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v2.1.0.10
ceremonyclient/node/execution/state/hypergraph/hypergraph_state.go
Cassandra Heart 53f7c2b5c9
v2.1.0.2 (#442) 
* v2.1.0.2

* restore tweaks to simlibp2p

* fix: nil ref on size calc

* fix: panic should induce shutdown from event_distributor

* fix: friendlier initialization that requires less manual kickstarting for test/devnets

* fix: fewer available shards than provers should choose shard length

* fix: update stored worker registry, improve logging for debug mode

* fix: shut the fuck up, peer log

* qol: log value should be snake cased

* fix:non-archive snap sync issues

* fix: separate X448/Decaf448 signed keys, add onion key to registry

* fix: overflow arithmetic on frame number comparison

* fix: worker registration should be idempotent if inputs are same, otherwise permit updated records

* fix: remove global prover state from size calculation

* fix: divide by zero case

* fix: eager prover

* fix: broadcast listener default

* qol: diagnostic data for peer authenticator

* fix: master/worker connectivity issue in sparse networks

tight coupling of peer and workers can sometimes interfere if mesh is sparse, so give workers a pseudoidentity but publish messages with the proper peer key

* fix: reorder steps of join creation

* fix: join verify frame source + ensure domain is properly padded (unnecessary but good for consistency)

* fix: add delegate to protobuf <-> reified join conversion

* fix: preempt prover from planning with no workers

* fix: use the unallocated workers to generate a proof

* qol: underflow causes join fail in first ten frames on test/devnets

* qol: small logging tweaks for easier log correlation in debug mode

* qol: use fisher-yates shuffle to ensure prover allocations are evenly distributed when scores are equal

* qol: separate decisional logic on post-enrollment confirmation into consensus engine, proposer, and worker manager where relevant, refactor out scoring

* reuse shard descriptors for both join planning and confirm/reject decisions

* fix: add missing interface method and amend test blossomsub to use new peer id basis

* fix: only check allocations if they exist

* fix: pomw mint proof data needs to be hierarchically under global intrinsic domain

* staging temporary state under diagnostics

* fix: first phase of distributed lock refactoring

* fix: compute intrinsic locking

* fix: hypergraph intrinsic locking

* fix: token intrinsic locking

* fix: update execution engines to support new locking model

* fix: adjust tests with new execution shape

* fix: weave in lock/unlock semantics to liveness provider

* fix lock fallthrough, add missing allocation update

* qol: additional logging for diagnostics, also testnet/devnet handling for confirmations

* fix: establish grace period on halt scenario to permit recovery

* fix: support test/devnet defaults for coverage scenarios

* fix: nil ref on consensus halts for non-archive nodes

* fix: remove unnecessary prefix from prover ref

* add test coverage for fork choice behaviors and replay – once passing, blocker (2) is resolved

* fix: no fork replay on repeat for non-archive nodes, snap now behaves correctly

* rollup of pre-liveness check lock interactions

* ahead of tests, get the protobuf/metrics-related changes out so teams can prepare

* add test coverage for distributed lock behaviors – once passing, blocker (3) is resolved

* fix: blocker (3)

* Dev docs improvements (#445)

* Make install deps script more robust

* Improve testing instructions

* Worker node should stop upon OS SIGINT/SIGTERM signal (#447)

* move pebble close to Stop()

* move deferred Stop() to Start()

* add core id to worker stop log message

* create done os signal channel and stop worker upon message to it

---------

Co-authored-by: Cassandra Heart <7929478+CassOnMars@users.noreply.github.com>

---------

Co-authored-by: Daz <daz_the_corgi@proton.me>
Co-authored-by: Black Swan <3999712+blacks1ne@users.noreply.github.com>
2025-10-23 01:03:06 -05:00

