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package log_buffer
import (
"bytes"
"testing"
"time"
"github.com/seaweedfs/seaweedfs/weed/pb/filer_pb"
"github.com/seaweedfs/seaweedfs/weed/util"
"google.golang.org/protobuf/proto"
)
// TestBufferQueryability tests that data written to the buffer can be immediately queried
func TestBufferQueryability(t *testing.T) {
// Create a log buffer with a long flush interval to prevent premature flushing
logBuffer := NewLogBuffer("test-buffer", 10*time.Minute,
func(logBuffer *LogBuffer, startTime, stopTime time.Time, buf []byte, minOffset, maxOffset int64) {
// Mock flush function - do nothing to keep data in memory
},
func(startPosition MessagePosition, stopTsNs int64, eachLogEntryFn EachLogEntryFuncType) (MessagePosition, bool, error) {
// Mock read from disk function
return startPosition, false, nil
},
func() {
// Mock notify function
})
// Test data similar to schema registry messages
testKey := []byte(`{"keytype":"SCHEMA","subject":"test-topic-value","version":1,"magic":1}`)
testValue := []byte(`{"subject":"test-topic-value","version":1,"id":1,"schemaType":"AVRO","schema":"\"string\"","deleted":false}`)
// Create a LogEntry with offset (simulating the schema registry scenario)
logEntry := &filer_pb.LogEntry{
TsNs: time.Now().UnixNano(),
PartitionKeyHash: 12345,
Data: testValue,
Key: testKey,
Offset: 1,
}
// Add the entry to the buffer
logBuffer.AddLogEntryToBuffer(logEntry)
// Verify the buffer has data
if logBuffer.pos == 0 {
t.Fatal("Buffer should have data after adding entry")
}
// Test immediate queryability - read from buffer starting from beginning
startPosition := NewMessagePosition(0, 0) // Start from beginning
bufferCopy, batchIndex, err := logBuffer.ReadFromBuffer(startPosition)
if err != nil {
t.Fatalf("ReadFromBuffer failed: %v", err)
}
if bufferCopy == nil {
t.Fatal("ReadFromBuffer returned nil buffer - data should be queryable immediately")
}
if batchIndex != 1 {
t.Errorf("Expected batchIndex=1, got %d", batchIndex)
}
// Verify we can read the data back
buf := bufferCopy.Bytes()
if len(buf) == 0 {
t.Fatal("Buffer copy is empty")
}
// Parse the first entry from the buffer
if len(buf) < 4 {
t.Fatal("Buffer too small to contain entry size")
}
size := util.BytesToUint32(buf[0:4])
if len(buf) < 4+int(size) {
t.Fatalf("Buffer too small to contain entry data: need %d, have %d", 4+int(size), len(buf))
}
entryData := buf[4 : 4+int(size)]
// Unmarshal and verify the entry
retrievedEntry := &filer_pb.LogEntry{}
if err := proto.Unmarshal(entryData, retrievedEntry); err != nil {
t.Fatalf("Failed to unmarshal retrieved entry: %v", err)
}
// Verify the data matches
if !bytes.Equal(retrievedEntry.Key, testKey) {
t.Errorf("Key mismatch: expected %s, got %s", string(testKey), string(retrievedEntry.Key))
}
if !bytes.Equal(retrievedEntry.Data, testValue) {
t.Errorf("Value mismatch: expected %s, got %s", string(testValue), string(retrievedEntry.Data))
}
if retrievedEntry.Offset != 1 {
t.Errorf("Offset mismatch: expected 1, got %d", retrievedEntry.Offset)
}
t.Logf("Buffer queryability test passed - data is immediately readable")
}
// TestMultipleEntriesQueryability tests querying multiple entries from buffer
func TestMultipleEntriesQueryability(t *testing.T) {
logBuffer := NewLogBuffer("test-multi-buffer", 10*time.Minute,
func(logBuffer *LogBuffer, startTime, stopTime time.Time, buf []byte, minOffset, maxOffset int64) {
// Mock flush function
},
func(startPosition MessagePosition, stopTsNs int64, eachLogEntryFn EachLogEntryFuncType) (MessagePosition, bool, error) {
return startPosition, false, nil
},
func() {})
// Add multiple entries
for i := 1; i <= 3; i++ {
