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topology_dm.go
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topology_dm.go
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// Copyright 2020 PingCAP, Inc.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// See the License for the specific language governing permissions and
// limitations under the License.
package spec
import (
"context"
"crypto/tls"
"fmt"
"path/filepath"
"reflect"
"strings"
"time"
"github.com/creasty/defaults"
"github.com/pingcap/errors"
"github.com/pingcap/tiup/pkg/cluster/api"
"github.com/pingcap/tiup/pkg/cluster/spec"
"github.com/pingcap/tiup/pkg/meta"
"github.com/pingcap/tiup/pkg/set"
"github.com/pingcap/tiup/pkg/utils"
)
const (
statusQueryTimeout = 2 * time.Second
)
var (
globalOptionTypeName = reflect.TypeOf(GlobalOptions{}).Name()
monitorOptionTypeName = reflect.TypeOf(MonitoredOptions{}).Name()
serverConfigsTypeName = reflect.TypeOf(DMServerConfigs{}).Name()
componentSourcesTypeName = reflect.TypeOf(ComponentSources{}).Name()
)
func setDefaultDir(parent, role, port string, field reflect.Value) {
if field.String() != "" {
return
}
if defaults.CanUpdate(field.Interface()) {
dir := fmt.Sprintf("%s-%s", role, port)
field.Set(reflect.ValueOf(filepath.Join(parent, dir)))
}
}
func findField(v reflect.Value, fieldName string) (int, bool) {
for i := 0; i < v.NumField(); i++ {
if v.Type().Field(i).Name == fieldName {
return i, true
}
}
return -1, false
}
// Skip global/monitored/job options
func isSkipField(field reflect.Value) bool {
if field.Kind() == reflect.Ptr {
if field.IsZero() {
return true
}
field = field.Elem()
}
tp := field.Type().Name()
return tp == globalOptionTypeName || tp == monitorOptionTypeName || tp == serverConfigsTypeName || tp == componentSourcesTypeName
}
type (
// GlobalOptions of spec.
GlobalOptions = spec.GlobalOptions
// MonitoredOptions is the spec of Monitored
MonitoredOptions = spec.MonitoredOptions
// PrometheusSpec is the spec of Prometheus
PrometheusSpec = spec.PrometheusSpec
// GrafanaSpec is the spec of Grafana
GrafanaSpec = spec.GrafanaSpec
// AlertmanagerSpec is the spec of Alertmanager
AlertmanagerSpec = spec.AlertmanagerSpec
// ResourceControl is the spec of ResourceControl
ResourceControl = meta.ResourceControl
)
type (
// DMServerConfigs represents the server runtime configuration
DMServerConfigs struct {
Master map[string]any `yaml:"master"`
Worker map[string]any `yaml:"worker"`
Grafana map[string]string `yaml:"grafana"`
}
// ComponentSources represents the source of components
ComponentSources struct {
Master string `yaml:"master,omitempty"`
Worker string `yaml:"worker,omitempty"`
}
// Specification represents the specification of topology.yaml
Specification struct {
GlobalOptions GlobalOptions `yaml:"global,omitempty" validate:"global:editable"`
MonitoredOptions *MonitoredOptions `yaml:"monitored,omitempty" validate:"monitored:editable"`
ComponentSources ComponentSources `yaml:"component_sources,omitempty" validate:"component_sources:editable"`
ServerConfigs DMServerConfigs `yaml:"server_configs,omitempty" validate:"server_configs:ignore"`
Masters []*MasterSpec `yaml:"master_servers"`
Workers []*WorkerSpec `yaml:"worker_servers"`
Monitors []*spec.PrometheusSpec `yaml:"monitoring_servers"`
Grafanas []*spec.GrafanaSpec `yaml:"grafana_servers,omitempty"`
Alertmanagers []*spec.AlertmanagerSpec `yaml:"alertmanager_servers,omitempty"`
}
)
// AllDMComponentNames contains the names of all dm components.
