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seaweedFS/test/s3/remote_cache/remote_cache_test.go
Chris Lu 905e7e72d9 Add remote.copy.local command to copy local files to remote storage (#8033) 
* Add remote.copy.local command to copy local files to remote storage

This new command solves the issue described in GitHub Discussion #8031 where
files exist locally but are not synced to remote storage due to missing filer logs.

Features:
- Copies local-only files to remote storage
- Supports file filtering (include/exclude patterns)
- Dry run mode to preview actions
- Configurable concurrency for performance
- Force update option for existing remote files
- Comprehensive error handling with retry logic

Usage:
  remote.copy.local -dir=/path/to/mount/dir [options]

This addresses the need to manually sync files when filer logs were
deleted or when local files were never synced to remote storage.

* shell: rename commandRemoteLocalSync to commandRemoteCopyLocal

* test: add comprehensive remote cache integration tests

* shell: fix forceUpdate logic in remote.copy.local

The previous logic only allowed force updates when localEntry.RemoteEntry
was not nil, which defeated the purpose of using -forceUpdate to fix
inconsistencies where local metadata might be missing.

Now -forceUpdate will overwrite remote files whenever they exist,
regardless of local metadata state.

* shell: fix code review issues in remote.copy.local

- Return actual error from flag parsing instead of swallowing it
- Use sync.Once to safely capture first error in concurrent operations
- Add atomic counter to track actual successful copies
- Protect concurrent writes to output with mutex to prevent interleaving
- Fix path matching to prevent false positives with sibling directories
  (e.g., /mnt/remote2 no longer matches /mnt/remote)

* test: address code review nitpicks in integration tests

- Improve create_bucket error handling to fail on real errors
- Fix test assertions to properly verify expected failures
- Use case-insensitive string matching for error detection
- Replace weak logging-only tests with proper assertions
- Remove extra blank line in Makefile

* test: remove redundant edge case tests

Removed 5 tests that were either duplicates or didn't assert meaningful behavior:
- TestEdgeCaseEmptyDirectory (duplicate of TestRemoteCopyLocalEmptyDirectory)
- TestEdgeCaseRapidCacheUncache (no meaningful assertions)
- TestEdgeCaseConcurrentCommands (only logs errors, no assertions)
- TestEdgeCaseInvalidPaths (no security assertions)
- TestEdgeCaseFileNamePatterns (duplicate of pattern tests in cache tests)

Kept valuable stress tests: nested directories, special characters,
very large files (100MB), many small files (100), and zero-byte files.

* test: fix CI failures by forcing localhost IP advertising

Added -ip=127.0.0.1 flag to both primary and remote weed mini commands
to prevent IP auto-detection issues in CI environments. Without this flag,
the master would advertise itself using the actual IP (e.g., 10.1.0.17)
while binding to 127.0.0.1, causing connection refused errors when other
services tried to connect to the gRPC port.

* test: address final code review issues

- Add proper error assertions for concurrent commands test
- Require errors for invalid path tests instead of just logging
- Remove unused 'match' field from pattern test struct
- Add dry-run output assertion to verify expected behavior
- Simplify redundant condition in remote.copy.local (remove entry.RemoteEntry check)

* test: fix remote.configure tests to match actual validation rules

- Use only letters in remote names (no numbers) to match validation
- Relax missing parameter test expectations since validation may not be strict
- Generate unique names using letter suffix instead of numbers

* shell: rename pathToCopyCopy to localPath for clarity

Improved variable naming in concurrent copy loop to make the code
more readable and less repetitive.

* test: fix remaining test failures

- Remove strict error requirement for invalid paths (commands handle gracefully)
- Fix TestRemoteUncacheBasic to actually test uncache instead of cache
- Use simple numeric names for remote.configure tests (testcfg1234 format)
  to avoid validation issues with letter-only or complex name generation

* test: use only letters in remote.configure test names

The validation regex ^[A-Za-z][A-Za-z0-9]*$ requires names to start with
a letter, but using static letter-only names avoids any potential issues
with the validation.

* test: remove quotes from -name parameter in remote.configure tests

Single quotes were being included as part of the name value, causing
validation failures. Changed from -name='testremote' to -name=testremote.

