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groupsimpl.go
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groupsimpl.go
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/*
Copyright SecureKey Technologies Inc. All Rights Reserved.
SPDX-License-Identifier: Apache-2.0
*/
package pgresolver
import (
"fmt"
"reflect"
"github.com/hyperledger/fabric-sdk-go/pkg/common/providers/fab"
"github.com/pkg/errors"
)
// MSPPeerRetriever is a function that retrieves peers by MSPID
type MSPPeerRetriever func(mspID string) []fab.Peer
// NewGroupOfGroups returns a new group of groups
func NewGroupOfGroups(groups []Group) GroupOfGroups {
items := make([]Item, len(groups))
for i, g := range groups {
items[i] = g
}
return &groupsImpl{groupImpl: groupImpl{Itms: items}}
}
// NewGroup creates a new Group
func NewGroup(items []Item) Group {
return &groupImpl{Itms: items}
}
// NewPeerGroup returns a new PeerGroup
func NewPeerGroup(peers ...fab.Peer) PeerGroup {
return &peerGroup{peers: asPeerWrappers(peers)}
}
// NewMSPPeerGroup returns a new MSP PeerGroup
func NewMSPPeerGroup(mspID string, peerRetriever MSPPeerRetriever) PeerGroup {
return &mspPeerGroup{
mspID: mspID,
peerRetriever: peerRetriever,
}
}
type groupImpl struct {
Itms []Item
}
func (g *groupImpl) Items() []Item {
return g.Itms
}
func (g *groupImpl) Reduce() []Group {
grps := asGroupsOrPanic(g.Items())
if len(grps) == 1 {
return grps[0].Reduce()
}
// Reduce each item
var reduced []Group
for _, g := range grps {
reduced = append(reduced, NewGroupOfGroups(g.Reduce()))
}
// Collapse each group
var collapsed []Group
for _, g := range and(reduced) {
if c, ok := g.(Collapsable); ok {
g = c.Collapse()
}
collapsed = append(collapsed, g)
}
// Get rid of duplicates
var pruned []Group
for _, g := range collapsed {
if !containsGroup(pruned, g) {
pruned = append(pruned, g)
}
}
return pruned
}
func (g *groupImpl) Collapse() Group {
var collapsable []Item
var nonCollapsable []Item
for _, item := range g.Items() {
if c, ok := item.(Collapsable); ok {
for _, ci := range c.Collapse().Items() {
if containsItem(collapsable, ci) {
continue
}
collapsable = append(collapsable, ci)
}
} else {
if !containsItem(nonCollapsable, item) {
nonCollapsable = append(nonCollapsable, item)
}
}
}
if len(collapsable) == 0 {
return NewGroup(nonCollapsable)
}
cg := NewGroup(collapsable)
if len(nonCollapsable) == 0 {
return cg
}
return NewGroup(append(nonCollapsable, cg))
}
func (g *groupImpl) Equals(other Group) bool {
if len(g.Items()) != len(other.Items()) {
return false
}
for _, i1 := range g.Items() {
if !containsItem(other.Items(), i1) {
return false
}
}
return true
}
func (g *groupImpl) String() string {
items := g.Items()
str := ""
if len(items) > 1 {
str = "["
}
for i, item := range items {
str = str + fmt.Sprintf("%s", item)
if i+1 < len(items) {
str += ", "
}
}
if len(items) > 1 {
str += "]"
}
return str
}
type groupsImpl struct {
groupImpl
}
func (g *groupsImpl) Groups() []Group {
groups := make([]Group, len(g.Items()))
for i, item := range g.Items() {
if group, ok := item.(Group); ok {
groups[i] = group
} else {
// This shouldn't happen since we have control over how the items are set.
panic("unexpected: item is not a Group")
}
}
return groups
}
func (g *groupsImpl) Reduce() []Group {
var result []Group
for _, grp := range g.Groups() {
result = append(result, grp.Reduce()...)
}
return result
}
func (g *groupsImpl) Collapse() Group {
return g
}
func (g *groupsImpl) Nof(threshold int32) (GroupOfGroups, error) {
if int(threshold) > len(g.Items()) {
return nil, errors.New("N is greater than length of the group")
}
if threshold <= 0 {
return nil, errors.New("N must be greater than 0")
}
return getCombinations(g.Items(), threshold, 0)
}
func (g *groupsImpl) String() string {
groups := g.Groups()
str := ""
if len(groups) > 1 {
str = "("
}
for i, pg := range groups {
str = str + fmt.Sprintf("%s", pg)
if i+1 < len(groups) {
str += ", "
}
}
if len(groups) > 1 {
str += ")"
}
return str
}
// peerWrapper wraps a Peer and implements the String() function (to help in debugging).
