vfio

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Published: Dec 18, 2024 License: Apache-2.0, MIT Imports: 30 Imported by: 0

Documentation

Overview

Package vfio implements a proxy for VFIO devices.

Index

Constants

View Source
const (
	// minDegree is the minimum degree of an internal node in a Set B-tree.
	//
	//	- Any non-root node has at least minDegree-1 segments.
	//
	//	- Any non-root internal (non-leaf) node has at least minDegree children.
	//
	//	- The root node may have fewer than minDegree-1 segments, but it may
	// only have 0 segments if the tree is empty.
	//
	// Our implementation requires minDegree >= 3. Higher values of minDegree
	// usually improve performance, but increase memory usage for small sets.
	DevAddrminDegree = 3

	DevAddrmaxDegree = 2 * DevAddrminDegree
)
View Source
const (
	// VFIO_MINOR is the VFIO minor number from include/linux/miscdevice.h.
	VFIO_MINOR = 196

	// VFIOPath is the valid path to a VFIO device.
	VFIOPath = "/dev/vfio/vfio"
)
View Source
const DevAddrtrackGaps = 0

trackGaps is an optional parameter.

If trackGaps is 1, the Set will track maximum gap size recursively, enabling the GapIterator.{Prev,Next}LargeEnoughGap functions. In this case, Key must be an unsigned integer.

trackGaps must be 0 or 1.

Variables

This section is empty.

Functions

func DevAddrzeroNodeSlice

func DevAddrzeroNodeSlice(slice []*DevAddrnode)

func DevAddrzeroValueSlice

func DevAddrzeroValueSlice(slice []__generics_imported0.PinnedRange)

func GetTPUDeviceMajor

func GetTPUDeviceMajor(vfsObj *vfs.VirtualFilesystem) (uint32, error)

GetTPUDeviceMajor returns the dynamically allocated major number for the vfio device.

func RegisterTPUDevice

func RegisterTPUDevice(vfsObj *vfs.VirtualFilesystem, minor, deviceNum uint32, useDevGofer bool) error

RegisterTPUDevice registers devices implemented by this package in vfsObj.

func RegisterVFIODevice

func RegisterVFIODevice(vfsObj *vfs.VirtualFilesystem, useDevGofer bool) error

RegisterVFIODevice registers VFIO devices that are implemented by this package in vfsObj.

Types

type DevAddrFlatSegment

type DevAddrFlatSegment struct {
	Start uint64
	End   uint64
	Value __generics_imported0.PinnedRange
}

FlatSegment represents a segment as a single object. FlatSegment is used as an intermediate representation for save/restore and tests.

+stateify savable

func (*DevAddrFlatSegment) StateFields

func (d *DevAddrFlatSegment) StateFields() []string

func (*DevAddrFlatSegment) StateLoad

func (d *DevAddrFlatSegment) StateLoad(ctx context.Context, stateSourceObject state.Source)

+checklocksignore

func (*DevAddrFlatSegment) StateSave

func (d *DevAddrFlatSegment) StateSave(stateSinkObject state.Sink)

+checklocksignore

func (*DevAddrFlatSegment) StateTypeName

func (d *DevAddrFlatSegment) StateTypeName() string

type DevAddrGapIterator

type DevAddrGapIterator struct {
	// contains filtered or unexported fields
}

A GapIterator is conceptually one of:

  • A pointer to a position between two segments, before the first segment, or after the last segment in a set, called a *gap*; or

  • A terminal iterator, which is a sentinel indicating that the end of iteration has been reached.

Note that the gap between two adjacent segments exists (iterators to it are non-terminal), but has a length of zero. GapIterator.IsEmpty returns true for such gaps. An empty set contains a single gap, spanning the entire range of the set's keys.

GapIterators are copyable values and are meaningfully equality-comparable. The zero value of GapIterator is a terminal iterator.

Unless otherwise specified, any mutation of a set invalidates all existing iterators into the set.

func (DevAddrGapIterator) End

func (gap DevAddrGapIterator) End() uint64

End is equivalent to Range().End, but should be preferred if only the end of the range is needed.

func (DevAddrGapIterator) IsEmpty

func (gap DevAddrGapIterator) IsEmpty() bool

IsEmpty returns true if the iterated gap is empty (that is, the "gap" is between two adjacent segments.)

func (DevAddrGapIterator) NextGap

func (gap DevAddrGapIterator) NextGap() DevAddrGapIterator

NextGap returns the iterated gap's successor. If no such gap exists, NextGap returns a terminal iterator.

func (DevAddrGapIterator) NextLargeEnoughGap

func (gap DevAddrGapIterator) NextLargeEnoughGap(minSize uint64) DevAddrGapIterator

NextLargeEnoughGap returns the iterated gap's first next gap with larger length than minSize. If not found, return a terminal gap iterator (does NOT include this gap itself).