logEntry := &filer_pb.LogEntry{
TsNs: time.Now().UnixNano() + int64(i*1000), // Ensure different timestamps
PartitionKeyHash: int32(i),
Data: []byte("test-data-" + string(rune('0'+i))),
Key: []byte("test-key-" + string(rune('0'+i))),
Offset: int64(i),
}
logBuffer.AddLogEntryToBuffer(logEntry)
}
// Read all entries
startPosition := NewMessagePosition(0, 0)
bufferCopy, batchIndex, err := logBuffer.ReadFromBuffer(startPosition)
if err != nil {
t.Fatalf("ReadFromBuffer failed: %v", err)
}
if bufferCopy == nil {
t.Fatal("ReadFromBuffer returned nil buffer")
}
if batchIndex != 3 {
t.Errorf("Expected batchIndex=3, got %d", batchIndex)
}
// Count entries in buffer
buf := bufferCopy.Bytes()
entryCount := 0
pos := 0
for pos+4 < len(buf) {
size := util.BytesToUint32(buf[pos : pos+4])
if pos+4+int(size) > len(buf) {
break
}
entryData := buf[pos+4 : pos+4+int(size)]
entry := &filer_pb.LogEntry{}
if err := proto.Unmarshal(entryData, entry); err != nil {
t.Fatalf("Failed to unmarshal entry %d: %v", entryCount+1, err)
}
entryCount++
pos += 4 + int(size)
t.Logf("Entry %d: Key=%s, Data=%s, Offset=%d", entryCount, string(entry.Key), string(entry.Data), entry.Offset)
}
if entryCount != 3 {
t.Errorf("Expected 3 entries, found %d", entryCount)
}
t.Logf("Multiple entries queryability test passed - found %d entries", entryCount)
}
// TestSchemaRegistryScenario tests the specific scenario that was failing
func TestSchemaRegistryScenario(t *testing.T) {
logBuffer := NewLogBuffer("_schemas", 10*time.Minute,
func(logBuffer *LogBuffer, startTime, stopTime time.Time, buf []byte, minOffset, maxOffset int64) {
// Mock flush function - simulate what happens in real scenario
t.Logf("FLUSH: startTime=%v, stopTime=%v, bufSize=%d, minOffset=%d, maxOffset=%d",
startTime, stopTime, len(buf), minOffset, maxOffset)
},
func(startPosition MessagePosition, stopTsNs int64, eachLogEntryFn EachLogEntryFuncType) (MessagePosition, bool, error) {
return startPosition, false, nil
},
func() {})
// Simulate schema registry message
schemaKey := []byte(`{"keytype":"SCHEMA","subject":"test-schema-value","version":1,"magic":1}`)
schemaValue := []byte(`{"subject":"test-schema-value","version":1,"id":12,"schemaType":"AVRO","schema":"\"string\"","deleted":false}`)
logEntry := &filer_pb.LogEntry{
TsNs: time.Now().UnixNano(),
PartitionKeyHash: 12345,
Data: schemaValue,
Key: schemaKey,
Offset: 0, // First message
}
// Add to buffer
logBuffer.AddLogEntryToBuffer(logEntry)
// Simulate the SQL query scenario - read from offset 0
startPosition := NewMessagePosition(0, 0)
bufferCopy, _, err := logBuffer.ReadFromBuffer(startPosition)
if err != nil {
t.Fatalf("Schema registry scenario failed: %v", err)
}
if bufferCopy == nil {
t.Fatal("Schema registry scenario: ReadFromBuffer returned nil - this is the bug!")
}
// Verify schema data is readable
buf := bufferCopy.Bytes()
if len(buf) < 4 {
t.Fatal("Buffer too small")
}
size := util.BytesToUint32(buf[0:4])
entryData := buf[4 : 4+int(size)]
retrievedEntry := &filer_pb.LogEntry{}
if err := proto.Unmarshal(entryData, retrievedEntry); err != nil {
t.Fatalf("Failed to unmarshal schema entry: %v", err)
}
// Verify schema value is preserved
if !bytes.Equal(retrievedEntry.Data, schemaValue) {
t.Errorf("Schema value lost! Expected: %s, Got: %s", string(schemaValue), string(retrievedEntry.Data))
}
if len(retrievedEntry.Data) != len(schemaValue) {
t.Errorf("Schema value length mismatch! Expected: %d, Got: %d", len(schemaValue), len(retrievedEntry.Data))
}
t.Logf("Schema registry scenario test passed - schema value preserved: %d bytes", len(retrievedEntry.Data))
}
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