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2716250ee8
And enable U1000 check in staticcheck. Updates #cleanup Signed-off-by: Andrew Lytvynov <awly@tailscale.com>
324 lines
9.6 KiB
Go
324 lines
9.6 KiB
Go
// Copyright (c) Tailscale Inc & AUTHORS
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// SPDX-License-Identifier: BSD-3-Clause
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package art
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import (
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"bytes"
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"fmt"
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"io"
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"math/bits"
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"net/netip"
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"strconv"
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"strings"
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)
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const (
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debugStrideInsert = false
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debugStrideDelete = false
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)
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// strideTable is a binary tree that implements an 8-bit routing table.
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//
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// The leaves of the binary tree are host routes (/8s). Each parent is a
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// successively larger prefix that encompasses its children (/7 through /0).
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type strideTable[T any] struct {
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// prefix is the prefix represented by the 0/0 route of this
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// strideTable. It is used in multi-level tables to support path
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// compression. All strideTables must have a valid prefix
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// (non-zero value, passes IsValid()) whose length is a multiple
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// of 8 (e.g. /8, /16, but not /15).
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prefix netip.Prefix
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// entries is the nodes of the binary tree, laid out in a flattened array.
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//
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// The array indices are arranged by the prefixIndex function, such that the
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// parent of the node at index i is located at index i>>1, and its children
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// at indices i<<1 and (i<<1)+1.
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//
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// A few consequences of this arrangement: host routes (/8) occupy
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// the last numChildren entries in the table; the single default
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// route /0 is at index 1, and index 0 is unused (in the original
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// paper, it's hijacked through sneaky C memory trickery to store
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// the refcount, but this is Go, where we don't store random bits
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// in pointers lest we confuse the GC)
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//
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// A nil value means no route matches the queried route.
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entries [lastHostIndex + 1]*T
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// children are the child tables of this table. Each child
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// represents the address space within one of this table's host
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// routes (/8).
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children [numChildren]*strideTable[T]
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// routeRefs is the number of route entries in this table.
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routeRefs uint16
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// childRefs is the number of child strideTables referenced by this table.
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childRefs uint16
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}
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const (
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// firstHostIndex is the array index of the first host route. This is hostIndex(0/8).
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firstHostIndex = 0b1_0000_0000
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// lastHostIndex is the array index of the last host route. This is hostIndex(0xFF/8).
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lastHostIndex = 0b1_1111_1111
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// numChildren is the maximum number of child tables a strideTable can hold.
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numChildren = 256
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)
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// getChild returns the child strideTable pointer for addr, or nil if none.
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func (t *strideTable[T]) getChild(addr uint8) *strideTable[T] {
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return t.children[addr]
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}
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// deleteChild deletes the child strideTable at addr. It is valid to
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// delete a non-existent child.
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func (t *strideTable[T]) deleteChild(addr uint8) {
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if t.children[addr] != nil {
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t.childRefs--
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}
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t.children[addr] = nil
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}
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// setChild sets the child strideTable for addr to child.
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func (t *strideTable[T]) setChild(addr uint8, child *strideTable[T]) {
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if t.children[addr] == nil {
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t.childRefs++
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}
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t.children[addr] = child
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}
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// getOrCreateChild returns the child strideTable for addr, creating it if
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// necessary.
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func (t *strideTable[T]) getOrCreateChild(addr uint8) (child *strideTable[T], created bool) {
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ret := t.children[addr]
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if ret == nil {
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ret = &strideTable[T]{
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prefix: childPrefixOf(t.prefix, addr),
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}
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t.children[addr] = ret
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t.childRefs++
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return ret, true
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}
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return ret, false
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}
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// findFirstChild returns the first child strideTable in t, or nil if
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// t has no children.
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func (t *strideTable[T]) findFirstChild() *strideTable[T] {
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for _, child := range t.children {
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if child != nil {
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return child
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}
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}
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return nil
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}
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// hasPrefixRootedAt reports whether t.entries[idx] is the root node of
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// a prefix.
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func (t *strideTable[T]) hasPrefixRootedAt(idx int) bool {
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val := t.entries[idx]
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if val == nil {
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return false
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}
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parentIdx := parentIndex(idx)
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if parentIdx == 0 {
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// idx is non-nil, and is at the 0/0 route position.
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return true
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}
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if parent := t.entries[parentIdx]; val != parent {
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// parent node in the tree isn't the same prefix, so idx must
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// be a root.
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return true
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}
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return false
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}
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// allot updates entries whose stored prefixIndex matches oldPrefixIndex, in the
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// subtree rooted at idx. Matching entries have their stored prefixIndex set to
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// newPrefixIndex, and their value set to val.
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//
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// allot is the core of the ART algorithm, enabling efficient insertion/deletion
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// while preserving very fast lookups.
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func (t *strideTable[T]) allot(idx int, old, new *T) {
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if t.entries[idx] != old {
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// current idx isn't what we expect. This is a recursive call
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// that found a child subtree that already has a more specific
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// route installed. Don't touch it.
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return
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}
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t.entries[idx] = new
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if idx >= firstHostIndex {
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// The entry we just updated was a host route, we're at the bottom of
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// the binary tree.
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return
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}
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// Propagate the allotment to this node's children.
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left := idx << 1
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t.allot(left, old, new)
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right := left + 1
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t.allot(right, old, new)
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}
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// insert adds the route addr/prefixLen to t, with value val.
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func (t *strideTable[T]) insert(addr uint8, prefixLen int, val T) {
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idx := prefixIndex(addr, prefixLen)
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if !t.hasPrefixRootedAt(idx) {
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// This route entry is being freshly created (not just
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// updated), that's a new reference.
