llvm-project

Commit Graph

Author	SHA1	Message	Date
Dean Michael Berris	238aa1366e	[XRay][compiler-rt] Relocate a DCHECK to the correct location. Fixes a bad DCHECK where the condition being checked is still valid (for iterators pointing to sentinels). Follow-up to D45756. llvm-svn: 332212	2018-05-14 04:21:12 +00:00
Dean Michael Berris	26e81209ef	[XRay][profiler] Part 1: XRay Allocator and Array Implementations Summary: This change is part of the larger XRay Profiling Mode effort. Here we implement an arena allocator, for fixed sized buffers used in a segmented array implementation. This change adds the segmented array data structure, which relies on the allocator to provide and maintain the storage for the segmented array. Key features of the `Allocator` type: * It uses cache-aligned blocks, intended to host the actual data. These blocks are cache-line-size multiples of contiguous bytes. * The `Allocator` has a maximum memory budget, set at construction time. This allows us to cap the amount of data each specific `Allocator` instance is responsible for. * Upon destruction, the `Allocator` will clean up the storage it's used, handing it back to the internal allocator used in sanitizer_common. Key features of the `Array` type: * Each segmented array is always backed by an `Allocator`, which is either user-provided or uses a global allocator. * When an `Array` grows, it grows by appending a segment that's fixed-sized. The size of each segment is computed by the number of elements of type `T` that can fit into cache line multiples. * An `Array` does not return memory to the `Allocator`, but it can keep track of the current number of "live" objects it stores. * When an `Array` is destroyed, it will not return memory to the `Allocator`. Users should clean up the `Allocator` independently of the `Array`. * The `Array` type keeps a freelist of the chunks it's used before, so that trimming and growing will re-use previously allocated chunks. These basic data structures are used by the XRay Profiling Mode implementation to implement efficient and cache-aware storage for data that's typically read-and-write heavy for tracking latency information. We're relying on the cache line characteristics of the architecture to provide us good data isolation and cache friendliness, when we're performing operations like searching for elements and/or updating data hosted in these cache lines. Reviewers: echristo, pelikan, kpw Subscribers: mgorny, llvm-commits Differential Revision: https://reviews.llvm.org/D45756 llvm-svn: 331141	2018-04-29 13:46:30 +00:00

Author

SHA1

Message

Date

Dean Michael Berris

238aa1366e

[XRay][compiler-rt] Relocate a DCHECK to the correct location.

Fixes a bad DCHECK where the condition being checked is still valid (for
iterators pointing to sentinels).

Follow-up to D45756.

llvm-svn: 332212

2018-05-14 04:21:12 +00:00

Dean Michael Berris

26e81209ef

[XRay][profiler] Part 1: XRay Allocator and Array Implementations

Summary:
This change is part of the larger XRay Profiling Mode effort.

Here we implement an arena allocator, for fixed sized buffers used in a
segmented array implementation. This change adds the segmented array
data structure, which relies on the allocator to provide and maintain
the storage for the segmented array.

Key features of the `Allocator` type:

*  It uses cache-aligned blocks, intended to host the actual data. These
   blocks are cache-line-size multiples of contiguous bytes.

*  The `Allocator` has a maximum memory budget, set at construction
   time. This allows us to cap the amount of data each specific
   `Allocator` instance is responsible for.

*  Upon destruction, the `Allocator` will clean up the storage it's
   used, handing it back to the internal allocator used in
   sanitizer_common.

Key features of the `Array` type:

*  Each segmented array is always backed by an `Allocator`, which is
   either user-provided or uses a global allocator.

*  When an `Array` grows, it grows by appending a segment that's
   fixed-sized. The size of each segment is computed by the number of
   elements of type `T` that can fit into cache line multiples.

*  An `Array` does not return memory to the `Allocator`, but it can keep
   track of the current number of "live" objects it stores.

*  When an `Array` is destroyed, it will not return memory to the
   `Allocator`. Users should clean up the `Allocator` independently of
   the `Array`.

*  The `Array` type keeps a freelist of the chunks it's used before, so
   that trimming and growing will re-use previously allocated chunks.

These basic data structures are used by the XRay Profiling Mode
implementation to implement efficient and cache-aware storage for data
that's typically read-and-write heavy for tracking latency information.
We're relying on the cache line characteristics of the architecture to
provide us good data isolation and cache friendliness, when we're
performing operations like searching for elements and/or updating data
hosted in these cache lines.

Reviewers: echristo, pelikan, kpw

Subscribers: mgorny, llvm-commits

Differential Revision: https://reviews.llvm.org/D45756

llvm-svn: 331141

2018-04-29 13:46:30 +00:00

2 Commits