Precondition: trackGaps must be 1.

func (DevAddrGapIterator) NextSegment

func (gap DevAddrGapIterator) NextSegment() DevAddrIterator

NextSegment returns the segment immediately after the iterated gap. If no such segment exists, NextSegment returns a terminal iterator.

func (DevAddrGapIterator) Ok

func (gap DevAddrGapIterator) Ok() bool

Ok returns true if the iterator is not terminal. All other methods are only valid for non-terminal iterators.

func (DevAddrGapIterator) PrevGap

func (gap DevAddrGapIterator) PrevGap() DevAddrGapIterator

PrevGap returns the iterated gap's predecessor. If no such gap exists, PrevGap returns a terminal iterator.

func (DevAddrGapIterator) PrevLargeEnoughGap

func (gap DevAddrGapIterator) PrevLargeEnoughGap(minSize uint64) DevAddrGapIterator

PrevLargeEnoughGap returns the iterated gap's first prev gap with larger or equal length than minSize. If not found, return a terminal gap iterator (does NOT include this gap itself).

Precondition: trackGaps must be 1.

func (DevAddrGapIterator) PrevSegment

func (gap DevAddrGapIterator) PrevSegment() DevAddrIterator

PrevSegment returns the segment immediately before the iterated gap. If no such segment exists, PrevSegment returns a terminal iterator.

func (DevAddrGapIterator) Range

func (gap DevAddrGapIterator) Range() DevAddrRange

Range returns the range spanned by the iterated gap.

func (DevAddrGapIterator) Start

func (gap DevAddrGapIterator) Start() uint64

Start is equivalent to Range().Start, but should be preferred if only the start of the range is needed.

type DevAddrIterator

type DevAddrIterator struct {
	// contains filtered or unexported fields
}

A Iterator is conceptually one of:

  • A pointer to a segment in a set; or

  • A terminal iterator, which is a sentinel indicating that the end of iteration has been reached.

Iterators are copyable values and are meaningfully equality-comparable. The zero value of Iterator is a terminal iterator.

Unless otherwise specified, any mutation of a set invalidates all existing iterators into the set.

func DevAddrsegmentAfterPosition

func DevAddrsegmentAfterPosition(n *DevAddrnode, i int) DevAddrIterator

segmentAfterPosition returns the successor segment of the position given by n.children[i], which may or may not contain a child. If no such segment exists, segmentAfterPosition returns a terminal iterator.

func DevAddrsegmentBeforePosition

func DevAddrsegmentBeforePosition(n *DevAddrnode, i int) DevAddrIterator

segmentBeforePosition returns the predecessor segment of the position given by n.children[i], which may or may not contain a child. If no such segment exists, segmentBeforePosition returns a terminal iterator.

func (DevAddrIterator) End

func (seg DevAddrIterator) End() uint64

End is equivalent to Range().End, but should be preferred if only the end of the range is needed.

func (DevAddrIterator) NextGap

func (seg DevAddrIterator) NextGap() DevAddrGapIterator

NextGap returns the gap immediately after the iterated segment.

func (DevAddrIterator) NextNonEmpty

func (seg DevAddrIterator) NextNonEmpty() (DevAddrIterator, DevAddrGapIterator)

NextNonEmpty returns the iterated segment's successor if it is adjacent, or the gap after the iterated segment otherwise. If seg.End() == Functions.MaxKey(), NextNonEmpty will return two terminal iterators. Otherwise, exactly one of the iterators returned by NextNonEmpty will be non-terminal.

func (DevAddrIterator) NextSegment

func (seg DevAddrIterator) NextSegment() DevAddrIterator

NextSegment returns the iterated segment's successor. If there is no succeeding segment, NextSegment returns a terminal iterator.

func (DevAddrIterator) Ok

func (seg DevAddrIterator) Ok() bool

Ok returns true if the iterator is not terminal. All other methods are only valid for non-terminal iterators.

func (DevAddrIterator) PrevGap

func (seg DevAddrIterator) PrevGap() DevAddrGapIterator

PrevGap returns the gap immediately before the iterated segment.

func (DevAddrIterator) PrevNonEmpty

func (seg DevAddrIterator) PrevNonEmpty() (DevAddrIterator, DevAddrGapIterator)

PrevNonEmpty returns the iterated segment's predecessor if it is adjacent, or the gap before the iterated segment otherwise. If seg.Start() == Functions.MinKey(), PrevNonEmpty will return two terminal iterators. Otherwise, exactly one of the iterators returned by PrevNonEmpty will be non-terminal.

