The vulnerability of embedded software developed by Qualcomm, related to the execution of operations outside the buffer in memory, allows attackers to cause system failures.

The vulnerability of embedded Qualcomm software is related to the execution of operations outside the buffer in memory. Exploiting this vulnerability can allow a malicious actor to cause system failures...

The vulnerability of embedded software developed by Qualcomm, related to unverified array indexing, allows a hacker to execute arbitrary code.

The vulnerability of microprogramming software in embedded Qualcomm chips is related to unverified array indexing. Exploiting this vulnerability can allow attackers to execute arbitrary code...

The vulnerability of embedded software developed by Qualcomm, related to the execution of operations outside the buffer in memory, allows attackers to cause system failures.

The vulnerability of embedded Qualcomm software is related to the execution of operations outside the buffer in memory. Exploiting this vulnerability can allow a malicious actor to cause system failures...

The vulnerability of embedded software developed by Qualcomm, related to the swapping of the zero pointer, allows a hacker to trigger a service failure.

The vulnerability of embedded software developed for Qualcomm chips relates to the manipulation of the zero pointer. Exploiting this vulnerability can allow attackers to cause system failures...

The vulnerability of embedded software developed by Qualcomm, related to the execution of operations outside the buffer in memory, allows attackers to disclose protected information.

The vulnerability of microprogramming software in embedded Qualcomm chips is related to the execution of operations beyond buffer boundaries in memory. Exploiting this vulnerability can allow a malicious actor to disclose protected information during RTCP protocol processing...

The vulnerability of embedded software developed by Qualcomm, related to the pointer shifting beyond the allocated memory space, allows a malicious actor to cause a system failure.

The vulnerability of embedded software developed by Qualcomm relates to the pointer being moved beyond the allocated memory space. Exploiting this vulnerability could allow an attacker to cause a system failure...

The vulnerability of embedded software developed by Qualcomm, related to unvalidated array indexing, allows attackers to influence the integrity, accessibility, and confidentiality of protected information.

The vulnerability of microprogramming software in embedded Qualcomm chips is related to unverified array indexing. Exploiting this vulnerability can allow attackers to influence the integrity, accessibility, and confidentiality of the protected information...

The vulnerability of embedded software developed by Qualcomm, related to the execution of operations outside the buffer in memory, allows attackers to disclose protected information.

The vulnerability of embedded software developed for Qualcomm chips lies in the fact that operations are performed outside of the buffer in memory. Exploiting this vulnerability can allow attackers to disclose protected information...

The vulnerability of the hab_ioctl() function in Qualcomm’s embedded software allows a hacker to disclose protected information.

The vulnerability of the habioctl function in Qualcomm’s embedded software lies in the fact that the operation results are written outside of the buffer in memory. Exploiting this vulnerability can allow an attacker to disclose sensitive information that is protected by security measures...

The vulnerability of embedded software developed by Qualcomm, related to uncontrolled implementation of certain certifications, allows attackers to cause system failures.

The vulnerability of embedded Qualcomm software is related to an uncontrolled and exploitable specification. Exploiting this vulnerability could allow a malicious actor to cause service failures...

The vulnerability of embedded software developed by Qualcomm, related to insufficient validation of input data, allows attackers to trigger service failures.

The vulnerability of embedded Qualcomm software is related to insufficient validation of input data when receiving messages related to connection configuration from the RRC. Exploiting this vulnerability can allow a remote attacker to cause service failures...

The vulnerability of embedded software developed by Qualcomm, related to the lack of use of the assert() function, allows a malicious actor to cause service failures.

The vulnerability of embedded software developed for Qualcomm chips lies in the lack of utilization of the assert function. Exploiting this vulnerability can allow a malicious actor to cause service failures remotely...

The vulnerability of embedded software developed by Qualcomm, related to copying from buffers without checking the size of the input data, allows a violator to execute arbitrary code.

The vulnerability of microprogramming software in embedded Qualcomm chips lies in the copying of input data from the buffer without checking its size. Exploiting this vulnerability can allow an attacker to execute arbitrary code...

The vulnerability of embedded software developed by Qualcomm, related to the lack of protection for service data, allows attackers to disclose the protected information.

The vulnerability of embedded software developed by Qualcomm relates to the lack of protection for operational data. Exploiting this vulnerability can allow a malicious actor, operating remotely, to disclose the protected information...

The vulnerability of the implementation of content protection functions in Qualcomm’s embedded software allows a perpetrator to trigger a service failure or execute arbitrary code.

The vulnerability of the content protection implementation in Qualcomm’s embedded software lies in the lack of checks for buffer length and reading beyond the memory boundary. Exploiting this vulnerability can allow an attacker to cause a service failure or execute arbitrary code...

The vulnerability of the Audio component in Qualcomm’s embedded software allows a hacker to trigger a service failure or execute arbitrary code.

The vulnerability of the Audio microprogramming component in Qualcomm’s embedded chips is related to a numerical overflow during the playback of WMA format files. Exploiting this vulnerability can allow an attacker to cause system failures or execute arbitrary code...

The vulnerability of embedded software developed by Qualcomm, caused by buffer overflows, allows attackers to compromise the confidentiality, integrity, and accessibility of protected information.

The vulnerability of microprogramming software in embedded Qualcomm devices arises due to buffer overflows. Exploiting this vulnerability can allow attackers to compromise the confidentiality, integrity, and accessibility of protected information as a result of incorrect input validation in the P...

The vulnerability of embedded software developed by Qualcomm, caused by buffer overflows in the heap, allows attackers to compromise the confidentiality, integrity, and accessibility of protected information.

The vulnerability of embedded software developed by Qualcomm stems from buffer overflows in the heap. Exploiting this vulnerability allows a remote attacker to compromise the confidentiality, integrity, and accessibility of the protected information...

The vulnerability of the FTM Diag command implementation in Qualcomm’s embedded software allows a hacker to write into the operating system space of the modem.

The vulnerability of the FTM Diag command in Qualcomm’s embedded software implementations arises from the execution of operations outside the buffer in memory. Exploiting this vulnerability can allow an attacker to write data into the operating system space of the modem...

The vulnerability of embedded software developed by Qualcomm, due to insufficient testing of input data, allows attackers to compromise the confidentiality, integrity, and accessibility of protected information.

The vulnerability of microprogramming software in embedded Qualcomm devices exists due to insufficient testing of input data. Exploiting this vulnerability can allow attackers to compromise the confidentiality, integrity, and accessibility of protected information...