package drivers import ( "time" "github.com/golang/protobuf/ptypes" "github.com/hashicorp/nomad/nomad/structs" "github.com/hashicorp/nomad/plugins/drivers/proto" ) var taskStateToProtoMap = map[TaskState]proto.TaskState{ TaskStateUnknown: proto.TaskState_UNKNOWN, TaskStateRunning: proto.TaskState_RUNNING, TaskStateExited: proto.TaskState_EXITED, } var taskStateFromProtoMap = map[proto.TaskState]TaskState{ proto.TaskState_UNKNOWN: TaskStateUnknown, proto.TaskState_RUNNING: TaskStateRunning, proto.TaskState_EXITED: TaskStateExited, } func healthStateToProto(health HealthState) proto.FingerprintResponse_HealthState { switch health { case HealthStateUndetected: return proto.FingerprintResponse_UNDETECTED case HealthStateUnhealthy: return proto.FingerprintResponse_UNHEALTHY case HealthStateHealthy: return proto.FingerprintResponse_HEALTHY } return proto.FingerprintResponse_UNDETECTED } func healthStateFromProto(pb proto.FingerprintResponse_HealthState) HealthState { switch pb { case proto.FingerprintResponse_UNDETECTED: return HealthStateUndetected case proto.FingerprintResponse_UNHEALTHY: return HealthStateUnhealthy case proto.FingerprintResponse_HEALTHY: return HealthStateHealthy } return HealthStateUndetected } func taskConfigFromProto(pb *proto.TaskConfig) *TaskConfig { if pb == nil { return &TaskConfig{} } return &TaskConfig{ ID: pb.Id, JobName: pb.JobName, TaskGroupName: pb.TaskGroupName, Name: pb.Name, Env: pb.Env, DeviceEnv: pb.DeviceEnv, rawDriverConfig: pb.MsgpackDriverConfig, Resources: ResourcesFromProto(pb.Resources), Devices: DevicesFromProto(pb.Devices), Mounts: MountsFromProto(pb.Mounts), User: pb.User, AllocDir: pb.AllocDir, StdoutPath: pb.StdoutPath, StderrPath: pb.StderrPath, AllocID: pb.AllocId, NetworkIsolation: NetworkIsolationSpecFromProto(pb.NetworkIsolationSpec), DNS: dnsConfigFromProto(pb.Dns), } } func taskConfigToProto(cfg *TaskConfig) *proto.TaskConfig { if cfg == nil { return &proto.TaskConfig{} } pb := &proto.TaskConfig{ Id: cfg.ID, JobName: cfg.JobName, TaskGroupName: cfg.TaskGroupName, Name: cfg.Name, Env: cfg.Env, DeviceEnv: cfg.DeviceEnv, Resources: ResourcesToProto(cfg.Resources), Devices: DevicesToProto(cfg.Devices), Mounts: MountsToProto(cfg.Mounts), User: cfg.User, AllocDir: cfg.AllocDir, MsgpackDriverConfig: cfg.rawDriverConfig, StdoutPath: cfg.StdoutPath, StderrPath: cfg.StderrPath, AllocId: cfg.AllocID, NetworkIsolationSpec: NetworkIsolationSpecToProto(cfg.NetworkIsolation), Dns: dnsConfigToProto(cfg.DNS), } return pb } func ResourcesFromProto(pb *proto.Resources) *Resources { var r Resources if pb == nil { return &r } if pb.AllocatedResources != nil { r.NomadResources = &structs.AllocatedTaskResources{} if pb.AllocatedResources.Cpu != nil { r.NomadResources.Cpu.CpuShares = pb.AllocatedResources.Cpu.CpuShares } if pb.AllocatedResources.Memory != nil { r.NomadResources.Memory.MemoryMB = pb.AllocatedResources.Memory.MemoryMb } for _, network := range pb.AllocatedResources.Networks { var n structs.NetworkResource n.Device = network.Device n.IP = network.Ip n.CIDR = network.Cidr n.MBits = int(network.Mbits) for _, port := range network.ReservedPorts { n.ReservedPorts = append(n.ReservedPorts, structs.Port{ Label: port.Label, Value: int(port.Value), }) } for _, port := range network.DynamicPorts { n.DynamicPorts = append(n.DynamicPorts, structs.Port{ Label: port.Label, Value: int(port.Value), }) } r.NomadResources.Networks = append(r.NomadResources.Networks, &n) } } if pb.LinuxResources != nil { r.LinuxResources = &LinuxResources{ CPUPeriod: pb.LinuxResources.CpuPeriod, CPUQuota: pb.LinuxResources.CpuQuota, CPUShares: pb.LinuxResources.CpuShares, MemoryLimitBytes: pb.LinuxResources.MemoryLimitBytes, OOMScoreAdj: pb.LinuxResources.OomScoreAdj, CpusetCPUs: pb.LinuxResources.CpusetCpus, CpusetMems: pb.LinuxResources.CpusetMems, PercentTicks: pb.LinuxResources.PercentTicks, } } if pb.Ports != nil { ports := structs.AllocatedPorts(make([]structs.AllocatedPortMapping, len(pb.Ports))) for i, port := range pb.Ports { ports[i] = structs.AllocatedPortMapping{ Label: port.Label, Value: int(port.Value), To: int(port.To), HostIP: port.HostIp, } } r.Ports = &ports } return &r } func ResourcesToProto(r *Resources) *proto.Resources { if r == nil { return nil } var pb proto.Resources if r.NomadResources != nil { pb.AllocatedResources = &proto.AllocatedTaskResources{ Cpu: &proto.AllocatedCpuResources{ CpuShares: r.NomadResources.Cpu.CpuShares, }, Memory: &proto.AllocatedMemoryResources{ MemoryMb: r.NomadResources.Memory.MemoryMB, }, Networks: make([]*proto.NetworkResource, len(r.NomadResources.Networks)), } for i, network := range r.NomadResources.Networks { var n proto.NetworkResource n.Device = network.Device n.Ip = network.IP n.Cidr = network.CIDR n.Mbits = int32(network.MBits) n.ReservedPorts = []*proto.NetworkPort{} for _, port := range network.ReservedPorts { n.ReservedPorts = append(n.ReservedPorts, &proto.NetworkPort{ Label: port.Label, Value: int32(port.Value), }) } for _, port := range network.DynamicPorts { n.DynamicPorts = append(n.DynamicPorts, &proto.NetworkPort{ Label: port.Label, Value: int32(port.Value), }) } pb.AllocatedResources.Networks[i] = &n } } if r.LinuxResources != nil { pb.LinuxResources = &proto.LinuxResources{ CpuPeriod: r.LinuxResources.CPUPeriod, CpuQuota: r.LinuxResources.CPUQuota, CpuShares: r.LinuxResources.CPUShares, MemoryLimitBytes: r.LinuxResources.MemoryLimitBytes, OomScoreAdj: r.LinuxResources.OOMScoreAdj, CpusetCpus: r.LinuxResources.CpusetCPUs, CpusetMems: r.LinuxResources.CpusetMems, PercentTicks: r.LinuxResources.PercentTicks, } } if r.Ports != nil { ports := make([]*proto.PortMapping, len(*r.Ports)) for i, port := range *r.Ports { ports[i] = &proto.PortMapping{ Label: port.Label, Value: int32(port.Value), To: int32(port.To), HostIp: port.HostIP, } } pb.Ports = ports } return &pb } func DevicesFromProto(devices []*proto.Device) []*DeviceConfig { if devices == nil { return nil } out := make([]*DeviceConfig, len(devices)) for i, d := range devices { out[i] = DeviceFromProto(d) } return out } func DeviceFromProto(device *proto.Device) *DeviceConfig { if device == nil { return nil } return &DeviceConfig{ TaskPath: device.TaskPath, HostPath: device.HostPath, Permissions: device.CgroupPermissions, } } func MountsFromProto(mounts []*proto.Mount) []*MountConfig { if mounts == nil { return nil } out := make([]*MountConfig, len(mounts)) for i, m := range mounts { out[i] = MountFromProto(m) } return out } func MountFromProto(mount *proto.Mount) *MountConfig { if mount == nil { return nil } return &MountConfig{ TaskPath: mount.TaskPath, HostPath: mount.HostPath, Readonly: mount.Readonly, } } func DevicesToProto(devices []*DeviceConfig) []*proto.Device { if devices == nil { return nil } out := make([]*proto.Device, len(devices)) for i, d := range devices { out[i] = DeviceToProto(d) } return out } func DeviceToProto(device *DeviceConfig) *proto.Device { if device == nil { return nil } return &proto.Device{ TaskPath: device.TaskPath, HostPath: device.HostPath, CgroupPermissions: device.Permissions, } } func MountsToProto(mounts []*MountConfig) []*proto.Mount { if mounts == nil { return nil } out := make([]*proto.Mount, len(mounts)) for i, m := range mounts { out[i] = MountToProto(m) } return out } func MountToProto(mount *MountConfig) *proto.Mount { if mount == nil { return nil } return &proto.Mount{ TaskPath: mount.TaskPath, HostPath: mount.HostPath, Readonly: mount.Readonly, } } func taskHandleFromProto(pb *proto.TaskHandle) *TaskHandle { if pb == nil { return &TaskHandle{} } return &TaskHandle{ Version: int(pb.Version), Config: taskConfigFromProto(pb.Config), State: taskStateFromProtoMap[pb.State], DriverState: pb.DriverState, } } func taskHandleToProto(handle *TaskHandle) *proto.TaskHandle { return &proto.TaskHandle{ Version: int32(handle.Version), Config: taskConfigToProto(handle.Config), State: taskStateToProtoMap[handle.State], DriverState: handle.DriverState, } } func exitResultToProto(result *ExitResult) *proto.ExitResult { if result == nil { return &proto.ExitResult{} } return &proto.ExitResult{ ExitCode: int32(result.ExitCode), Signal: int32(result.Signal), OomKilled: result.OOMKilled, } } func exitResultFromProto(pb *proto.ExitResult) *ExitResult { return &ExitResult{ ExitCode: int(pb.ExitCode), Signal: int(pb.Signal), OOMKilled: pb.OomKilled, } } func taskStatusToProto(status *TaskStatus) (*proto.TaskStatus, error) { started, err := ptypes.TimestampProto(status.StartedAt) if err != nil { return nil, err } completed, err := ptypes.TimestampProto(status.CompletedAt) if err != nil { return nil, err } return &proto.TaskStatus{ Id: status.ID, Name: status.Name, State: taskStateToProtoMap[status.State], StartedAt: started, CompletedAt: completed, Result: exitResultToProto(status.ExitResult), }, nil } func taskStatusFromProto(pb *proto.TaskStatus) (*TaskStatus, error) { started, err := ptypes.Timestamp(pb.StartedAt) if err != nil { return nil, err } completed, err := ptypes.Timestamp(pb.CompletedAt) if err != nil { return nil, err } return &TaskStatus{ ID: pb.Id, Name: pb.Name, State: taskStateFromProtoMap[pb.State], StartedAt: started, CompletedAt: completed, ExitResult: exitResultFromProto(pb.Result), }, nil } func TaskStatsToProto(stats *TaskResourceUsage) (*proto.TaskStats, error) { timestamp, err := ptypes.TimestampProto(time.Unix(0, stats.Timestamp)) if err != nil { return nil, err } pids := map[string]*proto.TaskResourceUsage{} for pid, ru := range