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package hypergraph
import (
"bytes"
"fmt"
"math/big"
"slices"
"time"
"github.com/iden3/go-iden3-crypto/poseidon"
"github.com/pkg/errors"
hg "source.quilibrium.com/quilibrium/monorepo/hypergraph"
"source.quilibrium.com/quilibrium/monorepo/types/crypto"
"source.quilibrium.com/quilibrium/monorepo/types/execution/state"
"source.quilibrium.com/quilibrium/monorepo/types/hypergraph"
"source.quilibrium.com/quilibrium/monorepo/types/schema"
"source.quilibrium.com/quilibrium/monorepo/types/tries"
"source.quilibrium.com/quilibrium/monorepo/utils/p2p"
)
// Set to approximately 600 frames after deletion, we should reduce this as
// soon as we find a satisfactory distance.
const VERTEX_DATA_DELETION_INTERVAL = 10 * 60 * 1000
// Metadata entries for the hypergraph need to consistently occur at the same
// address see more details in the HypergraphState.Init method
var HYPERGRAPH_METADATA_ADDRESS = bytes.Repeat([]byte{0xff}, 32)
type HypergraphState struct {
hypergraph hypergraph.Hypergraph
changeset []state.StateChange
}
type VertexAddMaterializedState struct {
hypergraph *HypergraphState
appAddress [32]byte
dataAddress [32]byte
frameNumber uint64
prior *tries.VectorCommitmentTree
data *tries.VectorCommitmentTree
}
func (h *HypergraphState) NewVertexAddMaterializedState(
appAddress [32]byte,
dataAddress [32]byte,
frameNumber uint64,
prior *tries.VectorCommitmentTree,
data *tries.VectorCommitmentTree,
) *VertexAddMaterializedState {
return &VertexAddMaterializedState{
h,
appAddress,
dataAddress,
frameNumber,
prior,
data,
}
}
// Commit implements state.MaterializedState.
func (v *VertexAddMaterializedState) Commit(
txn tries.TreeBackingStoreTransaction,
) error {
prefix, err := v.hypergraph.hypergraph.GetCoveredPrefix()
if err != nil {
return errors.Wrap(err, "vertex add commit")
}
path := tries.GetFullPath(slices.Concat(v.appAddress[:], v.dataAddress[:]))
if !slices.Equal(path[:len(prefix)], prefix) {
return nil
}
if err := v.hypergraph.hypergraph.AddVertex(txn, hg.NewVertex(
v.appAddress,
v.dataAddress,
v.data.Commit(v.hypergraph.hypergraph.GetProver(), false),
v.data.GetSize(),
)); err != nil {
return errors.Wrap(err, "vertex add commit")
}
id := slices.Concat(v.appAddress[:], v.dataAddress[:])
err = v.hypergraph.hypergraph.SetVertexData(txn, [64]byte(id), v.data)
if err != nil {
return errors.Wrap(err, "vertex add commit")
}
shardKey := tries.ShardKey{
L1: [3]byte(p2p.GetBloomFilterIndices(id[:32], 256, 3)),
L2: [32]byte(append([]byte{}, id[:32]...)),
}
err = v.hypergraph.hypergraph.TrackChange(
txn,
id,
v.prior,
v.frameNumber,
string(hypergraph.AddsPhaseType),
string(hypergraph.VertexAtomType),
shardKey,
)
return errors.Wrap(err, "vertex add commit")
}
// DataValue implements state.MaterializedState.
func (v *VertexAddMaterializedState) DataValue() *tries.VectorCommitmentTree {
return v.data
}
func (v *VertexAddMaterializedState) GetVertex() hypergraph.Vertex {
return hg.NewVertex(
v.appAddress,
v.dataAddress,
v.data.Commit(v.hypergraph.hypergraph.GetProver(), false),
v.data.GetSize(),
)
}
type VertexRemoveMaterializedState struct {
hypergraph *HypergraphState
appAddress [32]byte
dataAddress [32]byte
deleteAt int64
frameNumber uint64
