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samba-mirror/source3/registry/regfio.c
Volker Lendecke 49ca690b4b Introduce "struct stat_ex" as a replacement for SMB_STRUCT_STAT
This patch introduces

struct stat_ex {
        dev_t           st_ex_dev;
        ino_t           st_ex_ino;
        mode_t          st_ex_mode;
        nlink_t         st_ex_nlink;
        uid_t           st_ex_uid;
        gid_t           st_ex_gid;
        dev_t           st_ex_rdev;
        off_t           st_ex_size;
        struct timespec st_ex_atime;
        struct timespec st_ex_mtime;
        struct timespec st_ex_ctime;
        struct timespec st_ex_btime; /* birthtime */
        blksize_t       st_ex_blksize;
        blkcnt_t        st_ex_blocks;
};
typedef struct stat_ex SMB_STRUCT_STAT;

It is really large because due to the friendly libc headers playing macro
tricks with fields like st_ino, so I renamed them to st_ex_xxx.

Why this change? To support birthtime, we already have quite a few #ifdef's at
places where it does not really belong. With a stat struct that we control, we
can consolidate the nanosecond timestamps and the birthtime deep in the VFS
stat calls.

At this moment it is triggered by a request to support the birthtime field for
GPFS. GPFS does not extend the system level struct stat, but instead has a
separate call that gets us the additional information beyond posix. Without
being able to do that within the VFS stat calls, that support would have to be
scattered around the main smbd code.

It will very likely break all the onefs modules, but I think the changes will
be reasonably easy to do.
2009-05-26 17:48:23 +02:00

1939 lines
51 KiB
C

/*
* Unix SMB/CIFS implementation.
* Windows NT registry I/O library
* Copyright (c) Gerald (Jerry) Carter 2005
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, see <http://www.gnu.org/licenses/>.
*/
#include "includes.h"
#include "regfio.h"
#undef DBGC_CLASS
#define DBGC_CLASS DBGC_REGISTRY
/*******************************************************************
*
* TODO : Right now this code basically ignores classnames.
*
******************************************************************/
/*******************************************************************
*******************************************************************/
static int write_block( REGF_FILE *file, prs_struct *ps, uint32 offset )
{
int bytes_written, returned;
char *buffer = prs_data_p( ps );
uint32 buffer_size = prs_data_size( ps );
SMB_STRUCT_STAT sbuf;
if ( file->fd == -1 )
return -1;
/* check for end of file */
if ( sys_fstat( file->fd, &sbuf ) ) {
DEBUG(0,("write_block: stat() failed! (%s)\n", strerror(errno)));
return -1;
}
if ( lseek( file->fd, offset, SEEK_SET ) == -1 ) {
DEBUG(0,("write_block: lseek() failed! (%s)\n", strerror(errno) ));
return -1;
}
bytes_written = returned = 0;
while ( bytes_written < buffer_size ) {
if ( (returned = write( file->fd, buffer+bytes_written, buffer_size-bytes_written )) == -1 ) {
DEBUG(0,("write_block: write() failed! (%s)\n", strerror(errno) ));
return False;
}
bytes_written += returned;
}
return bytes_written;
}
/*******************************************************************
*******************************************************************/
static int read_block( REGF_FILE *file, prs_struct *ps, uint32 file_offset, uint32 block_size )
{
int bytes_read, returned;
char *buffer;
SMB_STRUCT_STAT sbuf;
/* check for end of file */
if ( sys_fstat( file->fd, &sbuf ) ) {
DEBUG(0,("read_block: stat() failed! (%s)\n", strerror(errno)));
return -1;
}
if ( (size_t)file_offset >= sbuf.st_ex_size )
return -1;
/* if block_size == 0, we are parsing HBIN records and need
to read some of the header to get the block_size from there */
if ( block_size == 0 ) {
char hdr[0x20];
if ( lseek( file->fd, file_offset, SEEK_SET ) == -1 ) {
DEBUG(0,("read_block: lseek() failed! (%s)\n", strerror(errno) ));
return -1;
}
returned = read( file->fd, hdr, 0x20 );
if ( (returned == -1) || (returned < 0x20) ) {
DEBUG(0,("read_block: failed to read in HBIN header. Is the file corrupt?\n"));
return -1;
}
/* make sure this is an hbin header */
if ( strncmp( hdr, "hbin", HBIN_HDR_SIZE ) != 0 ) {
DEBUG(0,("read_block: invalid block header!\n"));
return -1;
}
block_size = IVAL( hdr, 0x08 );
}
DEBUG(10,("read_block: block_size == 0x%x\n", block_size ));
/* set the offset, initialize the buffer, and read the block from disk */
if ( lseek( file->fd, file_offset, SEEK_SET ) == -1 ) {
DEBUG(0,("read_block: lseek() failed! (%s)\n", strerror(errno) ));
return -1;
}
if (!prs_init( ps, block_size, file->mem_ctx, UNMARSHALL )) {
DEBUG(0,("read_block: prs_init() failed! (%s)\n", strerror(errno) ));
return -1;
}
buffer = prs_data_p( ps );
bytes_read = returned = 0;
while ( bytes_read < block_size ) {
if ( (returned = read( file->fd, buffer+bytes_read, block_size-bytes_read )) == -1 ) {
DEBUG(0,("read_block: read() failed (%s)\n", strerror(errno) ));
return False;
}
if ( (returned == 0) && (bytes_read < block_size) ) {
DEBUG(0,("read_block: not a vald registry file ?\n" ));
return False;
}
bytes_read += returned;
}
return bytes_read;
}
/*******************************************************************
*******************************************************************/
static bool write_hbin_block( REGF_FILE *file, REGF_HBIN *hbin )
{
if ( !hbin->dirty )
return True;
/* write free space record if any is available */
if ( hbin->free_off != REGF_OFFSET_NONE ) {
uint32 header = 0xffffffff;
if ( !prs_set_offset( &hbin->ps, hbin->free_off-sizeof(uint32) ) )
return False;
if ( !prs_uint32( "free_size", &hbin->ps, 0, &hbin->free_size ) )
return False;
if ( !prs_uint32( "free_header", &hbin->ps, 0, &header ) )
return False;
}
hbin->dirty = (write_block( file, &hbin->ps, hbin->file_off ) != -1);
return hbin->dirty;
}
/*******************************************************************
*******************************************************************/
static bool hbin_block_close( REGF_FILE *file, REGF_HBIN *hbin )
{
REGF_HBIN *p;
/* remove the block from the open list and flush it to disk */
for ( p=file->block_list; p && p!=hbin; p=p->next )
;;
if ( p == hbin ) {
DLIST_REMOVE( file->block_list, hbin );
}
else
DEBUG(0,("hbin_block_close: block not in open list!\n"));
if ( !write_hbin_block( file, hbin ) )
return False;
return True;
}
/*******************************************************************
*******************************************************************/
static bool prs_regf_block( const char *desc, prs_struct *ps, int depth, REGF_FILE *file )
{
prs_debug(ps, depth, desc, "prs_regf_block");
depth++;
if ( !prs_uint8s( True, "header", ps, depth, (uint8*)file->header, sizeof( file->header )) )
return False;
/* yes, these values are always identical so store them only once */
if ( !prs_uint32( "unknown1", ps, depth, &file->unknown1 ))
return False;
if ( !prs_uint32( "unknown1 (again)", ps, depth, &file->unknown1 ))
return False;
/* get the modtime */
if ( !prs_set_offset( ps, 0x0c ) )
return False;
if ( !smb_io_time( "modtime", &file->mtime, ps, depth ) )
return False;
/* constants */
if ( !prs_uint32( "unknown2", ps, depth, &file->unknown2 ))
return False;
if ( !prs_uint32( "unknown3", ps, depth, &file->unknown3 ))
return False;
if ( !prs_uint32( "unknown4", ps, depth, &file->unknown4 ))
return False;
if ( !prs_uint32( "unknown5", ps, depth, &file->unknown5 ))
return False;
/* get file offsets */
if ( !prs_set_offset( ps, 0x24 ) )
return False;
if ( !prs_uint32( "data_offset", ps, depth, &file->data_offset ))
return False;
if ( !prs_uint32( "last_block", ps, depth, &file->last_block ))
return False;
/* one more constant */
if ( !prs_uint32( "unknown6", ps, depth, &file->unknown6 ))
return False;
/* get the checksum */
if ( !prs_set_offset( ps, 0x01fc ) )
return False;
if ( !prs_uint32( "checksum", ps, depth, &file->checksum ))
return False;
return True;
}
/*******************************************************************
*******************************************************************/
static bool prs_hbin_block( const char *desc, prs_struct *ps, int depth, REGF_HBIN *hbin )
{
uint32 block_size2;
prs_debug(ps, depth, desc, "prs_regf_block");
depth++;
if ( !prs_uint8s( True, "header", ps, depth, (uint8*)hbin->header, sizeof( hbin->header )) )
return False;
if ( !prs_uint32( "first_hbin_off", ps, depth, &hbin->first_hbin_off ))
return False;
/* The dosreg.cpp comments say that the block size is at 0x1c.
