Commit 30c69d9a authored by Levin Zimmermann's avatar Levin Zimmermann Committed by Kirill Smelkov

go/neo/proto: Fix KnownMasterList nesting

Before this patch, the 'KnownMasterList' field of the 'NotPrimaryMaster'
was expected to be structured in the following way:

	ArrayHeader (KnownMasterList)

	    ArrayHeader (KnownMaster)

		ArrayHeader (Address)

		    Host (string)
		    Port (uint16)

However NEO/py sends the following structure:

	ArrayHeader (KnownMasterList)

	    ArrayHeader (Address)

		Host (string)
		Port (uint16)

This also makes sense, as 'KnownMaster' doesn't need to add another
nesting, because it only includes the address.

This patch amends the NEO/go protocol definition to transparently
represent the nesting as it's send by NEO/py. See also
levin.zimmermann/neoppod@18287612 for a similar issue.

/reviewed-by @kirr
/reviewed-on !6
parent 2cf10114
......@@ -138,7 +138,7 @@ func (node *_MasteredNode) TalkMaster(ctx context.Context, f func(context.Contex
} else {
// TODO update masterRegistry from received KnownMasterList
primary := notPrimaryMaster.KnownMasterList[p]
maddr = primary.Address.String()
maddr = primary.String()
log.Info(ctx, "switching to try %s as primary master", maddr)
}
}
......
......@@ -37,7 +37,7 @@ func TestNotPrimaryMasterError(t *testing.T) {
"not primary master; primary: ? ; known masters: []",
},
{&NotPrimaryMaster{1, []struct{Address}{{Address{"α",111}}, {Address{"β",222}}, {Address{"γ",333}}}},
{&NotPrimaryMaster{1, []Address{{"α",111}, {"β",222}, {"γ",333}}},
"not primary master; primary: β:222 ; known masters: [α:111 β:222 γ:333]",
},
}
......
......@@ -456,9 +456,7 @@ type AnswerPrimary struct {
//neo:nodes SM -> *
type NotPrimaryMaster struct {
Primary int32 // index of PM in KnownMasterList
KnownMasterList []struct {
Address
}
KnownMasterList []Address
}
// Notify information about one or more nodes.
......
......@@ -357,15 +357,15 @@ func TestMsgMarshal(t *testing.T) {
},
// NotPrimaryMaster (.Primary used to have wrong type)
{&NotPrimaryMaster{0x01020304, []struct{Address}{{Address{"m111", 111}}, {Address{"m222", 222}}}},
{&NotPrimaryMaster{0x01020304, []Address{{"m111", 111}, {"m222", 222}}},
// N
u32(0x01020304) + u32(2) + u32(4)+"m111"+u16(111) + u32(4)+"m222"+u16(222),
// M
hex("92") +
hex("d2" + "01020304") +
hex("92") +
hex("9192") + hex("c4")+u8(4)+"m111" + u8(111) +
hex("9192") + hex("c4")+u8(4)+"m222" + hex("ccde"),
hex("92") + hex("c4")+u8(4)+"m111" + u8(111) +
hex("92") + hex("c4")+u8(4)+"m222" + hex("ccde"),
},
// TODO we need tests for:
......
......@@ -811,7 +811,7 @@ func (p *NotPrimaryMaster) neoMsgDecodeN(data []byte) (int, error) {
{
l := binary.BigEndian.Uint32(data[4 : 4+4])
data = data[8:]
p.KnownMasterList = make([]struct{ Address }, l)
p.KnownMasterList = make([]Address, l)
for i := 0; uint32(i) < l; i++ {
a := &p.KnownMasterList[i]
{
......@@ -834,9 +834,9 @@ func (p *NotPrimaryMaster) neoMsgEncodedLenM() int {
var size int
for i := 0; i < len(p.KnownMasterList); i++ {
a := &p.KnownMasterList[i]
size += msgpack.BinHeadSize(len((*a).Address.Host)) + len((*a).Address.Host) + msgpack.Uint16Size((*a).Address.Port)
size += msgpack.BinHeadSize(len((*a).Host)) + len((*a).Host) + msgpack.Uint16Size((*a).Port)
}
return 1 + msgpack.Int32Size(p.Primary) + msgpack.ArrayHeadSize(len(p.KnownMasterList)) + len(p.KnownMasterList)*2 + size
return 1 + msgpack.Int32Size(p.Primary) + msgpack.ArrayHeadSize(len(p.KnownMasterList)) + len(p.KnownMasterList)*1 + size
}
func (p *NotPrimaryMaster) neoMsgEncodeM(data []byte) {
......@@ -851,17 +851,16 @@ func (p *NotPrimaryMaster) neoMsgEncodeM(data []byte) {
data = data[0+n:]
for i := 0; i < l; i++ {
a := &p.KnownMasterList[i]
data[0] = byte(msgpack.FixArray_4 | 1)
data[1] = byte(msgpack.FixArray_4 | 2)
data[0] = byte(msgpack.FixArray_4 | 2)
{
l := len((*a).Address.Host)
n := msgpack.PutBinHead(data[2:], l)
data = data[2+n:]
copy(data, (*a).Address.Host)
l := len((*a).Host)
n := msgpack.PutBinHead(data[1:], l)
data = data[1+n:]
copy(data, (*a).Host)
data = data[l:]
}
{
n := msgpack.PutUint16(data[0:], (*a).Address.Port)
n := msgpack.PutUint16(data[0:], (*a).Port)
data = data[0+n:]
}
}
......@@ -893,39 +892,36 @@ func (p *NotPrimaryMaster) neoMsgDecodeM(data []byte) (int, error) {
}
nread += uint64(len(data) - len(tail))
data = tail
p.KnownMasterList = make([]struct{ Address }, l)
p.KnownMasterList = make([]Address, l)
for i := 0; uint32(i) < l; i++ {
a := &p.KnownMasterList[i]
if len(data) < 2 {
if len(data) < 1 {
goto overflow
}
if op, opOk := msgpack.Op(data[0]), msgpack.FixArray_4|1; op != opOk {
if op, opOk := msgpack.Op(data[0]), msgpack.FixArray_4|2; op != opOk {
return 0, &mstructDecodeError{"NotPrimaryMaster", op, opOk}
}
if op, opOk := msgpack.Op(data[1]), msgpack.FixArray_4|2; op != opOk {
return 0, &mstructDecodeError{"NotPrimaryMaster.Address", op, opOk}
}
data = data[2:]
data = data[1:]
{
b, tail, err := msgp.ReadBytesZC(data)
if err != nil {
return 0, mdecodeErr("NotPrimaryMaster.Address.Host", err)
return 0, mdecodeErr("NotPrimaryMaster.Host", err)
}
(*a).Address.Host = string(b)
(*a).Host = string(b)
nread += uint64(len(data) - len(tail))
data = tail
}
{
v, tail, err := msgp.ReadUint16Bytes(data)
if err != nil {
return 0, mdecodeErr("NotPrimaryMaster.Address.Port", err)
return 0, mdecodeErr("NotPrimaryMaster.Port", err)
}
(*a).Address.Port = v
(*a).Port = v
nread += uint64(len(data) - len(tail))
data = tail
}
}
nread += uint64(l) * 2
nread += uint64(l) * 1
}
return 1 + int(nread), nil
......
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