prior *tries.VectorCommitmentTree
commitment []byte
originalSize *big.Int
}
func (h *HypergraphState) NewVertexRemoveMaterializedState(
appAddress [32]byte,
dataAddress [32]byte,
deleteAt int64,
frameNumber uint64,
prior *tries.VectorCommitmentTree,
commitment []byte,
originalSize *big.Int,
) *VertexRemoveMaterializedState {
return &VertexRemoveMaterializedState{
h,
appAddress,
dataAddress,
deleteAt,
frameNumber,
prior,
commitment,
originalSize,
}
}
// Commit implements state.MaterializedState.
func (v *VertexRemoveMaterializedState) Commit(
txn tries.TreeBackingStoreTransaction,
) error {
prefix, err := v.hypergraph.hypergraph.GetCoveredPrefix()
if err != nil {
return errors.Wrap(err, "vertex add commit")
}
path := tries.GetFullPath(slices.Concat(v.appAddress[:], v.dataAddress[:]))
if !slices.Equal(path[:len(prefix)], prefix) {
return nil
}
id := slices.Concat(v.appAddress[:], v.dataAddress[:])
err = v.hypergraph.hypergraph.RemoveVertex(txn, hg.NewVertex(
v.appAddress,
v.dataAddress,
v.commitment,
v.originalSize,
))
if err != nil {
return errors.Wrap(err, "vertex remove commit")
}
shardKey := tries.ShardKey{
L1: [3]byte(p2p.GetBloomFilterIndices(id[:32], 256, 3)),
L2: [32]byte(append([]byte{}, id[:32]...)),
}
err = v.hypergraph.hypergraph.TrackChange(
txn,
id,
v.prior,
v.frameNumber,
string(hypergraph.RemovesPhaseType),
string(hypergraph.VertexAtomType),
shardKey,
)
return errors.Wrap(err, "vertex remove commit")
}
// DataValue implements state.MaterializedState.
func (
v *VertexRemoveMaterializedState,
) DataValue() *tries.VectorCommitmentTree {
return nil
}
type HyperedgeAddMaterializedState struct {
hypergraph *HypergraphState
frameNumber uint64
prior *tries.VectorCommitmentTree
value hypergraph.Hyperedge
}
func (h *HypergraphState) NewHyperedgeAddMaterializedState(
frameNumber uint64,
prior *tries.VectorCommitmentTree,
value hypergraph.Hyperedge,
) *HyperedgeAddMaterializedState {
return &HyperedgeAddMaterializedState{
h,
frameNumber,
prior,
value,
}
}
// Commit implements state.MaterializedState.
func (h *HyperedgeAddMaterializedState) Commit(
txn tries.TreeBackingStoreTransaction,
) error {
prefix, err := h.hypergraph.hypergraph.GetCoveredPrefix()
if err != nil {
return errors.Wrap(err, "vertex add commit")
}
id := h.value.GetID()
path := tries.GetFullPath(id[:])
if !slices.Equal(path[:len(prefix)], prefix) {
return nil
}
err = h.hypergraph.hypergraph.AddHyperedge(txn, h.value)
if err != nil {
return errors.Wrap(err, "hyperedge add commit")
}
shardKey := tries.ShardKey{
L1: [3]byte(p2p.GetBloomFilterIndices(id[:32], 256, 3)),
L2: [32]byte(append([]byte{}, id[:32]...)),
}
err = h.hypergraph.hypergraph.TrackChange(
txn,
id[:],
h.prior,
h.frameNumber,
string(hypergraph.AddsPhaseType),
string(hypergraph.HyperedgeAtomType),
shardKey,
)
return errors.Wrap(err, "hyperedge add commit")
}
// DataValue implements state.MaterializedState.
func (
h *HyperedgeAddMaterializedState,
) DataValue() *tries.VectorCommitmentTree {
return h.value.GetExtrinsicTree()
}
type HyperedgeRemoveMaterializedState struct {
hypergraph *HypergraphState
frameNumber uint64
prior *tries.VectorCommitmentTree
value hypergraph.Hyperedge
}
func (h *HypergraphState) NewHyperedgeRemoveMaterializedState(
