open-nomad/command/agent/config.go

905 lines
24 KiB
Go

package agent
import (
"fmt"
"io"
"net"
"os"
"path/filepath"
"runtime"
"sort"
"strconv"
"strings"
"time"
client "github.com/hashicorp/nomad/client/config"
"github.com/hashicorp/nomad/nomad"
"github.com/hashicorp/nomad/nomad/structs/config"
)
// Config is the configuration for the Nomad agent.
type Config struct {
// Region is the region this agent is in. Defaults to global.
Region string `mapstructure:"region"`
// Datacenter is the datacenter this agent is in. Defaults to dc1
Datacenter string `mapstructure:"datacenter"`
// NodeName is the name we register as. Defaults to hostname.
NodeName string `mapstructure:"name"`
// DataDir is the directory to store our state in
DataDir string `mapstructure:"data_dir"`
// LogLevel is the level of the logs to putout
LogLevel string `mapstructure:"log_level"`
// BindAddr is the address on which all of nomad's services will
// be bound. If not specified, this defaults to 127.0.0.1.
BindAddr string `mapstructure:"bind_addr"`
// EnableDebug is used to enable debugging HTTP endpoints
EnableDebug bool `mapstructure:"enable_debug"`
// Ports is used to control the network ports we bind to.
Ports *Ports `mapstructure:"ports"`
// Addresses is used to override the network addresses we bind to.
Addresses *Addresses `mapstructure:"addresses"`
// AdvertiseAddrs is used to control the addresses we advertise.
AdvertiseAddrs *AdvertiseAddrs `mapstructure:"advertise"`
// Client has our client related settings
Client *ClientConfig `mapstructure:"client"`
// Server has our server related settings
Server *ServerConfig `mapstructure:"server"`
// Telemetry is used to configure sending telemetry
Telemetry *Telemetry `mapstructure:"telemetry"`
// LeaveOnInt is used to gracefully leave on the interrupt signal
LeaveOnInt bool `mapstructure:"leave_on_interrupt"`
// LeaveOnTerm is used to gracefully leave on the terminate signal
LeaveOnTerm bool `mapstructure:"leave_on_terminate"`
// EnableSyslog is used to enable sending logs to syslog
EnableSyslog bool `mapstructure:"enable_syslog"`
// SyslogFacility is used to control the syslog facility used.
SyslogFacility string `mapstructure:"syslog_facility"`
// DisableUpdateCheck is used to disable the periodic update
// and security bulletin checking.
DisableUpdateCheck bool `mapstructure:"disable_update_check"`
// DisableAnonymousSignature is used to disable setting the
// anonymous signature when doing the update check and looking
// for security bulletins
DisableAnonymousSignature bool `mapstructure:"disable_anonymous_signature"`
// AtlasConfig is used to configure Atlas
Atlas *AtlasConfig `mapstructure:"atlas"`
// Consul contains the configuration for the Consul Agent and
// parameters necessary to register services, their checks, and
// discover the current Nomad servers.
Consul *config.ConsulConfig `mapstructure:"consul"`
// NomadConfig is used to override the default config.
// This is largly used for testing purposes.
NomadConfig *nomad.Config `mapstructure:"-" json:"-"`
// ClientConfig is used to override the default config.
// This is largly used for testing purposes.
ClientConfig *client.Config `mapstructure:"-" json:"-"`
// DevMode is set by the -dev CLI flag.
DevMode bool `mapstructure:"-"`
// Version information is set at compilation time
Revision string
Version string
VersionPrerelease string
// List of config files that have been loaded (in order)
Files []string `mapstructure:"-"`
// HTTPAPIResponseHeaders allows users to configure the Nomad http agent to
// set arbritrary headers on API responses
HTTPAPIResponseHeaders map[string]string `mapstructure:"http_api_response_headers"`
}
// AtlasConfig is used to enable an parameterize the Atlas integration
type AtlasConfig struct {
// Infrastructure is the name of the infrastructure
// we belong to. e.g. hashicorp/stage
Infrastructure string `mapstructure:"infrastructure"`
// Token is our authentication token from Atlas
Token string `mapstructure:"token" json:"-"`
// Join controls if Atlas will attempt to auto-join the node
// to it's cluster. Requires Atlas integration.
Join bool `mapstructure:"join"`
// Endpoint is the SCADA endpoint used for Atlas integration. If
// empty, the defaults from the provider are used.