// should include all components in ComponentsByStartOrder
func AllDMComponentNames() (roles []string) {
tp := &Specification{}
tp.IterComponent(func(c Component) {
roles = append(roles, c.Name())
})
return
}
// MasterSpec represents the Master topology specification in topology.yaml
type MasterSpec struct {
Host string `yaml:"host"`
ManageHost string `yaml:"manage_host,omitempty" validate:"manage_host:editable"`
SSHPort int `yaml:"ssh_port,omitempty" validate:"ssh_port:editable"`
Imported bool `yaml:"imported,omitempty"`
Patched bool `yaml:"patched,omitempty"`
IgnoreExporter bool `yaml:"ignore_exporter,omitempty"`
// Use Name to get the name with a default value if it's empty.
Name string `yaml:"name,omitempty"`
Port int `yaml:"port,omitempty" default:"8261"`
PeerPort int `yaml:"peer_port,omitempty" default:"8291"`
DeployDir string `yaml:"deploy_dir,omitempty"`
DataDir string `yaml:"data_dir,omitempty"`
LogDir string `yaml:"log_dir,omitempty"`
Source string `yaml:"source,omitempty" validate:"source:editable"`
NumaNode string `yaml:"numa_node,omitempty" validate:"numa_node:editable"`
Config map[string]any `yaml:"config,omitempty" validate:"config:ignore"`
ResourceControl ResourceControl `yaml:"resource_control,omitempty" validate:"resource_control:editable"`
Arch string `yaml:"arch,omitempty"`
OS string `yaml:"os,omitempty"`
V1SourcePath string `yaml:"v1_source_path,omitempty"`
}
// Status queries current status of the instance
func (s *MasterSpec) Status(_ context.Context, timeout time.Duration, tlsCfg *tls.Config, _ ...string) string {
if timeout < time.Second {
timeout = statusQueryTimeout
}
addr := utils.JoinHostPort(s.Host, s.Port)
dc := api.NewDMMasterClient([]string{addr}, timeout, tlsCfg)
isFound, isActive, isLeader, err := dc.GetMaster(s.Name)
if err != nil {
return "Down"
}
if !isFound {
return "N/A"
}
if !isActive {
return "Unhealthy"
}
res := "Healthy"
if isLeader {
res += "|L"
}
return res
}
// Role returns the component role of the instance
func (s *MasterSpec) Role() string {
return ComponentDMMaster
}
// SSH returns the host and SSH port of the instance
func (s *MasterSpec) SSH() (string, int) {
host := s.Host
if s.ManageHost != "" {
host = s.ManageHost
}
return host, s.SSHPort
}
// GetMainPort returns the main port of the instance
func (s *MasterSpec) GetMainPort() int {
return s.Port
}
// IsImported returns if the node is imported from TiDB-Ansible
func (s *MasterSpec) IsImported() bool {
return s.Imported
}
// IgnoreMonitorAgent returns if the node does not have monitor agents available
func (s *MasterSpec) IgnoreMonitorAgent() bool {
return s.IgnoreExporter
}
// GetAdvertisePeerURL returns AdvertisePeerURL
func (s *MasterSpec) GetAdvertisePeerURL(enableTLS bool) string {
scheme := utils.Ternary(enableTLS, "https", "http").(string)
return fmt.Sprintf("%s://%s", scheme, utils.JoinHostPort(s.Host, s.PeerPort))
}
// WorkerSpec represents the Master topology specification in topology.yaml
type WorkerSpec struct {
Host string `yaml:"host"`
ManageHost string `yaml:"manage_host,omitempty" validate:"manage_host:editable"`
SSHPort int `yaml:"ssh_port,omitempty" validate:"ssh_port:editable"`
Imported bool `yaml:"imported,omitempty"`
Patched bool `yaml:"patched,omitempty"`
IgnoreExporter bool `yaml:"ignore_exporter,omitempty"`
// Use Name to get the name with a default value if it's empty.
