picoGym (picoCTF) Exercise: Custom encryption

00:11:50
https://www.youtube.com/watch?v=6tEOaDMMPVs

Résumé

TLDRThe video demonstrates the reverse engineering of a custom encryption method used in a cryptography challenge. The encryption involves XOR and a key multiplication, with steps including calculating and reversing the key and semi-Cipher, to ultimately decrypt the flag. The process is detailed step-by-step, allowing viewers to follow along with writing and adjusting code in Python to achieve decryption from the given encrypted file content. Successfully decrypting the file yields a flag that is submitted as a solution to the challenge.

A retenir

  • 🔑 Understand the custom encryption using XOR and key multiplication.
  • 📝 Work backwards from an encrypted string to decrypt it.
  • 🔄 Reverse engineer encryption scripts to understand the encryption process.
  • 🔐 Calculate the key correctly as it is pivotal for decryption.
  • 🔧 Use Python to code and solve encryption challenges.
  • 📄 Document each step to ensure clarity and troubleshoot issues.
  • 🧩 Managing key permutations is key to finding the solution.
  • 🎯 Identify known patterns like flag formats to assist in decryption.
  • ✅ Successfully decrypt the flag using the provided methods.
  • 📊 Analyze encryption and decryption functions for potential insights.

Chronologie

  • 00:00:00 - 00:05:00

    In this video, the host introduces a cryptography challenge focused on custom encryption. They explain they have downloaded relevant files and begin to analyze the custom encryption script. Key variables and functions are outlined, such as a key calculation using a custom algorithm involving dynamic XOR encryption and modulus functions. The first task is to create a script that will reverse these encryption steps, starting with decrypting a cipher using pre-defined algorithms and making use of the static values a, b, and defined functions.

  • 00:05:00 - 00:11:50

    Continuing with the decryption process, the speaker explains reversing the encrypt function by calculating a correct key using preparations and deciphering the cipher by dividing values by constants to extract characters from the semi-cipher text. They demonstrate how reverse engineering the XOR operation helps derive the plaintext from this semi-cipher. Through testing and adjustments, they visualize and correct the permutation of the key to finally decrypt the message, revealing the flag. The speaker concludes by wrapping up the video, urging viewers to subscribe, and engage with their community on various platforms.

Carte mentale

Mind Map

Questions fréquemment posées

  • What encryption process is used in this video?

    The encryption involves a custom process with a semi-Cipher using XOR encryption and multiplying by a key.

  • How is the decryption process approached in this video?

    The decryption process is approached by reverse engineering the encryption process, starting with deciphering the key and working backwards through the steps.

  • What tools or coding practices are used to solve the challenge?

    The speaker uses Python, works with functions like XOR encryption, and works step-by-step comparing old and new scripts to decrypt the code.

  • What is the importance of calculating the key in the decryption process?

    Calculating the key is crucial because it is used to reverse the XOR encryption and the multiplier applied during encryption to reveal the plain text.

  • How are the flag and key variables managed in the decryption script?

    The flag and key variables are extracted and manipulated by comparing results and permutations to identify the correct decrypted string.

