Enhancing Cyber Resilience in Manufacturing Organizations

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2024 Cyber Resilience Research Unveils Manufacturing Sector Challenges

New data illuminates how manufacturing leaders can prioritize resilience.

Manufacturing organizations find themselves at the intersection of progress and peril in the rapidly evolving digital landscape. The latest data underscores that the trade-offs are significant and pose substantial risks to manufacturing providers.

Get your complimentary copy of the report.

One of the foremost obstacles is the disconnect between senior executives and cybersecurity priorities. Despite recognizing cyber resilience as a crucial imperative, many manufacturing organizations struggle to secure the support and resources from top leadership. This lack of engagement hinders progress and leaves institutions vulnerable to potential breaches.

Meanwhile, technology continues to advance astonishingly, as do the risks posed by cyber threats. The 2024 LevelBlue Futures™ Report reveals this delicate balancing act between innovation and security within the manufacturing industry. Our comprehensive analysis identifies opportunities for deeper alignment between executive leadership and technical teams.

The Elusive Quest for Cyber Resilience in Manufacturing

 

Imagine a world where manufacturing organizations are impervious to cyber threats—where every aspect of an operation is fortified against disruptions. This is the lofty ideal of cyber resilience, yet it remains an elusive goal for many manufacturing providers. The rapid evolution of computing has transformed the IT landscape, blurring the lines between legacy systems, cloud computing, and digital transformation initiatives. While these advancements bring undeniable benefits, they also introduce unprecedented risks.

Our research indicates that 83% of manufacturing IT leaders acknowledge that computing innovation increases risk exposure. In a world where cybercriminals are becoming increasingly sophisticated, the need for cyber resilience has never been more urgent. From ransomware attacks to crippling DDoS incidents, manufacturing organizations operate in a climate where a single breach can have catastrophic consequences.

Exploring the Relationship Between Leadership and Cyber Resilience

Our survey of 1,050 C-suite and senior executives, including 161 from the manufacturing industry across 18 countries, highlights the pressing need for cyber resilience. The report is designed to foster thoughtful discussions about vulnerabilities and improvement opportunities.

In the report, you’ll:

Discover why manufacturing leaders and tech teams must prioritize cyber resilience.
Learn about the critical barriers to achieving cyber resilience.
Uncover the importance of business context and operational issues in prioritizing resilience.

Recognizing the Imperative of Cyber Resilience

Manufacturing leaders are called to chart a course toward greater security and preparedness. Reacting to cyber threats as they arise is no longer enough; organizations must proactively bolster their defenses and cultivate a culture of resilience from within.

Our research delves into the multifaceted challenges facing manufacturing organizations in their quest for cyber resilience. From limited visibility into IT estates to the complexity of integrating new technologies with legacy systems, manufacturing providers grapple with deep-seated barriers that hinder their ability to withstand cyber threats.

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USN-7009-2: Linux kernel vulnerabilities

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Chenyuan Yang discovered that the CEC driver driver in the Linux kernel
contained a use-after-free vulnerability. A local attacker could use this
to cause a denial of service (system crash) or possibly execute arbitrary
code. (CVE-2024-23848)

Chenyuan Yang discovered that the USB Gadget subsystem in the Linux kernel
did not properly check for the device to be enabled before writing. A local
attacker could possibly use this to cause a denial of service.
(CVE-2024-25741)

It was discovered that the JFS file system contained an out-of-bounds read
vulnerability when printing xattr debug information. A local attacker could
use this to cause a denial of service (system crash). (CVE-2024-40902)

