CVE-2019-19049

A memory leak in the unittest_data_add() function in drivers/of/unittest.c in the Linux kernel before 5.3.10 allows attackers to cause a denial of service (memory consumption) by triggering of_fdt_unflatten_tree() failures, aka CID-e13de8fe0d6a. NOTE: third parties dispute the relevance of this because unittest.c can only be reached during boot

Weakness

The product does not sufficiently track and release allocated memory after it has been used, which slowly consumes remaining memory.

Affected Software

Name	Vendor	Start Version	End Version
Linux_kernel	Linux	3.17 (including)	4.4.200 (excluding)
Linux_kernel	Linux	4.5 (including)	4.9.200 (excluding)
Linux_kernel	Linux	4.10 (including)	4.14.153 (excluding)
Linux_kernel	Linux	4.15 (including)	4.19.83 (excluding)
Linux_kernel	Linux	4.20 (including)	5.3.10 (excluding)
Linux	Ubuntu	precise/esm	*
Linux	Ubuntu	upstream	*
Linux-aws	Ubuntu	trusty	*
Linux-aws	Ubuntu	trusty/esm	*
Linux-aws	Ubuntu	upstream	*
Linux-aws-5.0	Ubuntu	upstream	*
Linux-aws-5.15	Ubuntu	upstream	*
Linux-aws-5.4	Ubuntu	upstream	*
Linux-aws-6.8	Ubuntu	upstream	*
Linux-aws-fips	Ubuntu	fips-updates/bionic	*
Linux-aws-fips	Ubuntu	fips/bionic	*
Linux-aws-fips	Ubuntu	trusty	*
Linux-aws-fips	Ubuntu	upstream	*
Linux-aws-fips	Ubuntu	xenial	*
Linux-aws-hwe	Ubuntu	upstream	*
Linux-azure	Ubuntu	trusty	*
Linux-azure	Ubuntu	trusty/esm	*
Linux-azure	Ubuntu	upstream	*
Linux-azure-4.15	Ubuntu	upstream	*
Linux-azure-5.15	Ubuntu	upstream	*
Linux-azure-5.3	Ubuntu	upstream	*
Linux-azure-5.4	Ubuntu	upstream	*
Linux-azure-6.8	Ubuntu	upstream	*
Linux-azure-edge	Ubuntu	bionic	*
Linux-azure-edge	Ubuntu	esm-infra/bionic	*
Linux-azure-edge	Ubuntu	upstream	*
Linux-azure-fde	Ubuntu	focal	*
Linux-azure-fde	Ubuntu	upstream	*
Linux-azure-fde-5.15	Ubuntu	upstream	*
Linux-azure-fips	Ubuntu	fips-updates/bionic	*
Linux-azure-fips	Ubuntu	fips/bionic	*
Linux-azure-fips	Ubuntu	trusty	*
Linux-azure-fips	Ubuntu	upstream	*
Linux-azure-fips	Ubuntu	xenial	*
Linux-bluefield	Ubuntu	upstream	*
Linux-fips	Ubuntu	fips-updates/xenial	*
Linux-fips	Ubuntu	fips/bionic	*
Linux-fips	Ubuntu	fips/xenial	*
Linux-fips	Ubuntu	upstream	*
Linux-gcp	Ubuntu	upstream	*
Linux-gcp-4.15	Ubuntu	upstream	*
Linux-gcp-5.15	Ubuntu	upstream	*
Linux-gcp-5.3	Ubuntu	upstream	*
Linux-gcp-5.4	Ubuntu	upstream	*
Linux-gcp-6.8	Ubuntu	upstream	*
Linux-gcp-edge	Ubuntu	bionic	*
Linux-gcp-edge	Ubuntu	esm-infra/bionic	*
Linux-gcp-edge	Ubuntu	upstream	*
Linux-gcp-fips	Ubuntu	fips/bionic	*
Linux-gcp-fips	Ubuntu	trusty	*
Linux-gcp-fips	Ubuntu	upstream	*
Linux-gcp-fips	Ubuntu	xenial	*
Linux-gke	Ubuntu	focal	*
Linux-gke	Ubuntu	upstream	*
Linux-gke	Ubuntu	xenial	*
Linux-gke-4.15	Ubuntu	upstream	*
Linux-gke-5.0	Ubuntu	upstream	*
