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Cache Types

Basic Caches

These caches are objects that represent a single cache (possibly with slices)

  • Cache
    all other caches derive from this abstract class
  • SACache
    Standard set-associative cache that can use the policies defined below.
    Faster than GenericCache as it's single-purpose.
  • GenericCache
    This cache implements the model defined by Purnal et al. in the paper Systematic Analysis of Randomization-based Protected Cache Architectures
    By using the mapping functions below, it can implement a large variety of randomized and standard cache designs.
  • ScatterCache
    Old implementation of ScatterCache, uses SHA256 and is therefore slow. Superseded by GenericCache, see below.

Combined Caches

These caches represent collections or modifiers of basic caches

  • SplitCache
    Takes 2 basic caches and treats one as an instruction cache and the other as the the data cache.
    Accesses are split between the two according to the instruction flag for accesses.
  • CacheHierarchy
    Takes n caches and places them in a hierarchy.
    Currently only the inclusive mode is reasonably well tested.

    inclusive mode:

    Read accesses are served from the lowest cache level possible and cached in lower levels along the way.
    Writes are propagated all the way to the top level regardless of hits on lower levels and update all replacement policies.
    Evictions in higher-level caches trigger flushes in lower level caches to maintain inclusivity.
  • NoisyCache
    Adds a defined amount of noise accesses for every normal access.
    Currently relies on security domains for randomness of the noise, should not be used with non-randomized caches as it simply accesses address linearly from 0.

Replacement Policies

Replacement policy objects can be used with SACache and GenericCache.

    CacheConfig l1_config = {cache_line_bits, cache_way_bits, cache_slices, cache_line_size_bits};
    RP_PLRU l1_policy(l1_config);

Mapping Functions

These objects implement the mapping function R for GenericCache.

  • RMapper
    Default linear mapping from address to set. Implements standard set-associattive cache behaviour.
  • RAES_NI
    Randomized mapping with AES NI hardware instructions
    Can implement ScatterCache, CEASER-S and similar
  • RSHA256
    Randomized mapping based on a SHA256 software implementation.
  • RSASS_AES_NI
    Randomized scattered mapping with AES NI hardware instructions. Implements SassCache.
  • RCAT
    Implements a partitioned cache that is split along the ways like Intel CAT.

CacheConfig

All basic caches take a CacheConfig as an argument:

    struct CacheConfig {
      unsigned line_bits;
      unsigned way_bits;
      unsigned slices;
      unsigned line_size_bits;
    };

The parameters are given in bits, as only powers of 2 are currently supported.

GenericCache

The generic cache is intialized according to the model by Purnal et al.
The arguments are a CacheConfig object, a policy object, an R object and the number of partitions P.
It is important that the parameters shared by the R object and the cache (config and p) are the same. For example, a standard set assosciative cache can be set up like this:

    CacheConfig config = {cache_line_bits, cache_way_bits, cache_slices, cache_line_size_bits};
    RP_PLRU policy(config);
    unsigned P = 1;
    RMapper R(config, P, 0);
    Cache *g_cache = new GenericCache(config, policy, R, P);

ScatterCache can be set up like this:

    CacheConfig config = {cache_line_bits, cache_way_bits, cache_slices, cache_line_size_bits};

    //P = n_ways for full scattering (scattercache and sass)
    unsigned P = 1 << (config.way_bits);

    RP_RANDOM policy_random(config);

    RAES_NI R_AES(config, P, ((uint64_t)rand()<<32) + (uint64_t)rand()); //generate a random secret
    Cache *scattercache = new GenericCache(config, policy_random, R_AES, P)

Tests

Test examples are provided as is and could be partially outdated due to changes in the codebase, though they should compile. They can be used as a reference how to use various features.

Build with make attack_sim (without .cpp), run with attack_sim.x.

misc

make clean and prepend DEBUG=1 to make to enable assert sanity checks

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