Exemple #1
0
	"github.com/cockroachdb/cockroach/pkg/util/log"
)

const (
	// RaftLogQueueTimerDuration is the duration between truncations. This needs
	// to be relatively short so that truncations can keep up with raft log entry
	// creation.
	RaftLogQueueTimerDuration = 50 * time.Millisecond
	// RaftLogQueueStaleThreshold is the minimum threshold for stale raft log
	// entries. A stale entry is one which all replicas of the range have
	// progressed past and thus is no longer needed and can be truncated.
	RaftLogQueueStaleThreshold = 100
)

// raftLogMaxSize limits the maximum size of the Raft log.
var raftLogMaxSize = envutil.EnvOrDefaultInt64("COCKROACH_RAFT_LOG_MAX_SIZE", 1<<20 /* 1 MB */)

// raftLogQueue manages a queue of replicas slated to have their raft logs
// truncated by removing unneeded entries.
type raftLogQueue struct {
	*baseQueue
	db *client.DB
}

// newRaftLogQueue returns a new instance of raftLogQueue.
func newRaftLogQueue(store *Store, db *client.DB, gossip *gossip.Gossip) *raftLogQueue {
	rlq := &raftLogQueue{
		db: db,
	}
	rlq.baseQueue = newBaseQueue(
		"raftlog", rlq, store, gossip,
Exemple #2
0
// apiServerMessage is the standard body for all HTTP 500 responses.
var errAdminAPIError = grpc.Errorf(codes.Internal, "An internal server error "+
	"has occurred. Please check your CockroachDB logs for more details.")

// A adminServer provides a RESTful HTTP API to administration of
// the cockroach cluster.
type adminServer struct {
	server     *Server
	memMonitor mon.MemoryMonitor
	memMetrics *sql.MemoryMetrics
}

// noteworthyAdminMemoryUsageBytes is the minimum size tracked by the
// admin SQL pool before the pool start explicitly logging overall
// usage growth in the log.
var noteworthyAdminMemoryUsageBytes = envutil.EnvOrDefaultInt64("COCKROACH_NOTEWORTHY_ADMIN_MEMORY_USAGE", 100*1024)

// newAdminServer allocates and returns a new REST server for
// administrative APIs.
func newAdminServer(s *Server) *adminServer {
	server := &adminServer{server: s, memMetrics: &s.adminMemMetrics}
	// TODO(knz): We do not limit memory usage by admin operations
	// yet. Is this wise?
	server.memMonitor = mon.MakeUnlimitedMonitor(
		context.Background(), "admin", nil, nil, noteworthyAdminMemoryUsageBytes,
	)
	return server
}

// RegisterService registers the GRPC service.
func (s *adminServer) RegisterService(g *grpc.Server) {
Exemple #3
0
	state := txnState.State
	if implicitTxn {
		state = NoTxn
	}
	if _, err := result.Rows.AddRow(parser.DTuple{parser.NewDString(state.String())}); err != nil {
		result.Rows.Close()
		result.Err = err
		return result, err
	}
	return result, nil
}

// noteworthyInternalMemoryUsageBytes is the minimum size tracked by
// each internal SQL pool before the pool start explicitly logging
// overall usage growth in the log.
var noteworthyInternalMemoryUsageBytes = envutil.EnvOrDefaultInt64("COCKROACH_NOTEWORTHY_INTERNAL_MEMORY_USAGE", 100*1024)

func makeInternalPlanner(
	opName string, txn *client.Txn, user string, memMetrics *MemoryMetrics,
) *planner {
	p := makePlanner(opName)
	p.setTxn(txn)
	p.resetContexts()
	p.session.User = user

	p.session.mon = mon.MakeUnlimitedMonitor(p.session.context,
		"internal-root",
		memMetrics.CurBytesCount, memMetrics.MaxBytesHist,
		noteworthyInternalMemoryUsageBytes)

	p.session.sessionMon = mon.MakeMonitor("internal-session",
Exemple #4
0
}

// Clear interfaces between Session and mon.MemoryMonitor.
func (w WrappedMemoryAccount) Clear() {
	w.mon.ClearAccount(w.ctx, w.acc)
}

// ResizeItem interfaces between Session and mon.MemoryMonitor.
func (w WrappedMemoryAccount) ResizeItem(oldSize, newSize int64) error {
	return w.mon.ResizeItem(w.ctx, w.acc, oldSize, newSize)
}

