Memory corruption occurs during the copying of read data from the EEPROM because the IO configuration is exposed as shared memory.
Memory corruption when the user application modifies the same shared memory asynchronously when kernel is accessing it.
Memory Corruption when output buffer size is smaller than input buffer size during data copying operation.
Memory corruption while performing sensor register read operations.
Memory corruption may occur during IO configuration processing when the IO port count is invalid.
Memory corruption occurs when a secure application is launched on a device with insufficient memory.
Memory corruption when copying overlapping buffers during memory operations due to incorrect offset calculations.
Memory corruption while processing user buffers.
Memory corruption during sub-system restart while processing clean-up to free up resources.
Memory Corruption when running a memory copy operation due to invalid writes caused by a null pointer.
Memory corruption while maintaining memory maps of HLOS memory.
Memory Corruption when writing to invalid memory locations occurs due to heap memory exhaustion during secure data initialization.
Memory corruption while copying the result to the transmission queue which is shared between the virtual machine and the host.
Memory corruption while reading a value from a buffer controlled by the Guest Virtual Machine.
Memory corruption during concurrent buffer access due to modification of the reference count.
Memory corruption when memory mapped in a VBO is not unmapped by the GPU SMMU.
Memory corruption while accessing a synchronization object during concurrent operations.
Memory corruption may occur while processing message from frontend during allocation.
Memory corruption when the captureRead QDCM command is invoked from user-space.
Memory corruption may occur while accessing a variable during extended back to back tests.
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