According to a WINXP NTUSER.dat file, this is wrong. The block_size
is at 0x08 */
if ( !prs_uint32( "block_size", ps, depth, &hbin->block_size ))
return False;
block_size2 = hbin->block_size;
prs_set_offset( ps, 0x1c );
if ( !prs_uint32( "block_size2", ps, depth, &block_size2 ))
return False;
if ( MARSHALLING(ps) )
hbin->dirty = True;
return True;
}
/*******************************************************************
*******************************************************************/
static bool prs_nk_rec( const char *desc, prs_struct *ps, int depth, REGF_NK_REC *nk )
{
uint16 class_length, name_length;
uint32 start;
uint32 data_size, start_off, end_off;
uint32 unknown_off = REGF_OFFSET_NONE;
nk->hbin_off = prs_offset( ps );
start = nk->hbin_off;
prs_debug(ps, depth, desc, "prs_nk_rec");
depth++;
/* back up and get the data_size */
if ( !prs_set_offset( ps, prs_offset(ps)-sizeof(uint32)) )
return False;
start_off = prs_offset( ps );
if ( !prs_uint32( "rec_size", ps, depth, &nk->rec_size ))
return False;
if ( !prs_uint8s( True, "header", ps, depth, (uint8*)nk->header, sizeof( nk->header )) )
return False;
if ( !prs_uint16( "key_type", ps, depth, &nk->key_type ))
return False;
if ( !smb_io_time( "mtime", &nk->mtime, ps, depth ))
return False;
if ( !prs_set_offset( ps, start+0x0010 ) )
return False;
if ( !prs_uint32( "parent_off", ps, depth, &nk->parent_off ))
return False;
if ( !prs_uint32( "num_subkeys", ps, depth, &nk->num_subkeys ))
return False;
if ( !prs_set_offset( ps, start+0x001c ) )
return False;
if ( !prs_uint32( "subkeys_off", ps, depth, &nk->subkeys_off ))
return False;
if ( !prs_uint32( "unknown_off", ps, depth, &unknown_off) )
return False;
if ( !prs_set_offset( ps, start+0x0024 ) )
return False;
if ( !prs_uint32( "num_values", ps, depth, &nk->num_values ))
return False;
if ( !prs_uint32( "values_off", ps, depth, &nk->values_off ))
return False;
if ( !prs_uint32( "sk_off", ps, depth, &nk->sk_off ))
return False;
if ( !prs_uint32( "classname_off", ps, depth, &nk->classname_off ))
return False;
if ( !prs_uint32( "max_bytes_subkeyname", ps, depth, &nk->max_bytes_subkeyname))
return False;
if ( !prs_uint32( "max_bytes_subkeyclassname", ps, depth, &nk->max_bytes_subkeyclassname))
return False;
if ( !prs_uint32( "max_bytes_valuename", ps, depth, &nk->max_bytes_valuename))
return False;
if ( !prs_uint32( "max_bytes_value", ps, depth, &nk->max_bytes_value))
return False;
if ( !prs_uint32( "unknown index", ps, depth, &nk->unk_index))
return False;
name_length = nk->keyname ? strlen(nk->keyname) : 0 ;
class_length = nk->classname ? strlen(nk->classname) : 0 ;
if ( !prs_uint16( "name_length", ps, depth, &name_length ))
return False;
if ( !prs_uint16( "class_length", ps, depth, &class_length ))
return False;
if ( class_length ) {
;;
}
if ( name_length ) {
if ( UNMARSHALLING(ps) ) {
if ( !(nk->keyname = PRS_ALLOC_MEM( ps, char, name_length+1 )) )
return False;
}
if ( !prs_uint8s( True, "name", ps, depth, (uint8*)nk->keyname, name_length) )
return False;
if ( UNMARSHALLING(ps) )
nk->keyname[name_length] = '\0';
}
end_off = prs_offset( ps );
/* data_size must be divisible by 8 and large enough to hold the original record */
data_size = ((start_off - end_off) & 0xfffffff8 );
if ( data_size > nk->rec_size )
DEBUG(10,("Encountered reused record (0x%x < 0x%x)\n", data_size, nk->rec_size));
if ( MARSHALLING(ps) )
nk->hbin->dirty = True;
return True;
}
/*******************************************************************
*******************************************************************/
static uint32 regf_block_checksum( prs_struct *ps )
{
char *buffer = prs_data_p( ps );
uint32 checksum, x;
int i;
/* XOR of all bytes 0x0000 - 0x01FB */
checksum = x = 0;
for ( i=0; i<0x01FB; i+=4 ) {
x = IVAL(buffer, i );
checksum ^= x;
}
return checksum;
}
/*******************************************************************
*******************************************************************/
static bool read_regf_block( REGF_FILE *file )
{
prs_struct ps;
uint32 checksum;
/* grab the first block from the file */
if ( read_block( file, &ps, 0, REGF_BLOCKSIZE ) == -1 )
return False;
/* parse the block and verify the checksum */
if ( !prs_regf_block( "regf_header", &ps, 0, file ) )
return False;
checksum = regf_block_checksum( &ps );
prs_mem_free( &ps );
if ( file->checksum != checksum ) {
DEBUG(0,("read_regf_block: invalid checksum\n" ));
return False;
}
return True;
}
/*******************************************************************
*******************************************************************/
static REGF_HBIN* read_hbin_block( REGF_FILE *file, off_t offset )
{
REGF_HBIN *hbin;
uint32 record_size, curr_off, block_size, header;
if ( !(hbin = TALLOC_ZERO_P(file->mem_ctx, REGF_HBIN)) )
return NULL;
hbin->file_off = offset;
hbin->free_off = -1;
if ( read_block( file, &hbin->ps, offset, 0 ) == -1 )
return NULL;
if ( !prs_hbin_block( "hbin", &hbin->ps, 0, hbin ) )
return NULL;
/* this should be the same thing as hbin->block_size but just in case */
block_size = prs_data_size( &hbin->ps );
/* Find the available free space offset. Always at the end,
so walk the record list and stop when you get to the end.
