Exemplo n.º 1
0
    def hide_file(self, hfile, image, param = {}):
        hf = None
        dirs1 = self.fs.get_list_of_files(FLAG_DIRECTORY|FLAG_REGULAR)
        dirs2 = self.fs.get_list_of_files(FLAG_DIRECTORY|FLAG_SYSTEM)
        dirs = dirs1+[dirs2[0]]
        try:
            newdir = param["directory"]
            internalpath = newdir+"/"+os.path.basename(hfile.name)
            targetfile = self.fs.fs_mountpoint + internalpath
            hf = internalpath
        except KeyError:
            try:
                dpr = choice(dirs)
                if dpr.filename != "/.":
                    targetdir=dpr.filename
                else: 
                    targetdir=""
                
                internalpath = targetdir+"/"+os.path.basename(hfile.name)
                targetfile = self.fs.fs_mountpoint + internalpath
                hf = internalpath
            
            except IndexError:
                raise ForensicError("No directory for hiding")
        finally:
            if self.fs.mount_image() != 0:
                raise ForensicError("Mount failed")
            dpath = os.path.dirname(targetfile)
            if not os.path.exists(dpath):
                try:
                    os.makedirs(dpath)
                except IOError:
                    raise ForensicError("Unable to create directory %s" % dpath)
        try:
            tfile = open(targetfile, "w")
            tfile.write(hfile.read())
            tfile.close()

        except IOError:
            errlog("Unable to write")
            try:
                tfile.close()
            except IOError:
                pass
            self.fs.dismount_image()
            raise ForensicError("Unable to write")
        finally:
            self.fs.dismount_image()
        
        return dict(instruction=hf,path=internalpath,newfile=True)
Exemplo n.º 2
0
    def hide_file(self, hfile, image, param={}):
        files = self.fs.get_list_of_files(FLAG_REGULAR)
        hr = None
        try:
            itr = 0
            while True:
                c = choice(files)
                itr = itr + 1
                if image.check_trivial_usage_status(c.filename) == False:
                    break
                if itr > 20:
                    raise ForensicError("Cannot find unused trivial files")
            chosenfile = c.filename
        except IndexError:
            errlog("No files to target")
            raise ForensicError("no files to target")

        if self.fs.mount_image() != 0:
            raise ForensicError("Mount failed")

        targetfile = self.fs.fs_mountpoint + chosenfile
        try:
            tfile = open(targetfile, "a")
            tfile.write(hfile.read())
            tfile.close()
            try:
                result_file = hfile.name.rsplit("/", 1)[1]
            except IndexError:
                result_file = hfile.name
            hr = chosenfile + "+" + result_file
        except IOError:
            errlog("Unable to write")
            try:
                tfile.close()
            except IOError:
                pass
            self.fs.dismount_image()
            raise ForensicError("Unable to write")
        finally:
            self.fs.dismount_image()
        if chosenfile.find("/./") == 0:
            chosenfile = chosenfile[2:]

        try:
            if param["delete"] == "True":
                return dict(instruction=hr + " DELETED",
                            path=chosenfile,
                            todelete=[targetfile])
        except KeyError:
            return dict(instruction=hr, path=chosenfile)
Exemplo n.º 3
0
 def delete_container(self):
     try:
         a=check_output([self.chelper.binary, "lxc", "lxc-destroy"], 
                        shell=False)
     except CalledProcessError as e:
        print e 
        raise ForensicError("delete_container")
Exemplo n.º 4
0
    def fat_vbr_init(self, vbr):

