0085e2a38a
This commit adds an option to pass in a raw hex-encoded rpc cert via lnd’s configuration file. Such a change allows for programmatically creating lnd nodes which can connect to an existing btcd instance without requiring a file for the rpc cert to be specified. Additionally, this commit makes the creation of an integration testing harness easier.
301 lines
10 KiB
Go
301 lines
10 KiB
Go
package main
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import (
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"fmt"
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"os"
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"path/filepath"
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"sort"
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"strconv"
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"strings"
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flags "github.com/btcsuite/go-flags"
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"github.com/roasbeef/btcutil"
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)
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const (
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defaultConfigFilename = "lnd.conf"
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defaultDataDirname = "data"
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defaultLogLevel = "info"
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defaultLogDirname = "logs"
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defaultLogFilename = "lnd.log"
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defaultRPCPort = 10009
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defaultSPVMode = false
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defaultPeerPort = 10011
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defaultRPCHost = "localhost"
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defaultRPCUser = "user"
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defaultRPCPass = "passwd"
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defaultSPVHostAdr = "localhost:18333"
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)
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var (
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lndHomeDir = btcutil.AppDataDir("lnd", false)
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defaultConfigFile = filepath.Join(lndHomeDir, defaultConfigFilename)
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defaultDataDir = filepath.Join(lndHomeDir, defaultDataDirname)
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defaultLogDir = filepath.Join(lndHomeDir, defaultLogDirname)
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btcdHomeDir = btcutil.AppDataDir("btcd", false)
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defaultRPCCertFile = filepath.Join(btcdHomeDir, "rpc.cert")
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)
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// config defines the configuration options for lnd.
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//
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// See loadConfig for further details regarding the configuration
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// loading+parsing process.
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type config struct {
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ShowVersion bool `short:"V" long:"version" description:"Display version information and exit"`
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ConfigFile string `long:"C" long:"configfile" description:"Path to configuration file"`
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DataDir string `short:"b" long:"datadir" description:"The directory to store lnd's data within"`
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LogDir string `long:"logdir" description:"Directory to log output."`
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Listeners []string `long:"listen" description:"Add an interface/port to listen for connections (default all interfaces port: 10011)"`
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ExternalIPs []string `long:"externalip" description:"Add an ip to the list of local addresses we claim to listen on to peers"`
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DebugLevel string `short:"d" long:"debuglevel" description:"Logging level for all subsystems {trace, debug, info, warn, error, critical} -- You may also specify <subsystem>=<level>,<subsystem2>=<level>,... to set the log level for individual subsystems -- Use show to list available subsystems"`
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Profile string `long:"profile" description:"Enable HTTP profiling on given port -- NOTE port must be between 1024 and 65536"`
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PeerPort int `long:"peerport" description:"The port to listen on for incoming p2p connections"`
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RPCPort int `long:"rpcport" description:"The port for the rpc server"`
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SPVMode bool `long:"spv" description:"assert to enter spv wallet mode"`
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RPCHost string `long:"btcdhost" description:"The btcd rpc listening address."`
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RPCUser string `short:"u" long:"rpcuser" description:"Username for RPC connections"`
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RPCPass string `short:"P" long:"rpcpass" default-mask:"-" description:"Password for RPC connections"`
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RPCCert string `long:"rpccert" description:"File containing btcd's certificate file"`
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RawRPCCert string `long:"rawrpccert" description:"The raw bytes of btcd's PEM-encoded certificate chain which will be used to authenticate the RPC connection."`
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SPVHostAdr string `long:"spvhostadr" description:"Address of full bitcoin node. It is used in SPV mode."`
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TestNet3 bool `long:"testnet" description:"Use the test network"`
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SimNet bool `long:"simnet" description:"Use the simulation test network"`
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SegNet bool `long:"segnet" description:"Use the segragated witness test network"`
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}
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// loadConfig initializes and parses the config using a config file and command
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// line options.
