[Python] 파이썬 CAPTCHA 만들기

[Python] 파이썬 CAPTCHA 만들기

개발을 하다 보면 Captcha를 적용해야 하는 경우가 있다. 

물론 Google reCaptcha 혹은 Naver Captcha와 같이 이미 제공을 하는 곳이 많이 있다. 

• https://developers.google.com/recaptcha
• https://www.ncloud.com/product/applicationService/captcha

reCAPTCHA  |  Google for Developers

NAVER CLOUD PLATFORM

하지만 제공하는 것을 모든 환경에서 사용을 할 수 없기 때문에 간단히 파이썬을 이용하여 Captcha를 만들어 보고자 한다.

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1. captcha 라이브러리 설치

우선 사용을 위해서는 captcha 라이브러리를 설치해야 한다.

설치 방법은 pip 명령어를 통해서 아래와 같이 쉽게 설치가 가능하다.

• $ pip install captcha

# pip를 이용한 captcha 라이브러리 설치

$ pip install captcha
Collecting captcha
  Using cached captcha-0.5.0-py3-none-any.whl.metadata (2.1 kB)
Requirement already satisfied: Pillow in /Users/happylie/.pyenv/versions/3.11.0/envs/venv.python_ex/lib/python3.11/site-packages (from captcha) (9.3.0)
Using cached captcha-0.5.0-py3-none-any.whl (102 kB)
Installing collected packages: captcha
Successfully installed captcha-0.5.0

$ pip freeze | grep captcha
captcha==0.5.0

captcha

2. captcha 라이브러리 이용하기

이제 captcha 라이브러리를 설치했으면 파이썬 코드를 이용하여 음성(Audio) captcha와 이미지(Image) captcha를 만들어 보도록 하자.

2.1 음성(Audio) captcha 만들기

이제 첫 번째로 간단하게 음성(Audio) captcha를 만들어 보도록 하자.

음성의 경우는 숫자만 가능하니 참고하도록 하자.

# Python Example Code
# Audio captcha

# -*- coding: utf-8 -*-
from captcha.audio import AudioCaptcha

audio = AudioCaptcha()

captcha_text = '1234'

audio.write(captcha_text, 'sample/1234.wav')

1234.wav

0.08MB

2.2 이미지(Image) captcha 만들기

그럼 두 번째로 간단하게 이미지(Image) captcha를 만들어 보도록 하자.

이미지 captcha의 경우 두 가지 방식으로 사용이 가능하다.

1. 이미지 파일로 바로 저장하는 방법
2. Base64를 통해서 이미지를 data로 만들어 String을 통해서 사용하는 방법

# Python Example Code
# Image captcha

# -*- coding: utf-8 -*-
import io
import base64
from captcha.image import ImageCaptcha

image = ImageCaptcha()

captcha_text = '1234'

image.write(captcha_text, 'sample/1234.png')

data = image.generate(captcha_text)
image_data_b64 = "data:image/png;base64," + base64.b64encode(io.BytesIO(data.read()).getvalue()).decode(
            "utf-8")

print(image_data_b64)



### Result ###
data:image/png;base64,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3. 기본 코드를 이용한 간단한 라이브러리 제작

아래 코드는 기본 코드를 이용해서 좀 더 쉽게 사용하기 위해서 자체적으로 작성한 코드이다.

해당 코드에 대해서 간단하게 설명을 하자면, 우선 음성(Audio) / 이미지(Image) 모두 불러서 사용할 수 있도록 되어있다. 

여기서 음성(Audio)의 경우 숫자로만 이뤄져야 음성(Audio) 파일을 만들 수 있기 때문에 random code 부분에 captcha_type을 추가해 놓았다. 

그리고 이미지(Image) captcha의 경우는 이미지 크기, 이미지에 들어가 글자의 크기를 정할 수 있도록 설정해 놓았다. 