Several security issues were discovered in the Linux kernel.
An attacker could possibly use these to compromise the system.
This update corrects flaws in the following subsystems:
– ARM64 architecture;
– M68K architecture;
– MIPS architecture;
– PowerPC architecture;
– RISC-V architecture;
– x86 architecture;
– Block layer subsystem;
– Cryptographic API;
– Accessibility subsystem;
– ACPI drivers;
– Serial ATA and Parallel ATA drivers;
– Drivers core;
– Bluetooth drivers;
– Character device driver;
– CPU frequency scaling framework;
– Hardware crypto device drivers;
– Buffer Sharing and Synchronization framework;
– DMA engine subsystem;
– FPGA Framework;
– GPIO subsystem;
– GPU drivers;
– Greybus drivers;
– HID subsystem;
– HW tracing;
– I2C subsystem;
– IIO subsystem;
– InfiniBand drivers;
– Input Device (Mouse) drivers;
– Macintosh device drivers;
– Multiple devices driver;
– Media drivers;
– VMware VMCI Driver;
– Network drivers;
– Near Field Communication (NFC) drivers;
– NVME drivers;
– Pin controllers subsystem;
– PTP clock framework;
– S/390 drivers;
– SCSI drivers;
– SoundWire subsystem;
– Greybus lights staging drivers;
– Media staging drivers;
– Thermal drivers;
– TTY drivers;
– USB subsystem;
– DesignWare USB3 driver;
– Framebuffer layer;
– ACRN Hypervisor Service Module driver;
– eCrypt file system;
– File systems infrastructure;
– Ext4 file system;
– F2FS file system;
– JFFS2 file system;
– JFS file system;
– NILFS2 file system;
– NTFS3 file system;
– SMB network file system;
– IOMMU subsystem;
– Memory management;
– Netfilter;
– BPF subsystem;
– Kernel debugger infrastructure;
– DMA mapping infrastructure;
– IRQ subsystem;
– Tracing infrastructure;
– 9P file system network protocol;
– B.A.T.M.A.N. meshing protocol;
– CAN network layer;
– Ceph Core library;
– Networking core;
– IPv4 networking;
– IPv6 networking;
– IUCV driver;
– MAC80211 subsystem;
– Multipath TCP;
– NET/ROM layer;
– NFC subsystem;
– Open vSwitch;
– Network traffic control;
– TIPC protocol;
– TLS protocol;
– Unix domain sockets;
– Wireless networking;
– XFRM subsystem;
– ALSA framework;
– SoC Audio for Freescale CPUs drivers;
– Kirkwood ASoC drivers;
(CVE-2024-42076, CVE-2024-40994, CVE-2024-40932, CVE-2024-41000,
CVE-2024-42224, CVE-2024-38633, CVE-2024-40954, CVE-2024-36270,
CVE-2024-38623, CVE-2024-38549, CVE-2024-42225, CVE-2024-42085,
CVE-2024-42157, CVE-2024-42229, CVE-2024-42109, CVE-2024-41040,
CVE-2024-38607, CVE-2024-39493, CVE-2024-38546, CVE-2024-41046,
CVE-2024-38567, CVE-2024-42092, CVE-2024-39501, CVE-2024-41005,
CVE-2024-42223, CVE-2024-39480, CVE-2024-38571, CVE-2024-41048,
CVE-2024-38605, CVE-2024-42094, CVE-2024-38598, CVE-2024-38559,
CVE-2024-38558, CVE-2024-40931, CVE-2024-40942, CVE-2024-39495,
CVE-2024-40981, CVE-2024-40911, CVE-2024-42148, CVE-2024-33621,