The end is defined by a record header of 0xffffffff. The
previous 4 bytes contains the amount of free space remaining
in the hbin block. */
/* remember that the record_size is in the 4 bytes preceeding the record itself */
if ( !prs_set_offset( &hbin->ps, file->data_offset+HBIN_HDR_SIZE-sizeof(uint32) ) )
return False;
record_size = 0;
header = 0;
curr_off = prs_offset( &hbin->ps );
while ( header != 0xffffffff ) {
/* not done yet so reset the current offset to the
next record_size field */
curr_off = curr_off+record_size;
/* for some reason the record_size of the last record in
an hbin block can extend past the end of the block
even though the record fits within the remaining
space....aaarrrgggghhhhhh */
if ( curr_off >= block_size ) {
record_size = -1;
curr_off = -1;
break;
}
if ( !prs_set_offset( &hbin->ps, curr_off) )
return False;
if ( !prs_uint32( "rec_size", &hbin->ps, 0, &record_size ) )
return False;
if ( !prs_uint32( "header", &hbin->ps, 0, &header ) )
return False;
SMB_ASSERT( record_size != 0 );
if ( record_size & 0x80000000 ) {
/* absolute_value(record_size) */
record_size = (record_size ^ 0xffffffff) + 1;
}
}
/* save the free space offset */
if ( header == 0xffffffff ) {
/* account for the fact that the curr_off is 4 bytes behind the actual
record header */
hbin->free_off = curr_off + sizeof(uint32);
hbin->free_size = record_size;
}
DEBUG(10,("read_hbin_block: free space offset == 0x%x\n", hbin->free_off));
if ( !prs_set_offset( &hbin->ps, file->data_offset+HBIN_HDR_SIZE ) )
return False;
return hbin;
}
/*******************************************************************
Input a random offset and receive the corresponding HBIN
block for it
*******************************************************************/
static bool hbin_contains_offset( REGF_HBIN *hbin, uint32 offset )
{
if ( !hbin )
return False;
if ( (offset > hbin->first_hbin_off) && (offset < (hbin->first_hbin_off+hbin->block_size)) )
return True;
return False;
}
/*******************************************************************
Input a random offset and receive the corresponding HBIN
block for it
*******************************************************************/
static REGF_HBIN* lookup_hbin_block( REGF_FILE *file, uint32 offset )
{
REGF_HBIN *hbin = NULL;
uint32 block_off;
/* start with the open list */
for ( hbin=file->block_list; hbin; hbin=hbin->next ) {
DEBUG(10,("lookup_hbin_block: address = 0x%x [0x%lx]\n", hbin->file_off, (unsigned long)hbin ));
if ( hbin_contains_offset( hbin, offset ) )
return hbin;
}
if ( !hbin ) {
/* start at the beginning */
block_off = REGF_BLOCKSIZE;
do {
/* cleanup before the next round */
if ( hbin )
prs_mem_free( &hbin->ps );
hbin = read_hbin_block( file, block_off );
if ( hbin )
block_off = hbin->file_off + hbin->block_size;
} while ( hbin && !hbin_contains_offset( hbin, offset ) );
}
if ( hbin )
DLIST_ADD( file->block_list, hbin );
return hbin;
}
/*******************************************************************
*******************************************************************/
static bool prs_hash_rec( const char *desc, prs_struct *ps, int depth, REGF_HASH_REC *hash )
{
prs_debug(ps, depth, desc, "prs_hash_rec");
depth++;
if ( !prs_uint32( "nk_off", ps, depth, &hash->nk_off ))
return False;
if ( !prs_uint8s( True, "keycheck", ps, depth, hash->keycheck, sizeof( hash->keycheck )) )
return False;
return True;
}
/*******************************************************************
*******************************************************************/
static bool hbin_prs_lf_records( const char *desc, REGF_HBIN *hbin, int depth, REGF_NK_REC *nk )
{
int i;
REGF_LF_REC *lf = &nk->subkeys;
uint32 data_size, start_off, end_off;
prs_debug(&hbin->ps, depth, desc, "prs_lf_records");
depth++;
/* check if we have anything to do first */
if ( nk->num_subkeys == 0 )
return True;
/* move to the LF record */
if ( !prs_set_offset( &hbin->ps, nk->subkeys_off + HBIN_HDR_SIZE - hbin->first_hbin_off ) )
return False;
/* backup and get the data_size */
if ( !prs_set_offset( &hbin->ps, prs_offset(&hbin->ps)-sizeof(uint32)) )
return False;
start_off = prs_offset( &hbin->ps );
if ( !prs_uint32( "rec_size", &hbin->ps, depth, &lf->rec_size ))
return False;
if ( !prs_uint8s( True, "header", &hbin->ps, depth, (uint8*)lf->header, sizeof( lf->header )) )
return False;
if ( !prs_uint16( "num_keys", &hbin->ps, depth, &lf->num_keys))
return False;
if ( UNMARSHALLING(&hbin->ps) ) {
if (lf->num_keys) {
if ( !(lf->hashes = PRS_ALLOC_MEM( &hbin->ps, REGF_HASH_REC, lf->num_keys )) )
return False;
} else {
lf->hashes = NULL;
}
}
for ( i=0; i<lf->num_keys; i++ ) {
if ( !prs_hash_rec( "hash_rec", &hbin->ps, depth, &lf->hashes[i] ) )
return False;
}
end_off = prs_offset( &hbin->ps );
/* data_size must be divisible by 8 and large enough to hold the original record */
data_size = ((start_off - end_off) & 0xfffffff8 );
if ( data_size > lf->rec_size )
DEBUG(10,("Encountered reused record (0x%x < 0x%x)\n", data_size, lf->rec_size));
if ( MARSHALLING(&hbin->ps) )
hbin->dirty = True;
return True;
}
/*******************************************************************
