def find(self, keyword):
        """
        执行搜索操作
        :param keyword: 待搜索的关键词
        :return:
        """

        def save_result():
            try:
                if not os.path.isdir(self.proj_dir_path + 'search_results'):
                    os.mkdir(self.proj_dir_path + 'search_results')

                DIR = self.proj_dir_path + 'search_results/' + keyword
                if not os.path.isdir(DIR):
                    os.mkdir(DIR)
                    DIR += '/'
                    for index in res:
                        tmp = download_manager.download_from_server_given_client_and_decrypt(self, index)
                        printer.print_info(tmp[0])  # 打印出相应的标题
                        with open(DIR + tmp[0], 'w', encoding='UTF-8') as f:
                            f.write(tmp[1])
                printer.print_info('搜索结果已经保存在目录 ' + DIR + ' 中。')
            except OSError:
                printer.print_error('由于系统限制,指定的关键词无法搜索!')

        def search_action():
            return search_manager.search_once_from_server(self, keyword)

        if get_status_by_bits(self.status_bits) != 1:
            printer.print_error('操作失败,理由: ')
            self.status()
            return
        res = search_action()
        printer.print_info('搜索结果如下:')
        save_result()
    def generate_keys(self):
        """
        生成密钥(k1,k2,k3,k4)
        :return:
        """

        def generate_keys_action():
            k1, k2, k3, k4 = self.gen()
            print('========THE KEY========')
            print('{}\n{}\n{}\n{}'.format(base64.b64encode(k1).decode(encoding='UTF-8'),
                                          base64.b64encode(k2).decode(encoding='UTF-8'),
                                          base64.b64encode(k3).decode(encoding='UTF-8'),
                                          base64.b64encode(k4).decode(encoding='UTF-8')))
            print('========THE KEY========')
            # 保存密钥
            self.save_keys()
            printer.print_success('密钥文件已保存至本地.')

        if 2 <= get_status_by_bits(self.status_bits) < 4 or get_status_by_bits(self.status_bits) == 7:  # 前面的步骤没有完成时
            printer.print_error('操作失败,理由: ')
            self.status()
            return
        if get_status_by_bits(self.status_bits) == 6 or get_status_by_bits(self.status_bits) == 1:
            # 如果之前已经有了密文集或者已经上传到了服务器
            # 需要告知用户谨慎生成密钥文件
            printer.print_warning('已发现使用旧密钥加密后的密文集和索引,重新生成密钥需要重新自行执行enc和upload方法进行同步更新.\n'
                                  '是否需要继续? (Y/N)')
            ok = input()
            if ok == 'Y' or ok == 'y':
                generate_keys_action()
            else:
                printer.print_info('程序没有进行任何操作,退出...')

        generate_keys_action()
        def save_result():
            try:
                if not os.path.isdir(self.proj_dir_path + 'search_results'):
                    os.mkdir(self.proj_dir_path + 'search_results')

                DIR = self.proj_dir_path + 'search_results/' + keyword
                if not os.path.isdir(DIR):
                    os.mkdir(DIR)
                    DIR += '/'
                    for index in res:
                        tmp = download_manager.download_from_server_given_client_and_decrypt(self, index)
                        printer.print_info(tmp[0])  # 打印出相应的标题
                        with open(DIR + tmp[0], 'w', encoding='UTF-8') as f:
                            f.write(tmp[1])
                printer.print_info('搜索结果已经保存在目录 ' + DIR + ' 中。')
            except OSError:
                printer.print_error('由于系统限制,指定的关键词无法搜索!')
    def init(self):
        """
        初始化proj,即新建目录,并在该目录下新建明文和密文目录
        :return: None
        """

        def init_action():
            if os.path.isdir(self.proj_name):  # 如果已经存在项目目录,就需要递归删除该目录
                # os.removedirs(self.proj_name)
                shutil.rmtree(self.proj_name)
            os.mkdir(self.proj_name)
            os.mkdir(self.proj_dir_path + 'plain_text')
            os.mkdir(self.proj_dir_path + 'cipher_text')