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//
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// The configuration proceeds as follows:
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// 1) Start with a default config with sane settings
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// 2) Pre-parse the command line to check for an alternative config file
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// 3) Load configuration file overwriting defaults with any specified options
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// 4) Parse CLI options and overwrite/add any specified options
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func loadConfig() (*config, error) {
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defaultCfg := config{
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ConfigFile: defaultConfigFile,
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DataDir: defaultDataDir,
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DebugLevel: defaultLogLevel,
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LogDir: defaultLogDir,
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PeerPort: defaultPeerPort,
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RPCPort: defaultRPCPort,
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SPVMode: defaultSPVMode,
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RPCHost: defaultRPCHost,
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RPCUser: defaultRPCUser,
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RPCPass: defaultRPCPass,
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RPCCert: defaultRPCCertFile,
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SPVHostAdr: defaultSPVHostAdr,
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}
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// Pre-parse the command line options to pick up an alternative config
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// file.
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preCfg := defaultCfg
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if _, err := flags.Parse(&preCfg); err != nil {
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return nil, err
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}
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// Show the version and exit if the version flag was specified.
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appName := filepath.Base(os.Args[0])
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appName = strings.TrimSuffix(appName, filepath.Ext(appName))
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usageMessage := fmt.Sprintf("Use %s -h to show usage", appName)
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if preCfg.ShowVersion {
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fmt.Println(appName, "version", version())
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os.Exit(0)
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}
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// Create the home directory if it doesn't already exist.
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funcName := "loadConfig"
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if err := os.MkdirAll(lndHomeDir, 0700); err != nil {
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// Show a nicer error message if it's because a symlink is
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// linked to a directory that does not exist (probably because
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// it's not mounted).
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if e, ok := err.(*os.PathError); ok && os.IsExist(err) {
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if link, lerr := os.Readlink(e.Path); lerr == nil {
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str := "is symlink %s -> %s mounted?"
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err = fmt.Errorf(str, e.Path, link)
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}
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}
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str := "%s: Failed to create home directory: %v"
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err := fmt.Errorf(str, funcName, err)
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fmt.Fprintln(os.Stderr, err)
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return nil, err
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}
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// Next, load any additional configuration options from the file.
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cfg := defaultCfg
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if err := flags.IniParse(preCfg.ConfigFile, &cfg); err != nil {
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fmt.Fprintln(os.Stderr, err)
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}
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// Finally, parse the remaining command line options again to ensure
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// they take precedence.
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if _, err := flags.Parse(&cfg); err != nil {
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return nil, err
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}
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// Multiple networks can't be selected simultaneously.
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// Count number of network flags passed; assign active network params
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// while we're at it
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numNets := 0
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if cfg.TestNet3 {
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numNets++
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activeNetParams = testNetParams
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}
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if cfg.SimNet {
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numNets++
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activeNetParams = simNetParams
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}
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if numNets > 1 {
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str := "%s: The testnet, segnet, and simnet params can't be " +
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"used together -- choose one of the three"
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err := fmt.Errorf(str, funcName)
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return nil, err
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}
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// Validate profile port number
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if cfg.Profile != "" {
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profilePort, err := strconv.Atoi(cfg.Profile)
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if err != nil || profilePort < 1024 || profilePort > 65535 {
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str := "%s: The profile port must be between 1024 and 65535"
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err := fmt.Errorf(str, funcName)
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fmt.Fprintln(os.Stderr, err)
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fmt.Fprintln(os.Stderr, usageMessage)
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return nil, err
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}
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}
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// Append the network type to the data directory so it is "namespaced"
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// per network. In addition to the block database, there are other
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// pieces of data that are saved to disk such as address manager state.
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// All data is specific to a network, so namespacing the data directory
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// means each individual piece of serialized data does not have to
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// worry about changing names per network and such.
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cfg.DataDir = cleanAndExpandPath(cfg.DataDir)
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cfg.DataDir = filepath.Join(cfg.DataDir, activeNetParams.Name)
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// Append the network type to the log directory so it is "namespaced"
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// per network in the same fashion as the data directory.
