jay/go-heartwood
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83787aed1c804ba669887f752250f0c21498f8a6
go-heartwood/write_test.go
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package heartwood
import (
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
"testing"
)
// Test helpers
func validEventJSON() []byte {
return []byte(`{"id":"c7a702e6158744ca03508bbb4c90f9dbb0d6e88fefbfaa511d5ab24b4e3c48ad","pubkey":"cfa87f35acbde29ba1ab3ee42de527b2cad33ac487e80cf2d6405ea0042c8fef","created_at":1760740551,"kind":1,"tags":[],"content":"hello world","sig":"83b71e15649c9e9da362c175f988c36404cabf357a976d869102a74451cfb8af486f6088b5631033b4927bd46cad7a0d90d7f624aefc0ac260364aa65c36071a"}`)
}
func invalidEventJSON() []byte {
return []byte(`{"id":"abc123","pubkey":"xyz789","created_at":1000,"kind":1,"content":"test","tags":[],"sig":"abc"}`)
}
func malformedEventJSON() []byte {
return []byte(`{malformed json`)
}
// Pipeline stage tests
func TestCreateEventTravellers(t *testing.T) {
cases := []struct {
name string
input [][]byte
expected []EventTraveller
}{
{
name: "empty input",
input: [][]byte{},
expected: []EventTraveller{},
},
{
name: "single json",
input: [][]byte{[]byte("test1")},
expected: []EventTraveller{
{JSON: []byte("test1")},
},
},
{
name: "multiple jsons",
input: [][]byte{[]byte("test1"), []byte("test2"), []byte("test3")},
expected: []EventTraveller{
{JSON: []byte("test1")},
{JSON: []byte("test2")},
{JSON: []byte("test3")},
},
},
}
for _, tc := range cases {
t.Run(tc.name, func(t *testing.T) {
result := createEventTravellers(tc.input)
assert.Equal(t, len(tc.expected), len(result))
for i := range tc.expected {
assert.Equal(t, tc.expected[i].JSON, result[i].JSON)
}
})
}
}
func TestParseEventJSON(t *testing.T) {
cases := []struct {
name string
input []EventTraveller
wantParsed int
wantRejected int
checkParsedID bool
expectedID string
wantErrorText string
}{
{
name: "valid event",
input: []EventTraveller{
{JSON: validEventJSON()},
},
wantParsed: 1,
wantRejected: 0,
checkParsedID: true,
expectedID: "c7a702e6158744ca03508bbb4c90f9dbb0d6e88fefbfaa511d5ab24b4e3c48ad",
},
{
name: "invalid event",
input: []EventTraveller{
{JSON: invalidEventJSON()},
},
wantParsed: 0,
wantRejected: 1,
wantErrorText: "rejected: invalid event",
},
{
name: "malformed json",
input: []EventTraveller{
{JSON: malformedEventJSON()},
},
wantParsed: 0,
wantRejected: 1,
wantErrorText: "rejected: unrecognized event format",
},
{
name: "mixed batch",
input: []EventTraveller{
{JSON: invalidEventJSON()},
{JSON: malformedEventJSON()},
{JSON: validEventJSON()},
},
wantParsed: 1,
wantRejected: 2,
},
}
for _, tc := range cases {
t.Run(tc.name, func(t *testing.T) {
parsed, rejected := parseEventJSON(tc.input)
assert.Equal(t, tc.wantParsed, len(parsed))
assert.Equal(t, tc.wantRejected, len(rejected))
// Smoke test first parsed id
if tc.checkParsedID && len(parsed) > 0 {
assert.Equal(t, tc.expectedID, parsed[0].ID)
assert.NotEmpty(t, parsed[0].Event.ID)
}
// Check error text on first rejected event
if tc.wantErrorText != "" {
assert.ErrorContains(t, rejected[0].Error, tc.wantErrorText)
}
for _, reject := range rejected {
assert.NotNil(t, reject.Error)
assert.Empty(t, reject.Event.ID())
}
})
}
}
func TestEnforcePolicyRules(t *testing.T) {
db := tempDB(t)
require.NoError(t, SetupBoltDB(db))
fx := LoadFixtures(t)
// Pre-write bare and generic_tag as existing events
bareJSON, _ := fx.ValidatedEvent(t, "bare").MarshalJSON()
genericJSON, _ := fx.ValidatedEvent(t, "generic_tag").MarshalJSON()
bareID := fx.ValidatedEvent(t, "bare").ID()
genericID := fx.ValidatedEvent(t, "generic_tag").ID()
err := BatchWriteEvents(db, []EventBlob{
{ID: []byte(bareID), JSON: bareJSON},
{ID: []byte(genericID), JSON: genericJSON},
})
assert.NoError(t, err)
e_tag_id := fx.ValidatedEvent(t, "e_tag_valid").ID()
p_tag_id := fx.ValidatedEvent(t, "p_tag_valid").ID()
cases := []struct {
name string
input []EventTraveller
wantQueued int
wantExcluded int
}{
{
name: "empty input",
input: []EventTraveller{},
wantQueued: 0,
wantExcluded: 0,
},
{
name: "no duplicates",
input: []EventTraveller{
{ID: e_tag_id},
{ID: p_tag_id},
},
wantQueued: 2,
wantExcluded: 0,
},
{
name: "some duplicates",
input: []EventTraveller{
{ID: bareID},
{ID: e_tag_id},
},
wantQueued: 1,
wantExcluded: 1,
},
{
name: "all duplicates",
input: []EventTraveller{
{ID: bareID},
{ID: genericID},
},
wantQueued: 0,
wantExcluded: 2,
},
}
for _, tc := range cases {
t.Run(tc.name, func(t *testing.T) {
queued, excluded := enforcePolicyRules(tc.input, db, 100)
assert.Equal(t, tc.wantQueued, len(queued))
assert.Equal(t, tc.wantExcluded, len(excluded))
for _, ex := range excluded {
assert.ErrorIs(t, ex.Error, ErrDuplicate)
}
})
}
}
func TestConvertEventsToSubgraphs(t *testing.T) {
fx := LoadFixtures(t)
cases := []struct {
name string
traveller EventTraveller
wantNodeCount int
wantRelCount int
}{
{
name: "event with no tags",
traveller: EventTraveller{Event: fx.ValidatedEvent(t, "bare")},
wantNodeCount: 2, // event + user
wantRelCount: 1, // signed
},
}
for _, tc := range cases {
t.Run(tc.name, func(t *testing.T) {
expanders := NewExpanderPipeline(DefaultExpanders()...)
results := convertEventsToSubgraphs([]EventTraveller{tc.traveller}, expanders)
assert.Len(t, results, 1)
assert.NotNil(t, results[0].Subgraph)
assert.Equal(t, tc.wantNodeCount, len(results[0].Subgraph.Nodes()))
assert.Equal(t, tc.wantRelCount, len(results[0].Subgraph.Rels()))
})
}
}
// Skip `writeEventsToDatabases` tests -- requires BoltDB + Neo4j
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