stats.Pids { pids[pid] = resourceUsageToProto(ru) } return &proto.TaskStats{ Timestamp: timestamp, AggResourceUsage: resourceUsageToProto(stats.ResourceUsage), ResourceUsageByPid: pids, }, nil } func TaskStatsFromProto(pb *proto.TaskStats) (*TaskResourceUsage, error) { timestamp, err := ptypes.Timestamp(pb.Timestamp) if err != nil { return nil, err } pids := map[string]*ResourceUsage{} for pid, ru := range pb.ResourceUsageByPid { pids[pid] = resourceUsageFromProto(ru) } stats := &TaskResourceUsage{ Timestamp: timestamp.UnixNano(), ResourceUsage: resourceUsageFromProto(pb.AggResourceUsage), Pids: pids, } return stats, nil } func resourceUsageToProto(ru *ResourceUsage) *proto.TaskResourceUsage { cpu := &proto.CPUUsage{ MeasuredFields: cpuUsageMeasuredFieldsToProto(ru.CpuStats.Measured), SystemMode: ru.CpuStats.SystemMode, UserMode: ru.CpuStats.UserMode, TotalTicks: ru.CpuStats.TotalTicks, ThrottledPeriods: ru.CpuStats.ThrottledPeriods, ThrottledTime: ru.CpuStats.ThrottledTime, Percent: ru.CpuStats.Percent, } memory := &proto.MemoryUsage{ MeasuredFields: memoryUsageMeasuredFieldsToProto(ru.MemoryStats.Measured), Rss: ru.MemoryStats.RSS, Cache: ru.MemoryStats.Cache, Swap: ru.MemoryStats.Swap, Usage: ru.MemoryStats.Usage, MaxUsage: ru.MemoryStats.MaxUsage, KernelUsage: ru.MemoryStats.KernelUsage, KernelMaxUsage: ru.MemoryStats.KernelMaxUsage, } return &proto.TaskResourceUsage{ Cpu: cpu, Memory: memory, } } func resourceUsageFromProto(pb *proto.TaskResourceUsage) *ResourceUsage { cpu := CpuStats{} if pb.Cpu != nil { cpu = CpuStats{ Measured: cpuUsageMeasuredFieldsFromProto(pb.Cpu.MeasuredFields), SystemMode: pb.Cpu.SystemMode, UserMode: pb.Cpu.UserMode, TotalTicks: pb.Cpu.TotalTicks, ThrottledPeriods: pb.Cpu.ThrottledPeriods, ThrottledTime: pb.Cpu.ThrottledTime, Percent: pb.Cpu.Percent, } } memory := MemoryStats{} if pb.Memory != nil { memory = MemoryStats{ Measured: memoryUsageMeasuredFieldsFromProto(pb.Memory.MeasuredFields), RSS: pb.Memory.Rss, Cache: pb.Memory.Cache, Swap: pb.Memory.Swap, Usage: pb.Memory.Usage, MaxUsage: pb.Memory.MaxUsage, KernelUsage: pb.Memory.KernelUsage, KernelMaxUsage: pb.Memory.KernelMaxUsage, } } return &ResourceUsage{ CpuStats: &cpu, MemoryStats: &memory, } } func BytesToMB(bytes int64) int64 { return bytes / (1024 * 1024) } var cpuUsageMeasuredFieldToProtoMap = map[string]proto.CPUUsage_Fields{ "System Mode": proto.CPUUsage_SYSTEM_MODE, "User Mode": proto.CPUUsage_USER_MODE, "Total Ticks": proto.CPUUsage_TOTAL_TICKS, "Throttled Periods": proto.CPUUsage_THROTTLED_PERIODS, "Throttled Time": proto.CPUUsage_THROTTLED_TIME, "Percent": proto.CPUUsage_PERCENT, } var cpuUsageMeasuredFieldFromProtoMap = map[proto.CPUUsage_Fields]string{ proto.CPUUsage_SYSTEM_MODE: "System Mode", proto.CPUUsage_USER_MODE: "User Mode", proto.CPUUsage_TOTAL_TICKS: "Total Ticks", proto.CPUUsage_THROTTLED_PERIODS: "Throttled Periods", proto.CPUUsage_THROTTLED_TIME: "Throttled Time", proto.CPUUsage_PERCENT: "Percent", } func cpuUsageMeasuredFieldsToProto(fields []string) []proto.CPUUsage_Fields { r := make([]proto.CPUUsage_Fields, 0, len(fields)) for _, f := range fields { if v, ok := cpuUsageMeasuredFieldToProtoMap[f]; ok { r = append(r, v) } } return r } func cpuUsageMeasuredFieldsFromProto(fields []proto.CPUUsage_Fields) []string { r := make([]string, 0, len(fields)) for _, f := range fields { if v, ok := cpuUsageMeasuredFieldFromProtoMap[f]; ok { r = append(r, v) } } return r } var memoryUsageMeasuredFieldToProtoMap = map[string]proto.MemoryUsage_Fields{ "RSS": proto.MemoryUsage_RSS, "Cache": proto.MemoryUsage_CACHE, "Swap": proto.MemoryUsage_SWAP, "Usage": proto.MemoryUsage_USAGE, "Max Usage": proto.MemoryUsage_MAX_USAGE, "Kernel Usage": proto.MemoryUsage_KERNEL_USAGE, "Kernel Max Usage": proto.MemoryUsage_KERNEL_MAX_USAGE, } var memoryUsageMeasuredFieldFromProtoMap = map[proto.MemoryUsage_Fields]string{ proto.MemoryUsage_RSS: "RSS", proto.MemoryUsage_CACHE: "Cache", proto.MemoryUsage_SWAP: "Swap", proto.MemoryUsage_USAGE: "Usage", proto.MemoryUsage_MAX_USAGE: "Max Usage", proto.MemoryUsage_KERNEL_USAGE: "Kernel Usage", proto.MemoryUsage_KERNEL_MAX_USAGE: "Kernel Max Usage", } func memoryUsageMeasuredFieldsToProto(fields []string) []proto.MemoryUsage_Fields { r := make([]proto.MemoryUsage_Fields, 0, len(fields)) for _, f := range fields { if v, ok := memoryUsageMeasuredFieldToProtoMap[f]; ok { r = append(r, v) } } return r } func memoryUsageMeasuredFieldsFromProto(fields []proto.MemoryUsage_Fields) []string { r := make([]string, 0, len(fields)) for _, f := range fields { if v, ok := memoryUsageMeasuredFieldFromProtoMap[f]; ok { r = append(r, v) } } return r } func netIsolationModeToProto(mode NetIsolationMode) proto.NetworkIsolationSpec_NetworkIsolationMode { switch mode { case NetIsolationModeHost: return proto.NetworkIsolationSpec_HOST case NetIsolationModeGroup: return proto.NetworkIsolationSpec_GROUP case NetIsolationModeTask: return proto.NetworkIsolationSpec_TASK case NetIsolationModeNone: return proto.NetworkIsolationSpec_NONE default: return proto.NetworkIsolationSpec_HOST } } func netIsolationModeFromProto(pb proto.NetworkIsolationSpec_NetworkIsolationMode) NetIsolationMode { switch pb { case proto.NetworkIsolationSpec_HOST: return NetIsolationModeHost case proto.NetworkIsolationSpec_GROUP: return NetIsolationModeGroup case proto.NetworkIsolationSpec_TASK: return NetIsolationModeTask case proto.NetworkIsolationSpec_NONE: return NetIsolationModeNone default: return NetIsolationModeHost } } func NetworkIsolationSpecToProto(spec *NetworkIsolationSpec) *proto.NetworkIsolationSpec { if spec == nil { return nil } return &proto.NetworkIsolationSpec{ Path: spec.Path, Labels: spec.Labels, Mode: netIsolationModeToProto(spec.Mode), } } func NetworkIsolationSpecFromProto(pb *proto.NetworkIsolationSpec) *NetworkIsolationSpec { if pb == nil { return nil } return &NetworkIsolationSpec{ Path: pb.Path, Labels: pb.Labels, Mode: netIsolationModeFromProto(pb.Mode), } } func dnsConfigToProto(dns *DNSConfig) *proto.DNSConfig { if dns == nil { return nil } return &proto.DNSConfig{ Servers: dns.Servers, Searches: dns.Searches, Options: dns.Options, } } func dnsConfigFromProto(pb *proto.DNSConfig) *DNSConfig { if pb == nil { return nil } return &DNSConfig{ Servers: pb.Servers, Searches: pb.Searches, Options: pb.Options, } }