btcd/log.go
Dave Collins 5e517a9116 Add new logging subsystem for mining related ops.
This commit adds a new logging subsystem named MINR which is used for
logging mining releated operations.
2014-03-22 11:47:02 -05:00

312 lines
8.0 KiB
Go

// Copyright (c) 2013-2014 Conformal Systems LLC.
// Use of this source code is governed by an ISC
// license that can be found in the LICENSE file.
package main
import (
"fmt"
"github.com/conformal/btcchain"
"github.com/conformal/btcdb"
"github.com/conformal/btclog"
"github.com/conformal/btcscript"
"github.com/conformal/btcwire"
"github.com/conformal/seelog"
"os"
"time"
)
const (
// lockTimeThreshold is the number below which a lock time is
// interpreted to be a block number. Since an average of one block
// is generated per 10 minutes, this allows blocks for about 9,512
// years. However, if the field is interpreted as a timestamp, given
// the lock time is a uint32, the max is sometime around 2106.
lockTimeThreshold uint32 = 5e8 // Tue Nov 5 00:53:20 1985 UTC
)
// Loggers per subsytem. Note that backendLog is a seelog logger that all of
// the subsystem loggers route their messages to. When adding new subsystems,
// add a reference here, to the subsystemLoggers map, and the useLogger
// function.
var (
backendLog = seelog.Disabled
amgrLog = btclog.Disabled
bcdbLog = btclog.Disabled
bmgrLog = btclog.Disabled
btcdLog = btclog.Disabled
chanLog = btclog.Disabled
discLog = btclog.Disabled
minrLog = btclog.Disabled
peerLog = btclog.Disabled
rpcsLog = btclog.Disabled
scrpLog = btclog.Disabled
srvrLog = btclog.Disabled
txmpLog = btclog.Disabled
)
// subsystemLoggers maps each subsystem identifier to its associated logger.
var subsystemLoggers = map[string]btclog.Logger{
"AMGR": amgrLog,
"BCDB": bcdbLog,
"BMGR": bmgrLog,
"BTCD": btcdLog,
"CHAN": chanLog,
"DISC": discLog,
"MINR": minrLog,
"PEER": peerLog,
"RPCS": rpcsLog,
"SCRP": scrpLog,
"SRVR": srvrLog,
"TXMP": txmpLog,
}
// logClosure is used to provide a closure over expensive logging operations
// so don't have to be performed when the logging level doesn't warrant it.
type logClosure func() string
// String invokes the underlying function and returns the result.
func (c logClosure) String() string {
return c()
}
// newLogClosure returns a new closure over a function that returns a string
// which itself provides a Stringer interface so that it can be used with the
// logging system.
func newLogClosure(c func() string) logClosure {
return logClosure(c)
}
// useLogger updates the logger references for subsystemID to logger. Invalid
// subsystems are ignored.
func useLogger(subsystemID string, logger btclog.Logger) {
if _, ok := subsystemLoggers[subsystemID]; !ok {
return
}
subsystemLoggers[subsystemID] = logger
switch subsystemID {
case "AMGR":
amgrLog = logger
case "BCDB":
bcdbLog = logger
btcdb.UseLogger(logger)
case "BMGR":
bmgrLog = logger
case "BTCD":
btcdLog = logger
case "CHAN":
chanLog = logger
btcchain.UseLogger(logger)
case "DISC":
discLog = logger
case "MINR":
minrLog = logger
case "PEER":
peerLog = logger
case "RPCS":
rpcsLog = logger
case "SCRP":
scrpLog = logger
btcscript.UseLogger(logger)
case "SRVR":
srvrLog = logger
case "TXMP":
txmpLog = logger
}
}
// initSeelogLogger initializes a new seelog logger that is used as the backend
// for all logging subsytems.
func initSeelogLogger(logFile string) {
config := `
<seelog type="adaptive" mininterval="2000000" maxinterval="100000000"
critmsgcount="500" minlevel="trace">
<outputs formatid="all">
<console />
<rollingfile type="size" filename="%s" maxsize="10485760" maxrolls="3" />
</outputs>
<formats>
<format id="all" format="%%Time %%Date [%%LEV] %%Msg%%n" />
</formats>
</seelog>`
config = fmt.Sprintf(config, logFile)
logger, err := seelog.LoggerFromConfigAsString(config)
if err != nil {
fmt.Fprintf(os.Stderr, "failed to create logger: %v", err)
os.Exit(1)
}
backendLog = logger
}
// setLogLevel sets the logging level for provided subsystem. Invalid
// subsystems are ignored. Uninitialized subsystems are dynamically created as
// needed.