*******************************************************************/
static bool hbin_prs_sk_rec( const char *desc, REGF_HBIN *hbin, int depth, REGF_SK_REC *sk )
{
prs_struct *ps = &hbin->ps;
uint16 tag = 0xFFFF;
uint32 data_size, start_off, end_off;
prs_debug(ps, depth, desc, "hbin_prs_sk_rec");
depth++;
if ( !prs_set_offset( &hbin->ps, sk->sk_off + HBIN_HDR_SIZE - hbin->first_hbin_off ) )
return False;
/* backup and get the data_size */
if ( !prs_set_offset( &hbin->ps, prs_offset(&hbin->ps)-sizeof(uint32)) )
return False;
start_off = prs_offset( &hbin->ps );
if ( !prs_uint32( "rec_size", &hbin->ps, depth, &sk->rec_size ))
return False;
if ( !prs_uint8s( True, "header", ps, depth, (uint8*)sk->header, sizeof( sk->header )) )
return False;
if ( !prs_uint16( "tag", ps, depth, &tag))
return False;
if ( !prs_uint32( "prev_sk_off", ps, depth, &sk->prev_sk_off))
return False;
if ( !prs_uint32( "next_sk_off", ps, depth, &sk->next_sk_off))
return False;
if ( !prs_uint32( "ref_count", ps, depth, &sk->ref_count))
return False;
if ( !prs_uint32( "size", ps, depth, &sk->size))
return False;
{
NTSTATUS status;
TALLOC_CTX *mem_ctx = prs_get_mem_context(&hbin->ps);
DATA_BLOB blob;
if (MARSHALLING(&hbin->ps)) {
status = marshall_sec_desc(mem_ctx,
sk->sec_desc,
&blob.data, &blob.length);
if (!NT_STATUS_IS_OK(status))
return False;
if (!prs_copy_data_in(&hbin->ps, (const char *)blob.data, blob.length))
return False;
} else {
blob = data_blob_const(prs_data_p(&hbin->ps),
prs_data_size(&hbin->ps));
status = unmarshall_sec_desc(mem_ctx,
blob.data, blob.length,
&sk->sec_desc);
if (!NT_STATUS_IS_OK(status))
return False;
prs_set_offset(&hbin->ps, blob.length);
}
}
end_off = prs_offset( &hbin->ps );
/* data_size must be divisible by 8 and large enough to hold the original record */
data_size = ((start_off - end_off) & 0xfffffff8 );
if ( data_size > sk->rec_size )
DEBUG(10,("Encountered reused record (0x%x < 0x%x)\n", data_size, sk->rec_size));
if ( MARSHALLING(&hbin->ps) )
hbin->dirty = True;
return True;
}
/*******************************************************************
*******************************************************************/
static bool hbin_prs_vk_rec( const char *desc, REGF_HBIN *hbin, int depth, REGF_VK_REC *vk, REGF_FILE *file )
{
uint32 offset;
uint16 name_length;
prs_struct *ps = &hbin->ps;
uint32 data_size, start_off, end_off;
prs_debug(ps, depth, desc, "prs_vk_rec");
depth++;
/* backup and get the data_size */
if ( !prs_set_offset( &hbin->ps, prs_offset(&hbin->ps)-sizeof(uint32)) )
return False;
start_off = prs_offset( &hbin->ps );
if ( !prs_uint32( "rec_size", &hbin->ps, depth, &vk->rec_size ))
return False;
if ( !prs_uint8s( True, "header", ps, depth, (uint8*)vk->header, sizeof( vk->header )) )
return False;
if ( MARSHALLING(&hbin->ps) )
name_length = strlen(vk->valuename);
if ( !prs_uint16( "name_length", ps, depth, &name_length ))
return False;
if ( !prs_uint32( "data_size", ps, depth, &vk->data_size ))
return False;
if ( !prs_uint32( "data_off", ps, depth, &vk->data_off ))
return False;
if ( !prs_uint32( "type", ps, depth, &vk->type))
return False;
if ( !prs_uint16( "flag", ps, depth, &vk->flag))
return False;
offset = prs_offset( ps );
offset += 2; /* skip 2 bytes */
prs_set_offset( ps, offset );
/* get the name */
if ( vk->flag&VK_FLAG_NAME_PRESENT ) {
if ( UNMARSHALLING(&hbin->ps) ) {
if ( !(vk->valuename = PRS_ALLOC_MEM( ps, char, name_length+1 )))
return False;
}
if ( !prs_uint8s( True, "name", ps, depth, (uint8*)vk->valuename, name_length ) )
return False;
}
end_off = prs_offset( &hbin->ps );
/* get the data if necessary */
if ( vk->data_size != 0 ) {
bool charmode = False;
if ( (vk->type == REG_SZ) || (vk->type == REG_MULTI_SZ) )
charmode = True;
/* the data is stored in the offset if the size <= 4 */
if ( !(vk->data_size & VK_DATA_IN_OFFSET) ) {
REGF_HBIN *hblock = hbin;
uint32 data_rec_size;
if ( UNMARSHALLING(&hbin->ps) ) {
if ( !(vk->data = PRS_ALLOC_MEM( ps, uint8, vk->data_size) ) )
return False;
}
/* this data can be in another hbin */
if ( !hbin_contains_offset( hbin, vk->data_off ) ) {
if ( !(hblock = lookup_hbin_block( file, vk->data_off )) )
return False;
}
if ( !(prs_set_offset( &hblock->ps, (vk->data_off+HBIN_HDR_SIZE-hblock->first_hbin_off)-sizeof(uint32) )) )
return False;
if ( MARSHALLING(&hblock->ps) ) {
data_rec_size = ( (vk->data_size+sizeof(uint32)) & 0xfffffff8 ) + 8;
data_rec_size = ( data_rec_size - 1 ) ^ 0xFFFFFFFF;
}
if ( !prs_uint32( "data_rec_size", &hblock->ps, depth, &data_rec_size ))
return False;
if ( !prs_uint8s( charmode, "data", &hblock->ps, depth, vk->data, vk->data_size) )
return False;
if ( MARSHALLING(&hblock->ps) )
hblock->dirty = True;
}
else {
if ( !(vk->data = PRS_ALLOC_MEM( ps, uint8, 4 ) ) )
return False;
SIVAL( vk->data, 0, vk->data_off );
}
}
/* data_size must be divisible by 8 and large enough to hold the original record */
data_size = ((start_off - end_off ) & 0xfffffff8 );
if ( data_size != vk->rec_size )
DEBUG(10,("prs_vk_rec: data_size check failed (0x%x < 0x%x)\n", data_size, vk->rec_size));
if ( MARSHALLING(&hbin->ps) )
hbin->dirty = True;
return True;
}
/*******************************************************************
read a VK record which is contained in the HBIN block stored
in the prs_struct *ps.