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Sous-titres
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Défilement automatique:
  • 00:00:02
    [Music]
  • 00:00:15
    hello world welcome back to another Pico
  • 00:00:17
    Jim workout exercise video in this video
  • 00:00:20
    we'll be walking through the
  • 00:00:21
    cryptography challenge custom encryption
  • 00:00:24
    let's get into it can you get sense of
  • 00:00:26
    this code file and write the function
  • 00:00:28
    that will decode the given encrypted
  • 00:00:30
    file content find the encrypted file
  • 00:00:32
    here flag info and code file might be
  • 00:00:35
    good to analyze and get the flag all
  • 00:00:37
    right so I already have those files
  • 00:00:39
    downloaded over here so let's go ahead
  • 00:00:40
    and open those up in code and see what
  • 00:00:42
    we're dealing
  • 00:00:44
    with all right so first things first we
  • 00:00:47
    have our encrypted flag here with some
  • 00:00:49
    other assigned variables and we have our
  • 00:00:52
    custom encryption script right here so
  • 00:00:54
    let's quickly go through this custom
  • 00:00:56
    encryption script and kind of see how it
  • 00:00:57
    works so if we scroll to the bottom we
  • 00:01:00
    start with Main and we have a message
  • 00:01:02
    that's being passed in as an argument to
  • 00:01:04
    the script and that message is getting
  • 00:01:06
    passed into this test function along
  • 00:01:08
    with a string that says tro if we scroll
  • 00:01:12
    up a little bit we'll see this test
  • 00:01:13
    function and we can see that the message
  • 00:01:16
    is the plain text and too is our text
  • 00:01:19
    key then we have PNG which are static
  • 00:01:23
    values being defined those are getting
  • 00:01:24
    checked to see if they're not Prime and
  • 00:01:27
    then we have a and b being defined as
  • 00:01:30
    random inss of PNG G which they give us
  • 00:01:34
    over here so we don't have to worry
  • 00:01:35
    about those and then we have a u and a v
  • 00:01:37
    variable being calculated by this
  • 00:01:39
    generator function which if we scroll up
  • 00:01:41
    here is just a simple pal modulus
  • 00:01:44
    function so that's that and then we have
  • 00:01:46
    a key and a b key also calculated by the
  • 00:01:49
    generator function using those unu andv
  • 00:01:51
    values calculated from the previous
  • 00:01:54
    generator calls here and a shared key is
  • 00:01:57
    being assigned to none and then it's
  • 00:01:59
    comparing key equal to b key shared key
  • 00:02:01
    equal to key so key shared key b key
  • 00:02:05
    those all look like they are going to be
  • 00:02:08
    equal to each other so whatever key is
  • 00:02:12
    which is being generated here is going
  • 00:02:13
    to be whatever that key value is that
  • 00:02:16
    we're going to need probably later then
  • 00:02:18
    we have a semi Cipher which does a
  • 00:02:21
    dynamic exor encrypt and if we scroll up
  • 00:02:24
    we see that function here and then you
  • 00:02:26
    can see that the plain text and the text
  • 00:02:28
    key from earlier are also being passed
  • 00:02:30
    into it it's storing the key length and
  • 00:02:33
    then it's looping through the plain text
  • 00:02:35
    and then it's assigning a key character
  • 00:02:38
    to a certain position within the text
  • 00:02:40
    key so our text key doesn't remain a key
  • 00:02:44
    as it is it actually is technically
  • 00:02:46
    scrambled because it's pulling different
  • 00:02:48
    indexes from it each time this iterates
  • 00:02:51
    through the for Loop then we have an
  • 00:02:53
    encrypted character which is equal to a
  • 00:02:55
    character of the plain text exord to the
  • 00:02:59
    key character calculated before and then
  • 00:03:03
    it adds it to the overall Cipher text
  • 00:03:05
    and Returns the cipher text as our semi
  • 00:03:07
    ciper down here then an encrypt function
  • 00:03:10
    is called on the semi Cipher and the
  • 00:03:12
    shared key which once again is right
  • 00:03:16
    here and if we scroll up we'll see that
  • 00:03:18
    encrypt function here and all that's
  • 00:03:20
    doing is looping through the plain text
  • 00:03:22
    and then multiplying the character that
  • 00:03:25
    is currently on in the plane text by the
  • 00:03:28
    key that we pass in by 311 and then
  • 00:03:31
    returning that and that's what we see in
  • 00:03:33
    this encrypted flag here that's this
