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extract.c
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extract.c
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/* extract.c
* Copyright (c) 2005, Nick Mikus
* This file contains the file specific functions used to extract
* data from an image.
*
* Each has a similar structure
* f_state *s: state of the program.
* c_offset: offset that the header was recorded within the current chunk
* foundat: The location the header was "foundat"
* buflen: How much buffer is left until the end of the current chunk
* needle: Search specification
* f_offset: Offset that the current chunk is located within the file
*/
#include "main.h"
#include "extract.h"
#include "ole.h"
extern unsigned char buffer[OUR_BLK_SIZE];
extern int verbose;
extern int dir_count;
extern int block_list[OUR_BLK_SIZE / sizeof(int)];
extern int *FAT;
extern char *extract_name;
extern int extract;
extern int FATblk;
extern int highblk;
/********************************************************************************
*Function: extract_zip
*Description: Given that we have a ZIP header jump through the file headers
until we reach the EOF.
*Return: A pointer to where the EOF of the ZIP is in the current buffer
**********************************************************************************/
unsigned char *extract_zip(f_state *s, u_int64_t c_offset, unsigned char *foundat, u_int64_t buflen,
s_spec *needle, u_int64_t f_offset, char *type)
{
unsigned char *currentpos = NULL;
unsigned char *buf = foundat;
unsigned short comment_length = 0;
unsigned char *extractbuf = NULL;
struct zipLocalFileHeader localFH;
u_int64_t bytes_to_search = 50 * KILOBYTE;
u_int64_t file_size = 0;
int oOffice = FALSE;
int office2007 = FALSE;
char comment[32];
localFH.genFlag=0;
localFH.compressed=0;
localFH.uncompressed =0;
if (buflen < 100)
return NULL;
if (strncmp((char *) &foundat[30], "mimetypeapplication/vnd.sun.xml.", 32) == 0)
{
oOffice = TRUE;
if (strncmp((char *) &foundat[62], "calc", 4) == 0)
{
needle->suffix = "sxc";
}
else if (strncmp((char *) &foundat[62], "impress", 7) == 0)
{
needle->suffix = "sxi";
}
else if (strncmp((char *) &foundat[62], "writer", 6) == 0)
{
needle->suffix = "sxw";
}
else
{
sprintf(comment, " (OpenOffice Doc?)");
strcat(needle->comment, comment);
needle->suffix = "sx";
}
}
else
{
needle->suffix = "zip";
}
while (1) //Jump through each local file header until the central directory structure is reached, much faster than searching
{
if (foundat[2] == '\x03' && foundat[3] == '\x04') //Verfiy we are looking at a local file header//
{
localFH.compression=htos(&foundat[8], FOREMOST_LITTLE_ENDIAN);
localFH.compressed = htoi(&foundat[18], FOREMOST_LITTLE_ENDIAN);
localFH.uncompressed = htoi(&foundat[22], FOREMOST_LITTLE_ENDIAN);
localFH.filename_length = htos(&foundat[26], FOREMOST_LITTLE_ENDIAN);
localFH.extra_length = htos(&foundat[28], FOREMOST_LITTLE_ENDIAN);;
localFH.genFlag = htos(&foundat[6], FOREMOST_LITTLE_ENDIAN);
// Sanity checking
if (localFH.compressed > needle->max_len)
return foundat + needle->header_len;
if (localFH.filename_length > 100)
return foundat + needle->header_len;
//Check if we should grab more from the disk
if (localFH.compressed + 30 > buflen - (foundat - buf))
{
return NULL;
}
//Size of the local file header data structure
foundat += 30;
if (strcmp(needle->suffix,"zip")==0)
{
if (strncmp((char *)foundat, "content.xml", 11) == 0 && strcmp(needle->suffix,"zip")==0)
{
oOffice = TRUE;
sprintf(comment, " (OpenOffice Doc?)");
strcat(needle->comment, comment);