*******************************************************************/
static bool hbin_prs_vk_records( const char *desc, REGF_HBIN *hbin, int depth, REGF_NK_REC *nk, REGF_FILE *file )
{
int i;
uint32 record_size;
prs_debug(&hbin->ps, depth, desc, "prs_vk_records");
depth++;
/* check if we have anything to do first */
if ( nk->num_values == 0 )
return True;
if ( UNMARSHALLING(&hbin->ps) ) {
if ( !(nk->values = PRS_ALLOC_MEM( &hbin->ps, REGF_VK_REC, nk->num_values ) ) )
return False;
}
/* convert the offset to something relative to this HBIN block */
if ( !prs_set_offset( &hbin->ps, nk->values_off+HBIN_HDR_SIZE-hbin->first_hbin_off-sizeof(uint32)) )
return False;
if ( MARSHALLING( &hbin->ps) ) {
record_size = ( ( nk->num_values * sizeof(uint32) ) & 0xfffffff8 ) + 8;
record_size = (record_size - 1) ^ 0xFFFFFFFF;
}
if ( !prs_uint32( "record_size", &hbin->ps, depth, &record_size ) )
return False;
for ( i=0; i<nk->num_values; i++ ) {
if ( !prs_uint32( "vk_off", &hbin->ps, depth, &nk->values[i].rec_off ) )
return False;
}
for ( i=0; i<nk->num_values; i++ ) {
REGF_HBIN *sub_hbin = hbin;
uint32 new_offset;
if ( !hbin_contains_offset( hbin, nk->values[i].rec_off ) ) {
sub_hbin = lookup_hbin_block( file, nk->values[i].rec_off );
if ( !sub_hbin ) {
DEBUG(0,("hbin_prs_vk_records: Failed to find HBIN block containing offset [0x%x]\n",
nk->values[i].hbin_off));
return False;
}
}
new_offset = nk->values[i].rec_off + HBIN_HDR_SIZE - sub_hbin->first_hbin_off;
if ( !prs_set_offset( &sub_hbin->ps, new_offset ) )
return False;
if ( !hbin_prs_vk_rec( "vk_rec", sub_hbin, depth, &nk->values[i], file ) )
return False;
}
if ( MARSHALLING(&hbin->ps) )
hbin->dirty = True;
return True;
}
/*******************************************************************
*******************************************************************/
static REGF_SK_REC* find_sk_record_by_offset( REGF_FILE *file, uint32 offset )
{
REGF_SK_REC *p_sk;
for ( p_sk=file->sec_desc_list; p_sk; p_sk=p_sk->next ) {
if ( p_sk->sk_off == offset )
return p_sk;
}
return NULL;
}
/*******************************************************************
*******************************************************************/
static REGF_SK_REC* find_sk_record_by_sec_desc( REGF_FILE *file, SEC_DESC *sd )
{
REGF_SK_REC *p;
for ( p=file->sec_desc_list; p; p=p->next ) {
if ( security_descriptor_equal( p->sec_desc, sd ) )
return p;
}
/* failure */
return NULL;
}
/*******************************************************************
*******************************************************************/
static bool hbin_prs_key( REGF_FILE *file, REGF_HBIN *hbin, REGF_NK_REC *nk )
{
int depth = 0;
REGF_HBIN *sub_hbin;
prs_debug(&hbin->ps, depth, "", "fetch_key");
depth++;
/* get the initial nk record */
if ( !prs_nk_rec( "nk_rec", &hbin->ps, depth, nk ))
return False;
/* fill in values */
if ( nk->num_values && (nk->values_off!=REGF_OFFSET_NONE) ) {
sub_hbin = hbin;
if ( !hbin_contains_offset( hbin, nk->values_off ) ) {
sub_hbin = lookup_hbin_block( file, nk->values_off );
if ( !sub_hbin ) {
DEBUG(0,("hbin_prs_key: Failed to find HBIN block containing value_list_offset [0x%x]\n",
nk->values_off));
return False;
}
}
if ( !hbin_prs_vk_records( "vk_rec", sub_hbin, depth, nk, file ))
return False;
}
/* now get subkeys */
if ( nk->num_subkeys && (nk->subkeys_off!=REGF_OFFSET_NONE) ) {
sub_hbin = hbin;
if ( !hbin_contains_offset( hbin, nk->subkeys_off ) ) {
sub_hbin = lookup_hbin_block( file, nk->subkeys_off );
if ( !sub_hbin ) {
DEBUG(0,("hbin_prs_key: Failed to find HBIN block containing subkey_offset [0x%x]\n",
nk->subkeys_off));
return False;
}
}
if ( !hbin_prs_lf_records( "lf_rec", sub_hbin, depth, nk ))
return False;
}
/* get the to the security descriptor. First look if we have already parsed it */
if ( (nk->sk_off!=REGF_OFFSET_NONE) && !( nk->sec_desc = find_sk_record_by_offset( file, nk->sk_off )) ) {
sub_hbin = hbin;
if ( !hbin_contains_offset( hbin, nk->sk_off ) ) {
sub_hbin = lookup_hbin_block( file, nk->sk_off );
if ( !sub_hbin ) {
DEBUG(0,("hbin_prs_key: Failed to find HBIN block containing sk_offset [0x%x]\n",
nk->subkeys_off));
return False;
}
}
if ( !(nk->sec_desc = TALLOC_ZERO_P( file->mem_ctx, REGF_SK_REC )) )
return False;
nk->sec_desc->sk_off = nk->sk_off;
if ( !hbin_prs_sk_rec( "sk_rec", sub_hbin, depth, nk->sec_desc ))
return False;
/* add to the list of security descriptors (ref_count has been read from the files) */
nk->sec_desc->sk_off = nk->sk_off;
DLIST_ADD( file->sec_desc_list, nk->sec_desc );
}
return True;
}
/*******************************************************************
*******************************************************************/
static bool next_record( REGF_HBIN *hbin, const char *hdr, bool *eob )
{
uint8 header[REC_HDR_SIZE];
uint32 record_size;
uint32 curr_off, block_size;
bool found = False;
prs_struct *ps = &hbin->ps;
curr_off = prs_offset( ps );
if ( curr_off == 0 )
prs_set_offset( ps, HBIN_HEADER_REC_SIZE );
/* assume that the current offset is at the record header
and we need to backup to read the record size */
curr_off -= sizeof(uint32);
block_size = prs_data_size( ps );
record_size = 0;
memset( header, 0x0, sizeof(uint8)*REC_HDR_SIZE );
while ( !found ) {
curr_off = curr_off+record_size;
if ( curr_off >= block_size )
break;
if ( !prs_set_offset( &hbin->ps, curr_off) )
return False;
if ( !prs_uint32( "record_size", ps, 0, &record_size ) )
return False;
if ( !prs_uint8s( True, "header", ps, 0, header, REC_HDR_SIZE ) )
return False;
if ( record_size & 0x80000000 ) {
/* absolute_value(record_size) */
record_size = (record_size ^ 0xffffffff) + 1;
}
if ( memcmp( header, hdr, REC_HDR_SIZE ) == 0 ) {
found = True;
curr_off += sizeof(uint32);
}
}
/* mark prs_struct as done ( at end ) if no more SK records */
/* mark end-of-block as True */
if ( !found ) {
prs_set_offset( &hbin->ps, prs_data_size(&hbin->ps) );
*eob = True;
return False;
}
if ( !prs_set_offset( ps, curr_off ) )
return False;
return True;
}
/*******************************************************************
*******************************************************************/
static bool next_nk_record( REGF_FILE *file, REGF_HBIN *hbin, REGF_NK_REC *nk, bool *eob )
{
if ( next_record( hbin, "nk", eob ) && hbin_prs_key( file, hbin, nk ) )
return True;
return False;
}
/*******************************************************************
Intialize the newly created REGF_BLOCK in *file and write the
block header to disk
*******************************************************************/
static bool init_regf_block( REGF_FILE *file )
{
prs_struct ps;
bool result = True;
if ( !prs_init( &ps, REGF_BLOCKSIZE, file->mem_ctx, MARSHALL ) )
return False;
memcpy( file->header, "regf", REGF_HDR_SIZE );
file->data_offset = 0x20;
file->last_block = 0x1000;
/* set mod time */
unix_to_nt_time( &file->mtime, time(NULL) );
/* hard coded values...no diea what these are ... maybe in time */
file->unknown1 = 0x2;
file->unknown2 = 0x1;
file->unknown3 = 0x3;
file->unknown4 = 0x0;
file->unknown5 = 0x1;
file->unknown6 = 0x1;
/* write header to the buffer */
if ( !prs_regf_block( "regf_header", &ps, 0, file ) ) {
result = False;
goto out;
}
/* calculate the checksum, re-marshall data (to include the checksum)
and write to disk */
file->checksum = regf_block_checksum( &ps );
prs_set_offset( &ps, 0 );
if ( !prs_regf_block( "regf_header", &ps, 0, file ) ) {
result = False;
goto out;
}
if ( write_block( file, &ps, 0 ) == -1 ) {
DEBUG(0,("init_regf_block: Failed to initialize registry header block!\n"));
result = False;
goto out;
}
out:
prs_mem_free( &ps );
return result;
}
/*******************************************************************
Open the registry file and then read in the REGF block to get the
first hbin offset.