func (DevAddrIterator) PrevSegment

func (seg DevAddrIterator) PrevSegment() DevAddrIterator

PrevSegment returns the iterated segment's predecessor. If there is no preceding segment, PrevSegment returns a terminal iterator.

func (DevAddrIterator) Range

func (seg DevAddrIterator) Range() DevAddrRange

Range returns the iterated segment's range key.

func (DevAddrIterator) SetEnd

func (seg DevAddrIterator) SetEnd(end uint64)

SetEnd mutates the iterated segment's end. If the new end value would cause the iterated segment to overlap another segment, or would result in an invalid range, SetEnd panics. This operation does not invalidate any iterators.

func (DevAddrIterator) SetEndUnchecked

func (seg DevAddrIterator) SetEndUnchecked(end uint64)

SetEndUnchecked mutates the iterated segment's end. This operation does not invalidate any iterators.

Preconditions: The new end must be valid:

  • end > seg.Start().
  • If seg.NextSegment().Ok(), then end <= seg.NextSegment().Start().

func (DevAddrIterator) SetRange

func (seg DevAddrIterator) SetRange(r DevAddrRange)

SetRange mutates the iterated segment's range key. If the new range would cause the iterated segment to overlap another segment, or if the new range is invalid, SetRange panics. This operation does not invalidate any iterators.

func (DevAddrIterator) SetRangeUnchecked

func (seg DevAddrIterator) SetRangeUnchecked(r DevAddrRange)

SetRangeUnchecked mutates the iterated segment's range key. This operation does not invalidate any iterators.

Preconditions: - r.Length() > 0. - The new range must not overlap an existing one:

  • If seg.NextSegment().Ok(), then r.end <= seg.NextSegment().Start().
  • If seg.PrevSegment().Ok(), then r.start >= seg.PrevSegment().End().

func (DevAddrIterator) SetStart

func (seg DevAddrIterator) SetStart(start uint64)

SetStart mutates the iterated segment's start. If the new start value would cause the iterated segment to overlap another segment, or would result in an invalid range, SetStart panics. This operation does not invalidate any iterators.

func (DevAddrIterator) SetStartUnchecked

func (seg DevAddrIterator) SetStartUnchecked(start uint64)

SetStartUnchecked mutates the iterated segment's start. This operation does not invalidate any iterators.

Preconditions: The new start must be valid:

  • start < seg.End()
  • If seg.PrevSegment().Ok(), then start >= seg.PrevSegment().End().

func (DevAddrIterator) SetValue

SetValue mutates the iterated segment's value. This operation does not invalidate any iterators.

func (DevAddrIterator) Start

func (seg DevAddrIterator) Start() uint64

Start is equivalent to Range().Start, but should be preferred if only the start of the range is needed.

func (DevAddrIterator) Value

Value returns a copy of the iterated segment's value.

func (DevAddrIterator) ValuePtr

ValuePtr returns a pointer to the iterated segment's value. The pointer is invalidated if the iterator is invalidated. This operation does not invalidate any iterators.

type DevAddrRange

type DevAddrRange struct {
	// Start is the inclusive start of the range.
	Start uint64

	// End is the exclusive end of the range.
	End uint64
}

A Range represents a contiguous range of T.

+stateify savable

func (DevAddrRange) CanSplitAt

func (r DevAddrRange) CanSplitAt(x uint64) bool

CanSplitAt returns true if it is legal to split a segment spanning the range r at x; that is, splitting at x would produce two ranges, both of which have non-zero length.

func (DevAddrRange) Contains

func (r DevAddrRange) Contains(x uint64) bool

Contains returns true if r contains x.

func (DevAddrRange) Intersect

func (r DevAddrRange) Intersect(r2 DevAddrRange) DevAddrRange

Intersect returns a range consisting of the intersection between r and r2. If r and r2 do not overlap, Intersect returns a range with unspecified bounds, but for which Length() == 0.

func (DevAddrRange) IsSupersetOf

func (r DevAddrRange) IsSupersetOf(r2 DevAddrRange) bool

IsSupersetOf returns true if r is a superset of r2; that is, the range r2 is contained within r.

func (DevAddrRange) Length

func (r DevAddrRange) Length() uint64

Length returns the length of the range.

func (DevAddrRange) Overlaps

func (r DevAddrRange) Overlaps(r2 DevAddrRange) bool

Overlaps returns true if r and r2 overlap.

func (*DevAddrRange) StateFields

func (r *DevAddrRange) StateFields() []string

func (*DevAddrRange) StateLoad

func (r *DevAddrRange) StateLoad(ctx context.Context, stateSourceObject state.Source)