frameNumber uint64,
prior *tries.VectorCommitmentTree,
value hypergraph.Hyperedge,
) *HyperedgeRemoveMaterializedState {
return &HyperedgeRemoveMaterializedState{
h,
frameNumber,
prior,
value,
}
}
// Commit implements state.MaterializedState.
func (h *HyperedgeRemoveMaterializedState) Commit(
txn tries.TreeBackingStoreTransaction,
) error {
prefix, err := h.hypergraph.hypergraph.GetCoveredPrefix()
if err != nil {
return errors.Wrap(err, "vertex add commit")
}
id := h.value.GetID()
path := tries.GetFullPath(id[:])
if !slices.Equal(path[:len(prefix)], prefix) {
return nil
}
err = h.hypergraph.hypergraph.RemoveHyperedge(txn, h.value)
if err != nil {
return errors.Wrap(err, "hyperedge remove commit")
}
shardKey := tries.ShardKey{
L1: [3]byte(p2p.GetBloomFilterIndices(id[:32], 256, 3)),
L2: [32]byte(append([]byte{}, id[:32]...)),
}
err = h.hypergraph.hypergraph.TrackChange(
txn,
id[:],
h.prior,
h.frameNumber,
string(hypergraph.RemovesPhaseType),
string(hypergraph.HyperedgeAtomType),
shardKey,
)
return errors.Wrap(err, "hyperedge remove commit")
}
// DataValue implements state.MaterializedState.
func (
h *HyperedgeRemoveMaterializedState,
) DataValue() *tries.VectorCommitmentTree {
return nil
}
var (
VertexAddsDiscriminator []byte
VertexRemovesDiscriminator []byte
HyperedgeAddsDiscriminator []byte
HyperedgeRemovesDiscriminator []byte
)
func init() {
vertexAddsDiscriminatorBI, _ := poseidon.HashBytes(
[]byte("vertex:adds"),
)
vertexRemovesDiscriminatorBI, _ := poseidon.HashBytes(
[]byte("vertex:removes"),
)
hyperedgeAddsDiscriminatorBI, _ := poseidon.HashBytes(
[]byte("hyperedge:adds"),
)
hyperedgeRemovesDiscriminatorBI, _ := poseidon.HashBytes(
[]byte("hyperedge:removes"),
)
VertexAddsDiscriminator = make([]byte, 32)
VertexRemovesDiscriminator = make([]byte, 32)
HyperedgeAddsDiscriminator = make([]byte, 32)
HyperedgeRemovesDiscriminator = make([]byte, 32)
vertexAddsDiscriminatorBI.FillBytes(VertexAddsDiscriminator)
vertexRemovesDiscriminatorBI.FillBytes(VertexRemovesDiscriminator)
hyperedgeAddsDiscriminatorBI.FillBytes(HyperedgeAddsDiscriminator)
hyperedgeRemovesDiscriminatorBI.FillBytes(HyperedgeRemovesDiscriminator)
}
func NewHypergraphState(hypergraph hypergraph.Hypergraph) *HypergraphState {
return &HypergraphState{
hypergraph: hypergraph,
changeset: []state.StateChange{},
}
}
func (h *HypergraphState) GetProver() crypto.InclusionProver {
return h.hypergraph.GetProver()
}
func (h *HypergraphState) sealMetadataStateAtIndex(
metadata, subData *tries.VectorCommitmentTree,
index byte,
name string,
) error {
if index > 63 {
return errors.Wrap(state.ErrInvalidData, "seal metadata state at index")
}
if subData == nil {
return errors.Wrap(
errors.Wrap(state.ErrInvalidData, name),
"seal metadata state at index",
)
}
subDataCommit := subData.Commit(
h.hypergraph.GetProver(),
false,
)
subDataBytes, err := tries.SerializeNonLazyTree(subData)
if err != nil {
return errors.Wrap(errors.Wrap(err, name), "seal metadata state at index")
}
err = metadata.Insert(
[]byte{index << 2}, // We move it up two bits to be in the first nibble
subDataBytes,
subDataCommit,
subData.GetSize(),
)
if err != nil {
return errors.Wrap(errors.Wrap(err, name), "seal metadata state at index")
}