            # 接下来,还要保存配置文件
            with open(self.proj_dir_path + 'config', 'wb') as f:
                pickle.dump([self.k, self.l, self.s, self.file_cnt], f)

        if os.path.isdir(self.proj_name):
            printer.print_warning("发现已经存在同名目录,是否需要清除该目录下所有内容? (Y/N)")
            ok = input()
            if ok == 'Y' or ok == 'y':
                printer.print_info("正在清空并初始化中...")
                init_action()
                printer.print_success("清空完成!")
            else:
                printer.print_info("用户已拒绝操作,程序退出...")
                return
        else:
            printer.print_info("正在初始化项目中...")
            init_action()
            printer.print_success("初始化项目完成!")
 def status(self):
     """
     获取当前项目的状态
     2: 项目不存在 --> 目录不存在
     3: 明文集不存在 --> 如果项目目录和子目录plain_text都为空 --> 既没有明文,又没有密钥文件 --> & 01010 == 0
     4: 未执行gen()方法 --> 不存在密钥文件 --> & 00010 == 0
     5: 未执行enc()方法 --> 存在明文集和密钥文件,但不存在密文集和加密后的索引文件 --> & 01110 == 01010 -> 10
     6: 未执行上传操作 --> 如果存在密文集 --> & 00100 == 0
     7: 哈希不一致
     1: 成功
     :return: None
     """
     status_details_dict = {
         1: "当前项目已经可以进行加密搜索。",
         2: "项目不存在。",
         3: "明文集不存在。",
         4: "该项目未执行gen方法生成密钥。",
         5: "该项目未执行enc方法进行加密操作。",
         6: "该项目已经在本地部署完毕,但仍未上传到服务器。",
         7: "该项目似乎在服务器遭到破坏,请重新生成"
     }
     status_id = get_status_by_bits(self.status_bits)
     printer.print_info(status_details_dict[status_id])
 def encrypt_action():
     printer.print_info('检查明文目录下文件名格式是否符合要求...')
     if not scanner.check_filename_format(self.proj_dir_path):
         printer.print_info('不符合文件命名格式,请问是否需要执行自动格式化文件名操作? (Y/N)')
         ok = input()
         if ok == 'y' or ok == 'Y':
             scanner.reformat_filename(self.proj_dir_path)
             printer.print_success('格式化文件名成功!')
         else:
             printer.print_error('软件终止...请自行更改文件名以满足要求!')
     else:
         printer.print_success('检查完毕,文件名符合要求!')
     printer.print_info('开始加密索引和文档...')
     self.enc()
     self.save_encrypted_index()  # 记得保存索引
     printer.print_success('加密索引和文档成功')
Esempio n. 7
0
def get_file(printer, adb, su, source, destination):
    tmp_dir = check_tmp(printer, adb, su)
    file_name = os.path.basename(source)
    tmp_dest = "%s/%s" % (tmp_dir, file_name)
    ''' Copy the file to the TEMP folder '''
    out = adb.shell_command(su + "'cat %s >%s'" % (source, tmp_dest))

    if ((out != None) and (out.find("Read-only") != -1)):
        printer.print_err(
            "The /tmp directory is readonly! Let's use /data/local/tmp")
        tmp_dir = "/data/local/tmp"
        out = adb.shell_command(su + "'cat %s >%s'" % (source, tmp_dest))
        if (out != None):
            printer.print_err("Unknown error: %s!" % (out))
            return -1
    ''' Change the permissions to be able to read the file'''
    out = adb.shell_command(su + "chmod 666 %s" % (tmp_dest))
    if (out != None):
        printer.print_err("Unknown error: %s!" % (out))
        printer.print_info(
            "Cleaning up! Please check the %s folder. Unsuccessull cleanup weakens the security of the phone!!!!"
            % tmp_dir)
        out = adb.shell_command(su + "rm %s" % tmp_dest)
        if (out == None):
            printer.print_ok("Clean up - Done")
        return -1
    ''' Download the file from the TEMP folder'''
    pull = adb.get_remote_file("%s" % tmp_dest, "%s" % destination)
    if (pull.find("bytes") == -1):
        printer.print_err("Could not download the file: %s" % pull)
        printer.print_info(
            "Cleaning up! Please check the %s folder. Unsuccessull cleanup weakens the security of the phone!!!!"
            % tmp_dir)
        out = adb.shell_command(su + "rm %s" % tmp_dest)
        if (out == None):
            printer.print_ok("Clean up - Done")
        return -1
    '''self.printer.print_info(pull.rstrip("\n"))'''
    ''' cleanup'''
    printer.print_info(
        "Cleaning up! Please check the %s folder. Unsuccessull cleanup weakens the security of the phone!!!!"
        % tmp_dir)
    out = adb.shell_command(su + "rm %s" % tmp_dest)
    if (out == None):
        printer.print_ok("Clean up - Done")
    return pull
Esempio n. 8
0
def get_file(printer, adb, su, source, destination):  
   tmp_dir = check_tmp(printer,adb,su)
   file_name = os.path.basename(source)
   tmp_dest = "%s/%s" % (tmp_dir,file_name)