needle->suffix = "sx";
}
else if (strstr((char *)foundat, ".class") || strstr((char *)foundat, ".jar") ||
strstr((char *)foundat, ".java"))
{
needle->suffix = "jar";
}
else if(strncmp((char *)foundat, "[Content_Types].xml",19)==0)
{
office2007=TRUE;
}
else if(strncmp((char *)foundat, "ppt/slides",10)==0 && office2007==TRUE)
{
needle->suffix = "pptx";
}
else if(strncmp((char *)foundat, "word/document.xml",17)==0 && office2007==TRUE)
{
needle->suffix = "docx";
}
else if(strncmp((char *)foundat, "xl/workbook.xml",15)==0 && office2007==TRUE)
{
needle->suffix = "xlsx";
}
else
{
printf("foundat=%s\n",foundat);
}
}
foundat += localFH.compressed;
foundat += localFH.filename_length;
foundat += localFH.extra_length;
if (localFH.genFlag == 8)
{
#ifdef DEBUG
fprintf(stderr,"We have extra stuff!!!");
#endif
}
if(localFH.genFlag & 1<<3 && localFH.uncompressed==0 && localFH.compressed==0 )
{
#ifdef DEBUG
fprintf(stderr,"No data to jmp Just search for the next file Footer (localFH.genFlag:=%d)\n",localFH.genFlag);
#endif
break;
}
#ifdef DEBUG
printf("localFH.compressed:=%d localFH.uncompressed:=%d\n\t jumping %d bytes filename=%d bytes",
localFH.compressed,
localFH.uncompressed,localFH.filename_length+localFH.compressed+localFH.extra_length,localFH.filename_length);
printx(foundat, 0, 16);
#endif
}
else if (oOffice && localFH.genFlag == 8)
{
break;
}
else
{
break;
}
}//end while loop
if (oOffice)
{
//We have an OO doc how long should we search for?
bytes_to_search = 1 * MEGABYTE;
}
else if (localFH.genFlag & 1<<3 && localFH.uncompressed==0 && localFH.compressed==0 )
{
bytes_to_search = needle->max_len;
}
else
{
bytes_to_search = (buflen < (foundat - buf) ? buflen : buflen - (foundat - buf));
}
//Make sure we are not searching more than what he have
if (buflen <= (foundat - buf)) {
#ifdef DEBUG
printf("avoided bug in extract_zip!\n");
#endif
bytes_to_search = 0;
} else {
if (buflen - (foundat - buf) < bytes_to_search)
{
bytes_to_search = buflen - (foundat - buf);
}
}
currentpos = foundat;
#ifdef DEBUG
printf("Search for the footer bytes_to_search:=%lld buflen:=%lld\n", bytes_to_search, buflen);
#endif
foundat = bm_search(needle->footer,
needle->footer_len,
foundat,
bytes_to_search,
needle->footer_bm_table,
needle->case_sen,
SEARCHTYPE_FORWARD);
#ifdef DEBUG
printf("Search complete \n");
#endif
if (foundat) /*Found the end of the central directory structure, determine the exact length and extract*/
{
/*Jump to the comment length field*/
#ifdef DEBUG
printf("distance searched:=%lu\n", foundat - currentpos);
#endif
if (buflen - (foundat - buf) > 20)
{
foundat += 20;
}
else
{
return NULL;
}
comment_length = htos(foundat, FOREMOST_LITTLE_ENDIAN);
foundat += comment_length + 2;
file_size = (foundat - buf);
#ifdef DEBUG
printf("File size %lld\n", file_size);
printf("Found a %s type:=%s\n", needle->suffix, type);
#endif
extractbuf = buf;
if (strcmp(type,"all")==0 || strcmp(type,needle->suffix)==0)
{
#ifdef DEBUG
printf("Writing a %s to disk\n", needle->suffix);
#endif
write_to_disk(s, needle, file_size, extractbuf, c_offset + f_offset);
}
#ifdef DEBUG
printf("Found a %s\n", needle->suffix);
#endif
return foundat-2;
}
if (bytes_to_search > buflen - (currentpos - buf))
return NULL;
#ifdef DEBUG
printf("I give up \n");
#endif
return currentpos;
}
/********************************************************************************
*Function: extract_pdf
*Description: Given that we have a PDF header check if it is Linearized, if so
grab the file size and we are done, else search for the %%EOF
*Return: A pointer to where the EOF of the PDF is in the current buffer