        self.f_sectorsize, = struct.unpack("<H", vbr[11:13])
        self.f_clustersize = self.f_sectorsize * struct.unpack("B", vbr[13])[0]
        self.f_reserved, = struct.unpack("<H", vbr[14:16])
        self.f_numberoffats, = struct.unpack("B", vbr[16])
        self.f_rootentries, = struct.unpack("<H", vbr[17:19])
        _small_sector, = struct.unpack("<H", vbr[19:21])
        _large_sector, = struct.unpack("<I", vbr[32:36])
        self.f_numofsectors = _small_sector if _small_sector > 0 else _large_sector
        _small_fat, = struct.unpack("<H", vbr[22:24])
        _large_fat, = struct.unpack("<I", vbr[36:40])
        self.f_fatsize = _small_fat if _small_fat > 0 else _large_fat
        self.f_rootstart = self.f_reserved + self.f_numberoffats * self.f_fatsize
        self.f_datastart = self.f_rootstart + (self.f_rootentries *
                                               32) / self.f_sectorsize
        self.f_slack = []
        self.f_filelist = []
        self.f_entrylist = []
        self.f_numofclusters = self.f_numofsectors / struct.unpack(
            "B", vbr[13])[0]
        fstype_string, = struct.unpack("5s", vbr[54:59])
        if fstype_string == "FAT12":
            self.fs_fstype = "FAT12"
        if fstype_string == "FAT16":
            self.fs_fstype = "FAT16"
        if self.fs_fstype == "":
            fstype_string, = struct.unpack("5s", vbr[82:87])
            if fstype_string == "FAT32":
                self.fs_fstype = "FAT32"
            else:
                raise ForensicError("Unknown FAT FS type")
Exemplo n.º 5
0
 def send_file(self,src):
     try:
         a=check_output([self.chelper.binary, "lxc", "copy_file",src], 
                        shell=False)
     except CalledProcessError as e:
         format_exc()
         raise ForensicError("send_file")
Exemplo n.º 6
0
 def write_location(self, position, data):
     try:
         wh = open(self.fs_filename, "r+b")
         wh.seek(position)
         wh.write(data)
         wh.close()
     except IOError:
         raise ForensicError("Cannot write to image")
Exemplo n.º 7
0
    def prepare_container(self):
        try:
            a=check_output([self.chelper.binary, "lxc", "lxc-destroy"], 
                           shell=False)
            a=check_output([self.chelper.binary, "lxc", "lxc-create"], 
                           shell=False)
            sleep (3)
            a=check_output([self.chelper.binary, "lxc", "lxc-attach", "nowait", "silent",
                            "Xvfb", ":0", "-screen", "0", "1024x768x24"], 
                           shell=False)
            sleep (3)
        except CalledProcessError as e:
            print e
            raise ForensicError("exec_file")

        except CalledProcessError as e:
            print e
            raise ForensicError("prepare_container")
Exemplo n.º 8
0
 def find_file_by_path(self, path):
     if len(path) > 2:
         if path[:2] == "//":
             path = path[1:]
     for f in self.f_entrylist:
         s = f.get_file_name()
         if s == path:
             return f
     emessage = "File not found: " + path
     raise ForensicError(emessage)
Exemplo n.º 9
0
 def fs_finalise(self):
     pass
     try:
         rmft = self.f_mft[0].mft_data(None, 1024 * 5, 1024)
         wloc = self.f_clustersize * self.f_mft2 + 1024 * 5
         """ $MftMirr has root directory entry if cluster size over 4096. """
         if self.f_clustersize > 4096:
             self.write_location(wloc, rmft)
     except ForensicError:
         raise ForensicError("Unable to fix $MftMirr")
Exemplo n.º 10
0
    def hide_file(self, hfile, image, param={}):
        hf = None
        dirs1 = self.fs.get_list_of_files(FLAG_DIRECTORY | FLAG_REGULAR)
        dirs2 = self.fs.get_list_of_files(FLAG_DIRECTORY | FLAG_SYSTEM)
        dirs = dirs1 + [dirs2[0]]
        try:
            givendir = param["directory"]
            internalpath = givendir + "/" + os.path.basename(hfile.name)
            targetfile = self.fs.fs_mountpoint + internalpath
            hf = internalpath
        except KeyError:
            try:
                dpr = choice(dirs)
                if dpr.filename != "/.":
                    targetdir = dpr.filename
                else:
                    targetdir = ""
                internalpath = targetdir + "/" + os.path.basename(hfile.name)
                targetfile = self.fs.fs_mountpoint + internalpath
                hf = internalpath