return nil
}
func unsealMetadataStateAtIndex(
metadata *tries.VectorCommitmentTree,
index byte,
name string,
) (*tries.VectorCommitmentTree, error) {
if index > 63 {
return nil, errors.Wrap(
state.ErrInvalidData,
"unseal metadata state at index",
)
}
// We move it up two bits to be in the first nibble
leaf, err := metadata.Get([]byte{index << 2})
if err != nil {
return nil, errors.Wrap(err, "unseal metadata state at index")
}
subTree, err := tries.DeserializeNonLazyTree(leaf)
if err != nil {
return nil, errors.Wrap(
errors.Wrap(err, name),
"unseal metadata state at index",
)
}
return subTree, nil
}
func UnpackConsensusMetadata(
tree *tries.VectorCommitmentTree,
) (*tries.VectorCommitmentTree, error) {
consensusMetadata, err := unsealMetadataStateAtIndex(
tree,
0,
"consensus metadata",
)
if err != nil {
return nil, errors.Wrap(err, "unpack consensus metadata")
}
return consensusMetadata, nil
}
func UnpackSumcheckInfo(
tree *tries.VectorCommitmentTree,
) (*tries.VectorCommitmentTree, error) {
sumcheckInfo, err := unsealMetadataStateAtIndex(
tree,
1,
"sumcheck info",
)
if err != nil {
return nil, errors.Wrap(err, "unpack sumcheck info")
}
return sumcheckInfo, nil
}
func UnpackRdfHypergraphSchema(
tree *tries.VectorCommitmentTree,
) (string, error) {
leaf, err := tree.Get([]byte{2 << 2})
if err != nil {
return "", errors.Wrap(err, "unpack rdf indices")
}
if len(leaf) == 0 {
return "", nil
}
valid, err := (&schema.TurtleRDFParser{}).Validate(string(leaf))
if err != nil {
return "", errors.Wrap(err, "unpack rdf indices")
}
if !valid {
return "", errors.Wrap(errors.New("invalid schema"), "unpack rdf indices")
}
return string(leaf), nil
}
// Init implements state.State for hypergraphs, as an app-level shard.
// Hypergraph initialization only creates a vertex addition, as an empty VCT,
// at an address impossible to reach via regular address derivation, so as to
// ensure whatever metadata it holds does not need to adhere to the same
// encoding expectation as regular data stored in the hypergraph, so whatever
// necessary public state information needs to be held will not have risk of
// triggering confusion-based collision (as well as ensuring that metadata
// remains at a maximum branch distance of 1 from the domain root). VCT metadata
// encoding MUST include shard-level consensus metadata at index 0 (intrinsic-
// controlled and interpreted for extensibility purposes), MUST include relevant
// sumcheck info at index 1, MAY include RDF->HG index mapping at index 2,
// indices 3-15 are preserved for future use in general hypergraph metadata,
// indices 16-62 are left to intrinsic-specific use cases, 63 is the type
// designator.
func (h *HypergraphState) Init(
domain []byte,
consensusMetadata *tries.VectorCommitmentTree,
sumcheckInfo *tries.VectorCommitmentTree,
rdfSchema string,
additionalData []*tries.VectorCommitmentTree,
intrinsicType []byte,
) error {
if len(domain) != 32 {
return errors.Wrap(state.ErrInvalidDomain, "init")
}
if len(additionalData) > 62 {
return errors.Wrap(state.ErrInvalidData, "init")
}
publicStateInformation := &tries.VectorCommitmentTree{}
if err := h.sealMetadataStateAtIndex(
publicStateInformation,
consensusMetadata,
0,
"consensus metadata",
); err != nil {