**********************************************************************************/
unsigned char *extract_pdf(f_state *s, u_int64_t c_offset, unsigned char *foundat, u_int64_t buflen,
s_spec *needle, u_int64_t f_offset)
{
unsigned char *currentpos = NULL;
unsigned char *buf = foundat;
unsigned char *extractbuf = NULL;
unsigned char *tempsize;
unsigned long int size = 0;
int file_size = 0;
unsigned char *header = foundat;
int bytes_to_search = 0;
char comment[32];
foundat += needle->header_len; /* Jump Past the %PDF HEADER */
currentpos = foundat;
#ifdef DEBUG
printf("PDF SEARCH\n");
#endif
/*Determine when we have searched enough*/
if (buflen >= needle->max_len)
{
bytes_to_search = needle->max_len;
}
else
{
bytes_to_search = buflen;
}
/*Check if the buffer is less than 100 bytes, if so search what we have*/
if (buflen < 512)
return NULL;
else
{
currentpos = foundat;
/*Check for .obj in the first 100 bytes*/
foundat = bm_search(needle->markerlist[1].value,
needle->markerlist[1].len,
foundat,
100,
needle->markerlist[1].marker_bm_table,
needle->case_sen,
SEARCHTYPE_FORWARD);
if (!foundat)
{
#ifdef DEBUG
printf("no obj found\n");
#endif
return currentpos + 100;
}
foundat = currentpos;
/*Search for "./L " to see if the file is linearized*/
foundat = bm_search(needle->markerlist[2].value,
needle->markerlist[2].len,
foundat,
512,
needle->markerlist[2].marker_bm_table,
needle->case_sen,
SEARCHTYPE_FORWARD);
if (foundat)
{
foundat = bm_search(needle->markerlist[0].value,
needle->markerlist[0].len,
foundat,
512,
needle->markerlist[0].marker_bm_table,
needle->case_sen,
SEARCHTYPE_FORWARD);
}
else
{
#ifdef DEBUG
printf("not linearized\n");
#endif
}
}
if (foundat) /*The PDF is linearized extract the size and we are done*/
{
sprintf(comment, " (PDF is Linearized)");
strcat(needle->comment, comment);
foundat += needle->markerlist[0].len;
tempsize = (unsigned char *)malloc(8 * sizeof(char));
tempsize = memcpy(tempsize, foundat, 8);
size = atoi((char *)tempsize);
free(tempsize);
if (size <= 0)
return foundat;
if (size > buflen)
{
if (size > needle->max_len)
return foundat;
else
return NULL;
}
header += size;
foundat = header;
foundat -= needle->footer_len;
/*Jump back 10 bytes and see if we actually have and EOF there*/
foundat -= 10;
currentpos = foundat;
foundat = bm_search(needle->footer,
needle->footer_len,
foundat,
needle->footer_len + 9,
needle->footer_bm_table,
needle->case_sen,
SEARCHTYPE_FORWARD);
if (foundat) /*There is an valid EOF at the end, Write to disk*/
{
foundat += needle->footer_len + 1;
file_size = (foundat - buf);
extractbuf = buf;
write_to_disk(s, needle, file_size, extractbuf, c_offset + f_offset);
return foundat;
}
return NULL;
}
else /*Search for Linearized PDF failed, just look for %%EOF */
{
#ifdef DEBUG
printf(" Linearized search failed, searching %d bytes, buflen:=%lld\n",
bytes_to_search,
buflen - (header - buf));
#endif
foundat = currentpos;
foundat = bm_search(needle->footer,
needle->footer_len,
foundat,
bytes_to_search,
needle->footer_bm_table,
needle->case_sen,
SEARCHTYPE_FORWARD);
if (foundat) /*Write the non-linearized PDF to disk*/
{
foundat += needle->footer_len + 1;
file_size = (foundat - buf);
extractbuf = buf;
write_to_disk(s, needle, file_size, extractbuf, c_offset + f_offset);
return foundat;
}
return NULL;
}
}
/********************************************************************************
*Function: extract_cpp
*Description: Use keywords to attempt to find C/C++ source code
*Return: A pointer to where the EOF of the CPP file is in the current buffer
