frostfs-sdk-go/policy/json.go
Alex Vanin cef9872b39 [#168] policy: Adopt replacement of pointer slices with struct slices
Signed-off-by: Alex Vanin <alexey@nspcc.ru>
2022-03-15 16:59:59 +03:00

225 lines
4.7 KiB
Go

package policy
import (
"encoding/json"
"fmt"
"strings"
"github.com/nspcc-dev/neofs-sdk-go/netmap"
)
type (
filter struct {
Name string `json:"name,omitempty"`
Key string `json:"key,omitempty"`
Op string `json:"op,omitempty"`
Value string `json:"value,omitempty"`
Filters []filter `json:"filters,omitempty"`
}
replica struct {
Count uint32 `json:"count"`
Selector string `json:"selector,omitempty"`
}
selector struct {
Count uint32 `json:"count"`
Attribute string `json:"attribute"`
Filter string `json:"filter,omitempty"`
Name string `json:"name,omitempty"`
Clause string `json:"clause,omitempty"`
}
placement struct {
Replicas []replica `json:"replicas"`
CBF uint32 `json:"container_backup_factor,omitempty"`
Selectors []selector `json:"selectors,omitempty"`
Filters []filter `json:"filters,omitempty"`
}
)
// ToJSON converts placement policy to JSON.
func ToJSON(np *netmap.PlacementPolicy) ([]byte, error) {
p := new(placement)
p.CBF = np.ContainerBackupFactor()
p.Filters = make([]filter, len(np.Filters()))
for i, f := range np.Filters() {
p.Filters[i].fromNetmap(&f)
}
p.Selectors = make([]selector, len(np.Selectors()))
for i, s := range np.Selectors() {
p.Selectors[i].fromNetmap(&s)
}
p.Replicas = make([]replica, len(np.Replicas()))
for i, r := range np.Replicas() {
p.Replicas[i].fromNetmap(&r)
}
return json.Marshal(p)
}
// FromJSON creates placement policy from JSON.
func FromJSON(data []byte) (*netmap.PlacementPolicy, error) {
p := new(placement)
if err := json.Unmarshal(data, p); err != nil {
return nil, err
}
rs := make([]netmap.Replica, len(p.Replicas))
for i := range p.Replicas {
rs[i] = *p.Replicas[i].toNetmap()
}
var fs []netmap.Filter
if len(p.Filters) != 0 {
fs = make([]netmap.Filter, len(p.Filters))
for i := range p.Filters {
f, err := p.Filters[i].toNetmap()
if err != nil {
return nil, err
}
fs[i] = *f
}
}
var ss []netmap.Selector
if len(p.Selectors) != 0 {
ss = make([]netmap.Selector, len(p.Selectors))
for i := range p.Selectors {
s, err := p.Selectors[i].toNetmap()
if err != nil {
return nil, err
}
ss[i] = *s
}
}
pp := new(netmap.PlacementPolicy)
pp.SetReplicas(rs...)
pp.SetContainerBackupFactor(p.CBF)
pp.SetFilters(fs...)
pp.SetSelectors(ss...)
return pp, nil
}
func (r *replica) toNetmap() *netmap.Replica {
nr := new(netmap.Replica)
nr.SetCount(r.Count)
nr.SetSelector(r.Selector)
return nr
}
func (r *replica) fromNetmap(nr *netmap.Replica) {
r.Count = nr.Count()
r.Selector = nr.Selector()
}
func (f *filter) toNetmap() (*netmap.Filter, error) {
var op netmap.Operation
switch strings.ToUpper(f.Op) {
case "EQ":
op = netmap.OpEQ
case "NE":
op = netmap.OpNE
case "GT":
op = netmap.OpGT
case "GE":
op = netmap.OpGE
case "LT":
op = netmap.OpLT
case "LE":
op = netmap.OpLE
case "AND":
op = netmap.OpAND
case "OR":
op = netmap.OpOR
case "":
default:
return nil, fmt.Errorf("%w: '%s'", ErrUnknownOp, f.Op)
}
var fs []netmap.Filter
if len(f.Filters) != 0 {
fs = make([]netmap.Filter, len(f.Filters))
for i := range f.Filters {
var err error
fsp, err := f.Filters[i].toNetmap()
if err != nil {
return nil, err
}
fs[i] = *fsp
}
}
nf := new(netmap.Filter)
nf.SetInnerFilters(fs...)
nf.SetOperation(op)
nf.SetName(f.Name)
nf.SetValue(f.Value)
nf.SetKey(f.Key)
return nf, nil
}
func (f *filter) fromNetmap(nf *netmap.Filter) {
f.Name = nf.Name()
f.Key = nf.Key()
f.Value = nf.Value()
switch nf.Operation() {
case netmap.OpEQ:
f.Op = "EQ"
case netmap.OpNE:
f.Op = "NE"
case netmap.OpGT:
f.Op = "GT"
case netmap.OpGE:
f.Op = "GE"
case netmap.OpLT:
f.Op = "LT"
case netmap.OpLE:
f.Op = "LE"
case netmap.OpAND:
f.Op = "AND"
case netmap.OpOR:
f.Op = "OR"
default:
// do nothing
}
if nf.InnerFilters() != nil {
f.Filters = make([]filter, len(nf.InnerFilters()))
for i, sf := range nf.InnerFilters() {
f.Filters[i].fromNetmap(&sf)
}
}
}
func (s *selector) toNetmap() (*netmap.Selector, error) {
var c netmap.Clause
switch strings.ToUpper(s.Clause) {
case "SAME":
c = netmap.ClauseSame
case "DISTINCT":
c = netmap.ClauseDistinct
case "":
default:
return nil, fmt.Errorf("%w: '%s'", ErrUnknownClause, s.Clause)
}
ns := new(netmap.Selector)
ns.SetName(s.Name)
ns.SetAttribute(s.Attribute)
ns.SetCount(s.Count)
ns.SetClause(c)
ns.SetFilter(s.Filter)
return ns, nil
}
func (s *selector) fromNetmap(ns *netmap.Selector) {
s.Name = ns.Name()
s.Filter = ns.Filter()
s.Count = ns.Count()
s.Attribute = ns.Attribute()
switch ns.Clause() {
case netmap.ClauseSame:
s.Clause = "same"
case netmap.ClauseDistinct:
s.Clause = "distinct"
default:
// do nothing
}
s.Name = ns.Name()
}