+checklocksignore

func (*DevAddrRange) StateSave

func (r *DevAddrRange) StateSave(stateSinkObject state.Sink)

+checklocksignore

func (*DevAddrRange) StateTypeName

func (r *DevAddrRange) StateTypeName() string

func (DevAddrRange) WellFormed

func (r DevAddrRange) WellFormed() bool

WellFormed returns true if r.Start <= r.End. All other methods on a Range require that the Range is well-formed.

type DevAddrSet

type DevAddrSet struct {
	// contains filtered or unexported fields
}

A Set is a mapping of segments with non-overlapping Range keys. The zero value for a Set is an empty set. Set values are not safely movable nor copyable. Set is thread-compatible.

+stateify savable

func (*DevAddrSet) ExportSlice

func (s *DevAddrSet) ExportSlice() []DevAddrFlatSegment

ExportSlice returns a copy of all segments in the given set, in ascending key order.

func (*DevAddrSet) Find

Find returns the segment or gap whose range contains the given key. If a segment is found, the returned Iterator is non-terminal and the returned GapIterator is terminal. Otherwise, the returned Iterator is terminal and the returned GapIterator is non-terminal.

func (*DevAddrSet) FindGap

func (s *DevAddrSet) FindGap(key uint64) DevAddrGapIterator

FindGap returns the gap containing the given key. If no such gap exists (i.e. the set contains a segment containing that key), FindGap returns a terminal iterator.

func (*DevAddrSet) FindSegment

func (s *DevAddrSet) FindSegment(key uint64) DevAddrIterator

FindSegment returns the segment whose range contains the given key. If no such segment exists, FindSegment returns a terminal iterator.

func (*DevAddrSet) FirstGap

func (s *DevAddrSet) FirstGap() DevAddrGapIterator

FirstGap returns the first gap in the set.

func (*DevAddrSet) FirstLargeEnoughGap

func (s *DevAddrSet) FirstLargeEnoughGap(minSize uint64) DevAddrGapIterator

FirstLargeEnoughGap returns the first gap in the set with at least the given length. If no such gap exists, FirstLargeEnoughGap returns a terminal iterator.

Precondition: trackGaps must be 1.

func (*DevAddrSet) FirstSegment

func (s *DevAddrSet) FirstSegment() DevAddrIterator

FirstSegment returns the first segment in the set. If the set is empty, FirstSegment returns a terminal iterator.

func (*DevAddrSet) ImportSlice

func (s *DevAddrSet) ImportSlice(fs []DevAddrFlatSegment) error

ImportSlice initializes the given set from the given slice.

Preconditions:

  • s must be empty.
  • fs must represent a valid set (the segments in fs must have valid lengths that do not overlap).
  • The segments in fs must be sorted in ascending key order.

func (*DevAddrSet) Insert

Insert inserts the given segment into the given gap. If the new segment can be merged with adjacent segments, Insert will do so. Insert returns an iterator to the segment containing the inserted value (which may have been merged with other values). All existing iterators (including gap, but not including the returned iterator) are invalidated.

If the gap cannot accommodate the segment, or if r is invalid, Insert panics.

Insert is semantically equivalent to a InsertWithoutMerging followed by a Merge, but may be more efficient. Note that there is no unchecked variant of Insert since Insert must retrieve and inspect gap's predecessor and successor segments regardless.

func (*DevAddrSet) InsertRange

InsertRange inserts the given segment into the set. If the new segment can be merged with adjacent segments, InsertRange will do so. InsertRange returns an iterator to the segment containing the inserted value (which may have been merged with other values). All existing iterators (excluding the returned iterator) are invalidated.

If the new segment would overlap an existing segment, or if r is invalid, InsertRange panics.

InsertRange searches the set to find the gap to insert into. If the caller already has the appropriate GapIterator, or if the caller needs to do additional work between finding the gap and insertion, use Insert instead.

func (*DevAddrSet) InsertWithoutMerging

InsertWithoutMerging inserts the given segment into the given gap and returns an iterator to the inserted segment. All existing iterators (including gap, but not including the returned iterator) are invalidated.

If the gap cannot accommodate the segment, or if r is invalid, InsertWithoutMerging panics.

func (*DevAddrSet) InsertWithoutMergingRange

func (s *DevAddrSet) InsertWithoutMergingRange(r DevAddrRange, val __generics_imported0.PinnedRange) DevAddrIterator

InsertWithoutMergingRange inserts the given segment into the set and returns an iterator to the inserted segment. All existing iterators (excluding the returned iterator) are invalidated.