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cfg.LogDir = cleanAndExpandPath(cfg.LogDir)
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cfg.LogDir = filepath.Join(cfg.LogDir, activeNetParams.Name)
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// Initialize logging at the default logging level.
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initSeelogLogger(filepath.Join(cfg.LogDir, defaultLogFilename))
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setLogLevels(defaultLogLevel)
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// Parse, validate, and set debug log level(s).
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if err := parseAndSetDebugLevels(cfg.DebugLevel); err != nil {
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err := fmt.Errorf("%s: %v", funcName, err.Error())
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fmt.Fprintln(os.Stderr, err)
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fmt.Fprintln(os.Stderr, usageMessage)
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return nil, err
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}
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return &cfg, nil
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}
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// cleanAndExpandPath expands environment variables and leading ~ in the
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// passed path, cleans the result, and returns it.
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func cleanAndExpandPath(path string) string {
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// Expand initial ~ to OS specific home directory.
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if strings.HasPrefix(path, "~") {
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homeDir := filepath.Dir(lndHomeDir)
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path = strings.Replace(path, "~", homeDir, 1)
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}
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// NOTE: The os.ExpandEnv doesn't work with Windows-style %VARIABLE%,
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// but they variables can still be expanded via POSIX-style $VARIABLE.
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return filepath.Clean(os.ExpandEnv(path))
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}
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// parseAndSetDebugLevels attempts to parse the specified debug level and set
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// the levels accordingly. An appropriate error is returned if anything is
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// invalid.
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func parseAndSetDebugLevels(debugLevel string) error {
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// When the specified string doesn't have any delimters, treat it as
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// the log level for all subsystems.
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if !strings.Contains(debugLevel, ",") && !strings.Contains(debugLevel, "=") {
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// Validate debug log level.
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if !validLogLevel(debugLevel) {
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str := "The specified debug level [%v] is invalid"
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return fmt.Errorf(str, debugLevel)
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}
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// Change the logging level for all subsystems.
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setLogLevels(debugLevel)
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return nil
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}
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// Split the specified string into subsystem/level pairs while detecting
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// issues and update the log levels accordingly.
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for _, logLevelPair := range strings.Split(debugLevel, ",") {
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if !strings.Contains(logLevelPair, "=") {
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str := "The specified debug level contains an invalid " +
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"subsystem/level pair [%v]"
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return fmt.Errorf(str, logLevelPair)
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}
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// Extract the specified subsystem and log level.
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fields := strings.Split(logLevelPair, "=")
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subsysID, logLevel := fields[0], fields[1]
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// Validate subsystem.
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if _, exists := subsystemLoggers[subsysID]; !exists {
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str := "The specified subsystem [%v] is invalid -- " +
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"supported subsytems %v"
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return fmt.Errorf(str, subsysID, supportedSubsystems())
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}
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// Validate log level.
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if !validLogLevel(logLevel) {
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str := "The specified debug level [%v] is invalid"
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return fmt.Errorf(str, logLevel)
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}
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setLogLevel(subsysID, logLevel)
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}
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return nil
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}
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// validLogLevel returns whether or not logLevel is a valid debug log level.
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func validLogLevel(logLevel string) bool {
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switch logLevel {
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case "trace":
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fallthrough
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case "debug":
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fallthrough
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case "info":
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fallthrough
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case "warn":
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fallthrough
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case "error":
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fallthrough
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case "critical":
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return true
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}
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return false
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}
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// supportedSubsystems returns a sorted slice of the supported subsystems for
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// logging purposes.
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func supportedSubsystems() []string {
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// Convert the subsystemLoggers map keys to a slice.
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subsystems := make([]string, 0, len(subsystemLoggers))
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for subsysID := range subsystemLoggers {
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subsystems = append(subsystems, subsysID)
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}
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// Sort the subsystems for stable display.
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sort.Strings(subsystems)
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return subsystems
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}
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