A vulnerability was found in systemd-coredump. This flaw allows an attacker to force a SUID process to crash and replace it with a non-SUID binary to access the original s privileged process coredump, allowing the attacker to read sensitive data, such as /etc/shadow content, loaded by the original process.A SUID binary or process has a special type of permission, which allows the process to run with the file owner s permissions, regardless of the user executing the binary. This allows the process to access more restricted data than unprivileged users or processes would be able to. An attacker can leverage this flaw by forcing a SUID process to crash and force the Linux kernel to recycle the process PID before systemd-coredump can analyze the /proc/pid/auxv file. If the attacker wins the race condition, they gain access to the original s SUID process coredump file. They can read sensitive content loaded into memory by the original binary, affecting data confidentiality.
A vulnerability was found in systemd-coredump. This flaw allows an attacker to force a SUID process to crash and replace it with a non-SUID binary to access the original s privileged process coredump, allowing the attacker to read sensitive data, such as /etc/shadow content, loaded by the original process.A SUID binary or process has a special type of permission, which allows the process to run with the file owner s permissions, regardless of the user executing the binary. This allows the process to access more restricted data than unprivileged users or processes would be able to. An attacker can leverage this flaw by forcing a SUID process to crash and force the Linux kernel to recycle the process PID before systemd-coredump can analyze the /proc/pid/auxv file. If the attacker wins the race condition, they gain access to the original s SUID process coredump file. They can read sensitive content loaded into memory by the original binary, affecting data confidentiality.
A vulnerability was found in systemd-coredump. This flaw allows an attacker to force a SUID process to crash and replace it with a non-SUID binary to access the original s privileged process coredump, allowing the attacker to read sensitive data, such as /etc/shadow content, loaded by the original process.A SUID binary or process has a special type of permission, which allows the process to run with the file owner s permissions, regardless of the user executing the binary. This allows the process to access more restricted data than unprivileged users or processes would be able to. An attacker can leverage this flaw by forcing a SUID process to crash and force the Linux kernel to recycle the process PID before systemd-coredump can analyze the /proc/pid/auxv file. If the attacker wins the race condition, they gain access to the original s SUID process coredump file. They can read sensitive content loaded into memory by the original binary, affecting data confidentiality.
A vulnerability was found in systemd-coredump. This flaw allows an attacker to force a SUID process to crash and replace it with a non-SUID binary to access the original s privileged process coredump, allowing the attacker to read sensitive data, such as /etc/shadow content, loaded by the original process.A SUID binary or process has a special type of permission, which allows the process to run with the file owner s permissions, regardless of the user executing the binary. This allows the process to access more restricted data than unprivileged users or processes would be able to. An attacker can leverage this flaw by forcing a SUID process to crash and force the Linux kernel to recycle the process PID before systemd-coredump can analyze the /proc/pid/auxv file. If the attacker wins the race condition, they gain access to the original s SUID process coredump file. They can read sensitive content loaded into memory by the original binary, affecting data confidentiality.
A vulnerability was found in systemd-coredump. This flaw allows an attacker to force a SUID process to crash and replace it with a non-SUID binary to access the original s privileged process coredump, allowing the attacker to read sensitive data, such as /etc/shadow content, loaded by the original process.A SUID binary or process has a special type of permission, which allows the process to run with the file owner s permissions, regardless of the user executing the binary. This allows the process to access more restricted data than unprivileged users or processes would be able to. An attacker can leverage this flaw by forcing a SUID process to crash and force the Linux kernel to recycle the process PID before systemd-coredump can analyze the /proc/pid/auxv file. If the attacker wins the race condition, they gain access to the original s SUID process coredump file. They can read sensitive content loaded into memory by the original binary, affecting data confidentiality.
A vulnerability was found in systemd-coredump. This flaw allows an attacker to force a SUID process to crash and replace it with a non-SUID binary to access the original s privileged process coredump, allowing the attacker to read sensitive data, such as /etc/shadow content, loaded by the original process.A SUID binary or process has a special type of permission, which allows the process to run with the file owner s permissions, regardless of the user executing the binary. This allows the process to access more restricted data than unprivileged users or processes would be able to. An attacker can leverage this flaw by forcing a SUID process to crash and force the Linux kernel to recycle the process PID before systemd-coredump can analyze the /proc/pid/auxv file. If the attacker wins the race condition, they gain access to the original s SUID process coredump file. They can read sensitive content loaded into memory by the original binary, affecting data confidentiality.
A vulnerability was found in systemd-coredump. This flaw allows an attacker to force a SUID process to crash and replace it with a non-SUID binary to access the original s privileged process coredump, allowing the attacker to read sensitive data, such as /etc/shadow content, loaded by the original process.A SUID binary or process has a special type of permission, which allows the process to run with the file owner s permissions, regardless of the user executing the binary. This allows the process to access more restricted data than unprivileged users or processes would be able to. An attacker can leverage this flaw by forcing a SUID process to crash and force the Linux kernel to recycle the process PID before systemd-coredump can analyze the /proc/pid/auxv file. If the attacker wins the race condition, they gain access to the original s SUID process coredump file. They can read sensitive content loaded into memory by the original binary, affecting data confidentiality.