If the new segment would overlap an existing segment, or if r is invalid, InsertWithoutMergingRange panics.

InsertWithoutMergingRange searches the set to find the gap to insert into. If the caller already has the appropriate GapIterator, or if the caller needs to do additional work between finding the gap and insertion, use InsertWithoutMerging instead.

func (*DevAddrSet) InsertWithoutMergingUnchecked

func (s *DevAddrSet) InsertWithoutMergingUnchecked(gap DevAddrGapIterator, r DevAddrRange, val __generics_imported0.PinnedRange) DevAddrIterator

InsertWithoutMergingUnchecked inserts the given segment into the given gap and returns an iterator to the inserted segment. All existing iterators (including gap, but not including the returned iterator) are invalidated.

Preconditions:

  • r.Start >= gap.Start().
  • r.End <= gap.End().

func (*DevAddrSet) IsEmpty

func (s *DevAddrSet) IsEmpty() bool

IsEmpty returns true if the set contains no segments.

func (*DevAddrSet) IsEmptyRange

func (s *DevAddrSet) IsEmptyRange(r DevAddrRange) bool

IsEmptyRange returns true iff no segments in the set overlap the given range. This is semantically equivalent to s.SpanRange(r) == 0, but may be more efficient.

func (*DevAddrSet) Isolate

Isolate ensures that the given segment's range is a subset of r by splitting at r.Start and r.End if necessary, and returns an updated iterator to the bounded segment. All existing iterators (including seg, but not including the returned iterators) are invalidated.

Isolate is usually used when mutating part of a single segment, or when mutating segments in a range where the first segment is not necessarily split, making use of SplitBefore/SplitAfter complex.

Preconditions: seg.Range().Overlaps(r).

func (*DevAddrSet) LastGap

func (s *DevAddrSet) LastGap() DevAddrGapIterator

LastGap returns the last gap in the set.

func (*DevAddrSet) LastLargeEnoughGap

func (s *DevAddrSet) LastLargeEnoughGap(minSize uint64) DevAddrGapIterator

LastLargeEnoughGap returns the last gap in the set with at least the given length. If no such gap exists, LastLargeEnoughGap returns a terminal iterator.

Precondition: trackGaps must be 1.

func (*DevAddrSet) LastSegment

func (s *DevAddrSet) LastSegment() DevAddrIterator

LastSegment returns the last segment in the set. If the set is empty, LastSegment returns a terminal iterator.

func (*DevAddrSet) LowerBoundGap

func (s *DevAddrSet) LowerBoundGap(min uint64) DevAddrGapIterator

LowerBoundGap returns the gap with the lowest range that is greater than or equal to min.

func (*DevAddrSet) LowerBoundLargeEnoughGap

func (s *DevAddrSet) LowerBoundLargeEnoughGap(min, minSize uint64) DevAddrGapIterator

LowerBoundLargeEnoughGap returns the first gap in the set with at least the given length and whose range contains a key greater than or equal to min. If no such gap exists, LowerBoundLargeEnoughGap returns a terminal iterator.

Precondition: trackGaps must be 1.

func (*DevAddrSet) LowerBoundSegment

func (s *DevAddrSet) LowerBoundSegment(min uint64) DevAddrIterator

LowerBoundSegment returns the segment with the lowest range that contains a key greater than or equal to min. If no such segment exists, LowerBoundSegment returns a terminal iterator.

func (*DevAddrSet) LowerBoundSegmentSplitBefore

func (s *DevAddrSet) LowerBoundSegmentSplitBefore(min uint64) DevAddrIterator

LowerBoundSegmentSplitBefore combines LowerBoundSegment and SplitBefore.

LowerBoundSegmentSplitBefore is usually used when mutating segments in a range while iterating them in order of increasing keys. In such cases, LowerBoundSegmentSplitBefore provides an iterator to the first segment to be mutated, suitable as the initial value for a loop variable.

func (*DevAddrSet) Merge

func (s *DevAddrSet) Merge(first, second DevAddrIterator) DevAddrIterator

Merge attempts to merge two neighboring segments. If successful, Merge returns an iterator to the merged segment, and all existing iterators are invalidated. Otherwise, Merge returns a terminal iterator.

If first is not the predecessor of second, Merge panics.

func (*DevAddrSet) MergeAll

func (s *DevAddrSet) MergeAll()

MergeAll merges all mergeable adjacent segments in the set. All existing iterators are invalidated.

func (*DevAddrSet) MergeInsideRange

func (s *DevAddrSet) MergeInsideRange(r DevAddrRange)

MergeInsideRange attempts to merge all adjacent segments that contain a key in the specific range. All existing iterators are invalidated.

