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rings: RingOnePrefix()/RingOneAddress()

Ring one designates the (virtual) local network of a zone
within a region.

Signed-off-by: Alejandro Mery <amery@jpi.io>
pull/48/head
Alejandro Mery 7 months ago
parent
commit
394a84c3ab
  1. 51
      pkg/rings/encode.go
  2. 54
      pkg/rings/encode_test.go
  3. 3
      pkg/rings/rings.go

51
pkg/rings/encode.go

@ -0,0 +1,51 @@
package rings
import "net/netip"
// RingOnePrefix represents a (virtual) local network of a zone.
//
// Ring 1 is `10.(region_id).(zone_id << 4).(node_id)/20` network
// grouped under what would be Ring 2 for region_id 0.
// There are 12 bits worth of nodes but nodes under 255 are special
// as they also get a slot on Ring 0.
func RingOnePrefix(region RegionID, zone ZoneID) (cidr netip.Prefix, err error) {
switch {
case !region.Valid():
err = ErrOutOfRange(region, "region")
case !zone.Valid():
err = ErrOutOfRange(zone, "zone")
default:
addr := unsafeRingOneAddress(region, zone, 0)
cidr = netip.PrefixFrom(addr, RingOneBits)
}
return cidr, err
}
// RingOneAddress returns a Ring 1 address for a particular node.
//
// A ring 1 address is `10.(region_id).(zone_id << 4).(node_id)/20`
// but the node_id can take up to 12 bits.
func RingOneAddress(region RegionID, zone ZoneID, node NodeID) (addr netip.Addr, err error) {
switch {
case !region.Valid():
err = ErrOutOfRange(region, "region")
case !zone.Valid():
err = ErrOutOfRange(zone, "zone")
case !node.Valid():
err = ErrOutOfRange(node, "node")
default:
addr = unsafeRingOneAddress(region, zone, node)
}
return addr, err
}
func unsafeRingOneAddress(region RegionID, zone ZoneID, node NodeID) netip.Addr {
r := uint(region)
z := uint(zone)
n := uint(node)
n1 := n >> 8
n0 := n >> 0
return AddrFrom4(10, r, z<<4+n1, n0)
}

54
pkg/rings/encode_test.go

@ -0,0 +1,54 @@
package rings
import (
"fmt"
"net/netip"
"testing"
)
func TestRingOneAddress(t *testing.T) {
RZNTest(t, "RingOneAddress", RingOneAddress, []RZNTestCase{
{1, 1, 50, MustParseAddr("10.1.16.50")},
{1, 2, 50, MustParseAddr("10.1.32.50")},
{2, 3, 300, MustParseAddr("10.2.49.44")},
{1, 20, 50, netip.Addr{}},
})
}
type RZNTestCase struct {
region RegionID
zone ZoneID
node NodeID
addr netip.Addr
}
func RZNTest(t *testing.T,
fnName string, fn func(RegionID, ZoneID, NodeID) (netip.Addr, error),
cases []RZNTestCase) {
//
for i, tc := range cases {
s := fmt.Sprintf("%s(%v, %v, %v)", fnName,
tc.region,
tc.zone,
tc.node,
)
addr, err := fn(tc.region, tc.zone, tc.node)
switch {
case !tc.addr.IsValid():
// expect error
if err != nil {
t.Logf("[%v/%v]: %s → %s", i, len(cases), s, err)
} else {
t.Errorf("ERROR: [%v/%v]: %s → %s (expected %s)", i, len(cases), s, addr, "error")
}
case err != nil:
t.Errorf("ERROR: [%v/%v]: %s → %s (expected %s)", i, len(cases), s, err, tc.addr)
case addr.Compare(tc.addr) != 0:
t.Errorf("ERROR: [%v/%v]: %s → %s (expected %s)", i, len(cases), s, addr, tc.addr)
default:
t.Logf("[%v/%v]: %s → %s", i, len(cases), s, addr)
}
}
}

3
pkg/rings/rings.go

@ -18,6 +18,9 @@ const (
// NodeZeroMax indicates the highest number that can be used for a [NodeID]
// when its a gateway connected to Ring 0 (backbone).
NodeZeroMax = (1 << 8) - 1
// RingOneBits indicates the size of the prefix on the ring 1 (lan) network.
RingOneBits = 20
)
// RegionID is the identifier of a region, valid between 1 and [RegionMax].

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