Linux-gke-5.3	Ubuntu	upstream	*
Linux-gkeop	Ubuntu	upstream	*
Linux-gkeop-5.15	Ubuntu	upstream	*
Linux-hwe	Ubuntu	upstream	*
Linux-hwe-5.15	Ubuntu	upstream	*
Linux-hwe-5.4	Ubuntu	upstream	*
Linux-hwe-6.8	Ubuntu	upstream	*
Linux-hwe-edge	Ubuntu	esm-infra/xenial	*
Linux-hwe-edge	Ubuntu	upstream	*
Linux-hwe-edge	Ubuntu	xenial	*
Linux-ibm	Ubuntu	upstream	*
Linux-ibm-5.15	Ubuntu	upstream	*
Linux-ibm-5.4	Ubuntu	upstream	*
Linux-intel	Ubuntu	upstream	*
Linux-intel-iot-realtime	Ubuntu	upstream	*
Linux-intel-iotg	Ubuntu	upstream	*
Linux-intel-iotg-5.15	Ubuntu	upstream	*
Linux-iot	Ubuntu	upstream	*
Linux-kvm	Ubuntu	upstream	*
Linux-lowlatency	Ubuntu	upstream	*
Linux-lowlatency-hwe-5.15	Ubuntu	upstream	*
Linux-lowlatency-hwe-6.8	Ubuntu	upstream	*
Linux-lts-trusty	Ubuntu	precise/esm	*
Linux-lts-trusty	Ubuntu	upstream	*
Linux-lts-xenial	Ubuntu	trusty	*
Linux-lts-xenial	Ubuntu	trusty/esm	*
Linux-lts-xenial	Ubuntu	upstream	*
Linux-nvidia	Ubuntu	upstream	*
Linux-nvidia-6.5	Ubuntu	upstream	*
Linux-nvidia-6.8	Ubuntu	upstream	*
Linux-nvidia-lowlatency	Ubuntu	upstream	*
Linux-oem	Ubuntu	upstream	*
Linux-oem	Ubuntu	xenial	*
Linux-oem-6.11	Ubuntu	upstream	*
Linux-oem-6.8	Ubuntu	upstream	*
Linux-oem-osp1	Ubuntu	upstream	*
Linux-oracle	Ubuntu	upstream	*
Linux-oracle-5.0	Ubuntu	upstream	*
Linux-oracle-5.15	Ubuntu	upstream	*
Linux-oracle-5.4	Ubuntu	upstream	*
Linux-oracle-6.8	Ubuntu	upstream	*
Linux-raspi	Ubuntu	upstream	*
Linux-raspi-5.4	Ubuntu	upstream	*
Linux-raspi-realtime	Ubuntu	upstream	*
Linux-raspi2	Ubuntu	upstream	*
Linux-raspi2-5.3	Ubuntu	upstream	*
Linux-realtime	Ubuntu	jammy	*
Linux-realtime	Ubuntu	upstream	*
Linux-riscv	Ubuntu	focal	*
Linux-riscv	Ubuntu	jammy	*
Linux-riscv	Ubuntu	upstream	*
Linux-riscv-5.15	Ubuntu	upstream	*
Linux-riscv-6.8	Ubuntu	upstream	*
Linux-snapdragon	Ubuntu	upstream	*
Linux-xilinx-zynqmp	Ubuntu	upstream	*

Potential Mitigations

Choose a language or tool that provides automatic memory management, or makes manual memory management less error-prone.
For example, glibc in Linux provides protection against free of invalid pointers.
When using Xcode to target OS X or iOS, enable automatic reference counting (ARC) [REF-391].
To help correctly and consistently manage memory when programming in C++, consider using a smart pointer class such as std::auto_ptr (defined by ISO/IEC ISO/IEC 14882:2003), std::shared_ptr and std::unique_ptr (specified by an upcoming revision of the C++ standard, informally referred to as C++ 1x), or equivalent solutions such as Boost.

NVD	https://nvd.nist.gov/vuln/detail/CVE-2019-19049
CWE	https://cwe.mitre.org/data/definitions/401.html

Missing Release of Memory after Effective Lifetime

Weakness

Affected Software

Potential Mitigations

References