            except IndexError:
                raise ForensicError("No directory for hiding")

        try:
            if self.fs.mount_image() != 0:
                raise ForensicError("Mount failed")

            tf = open(targetfile, "w")
            tf.write(hfile.read())
            tf.close()
            #os.remove(targetfile)
            if self.fs.dismount_image() != 0:
                raise ForensicError("Dismount failed")

        except IOError:
            errlog("cannot write file")
            raise ForensicError("Cannot write file")
        if internalpath.find("/./") == 0:
            internalpath = internalpath[2:]
        return dict(instruction=hf, todelete=[targetfile])
Exemplo n.º 11
0
 def init_fat(self, clusters):
     self.ftb = []
     self.maxclus = clusters - 1
     ctmp = 0
     for ctmp in range(0, clusters):
         cv = self.get_cluster_value(ctmp)
         if cv == -1:
             print ctmp
             raise ForensicError("Cluster out of bounds")
         else:
             self.ftb.append(cv)
     pass
Exemplo n.º 12
0
    def get_surface_status(self, candidate, datasize):
        numofclusters = self.f_size / (self.f_clustersize /
                                       self.f_sectorsize) - 1
        required = int(datasize / self.f_clustersize) + 1
        if candidate < 0 or candidate > numofclusters - required - 1:
            print candidate, datasize, numofclusters, required
            raise ForensicError("get_cluster_status: this should not happen")

        all_free = True
        for i in range(candidate, candidate + required):
            if self.get_cluster_status(i) == 1:
                all_free = False
        return all_free
Exemplo n.º 13
0
    def hide_file(self, hfile, image, param={}):
        mark_used = False
        try:
            if param["mark_used"] == "True":
                mark_used = True
        except KeyError:
            pass
        try:
            buf = hfile.read()
        except IOError:
            raise ForensicError("cannot read secret file")
        """ Locate enough unallocated space """
        spc = self.fs.locate_unallocated_space(len(buf))
        if spc == -1:
            raise ForensicError("Not enough unallcoated space")

        self.fs.write_location(spc, buf)
        for c in xrange(int(spc / self.fs.f_clustersize),
                        int((spc + len(buf)) / self.fs.f_clustersize)):
            self.fs.set_cluster_status(c, 1, mark_used)

        hf = "location: " + str(spc) + ",length: " + str(len(buf))
        return dict(instruction=hf)
Exemplo n.º 14
0
    def hide_file(self, hfile, image, param = {}):
        slack = self.fs.get_file_slack()
        hf = ""
        if slack == None:
            errlog("Not enough slack space")
            raise ForensicError("Not enough slack space")
        available_slack = 0
        for i in slack:
            if i[2] == 0:
                available_slack = available_slack + i[1]
        try:
            buf = hfile.read()
        except IOError:
            raise ForensicError("cannot read secret file")

        if available_slack < len(buf):
            raise ForensicError("Not enough slack")
        bytes_written = 0
        bytes_remaining = len(buf)
        for i in slack:
            if i[2] != 0:
                continue
            if bytes_remaining <= i[1]:
                self.fs.write_location(i[0],buf[bytes_written:])
                hf = hf+","+str(i[0])+":"+str(bytes_remaining)
                self.fs.register_used_file_slack(i[0],bytes_remaining)
                if hf.find(",") == 0:
                    hf = hf[1:]
                return dict(instruction=hf)
            self.fs.write_location(i[0],buf[bytes_written:bytes_written+i[1]])
            self.fs.register_used_file_slack(i[0], i[1])
            hf = hf+","+str(i[0])+":"+str(i[1])   
            bytes_written += i[1] 
            bytes_remaining -= i[1]           
        """ this should never be reached """

        raise ForensicError ("This should not happen")
Exemplo n.º 15
0
    def hide_file(self,hfile,image,param = {}):
        if self.fs.fs_fstype != "ntfs":
            raise ForensicError("Alternate data streams work only on NTFS")
        files = self.fs.get_list_of_files(FLAG_REGULAR)
        stream_name = "ads"
        hr = None

