/*
*
* Copyright 2021 gRPC authors.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*
*/
package resolver
import (
"encoding/base64"
"sort"
"strings"
)
type addressMapEntry[T any] struct {
addr Address
value T
}
// AddressMap is an AddressMapV2[any]. It will be deleted in an upcoming
// release of grpc-go.
//
// Deprecated: use the generic AddressMapV2 type instead.
type AddressMap = AddressMapV2[any]
// AddressMapV2 is a map of addresses to arbitrary values taking into account
// Attributes. BalancerAttributes are ignored, as are Metadata and Type.
// Multiple accesses may not be performed concurrently. Must be created via
// NewAddressMap; do not construct directly.
type AddressMapV2[T any] struct {
// The underlying map is keyed by an Address with fields that we don't care
// about being set to their zero values. The only fields that we care about
// are `Addr`, `ServerName` and `Attributes`. Since we need to be able to
// distinguish between addresses with same `Addr` and `ServerName`, but
// different `Attributes`, we cannot store the `Attributes` in the map key.
//
// The comparison operation for structs work as follows:
// Struct values are comparable if all their fields are comparable. Two
// struct values are equal if their corresponding non-blank fields are equal.
//
// The value type of the map contains a slice of addresses which match the key
// in their `Addr` and `ServerName` fields and contain the corresponding value
// associated with them.
m map[Address]addressMapEntryList[T]
}
func toMapKey(addr *Address) Address {
return Address{Addr: addr.Addr, ServerName: addr.ServerName}
}
type addressMapEntryList[T any] []*addressMapEntry[T]
// NewAddressMap creates a new AddressMapV2[any].
//
// Deprecated: use the generic NewAddressMapV2 constructor instead.
func NewAddressMap() *AddressMap {
return NewAddressMapV2[any]()
}
// NewAddressMapV2 creates a new AddressMapV2.
func NewAddressMapV2[T any]() *AddressMapV2[T] {
return &AddressMapV2[T]{m: make(map[Address]addressMapEntryList[T])}
}
// find returns the index of addr in the addressMapEntry slice, or -1 if not
// present.
func (l addressMapEntryList[T]) find(addr Address) int {
for i, entry := range l {
// Attributes are the only thing to match on here, since `Addr` and
// `ServerName` are already equal.
if entry.addr.Attributes.Equal(addr.Attributes) {
return i
}
}
return -1
}
// Get returns the value for the address in the map, if present.
func (a *AddressMapV2[T]) Get(addr Address) (value T, ok bool) {
addrKey := toMapKey(&addr)
entryList := a.m[addrKey]
if entry := entryList.find(addr); entry != -1 {
return entryList[entry].value, true
}
return value, false
}
// Set updates or adds the value to the address in the map.
func (a *AddressMapV2[T]) Set(addr Address, value T) {
addrKey := toMapKey(&addr)
entryList := a.m[addrKey]
if entry := entryList.find(addr); entry != -1 {
entryList[entry].value = value
return
}
a.m[addrKey] = append(entryList, &addressMapEntry[T]{addr: addr, value: value})
}
// Delete removes addr from the map.
func (a *AddressMapV2[T]) Delete(addr Address) {
addrKey := toMapKey(&addr)
entryList := a.m[addrKey]
entry := entryList.find(addr)
if entry == -1 {
return
}
if len(entryList) == 1 {
entryList = nil
} else {
copy(entryList[entry:], entryList[entry+1:])
entryList = entryList[:len(entryList)-1]
}
a.m[addrKey] = entryList
}
// Len returns the number of entries in the map.
func (a *AddressMapV2[T]) Len() int {
ret := 0
for _, entryList := range a.m {
ret += len(entryList)
}
return ret
}
// Keys returns a slice of all current map keys.
func (a *AddressMapV2[T]) Keys() []Address {
ret := make([]Address, 0, a.Len())
for _, entryList := range a.m {
for _, entry := range entryList {
ret = append(ret, entry.addr)
}
}
return ret
}
// Values returns a slice of all current map values.
func (a *AddressMapV2[T]) Values() []T {
ret := make([]T, 0, a.Len())
for _, entryList := range a.m {
for _, entry := range entryList {
ret = append(ret, entry.value)
}
}
return ret
}
type endpointMapKey string
// EndpointMap is a map of endpoints to arbitrary values keyed on only the
// unordered set of address strings within an endpoint. This map is not thread
// safe, thus it is unsafe to access concurrently. Must be created via
// NewEndpointMap; do not construct directly.
type EndpointMap[T any] struct {
endpoints map[endpointMapKey]endpointData[T]
}
type endpointData[T any] struct {
// decodedKey stores the original key to avoid decoding when iterating on
// EndpointMap keys.
decodedKey Endpoint
value T
}
// NewEndpointMap creates a new EndpointMap.
func NewEndpointMap[T any]() *EndpointMap[T] {
return &EndpointMap[T]{
endpoints: make(map[endpointMapKey]endpointData[T]),
}
}
// encodeEndpoint returns a string that uniquely identifies the unordered set of
// addresses within an endpoint.
func encodeEndpoint(e Endpoint) endpointMapKey {
addrs := make([]string, 0, len(e.Addresses))
// base64 encoding the address strings restricts the characters present
// within the strings. This allows us to use a delimiter without the need of
// escape characters.
for _, addr := range e.Addresses {
addrs = append(addrs, base64.StdEncoding.EncodeToString([]byte(addr.Addr)))
}
sort.Strings(addrs)
// " " should not appear in base64 encoded strings.
return endpointMapKey(strings.Join(addrs, " "))
}
// Get returns the value for the address in the map, if present.
func (em *EndpointMap[T]) Get(e Endpoint) (value T, ok bool) {
val, found := em.endpoints[encodeEndpoint(e)]
if found {
return val.value, true
}
return value, false
}
// Set updates or adds the value to the address in the map.
func (em *EndpointMap[T]) Set(e Endpoint, value T) {
en := encodeEndpoint(e)
em.endpoints[en] = endpointData[T]{
decodedKey: Endpoint{Addresses: e.Addresses},
value: value,
}
}
// Len returns the number of entries in the map.
func (em *EndpointMap[T]) Len() int {
return len(em.endpoints)
}
// Keys returns a slice of all current map keys, as endpoints specifying the
// addresses present in the endpoint keys, in which uniqueness is determined by
// the unordered set of addresses. Thus, endpoint information returned is not
// the full endpoint data (drops duplicated addresses and attributes) but can be
// used for EndpointMap accesses.
func (em *EndpointMap[T]) Keys() []Endpoint {
ret := make([]Endpoint, 0, len(em.endpoints))
for _, en := range em.endpoints {
ret = append(ret, en.decodedKey)
}
return ret
}
// Values returns a slice of all current map values.
func (em *EndpointMap[T]) Values() []T {
ret := make([]T, 0, len(em.endpoints))
for _, val := range em.endpoints {
ret = append(ret, val.value)
}
return ret
}
// Delete removes the specified endpoint from the map.
func (em *EndpointMap[T]) Delete(e Endpoint) {
en := encodeEndpoint(e)
delete(em.endpoints, en)
}