MergeInsideRange only makes sense after mutating the set in a way that may change the mergeability of modified segments; callers should prefer to use MergePrev or MergeNext during the mutating loop instead (depending on the direction of iteration), in order to avoid a redundant search.

func (*DevAddrSet) MergeNext

func (s *DevAddrSet) MergeNext(seg DevAddrIterator) DevAddrIterator

MergeNext attempts to merge the given segment with its successor if possible, and returns an updated iterator to the extended segment. All existing iterators (including seg, but not including the returned iterator) are invalidated.

MergeNext is usually used when mutating segments while iterating them in order of decreasing keys, to attempt merging of each mutated segment with its previously-mutated successor. In such cases, merging a mutated segment with its unmutated predecessor would incorrectly cause the latter to be skipped.

func (*DevAddrSet) MergeOutsideRange

func (s *DevAddrSet) MergeOutsideRange(r DevAddrRange)

MergeOutsideRange attempts to merge the segment containing r.Start with its predecessor, and the segment containing r.End-1 with its successor.

MergeOutsideRange only makes sense after mutating the set in a way that may change the mergeability of modified segments; callers should prefer to use MergePrev or MergeNext during the mutating loop instead (depending on the direction of iteration), in order to avoid two redundant searches.

func (*DevAddrSet) MergePrev

func (s *DevAddrSet) MergePrev(seg DevAddrIterator) DevAddrIterator

MergePrev attempts to merge the given segment with its predecessor if possible, and returns an updated iterator to the extended segment. All existing iterators (including seg, but not including the returned iterator) are invalidated.

MergePrev is usually used when mutating segments while iterating them in order of increasing keys, to attempt merging of each mutated segment with its previously-mutated predecessor. In such cases, merging a mutated segment with its unmutated successor would incorrectly cause the latter to be skipped.

func (*DevAddrSet) MergeUnchecked

func (s *DevAddrSet) MergeUnchecked(first, second DevAddrIterator) DevAddrIterator

MergeUnchecked attempts to merge two neighboring segments. If successful, MergeUnchecked returns an iterator to the merged segment, and all existing iterators are invalidated. Otherwise, MergeUnchecked returns a terminal iterator.

Precondition: first is the predecessor of second: first.NextSegment() == second, first == second.PrevSegment().

func (*DevAddrSet) MutateFullRange

func (s *DevAddrSet) MutateFullRange(r DevAddrRange, f func(seg DevAddrIterator) bool)

MutateFullRange is equivalent to MutateRange, except that if any key in r that is visited before f returns false does not correspond to a segment, MutateFullRange panics.

func (*DevAddrSet) MutateRange

func (s *DevAddrSet) MutateRange(r DevAddrRange, f func(seg DevAddrIterator) bool)

MutateRange applies the function f to all segments intersecting the range r, in order of ascending keys. Segments that lie partially outside r are split before f is called, such that f only observes segments entirely within r. Iterated segments are merged again after f is called. Non-empty gaps between segments are skipped. If a call to f returns false, MutateRange stops iteration immediately.

MutateRange invalidates all existing iterators.

N.B. f must not invalidate iterators into s.

func (*DevAddrSet) Remove

Remove removes the given segment and returns an iterator to the vacated gap. All existing iterators (including seg, but not including the returned iterator) are invalidated.

func (*DevAddrSet) RemoveAll

func (s *DevAddrSet) RemoveAll()

RemoveAll removes all segments from the set. All existing iterators are invalidated.

func (*DevAddrSet) RemoveFullRange

func (s *DevAddrSet) RemoveFullRange(r DevAddrRange) DevAddrGapIterator

RemoveFullRange is equivalent to RemoveRange, except that if any key in the given range does not correspond to a segment, RemoveFullRange panics.

func (*DevAddrSet) RemoveFullRangeWith

func (s *DevAddrSet) RemoveFullRangeWith(r DevAddrRange, f func(seg DevAddrIterator)) DevAddrGapIterator

RemoveFullRangeWith is equivalent to RemoveRangeWith, except that if any key in the given range does not correspond to a segment, RemoveFullRangeWith panics.

func (*DevAddrSet) RemoveRange

func (s *DevAddrSet) RemoveRange(r DevAddrRange) DevAddrGapIterator

RemoveRange removes all segments in the given range. An iterator to the newly formed gap is returned, and all existing iterators are invalidated.