        """ if stream name has been provided, use it, otherwise default to ads"""
        try:
            stream_name = param["streamname"]
        except KeyError:
            pass
        try:
            itr = 0
            while True:
                c = choice(files)
                itr = itr + 1
                if image.check_trivial_usage_status(c.filename) == False:
                    break
                if itr > 20:
                    raise ForensicError("Cannot find unused trivial files")
        except IndexError:
            raise ForensicError("No regular files for ADS")
        targetfile = self.fs.fs_mountpoint + c.filename + ":" + stream_name


        if self.fs.mount_image() != 0:
            raise ForensicError("Cannot mount image")

        try:
            wf = open(targetfile,"w")
            buf = hfile.read()
            wf.write(buf)
            wf.close()

            hr = c.filename+":"+stream_name
        except IOError:
            try:
                wf.close()
            except IOError:
                pass
            finally:
                raise ForensicError("Cannot write to file")

            
    
        if self.fs.dismount_image() != 0:
            raise ForensicError("Cannot dismount image")
        rp = c.filename
        if rp.find("/./") == 0:
            rp = rp[2:]  
        if hr.find("/./") == 0:
            hr = hr[2:]
        return dict(instruction=hr,path=rp)
Exemplo n.º 16
0
    def find_file_by_path(self, name):
        """ Non-deleted file """
        for fkey in self.fs_filelist.keys():
            if self.fs_filelist[fkey].get_file_name() == name:
                return self.fs_filelist[fkey].get_link()
        """ Deleted file """
        """ Try to find the corresponding MFT record. 
        pathlist returns "", first, second, etc
        """
        #print >>sys.stderr, "looking for:",name
        try:
            path, plainname = name.rsplit("/", 1)
            pathlist = path.split("/")
            currdir = 5
            for p in pathlist[1:]:
                #print >>sys.stderr, "path:",p
                dir_contents = self._return_dir_items_by_mft(currdir)
                for i in dir_contents:
                    #print >>sys.stderr, "   ",i.get_file_name()
                    if i.get_file_name() == p:
                        currdir = i.m_mftnumber
                        break
            parent = currdir

        except ValueError:
            parent = 5
            plainname = name
            #print >>sys.stderr, "File in root:", name
        #print >>sys.stderr, "parent mft:", parent, plainname
        finaldir = self._return_dir_items_by_mft(parent)
        for f in finaldir:
            #print >>sys.stderr,"qqq:",f.get_file_name()
            if f.get_file_name() == plainname:
                return f

        #for f in self.f_mft:
        #    print >>sys.stderr,"*",f.get_file_name()
        emesg = "File not found by path:" + name
        raise ForensicError(emesg)
Exemplo n.º 17
0
    def hide_file(self, hfile, image, param={}):
        extensions = [
            "jpg", "com", "zip", "xlsx", "doc", "xls", "exe", "dll", "pdf",
            "rar"
        ]
        hf = None
        dirs1 = self.fs.get_list_of_files(FLAG_DIRECTORY | FLAG_REGULAR)
        dirs2 = self.fs.get_list_of_files(FLAG_DIRECTORY | FLAG_SYSTEM)
        """ Process all directories and the root directory """
        try:
            if param["notroot"] == "True":
                dirs = dirs1
            else:
                dirs = dirs1 + [dirs2[0]]
        except KeyError:
            dirs = dirs1 + [dirs2[0]]

        try:
            short_targetdir = choice(dirs).filename
            internalpath = short_targetdir + "/" + os.path.basename(hfile.name)
            targetfile = self.fs.fs_mountpoint + internalpath
            targetdir = self.fs.fs_mountpoint + short_targetdir