**********************************************************************************/
unsigned char *extract_cpp(f_state *s, u_int64_t c_offset, unsigned char *foundat, u_int64_t buflen,
s_spec *needle, u_int64_t f_offset)
{
unsigned char *header = foundat;
unsigned char *buf = foundat;
unsigned char *extractbuf = NULL;
int end = 0;
int start = 0;
int i = 0;
int marker_score = 0;
int ok = FALSE;
int file_size = 0;
unsigned char *footer = NULL;
/*Search for a " or a < within 20 bytes of a #include statement*/
for (i = 0; i < 20; i++)
{
if (foundat[i] == '\x22' || foundat[i] == '\x3C')
{
ok = TRUE;
}
}
if (!ok)
return foundat + needle->header_len;
/*Keep running through the buffer until an non printable character is reached*/
while (isprint(foundat[end]) || foundat[end] == '\x0a' || foundat[end] == '\x09')
{
end++;
}
foundat += end - 1;
footer = foundat;
if (end < 50)
return foundat;
/*Now lets go the other way and grab all those comments at the begining of the file*/
while (isprint(buf[start]) || buf[start] == '\x0a' || buf[start] == '\x09')
{
start--;
}
header = &buf[start + 1];
file_size = (footer - header);
foundat = header;
/*Now we have an ascii file to look for keywords in*/
foundat = bm_search(needle->footer,
needle->footer_len,
header,
file_size,
needle->footer_bm_table,
FALSE,
SEARCHTYPE_FORWARD);
if (foundat)
marker_score += 1;
foundat = header;
foundat = bm_search(needle->markerlist[0].value,
needle->markerlist[0].len,
header,
file_size,
needle->markerlist[0].marker_bm_table,
1,
SEARCHTYPE_FORWARD);
if (foundat)
marker_score += 1;
if (marker_score == 0)
return foundat;
if (foundat)
{
extractbuf = buf;
write_to_disk(s, needle, file_size, extractbuf, c_offset + f_offset + start + 1);
return footer;
}
return NULL;
}
/********************************************************************************
*Function: extract_htm
*Description: Given that we have a HTM header
search for the file EOF and check that the bytes areound the header are ascii
*Return: A pointer to where the EOF of the HTM is in the current buffer
**********************************************************************************/
unsigned char *extract_htm(f_state *s, u_int64_t c_offset, unsigned char *foundat, u_int64_t buflen,
s_spec *needle, u_int64_t f_offset)
{
unsigned char *buf = foundat;
unsigned char *extractbuf = NULL;
unsigned char *currentpos = NULL;
int bytes_to_search = 0;
int i = 0;
int file_size = 0;
/*Jump past the <HTML tag*/
foundat += needle->header_len;
/*Check the first 16 bytes to see if they are ASCII*/
for (i = 0; i < 16; i++)
{
if (!isprint(foundat[i]) && foundat[i] != '\x0a' && foundat[i] != '\x09')
{
return foundat + 16;
}
}
/*Determine if the buffer is large enough to encompass a reasonable search*/
if (buflen < needle->max_len)
{
bytes_to_search = buflen - (foundat - buf);
}
else
{
bytes_to_search = needle->max_len;
}
/*Store the current position and search for the HTML> tag*/
currentpos = foundat;
foundat = bm_search(needle->footer,
needle->footer_len,
foundat,
bytes_to_search,
needle->footer_bm_table,
needle->case_sen,
SEARCHTYPE_FORWARD);
if (foundat) //Found the footer, write to disk
{
file_size = (foundat - buf) + needle->footer_len;
extractbuf = buf;
write_to_disk(s, needle, file_size, extractbuf, c_offset + f_offset);
foundat += needle->footer_len;
return foundat;
}
else
{
return NULL;
}
}
/********************************************************************************
*Function: validOLEheader
*Description: run various tests aginst an OLE-HEADER to determine whether or not
it is valid.