func setLogLevel(subsystemID string, logLevel string) {
// Ignore invalid subsystems.
logger, ok := subsystemLoggers[subsystemID]
if !ok {
return
}
// Default to info if the log level is invalid.
level, ok := btclog.LogLevelFromString(logLevel)
if !ok {
level = btclog.InfoLvl
}
// Create new logger for the subsystem if needed.
if logger == btclog.Disabled {
logger = btclog.NewSubsystemLogger(backendLog, subsystemID+": ")
useLogger(subsystemID, logger)
}
logger.SetLevel(level)
}
// setLogLevels sets the log level for all subsystem loggers to the passed
// level. It also dynamically creates the subsystem loggers as needed, so it
// can be used to initialize the logging system.
func setLogLevels(logLevel string) {
// Configure all sub-systems with the new logging level. Dynamically
// create loggers as needed.
for subsystemID := range subsystemLoggers {
setLogLevel(subsystemID, logLevel)
}
}
// directionString is a helper function that returns a string that represents
// the direction of a connection (inbound or outbound).
func directionString(inbound bool) string {
if inbound {
return "inbound"
}
return "outbound"
}
// formatLockTime returns a transaction lock time as a human-readable string.
func formatLockTime(lockTime uint32) string {
// The lock time field of a transaction is either a block height at
// which the transaction is finalized or a timestamp depending on if the
// value is before the lockTimeThreshold. When it is under the
// threshold it is a block height.
if lockTime < lockTimeThreshold {
return fmt.Sprintf("height %d", lockTime)
}
return time.Unix(int64(lockTime), 0).String()
}
// invSummary returns an inventory messege as a human-readable string.
func invSummary(invList []*btcwire.InvVect) string {
// No inventory.
invLen := len(invList)
if invLen == 0 {
return "empty"
}
// One inventory item.
if invLen == 1 {
iv := invList[0]
switch iv.Type {
case btcwire.InvTypeError:
return fmt.Sprintf("error %s", iv.Hash)
case btcwire.InvTypeBlock:
return fmt.Sprintf("block %s", iv.Hash)
case btcwire.InvTypeTx:
return fmt.Sprintf("tx %s", iv.Hash)
}
return fmt.Sprintf("unknown (%d) %s", uint32(iv.Type), iv.Hash)
}
// More than one inv item.
return fmt.Sprintf("size %d", invLen)
}
// locatorSummary returns a block locator as a human-readable string.
func locatorSummary(locator []*btcwire.ShaHash, stopHash *btcwire.ShaHash) string {
if len(locator) > 0 {
return fmt.Sprintf("locator %s, stop %s", locator[0], stopHash)
}
return fmt.Sprintf("no locator, stop %s", stopHash)
}
// messageSummary returns a human-readable string which summarizes a message.
// Not all messages have or need a summary. This is used for debug logging.
func messageSummary(msg btcwire.Message) string {
switch msg := msg.(type) {
case *btcwire.MsgVersion:
return fmt.Sprintf("agent %s, pver %d, block %d",
msg.UserAgent, msg.ProtocolVersion, msg.LastBlock)
case *btcwire.MsgVerAck:
// No summary.
case *btcwire.MsgGetAddr:
// No summary.
case *btcwire.MsgAddr:
return fmt.Sprintf("%d addr", len(msg.AddrList))
case *btcwire.MsgPing:
// No summary - perhaps add nonce.
case *btcwire.MsgPong:
// No summary - perhaps add nonce.
case *btcwire.MsgAlert:
// No summary.
case *btcwire.MsgMemPool:
// No summary.
case *btcwire.MsgTx:
hash, _ := msg.TxSha()
return fmt.Sprintf("hash %s, %d inputs, %d outputs, lock %s",
hash, len(msg.TxIn), len(msg.TxOut),
formatLockTime(msg.LockTime))
case *btcwire.MsgBlock:
header := &msg.Header
hash, _ := msg.BlockSha()
return fmt.Sprintf("hash %s, ver %d, %d tx, %s", hash,
header.Version, len(msg.Transactions), header.Timestamp)
case *btcwire.MsgInv:
return invSummary(msg.InvList)
case *btcwire.MsgNotFound:
return invSummary(msg.InvList)
case *btcwire.MsgGetData:
return invSummary(msg.InvList)
case *btcwire.MsgGetBlocks:
return locatorSummary(msg.BlockLocatorHashes, &msg.HashStop)
case *btcwire.MsgGetHeaders:
return locatorSummary(msg.BlockLocatorHashes, &msg.HashStop)
case *btcwire.MsgHeaders:
return fmt.Sprintf("num %d", len(msg.Headers))
}
// No summary for other messages.
return ""
}