Endpoint string `mapstructure:"endpoint"`
}
// StatsConfig determines behavior of resource usage stats collections
type StatsConfig struct {
// DataPoints is the number of data points Nomad client stores in-memory
DataPoints int `mapstructure:"data_points"`
// CollectionInterval is the interval of resource usage stats collection
CollectionInterval string `mapstructure:"collection_interval"`
collectionInterval time.Duration `mapstructure:"_"`
}
// ClientConfig is configuration specific to the client mode
type ClientConfig struct {
// Enabled controls if we are a client
Enabled bool `mapstructure:"enabled"`
// StateDir is the state directory
StateDir string `mapstructure:"state_dir"`
// AllocDir is the directory for storing allocation data
AllocDir string `mapstructure:"alloc_dir"`
// Servers is a list of known server addresses. These are as "host:port"
Servers []string `mapstructure:"servers"`
// NodeClass is used to group the node by class
NodeClass string `mapstructure:"node_class"`
// Options is used for configuration of nomad internals,
// like fingerprinters and drivers. The format is:
//
// namespace.option = value
Options map[string]string `mapstructure:"options"`
// Metadata associated with the node
Meta map[string]string `mapstructure:"meta"`
// Interface to use for network fingerprinting
NetworkInterface string `mapstructure:"network_interface"`
// The network link speed to use if it can not be determined dynamically.
NetworkSpeed int `mapstructure:"network_speed"`
// MaxKillTimeout allows capping the user-specifiable KillTimeout.
MaxKillTimeout string `mapstructure:"max_kill_timeout"`
// ClientMaxPort is the upper range of the ports that the client uses for
// communicating with plugin subsystems
ClientMaxPort int `mapstructure:"client_max_port"`
// ClientMinPort is the lower range of the ports that the client uses for
// communicating with plugin subsystems
ClientMinPort int `mapstructure:"client_min_port"`
// Reserved is used to reserve resources from being used by Nomad. This can
// be used to target a certain utilization or to prevent Nomad from using a
// particular set of ports.
Reserved *Resources `mapstructure:"reserved"`
// StatsConfig determines behavior of resource usage stats collection in
// Nomad client
StatsConfig *StatsConfig `mapstructure:"stats"`
}
// ServerConfig is configuration specific to the server mode
type ServerConfig struct {
// Enabled controls if we are a server
Enabled bool `mapstructure:"enabled"`
// BootstrapExpect tries to automatically bootstrap the Consul cluster,
// by withholding peers until enough servers join.
BootstrapExpect int `mapstructure:"bootstrap_expect"`
// DataDir is the directory to store our state in
DataDir string `mapstructure:"data_dir"`
// ProtocolVersion is the protocol version to speak. This must be between
// ProtocolVersionMin and ProtocolVersionMax.
ProtocolVersion int `mapstructure:"protocol_version"`
// NumSchedulers is the number of scheduler thread that are run.
// This can be as many as one per core, or zero to disable this server
// from doing any scheduling work.
NumSchedulers int `mapstructure:"num_schedulers"`
// EnabledSchedulers controls the set of sub-schedulers that are
// enabled for this server to handle. This will restrict the evaluations
// that the workers dequeue for processing.
EnabledSchedulers []string `mapstructure:"enabled_schedulers"`
// NodeGCThreshold controls how "old" a node must be to be collected by GC.
NodeGCThreshold string `mapstructure:"node_gc_threshold"`
// HeartbeatGrace is the grace period beyond the TTL to account for network,
// processing delays and clock skew before marking a node as "down".
HeartbeatGrace string `mapstructure:"heartbeat_grace"`
// StartJoin is a list of addresses to attempt to join when the
// agent starts. If Serf is unable to communicate with any of these
// addresses, then the agent will error and exit.
StartJoin []string `mapstructure:"start_join"`
// RetryJoin is a list of addresses to join with retry enabled.
RetryJoin []string `mapstructure:"retry_join"`
// RetryMaxAttempts specifies the maximum number of times to retry joining a
// host on startup. This is useful for cases where we know the node will be
// online eventually.
RetryMaxAttempts int `mapstructure:"retry_max"`
// RetryInterval specifies the amount of time to wait in between join
// attempts on agent start. The minimum allowed value is 1 second and
// the default is 30s.
RetryInterval string `mapstructure:"retry_interval"`
retryInterval time.Duration `mapstructure:"-"`
// RejoinAfterLeave controls our interaction with the cluster after leave.