CVE-2024-39502, CVE-2024-41095, CVE-2024-40960, CVE-2024-36286,
CVE-2024-42232, CVE-2024-42130, CVE-2024-42154, CVE-2024-41087,
CVE-2024-41004, CVE-2024-39277, CVE-2024-38560, CVE-2024-36978,
CVE-2024-42089, CVE-2024-37356, CVE-2024-38547, CVE-2024-38381,
CVE-2024-36015, CVE-2024-38548, CVE-2024-42120, CVE-2024-41092,
CVE-2024-40978, CVE-2024-38619, CVE-2024-40914, CVE-2024-41089,
CVE-2024-40988, CVE-2024-41047, CVE-2024-38565, CVE-2024-38550,
CVE-2023-52887, CVE-2024-38552, CVE-2024-38583, CVE-2024-38613,
CVE-2024-40967, CVE-2024-40927, CVE-2024-42124, CVE-2024-42244,
CVE-2024-42152, CVE-2024-39509, CVE-2024-38662, CVE-2024-38618,
CVE-2024-42140, CVE-2024-38579, CVE-2024-40945, CVE-2024-42101,
CVE-2024-42104, CVE-2024-41044, CVE-2024-42161, CVE-2024-42093,
CVE-2024-42270, CVE-2024-42097, CVE-2024-40970, CVE-2024-40908,
CVE-2024-38582, CVE-2024-42247, CVE-2024-38661, CVE-2024-40941,
CVE-2024-42084, CVE-2024-42090, CVE-2024-42131, CVE-2024-42077,
CVE-2024-40995, CVE-2024-42105, CVE-2024-41035, CVE-2024-41097,
CVE-2024-38780, CVE-2024-35247, CVE-2024-36974, CVE-2024-42070,
CVE-2024-40902, CVE-2024-36972, CVE-2024-38586, CVE-2024-38573,
CVE-2024-38612, CVE-2024-42121, CVE-2023-52884, CVE-2024-39276,
CVE-2024-38615, CVE-2024-42095, CVE-2024-42086, CVE-2024-39507,
CVE-2024-40983, CVE-2024-40943, CVE-2024-41002, CVE-2024-40958,
CVE-2024-41049, CVE-2024-38596, CVE-2024-37078, CVE-2024-38637,
CVE-2024-38621, CVE-2024-42153, CVE-2024-38659, CVE-2024-39468,
CVE-2024-38589, CVE-2024-38587, CVE-2024-36971, CVE-2024-38599,
CVE-2024-31076, CVE-2024-39490, CVE-2024-40959, CVE-2024-38634,
CVE-2024-38624, CVE-2024-42240, CVE-2024-42127, CVE-2024-42102,
CVE-2024-38578, CVE-2024-34027, CVE-2024-38601, CVE-2024-42087,
CVE-2024-38597, CVE-2024-38591, CVE-2024-39503, CVE-2024-42236,
CVE-2024-42082, CVE-2024-40956, CVE-2024-41041, CVE-2024-38580,
CVE-2024-39506, CVE-2024-36894, CVE-2024-40987, CVE-2024-39475,
CVE-2024-38635, CVE-2024-41007, CVE-2024-39471, CVE-2024-39467,
CVE-2022-48772, CVE-2024-40934, CVE-2024-42106, CVE-2024-39469,
CVE-2024-40963, CVE-2024-39482, CVE-2024-39505, CVE-2024-36014,
CVE-2024-39500, CVE-2024-42096, CVE-2024-41055, CVE-2024-40937,
CVE-2024-38590, CVE-2024-38610, CVE-2024-41034, CVE-2024-42115,
CVE-2024-40974, CVE-2024-40968, CVE-2024-42080, CVE-2024-40957,
CVE-2024-40971, CVE-2024-36032, CVE-2024-39499, CVE-2024-42137,
CVE-2024-39489, CVE-2024-40976, CVE-2024-39466, CVE-2024-42145,
CVE-2024-36489, CVE-2024-40980, CVE-2024-39301, CVE-2024-40905,
CVE-2024-41093, CVE-2024-40912, CVE-2024-42119, CVE-2024-38588,
CVE-2024-40916, CVE-2024-39488, CVE-2024-41027, CVE-2024-42068,
CVE-2024-40904, CVE-2024-40961, CVE-2024-33847, CVE-2024-38555,
CVE-2024-41006, CVE-2024-40929, CVE-2024-34777, CVE-2024-38627,
CVE-2024-40984, CVE-2024-40990, CVE-2024-39487, CVE-2024-42098,
CVE-2024-40901)