// noteworthyMemoryUsageBytes is the minimum size tracked by a
// transaction or session monitor before the monitor starts explicitly
// logging overall usage growth in the log.
var noteworthyMemoryUsageBytes = envutil.EnvOrDefaultInt64("COCKROACH_NOTEWORTHY_SESSION_MEMORY_USAGE", 10*1024)

// StartMonitor interfaces between Session and mon.MemoryMonitor
func (s *Session) StartMonitor(pool *mon.MemoryMonitor, reserved mon.BoundAccount) {
	// Note: we pass `reserved` to s.mon where it causes `s.mon` to act
	// as a buffer. This is not done for sessionMon nor TxnState.mon:
	// these monitors don't start with any buffer, so they'll need to
	// ask their "parent" for memory as soon as the first
	// allocation. This is acceptable because the session is single
	// threaded, and the point of buffering is just to avoid contention.
	s.mon = mon.MakeMonitor("root",
		s.memMetrics.CurBytesCount,
		s.memMetrics.MaxBytesHist,
		-1, math.MaxInt64)
	s.mon.Start(s.context, pool, reserved)
	s.deriveAndStartMonitors()
Exemple #5
0
// Fully-qualified names for metrics.
var (
	MetaConns    = metric.Metadata{Name: "sql.conns"}
	MetaBytesIn  = metric.Metadata{Name: "sql.bytesin"}
	MetaBytesOut = metric.Metadata{Name: "sql.bytesout"}
)

const (
	version30  = 196608
	versionSSL = 80877103
)

const drainMaxWait = 10 * time.Second

// baseSQLMemoryBudget is the amount of memory pre-allocated in each connection.
var baseSQLMemoryBudget = envutil.EnvOrDefaultInt64("COCKROACH_BASE_SQL_MEMORY_BUDGET",
	int64(2.1*float64(mon.DefaultPoolAllocationSize)))

// connReservationBatchSize determines for how many connections memory
// is pre-reserved at once.
var connReservationBatchSize = 5

var (
	sslSupported   = []byte{'S'}
	sslUnsupported = []byte{'N'}
)

// Server implements the server side of the PostgreSQL wire protocol.
type Server struct {
	AmbientCtx log.AmbientContext
	cfg        *base.Config
	executor   *sql.Executor
Exemple #6
0
// SeedForTests seeds the random number generator and prints the seed
// value used. This value can be specified via an environment variable
// COCKROACH_RANDOM_SEED=x to reuse the same value later. This function should
// be called from TestMain; individual tests should not touch the seed
// of the global random number generator.
func SeedForTests() {
	seed := envutil.EnvOrDefaultInt64("COCKROACH_RANDOM_SEED", NewPseudoSeed())
	rand.Seed(seed)
	log.Printf("Random seed: %v", seed)
}
Exemple #7
0
}

// maxAllocatedButUnusedMemoryBlocks determines the maximum difference
// between the amount of memory used by a monitor and the amount of
// memory reserved at the upstream pool before the monitor
// relinquishes the memory back to the pool. This is useful so that a
// monitor currently at the boundary of a block does not cause
// contention when accounts cause its allocation counter to grow and
// shrink slightly beyond and beneath an allocation block
// boundary. The difference is expressed as a number of blocks of size
// `poolAllocationSize`.
var maxAllocatedButUnusedMemoryBlocks = envutil.EnvOrDefaultInt("COCKROACH_MAX_ALLOCATED_UNUSED_BLOCKS", 10)

// DefaultPoolAllocationSize specifies the unit of allocation used by
// a monitor to reserve and release memory to a pool.
var DefaultPoolAllocationSize = envutil.EnvOrDefaultInt64("COCKROACH_MEMORY_ALLOCATION_CHUNK_SIZE", 10*1024)

// MakeMonitor creates a new monitor.
// Arguments:
// - name is used to annotate log messages, can be used to distinguish
//   monitors.
//
// - curCount and maxHist are the metric objects to update with usage
//   statistics.
//
// - increment is the block size used for upstream allocations from
//   the pool. Note: if set to 0 or lower, the default pool allocation
//   size is used.
//
// - noteworthy determines the minimum total allocated size beyond
//   which the monitor starts to log increases. Use 0 to always log