* test: fix remote.configure assertion to be flexible about JSON formatting

Changed from checking exact JSON format with specific spacing to just
checking if the name appears in the output, since JSON formatting
may vary (e.g., "name":  "value" vs "name": "value").
2026-01-15 00:52:57 -08:00

430 lines
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package remote_cache
import (
"bytes"
"fmt"
"io"
"net/http"
"os"
"os/exec"
"strings"
"sync"
"sync/atomic"
"testing"
"time"
"github.com/aws/aws-sdk-go/aws"
"github.com/aws/aws-sdk-go/aws/credentials"
"github.com/aws/aws-sdk-go/aws/session"
"github.com/aws/aws-sdk-go/service/s3"
"github.com/stretchr/testify/assert"
"github.com/stretchr/testify/require"
)
// Test configuration
// Uses two SeaweedFS instances:
// - Primary: The one being tested (has remote caching)
// - Remote: Acts as the "remote" S3 storage
const (
// Primary SeaweedFS
primaryEndpoint = "http://localhost:8333"
primaryMasterPort = "9333"
// Remote SeaweedFS (acts as remote storage)
remoteEndpoint = "http://localhost:8334"
// Credentials (anonymous access for testing)
accessKey = "some_access_key1"
secretKey = "some_secret_key1"
// Bucket name - mounted on primary as remote storage
testBucket = "remotemounted"
// Path to weed binary
weedBinary = "../../../weed/weed_binary"
)
var (
primaryClient *s3.S3
primaryClientOnce sync.Once
)
func getPrimaryClient() *s3.S3 {
primaryClientOnce.Do(func() {
primaryClient = createS3Client(primaryEndpoint)
})
return primaryClient
}
func createS3Client(endpoint string) *s3.S3 {
sess, err := session.NewSession(&aws.Config{
Region: aws.String("us-east-1"),
Endpoint: aws.String(endpoint),
Credentials: credentials.NewStaticCredentials(accessKey, secretKey, ""),
DisableSSL: aws.Bool(!strings.HasPrefix(endpoint, "https")),
S3ForcePathStyle: aws.Bool(true),
})
if err != nil {
panic(fmt.Sprintf("failed to create session: %v", err))
}
return s3.New(sess)
}
// checkServersRunning ensures the servers are running and fails if they aren't
func checkServersRunning(t *testing.T) {
resp, err := http.Get(primaryEndpoint)
require.NoErrorf(t, err, "Primary SeaweedFS not running at %s", primaryEndpoint)
resp.Body.Close()
resp, err = http.Get(remoteEndpoint)
require.NoErrorf(t, err, "Remote SeaweedFS not running at %s", remoteEndpoint)
resp.Body.Close()
}
// stripLogs removes SeaweedFS log lines from the output
func stripLogs(output string) string {
lines := strings.Split(output, "\n")
var filtered []string
for _, line := range lines {
trimmed := strings.TrimSpace(line)
if len(trimmed) > 0 && (trimmed[0] == 'I' || trimmed[0] == 'W' || trimmed[0] == 'E' || trimmed[0] == 'F') && len(trimmed) > 5 && isDigit(trimmed[1]) {
continue
}
filtered = append(filtered, line)
}
return strings.Join(filtered, "\n")
}
func isDigit(b byte) bool {
return b >= '0' && b <= '9'
}
// runWeedShell executes a weed shell command
func runWeedShell(t *testing.T, command string) (string, error) {
cmd := exec.Command(weedBinary, "shell", "-master=localhost:"+primaryMasterPort)
cmd.Stdin = strings.NewReader(command + "\nexit\n")
output, err := cmd.CombinedOutput()
result := stripLogs(string(output))
if err != nil {
t.Logf("weed shell command '%s' failed: %v, output: %s", command, err, result)
return result, err
}
return result, nil
}
// runWeedShellWithOutput executes a weed shell command and returns output even on error
func runWeedShellWithOutput(t *testing.T, command string) (output string, err error) {
cmd := exec.Command(weedBinary, "shell", "-master=localhost:"+primaryMasterPort)
cmd.Stdin = strings.NewReader(command + "\nexit\n")
outputBytes, err := cmd.CombinedOutput()
output = stripLogs(string(outputBytes))
if err != nil {
t.Logf("weed shell command '%s' output: %s", command, output)
}
return output, err
}
// createTestFile creates a test file with specific content via S3
func createTestFile(t *testing.T, key string, size int) []byte {
data := make([]byte, size)
for i := range data {
data[i] = byte(i % 256)
}
uploadToPrimary(t, key, data)
return data
}
// verifyFileContent verifies file content matches expected data
func verifyFileContent(t *testing.T, key string, expected []byte) {
actual := getFromPrimary(t, key)
assert.Equal(t, expected, actual, "file content mismatch for %s", key)
}