   ''' Copy the file to the TEMP folder '''
   out=adb.shell_command(su+"'cat %s >%s'" % (source,tmp_dest))

   if( (out!=None) and (out.find("Read-only")!=-1) ):
      printer.print_err("The /tmp directory is readonly! Let's use /data/local/tmp")
      tmp_dir="/data/local/tmp"
      out=adb.shell_command(su+"'cat %s >%s'" % (source,tmp_dest))
      if(out!=None): 
         printer.print_err("Unknown error: %s!" % (out))
         return -1
   
   
   ''' Change the permissions to be able to read the file'''
   out=adb.shell_command(su+"chmod 666 %s" % (tmp_dest))
   if(out!=None):
      printer.print_err("Unknown error: %s!" % (out))
      printer.print_info("Cleaning up! Please check the %s folder. Unsuccessull cleanup weakens the security of the phone!!!!" % tmp_dir)
      out=adb.shell_command(su+"rm %s" % tmp_dest)
      if (out==None):
         printer.print_ok("Clean up - Done")
      return -1

   ''' Download the file from the TEMP folder'''
   pull=adb.get_remote_file("%s" % tmp_dest,"%s" % destination)
   if(pull.find("bytes")==-1):
      printer.print_err("Could not download the file: %s" % pull)
      printer.print_info("Cleaning up! Please check the %s folder. Unsuccessull cleanup weakens the security of the phone!!!!" % tmp_dir)
      out=adb.shell_command(su+"rm %s" % tmp_dest)
      if (out==None):
         printer.print_ok("Clean up - Done")
      return -1   
      
   '''self.printer.print_info(pull.rstrip("\n"))'''

   ''' cleanup'''
   printer.print_info("Cleaning up! Please check the %s folder. Unsuccessull cleanup weakens the security of the phone!!!!" % tmp_dir)
   out=adb.shell_command(su+"rm %s" % tmp_dest)
   if (out==None):
         printer.print_ok("Clean up - Done")
   return pull      
    def enc(self):
        def initialization():
            # step1. scan D and generate the set of distinct keywords δ(D)
            self.distinct_word_set = scanner.generate_the_set_of_distinct_keywords_for_docs(self.proj_dir_path)[1]
            # step2. for all w ∈ δ(D), generate D(w)
            self.D_ = scanner.generate_Dw_for_each_keyword(self.proj_dir_path)
            # step3. initialize a global counter ctr = 1 ---> see __init__()