RemoveRange searches the set to find segments to remove. If the caller already has an iterator to either end of the range of segments to remove, or if the caller needs to do additional work before removing each segment, iterate segments and call Remove in a loop instead.

func (*DevAddrSet) RemoveRangeWith

func (s *DevAddrSet) RemoveRangeWith(r DevAddrRange, f func(seg DevAddrIterator)) DevAddrGapIterator

RemoveRangeWith removes all segments in the given range. An iterator to the newly formed gap is returned, and all existing iterators are invalidated.

The function f is applied to each segment immediately before it is removed, in order of ascending keys. Segments that lie partially outside r are split before f is called, such that f only observes segments entirely within r. Non-empty gaps between segments are skipped.

RemoveRangeWith searches the set to find segments to remove. If the caller already has an iterator to either end of the range of segments to remove, or if the caller needs to do additional work before removing each segment, iterate segments and call Remove in a loop instead.

N.B. f must not invalidate iterators into s.

func (*DevAddrSet) Span

func (s *DevAddrSet) Span() uint64

Span returns the total size of all segments in the set.

func (*DevAddrSet) SpanRange

func (s *DevAddrSet) SpanRange(r DevAddrRange) uint64

SpanRange returns the total size of the intersection of segments in the set with the given range.

func (*DevAddrSet) Split

Split splits the given segment at the given key and returns iterators to the two resulting segments. All existing iterators (including seg, but not including the returned iterators) are invalidated.

If the segment cannot be split at split (because split is at the start or end of the segment's range, so splitting would produce a segment with zero length, or because split falls outside the segment's range altogether), Split panics.

func (*DevAddrSet) SplitAfter

func (s *DevAddrSet) SplitAfter(seg DevAddrIterator, end uint64) DevAddrIterator

SplitAfter ensures that the given segment's end is at most end by splitting at end if necessary, and returns an updated iterator to the bounded segment. All existing iterators (including seg, but not including the returned iterator) are invalidated.

SplitAfter is usually used when mutating segments in a range. In such cases, when iterating segments in order of increasing keys, each iterated segment may extend beyond the end of the range to be mutated, and needs to be SplitAfter to ensure that only the part of the segment within the range is mutated. When iterating segments in order of decreasing keys, SplitBefore and SplitAfter exchange roles; i.e. SplitBefore needs to be invoked on each segment, while SplitAfter only needs to be invoked on the first.

Preconditions: seg.Start() < end.

func (*DevAddrSet) SplitBefore

func (s *DevAddrSet) SplitBefore(seg DevAddrIterator, start uint64) DevAddrIterator

SplitBefore ensures that the given segment's start is at least start by splitting at start if necessary, and returns an updated iterator to the bounded segment. All existing iterators (including seg, but not including the returned iterator) are invalidated.

SplitBefore is usually when mutating segments in a range. In such cases, when iterating segments in order of increasing keys, the first segment may extend beyond the start of the range to be mutated, and needs to be SplitBefore to ensure that only the part of the segment within the range is mutated. When iterating segments in order of decreasing keys, SplitBefore and SplitAfter; i.e. SplitBefore needs to be invoked on each segment, while SplitAfter only needs to be invoked on the first.

Preconditions: start < seg.End().

func (*DevAddrSet) SplitUnchecked

func (s *DevAddrSet) SplitUnchecked(seg DevAddrIterator, split uint64) (DevAddrIterator, DevAddrIterator)

SplitUnchecked splits the given segment at the given key and returns iterators to the two resulting segments. All existing iterators (including seg, but not including the returned iterators) are invalidated.

Preconditions: seg.Start() < key < seg.End().

func (*DevAddrSet) StateFields

func (s *DevAddrSet) StateFields() []string

func (*DevAddrSet) StateLoad

func (s *DevAddrSet) StateLoad(ctx context.Context, stateSourceObject state.Source)

+checklocksignore

func (*DevAddrSet) StateSave

func (s *DevAddrSet) StateSave(stateSinkObject state.Sink)

+checklocksignore

func (*DevAddrSet) StateTypeName

func (s *DevAddrSet) StateTypeName() string

func (*DevAddrSet) String

func (s *DevAddrSet) String() string

String stringifies a Set for debugging.

func (*DevAddrSet) TryInsertRange

TryInsertRange attempts to insert the given segment into the set. If the new segment can be merged with adjacent segments, TryInsertRange will do so. TryInsertRange returns an iterator to the segment containing the inserted value (which may have been merged with other values). All existing iterators (excluding the returned iterator) are invalidated.

If the new segment would overlap an existing segment, TryInsertRange does nothing and returns a terminal iterator.