type peerWrapper struct {
target fab.Peer
}
func (pw *peerWrapper) String() string {
return pw.target.URL()
}
type peerGroup struct {
peers []*peerWrapper
}
func (pg *peerGroup) Items() []Item {
items := make([]Item, len(pg.peers))
for i, peer := range pg.peers {
items[i] = peer
}
return items
}
func (pg *peerGroup) Peers() []fab.Peer {
peers := make([]fab.Peer, len(pg.peers))
for i, pw := range pg.peers {
peers[i] = pw.target
}
return peers
}
func (pg *peerGroup) Equals(other Group) bool {
if len(pg.Items()) != len(other.Items()) {
return false
}
for _, item := range pg.Items() {
if !containsItem(other.Items(), item) {
return false
}
}
return true
}
func (pg *peerGroup) String() string {
items := pg.Items()
str := ""
if len(items) > 1 {
str = "["
}
for i, item := range items {
str = str + fmt.Sprintf("%s", item)
if i+1 < len(items) {
str += " AND "
}
}
if len(items) > 1 {
str += "]"
}
return str
}
func (pg *peerGroup) Reduce() []Group {
return []Group{pg}
}
func (pg *peerGroup) Collapse() Group {
return NewGroup([]Item{pg})
}
type mspPeerGroup struct {
mspID string
peerRetriever MSPPeerRetriever
}
func (pg *mspPeerGroup) Items() []Item {
peers := pg.Peers()
items := make([]Item, len(peers))
for i, peer := range peers {
items[i] = peer
}
return items
}
func (pg *mspPeerGroup) Peers() []fab.Peer {
return pg.peerRetriever(pg.mspID)
}
func (pg *mspPeerGroup) Equals(other Group) bool {
if otherPG, ok := other.(*mspPeerGroup); ok {
return otherPG.GetName() == pg.GetName()
}
return false
}
func (pg *mspPeerGroup) Reduce() []Group {
return []Group{pg}
}
func (pg *mspPeerGroup) Collapse() Group {
return NewGroup([]Item{pg})
}
func (pg *mspPeerGroup) String() string {
return pg.GetName()
}
func (pg *mspPeerGroup) GetName() string {
return pg.mspID
}
func asPeerWrappers(peers []fab.Peer) []*peerWrapper {
items := make([]*peerWrapper, len(peers))
for i, peer := range peers {
items[i] = &peerWrapper{target: peer}
}
return items
}
// asGroupsOrPanic converts the given array of Item into an array of Group.
// Each of the given items in the array must also be a Group or else a panic results.
func asGroupsOrPanic(items []Item) []Group {
groups := make([]Group, len(items))
for i, item := range items {
if grp, ok := item.(Group); ok {
groups[i] = grp
} else {
panic(fmt.Sprintf("item is not a group: %s", reflect.TypeOf(item)))
}
}
return groups
}
func getCombinations(items []Item, length int32, r int) (GroupOfGroups, error) {
if length == 1 {
// Create an item group for each item, containing a single item
var groups []Group
for _, item := range items {
groups = append(groups, NewGroup([]Item{item}))
}
combinations := NewGroupOfGroups(groups)
return combinations, nil
}
var groups []Group
for i := 0; i < len(items)-int(length)+1; i++ {
leftItem := items[i]
rightCombinations, err := getCombinations(items[i+1:], length-1, r+1)
if err != nil {
return nil, err
}
// Add the leftItem to each of the groups that came back
for _, g := range rightCombinations.Groups() {
var newItems []Item
newItems = append(newItems, leftItem)
newItems = append(newItems, g.Items()...)
groups = append(groups, NewGroup(newItems))
}
}
return NewGroupOfGroups(groups), nil
}
// and performs an 'and' operation of the given set of groups
// For example, given the set of groups, G=[(A,B),(C,D)],
// then and(G) = [(A,C),(A,D),(B,C),(B,D)]
func and(groups []Group) []Group {
op := &andOperation{stack: &stack{}}
op.and(groups, 0)
return op.result
}
type andOperation struct {
stack *stack
result []Group
}
func (o *andOperation) and(grps []Group, index int) {
if index >= len(grps) {
var items []Item
for _, c := range o.stack.Groups() {
groupItems := c.group.Items()
if c.index < len(groupItems) {
items = append(items, groupItems[c.index])
} else {
logger.Warnf("Expecting index to be less than %d but got %d", len(groupItems), c.index)
}
}
if len(items) > 0 {
o.result = append(o.result, NewGroup(items))
}
} else {
grp := grps[index]
items := grp.Items()
for j := 0; j < len(items); j++ {
o.stack.Push(grps[index], j)
o.and(grps, index+1)
o.stack.Pop()
}
}
}
type stack struct {
items []*entry
}
func (s *stack) Push(group Group, index int) {
s.items = append(s.items, &entry{
group: group,
index: index,
})
}
func (s *stack) Pop() {
lastIndex := len(s.items) - 1
if lastIndex >= 0 {
s.items = s.items[0:lastIndex]
}
}
func (s *stack) Groups() []*entry {
return s.items
}
type entry struct {
group Group
index int
}
func containsItem(items []Item, item Item) bool {
if grp, ok := item.(Group); ok {
for _, item2 := range items {
if ogrp, ok2 := item2.(Group); ok2 {
if grp.Equals(ogrp) {
return true
}
}
}
} else {
for _, itm := range items {
if itm == item {
return true
}
}
}
return false
}
func containsGroup(groups []Group, group Group) bool {
for _, g := range groups {
if g.Equals(group) {
return true
}
}
return false
}