  • 00:03:35
    value right here a plain text message
  • 00:03:38
    was passed into the script and this is
  • 00:03:40
    what came out and this is what we have
  • 00:03:42
    to decode which is probably going to be
  • 00:03:43
    our flag now I know the challenge said
  • 00:03:46
    write the function to decode this but I
  • 00:03:48
    like to just do a whole new decrypt
  • 00:03:50
    script cuz it's just easier to look at
  • 00:03:52
    when they have a side by side and I can
  • 00:03:54
    pick and choose what I want to add and
  • 00:03:56
    remove and things like that so we're
  • 00:03:58
    just going to go ahead and create a new
  • 00:03:59
    file file here and we're going to call
  • 00:04:01
    it dec. py and I'm going to go ahead and
  • 00:04:06
    split that into another window as
  • 00:04:10
    well and we're just going to copy these
  • 00:04:13
    values from our flag encryption file
  • 00:04:17
    here into that dc. py and we're going to
  • 00:04:21
    close that since we don't need it
  • 00:04:23
    anymore and then we're going to delete
  • 00:04:25
    this and change that to an equal sign
  • 00:04:27
    and we are good to go to start
  • 00:04:30
    now to tackle these types of
  • 00:04:31
    cryptography challenges we want to work
  • 00:04:33
    backwards right we want to work in
  • 00:04:35
    Reverse of whatever was done to encrypt
  • 00:04:37
    the flag so we're going to start with
  • 00:04:39
    this encrypt function here so we need to
  • 00:04:42
    figure out what the shared key is and
  • 00:04:46
    what the semi Cipher is since we already
  • 00:04:48
    have the cipher so what should we start
  • 00:04:51
    with first well we have a and b and we
  • 00:04:53
    know a andb belong to the calculation
  • 00:04:55
    for the key here so we can start off by
  • 00:04:58
    doing a simple key calculation there so
  • 00:05:01
    let's go ahead and do that we'll need p
  • 00:05:03
    and g because that's also part of the
  • 00:05:11
    equation P = 97 G =
  • 00:05:16
    31 and we'll also need the generator
  • 00:05:19
    function because that's what's actually
  • 00:05:21
    calculating the keys we'll need
  • 00:05:32
    okay with that out of the way we need to
  • 00:05:35
    calculate u and v from these values and
  • 00:05:39
    that's very simple we just need to copy
  • 00:05:41
    and paste these in fact we don't even
  • 00:05:44
    really need U because remember the key
  • 00:05:47
    the b key and the shared key are all
  • 00:05:49
    going to share the same value so really
  • 00:05:51
    we just need V and we need the
  • 00:05:55
    key so we'll copy those and paste them
  • 00:05:59
    over here
  • 00:06:01
    here all right so now we officially have
  • 00:06:04
    our key and we're going to want to try
  • 00:06:07
    to decrypt our Cipher which is right
  • 00:06:10
    here so how are we going to go about
  • 00:06:12
    doing that well what we're going to do
  • 00:06:14
    is we're going to create a decipher
  • 00:06:19
    string and then we're going to say for C
  • 00:06:23
    like character in our Cipher from up
  • 00:06:26
    here we're going to do decipher
  • 00:06:30
    plus equals and the reverse of this
  • 00:06:33
    encryption is we need to take this value
  • 00:06:36
    or each of these values rather divide
  • 00:06:39
    them by 311 divide them by the key and
  • 00:06:41
    then that will actually give us the
  • 00:06:44
    quotient of the character for our semi
  • 00:06:47
    Cipher well each character in our semi
  • 00:06:49
    Cipher so again that's our Cipher
  • 00:06:52
    character here or number divided 311
  • 00:06:55
    divided by our key gives us the quotient
  • 00:06:57
    of a character in our Sim Cipher which
  • 00:07:00
    we need for our next step in the
  • 00:07:02
    decryption process so we will do CHR
  • 00:07:07
    right because before it does or so we
  • 00:07:09
    need to do CHR because that's the
  • 00:07:11
    opposite of
  • 00:07:12
    or and we need to do c floor divide
  • 00:07:17
    right because we don't want decimals 311
  • 00:07:20
    floor divide by the key and if you
  • 00:07:25
    calculate the key which we can actually
  • 00:07:27
    print out when we run this I believe
  • 00:07:30
    it's 12 let's go ahead and print our
  • 00:07:34
    progress so
  • 00:07:36
    far and test it
  • 00:07:47
    out that looks fantastic but as you can
  • 00:07:50
    see here that's what our key ended up
  • 00:07:52
    being it ended up being 12 so what we
  • 00:07:55
    want to do next is calculate our plain
