Pexip Infinity before 26.2 allows temporary remote Denial of Service (abort) because of missing call-setup input validation.

Pexip Infinity before 26 allows temporary remote Denial of Service (abort) because of missing call-setup input validation.

Pexip Infinity 25.x before 25.4 has Improper Input Validation, and thus an unauthenticated remote attacker can cause a denial of service via the administrative web interface.

Pexip Infinity before 23.4 has a lack of input validation, leading to temporary denial of service via H.323.

Signalling in Pexip Infinity 29 through 36.2 before 37.0 has improper input validation that allows remote attackers to trigger a temporary denial of service (software abort).

Pexip Infinity 27.x before 27.3 has Improper Input Validation. The client API allows remote attackers to trigger a software abort via a gateway call into Teams.

Pexip Infinity 22.x through 24.x before 24.2 has Improper Input Validation for call setup. An unauthenticated remote attacker can trigger a software abort (temporary loss of service).

Pexip Infinity 23.x before 23.3 has improper input validation, leading to a temporary software abort via RTP.

Pexip Infinity before 31.2 has Improper Input Validation for signalling, allowing remote attackers to trigger an abort.

Pexip Infinity before 31.2 has Improper Input Validation for RTCP, allowing remote attackers to trigger an abort.

Pexip Infinity before 26 allows remote denial of service because of missing H.264 input validation (issue 2 of 2).

Pexip Infinity before 26 allows remote denial of service because of missing H.264 input validation (issue 1 of 2).

Pexip Infinity before 26 allows remote denial of service because of missing RTMP input validation.

Pexip Infinity before 18 allows Remote Denial of Service (TLS handshakes in RTMP).

Pexip Infinity before 18 allows remote Denial of Service (XML parsing).

Pexip Infinity before 27.3 allows remote attackers to trigger excessive resource consumption via H.264.

Pexip Infinity before 27.3 allows remote attackers to trigger a software abort via HTTP.

Pexip Infinity before 27.3 allows remote attackers to trigger a software abort via H.323.

Pexip Infinity 27.x before 27.3 allows remote attackers to trigger a software abort via the Session Initiation Protocol.

Pexip Infinity before 27.3 allows remote attackers to trigger a software abort via One Touch Join.

Pexip Infinity before 27.0 has improper WebRTC input validation. An unauthenticated remote attacker can use excessive resources, temporarily causing denial of service.

Pexip Infinity before 27.3 allows remote attackers to trigger a software abort via the Session Initiation Protocol.

Pexip Infinity 27.x before 27.3 allows remote attackers to trigger a software abort via HTTP.

Pexip Infinity before 27.3 allows remote attackers to trigger a software abort via Epic Telehealth.

Pexip Infinity before 27.3 allows remote attackers to force a software abort via HTTP.

Pexip Infinity before 27.3 allows remote attackers to trigger a software abort via One Touch Join.

Pexip Infinity 27 before 28.0 allows remote attackers to trigger excessive resource consumption and termination because of registrar resource mishandling.

Pexip Infinity before 28.1 allows remote attackers to trigger a software abort via G.719.

Pexip Infinity before 14.2 allows remote attackers to cause a denial of service (service restart) or execute arbitrary code via vectors related to Conferencing Nodes.

Pexip Reverse Proxy and TURN Server before 6.1.0 has Incorrect UDP Access Control via TURN.

Pexip Infinity before 24.1 has Improper Input Validation, leading to temporary denial of service via SIP.

Pexip Infinity before 20.1 allows privilege escalation by restoring a system backup.

An incorrect "pair?" check in the Scheme "length" procedure results in an unsafe pointer dereference in all CHICKEN Scheme versions prior to 4.13, which allows an attacker to cause a denial of service by passing an improper list to an application that calls "length" on it.

The qemu-nbd server in QEMU (aka Quick Emulator), when built with the Network Block Device (NBD) Server support, allows remote attackers to cause a denial of service (segmentation fault and server crash) by leveraging failure to ensure that all initialization occurs before talking to a client in the nbd_negotiate function.