TryInsertRange searches the set to find the gap to insert into. If the caller already has the appropriate GapIterator, or if the caller needs to do additional work between finding the gap and insertion, use Insert instead.

func (*DevAddrSet) TryInsertWithoutMergingRange

func (s *DevAddrSet) TryInsertWithoutMergingRange(r DevAddrRange, val __generics_imported0.PinnedRange) DevAddrIterator

TryInsertWithoutMergingRange attempts to insert the given segment into the set. If successful, it returns an iterator to the inserted segment; all existing iterators (excluding the returned iterator) are invalidated. If the new segment would overlap an existing segment, TryInsertWithoutMergingRange does nothing and returns a terminal iterator.

TryInsertWithoutMergingRange searches the set to find the gap to insert into. If the caller already has the appropriate GapIterator, or if the caller needs to do additional work between finding the gap and insertion, use InsertWithoutMerging instead.

func (*DevAddrSet) Unisolate

func (s *DevAddrSet) Unisolate(seg DevAddrIterator) DevAddrIterator

Unisolate attempts to merge the given segment with its predecessor and successor if possible, and returns an updated iterator to the extended segment. All existing iterators (including seg, but not including the returned iterator) are invalidated.

Unisolate is usually used in conjunction with Isolate when mutating part of a single segment in a way that may affect its mergeability. For the reasons described by MergePrev and MergeNext, it is usually incorrect to use the return value of Unisolate in a loop variable.

func (*DevAddrSet) UpperBoundGap

func (s *DevAddrSet) UpperBoundGap(max uint64) DevAddrGapIterator

UpperBoundGap returns the gap with the highest range that is less than or equal to max.

func (*DevAddrSet) UpperBoundLargeEnoughGap

func (s *DevAddrSet) UpperBoundLargeEnoughGap(max, minSize uint64) DevAddrGapIterator

UpperBoundLargeEnoughGap returns the last gap in the set with at least the given length and whose range contains a key less than or equal to max. If no such gap exists, UpperBoundLargeEnoughGap returns a terminal iterator.

Precondition: trackGaps must be 1.

func (*DevAddrSet) UpperBoundSegment

func (s *DevAddrSet) UpperBoundSegment(max uint64) DevAddrIterator

UpperBoundSegment returns the segment with the highest range that contains a key less than or equal to max. If no such segment exists, UpperBoundSegment returns a terminal iterator.

func (*DevAddrSet) UpperBoundSegmentSplitAfter

func (s *DevAddrSet) UpperBoundSegmentSplitAfter(max uint64) DevAddrIterator

UpperBoundSegmentSplitAfter combines UpperBoundSegment and SplitAfter.

UpperBoundSegmentSplitAfter is usually used when mutating segments in a range while iterating them in order of decreasing keys. In such cases, UpperBoundSegmentSplitAfter provides an iterator to the first segment to be mutated, suitable as the initial value for a loop variable.

func (*DevAddrSet) VisitFullRange

func (s *DevAddrSet) VisitFullRange(r DevAddrRange, f func(seg DevAddrIterator) bool)

VisitFullRange is equivalent to VisitRange, except that if any key in r that is visited before f returns false does not correspond to a segment, VisitFullRange panics.

func (*DevAddrSet) VisitRange

func (s *DevAddrSet) VisitRange(r DevAddrRange, f func(seg DevAddrIterator) bool)

VisitRange applies the function f to all segments intersecting the range r, in order of ascending keys. Segments will not be split, so f may be called on segments lying partially outside r. Non-empty gaps between segments are skipped. If a call to f returns false, VisitRange stops iteration immediately.

N.B. f must not invalidate iterators into s.

type DevAddrdynamicGap

type DevAddrdynamicGap [DevAddrtrackGaps]uint64

dynamicGap is a type that disappears if trackGaps is 0.

func (*DevAddrdynamicGap) Get

func (d *DevAddrdynamicGap) Get() uint64

Get returns the value of the gap.

Precondition: trackGaps must be non-zero.

func (*DevAddrdynamicGap) Set

func (d *DevAddrdynamicGap) Set(v uint64)

Set sets the value of the gap.

Precondition: trackGaps must be non-zero.

type DevAddrnode

type DevAddrnode struct {
	// contains filtered or unexported fields
}

+stateify savable

func (*DevAddrnode) StateFields

func (n *DevAddrnode) StateFields() []string

func (*DevAddrnode) StateLoad

func (n *DevAddrnode) StateLoad(ctx context.Context, stateSourceObject state.Source)

+checklocksignore

func (*DevAddrnode) StateSave

func (n *DevAddrnode) StateSave(stateSinkObject state.Sink)

+checklocksignore

func (*DevAddrnode) StateTypeName

func (n *DevAddrnode) StateTypeName() string

func (*DevAddrnode) String

func (n *DevAddrnode) String() string

String stringifies a node (and all of its children) for debugging.

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