return errors.Wrap(err, "init")
}
if err := h.sealMetadataStateAtIndex(
publicStateInformation,
sumcheckInfo,
1,
"sumcheck info",
); err != nil {
return errors.Wrap(err, "init")
}
if err := publicStateInformation.Insert(
[]byte{2 << 2},
[]byte(rdfSchema),
nil,
big.NewInt(int64(len(rdfSchema))),
); err != nil {
return errors.Wrap(err, "init")
}
if len(additionalData) > 59 {
return errors.Wrap(errors.New("reserved metadata index"), "init")
}
if len(additionalData) > 0 {
for i, add := range additionalData {
index := i + 3
if index < 16 {
if add != nil {
return errors.Wrap(errors.New("reserved metadata index"), "init")
} else {
continue
}
}
if err := h.sealMetadataStateAtIndex(
publicStateInformation,
add,
byte(index),
fmt.Sprintf("parent intrinsic at index %d", i),
); err != nil {
return errors.Wrap(err, "init")
}
}
}
if err := publicStateInformation.Insert(
bytes.Repeat([]byte{0xff}, 32),
intrinsicType,
nil,
big.NewInt(int64(len(intrinsicType))),
); err != nil {
return errors.Wrap(err, "init")
}
initializedDomain := make([]byte, 32)
copy(initializedDomain, domain)
h.changeset = append(h.changeset, state.StateChange{
Domain: initializedDomain,
Address: HYPERGRAPH_METADATA_ADDRESS,
Discriminator: VertexAddsDiscriminator,
StateChange: state.InitializeStateChangeEvent,
Value: &VertexAddMaterializedState{
hypergraph: h,
appAddress: [32]byte(initializedDomain),
dataAddress: [32]byte(HYPERGRAPH_METADATA_ADDRESS),
data: publicStateInformation,
},
})
return nil
}
// Changeset implements state.State, as a list of hypergraph state changes. The
// returned slice is the underlying reference upstream intrinsics MUST take
// caution to not mutate it.
func (h *HypergraphState) Changeset() []state.StateChange {
return h.changeset
}
// Delete implements state.State as a deletion event on a hypergraph.
func (h *HypergraphState) Delete(
domain []byte,
address []byte,
discriminator []byte,
frameNumber uint64,
) error {
id := [64]byte{}
copy(id[:32], domain)
copy(id[32:], address)
var value state.MaterializedState
if bytes.Equal(discriminator, VertexRemovesDiscriminator) {
vertex, err := h.hypergraph.GetVertex(id)
if err != nil {
return errors.Wrap(err, "delete")
}
data, err := h.hypergraph.GetVertexData(id)
if err != nil {
return errors.Wrap(err, "delete")
}
value = h.NewVertexRemoveMaterializedState(
[32]byte(domain),
[32]byte(address),
time.Now().UnixMilli()+VERTEX_DATA_DELETION_INTERVAL,
frameNumber,
data,
vertex.Commit(nil),
vertex.GetSize(),
)
} else if bytes.Equal(discriminator, HyperedgeRemovesDiscriminator) {
hyperedge, err := h.hypergraph.GetHyperedge(id)
if err != nil {
return errors.Wrap(err, "delete")
}
value = h.NewHyperedgeRemoveMaterializedState(
frameNumber,
hyperedge.GetExtrinsicTree(),
hyperedge,
)
} else {
return errors.Wrap(state.ErrInvalidDiscriminator, "delete")
}
h.changeset = append(h.changeset, state.StateChange{
Domain: domain,
Address: address,
Discriminator: discriminator,
StateChange: state.DeleteStateChangeEvent,
Value: value,
})
return nil
}
// Get implements state.State as a simple fetcher on the hypergraph.
// Discriminator is used to distinguish between set types (vertex vs hyperedge).
func (h *HypergraphState) Get(
domain []byte,
address []byte,