# -*- coding: utf-8 -*-
import random
import io
import base64
import string
from captcha.image import ImageCaptcha
from captcha.audio import AudioCaptcha


def _random_code(length=8, captcha_type=None):
    """
    Random Code Generate
    :param length: Default Length 8
    :captcha_type: None, audio
    :return:
    """
    custom_punctuation = '#%&?$'
    custom_lowercase = 'abdefghjqrt'
    custom_uppercase = 'ABDEFGHJLQRT'
    custom_digits = '2345678'
    if captcha_type == 'audio':
        return "".join(random.choice(string.digits) for _ in range(length))
    allowed_code = custom_digits + custom_uppercase + custom_lowercase + custom_punctuation
    return "".join(random.choice(allowed_code) for _ in range(length))


class MakeCaptchaAudio:
    def __init__(self):
        self.audio = AudioCaptcha()
        self.captcha_text = _random_code(captcha_type="audio")
        self.ret = ""

    def set_save_audio_file(self) -> bool:
        """
        Set Captcha Audio File Save(File Type : WAV)
        :return:
        """
        try:
            self.audio.write(self.captcha_text, f'sample/output.wav')
            return True
        except Exception as err:
            return False


class MakeCaptchaImg:
    def __init__(self):
        self.width: int = 250
        self.height: int = 100
        self.font_sizes: tuple = (50, 58, 64)
        self.image = ImageCaptcha(self.width, self.height, font_sizes=self.font_sizes)
        self.audio = AudioCaptcha()
        self.captcha_text = _random_code()
        self.ret = ""

    def captcha_valid(self, text) -> bool:
        """
        Captcha Valid
        :param text:
        :return:
        """
        if self.captcha_text != text:
            return False
        return True

    def get_base64_image_data(self):
        """
        Get Captcha Base64 Image Data(File Type : PNG)
        :return:
        """
        image_data = self.image.generate(self.captcha_text)
        image_data_b64 = "data:image/png;base64," + base64.b64encode(io.BytesIO(image_data.read()).getvalue()).decode(
            "utf-8")
        return image_data_b64

    def set_save_image_file(self) -> bool:
        """
        Set Captcha Image File Save(File Type : PNG)
        :return:
        """
        try:
            self.image.write(self.captcha_text, f'sample/output.png')
            return True
        except Exception as err:
            return False


if __name__ == "__main__":
    # CAPTCHA Audio
    captcha_audio = MakeCaptchaAudio()
    print(f'CAPTCHA Text: {captcha_audio.captcha_text}')
    print(f'Save Audio: {captcha_audio.set_save_audio_file()}')

    # CAPTCHA Image
    captcha_img = MakeCaptchaImg()
    print(f'CAPTCHA Text: {captcha_img.captcha_text}')
    print(f'Base64 Image: {captcha_img.get_base64_image_data()}')
    print(f'Save Image: {captcha_img.set_save_image_file()}')
    print(f'CAPTCHA Valid: {captcha_img.captcha_valid(captcha_img.captcha_text)}')
    print(f'CAPTCHA Valid: {captcha_img.captcha_valid("1234")}')




### Result ###
CAPTCHA Text: 92992991
Save Audio: True
CAPTCHA Text: %dDg62dh
Base64 Image : data:image/png;base64,iVBOR...QmCC
Save Image: True
CAPTCHA Valid: True
CAPTCHA Valid: False

4. 예제 코드

captcha 라이브러리를 이용하여 음성(Audio) / 이미지(Image) captcha를 만들어 보는 방법을 알아보았다.

위에 나온 예제 파일은 Github에 올려놓았다. 

해당 내용에 대해서 문의가 있거나 궁금한 내용이 있다면 Github Issus 혹은 댓글로 남겨주면 최대한 빠르게 답변을 할 수 있도록 하겠다.

• https://github.com/happylie/python-example-code/tree/main/captcha_sample

GitHub - happylie/python-example-code: Python Example Code