*Return: TRUE/FALSE
**********************************************************************************/
int valid_ole_header(struct OLE_HDR *h)
{
if (htos((unsigned char *) &h->reserved, FOREMOST_LITTLE_ENDIAN) != 0 ||
htoi((unsigned char *) &h->reserved1, FOREMOST_LITTLE_ENDIAN) != 0 ||
htoi((unsigned char *) &h->reserved2, FOREMOST_LITTLE_ENDIAN) != 0)
{
return FALSE;
}
/*The minimum sector shift is usually 2^6(64) and the uSectorShift is 2^9(512))*/
if (htos((unsigned char *) &h->uMiniSectorShift, FOREMOST_LITTLE_ENDIAN) != 6 ||
htos((unsigned char *) &h->uSectorShift, FOREMOST_LITTLE_ENDIAN) != 9 ||
htoi((unsigned char *) &h->dir_flag, FOREMOST_LITTLE_ENDIAN) < 0)
{
return FALSE;
}
/*Sanity Checking*/
if (htoi((unsigned char *) &h->num_FAT_blocks, FOREMOST_LITTLE_ENDIAN) <= 0 ||
htoi((unsigned char *) &h->num_FAT_blocks, FOREMOST_LITTLE_ENDIAN) > 100)
{
return FALSE;
}
if (htoi((unsigned char *) &h->num_extra_FAT_blocks, FOREMOST_LITTLE_ENDIAN) < 0 ||
htoi((unsigned char *) &h->num_extra_FAT_blocks, FOREMOST_LITTLE_ENDIAN) > 100)
{
return FALSE;
}
return TRUE;
}
/********************************************************************************
*Function:checkOleName
*Description: Determine what type of file is stored in the OLE format based on the
names of DIRENT in the FAT table.
*Return: A char* consisting of the suffix of the appropriate file.
**********************************************************************************/
char *check_ole_name(char *name)
{
if (strstr(name, "WordDocument"))
{
return "doc";
}
else if (strstr(name, "Worksheet") || strstr(name, "Book") || strstr(name, "Workbook"))
{
return "xls";
}
else if (strstr(name, "Power"))
{
return "ppt";
}
else if (strstr(name, "Access") || strstr(name, "AccessObjSiteData"))
{
return "mbd";
}
else if (strstr(name, "Visio"))
{
return "vis";
}
else if (strstr(name, "Sfx"))
{
return "sdw";
}
else
{
return NULL;
}
return NULL;
}
int adjust_bs(int size, int bs)
{
int rem = (size % bs);
if (rem == 0)
{
return size;
}
#ifdef DEBUG
printf("\tnew size:=%d\n", size + (bs - rem));
#endif
return (size + (bs - rem));
}
/********************************************************************************
*Function: extract_ole
*Description: Given that we have a OLE header, jump through the OLE structure and
determine what type of file it is.
