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Program for testing for the DRAM "rowhammer" problem

"Rowhammer" is a problem with recent DRAM modules in which repeatedly accessing a row of memory can cause bit flips in adjacent rows. This repo contains a program for testing for the rowhammer problem which runs as a normal userland process.

The rowhammer problem is described by:

How to run the test:

./make.sh
./rowhammer_test

The test should work on Linux or Mac OS X. It works on x86 only (either x86-32 or x86-64), because it relies on x86's CLFLUSH instruction for flushing cache lines.

Warning #1: We are providing this code as-is. You are responsible for protecting yourself, your property and data, and others from any risks caused by this code. This code may cause unexpected and undesirable behavior to occur on your machine. This code may not detect the vulnerability on your machine.

Be careful not to run this test on machines that contain important data. On machines that are susceptible to the rowhammer problem, this test could cause bit flips that crash the machine, or worse, cause bit flips in data that gets written back to disc.

Warning #2: If you find that a computer is susceptible to the rowhammer problem, you may want to avoid using it as a multi-user system. Bit flips caused by row hammering breach the CPU's memory protection. On a machine that is susceptible to the rowhammer problem, one process can corrupt pages used by other processes or by the kernel.

Mailing list

We invite people to post results from this test on the following mailing list:

https://groups.google.com/group/rowhammer-discuss/

This mailing list is intended to be used for:

  • Reporting experimental results.
  • Discussing avenues of exploitation for rowhammer-induced bit flips.
  • Discussing mitigations.
  • Any other discussion of the rowhammer problem.

How the test works

A row hammering attempt involves picking two or more memory locations and then accessing them, uncached, repeatedly. If the locations are in different rows of DRAM but in the same bank, this will cause the rows to be activated repeatedly. It is these repeated row activations that can cause bit flips in adjacent rows.

We use a probabilistic approach for picking memory locations: We can simply pick random pairs of addresses, and retry repeatedly. If a machine has 16 banks of DRAM, there should be a 1/16 chance that the two addresses chosen map to the same bank. (For example, some machines that I've tested contain 2 DRAM modules with 8 banks each.)

This probabilistic approach means that the test doesn't need to know how the CPU's memory controller maps physical addresses to DRAM row and column numbers, and it doesn't need to know the physical addresses of the memory it has allocated.

The test allocates a large block of memory. It repeatedly picks >2 random addresses within the block, hammers them, and then checks the block for bit flips. If it sees a bit flip, it exits. If it never sees a bit flip, it will run forever.