Name string `yaml:"name,omitempty"`
Port int `yaml:"port,omitempty" default:"8262"`
DeployDir string `yaml:"deploy_dir,omitempty"`
DataDir string `yaml:"data_dir,omitempty"`
LogDir string `yaml:"log_dir,omitempty"`
Source string `yaml:"source,omitempty" validate:"source:editable"`
NumaNode string `yaml:"numa_node,omitempty" validate:"numa_node:editable"`
Config map[string]any `yaml:"config,omitempty" validate:"config:ignore"`
ResourceControl ResourceControl `yaml:"resource_control,omitempty" validate:"resource_control:editable"`
Arch string `yaml:"arch,omitempty"`
OS string `yaml:"os,omitempty"`
}
// Status queries current status of the instance
func (s *WorkerSpec) Status(_ context.Context, timeout time.Duration, tlsCfg *tls.Config, masterList ...string) string {
if len(masterList) < 1 {
return "N/A"
}
if timeout < time.Second {
timeout = statusQueryTimeout
}
dc := api.NewDMMasterClient(masterList, timeout, tlsCfg)
stage, err := dc.GetWorker(s.Name)
if err != nil {
return "Down"
}
if stage == "" {
return "N/A"
}
return stage
}
// Role returns the component role of the instance
func (s *WorkerSpec) Role() string {
return ComponentDMWorker
}
// SSH returns the host and SSH port of the instance
func (s *WorkerSpec) SSH() (string, int) {
host := s.Host
if s.ManageHost != "" {
host = s.ManageHost
}
return host, s.SSHPort
}
// GetMainPort returns the main port of the instance
func (s *WorkerSpec) GetMainPort() int {
return s.Port
}
// IsImported returns if the node is imported from TiDB-Ansible
func (s *WorkerSpec) IsImported() bool {
return s.Imported
}
// IgnoreMonitorAgent returns if the node does not have monitor agents available
func (s *WorkerSpec) IgnoreMonitorAgent() bool {
return s.IgnoreExporter
}
// UnmarshalYAML sets default values when unmarshaling the topology file
func (s *Specification) UnmarshalYAML(unmarshal func(any) error) error {
type topology Specification
if err := unmarshal((*topology)(s)); err != nil {
return err
}
if err := defaults.Set(s); err != nil {
return errors.Trace(err)
}
if s.MonitoredOptions != nil {
// Set monitored options
if s.MonitoredOptions.DeployDir == "" {
s.MonitoredOptions.DeployDir = filepath.Join(s.GlobalOptions.DeployDir,
fmt.Sprintf("%s-%d", spec.RoleMonitor, s.MonitoredOptions.NodeExporterPort))
}
if s.MonitoredOptions.DataDir == "" {
s.MonitoredOptions.DataDir = filepath.Join(s.GlobalOptions.DataDir,
fmt.Sprintf("%s-%d", spec.RoleMonitor, s.MonitoredOptions.NodeExporterPort))
}
if s.MonitoredOptions.LogDir == "" {
s.MonitoredOptions.LogDir = "log"
}
if !strings.HasPrefix(s.MonitoredOptions.LogDir, "/") &&
!strings.HasPrefix(s.MonitoredOptions.LogDir, s.MonitoredOptions.DeployDir) {
s.MonitoredOptions.LogDir = filepath.Join(s.MonitoredOptions.DeployDir, s.MonitoredOptions.LogDir)
}
}
if err := fillDMCustomDefaults(&s.GlobalOptions, s); err != nil {
return err
}
return s.Validate()
}
// platformConflictsDetect checks for conflicts in topology for different OS / Arch
// for set to the same host / IP
func (s *Specification) platformConflictsDetect() error {
type (
conflict struct {
os string
arch string
cfg string
}
)
platformStats := map[string]conflict{}
topoSpec := reflect.ValueOf(s).Elem()
topoType := reflect.TypeOf(s).Elem()
for i := 0; i < topoSpec.NumField(); i++ {
if isSkipField(topoSpec.Field(i)) {
continue
}
compSpecs := topoSpec.Field(i)
for index := 0; index < compSpecs.Len(); index++ {
compSpec := reflect.Indirect(compSpecs.Index(index))
// skip nodes imported from TiDB-Ansible
if compSpec.Addr().Interface().(InstanceSpec).IsImported() {
continue
}
// check hostname
host := compSpec.FieldByName("Host").String()
cfg := topoType.Field(i).Tag.Get("yaml")
if host == "" {