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t.routeRefs++
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}
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old := t.entries[idx]
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// For allot to work correctly, each distinct prefix in the
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// strideTable must have a different value pointer, even if val is
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// identical. This new()+assignment guarantees that each inserted
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// prefix gets a unique address.
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p := new(T)
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*p = val
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t.allot(idx, old, p)
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return
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}
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// delete removes the route addr/prefixLen from t. Reports whether the
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// prefix existed in the table prior to deletion.
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func (t *strideTable[T]) delete(addr uint8, prefixLen int) (wasPresent bool) {
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idx := prefixIndex(addr, prefixLen)
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if !t.hasPrefixRootedAt(idx) {
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// Route entry doesn't exist
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return false
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}
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val := t.entries[idx]
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var parentVal *T
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if parentIdx := parentIndex(idx); parentIdx != 0 {
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parentVal = t.entries[parentIdx]
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}
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t.allot(idx, val, parentVal)
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t.routeRefs--
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return true
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}
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// get does a route lookup for addr and (value, true) if a matching
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// route exists, or (zero, false) otherwise.
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func (t *strideTable[T]) get(addr uint8) (ret T, ok bool) {
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if val := t.entries[hostIndex(addr)]; val != nil {
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return *val, true
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}
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return ret, false
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}
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// getValAndChild returns both the prefix value and child strideTable
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// for addr. valOK reports whether a prefix value exists for addr, and
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// child is non-nil if a child exists for addr.
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func (t *strideTable[T]) getValAndChild(addr uint8) (val T, valOK bool, child *strideTable[T]) {
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vp := t.entries[hostIndex(addr)]
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if vp != nil {
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val = *vp
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valOK = true
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}
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child = t.children[addr]
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return
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}
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// TableDebugString returns the contents of t, formatted as a table with one
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// line per entry.
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func (t *strideTable[T]) tableDebugString() string {
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var ret bytes.Buffer
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for i, ent := range t.entries {
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if i == 0 {
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continue
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}
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v := "(nil)"
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if ent != nil {
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v = fmt.Sprint(*ent)
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}
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fmt.Fprintf(&ret, "idx=%3d (%s), val=%v\n", i, formatPrefixTable(inversePrefixIndex(i)), v)
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}
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return ret.String()
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}
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func (t *strideTable[T]) treeDebugStringRec(w io.Writer, idx, indent int) {
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addr, len := inversePrefixIndex(idx)
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if t.hasPrefixRootedAt(idx) {
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fmt.Fprintf(w, "%s%d/%d (%02x/%d) = %v\n", strings.Repeat(" ", indent), addr, len, addr, len, *t.entries[idx])
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indent += 2
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}
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if idx >= firstHostIndex {
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return
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}
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left := idx << 1
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t.treeDebugStringRec(w, left, indent)
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right := left + 1
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t.treeDebugStringRec(w, right, indent)
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}
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// prefixIndex returns the array index of the tree node for addr/prefixLen.
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func prefixIndex(addr uint8, prefixLen int) int {
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// the prefixIndex of addr/prefixLen is the prefixLen most significant bits
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// of addr, with a 1 tacked onto the left-hand side. For example:
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//
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// - 0/0 is 1: 0 bits of the addr, with a 1 tacked on
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// - 42/8 is 1_00101010 (298): all bits of 42, with a 1 tacked on
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// - 48/4 is 1_0011 (19): 4 most-significant bits of 48, with a 1 tacked on
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return (int(addr) >> (8 - prefixLen)) + (1 << prefixLen)
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}
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// parentIndex returns the index of idx's parent prefix, or 0 if idx
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// is the index of 0/0.
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func parentIndex(idx int) int {
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return idx >> 1
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}
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// hostIndex returns the array index of the host route for addr.
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// It is equivalent to prefixIndex(addr, 8).
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func hostIndex(addr uint8) int {
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return int(addr) + 1<<8
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}
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// inversePrefixIndex returns the address and prefix length of idx. It is the
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// inverse of prefixIndex. Only used for debugging and in tests.
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func inversePrefixIndex(idx int) (addr uint8, len int) {
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lz := bits.LeadingZeros(uint(idx))
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len = strconv.IntSize - lz - 1
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addr = uint8(idx&(0xFF>>(8-len))) << (8 - len)
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return addr, len
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}
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// formatPrefixTable formats addr and len as addr/len, with a constant width
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// suitable for use in table formatting.
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func formatPrefixTable(addr uint8, len int) string {
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if len < 0 { // this happens for inversePrefixIndex(0)
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return "<nil>"
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}
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return fmt.Sprintf("%3d/%d", addr, len)
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}
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// childPrefixOf returns the child prefix of parent whose final byte
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// is stride. The parent prefix must be byte-aligned
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// (i.e. parent.Bits() must be a multiple of 8), and be no more
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// specific than /24 for IPv4 or /120 for IPv6.
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//
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// For example, childPrefixOf("192.168.0.0/16", 8) == "192.168.8.0/24".
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func childPrefixOf(parent netip.Prefix, stride uint8) netip.Prefix {
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l := parent.Bits()
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if l%8 != 0 {
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panic("parent prefix is not 8-bit aligned")
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}
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if l >= parent.Addr().BitLen() {
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panic("parent prefix cannot be extended further")
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}
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off := l / 8
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if parent.Addr().Is4() {
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bs := parent.Addr().As4()
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bs[off] = stride
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return netip.PrefixFrom(netip.AddrFrom4(bs), l+8)
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} else {
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bs := parent.Addr().As16()
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bs[off] = stride
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return netip.PrefixFrom(netip.AddrFrom16(bs), l+8)
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}
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}
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