Vulnerabilities (CVE)

Filtered by vendor Tp-link Subscribe
Total 351 CVE
CVE Vendors Products Updated CVSS v2 CVSS v3
CVE-2019-13649 1 Tp-link 2 M7350, M7350 Firmware 2024-11-21 10.0 HIGH 9.8 CRITICAL
TP-Link M7350 devices through 1.0.16 Build 181220 Rel.1116n allow externalPort OS Command Injection (issue 1 of 5).
CVE-2019-13614 1 Tp-link 2 Archer C1200, Archer C1200 Firmware 2024-11-21 7.5 HIGH 9.8 CRITICAL
CMD_SET_CONFIG_COUNTRY in the TP-Link Device Debug protocol in TP-Link Archer C1200 1.0.0 Build 20180502 rel.45702 and earlier is prone to a stack-based buffer overflow, which allows a remote attacker to achieve code execution or denial of service by sending a crafted payload to the listening server.
CVE-2019-13613 1 Tp-link 2 Archer C1200, Archer C1200 Firmware 2024-11-21 7.5 HIGH 9.8 CRITICAL
CMD_FTEST_CONFIG in the TP-Link Device Debug protocol in TP-Link Wireless Router Archer Router version 1.0.0 Build 20180502 rel.45702 (EU) and earlier is prone to a stack-based buffer overflow, which allows a remote attacker to achieve code execution or denial of service by sending a crafted payload to the listening server.
CVE-2019-13268 1 Tp-link 4 Archer C2 V1, Archer C2 V1 Firmware, Archer C3200 V1 and 1 more 2024-11-21 5.8 MEDIUM 8.8 HIGH
TP-Link Archer C3200 V1 and Archer C2 V1 devices have Insufficient Compartmentalization between a host network and a guest network that are established by the same device. They forward ARP requests, which are sent as broadcast packets, between the host and the guest networks. To use this leakage as a direct covert channel, the sender can trivially issue an ARP request to an arbitrary computer on the network. (In general, some routers restrict ARP forwarding only to requests destined for the network's subnet mask, but these routers did not restrict this traffic in any way. Depending on this factor, one must use either the lower 8 bits of the IP address, or the entire 32 bits, as the data payload.)
CVE-2019-13267 1 Tp-link 4 Archer C2 V1, Archer C2 V1 Firmware, Archer C3200 V1 and 1 more 2024-11-21 5.8 MEDIUM 8.8 HIGH
TP-Link Archer C3200 V1 and Archer C2 V1 devices have Insufficient Compartmentalization between a host network and a guest network that are established by the same device. In order to transfer data from the host network to the guest network, the sender joins and then leaves an IGMP group. After it leaves, the router (following the IGMP protocol) creates an IGMP Membership Query packet with the Group IP and sends it to both the Host and the Guest networks. The data is transferred within the Group IP field, which is completely controlled by the sender.
CVE-2019-13266 1 Tp-link 4 Archer C2 V1, Archer C2 V1 Firmware, Archer C3200 V1 and 1 more 2024-11-21 5.8 MEDIUM 8.8 HIGH
TP-Link Archer C3200 V1 and Archer C2 V1 devices have Insufficient Compartmentalization between a host network and a guest network that are established by the same device. A DHCP Request is sent to the router with a certain Transaction ID field. Following the DHCP protocol, the router responds with an ACK or NAK message. Studying the NAK case revealed that the router erroneously sends the NAK to both Host and Guest networks with the same Transaction ID as found in the DHCP Request. This allows encoding of data to be sent cross-router into the 32-bit Transaction ID field.
CVE-2019-12195 1 Tp-link 2 Tl-wr840n, Tl-wr840n Firmware 2024-11-21 3.5 LOW 4.8 MEDIUM
TP-Link TL-WR840N v5 00000005 devices allow XSS via the network name. The attacker must log into the router by breaking the password and going to the admin login page by THC-HYDRA to get the network name. With an XSS payload, the network name changed automatically and the internet connection was disconnected. All the users become disconnected from the internet.
CVE-2019-12104 1 Tp-link 2 M7350, M7350 Firmware 2024-11-21 9.0 HIGH 8.8 HIGH
The web-based configuration interface of the TP-Link M7350 V3 with firmware before 190531 is affected by several post-authentication command injection vulnerabilities.
CVE-2019-12103 1 Tp-link 2 M7350, M7350 Firmware 2024-11-21 10.0 HIGH 9.8 CRITICAL
The web-based configuration interface of the TP-Link M7350 V3 with firmware before 190531 is affected by a pre-authentication command injection vulnerability.