The NFSv2/NFSv3 server in the nfsd subsystem in the Linux kernel through 4.10.11 allows remote attackers to cause a denial of service (system crash) via a long RPC reply, related to net/sunrpc/svc.c, fs/nfsd/nfs3xdr.c, and fs/nfsd/nfsxdr.c.

XStream through 1.4.9, when a certain denyTypes workaround is not used, mishandles attempts to create an instance of the primitive type 'void' during unmarshalling, leading to a remote application crash, as demonstrated by an xstream.fromXML("<void/>") call.

Palo Alto Networks Traps ESM Console before 3.4.4 allows attackers to cause a denial of service by leveraging improper validation of requests to revoke a Traps agent license.

iSmartAlarm cube devices allow Denial of Service. Sending a SYN flood on port 12345 will freeze the "cube" and it will stop responding.

An issue was discovered in the simple_asn1 crate 0.6.0 before 0.6.1 for Rust. There is a panic if UTCTime data, supplied by a remote attacker, has a second character greater than 0x7f.

Multiple denial of service vulnerabilities exist in the cgiserver.cgi JSON command parser functionality of Reolink RLC-410W v3.0.0.136_20121102. A specially-crafted HTTP request can lead to a reboot. An attacker can send an HTTP request to trigger this vulnerability.

Multiple denial of service vulnerabilities exist in the cgiserver.cgi JSON command parser functionality of Reolink RLC-410W v3.0.0.136_20121102. A specially-crafted HTTP request can lead to a reboot. An attacker can send an HTTP request to trigger this vulnerability.

Affected devices don't process correctly certain special crafted packets sent to port 102/tcp, which could allow an attacker to cause a denial of service in the device.

Multiple denial of service vulnerabilities exist in the cgiserver.cgi JSON command parser functionality of Reolink RLC-410W v3.0.0.136_20121102. A specially-crafted HTTP request can lead to a reboot. An attacker can send an HTTP request to trigger this vulnerability.

Next.js is a React framework. In versions of Next.js prior to 12.0.5 or 11.1.3, invalid or malformed URLs could lead to a server crash. In order to be affected by this issue, the deployment must use Next.js versions above 11.1.0 and below 12.0.5, Node.js above 15.0.0, and next start or a custom server. Deployments on Vercel are not affected, along with similar environments where invalid requests are filtered before reaching Next.js. Versions 12.0.5 and 11.1.3 contain patches for this issue.

An issue was discovered in YottaDB through r1.32 and V7.0-000. A lack of input validation in calls to eb_div in sr_port/eb_muldiv.c allows attackers to crash the application by performing a divide by zero.

Multiple denial of service vulnerabilities exist in the cgiserver.cgi JSON command parser functionality of Reolink RLC-410W v3.0.0.136_20121102. A specially-crafted HTTP request can lead to a reboot. An attacker can send an HTTP request to trigger this vulnerability.

Multiple denial of service vulnerabilities exist in the cgiserver.cgi JSON command parser functionality of Reolink RLC-410W v3.0.0.136_20121102. A specially-crafted HTTP request can lead to a reboot. An attacker can send an HTTP request to trigger this vulnerability.

An issue was discovered in YottaDB through r1.32 and V7.0-000. A lack of input validation in calls to do_verify in sr_unix/do_verify.c allows attackers to attempt to jump to a NULL pointer by corrupting a function pointer.

Dell EMC Data Protection Central version 19.5 contains an Improper Input Validation Vulnerability. A remote unauthenticated attacker could potentially exploit this vulnerability, leading to denial of service.

Multiple denial of service vulnerabilities exist in the cgiserver.cgi JSON command parser functionality of Reolink RLC-410W v3.0.0.136_20121102. A specially-crafted HTTP request can lead to a reboot. An attacker can send an HTTP request to trigger this vulnerability.