*Return: A pointer to where the EOF of the OLE is in the current buffer
**********************************************************************************/
unsigned char *extract_ole(f_state *s, u_int64_t c_offset, unsigned char *foundat, u_int64_t buflen,
s_spec *needle, u_int64_t f_offset, char *type)
{
unsigned char *buf = foundat;
unsigned char *extractbuf = NULL;
char *temp = NULL;
char *suffix = "ole";
int totalsize = 0;
int extrasize = 0;
int oldblk = 0;
int i, j;
int size = 0;
int blknum = 0;
int validblk = 512;
int file_size = 0;
int num_extra_FAT_blocks = 0;
unsigned char *htoi_c = NULL;
int extra_dir_blocks = 0;
int num_FAT_blocks = 0;
int next_FAT_block = 0;
unsigned char *p;
int fib = 1024;
struct OLE_HDR *h = NULL;
int result = 0;
int highblock = 0;
unsigned long miniSectorCutoff = 0;
unsigned long csectMiniFat = 0;
/*Deal with globals defined in the OLE API, ugly*/
if (dirlist != NULL)
free(dirlist);
if (FAT != NULL)
free(FAT);
init_ole();
if (buflen < validblk)
validblk = buflen;
h = (struct OLE_HDR *)foundat; /*cast the header block to point at foundat*/
#ifdef DEBUG
dump_header(h);
#endif
num_FAT_blocks = htoi((unsigned char *) &h->num_FAT_blocks, FOREMOST_LITTLE_ENDIAN);
if (!valid_ole_header(h))
return (buf + validblk);
miniSectorCutoff = htoi((unsigned char *) &h->miniSectorCutoff, FOREMOST_LITTLE_ENDIAN);
csectMiniFat = htoi((unsigned char *) &h->csectMiniFat, FOREMOST_LITTLE_ENDIAN);
next_FAT_block = htoi((unsigned char *) &h->FAT_next_block, FOREMOST_LITTLE_ENDIAN);
num_extra_FAT_blocks = htoi((unsigned char *) &h->num_extra_FAT_blocks, FOREMOST_LITTLE_ENDIAN);
FAT = (int *)Malloc(OUR_BLK_SIZE * (num_FAT_blocks + 1));
p = (unsigned char *)FAT;
memcpy(p, &h[1], OUR_BLK_SIZE - FAT_START);
if (next_FAT_block > 0)
{
p += (OUR_BLK_SIZE - FAT_START);
blknum = next_FAT_block;
for (i = 0; i < num_extra_FAT_blocks; i++)
{
if (!get_block(buf, blknum, p, buflen))
return buf + validblk;
validblk = (blknum + 1) * OUR_BLK_SIZE;
p += OUR_BLK_SIZE - sizeof(int);
blknum = htoi(p, FOREMOST_LITTLE_ENDIAN);
}
}
blknum = htoi((unsigned char *) &h->root_start_block, FOREMOST_LITTLE_ENDIAN);
if(blknum < 0)
{
return buf + 10;
}
highblock = htoi((unsigned char *) &h->dir_flag, FOREMOST_LITTLE_ENDIAN);
#ifdef DEBUG
printf("getting dir block\n");
#endif
//if(!get_dir_block (buf, blknum, buflen)) return buf+validblk;
if (!get_block(buf, blknum, buffer, buflen))
return buf + validblk; /*GET DIR BLOCK*/
#ifdef DEBUG
printf("done getting dir block\n");
#endif
validblk = (blknum + 1) * OUR_BLK_SIZE;
while (blknum != END_OF_CHAIN)
{
#ifdef DEBUG
printf("finding dir info extra_dir_blks:=%d\n", extra_dir_blocks);
#endif
if (extra_dir_blocks > 300)
return buf + validblk;
/**PROBLEMA**/
#ifdef DEBUG
printf("***blknum:=%d FATblk:=%d ourblksize=%d\n", blknum, FATblk,OUR_BLK_SIZE);
#endif
oldblk = blknum;
htoi_c = (unsigned char *) &FAT[blknum / (OUR_BLK_SIZE / sizeof(int))];
FATblk = htoi(htoi_c, FOREMOST_LITTLE_ENDIAN);
#ifdef DEBUG
printf("***blknum:=%d FATblk:=%d\n", blknum, FATblk);
#endif
if (!get_FAT_block(buf, blknum, block_list, buflen))
return buf + validblk;
blknum = htoi((unsigned char *) &block_list[blknum % 128], FOREMOST_LITTLE_ENDIAN);
#ifdef DEBUG
printf("**blknum:=%d FATblk:=%d\n", blknum, FATblk);
#endif
if (blknum == END_OF_CHAIN || oldblk == blknum)
{
#ifdef DEBUG
printf("EOC\n");
#endif
break;
}