*******************************************************************/
REGF_FILE* regfio_open( const char *filename, int flags, int mode )
{
REGF_FILE *rb;
if ( !(rb = SMB_MALLOC_P(REGF_FILE)) ) {
DEBUG(0,("ERROR allocating memory\n"));
return NULL;
}
ZERO_STRUCTP( rb );
rb->fd = -1;
if ( !(rb->mem_ctx = talloc_init( "read_regf_block" )) ) {
regfio_close( rb );
return NULL;
}
rb->open_flags = flags;
/* open and existing file */
if ( (rb->fd = open(filename, flags, mode)) == -1 ) {
DEBUG(0,("regfio_open: failure to open %s (%s)\n", filename, strerror(errno)));
regfio_close( rb );
return NULL;
}
/* check if we are creating a new file or overwriting an existing one */
if ( flags & (O_CREAT|O_TRUNC) ) {
if ( !init_regf_block( rb ) ) {
DEBUG(0,("regfio_open: Failed to read initial REGF block\n"));
regfio_close( rb );
return NULL;
}
/* success */
return rb;
}
/* read in an existing file */
if ( !read_regf_block( rb ) ) {
DEBUG(0,("regfio_open: Failed to read initial REGF block\n"));
regfio_close( rb );
return NULL;
}
/* success */
return rb;
}
/*******************************************************************
*******************************************************************/
static void regfio_mem_free( REGF_FILE *file )
{
/* free any talloc()'d memory */
if ( file && file->mem_ctx )
talloc_destroy( file->mem_ctx );
}
/*******************************************************************
*******************************************************************/
int regfio_close( REGF_FILE *file )
{
int fd;
/* cleanup for a file opened for write */
if ((file->fd != -1) && (file->open_flags & (O_WRONLY|O_RDWR))) {
prs_struct ps;
REGF_SK_REC *sk;
/* write of sd list */
for ( sk=file->sec_desc_list; sk; sk=sk->next ) {
hbin_prs_sk_rec( "sk_rec", sk->hbin, 0, sk );
}
/* flush any dirty blocks */
while ( file->block_list ) {
hbin_block_close( file, file->block_list );
}
ZERO_STRUCT( ps );
unix_to_nt_time( &file->mtime, time(NULL) );
if ( read_block( file, &ps, 0, REGF_BLOCKSIZE ) != -1 ) {
/* now use for writing */
prs_switch_type( &ps, MARSHALL );
/* stream the block once, generate the checksum,
and stream it again */
prs_set_offset( &ps, 0 );
prs_regf_block( "regf_blocK", &ps, 0, file );
file->checksum = regf_block_checksum( &ps );
prs_set_offset( &ps, 0 );
prs_regf_block( "regf_blocK", &ps, 0, file );
/* now we are ready to write it to disk */
if ( write_block( file, &ps, 0 ) == -1 )
DEBUG(0,("regfio_close: failed to update the regf header block!\n"));
}
prs_mem_free( &ps );
}
regfio_mem_free( file );
/* nothing tdo do if there is no open file */
if (file->fd == -1)
return 0;
fd = file->fd;
file->fd = -1;
SAFE_FREE( file );
return close( fd );
}
/*******************************************************************
*******************************************************************/
static void regfio_flush( REGF_FILE *file )
{
REGF_HBIN *hbin;
for ( hbin=file->block_list; hbin; hbin=hbin->next ) {
write_hbin_block( file, hbin );
}
}
/*******************************************************************
There should be only *one* root key in the registry file based
on my experience. --jerry
*******************************************************************/
REGF_NK_REC* regfio_rootkey( REGF_FILE *file )
{
REGF_NK_REC *nk;
REGF_HBIN *hbin;
uint32 offset = REGF_BLOCKSIZE;
bool found = False;
bool eob;
if ( !file )
return NULL;
if ( !(nk = TALLOC_ZERO_P( file->mem_ctx, REGF_NK_REC )) ) {
DEBUG(0,("regfio_rootkey: talloc() failed!\n"));
return NULL;
}
/* scan through the file on HBIN block at a time looking
for an NK record with a type == 0x002c.
Normally this is the first nk record in the first hbin
block (but I'm not assuming that for now) */
while ( (hbin = read_hbin_block( file, offset )) ) {
eob = False;
while ( !eob) {
if ( next_nk_record( file, hbin, nk, &eob ) ) {
if ( nk->key_type == NK_TYPE_ROOTKEY ) {
found = True;
break;
}
}
prs_mem_free( &hbin->ps );
}
if ( found )
break;
offset += hbin->block_size;
}
if ( !found ) {
DEBUG(0,("regfio_rootkey: corrupt registry file ? No root key record located\n"));
return NULL;
}
DLIST_ADD( file->block_list, hbin );
return nk;
}
/*******************************************************************
This acts as an interator over the subkeys defined for a given
NK record. Remember that offsets are from the *first* HBIN block.
*******************************************************************/
REGF_NK_REC* regfio_fetch_subkey( REGF_FILE *file, REGF_NK_REC *nk )
{
REGF_NK_REC *subkey;
REGF_HBIN *hbin;
uint32 nk_offset;
/* see if there is anything left to report */
if ( !nk || (nk->subkeys_off==REGF_OFFSET_NONE) || (nk->subkey_index >= nk->num_subkeys) )
return NULL;
/* find the HBIN block which should contain the nk record */
if ( !(hbin = lookup_hbin_block( file, nk->subkeys.hashes[nk->subkey_index].nk_off )) ) {
DEBUG(0,("hbin_prs_key: Failed to find HBIN block containing offset [0x%x]\n",
nk->subkeys.hashes[nk->subkey_index].nk_off));
return NULL;
}
nk_offset = nk->subkeys.hashes[nk->subkey_index].nk_off;
if ( !prs_set_offset( &hbin->ps, (HBIN_HDR_SIZE + nk_offset - hbin->first_hbin_off) ) )
return NULL;
nk->subkey_index++;
if ( !(subkey = TALLOC_ZERO_P( file->mem_ctx, REGF_NK_REC )) )
return NULL;
if ( !hbin_prs_key( file, hbin, subkey ) )
return NULL;
return subkey;
}
/*******************************************************************
*******************************************************************/
static REGF_HBIN* regf_hbin_allocate( REGF_FILE *file, uint32 block_size )
{
REGF_HBIN *hbin;
SMB_STRUCT_STAT sbuf;
if ( !(hbin = TALLOC_ZERO_P( file->mem_ctx, REGF_HBIN )) )
return NULL;
memcpy( hbin->header, "hbin", sizeof(HBIN_HDR_SIZE) );
if ( sys_fstat( file->fd, &sbuf ) ) {
DEBUG(0,("regf_hbin_allocate: stat() failed! (%s)\n", strerror(errno)));
return NULL;
}
hbin->file_off = sbuf.st_ex_size;
hbin->free_off = HBIN_HEADER_REC_SIZE;
hbin->free_size = block_size - hbin->free_off + sizeof(uint32);;
hbin->block_size = block_size;
hbin->first_hbin_off = hbin->file_off - REGF_BLOCKSIZE;
if ( !prs_init( &hbin->ps, block_size, file->mem_ctx, MARSHALL ) )
return NULL;
if ( !prs_hbin_block( "new_hbin", &hbin->ps, 0, hbin ) )
return NULL;
if ( !write_hbin_block( file, hbin ) )
return NULL;