A vulnerability was found in systemd-coredump. This flaw allows an attacker to force a SUID process to crash and replace it with a non-SUID binary to access the original s privileged process coredump, allowing the attacker to read sensitive data, such as /etc/shadow content, loaded by the original process.A SUID binary or process has a special type of permission, which allows the process to run with the file owner s permissions, regardless of the user executing the binary. This allows the process to access more restricted data than unprivileged users or processes would be able to. An attacker can leverage this flaw by forcing a SUID process to crash and force the Linux kernel to recycle the process PID before systemd-coredump can analyze the /proc/pid/auxv file. If the attacker wins the race condition, they gain access to the original s SUID process coredump file. They can read sensitive content loaded into memory by the original binary, affecting data confidentiality.
A vulnerability was found in systemd-coredump. This flaw allows an attacker to force a SUID process to crash and replace it with a non-SUID binary to access the original s privileged process coredump, allowing the attacker to read sensitive data, such as /etc/shadow content, loaded by the original process.A SUID binary or process has a special type of permission, which allows the process to run with the file owner s permissions, regardless of the user executing the binary. This allows the process to access more restricted data than unprivileged users or processes would be able to. An attacker can leverage this flaw by forcing a SUID process to crash and force the Linux kernel to recycle the process PID before systemd-coredump can analyze the /proc/pid/auxv file. If the attacker wins the race condition, they gain access to the original s SUID process coredump file. They can read sensitive content loaded into memory by the original binary, affecting data confidentiality.
A vulnerability was found in systemd-coredump. This flaw allowsan attacker to force a SUID process to crashand replaceit with anon-SUID binaryto access the original s privileged process coredump, allowing the attackerto readsensitive data, such as /etc/shadow content, loaded by the original process.A SUID binary orprocess has a special typeof permission, which allowsthe process to run with the file owner s permissions, regardless of the user executing the binary. This allows the processto access more restricted data thanunprivileged users or processeswould be able to. An attacker can leverage thisflaw by forcing aSUID process to crash and force the Linux kernel to recycle the process PID before systemd-coredump can analyze the /proc/pid/auxv file. If the attacker wins the race condition, they gain access to the original s SUID process coredump file. They can read sensitive content loaded into memory by the original binary, affecting data confidentiality.
A vulnerability, which was classified as problematic, was foundin systemd-coredump (version unknown).CWE isclassifyingthe issueas CWE-362. Theproduct contains a code sequence that can run concurrently with other code,and thecode sequence requires temporary, exclusive access to a shared resource, but a timing windowexists in which the sharedresource can be modified byanother code sequence that is operating concurrently.This is going to have an impact on availability.The exploit is sharedfor download at openwall.com. It isdeclared as proof-of-concept.Itis possible to mitigate the problem by applyingthe configurationsetting .
A vulnerability, which was classified as problematic, was foundin systemd-coredump (version unknown).CWE isclassifyingthe issueas CWE-362. Theproduct contains a code sequence that can run concurrently with other code,and thecode sequence requires temporary, exclusive access to a shared resource, but a timing windowexists in which the sharedresource can be modified byanother code sequence that is operating concurrently.This is going to have an impact on availability.The exploit is sharedfor download at openwall.com. It isdeclared as proof-of-concept.Itis possible to mitigate the problem by applyingthe configurationsetting .
A vulnerability was found in systemd-coredump. This flaw allowsan attacker to force a SUID process to crashand replaceit with anon-SUID binaryto access the original s privileged process coredump, allowing the attackerto readsensitive data, such as /etc/shadow content, loaded by the original process.A SUID binary orprocess has a special typeof permission, which allowsthe process to run with the file owner s permissions, regardless of the user executing the binary. This allows the processto access more restricted data thanunprivileged users or processeswould be able to. An attacker can leverage thisflaw by forcing aSUID process to crash and force the Linux kernel to recycle the process PID before systemd-coredump can analyze the /proc/pid/auxv file. If the attacker wins the race condition, they gain access to the original s SUID process coredump file. They can read sensitive content loaded into memory by the original binary, affecting data confidentiality.
A vulnerability was found in systemd-coredump. This flaw allows an attacker to force a SUID process to crash and replace it with a non-SUID binary to access the original s privileged process coredump, allowing the attacker to read sensitive data, such as /etc/shadow content, loaded by the original process.A SUID binary or process has a special type of permission, which allows the process to run with the file owner s permissions, regardless of the user executing the binary. This allows the process to access more restricted data than unprivileged users or processes would be able to. An attacker can leverage this flaw by forcing a SUID process to crash and force the Linux kernel to recycle the process PID before systemd-coredump can analyze the /proc/pid/auxv file. If the attacker wins the race condition, they gain access to the original s SUID process coredump file. They can read sensitive content loaded into memory by the original binary, affecting data confidentiality.
A vulnerability was found in systemd-coredump. This flaw allows an attacker to force a SUID process to crash and replace it with a non-SUID binary to access the original s privileged process coredump, allowing the attacker to read sensitive data, such as /etc/shadow content, loaded by the original process.A SUID binary or process has a special type of permission, which allows the process to run with the file owner s permissions, regardless of the user executing the binary. This allows the process to access more restricted data than unprivileged users or processes would be able to. An attacker can leverage this flaw by forcing a SUID process to crash and force the Linux kernel to recycle the process PID before systemd-coredump can analyze the /proc/pid/auxv file. If the attacker wins the race condition, they gain access to the original s SUID process coredump file. They can read sensitive content loaded into memory by the original binary, affecting data confidentiality.