// waitForCondition waits for a condition to be true with timeout
func waitForCondition(t *testing.T, condition func() bool, timeout time.Duration, message string) bool {
deadline := time.Now().Add(timeout)
for time.Now().Before(deadline) {
if condition() {
return true
}
time.Sleep(100 * time.Millisecond)
}
t.Logf("Timeout waiting for: %s", message)
return false
}
// fileExists checks if a file exists via S3
func fileExists(t *testing.T, key string) bool {
_, err := getPrimaryClient().HeadObject(&s3.HeadObjectInput{
Bucket: aws.String(testBucket),
Key: aws.String(key),
})
return err == nil
}
// uploadToPrimary uploads an object to the primary SeaweedFS (local write)
func uploadToPrimary(t *testing.T, key string, data []byte) {
_, err := getPrimaryClient().PutObject(&s3.PutObjectInput{
Bucket: aws.String(testBucket),
Key: aws.String(key),
Body: bytes.NewReader(data),
})
require.NoError(t, err, "failed to upload to primary SeaweedFS")
}
// getFromPrimary gets an object from primary SeaweedFS
func getFromPrimary(t *testing.T, key string) []byte {
resp, err := getPrimaryClient().GetObject(&s3.GetObjectInput{
Bucket: aws.String(testBucket),
Key: aws.String(key),
})
require.NoError(t, err, "failed to get from primary SeaweedFS")
defer resp.Body.Close()
data, err := io.ReadAll(resp.Body)
require.NoError(t, err, "failed to read response body")
return data
}
// uncacheLocal purges the local cache, forcing data to be fetched from remote
func uncacheLocal(t *testing.T, pattern string) {
t.Logf("Purging local cache for pattern: %s", pattern)
output, err := runWeedShell(t, fmt.Sprintf("remote.uncache -dir=/buckets/%s -include=%s", testBucket, pattern))
if err != nil {
t.Logf("uncacheLocal warning: %v", err)
}
t.Log(output)
time.Sleep(500 * time.Millisecond)
}
// TestRemoteCacheBasic tests the basic caching workflow:
// 1. Write to local
// 2. Uncache (push to remote, remove local chunks)
// 3. Read (triggers caching from remote)
func TestRemoteCacheBasic(t *testing.T) {
checkServersRunning(t)
testKey := fmt.Sprintf("test-basic-%d.txt", time.Now().UnixNano())
testData := []byte("Hello, this is test data for remote caching!")
// Step 1: Write to local
t.Log("Step 1: Writing object to primary SeaweedFS (local)...")
uploadToPrimary(t, testKey, testData)
// Verify it's readable
result := getFromPrimary(t, testKey)
assert.Equal(t, testData, result, "initial read mismatch")
// Step 2: Uncache - push to remote and remove local chunks
t.Log("Step 2: Uncaching (pushing to remote, removing local chunks)...")
uncacheLocal(t, testKey)
// Step 3: Read - this should trigger caching from remote
t.Log("Step 3: Reading object (should trigger caching from remote)...")
start := time.Now()
result = getFromPrimary(t, testKey)
firstReadDuration := time.Since(start)
assert.Equal(t, testData, result, "data mismatch after cache")
t.Logf("First read (from remote) took %v", firstReadDuration)
// Step 4: Read again - should be from local cache
t.Log("Step 4: Reading again (should be from local cache)...")
start = time.Now()
result = getFromPrimary(t, testKey)
secondReadDuration := time.Since(start)
assert.Equal(t, testData, result, "data mismatch on cached read")
t.Logf("Second read (from cache) took %v", secondReadDuration)
t.Log("Basic caching test passed")
}
// TestRemoteCacheConcurrent tests that concurrent reads of the same
// remote object only trigger ONE caching operation (singleflight deduplication)
func TestRemoteCacheConcurrent(t *testing.T) {
checkServersRunning(t)
testKey := fmt.Sprintf("test-concurrent-%d.txt", time.Now().UnixNano())
// Use larger data to make caching take measurable time
testData := make([]byte, 1024*1024) // 1MB
for i := range testData {
testData[i] = byte(i % 256)
}
// Step 1: Write to local
t.Log("Step 1: Writing 1MB object to primary SeaweedFS...")
uploadToPrimary(t, testKey, testData)
// Verify it's readable
result := getFromPrimary(t, testKey)
assert.Equal(t, len(testData), len(result), "initial size mismatch")
// Step 2: Uncache
t.Log("Step 2: Uncaching (pushing to remote)...")
uncacheLocal(t, testKey)
// Step 3: Launch many concurrent reads - singleflight should deduplicate
numRequests := 10
var wg sync.WaitGroup
var successCount atomic.Int32
var errorCount atomic.Int32
results := make(chan []byte, numRequests)