file->last_block = hbin->file_off;
return hbin;
}
/*******************************************************************
*******************************************************************/
static void update_free_space( REGF_HBIN *hbin, uint32 size_used )
{
hbin->free_off += size_used;
hbin->free_size -= size_used;
if ( hbin->free_off >= hbin->block_size ) {
hbin->free_off = REGF_OFFSET_NONE;
}
return;
}
/*******************************************************************
*******************************************************************/
static REGF_HBIN* find_free_space( REGF_FILE *file, uint32 size )
{
REGF_HBIN *hbin, *p_hbin;
uint32 block_off;
bool cached;
/* check open block list */
for ( hbin=file->block_list; hbin!=NULL; hbin=hbin->next ) {
/* only check blocks that actually have available space */
if ( hbin->free_off == REGF_OFFSET_NONE )
continue;
/* check for a large enough available chunk */
if ( (hbin->block_size - hbin->free_off) >= size ) {
DLIST_PROMOTE( file->block_list, hbin );
goto done;
}
}
/* parse the file until we find a block with
enough free space; save the last non-filled hbin */
block_off = REGF_BLOCKSIZE;
do {
/* cleanup before the next round */
cached = False;
if ( hbin )
prs_mem_free( &hbin->ps );
hbin = read_hbin_block( file, block_off );
if ( hbin ) {
/* make sure that we don't already have this block in memory */
for ( p_hbin=file->block_list; p_hbin!=NULL; p_hbin=p_hbin->next ) {
if ( p_hbin->file_off == hbin->file_off ) {
cached = True;
break;
}
}
block_off = hbin->file_off + hbin->block_size;
if ( cached ) {
prs_mem_free( &hbin->ps );
hbin = NULL;
continue;
}
}
/* if (cached block or (new block and not enough free space)) then continue looping */
} while ( cached || (hbin && (hbin->free_size < size)) );
/* no free space; allocate a new one */
if ( !hbin ) {
uint32 alloc_size;
/* allocate in multiples of REGF_ALLOC_BLOCK; make sure (size + hbin_header) fits */
alloc_size = (((size+HBIN_HEADER_REC_SIZE) / REGF_ALLOC_BLOCK ) + 1 ) * REGF_ALLOC_BLOCK;
if ( !(hbin = regf_hbin_allocate( file, alloc_size )) ) {
DEBUG(0,("find_free_space: regf_hbin_allocate() failed!\n"));
return NULL;
}
DLIST_ADD( file->block_list, hbin );
}
done:
/* set the offset to be ready to write */
if ( !prs_set_offset( &hbin->ps, hbin->free_off-sizeof(uint32) ) )
return NULL;
/* write the record size as a placeholder for now, it should be
probably updated by the caller once it all of the data necessary
for the record */
if ( !prs_uint32("allocated_size", &hbin->ps, 0, &size) )
return False;
update_free_space( hbin, size );
return hbin;
}
/*******************************************************************
*******************************************************************/
static uint32 sk_record_data_size( SEC_DESC * sd )
{
uint32 size, size_mod8;
size_mod8 = 0;
/* the record size is sizeof(hdr) + name + static members + data_size_field */
size = sizeof(uint32)*5 + ndr_size_security_descriptor(sd, NULL, 0) + sizeof(uint32);
/* multiple of 8 */
size_mod8 = size & 0xfffffff8;
if ( size_mod8 < size )
size_mod8 += 8;
return size_mod8;
}
/*******************************************************************
*******************************************************************/
static uint32 vk_record_data_size( REGF_VK_REC *vk )
{
uint32 size, size_mod8;
size_mod8 = 0;
/* the record size is sizeof(hdr) + name + static members + data_size_field */
size = REC_HDR_SIZE + (sizeof(uint16)*3) + (sizeof(uint32)*3) + sizeof(uint32);
if ( vk->valuename )
size += strlen(vk->valuename);
/* multiple of 8 */
size_mod8 = size & 0xfffffff8;
if ( size_mod8 < size )
size_mod8 += 8;
return size_mod8;
}
/*******************************************************************
*******************************************************************/
static uint32 lf_record_data_size( uint32 num_keys )
{
uint32 size, size_mod8;
size_mod8 = 0;
/* the record size is sizeof(hdr) + num_keys + sizeof of hash_array + data_size_uint32 */
size = REC_HDR_SIZE + sizeof(uint16) + (sizeof(REGF_HASH_REC) * num_keys) + sizeof(uint32);
/* multiple of 8 */
size_mod8 = size & 0xfffffff8;
if ( size_mod8 < size )
size_mod8 += 8;
return size_mod8;
}
/*******************************************************************
*******************************************************************/
static uint32 nk_record_data_size( REGF_NK_REC *nk )
{
uint32 size, size_mod8;
size_mod8 = 0;
/* the record size is static + length_of_keyname + length_of_classname + data_size_uint32 */
size = 0x4c + strlen(nk->keyname) + sizeof(uint32);
if ( nk->classname )
size += strlen( nk->classname );
/* multiple of 8 */
size_mod8 = size & 0xfffffff8;
if ( size_mod8 < size )
size_mod8 += 8;
return size_mod8;
}
/*******************************************************************
*******************************************************************/
static bool create_vk_record(REGF_FILE *file, REGF_VK_REC *vk,
struct regval_blob *value)
{
char *name = regval_name(value);
REGF_HBIN *data_hbin;
ZERO_STRUCTP( vk );
memcpy( vk->header, "vk", REC_HDR_SIZE );
if ( name ) {
vk->valuename = talloc_strdup( file->mem_ctx, regval_name(value) );
vk->flag = VK_FLAG_NAME_PRESENT;
}
vk->data_size = regval_size( value );
vk->type = regval_type( value );
if ( vk->data_size > sizeof(uint32) ) {
uint32 data_size = ( (vk->data_size+sizeof(uint32)) & 0xfffffff8 ) + 8;
vk->data = (uint8 *)TALLOC_MEMDUP( file->mem_ctx,
regval_data_p(value),
vk->data_size );
if (vk->data == NULL) {
return False;
}
/* go ahead and store the offset....we'll pick this hbin block back up when
we stream the data */
if ((data_hbin = find_free_space(file, data_size )) == NULL) {
return False;
}
vk->data_off = prs_offset( &data_hbin->ps ) + data_hbin->first_hbin_off - HBIN_HDR_SIZE;
}
else {
/* make sure we don't try to copy from a NULL value pointer */
if ( vk->data_size != 0 )
memcpy( &vk->data_off, regval_data_p(value), sizeof(uint32) );
vk->data_size |= VK_DATA_IN_OFFSET;
}
return True;
}
/*******************************************************************
*******************************************************************/
static int hashrec_cmp( REGF_HASH_REC *h1, REGF_HASH_REC *h2 )
{
return StrCaseCmp( h1->fullname, h2->fullname );
}