CVE-2018-5393 1 Tp-link 1 Eap Controller 2024-11-21 10.0 HIGH 9.8 CRITICAL
The TP-LINK EAP Controller is TP-LINK's software for remotely controlling wireless access point devices. It utilizes a Java remote method invocation (RMI) service for remote control. The RMI interface does not require any authentication before use, so it lacks user authentication for RMI service commands in EAP controller versions 2.5.3 and earlier. Remote attackers can implement deserialization attacks through the RMI protocol. Successful attacks may allow a remote attacker to remotely control the target server and execute Java functions or bytecode.
CVE-2018-3951 1 Tp-link 2 Tl-r600vpn, Tl-r600vpn Firmware 2024-11-21 6.5 MEDIUM 7.2 HIGH
An exploitable remote code execution vulnerability exists in the HTTP header-parsing function of the TP-Link TL-R600VPN HTTP Server. A specially crafted HTTP request can cause a buffer overflow, resulting in remote code execution on the device. An attacker can send an authenticated HTTP request to trigger this vulnerability.
CVE-2018-3950 1 Tp-link 2 Tl-r600vpn, Tl-r600vpn Firmware 2024-11-21 6.5 MEDIUM 8.8 HIGH
An exploitable remote code execution vulnerability exists in the ping and tracert functionality of the TP-Link TL-R600VPN HWv3 FRNv1.3.0 and HWv2 FRNv1.2.3 http server. A specially crafted IP address can cause a stack overflow, resulting in remote code execution. An attacker can send a single authenticated HTTP request to trigger this vulnerability.
CVE-2018-3949 1 Tp-link 2 Tl-r600vpn, Tl-r600vpn Firmware 2024-11-21 5.0 MEDIUM 7.5 HIGH
An exploitable information disclosure vulnerability exists in the HTTP server functionality of the TP-Link TL-R600VPN. A specially crafted URL can cause a directory traversal, resulting in the disclosure of sensitive system files. An attacker can send either an unauthenticated or an authenticated web request to trigger this vulnerability.
CVE-2018-3948 1 Tp-link 2 Tl-r600vpn, Tl-r600vpn Firmware 2024-11-21 5.0 MEDIUM 7.5 HIGH
An exploitable denial-of-service vulnerability exists in the URI-parsing functionality of the TP-Link TL-R600VPN HTTP server. A specially crafted URL can cause the server to stop responding to requests, resulting in downtime for the management portal. An attacker can send either an unauthenticated or authenticated web request to trigger this vulnerability.
CVE-2018-20372 1 Tp-link 2 Td-w8961nd, Td-w8961nd Firmware 2024-11-21 3.5 LOW 5.4 MEDIUM
TP-Link TD-W8961ND devices allow XSS via the hostname of a DHCP client.
CVE-2018-19537 1 Tp-link 2 Archer C5, Archer C5 Firmware 2024-11-21 9.0 HIGH 7.2 HIGH
TP-Link Archer C5 devices through V2_160201_US allow remote command execution via shell metacharacters on the wan_dyn_hostname line of a configuration file that is encrypted with the 478DA50BF9E3D2CF key and uploaded through the web GUI by using the web admin account. The default password of admin may be used in some cases.
CVE-2018-19528 1 Tp-link 2 Tl-wr886n, Tl-wr886n Firmware 2024-11-21 10.0 HIGH 9.8 CRITICAL
TP-Link TL-WR886N 7.0 1.1.0 devices allow remote attackers to cause a denial of service (Tlb Load Exception) via crafted DNS packets to port 53/udp.
CVE-2018-18489 1 Tp-link 2 Wr840n, Wr840n Firmware 2024-11-21 6.8 MEDIUM 4.9 MEDIUM
The ping feature in the Diagnostic functionality on TP-LINK WR840N v2 Firmware 3.16.9 Build 150701 Rel.51516n devices allows remote attackers to cause a denial of service (HTTP service termination) by modifying the packet size to be higher than the UI limit of 1472.
CVE-2018-18428 1 Tp-link 2 Tl-sc3130, Tl-sc3130 Firmware 2024-11-21 5.0 MEDIUM 7.5 HIGH
TP-Link TL-SC3130 1.6.18P12_121101 devices allow unauthenticated RTSP stream access, as demonstrated by a /jpg/image.jpg URI.
CVE-2018-17018 1 Tp-link 2 Tl-wr886n, Tl-wr886n Firmware 2024-11-21 4.0 MEDIUM 6.5 MEDIUM
An issue was discovered on TP-Link TL-WR886N 6.0 2.3.4 and TL-WR886N 7.0 1.1.0 devices. Authenticated attackers can crash router services (e.g., inetd, HTTP, DNS, and UPnP) via long JSON data for time_switch name.