  • 00:07:58
    text by rever engineering the dynamic
  • 00:08:01
    exor encrypt function but do we really
  • 00:08:03
    need to reverse engineer it we know how
  • 00:08:06
    exor works right you know you can exort
  • 00:08:08
    the plane text with the key and get the
  • 00:08:11
    cipher text you can exort the cipher
  • 00:08:12
    text with the key and get the plane text
  • 00:08:14
    and you can exort the cipher text with
  • 00:08:17
    the plain text to get the key so all we
  • 00:08:19
    really need to do is figure out what
  • 00:08:21
    modification was made to the actual like
  • 00:08:24
    key that was entered as part of the test
  • 00:08:27
    function down here like our actual
  • 00:08:28
    shared key in order to solve this so all
  • 00:08:31
    we have to do is well first we'll
  • 00:08:33
    actually copy the you know function over
  • 00:08:35
    so we can use
  • 00:08:37
    it and if you want to see how the key is
  • 00:08:40
    actually modified in terms of like what
  • 00:08:43
    the actual key is after it's been
  • 00:08:45
    modified all we have to do is Define
  • 00:08:50
    like a key variable that we can use to
  • 00:08:52
    track and whenever the key care is
  • 00:08:55
    calculated we'll actually add that key
  • 00:08:58
    care to our little key here and remember
  • 00:09:01
    this key that we're trying to visualize
  • 00:09:04
    here all that's going to be is a
  • 00:09:07
    different permutation of this key down
  • 00:09:10
    here so we'll do that and then at the
  • 00:09:12
    end right before it's returned we'll
  • 00:09:14
    print out K just so we can see what it
  • 00:09:17
    looks like now we need to actually call
  • 00:09:20
    this Dynamic zor encrypt and it should
  • 00:09:22
    just decrypt our Cypher Tex
  • 00:09:25
    automatically assuming we know what the
  • 00:09:27
    rearranged key is so what we can do is
  • 00:09:30
    just provided a placeholder and a print
  • 00:09:32
    statement down here which we can just
  • 00:09:34
    print out the result of that function up
  • 00:09:39
    there and we'll put our decipher in and
  • 00:09:42
    then we can just put in what we know to
  • 00:09:45
    be part of the flag we can do
  • 00:09:48
    picoctf like so we can type in part of
  • 00:09:51
    the flag format down here that we know
  • 00:09:53
    to be actually part of the flag format
  • 00:09:56
    because what it's going to do is it's
  • 00:09:57
    going to take that flag format and split
  • 00:10:00
    it across the cipher text that we're
  • 00:10:02
    passing in and we'll actually derive our
  • 00:10:05
    key from that cuz remember our key here
  • 00:10:08
    is rearranged right here so it's not
  • 00:10:11
    going to be just trdo it's going to be
  • 00:10:13
    some permutation of trdo like I said
  • 00:10:15
    before so we'll just do that and then
  • 00:10:18
    we'll go ahead and run it see what
  • 00:10:21
    happens notice how this portion of the
  • 00:10:25
    flag format that is correct actually
  • 00:10:28
    produced our proper permutation of the
  • 00:10:30
    key which is Cho in fact it's mostly
  • 00:10:33
    reversed with the U ending up at the end
  • 00:10:37
    instead of the beginning so what we're
  • 00:10:39
    going to do is we're going to copy that
  • 00:10:41
    as our key and paste it right here in
  • 00:10:44
    place of the Pico CTF flag format and
  • 00:10:47
    that's going to give us our actual
  • 00:10:49
    decreed flag when I run this code again
  • 00:10:52
    so let's go ahead and rerun
  • 00:10:56
    it and there's our flag cust D2 crop
  • 00:11:03
    t6d whatever that means there's our
  • 00:11:06
    actual repeated pattern key across the
  • 00:11:09
    entire Cipher text and that's how exor
  • 00:11:12
    works if the key doesn't match the
  • 00:11:14
    length of the cipher text it repeats it
  • 00:11:16
    up until it reaches the length of the
  • 00:11:18
    cipher text or plain text rather so
  • 00:11:21
    let's go ahead and copy
  • 00:11:24
    that paste it
  • 00:11:26
    in and submit
  • 00:11:30
    all right if you enjoyed the video drop
  • 00:11:31
    a like And subscribe to the channel to
  • 00:11:32
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  • 00:11:43
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  • 00:11:44
    section down below this is almond milk
  • 00:11:47
    thanks for watching goodbye world
Tags
  • Cryptography
  • Decryption
  • Python
  • XOR Encryption
  • Reverse Engineering
  • Custom Encryption
  • Programming Challenge
  • Flag Decryption