        except IndexError:
            errlog("No directory for hiding")
            raise ForensicError("No directory for hiding")
        try:
            if self.fs.mount_image() != 0:
                raise ForensicError("Mount failed")

            tf = open(targetfile, "w")
            tf.write(hfile.read())
            tf.close()
            """ find extension """
            try:
                mfn, ext = targetfile.rsplit(".", 1)
            except ValueError:
                mfn = targetfile
                ext = ""
            try:
                m2, e2 = internalpath.rsplit(".", 1)
            except ValueError:
                m2 = targetfile
            """ remove this extension from the list if it is there """
            try:
                extensions.remove(ext)
            except ValueError:
                pass
            """ count extensions in target directory """
            exti = {}
            dirt = os.listdir(targetdir)

            for f in dirt:
                try:
                    fn, e = f.rsplit(".", 1)
                    try:
                        exti[e] += 1
                    except KeyError:
                        exti[e] = 1
                except ValueError:
                    continue
            """ choose extension """
            try:
                ext_to_use = max(exti, key=exti.get)
            except ValueError:
                ext_to_use = choice(extensions)
            finally:
                if ext_to_use == ext:
                    ext_to_use = choice(extensions)
                try:
                    ext_to_use = param["use"]
                except KeyError:
                    pass
            new_filename = mfn + "." + ext_to_use
            os.rename(targetfile, new_filename)
            hf = m2 + "." + ext_to_use

            if self.fs.dismount_image() != 0:
                raise ForensicError("Dismount failed")

        except IOError:
            errlog("cannot write file")
            try:
                tf.close()
            except IOError:
                pass

            self.fs.dismount_image()
            raise ForensicError("Cannot write file")
        if m2.find("/./") == 0:
            m2 = m2[2:]
        if hf.find("/./") == 0:
            hf = hf[2:]
        try:
            if param["delete"] == "True":
                return dict(instruction=hf + " DELETED",
                            path=m2 + "." + ext_to_use,
                            todelete=[new_filename])
        except KeyError:
            return dict(instruction=hf, path=m2 + "." + ext_to_use)
Exemplo n.º 18
0
    def hide_file(self, hfile, image, param={}):
        extensions = ["jpg", "bmp", "wav", "au"]
        files = self.fs.get_list_of_files(FLAG_REGULAR)
        dirs2 = self.fs.get_list_of_files(FLAG_DIRECTORY | FLAG_SYSTEM)
        """ Process all directories and the root directory """
        try:
            passphrase = param["passphrase"]
        except KeyError:
            passphrase = "foo"

        tmpdir = "/tmp/" + str(uuid.uuid4())
        tfname = os.path.basename(hfile.name)
        tmppath = tmpdir + "/" + tfname
        try:
            os.mkdir(tmpdir)
        except:
            raise ForensicError("steganography: cannot create tmp dir")

        try:
            yfile = open(tmppath, "w")
            yfile.write(hfile.read())
            yfile.close()
        except:
            os.rmdir(tmpdir)
            raise ForensicError("steganography: cannot write to %s" % tmppath)
        """ Get a list of candidate files of suitable type """
        cfiles = image.find_trivial_files_by_ext(extensions)
        """ try to steghide """
        try:
            if self.fs.mount_image() != 0:
                os.remove(tmppath)
                os.rmdir(tmpdir)
                raise ForensicError("Steganography: mount failed")
            while True:
                c = choice(cfiles)
                if image.check_trivial_usage_status(c) == False:
                    targetfile = self.fs.fs_mountpoint + c
                    result = call([
                        "/usr/bin/steghide", "embed", "-p", passphrase, "-q",
                        "-ef", tmppath, "-cf", targetfile, "-e", "none"
                    ],
                                  shell=False)
                    if result == 0:
                        break
                cfiles.remove(c)
        except IndexError:
            os.remove(tmppath)
            os.rmdir(tmpdir)
            raise ForensicError("No suitable files for steganography")
        except OSError:
            os.remove(tmppath)
            os.rmdir(tmpdir)
            raise ForensicError("steghide does not exist")