// When set to false (default), a leave causes Consul to not rejoin
// the cluster until an explicit join is received. If this is set to
// true, we ignore the leave, and rejoin the cluster on start.
RejoinAfterLeave bool `mapstructure:"rejoin_after_leave"`
}
// Telemetry is the telemetry configuration for the server
type Telemetry struct {
StatsiteAddr string `mapstructure:"statsite_address"`
StatsdAddr string `mapstructure:"statsd_address"`
DisableHostname bool `mapstructure:"disable_hostname"`
}
// Ports is used to encapsulate the various ports we bind to for network
// services. If any are not specified then the defaults are used instead.
type Ports struct {
HTTP int `mapstructure:"http"`
RPC int `mapstructure:"rpc"`
Serf int `mapstructure:"serf"`
}
// Addresses encapsulates all of the addresses we bind to for various
// network services. Everything is optional and defaults to BindAddr.
type Addresses struct {
HTTP string `mapstructure:"http"`
RPC string `mapstructure:"rpc"`
Serf string `mapstructure:"serf"`
}
// AdvertiseAddrs is used to control the addresses we advertise out for
// different network services. Not all network services support an
// advertise address. All are optional and default to BindAddr.
type AdvertiseAddrs struct {
HTTP string `mapstructure:"http"`
RPC string `mapstructure:"rpc"`
Serf string `mapstructure:"serf"`
}
type Resources struct {
CPU int `mapstructure:"cpu"`
MemoryMB int `mapstructure:"memory"`
DiskMB int `mapstructure:"disk"`
IOPS int `mapstructure:"iops"`
ReservedPorts string `mapstructure:"reserved_ports"`
ParsedReservedPorts []int `mapstructure:"-"`
}
// ParseReserved expands the ReservedPorts string into a slice of port numbers.
// The supported syntax is comma seperated integers or ranges seperated by
// hyphens. For example, "80,120-150,160"
func (r *Resources) ParseReserved() error {
parts := strings.Split(r.ReservedPorts, ",")
// Hot path the empty case
if len(parts) == 1 && parts[0] == "" {
return nil
}
ports := make(map[int]struct{})
for _, part := range parts {
part = strings.TrimSpace(part)
rangeParts := strings.Split(part, "-")
l := len(rangeParts)
switch l {
case 1:
if val := rangeParts[0]; val == "" {
return fmt.Errorf("can't specify empty port")
} else {
port, err := strconv.Atoi(val)
if err != nil {
return err
}
ports[port] = struct{}{}
}
case 2:
// We are parsing a range
start, err := strconv.Atoi(rangeParts[0])
if err != nil {
return err
}
end, err := strconv.Atoi(rangeParts[1])
if err != nil {
return err
}
if end < start {
return fmt.Errorf("invalid range: starting value (%v) less than ending (%v) value", end, start)
}
for i := start; i <= end; i++ {
ports[i] = struct{}{}
}
default:
return fmt.Errorf("can only parse single port numbers or port ranges (ex. 80,100-120,150)")
}
}
for port := range ports {
r.ParsedReservedPorts = append(r.ParsedReservedPorts, port)
}
sort.Ints(r.ParsedReservedPorts)
return nil
}
// DevConfig is a Config that is used for dev mode of Nomad.
func DevConfig() *Config {
conf := DefaultConfig()
conf.LogLevel = "DEBUG"
conf.Client.Enabled = true
conf.Server.Enabled = true
conf.DevMode = true
conf.EnableDebug = true
conf.DisableAnonymousSignature = true
conf.Consul.AutoRegister = true
if runtime.GOOS == "darwin" {
conf.Client.NetworkInterface = "lo0"
} else if runtime.GOOS == "linux" {
conf.Client.NetworkInterface = "lo"
}
conf.Client.Options = map[string]string{
"driver.raw_exec.enable": "true",
}
return conf
}
// DefaultConfig is a the baseline configuration for Nomad
func DefaultConfig() *Config {
return &Config{
LogLevel: "INFO",
Region: "global",
Datacenter: "dc1",
BindAddr: "127.0.0.1",
Ports: &Ports{
HTTP: 4646,
RPC: 4647,
Serf: 4648,
},
Addresses: &Addresses{},
AdvertiseAddrs: &AdvertiseAddrs{},
Atlas: &AtlasConfig{},
Consul: &config.ConsulConfig{
ServerServiceName: "nomad",
ClientServiceName: "nomad-client",
AutoRegister: true,
Timeout: 500 * time.Millisecond,
},
Client: &ClientConfig{
Enabled: false,
NetworkSpeed: 100,
MaxKillTimeout: "30s",
ClientMinPort: 14000,
ClientMaxPort: 14512,
Reserved: &Resources{},
StatsConfig: &StatsConfig{
DataPoints: 60,
CollectionInterval: "1s",
collectionInterval: 1 * time.Second,
},
},
Server: &ServerConfig{
Enabled: false,
StartJoin: []string{},
RetryJoin: []string{},
RetryInterval: "30s",
RetryMaxAttempts: 0,
},
SyslogFacility: "LOCAL0",
}
}
// Listener can be used to get a new listener using a custom bind address.