extra_dir_blocks++;
result = get_dir_block(buf, blknum, buflen);
if (result == SHORT_BLOCK)
{
#ifdef DEBUG
printf("SHORT BLK\n");
#endif
break;
}
else if (!result)
return buf + validblk;
}
#ifdef DEBUG
printf("DONE WITH WHILE\n");
#endif
blknum = htoi((unsigned char *) &h->root_start_block, FOREMOST_LITTLE_ENDIAN);
size = OUR_BLK_SIZE * (extra_dir_blocks + 1);
dirlist = (struct DIRECTORY *)Malloc(size);
memset(dirlist, 0, size);
if (!get_block(buf, blknum, buffer, buflen))
return buf + validblk; /*GET DIR BLOCK*/
if (!get_dir_info(buffer))
{
return foundat + validblk;
}
for (i = 0; i < extra_dir_blocks; i++)
{
if (!get_FAT_block(buf, blknum, block_list, buflen))
return buf + validblk;
blknum = htoi((unsigned char *) &block_list[blknum % 128], FOREMOST_LITTLE_ENDIAN);
if (blknum == END_OF_CHAIN)
break;
#ifdef DEBUG
printf("getting dir blk blknum=%d\n", blknum);
#endif
if (!get_block(buf, blknum, buffer, buflen))
return buf + validblk; /*GET DIR BLOCK*/
if (!get_dir_info(buffer))
{
return buf + validblk;
}
}
#ifdef DEBUG
printf("dir count is %d\n", i);
#endif
for (dl = dirlist, i = 0; i < dir_count; i++, dl++)
{
memset(buffer, ' ', 75);
j = htoi((unsigned char *) &dl->level, FOREMOST_LITTLE_ENDIAN) * 4;
sprintf((char *) &buffer[j], "%-s", dl->name);
j = strlen((char *)buffer);
if (dl->name[0] == '@')
return foundat + validblk;
if (dl->type == STREAM)
{
buffer[j] = ' ';
sprintf((char *) &buffer[60], "%8d\n", dl->size);
if (temp == NULL) /*check if we have alread defined the type*/
{
temp = check_ole_name(dl->name);
if (temp)
suffix = temp;
}
if (dl->size > miniSectorCutoff)
{
totalsize += adjust_bs(dl->size, 512);
}
else
{
totalsize += adjust_bs(dl->size, 64);
}
#ifdef DEBUG
fprintf(stdout, buffer);
#endif
}
else
{
sprintf((char *) &buffer[j], "\n");
#ifdef DEBUG
printf("\tnot stream data \n");
fprintf(stdout, buffer);
#endif
extrasize += adjust_bs(dl->size, 512);
}
}
totalsize += fib;
#ifdef DEBUG
printf("DIR SIZE:=%d, numFATblks:=%d MiniFat:=%d\n",
adjust_bs(((dir_count) * 128), 512),
(num_FAT_blocks * 512),
adjust_bs((64 * csectMiniFat), 512));
#endif
totalsize += adjust_bs(((dir_count) * 128), 512);
totalsize += (num_FAT_blocks * 512);
totalsize += adjust_bs((64 * csectMiniFat), 512);
if ((highblk + 5) > highblock && highblk > 0)
{
highblock = highblk + 5;
}
highblock = highblock * 512;
#ifdef DEBUG
printf("\t highblock:=%d\n", highblock);
#endif
if (highblock > totalsize)
{
#ifdef DEBUG
printf(" Total size:=%d a difference of %lld\n", totalsize, buflen - totalsize);
printf(" Extra size:=%d \n", extrasize);
printf(" Highblock is greater than totalsize\n");
#endif
totalsize = highblock;
}
totalsize = adjust_bs(totalsize, 512);
#ifdef DEBUG
printf(" Total size:=%d a difference of %lld\n", totalsize, buflen - totalsize);
printf(" Extra size:=%d \n", extrasize);
#endif
if (buflen < totalsize)
{
#ifdef DEBUG
printf(" ***Error not enough left in the buffer left:=%lld needed=%d***\n",
buflen,
totalsize);
#endif
totalsize = buflen;
}
foundat = buf;
highblock -= 5 * 512;
if (highblock > 0 && highblock < buflen)
{
foundat += highblock;
}
else
{
foundat += totalsize;
}
/*Return to the highest blknum read in the file, that way we don't miss files that are close*/
file_size = totalsize;
extractbuf = buf;
if (suffix)
needle->suffix = suffix;
if (!strstr(needle->suffix, type) && strcmp(type,"all")!=0)
{
return foundat;