t.Logf("Step 3: Launching %d concurrent requests...", numRequests)
startTime := time.Now()
for i := 0; i < numRequests; i++ {
wg.Add(1)
go func(idx int) {
defer wg.Done()
resp, err := getPrimaryClient().GetObject(&s3.GetObjectInput{
Bucket: aws.String(testBucket),
Key: aws.String(testKey),
})
if err != nil {
t.Logf("Request %d failed: %v", idx, err)
errorCount.Add(1)
return
}
defer resp.Body.Close()
data, err := io.ReadAll(resp.Body)
if err != nil {
t.Logf("Request %d read failed: %v", idx, err)
errorCount.Add(1)
return
}
results <- data
successCount.Add(1)
}(i)
}
wg.Wait()
close(results)
totalDuration := time.Since(startTime)
t.Logf("All %d requests completed in %v", numRequests, totalDuration)
t.Logf("Successful: %d, Failed: %d", successCount.Load(), errorCount.Load())
// Verify all successful requests returned correct data
for data := range results {
assert.Equal(t, len(testData), len(data), "data length mismatch")
}
// All requests should succeed
assert.Equal(t, int32(numRequests), successCount.Load(), "some requests failed")
assert.Equal(t, int32(0), errorCount.Load(), "no requests should fail")
t.Log("Concurrent caching test passed")
}
// TestRemoteCacheLargeObject tests caching of larger objects
func TestRemoteCacheLargeObject(t *testing.T) {
checkServersRunning(t)
testKey := fmt.Sprintf("test-large-%d.bin", time.Now().UnixNano())
// 5MB object
testData := make([]byte, 5*1024*1024)
for i := range testData {
testData[i] = byte(i % 256)
}
// Step 1: Write to local
t.Log("Step 1: Writing 5MB object to primary SeaweedFS...")
uploadToPrimary(t, testKey, testData)
// Verify it's readable
result := getFromPrimary(t, testKey)
assert.Equal(t, len(testData), len(result), "initial size mismatch")
// Step 2: Uncache
t.Log("Step 2: Uncaching...")
uncacheLocal(t, testKey)
// Step 3: Read from remote
t.Log("Step 3: Reading 5MB object (should cache from remote)...")
start := time.Now()
result = getFromPrimary(t, testKey)
duration := time.Since(start)
assert.Equal(t, len(testData), len(result), "size mismatch")
assert.Equal(t, testData, result, "data mismatch")
t.Logf("Large object cached in %v", duration)
t.Log("Large object caching test passed")
}
// TestRemoteCacheRangeRequest tests that range requests work after caching
func TestRemoteCacheRangeRequest(t *testing.T) {
checkServersRunning(t)
testKey := fmt.Sprintf("test-range-%d.txt", time.Now().UnixNano())
testData := []byte("0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ")
// Write, uncache, then test range request
t.Log("Writing and uncaching object...")
uploadToPrimary(t, testKey, testData)
uncacheLocal(t, testKey)
// Range request should work and trigger caching
t.Log("Testing range request (bytes 10-19)...")
resp, err := getPrimaryClient().GetObject(&s3.GetObjectInput{
Bucket: aws.String(testBucket),
Key: aws.String(testKey),
Range: aws.String("bytes=10-19"),
})
require.NoError(t, err)
defer resp.Body.Close()
rangeData, err := io.ReadAll(resp.Body)
require.NoError(t, err)
expected := testData[10:20] // "ABCDEFGHIJ"
assert.Equal(t, expected, rangeData, "range data mismatch")
t.Logf("Range request returned: %s", string(rangeData))
t.Log("Range request test passed")
}
// TestRemoteCacheNotFound tests that non-existent objects return proper errors
func TestRemoteCacheNotFound(t *testing.T) {
checkServersRunning(t)
testKey := fmt.Sprintf("non-existent-object-%d", time.Now().UnixNano())
_, err := getPrimaryClient().GetObject(&s3.GetObjectInput{
Bucket: aws.String(testBucket),
Key: aws.String(testKey),
})
assert.Error(t, err, "should get error for non-existent object")
t.Logf("Got expected error: %v", err)
t.Log("Not found test passed")
}
// TestMain sets up and tears down the test environment
func TestMain(m *testing.M) {
if !isServerRunning(primaryEndpoint) {
fmt.Println("WARNING: Primary SeaweedFS not running at", primaryEndpoint)
fmt.Println(" Run 'make test-with-server' to start servers automatically")
}
if !isServerRunning(remoteEndpoint) {
fmt.Println("WARNING: Remote SeaweedFS not running at", remoteEndpoint)
fmt.Println(" Run 'make test-with-server' to start servers automatically")
}
os.Exit(m.Run())
}
func isServerRunning(url string) bool {
resp, err := http.Get(url)
if err != nil {
return false
}
resp.Body.Close()
return true
}
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