// If the bind provided address is empty, the BindAddr is used instead.
func (c *Config) Listener(proto, addr string, port int) (net.Listener, error) {
if addr == "" {
addr = c.BindAddr
}
// Do our own range check to avoid bugs in package net.
//
// golang.org/issue/11715
// golang.org/issue/13447
//
// Both of the above bugs were fixed by golang.org/cl/12447 which will be
// included in Go 1.6. The error returned below is the same as what Go 1.6
// will return.
if 0 > port || port > 65535 {
return nil, &net.OpError{
Op: "listen",
Net: proto,
Err: &net.AddrError{Err: "invalid port", Addr: fmt.Sprint(port)},
}
}
return net.Listen(proto, fmt.Sprintf("%s:%d", addr, port))
}
// Merge merges two configurations.
func (c *Config) Merge(b *Config) *Config {
result := *c
if b.Region != "" {
result.Region = b.Region
}
if b.Datacenter != "" {
result.Datacenter = b.Datacenter
}
if b.NodeName != "" {
result.NodeName = b.NodeName
}
if b.DataDir != "" {
result.DataDir = b.DataDir
}
if b.LogLevel != "" {
result.LogLevel = b.LogLevel
}
if b.BindAddr != "" {
result.BindAddr = b.BindAddr
}
if b.EnableDebug {
result.EnableDebug = true
}
if b.LeaveOnInt {
result.LeaveOnInt = true
}
if b.LeaveOnTerm {
result.LeaveOnTerm = true
}
if b.EnableSyslog {
result.EnableSyslog = true
}
if b.SyslogFacility != "" {
result.SyslogFacility = b.SyslogFacility
}
if b.DisableUpdateCheck {
result.DisableUpdateCheck = true
}
if b.DisableAnonymousSignature {
result.DisableAnonymousSignature = true
}
// Apply the telemetry config
if result.Telemetry == nil && b.Telemetry != nil {
telemetry := *b.Telemetry
result.Telemetry = &telemetry
} else if b.Telemetry != nil {
result.Telemetry = result.Telemetry.Merge(b.Telemetry)
}
// Apply the client config
if result.Client == nil && b.Client != nil {
client := *b.Client
result.Client = &client
} else if b.Client != nil {
result.Client = result.Client.Merge(b.Client)
}
// Apply the server config
if result.Server == nil && b.Server != nil {
server := *b.Server
result.Server = &server
} else if b.Server != nil {
result.Server = result.Server.Merge(b.Server)
}
// Apply the ports config
if result.Ports == nil && b.Ports != nil {
ports := *b.Ports
result.Ports = &ports
} else if b.Ports != nil {
result.Ports = result.Ports.Merge(b.Ports)
}
// Apply the address config
if result.Addresses == nil && b.Addresses != nil {
addrs := *b.Addresses
result.Addresses = &addrs
} else if b.Addresses != nil {
result.Addresses = result.Addresses.Merge(b.Addresses)
}
// Apply the advertise addrs config
if result.AdvertiseAddrs == nil && b.AdvertiseAddrs != nil {
advertise := *b.AdvertiseAddrs
result.AdvertiseAddrs = &advertise
} else if b.AdvertiseAddrs != nil {
result.AdvertiseAddrs = result.AdvertiseAddrs.Merge(b.AdvertiseAddrs)
}
// Apply the Atlas configuration
if result.Atlas == nil && b.Atlas != nil {
atlasConfig := *b.Atlas
result.Atlas = &atlasConfig
} else if b.Atlas != nil {
result.Atlas = result.Atlas.Merge(b.Atlas)
}
// Apply the Consul Configuration
if result.Consul == nil && b.Consul != nil {
consulConfig := *b.Consul
result.Consul = &consulConfig
} else if b.Consul != nil {
result.Consul = result.Consul.Merge(b.Consul)
}
// Merge config files lists
result.Files = append(result.Files, b.Files...)
