hardened_malloc/README.md

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Debian stable determines the most ancient set of supported dependencies:
* glibc 2.24
* Linux 4.9
* Clang 3.8 or GCC 6.3
However, using more recent releases is highly recommended. Older versions of
the dependencies may be compatible at the moment but are not tested and will
explicitly not be supported.
# Basic design
The current design is very simple and will become a bit more sophisticated as
the basic features are completed and the implementation is hardened and
optimized. The allocator is exclusive to 64-bit platforms in order to take full
advantage of the abundant address space without being constrained by needing to
keep the design compatible with 32-bit.
Small allocations are always located in a large memory region reserved for slab
allocations. It can be determined that an allocation is one of the small size
classes from the address range. Each small size class has a separate reserved
region within the larger region, and the size of a small allocation can simply
be determined from the range. Each small size class has a separate out-of-line
metadata array outside of the overall allocation region, with the index of the
metadata struct within the array mapping to the index of the slab within the
dedicated size class region. Slabs are a multiple of the page size and are
paged aligned. The entire small size class region starts out memory protected
and becomes readable / writable as it gets allocated, with idle slabs beyond
the cache limit having their pages dropped and the memory protected again.
Large allocations are tracked via a global hash table mapping their address to
their size and guard size. They're simply memory mappings and get mapped on
allocation and then unmapped on free.
# Security properties
* Fully out-of-line metadata
* Deterministic detection of any invalid free (unallocated, unaligned, etc.)
* Isolated memory region for slab allocations
* Divided up into isolated inner regions for each size class, with a high
entropy random base for each one
* No deterministic offsets from one size class to another
2018-08-26 11:11:22 +00:00
* Metadata is completely outside the slab allocation region
* Fine-grained randomization within memory regions
* Randomly sized guard regions for large allocations
* Random slot selection within slabs
* [in-progress] Randomized delayed free for slab allocations
* [in-progress] Randomized allocation of slabs
* [more randomization coming as the implementation is matured]
* Slab allocations are zeroed on free and large allocations are unmapped
* [in-progress] Detection of write-after-free by verifying zero filling is
intact
* Memory in fresh allocations is consistently zeroed due to it either being
fresh pages or zeroed on free after previous usage
* [in-progress] Delayed free via a combination of FIFO and randomization for
slab allocations
* [in-progress] Random canaries placed after each slab allocation to *absorb*
and then later detect overflows/underflows
* High entropy per-slab random values
* Mangled into a unique value per slab slot (although not with a strong
keyed hash due to performance limitations)
* [in-progress] Some slab locations are skipped and remain memory protected,
leaving slab size class regions interspersed with guard pages
* Zero size allocations are memory protected
* [mostly in-progress] Protected allocator metadata
* [in-progress] Extension for retrieving the size of allocations with fallback
to a sentinel for pointers not managed by the allocator
* Can also return accurate values for pointers *within* small allocations
* The same applies to pointers within the first page of large allocations,
otherwise it currently has to return a sentinel
# Size classes
The zero byte size class is a special case of the smallest regular size class. It's allocated in a
separate region with the memory left non-readable and non-writable.
The slab slot count for each size class is not yet finely tuned beyond choosing values avoiding
internal fragmentation for slabs (i.e. avoiding wasted space due to page size rounding).
The choice of size classes is the same as jemalloc, but with a much different approach to the
slabs containing them:
> size classes are multiples of the quantum [16], spaced such that there are four size classes for
> each doubling in size, which limits internal fragmentation to approximately 20% for all but the
> smallest size classes
| size class | worst case internal fragmentation | slab slots | slab size | worst case internal fragmentation for slabs |
| - | - | - | - | - |
| 16 | 100% | 256 | 4096 | 0.0% |
| 32 | 46.875% | 128 | 4096 | 0.0% |
| 48 | 31.25% | 85 | 4096 | 0.390625% |
| 64 | 23.4375% | 64 | 4096 | 0.0% |
| 80 | 18.75% | 51 | 4096 | 0.390625% |
| 96 | 15.625% | 42 | 4096 | 1.5625% |
| 112 | 13.392857142857139% | 36 | 4096 | 1.5625% |
| 128 | 11.71875% | 64 | 8192 | 0.0% |
| 160 | 19.375% | 51 | 8192 | 0.390625% |
| 192 | 16.145833333333343% | 64 | 12288 | 0.0% |
| 224 | 13.839285714285708% | 54 | 12288 | 1.5625% |
| 256 | 12.109375% | 64 | 16384 | 0.0% |
| 320 | 19.6875% | 64 | 20480 | 0.0% |
| 384 | 16.40625% | 64 | 24576 | 0.0% |
| 448 | 14.0625% | 64 | 28672 | 0.0% |
| 512 | 12.3046875% | 64 | 32768 | 0.0% |
| 640 | 19.84375% | 64 | 40960 | 0.0% |
| 768 | 16.536458333333343% | 64 | 49152 | 0.0% |
| 896 | 14.174107142857139% | 64 | 57344 | 0.0% |
| 1024 | 12.40234375% | 64 | 65536 | 0.0% |
| 1280 | 19.921875% | 16 | 20480 | 0.0% |
| 1536 | 16.6015625% | 16 | 24576 | 0.0% |
| 1792 | 14.229910714285708% | 16 | 28672 | 0.0% |
| 2048 | 12.451171875% | 16 | 32768 | 0.0% |
| 2560 | 19.9609375% | 8 | 20480 | 0.0% |
| 3072 | 16.634114583333343% | 8 | 24576 | 0.0% |
| 3584 | 14.2578125% | 8 | 28672 | 0.0% |
| 4096 | 12.4755859375% | 8 | 32768 | 0.0% |
| 5120 | 19.98046875% | 8 | 40960 | 0.0% |
| 6144 | 16.650390625% | 8 | 49152 | 0.0% |
| 7168 | 14.271763392857139% | 8 | 57344 | 0.0% |
| 8192 | 12.48779296875% | 8 | 65536 | 0.0% |
| 10240 | 19.990234375% | 6 | 61440 | 0.0% |
| 12288 | 16.658528645833343% | 5 | 61440 | 0.0% |
| 14336 | 14.278738839285708% | 4 | 57344 | 0.0% |
| 16384 | 12.493896484375% | 4 | 65536 | 0.0% |