/*******************************************************************
*******************************************************************/
REGF_NK_REC* regfio_write_key( REGF_FILE *file, const char *name,
struct regval_ctr *values, struct regsubkey_ctr *subkeys,
SEC_DESC *sec_desc, REGF_NK_REC *parent )
{
REGF_NK_REC *nk;
REGF_HBIN *vlist_hbin = NULL;
uint32 size;
if ( !(nk = TALLOC_ZERO_P( file->mem_ctx, REGF_NK_REC )) )
return NULL;
memcpy( nk->header, "nk", REC_HDR_SIZE );
if ( !parent )
nk->key_type = NK_TYPE_ROOTKEY;
else
nk->key_type = NK_TYPE_NORMALKEY;
/* store the parent offset (or -1 if a the root key */
nk->parent_off = parent ? (parent->hbin_off + parent->hbin->file_off - REGF_BLOCKSIZE - HBIN_HDR_SIZE ) : REGF_OFFSET_NONE;
/* no classname currently */
nk->classname_off = REGF_OFFSET_NONE;
nk->classname = NULL;
nk->keyname = talloc_strdup( file->mem_ctx, name );
/* current modification time */
unix_to_nt_time( &nk->mtime, time(NULL) );
/* allocate the record on disk */
size = nk_record_data_size( nk );
nk->rec_size = ( size - 1 ) ^ 0XFFFFFFFF;
if ((nk->hbin = find_free_space( file, size )) == NULL) {
return NULL;
}
nk->hbin_off = prs_offset( &nk->hbin->ps );
/* Update the hash record in the parent */
if ( parent ) {
REGF_HASH_REC *hash = &parent->subkeys.hashes[parent->subkey_index];
hash->nk_off = prs_offset( &nk->hbin->ps ) + nk->hbin->first_hbin_off - HBIN_HDR_SIZE;
memcpy( hash->keycheck, name, sizeof(uint32) );
hash->fullname = talloc_strdup( file->mem_ctx, name );
parent->subkey_index++;
/* sort the list by keyname */
qsort( parent->subkeys.hashes, parent->subkey_index, sizeof(REGF_HASH_REC), QSORT_CAST hashrec_cmp );
if ( !hbin_prs_lf_records( "lf_rec", parent->subkeys.hbin, 0, parent ) )
return False;
}
/* write the security descriptor */
nk->sk_off = REGF_OFFSET_NONE;
if ( sec_desc ) {
uint32 sk_size = sk_record_data_size( sec_desc );
REGF_HBIN *sk_hbin;
/* search for it in the existing list of sd's */
if ( (nk->sec_desc = find_sk_record_by_sec_desc( file, sec_desc )) == NULL ) {
/* not found so add it to the list */
if (!(sk_hbin = find_free_space( file, sk_size ))) {
return NULL;
}
if ( !(nk->sec_desc = TALLOC_ZERO_P( file->mem_ctx, REGF_SK_REC )) )
return NULL;
/* now we have to store the security descriptor in the list and
update the offsets */
memcpy( nk->sec_desc->header, "sk", REC_HDR_SIZE );
nk->sec_desc->hbin = sk_hbin;
nk->sec_desc->hbin_off = prs_offset( &sk_hbin->ps );
nk->sec_desc->sk_off = prs_offset( &sk_hbin->ps ) + sk_hbin->first_hbin_off - HBIN_HDR_SIZE;
nk->sec_desc->rec_size = (sk_size-1) ^ 0xFFFFFFFF;
nk->sec_desc->sec_desc = sec_desc;
nk->sec_desc->ref_count = 0;
/* size value must be self-inclusive */
nk->sec_desc->size = ndr_size_security_descriptor(sec_desc, NULL, 0)
+ sizeof(uint32);
DLIST_ADD_END( file->sec_desc_list, nk->sec_desc, REGF_SK_REC *);
/* update the offsets for us and the previous sd in the list.
if this is the first record, then just set the next and prev
offsets to ourself. */
if ( nk->sec_desc->prev ) {
REGF_SK_REC *prev = nk->sec_desc->prev;
nk->sec_desc->prev_sk_off = prev->hbin_off + prev->hbin->first_hbin_off - HBIN_HDR_SIZE;
prev->next_sk_off = nk->sec_desc->sk_off;
/* the end must loop around to the front */
nk->sec_desc->next_sk_off = file->sec_desc_list->sk_off;
/* and first must loop around to the tail */
file->sec_desc_list->prev_sk_off = nk->sec_desc->sk_off;
} else {
nk->sec_desc->prev_sk_off = nk->sec_desc->sk_off;
nk->sec_desc->next_sk_off = nk->sec_desc->sk_off;
}
}
/* bump the reference count +1 */
nk->sk_off = nk->sec_desc->sk_off;
nk->sec_desc->ref_count++;
}
/* write the subkeys */
nk->subkeys_off = REGF_OFFSET_NONE;
if ( (nk->num_subkeys = regsubkey_ctr_numkeys( subkeys )) != 0 ) {
uint32 lf_size = lf_record_data_size( nk->num_subkeys );
uint32 namelen;
int i;
if (!(nk->subkeys.hbin = find_free_space( file, lf_size ))) {
return NULL;
}
nk->subkeys.hbin_off = prs_offset( &nk->subkeys.hbin->ps );
nk->subkeys.rec_size = (lf_size-1) ^ 0xFFFFFFFF;
nk->subkeys_off = prs_offset( &nk->subkeys.hbin->ps ) + nk->subkeys.hbin->first_hbin_off - HBIN_HDR_SIZE;
memcpy( nk->subkeys.header, "lf", REC_HDR_SIZE );
nk->subkeys.num_keys = nk->num_subkeys;
if (nk->subkeys.num_keys) {
if ( !(nk->subkeys.hashes = TALLOC_ZERO_ARRAY( file->mem_ctx, REGF_HASH_REC, nk->subkeys.num_keys )) )
return NULL;
} else {
nk->subkeys.hashes = NULL;
}
nk->subkey_index = 0;
/* update the max_bytes_subkey{name,classname} fields */
for ( i=0; i<nk->num_subkeys; i++ ) {
namelen = strlen( regsubkey_ctr_specific_key(subkeys, i) );
if ( namelen*2 > nk->max_bytes_subkeyname )
nk->max_bytes_subkeyname = namelen * 2;
}
}
/* write the values */
nk->values_off = REGF_OFFSET_NONE;
if ( (nk->num_values = regval_ctr_numvals( values )) != 0 ) {
uint32 vlist_size = ( ( nk->num_values * sizeof(uint32) ) & 0xfffffff8 ) + 8;
int i;
if (!(vlist_hbin = find_free_space( file, vlist_size ))) {
return NULL;
}
nk->values_off = prs_offset( &vlist_hbin->ps ) + vlist_hbin->first_hbin_off - HBIN_HDR_SIZE;
if (nk->num_values) {
if ( !(nk->values = TALLOC_ARRAY( file->mem_ctx, REGF_VK_REC, nk->num_values )) )
return NULL;
} else {
nk->values = NULL;
}
/* create the vk records */
for ( i=0; i<nk->num_values; i++ ) {
uint32 vk_size, namelen, datalen;
struct regval_blob *r;
r = regval_ctr_specific_value( values, i );
create_vk_record( file, &nk->values[i], r );
vk_size = vk_record_data_size( &nk->values[i] );
nk->values[i].hbin = find_free_space( file, vk_size );
nk->values[i].hbin_off = prs_offset( &nk->values[i].hbin->ps );
nk->values[i].rec_size = ( vk_size - 1 ) ^ 0xFFFFFFFF;
nk->values[i].rec_off = prs_offset( &nk->values[i].hbin->ps )
+ nk->values[i].hbin->first_hbin_off
- HBIN_HDR_SIZE;
/* update the max bytes fields if necessary */
namelen = strlen( regval_name(r) );
if ( namelen*2 > nk->max_bytes_valuename )
nk->max_bytes_valuename = namelen * 2;
datalen = regval_size( r );
if ( datalen > nk->max_bytes_value )
nk->max_bytes_value = datalen;
}
}
/* stream the records */
prs_set_offset( &nk->hbin->ps, nk->hbin_off );
if ( !prs_nk_rec( "nk_rec", &nk->hbin->ps, 0, nk ) )
return False;
if ( nk->num_values ) {
if ( !hbin_prs_vk_records( "vk_records", vlist_hbin, 0, nk, file ) )
return False;
}
regfio_flush( file );
return nk;
}