// Add the http API response header map values
if result.HTTPAPIResponseHeaders == nil {
result.HTTPAPIResponseHeaders = make(map[string]string)
}
for k, v := range b.HTTPAPIResponseHeaders {
result.HTTPAPIResponseHeaders[k] = v
}
return &result
}
// Merge is used to merge two server configs together
func (a *ServerConfig) Merge(b *ServerConfig) *ServerConfig {
result := *a
if b.Enabled {
result.Enabled = true
}
if b.BootstrapExpect > 0 {
result.BootstrapExpect = b.BootstrapExpect
}
if b.DataDir != "" {
result.DataDir = b.DataDir
}
if b.ProtocolVersion != 0 {
result.ProtocolVersion = b.ProtocolVersion
}
if b.NumSchedulers != 0 {
result.NumSchedulers = b.NumSchedulers
}
if b.NodeGCThreshold != "" {
result.NodeGCThreshold = b.NodeGCThreshold
}
if b.HeartbeatGrace != "" {
result.HeartbeatGrace = b.HeartbeatGrace
}
if b.RetryMaxAttempts != 0 {
result.RetryMaxAttempts = b.RetryMaxAttempts
}
if b.RetryInterval != "" {
result.RetryInterval = b.RetryInterval
result.retryInterval = b.retryInterval
}
if b.RejoinAfterLeave {
result.RejoinAfterLeave = true
}
// Add the schedulers
result.EnabledSchedulers = append(result.EnabledSchedulers, b.EnabledSchedulers...)
// Copy the start join addresses
result.StartJoin = make([]string, 0, len(a.StartJoin)+len(b.StartJoin))
result.StartJoin = append(result.StartJoin, a.StartJoin...)
result.StartJoin = append(result.StartJoin, b.StartJoin...)
// Copy the retry join addresses
result.RetryJoin = make([]string, 0, len(a.RetryJoin)+len(b.RetryJoin))
result.RetryJoin = append(result.RetryJoin, a.RetryJoin...)
result.RetryJoin = append(result.RetryJoin, b.RetryJoin...)
return &result
}
// Merge is used to merge two client configs together
func (a *ClientConfig) Merge(b *ClientConfig) *ClientConfig {
result := *a
if b.Enabled {
result.Enabled = true
}
if b.StateDir != "" {
result.StateDir = b.StateDir
}
if b.AllocDir != "" {
result.AllocDir = b.AllocDir
}
if b.NodeClass != "" {
result.NodeClass = b.NodeClass
}
if b.NetworkInterface != "" {
result.NetworkInterface = b.NetworkInterface
}
if b.NetworkSpeed != 0 {
result.NetworkSpeed = b.NetworkSpeed
}
if b.MaxKillTimeout != "" {
result.MaxKillTimeout = b.MaxKillTimeout
}
if b.ClientMaxPort != 0 {
result.ClientMaxPort = b.ClientMaxPort
}
if b.ClientMinPort != 0 {
result.ClientMinPort = b.ClientMinPort
}
if b.Reserved != nil {
result.Reserved = result.Reserved.Merge(b.Reserved)
}
if b.StatsConfig != nil {
result.StatsConfig = result.StatsConfig.Merge(b.StatsConfig)
}
// Add the servers
result.Servers = append(result.Servers, b.Servers...)
// Add the options map values
if result.Options == nil {
result.Options = make(map[string]string)
}
for k, v := range b.Options {
result.Options[k] = v
}
// Add the meta map values
if result.Meta == nil {
result.Meta = make(map[string]string)
}
for k, v := range b.Meta {
result.Meta[k] = v
}
return &result
}
// Merge is used to merge two telemetry configs together
func (a *Telemetry) Merge(b *Telemetry) *Telemetry {
result := *a
if b.StatsiteAddr != "" {
result.StatsiteAddr = b.StatsiteAddr
}
if b.StatsdAddr != "" {
result.StatsdAddr = b.StatsdAddr
}
if b.DisableHostname {
result.DisableHostname = true
}
return &result
}
// Merge is used to merge two port configurations.
func (a *Ports) Merge(b *Ports) *Ports {
result := *a
if b.HTTP != 0 {
result.HTTP = b.HTTP
}
if b.RPC != 0 {
result.RPC = b.RPC
}
if b.Serf != 0 {
result.Serf = b.Serf
}
return &result
}
// Merge is used to merge two address configs together.
