In core_info_read and inst_info_read in all Android releases from CAF using the Linux kernel, variable dbg_buf, dbg_buf->curr and dbg_buf->filled_size could be modified by different threads at the same time, but they are not protected with mutex or locks. Buffer overflow is possible on race conditions. buffer->curr itself could also be overwritten, which means that it may point to anywhere of kernel memory (for write).
The product contains a concurrent code sequence that requires temporary, exclusive access to a shared resource, but a timing window exists in which the shared resource can be modified by another code sequence operating concurrently.
| Name | Vendor | Start Version | End Version |
|---|---|---|---|
| Android | - (including) | - (including) |
A race condition occurs within concurrent environments, and it is effectively a property of a code sequence. Depending on the context, a code sequence may be in the form of a function call, a small number of instructions, a series of program invocations, etc. A race condition violates these properties, which are closely related:
A race condition exists when an “interfering code sequence” can still access the shared resource, violating exclusivity. The interfering code sequence could be “trusted” or “untrusted.” A trusted interfering code sequence occurs within the product; it cannot be modified by the attacker, and it can only be invoked indirectly. An untrusted interfering code sequence can be authored directly by the attacker, and typically it is external to the vulnerable product.