Commit Graph

7 Commits

Author SHA1 Message Date
David Chisnall
f6e9796bbc Introduce header layering (#503)
See src/snmalloc/README.md for an explanation of the layers.

Some other cleanups on the way:

Fine-grained stats support is now gone.

It's been broken for two years, it depends on iostream (which then
causes linker failures with libstdc++) and it's collecting the wrong
stats for the new design.  After discussion with @mjp41, it's better to
remove it and introduce new stats support later, rather than keep broken
code in the main branch.

Tracing was controlled with a preprocessor macro, now there's also a
CMake option.
2022-04-06 09:59:33 +01:00
Matthew Parkinson
3d403aef7f Refactor use of sizeclasses (#415)
The primary aim for this refactor is to use a representation for
sizeclasses that uniformly covers both large and small.  This allows
certain operations such as alloc_size and external_pointer to be
uniformly implemented.

The additional types make clear which kind of sizeclass is in use.

This also tidies up the code for sizeclass based divisible by and
modulus.

It fixes a bug in rust_realloc that didn't correctly determine a realloc
was required for large classes.
2021-11-10 16:35:44 +00:00
Matthew Parkinson
f0e2ab702a Major refactor of snmalloc (#343)
# Pagemap
 
The Pagemap now stores all the meta-data for the object allocation. The meta-data in the pagemap is effectively a triple of the sizeclass, the remote allocator, and a pointer to a 64 byte block of meta-data for this chunk of memory. By storing the pointer to a block, it allows the pagemap to handle multiple slab sizes without branching on the fast path. There is one entry in the pagemap per 16KiB of address space, but by using the same entry in the pagemap for 4 adjacent entries, then we can treat a 64KiB range can be treated as a single slab of allocations.

This change also means there is almost no capability amplification required by the implementation on CHERI for finding meta-data. The only amplification is required, when we change the way a chunk is used to a size of object allocation.


# Backend

There is a second major aspect of the refactor that there is now a narrow API that abstracts the Pagemap, PAL and address space management. This should better enable the compartmentalisation and makes it easier to produce alternative backends for various research directions. This is a template parameter that can be used to specialised by the front-end in different ways.

# Thread local state

The thread local state has been refactored into two components, one (called 'localalloc') that is stored directly in the TLS and is constant initialised, and one that is allocated in the address space (called 'coreallloc') which is lazily created and pooled.

# Difference

This removes Superslabs/Medium slabs as there meta-data is now part of the pagemap.
2021-07-12 15:53:36 +01:00
Nathaniel Filardo
6259457790 Add -Wconversion to clang builds
MSVC has strong opinions on implicit conversions as used in CI, while Clang both
locally and in CI has weaker opinions.  In an effort to avoid subsequent
roundtrips through CI, make clang more strict.  Adding -Wconversion definitely
increases the strength of clang's opinions, apparently to include frowning on
some that even MSVC considers OK, so go make explicit the current implicit
behavior.
2021-03-01 20:18:01 +00:00
Matthew Parkinson
070aa9467d First calloc test. 2020-04-14 11:39:00 +01:00
Matthew Parkinson
74657d9dbc Defensive code for alloc/dealloc during TLS teardown (#161)
* Defensive code for alloc/dealloc during TLS teardown

If an allocation or deallocation occurs during TLS teardown, then it is
possible for a new allocator to be created and then this is leaked. On
the mimalloc-bench mstressN benchmark this was observed leading to a
large memory leak.

This fix, detects if we are in the TLS teardown phase, and if so,
the calls to alloc or dealloc must return the allocator once they have
perform the specific operation.

Uses a separate variable to represent if a thread_local's destructor has
run already.  This is used to detect thread teardown to put the
allocator into a special slow path to avoid leaks.

* Added some printing first operation to track progress

* Improve error messages on posix

Flush errors, print assert details, and present stack traces.

* Detect incorrect use of pool.

* Clang format.

* Replace broken LL/SC implementation

LL/SC implementation was broken, this replaces it with
a locking implementation. Changes the API to support LL/SC
for future implementation on ARM.

* Improve TLS teardown.

* Make std::function fully inlined.

* Factor out PALLinux stack trace.

* Add checks for leaking allocators.

* Add release build of Windows Clang
2020-04-07 15:37:26 +01:00
Matthew Parkinson
d900e29424 Improve slow path performance for allocation (#143)
* Remote dealloc refactor.

* Improve remote dealloc

Change remote to count down to 0, so fast path does not need a constant.

Use signed value so that branch does not depend on addition.

* Inline remote_dealloc

The fast path of remote_dealloc is sufficiently compact that it can be
inlined.

* Improve fast path in Slab::alloc

Turn the internal structure into tail calls, to improve fast path.
Should be no algorithmic changes.

* Refactor initialisation to help fast path.

Break lazy initialisation into two functions, so it is easier to codegen
fast paths.

* Minor tidy to statically sized dealloc.

* Refactor semi-slow path for alloc

Make the backup path a bit faster.  Only algorithmic change is to delay
checking for first allocation. Otherwise, should be unchanged.

* Test initial operation of a thread

The first operation a new thread takes is special.  It results in
allocating an allocator, and swinging it into the TLS.  This makes
this a very special path, that is rarely tested.  This test generates
a lot of threads to cover the first alloc and dealloc operations.

* Correctly handle reusing get_noncachable

* Fix large alloc stats

Large alloc stats aren't necessarily balanced on a thread, this changes
to tracking individual pushs and pops, rather than the net effect
(with an unsigned value).

* Fix TLS init on large alloc path

* Add Bump ptrs to allocator

Each allocator has a bump ptr for each size class.  This is no longer
slab local.

Slabs that haven't been fully allocated no longer need to be in the DLL
for this sizeclass.

* Change to a cycle non-empty list

This change reduces the branching in the case of finding a new free
list. Using a non-empty cyclic list enables branch free add, and a
single branch in remove to detect the empty case.

* Update differences

* Rename first allocation

Use needs initialisation as makes more sense for other scenarios.

* Use a ptrdiff to help with zero init.

* Make GlobalPlaceholder zero init

The GlobalPlaceholder allocator is now a zero init block of memory.
This removes various issues for when things are initialised. It is made read-only
to we detect write to it on some platforms.
2020-03-31 09:17:53 +01:00