discriminator []byte,
) (interface{}, error) {
for _, c := range slices.Backward(h.changeset) {
if bytes.Equal(c.Address, address) && bytes.Equal(c.Domain, domain) &&
bytes.Equal(c.Discriminator, discriminator) {
return c.Value.DataValue(), nil
}
}
id := [64]byte{}
copy(id[:32], domain)
copy(id[32:], address)
if bytes.Equal(discriminator, VertexAddsDiscriminator) {
data, err := h.hypergraph.GetVertexData(id)
if err != nil {
return nil, errors.Wrap(err, "get")
}
return data, errors.Wrap(err, "get")
} else if bytes.Equal(discriminator, HyperedgeAddsDiscriminator) {
he, err := h.hypergraph.GetHyperedge(id)
if err != nil {
return nil, errors.Wrap(err, "get")
}
return he, nil
}
return nil, errors.Wrap(state.ErrInvalidDiscriminator, "get")
}
// Set implements state.State as a simple setter on the hypergraph.
// Discriminator is used to distinguish between set types (vertex vs hyperedge).
func (h *HypergraphState) Set(
domain []byte,
address []byte,
discriminator []byte,
frameNumber uint64,
value state.MaterializedState,
) error {
id := [64]byte{}
copy(id[:32], domain)
copy(id[32:], address)
previousValue := false
if bytes.Equal(discriminator, VertexAddsDiscriminator) {
if _, ok := value.(*VertexAddMaterializedState); !ok {
return errors.Wrap(state.ErrInvalidDiscriminator, "set")
}
vertex, err := h.hypergraph.GetVertex(id)
if err != nil && errors.Is(err, hypergraph.ErrRemoved) {
return errors.Wrap(err, "set")
}
if vertex != nil {
previousValue = true
}
} else if bytes.Equal(discriminator, HyperedgeAddsDiscriminator) {
if _, ok := value.(*HyperedgeAddMaterializedState); !ok {
return errors.Wrap(state.ErrInvalidDiscriminator, "set")
}
hyperedge, err := h.hypergraph.GetHyperedge(id)
if err != nil && errors.Is(err, hypergraph.ErrRemoved) {
return errors.Wrap(err, "set")
}
if hyperedge != nil {
previousValue = true
}
} else {
return errors.Wrap(state.ErrInvalidDiscriminator, "set")
}
stateChange := state.CreateStateChangeEvent
if previousValue {
stateChange = state.UpdateStateChangeEvent
}
h.changeset = append(h.changeset, state.StateChange{
Domain: domain,
Address: address,
Discriminator: discriminator,
StateChange: stateChange,
Value: value,
})
return nil
}
// Commit implements state.State, committing the (db-level) transaction set.
func (h *HypergraphState) Commit() error {
txn, err := h.hypergraph.NewTransaction(false)
if err != nil {
return errors.Wrap(err, "commit")
}
for _, change := range h.changeset {
if err := change.Value.Commit(txn); err != nil {
if err := txn.Abort(); err != nil {
return errors.Wrap(err, "commit")
}
return errors.Wrap(err, "commit")
}
}
if err := txn.Commit(); err != nil {
return errors.Wrap(err, "commit")
}
return nil
}
// Abort implements state.State, aborting the (db-level) transaction set.
func (h *HypergraphState) Abort() error {
h.changeset = []state.StateChange{}
return nil
}
var _ state.State = (*HypergraphState)(nil)
var _ state.MaterializedState = (*VertexAddMaterializedState)(nil)
var _ state.MaterializedState = (*VertexRemoveMaterializedState)(nil)
var _ state.MaterializedState = (*HyperedgeAddMaterializedState)(nil)
var _ state.MaterializedState = (*HyperedgeRemoveMaterializedState)(nil)
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