func (a *Addresses) Merge(b *Addresses) *Addresses {
result := *a
if b.HTTP != "" {
result.HTTP = b.HTTP
}
if b.RPC != "" {
result.RPC = b.RPC
}
if b.Serf != "" {
result.Serf = b.Serf
}
return &result
}
// Merge merges two advertise addrs configs together.
func (a *AdvertiseAddrs) Merge(b *AdvertiseAddrs) *AdvertiseAddrs {
result := *a
if b.RPC != "" {
result.RPC = b.RPC
}
if b.Serf != "" {
result.Serf = b.Serf
}
if b.HTTP != "" {
result.HTTP = b.HTTP
}
return &result
}
// Merge merges two Atlas configurations together.
func (a *AtlasConfig) Merge(b *AtlasConfig) *AtlasConfig {
result := *a
if b.Infrastructure != "" {
result.Infrastructure = b.Infrastructure
}
if b.Token != "" {
result.Token = b.Token
}
if b.Join {
result.Join = true
}
if b.Endpoint != "" {
result.Endpoint = b.Endpoint
}
return &result
}
func (r *Resources) Merge(b *Resources) *Resources {
result := *r
if b.CPU != 0 {
result.CPU = b.CPU
}
if b.MemoryMB != 0 {
result.MemoryMB = b.MemoryMB
}
if b.DiskMB != 0 {
result.DiskMB = b.DiskMB
}
if b.IOPS != 0 {
result.IOPS = b.IOPS
}
if b.ReservedPorts != "" {
result.ReservedPorts = b.ReservedPorts
}
if len(b.ParsedReservedPorts) != 0 {
result.ParsedReservedPorts = b.ParsedReservedPorts
}
return &result
}
func (s *StatsConfig) Merge(b *StatsConfig) *StatsConfig {
result := *s
if b.DataPoints != 0 {
result.DataPoints = b.DataPoints
}
if b.CollectionInterval != "" {
result.CollectionInterval = b.CollectionInterval
result.collectionInterval = b.collectionInterval
}
return &result
}
// LoadConfig loads the configuration at the given path, regardless if
// its a file or directory.
func LoadConfig(path string) (*Config, error) {
fi, err := os.Stat(path)
if err != nil {
return nil, err
}
if fi.IsDir() {
return LoadConfigDir(path)
}
cleaned := filepath.Clean(path)
config, err := ParseConfigFile(cleaned)
if err != nil {
return nil, fmt.Errorf("Error loading %s: %s", cleaned, err)
}
config.Files = append(config.Files, cleaned)
return config, nil
}
// LoadConfigDir loads all the configurations in the given directory
// in alphabetical order.
func LoadConfigDir(dir string) (*Config, error) {
f, err := os.Open(dir)
if err != nil {
return nil, err
}
defer f.Close()
fi, err := f.Stat()
if err != nil {
return nil, err
}
if !fi.IsDir() {
return nil, fmt.Errorf(
"configuration path must be a directory: %s", dir)
}
var files []string
err = nil
for err != io.EOF {
var fis []os.FileInfo
fis, err = f.Readdir(128)
if err != nil && err != io.EOF {
return nil, err
}
for _, fi := range fis {
// Ignore directories
if fi.IsDir() {
continue
}
// Only care about files that are valid to load.
name := fi.Name()
skip := true
if strings.HasSuffix(name, ".hcl") {
skip = false
} else if strings.HasSuffix(name, ".json") {
skip = false
}
if skip || isTemporaryFile(name) {
continue
}
path := filepath.Join(dir, name)
files = append(files, path)
}
}
// Fast-path if we have no files
if len(files) == 0 {
return &Config{}, nil
}
sort.Strings(files)
var result *Config
for _, f := range files {
config, err := ParseConfigFile(f)
if err != nil {
return nil, fmt.Errorf("Error loading %s: %s", f, err)
}
config.Files = append(config.Files, f)
if result == nil {
result = config
} else {
result = result.Merge(config)
}
}
return result, nil
}
// isTemporaryFile returns true or false depending on whether the
// provided file name is a temporary file for the following editors:
// emacs or vim.
func isTemporaryFile(name string) bool {
return strings.HasSuffix(name, "~") || // vim
strings.HasPrefix(name, ".#") || // emacs
(strings.HasPrefix(name, "#") && strings.HasSuffix(name, "#")) // emacs
}