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php-8.2.24-1.fc39

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FEDORA-2024-7c800c4df7

Packages in this update:

php-8.2.24-1.fc39

Update description:

PHP version 8.2.24 (26 Sep 2024)

CGI:

Fixed bug GHSA-p99j-rfp4-xqvq (Bypass of CVE-2024-4577, Parameter Injection Vulnerability). (CVE-2024-8926) (nielsdos)
Fixed bug GHSA-94p6-54jq-9mwp (cgi.force_redirect configuration is bypassable due to the environment variable collision). (CVE-2024-8927) (nielsdos)

Core:

Fixed bug GH-15408 (MSan false-positve on zend_max_execution_timer). (zeriyoshi)
Fixed bug GH-15515 (Configure error grep illegal option q). (Peter Kokot)
Fixed bug GH-15514 (Configure error: genif.sh: syntax error). (Peter Kokot)
Fixed bug GH-15565 (–disable-ipv6 during compilation produces error EAI_SYSTEM not found). (nielsdos)
Fixed bug GH-15587 (CRC32 API build error on arm 32-bit). (Bernd Kuhls, Thomas Petazzoni)
Fixed bug GH-15330 (Do not scan generator frames more than once). (Arnaud)
Fixed uninitialized lineno in constant AST of internal enums. (ilutov)

Curl:

FIxed bug GH-15547 (curl_multi_select overflow on timeout argument). (David Carlier)

DOM:

Fixed bug GH-15551 (Segmentation fault (access null pointer) in ext/dom/xml_common.h). (nielsdos)

Fileinfo:

Fixed bug GH-15752 (Incorrect error message for finfo_file with an empty filename argument). (DanielEScherzer)

FPM:

Fixed bug GHSA-865w-9rf3-2wh5 (Logs from childrens may be altered). (CVE-2024-9026) (Jakub Zelenka)

MySQLnd:

Fixed bug GH-15432 (Heap corruption when querying a vector). (cmb, Kamil Tekiela)

Opcache:

Fixed bug GH-15661 (Access null pointer in Zend/Optimizer/zend_inference.c). (nielsdos)
Fixed bug GH-15658 (Segmentation fault in Zend/zend_vm_execute.h). (nielsdos)

SAPI:

Fixed bug GHSA-9pqp-7h25-4f32 (Erroneous parsing of multipart form data). (CVE-2024-8925) (Arnaud)

SOAP:

Fixed bug php#73182 (PHP SOAPClient does not support stream context HTTP headers in array form). (nielsdos)

Standard:

Fixed bug GH-15552 (Signed integer overflow in ext/standard/scanf.c). (cmb)

Streams:

Fixed bug GH-15628 (php_stream_memory_get_buffer() not zero-terminated). (cmb)

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php-8.3.12-1.fc40

Read Time:1 Minute, 37 Second

FEDORA-2024-2b429e720e

Packages in this update:

php-8.3.12-1.fc40

Update description:

PHP version 8.3.12 (26 Sep 2024)

CGI:

Fixed bug GHSA-p99j-rfp4-xqvq (Bypass of CVE-2024-4577, Parameter Injection Vulnerability). (CVE-2024-8926) (nielsdos)
Fixed bug GHSA-94p6-54jq-9mwp (cgi.force_redirect configuration is bypassable due to the environment variable collision). (CVE-2024-8927) (nielsdos)

Core:

Fixed bug GH-15408 (MSan false-positve on zend_max_execution_timer). (zeriyoshi)
Fixed bug GH-15515 (Configure error grep illegal option q). (Peter Kokot)
Fixed bug GH-15514 (Configure error: genif.sh: syntax error). (Peter Kokot)
Fixed bug GH-15565 (–disable-ipv6 during compilation produces error EAI_SYSTEM not found). (nielsdos)
Fixed bug GH-15587 (CRC32 API build error on arm 32-bit). (Bernd Kuhls, Thomas Petazzoni)
Fixed bug GH-15330 (Do not scan generator frames more than once). (Arnaud)
Fixed uninitialized lineno in constant AST of internal enums. (ilutov)

Curl:

FIxed bug GH-15547 (curl_multi_select overflow on timeout argument). (David Carlier)

DOM:

Fixed bug GH-15551 (Segmentation fault (access null pointer) in ext/dom/xml_common.h). (nielsdos)
Fixed bug GH-15654 (Signed integer overflow in ext/dom/nodelist.c). (nielsdos)

Fileinfo:

Fixed bug GH-15752 (Incorrect error message for finfo_file with an empty filename argument). (DanielEScherzer)

FPM:

Fixed bug GHSA-865w-9rf3-2wh5 (Logs from childrens may be altered). (CVE-2024-9026) (Jakub Zelenka)

MySQLnd:

Fixed bug GH-15432 (Heap corruption when querying a vector). (cmb, Kamil Tekiela)

Opcache:

Fixed bug GH-15661 (Access null pointer in Zend/Optimizer/zend_inference.c). (nielsdos)
Fixed bug GH-15658 (Segmentation fault in Zend/zend_vm_execute.h). (nielsdos)

SAPI:

Fixed bug GHSA-9pqp-7h25-4f32 (Erroneous parsing of multipart form data). (CVE-2024-8925) (Arnaud)

Standard:

Fixed bug GH-15552 (Signed integer overflow in ext/standard/scanf.c). (cmb)

Streams:

Fixed bug GH-15628 (php_stream_memory_get_buffer() not zero-terminated). (cmb)

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php-8.3.12-1.fc41

Read Time:1 Minute, 37 Second

FEDORA-2024-a03b06dbd0

Packages in this update:

php-8.3.12-1.fc41

Update description:

PHP version 8.3.12 (26 Sep 2024)

CGI:

Fixed bug GHSA-p99j-rfp4-xqvq (Bypass of CVE-2024-4577, Parameter Injection Vulnerability). (CVE-2024-8926) (nielsdos)
Fixed bug GHSA-94p6-54jq-9mwp (cgi.force_redirect configuration is bypassable due to the environment variable collision). (CVE-2024-8927) (nielsdos)

Core:

Fixed bug GH-15408 (MSan false-positve on zend_max_execution_timer). (zeriyoshi)
Fixed bug GH-15515 (Configure error grep illegal option q). (Peter Kokot)
Fixed bug GH-15514 (Configure error: genif.sh: syntax error). (Peter Kokot)
Fixed bug GH-15565 (–disable-ipv6 during compilation produces error EAI_SYSTEM not found). (nielsdos)
Fixed bug GH-15587 (CRC32 API build error on arm 32-bit). (Bernd Kuhls, Thomas Petazzoni)
Fixed bug GH-15330 (Do not scan generator frames more than once). (Arnaud)
Fixed uninitialized lineno in constant AST of internal enums. (ilutov)

Curl:

FIxed bug GH-15547 (curl_multi_select overflow on timeout argument). (David Carlier)

DOM:

Fixed bug GH-15551 (Segmentation fault (access null pointer) in ext/dom/xml_common.h). (nielsdos)
Fixed bug GH-15654 (Signed integer overflow in ext/dom/nodelist.c). (nielsdos)

Fileinfo:

Fixed bug GH-15752 (Incorrect error message for finfo_file with an empty filename argument). (DanielEScherzer)

FPM:

Fixed bug GHSA-865w-9rf3-2wh5 (Logs from childrens may be altered). (CVE-2024-9026) (Jakub Zelenka)

MySQLnd:

Fixed bug GH-15432 (Heap corruption when querying a vector). (cmb, Kamil Tekiela)

Opcache:

Fixed bug GH-15661 (Access null pointer in Zend/Optimizer/zend_inference.c). (nielsdos)
Fixed bug GH-15658 (Segmentation fault in Zend/zend_vm_execute.h). (nielsdos)

SAPI:

Fixed bug GHSA-9pqp-7h25-4f32 (Erroneous parsing of multipart form data). (CVE-2024-8925) (Arnaud)

Standard:

Fixed bug GH-15552 (Signed integer overflow in ext/standard/scanf.c). (cmb)

Streams:

Fixed bug GH-15628 (php_stream_memory_get_buffer() not zero-terminated). (cmb)

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