        def building_the_array_A():
            # step4. for 1<=i<=|δ(D)|, build a list Li with nodes Ni,j and store it in array A as follows:
            for i in range(1, len(self.distinct_word_set) + 1):
                keyword = self.distinct_word_set[i - 1]  # 在这里注意论文中的i和程序中的i不同,应当减一
                Ki = [None] * (len(self.D_[keyword]) + 1)
                Ni = [None] * (len(self.D_[keyword]) + 1)
                # sample a key Ki,0 <-$- {0, 1}^k
                Ki[0] = Random.new().read(int(self.k / 8))
                self.k0_for_each_keyword[keyword] = Ki[0]
                # for 1<=j<=|D(wi)|-1
                j = 0
                for j in range(1, len(self.D_[keyword])):
                    # let id(Di,j) be the jth identifier in D(wi)
                    id_Dij = self.D_[keyword][j - 1]  # todo
                    # generate a key Ki,j <- SKE1.Gen(1^k)
                    Ki[j] = Random.new().read(int(self.k / 8))
                    # if j == 1:
                    #    self.k0_for_each_keyword[keyword] = Ki[j]
                    # Ni[j] = str(id_Dij) + "|||" + str(Ki[j]) + "|||" + self.mu(Ki[j - 1], Ni[j])
                    Ni[j] = id_Dij.to_bytes(self.file_cnt_byte, byteorder="big") + Ki[j] + self.mu(self.k1, num2byte(
                        self.ctr + 1, int(self.s / 8)))
                    index = self.mu(self.k1, num2byte(self.ctr, int(self.s / 8)))
                    if j == 1:
                        self.addrA[keyword] = index  # 保存头节点的地址到dict里面去
                    index = int.from_bytes(index, byteorder="big")
                    self.A[index] = self.SKEEnc(Ki[j - 1], Ni[j])

                    if self.entry_size_of_A == -1:
                        self.entry_size_of_A = len(self.A[index])

                    self.ctr += 1
                # for the last node of Li
                # set the address of the next node to NULL: Ni,|D(wi)| = <id(Di,|D(wi)|) || 0^k || NULL>
                j += 1  # ...
                id_Dij = self.D_[keyword][len(self.D_[keyword]) - 1]
                Ni[len(self.D_[keyword])] = id_Dij.to_bytes(self.file_cnt_byte, byteorder="big") + b"\x00" * int(
                    self.k / 8) + b"\x00" * int(math.ceil(self.s / 8))  # todo
                index = self.mu(self.k1, num2byte(self.ctr, int(self.s / 8)))

                if j == 1:
                    self.addrA[keyword] = index  # 保存头节点的地址到dict里面去
                    # self.k0_for_each_keyword[keyword] = Ki[j]

                index = int.from_bytes(index, byteorder="big")
                self.A[index] = self.SKEEnc(Ki[j - 1], Ni[len(self.D_[keyword])])

                # encrypt the node Ni,|D(wi)| under the key Ki,|D(wi)-1| and store it in A
                self.ctr += 1

            # step5. set the remaining s - s' entries of A to random values of the same size
            # as the existing s' entries of A
            for i in range(len(self.A)):
                if self.A[i] is None:
                    self.A[i] = Random.new().read(self.entry_size_of_A)

        def building_the_look_up_table_T():
            size = -1  # size为look-up table 中元素的长度,用于第7个步骤

            # step6. for all wi ∈ δ(D), set T[π_K3(wi)] = <addr_A(N_i,1 || K_i,0)> ⊕ f_K2(wi)
            for w in self.distinct_word_set:
                index = self.pi(self.k3, str2byte(w))
                index = int.from_bytes(index, byteorder="big")
                self.T[index] = self.xor(self.addrA[w] + self.k0_for_each_keyword[w],
                                         self.f(self.k2, str2byte(w)))
                if size == -1:
                    size = len(self.T[index])

            # step7. if |δ(D)| < |△|, then set the remaining |△| - |δ(D)| entries of T to random values of the
            # same size as the existing |δ(D)| entries of T
            for i in range(2 ** self.l):
                if self.T[i] is None:
                    self.T[i] = Random.new().read(size)

        def enc_docs():
            # step8. for 1 <= i <= n, let ci <- SKE2.Enc_K4(Di)
            DIR = 'plain_text'
            file_count = len([name for name in os.listdir(DIR) if os.path.isfile(os.path.join(DIR, name))])
            for i in range(file_count):
                self.enc_doc(i, self.k4)

        printer.print_info('创建索引中...')
        initialization()

        printer.print_info('加密索引中...')
        building_the_array_A()
        building_the_look_up_table_T()

        printer.print_info('加密文档中...')
        enc_docs()
        printer.print_success('已就绪.')
        # step9. output
        return self.A, self.T