package config import ( "fmt" "io" "os" "strconv" "strings" "time" log "github.com/hashicorp/go-hclog" "github.com/hashicorp/nomad/helper" "github.com/hashicorp/nomad/nomad/structs" "github.com/hashicorp/nomad/nomad/structs/config" "github.com/hashicorp/nomad/version" ) var ( // DefaultEnvBlacklist is the default set of environment variables that are // filtered when passing the environment variables of the host to a task. DefaultEnvBlacklist = strings.Join([]string{ "CONSUL_TOKEN", "VAULT_TOKEN", "AWS_ACCESS_KEY_ID", "AWS_SECRET_ACCESS_KEY", "AWS_SESSION_TOKEN", "GOOGLE_APPLICATION_CREDENTIALS", }, ",") // DefaultUserBlacklist is the default set of users that tasks are not // allowed to run as when using a driver in "user.checked_drivers" DefaultUserBlacklist = strings.Join([]string{ "root", "Administrator", }, ",") // DefaultUserCheckedDrivers is the set of drivers we apply the user // blacklist onto. For virtualized drivers it often doesn't make sense to // make this stipulation so by default they are ignored. DefaultUserCheckedDrivers = strings.Join([]string{ "exec", "qemu", "java", }, ",") // A mapping of directories on the host OS to attempt to embed inside each // task's chroot. DefaultChrootEnv = map[string]string{ "/bin": "/bin", "/etc": "/etc", "/lib": "/lib", "/lib32": "/lib32", "/lib64": "/lib64", "/run/resolvconf": "/run/resolvconf", "/sbin": "/sbin", "/usr": "/usr", } ) // RPCHandler can be provided to the Client if there is a local server // to avoid going over the network. If not provided, the Client will // maintain a connection pool to the servers type RPCHandler interface { RPC(method string, args interface{}, reply interface{}) error } // Config is used to parameterize and configure the behavior of the client type Config struct { // DevMode controls if we are in a development mode which // avoids persistent storage. DevMode bool // StateDir is where we store our state StateDir string // AllocDir is where we store data for allocations AllocDir string // LogOutput is the destination for logs LogOutput io.Writer // Logger provides a logger to thhe client Logger log.Logger // Region is the clients region Region string // Network interface to be used in network fingerprinting NetworkInterface string // Network speed is the default speed of network interfaces if they can not // be determined dynamically. NetworkSpeed int // CpuCompute is the default total CPU compute if they can not be determined // dynamically. It should be given as Cores * MHz (2 Cores * 2 Ghz = 4000) CpuCompute int // MemoryMB is the default node total memory in megabytes if it cannot be // determined dynamically. MemoryMB int // MaxKillTimeout allows capping the user-specifiable KillTimeout. If the // task's KillTimeout is greater than the MaxKillTimeout, MaxKillTimeout is // used. MaxKillTimeout time.Duration // Servers is a list of known server addresses. These are as "host:port" Servers []string // RPCHandler can be provided to avoid network traffic if the // server is running locally. RPCHandler RPCHandler // Node provides the base node Node *structs.Node // ClientMaxPort is the upper range of the ports that the client uses for // communicating with plugin subsystems over loopback ClientMaxPort uint // ClientMinPort is the lower range of the ports that the client uses for // communicating with plugin subsystems over loopback ClientMinPort uint // A mapping of directories on the host OS to attempt to embed inside each // task's chroot. ChrootEnv map[string]string // Options provides arbitrary key-value configuration for nomad internals, // like fingerprinters and drivers. The format is: // // namespace.option = value Options map[string]string // Version is the version of the Nomad client Version *version.VersionInfo // ConsulConfig is this Agent's Consul configuration ConsulConfig *config.ConsulConfig // VaultConfig is this Agent's Vault configuration VaultConfig *config.VaultConfig // StatsCollectionInterval is the interval at which the Nomad client // collects resource usage stats StatsCollectionInterval time.Duration // PublishNodeMetrics determines whether nomad is going to publish node // level metrics to remote Telemetry sinks PublishNodeMetrics bool // PublishAllocationMetrics determines whether nomad is going to publish // allocation metrics to remote Telemetry sinks PublishAllocationMetrics bool // TLSConfig holds various TLS related configurations TLSConfig *config.TLSConfig // GCInterval is the time interval at which the client triggers garbage // collection GCInterval time.Duration // GCParallelDestroys is the number of parallel destroys the garbage // collector will allow. GCParallelDestroys int // GCDiskUsageThreshold is the disk usage threshold given as a percent // beyond which the Nomad client triggers GC of terminal allocations GCDiskUsageThreshold float64 // GCInodeUsageThreshold is the inode usage threshold given as a percent // beyond which the Nomad client triggers GC of the terminal allocations GCInodeUsageThreshold float64 // GCMaxAllocs is the maximum number of allocations a node can have // before garbage collection is triggered. GCMaxAllocs int // LogLevel is the level of the logs