEX_KEY key;
INDEX_ENTRY *ret;
BOOL found;
ntfs_index_context *xsdh;
ret = (INDEX_ENTRY*)NULL; /* default return */
if (scapi && (scapi->magic == MAGIC_API)) {
xsdh = scapi->security.vol->secure_xsdh;
if (xsdh) {
if (!entry) {
key.hash = const_cpu_to_le32(0);
key.security_id = const_cpu_to_le32(0);
found = !ntfs_index_lookup((char*)&key,
sizeof(SDH_INDEX_KEY), xsdh);
/* not supposed to find */
if (!found && (errno == ENOENT))
ret = xsdh->entry;
} else
ret = ntfs_index_next(entry,xsdh);
if (!ret)
errno = ENODATA;
} else errno = ENOTSUP;
} else
errno = EINVAL;
return (ret);
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}
/*
* Get the mapped user SID
* A buffer of 40 bytes has to be supplied
*
* returns the size of the SID, or zero and errno set if not found
*/
int ntfs_get_usid(struct SECURITY_API *scapi, uid_t uid, char *buf)
{
const SID *usid;
BIGSID defusid;
int size;
size = 0;
if (scapi && (scapi->magic == MAGIC_API)) {
usid = ntfs_find_usid(scapi->security.mapping[MAPUSERS], uid, (SID*)&defusid);
if (usid) {
size = ntfs_sid_size(usid);
memcpy(buf,usid,size);
} else
errno = ENODATA;
} else
errno = EINVAL;
return (size);
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}
/*
* Get the mapped group SID
* A buffer of 40 bytes has to be supplied
*
* returns the size of the SID, or zero and errno set if not found
*/
int ntfs_get_gsid(struct SECURITY_API *scapi, gid_t gid, char *buf)
{
const SID *gsid;
BIGSID defgsid;
int size;
size = 0;
if (scapi && (scapi->magic == MAGIC_API)) {
gsid = ntfs_find_gsid(scapi->security.mapping[MAPGROUPS], gid, (SID*)&defgsid);
if (gsid) {
size = ntfs_sid_size(gsid);
memcpy(buf,gsid,size);
} else
errno = ENODATA;
} else
errno = EINVAL;
return (size);
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}
/*
* Get the user mapped to a SID
*
* returns the uid, or -1 if not found
*/
int ntfs_get_user(struct SECURITY_API *scapi, const SID *usid)
{
int uid;
uid = -1;
if (scapi && (scapi->magic == MAGIC_API) && ntfs_valid_sid(usid)) {
if (ntfs_same_sid(usid,adminsid))
uid = 0;
else {
uid = ntfs_find_user(scapi->security.mapping[MAPUSERS], usid);
if (!uid) {
uid = -1;
errno = ENODATA;
}
}
} else
errno = EINVAL;
return (uid);
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}
/*
* Get the group mapped to a SID
*
* returns the uid, or -1 if not found
*/
int ntfs_get_group(struct SECURITY_API *scapi, const SID *gsid)
{
int gid;
gid = -1;
if (scapi && (scapi->magic == MAGIC_API) && ntfs_valid_sid(gsid)) {
if (ntfs_same_sid(gsid,adminsid))
gid = 0;
else {
gid = ntfs_find_group(scapi->security.mapping[MAPGROUPS], gsid);
if (!gid) {
gid = -1;
errno = ENODATA;
}
}
} else
errno = EINVAL;
return (gid);
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}
/*
* Initializations before calling ntfs_get_file_security()
* ntfs_set_file_security() and ntfs_read_directory()
*
* Only allowed for root
*
* Returns an (obscured) struct SECURITY_API* needed for further calls
* NULL if not root (EPERM) or device is mounted (EBUSY)
*/
struct SECURITY_API *ntfs_initialize_file_security(const char *device,
int flags)
{
ntfs_volume *vol;
unsigned long mntflag;
int mnt;
struct SECURITY_API *scapi;
struct SECURITY_CONTEXT *scx;
scapi = (struct SECURITY_API*)NULL;
mnt = ntfs_check_if_mounted(device, &mntflag);
if (!mnt && !(mntflag & NTFS_MF_MOUNTED) && !getuid()) {
vol = ntfs_mount(device, flags);
if (vol) {
scapi = (struct SECURITY_API*)
ntfs_malloc(sizeof(struct SECURITY_API));
if (!ntfs_volume_get_free_space(vol)
&& scapi) {
scapi->magic = MAGIC_API;
scapi->seccache = (struct PERMISSIONS_CACHE*)NULL;
scx = &scapi->security;
scx->vol = vol;
scx->uid = getuid();
scx->gid = getgid();
scx->pseccache = &scapi->seccache;
scx->vol->secure_flags = 0;
/* accept no mapping and no $Secure */
ntfs_build_mapping(scx,(const char*)NULL);
ntfs_open_secure(vol);
} else {
if (scapi)
free(scapi);
else
errno = ENOMEM;
mnt = ntfs_umount(vol,FALSE);
scapi = (struct SECURITY_API*)NULL;
}
}
} else
if (getuid())
errno = EPERM;
else
errno = EBUSY;
return (scapi);
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}
/*
* Leaving after ntfs_initialize_file_security()
*
* Returns FALSE if FAILED
*/
BOOL ntfs_leave_file_security(struct SECURITY_API *scapi)
{
int ok;
ntfs_volume *vol;
ok = FALSE;
if (scapi && (scapi->magic == MAGIC_API) && scapi->security.vol) {
vol = scapi->security.vol;
ntfs_close_secure(&scapi->security);
free(scapi);
if (!ntfs_umount(vol, 0))
ok = TRUE;
}
return (ok);
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}