        try:
            os.remove(tmppath)
            os.rmdir(tmpdir)
        except:
            raise ForensicError("steganography: cannot remove temp files")

        if self.fs.dismount_image() != 0:
            raise ForensicError("Steganography: dismount failed")

        instr = "%s inside %s, passphrase %s" % (tfname, c, passphrase)
        try:
            if param["delete"] == "True":
                return dict(instruction=instr + " DELETED",
                            todelete=[self.fs.fs_mountpoint + c],
                            path=c)
            else:
                return dict(instruction=instr, path=c)
        except KeyError:
            return dict(instruction=instr, path=c)
Exemplo n.º 19
0
    def hide_url(self, trivial_urls=[], secret_urls=[], amount=1,
                 trivial_searches=[], secret_searches=[], param={}):
        
        self.get_file("/tmp/forge.TMP")
        fi = open("/tmp/forge.TMP", "a")
        
        for u in trivial_urls:
            if u.num_clicks < 1:
                fi.write("b.open_page(\"%s\")" % u.url)
                fi.write("\n")
            else:
                fi.write("b.do_n_clicks(\"%s\", %d,random=False)" % 
                         (u.url, u.num_clicks))
                fi.write("\n")


        for u in secret_urls:
            if u.num_clicks < 1:
                fi.write("b.open_page(\"%s\")" % u.url)
                fi.write("\n")
            else:
                fi.write("b.do_n_clicks(\"%s\", %d,random=False)" % 
                         (u.url, u.num_clicks))
                fi.write("\n")

        fi.write ("b.close()")
        fi.write("\n")
        fi.close()

        tmpdir = "/tmp/Forge."+uuid.uuid4().hex
        try:
            os.mkdir(tmpdir)
        except:
            raise ForensicError("make temp dir")

        self.prepare_container()
        self.send_file("/tmp/forge.TMP")
        
        resl=[]
        i=0
        while i < amount:
            i += 1
            result_path = self.exec_file()
            if result_path == "None":
                resl.append(dict(status="Fail", fname=None,size=0))
            else:
                try:
                    rloc = check_output([self.chelper.binary,"lxc", "copy_result", 
                                         self.chelper.rootdir+result_path, tmpdir], 
                                        shell=False).rstrip()
                except:
                    raise ForensicError("copy results");

                try:
                    historysize = str(int(os.path.getsize(rloc)/1000000)+8)+"M"
                except:
                    raise ForensicError("Cannot stat results")

                resl.append(dict(status="OK", fname=rloc, size=historysize))
            
        self.delete_container()

        return dict(status=0,message="",results=resl,tdir=tmpdir)
Exemplo n.º 20
0
 def return_unnamed_data(self):
     try:
         return self.m_qdata[None]
     except KeyError:
         raise ForensicError("Cannot locate unnamed data attribute");
Exemplo n.º 21
0
 def query_std_time(self):
     for f in self.m_attributes:
         if isinstance(f,_NTFSAttributeStandard):
             return f.a_time
     raise ForensicError("Standard time attribute not found")
Exemplo n.º 22
0
 def query_fname_time(self):
     for f in self.m_attributes:
         if isinstance(f,_NTFSAttributeFileName):
             return f.a_time
     raise ForensicError("Filename time attribute not found")
Exemplo n.º 23
0
 def locate_unallocated_space(self, datasize):
     required = int(datasize / self.f_clustersize) + 1
     q = self.f_fat.find_consecutive_empty(required)
     if q == -1:
         raise ForensicError("Not enough unallocated space")
     return self.locate_cluster(q)
Exemplo n.º 24
0
 def get_file(self, dst):
     try:
         copyfile(self.chelper.wsrc, dst)
     except:
         raise ForensicError("get_file")