to putout LogLevel string // NoHostUUID disables using the host's UUID and will force generation of a // random UUID. NoHostUUID bool // ACLEnabled controls if ACL enforcement and management is enabled. ACLEnabled bool // ACLTokenTTL is how long we cache token values for ACLTokenTTL time.Duration // ACLPolicyTTL is how long we cache policy values for ACLPolicyTTL time.Duration // DisableTaggedMetrics determines whether metrics will be displayed via a // key/value/tag format, or simply a key/value format DisableTaggedMetrics bool // BackwardsCompatibleMetrics determines whether to show methods of // displaying metrics for older versions, or to only show the new format BackwardsCompatibleMetrics bool // RPCHoldTimeout is how long an RPC can be "held" before it is errored. // This is used to paper over a loss of leadership by instead holding RPCs, // so that the caller experiences a slow response rather than an error. // This period is meant to be long enough for a leader election to take // place, and a small jitter is applied to avoid a thundering herd. RPCHoldTimeout time.Duration } func (c *Config) Copy() *Config { nc := new(Config) *nc = *c nc.Node = nc.Node.Copy() nc.Servers = helper.CopySliceString(nc.Servers) nc.Options = helper.CopyMapStringString(nc.Options) nc.ConsulConfig = c.ConsulConfig.Copy() nc.VaultConfig = c.VaultConfig.Copy() return nc } // DefaultConfig returns the default configuration func DefaultConfig() *Config { return &Config{ Version: version.GetVersion(), VaultConfig: config.DefaultVaultConfig(), ConsulConfig: config.DefaultConsulConfig(), LogOutput: os.Stderr, Region: "global", StatsCollectionInterval: 1 * time.Second, TLSConfig: &config.TLSConfig{}, LogLevel: "DEBUG", GCInterval: 1 * time.Minute, GCParallelDestroys: 2, GCDiskUsageThreshold: 80, GCInodeUsageThreshold: 70, GCMaxAllocs: 50, NoHostUUID: true, DisableTaggedMetrics: false, BackwardsCompatibleMetrics: false, RPCHoldTimeout: 5 * time.Second, } } // Read returns the specified configuration value or "". func (c *Config) Read(id string) string { return c.Options[id] } // ReadDefault returns the specified configuration value, or the specified // default value if none is set. func (c *Config) ReadDefault(id string, defaultValue string) string { val, ok := c.Options[id] if !ok { return defaultValue } return val } // ReadBool parses the specified option as a boolean. func (c *Config) ReadBool(id string) (bool, error) { val, ok := c.Options[id] if !ok { return false, fmt.Errorf("Specified config is missing from options") } bval, err := strconv.ParseBool(val) if err != nil { return false, fmt.Errorf("Failed to parse %s as bool: %s", val, err) } return bval, nil } // ReadBoolDefault tries to parse the specified option as a boolean. If there is // an error in parsing, the default option is returned. func (c *Config) ReadBoolDefault(id string, defaultValue bool) bool { val, err := c.ReadBool(id) if err != nil { return defaultValue } return val } // ReadInt parses the specified option as a int. func (c *Config) ReadInt(id string) (int, error) { val, ok := c.Options[id] if !ok { return 0, fmt.Errorf("Specified config is missing from options") } ival, err := strconv.Atoi(val) if err != nil { return 0, fmt.Errorf("Failed to parse %s as int: %s", val, err) } return ival, nil } // ReadIntDefault tries to parse the specified option as a int. If there is // an error in parsing, the default option is returned. func (c *Config) ReadIntDefault(id string, defaultValue int) int { val, err := c.ReadInt(id) if err != nil { return defaultValue } return val } // ReadDuration parses the specified option as a duration. func (c *Config) ReadDuration(id string) (time.Duration, error) { val, ok := c.Options[id] if !ok { return time.Duration(0), fmt.Errorf("Specified config is missing from options") } dval, err := time.ParseDuration(val) if err != nil { return time.Duration(0), fmt.Errorf("Failed to parse %s as time duration: %s", val, err) } return dval, nil } // ReadDurationDefault tries to parse the specified option as a duration. If there is // an error in parsing, the default option is returned. func (c *Config) ReadDurationDefault(id string, defaultValue time.Duration) time.Duration { val, err := c.ReadDuration(id) if err != nil { return defaultValue } return val } // ReadStringListToMap tries to parse the specified option as a comma separated list. // If there is an error in parsing, an empty list is returned. func (c *Config) ReadStringListToMap(key string) map[string]struct{} { s := strings.TrimSpace(c.Read(key)) list := make(map[string]struct{}) if s != "" { for _, e := range strings.Split(s, ",") { trimmed := strings.TrimSpace(e) list[trimmed] = struct{}{} } } return list } // ReadStringListToMap tries to parse the specified option as a comma separated list. // If there is an error in parsing, an empty list is returned. func (c *Config) ReadStringListToMapDefault(key, defaultValue string) map[string]struct{} { val, ok := c.Options[key] if !ok { val = defaultValue } list := make(map[string]struct{}) if val != "" { for _, e := range strings.Split(val, ",") { trimmed := strings.TrimSpace(e) list[trimmed] = struct{}{} } } return list }