return errors.Errorf("`%s` contains empty host field", cfg)
}
// platform conflicts
stat := conflict{
cfg: cfg,
}
if j, found := findField(compSpec, "OS"); found {
stat.os = compSpec.Field(j).String()
}
if j, found := findField(compSpec, "Arch"); found {
stat.arch = compSpec.Field(j).String()
}
prev, exist := platformStats[host]
if exist {
if prev.os != stat.os || prev.arch != stat.arch {
return &meta.ValidateErr{
Type: meta.TypeMismatch,
Target: "platform",
LHS: fmt.Sprintf("%s:%s/%s", prev.cfg, prev.os, prev.arch),
RHS: fmt.Sprintf("%s:%s/%s", stat.cfg, stat.os, stat.arch),
Value: host,
}
}
}
platformStats[host] = stat
}
}
return nil
}
func (s *Specification) portConflictsDetect() error {
type (
usedPort struct {
host string
port int
}
conflict struct {
tp string
cfg string
}
)
portTypes := []string{
"Port",
"StatusPort",
"PeerPort",
"ClientPort",
"WebPort",
"TCPPort",
"HTTPPort",
"ClusterPort",
}
portStats := map[usedPort]conflict{}
uniqueHosts := set.NewStringSet()
topoSpec := reflect.ValueOf(s).Elem()
topoType := reflect.TypeOf(s).Elem()
for i := 0; i < topoSpec.NumField(); i++ {
if isSkipField(topoSpec.Field(i)) {
continue
}
compSpecs := topoSpec.Field(i)
for index := 0; index < compSpecs.Len(); index++ {
compSpec := reflect.Indirect(compSpecs.Index(index))
// skip nodes imported from TiDB-Ansible
if compSpec.Addr().Interface().(InstanceSpec).IsImported() {
continue
}
// check hostname
host := compSpec.FieldByName("Host").String()
cfg := topoType.Field(i).Tag.Get("yaml")
if host == "" {
return errors.Errorf("`%s` contains empty host field", cfg)
}
uniqueHosts.Insert(host)
// Ports conflicts
for _, portType := range portTypes {
if j, found := findField(compSpec, portType); found {
item := usedPort{
host: host,
port: int(compSpec.Field(j).Int()),
}
tp := compSpec.Type().Field(j).Tag.Get("yaml")
prev, exist := portStats[item]
if exist {
return &meta.ValidateErr{
Type: meta.TypeConflict,
Target: "port",
LHS: fmt.Sprintf("%s:%s.%s", prev.cfg, item.host, prev.tp),
RHS: fmt.Sprintf("%s:%s.%s", cfg, item.host, tp),
Value: item.port,
}
}
portStats[item] = conflict{
tp: tp,
cfg: cfg,
}
}
}
}
}
// Port conflicts in monitored components
monitoredPortTypes := []string{
"NodeExporterPort",
"BlackboxExporterPort",
}
monitoredOpt := topoSpec.FieldByName(monitorOptionTypeName)
if monitoredOpt.IsZero() {
return nil
}
monitoredOpt = monitoredOpt.Elem()
for host := range uniqueHosts {
cfg := "monitored"
for _, portType := range monitoredPortTypes {
f := monitoredOpt.FieldByName(portType)
item := usedPort{
host: host,
port: int(f.Int()),
}
ft, found := monitoredOpt.Type().FieldByName(portType)
if !found {
return errors.Errorf("incompatible change `%s.%s`", monitorOptionTypeName, portType)
}
// `yaml:"node_exporter_port,omitempty"`
tp := strings.Split(ft.Tag.Get("yaml"), ",")[0]
prev, exist := portStats[item]
if exist {
return &meta.ValidateErr{
Type: meta.TypeConflict,
Target: "port",
LHS: fmt.Sprintf("%s:%s.%s", prev.cfg, item.host, prev.tp),
RHS: fmt.Sprintf("%s:%s.%s", cfg, item.host, tp),
Value: item.port,
}
}
portStats[item] = conflict{
tp: tp,
cfg: cfg,
}
}
}
return nil
}
func (s *Specification) dirConflictsDetect() error {
type (
usedDir struct {
host string
dir string
}
conflict struct {
tp string
cfg string
}
)
dirTypes := []string{
"DataDir",
"DeployDir",
}
// usedInfo => type
var (
dirStats = map[usedDir]conflict{}
uniqueHosts = set.NewStringSet()
)
topoSpec := reflect.ValueOf(s).Elem()
topoType := reflect.TypeOf(s).Elem()
for i := 0; i < topoSpec.NumField(); i++ {
if isSkipField(topoSpec.Field(i)) {
continue
}
compSpecs := topoSpec.Field(i)
for index := 0; index < compSpecs.Len(); index++ {
compSpec := reflect.Indirect(compSpecs.Index(index))
// skip nodes imported from TiDB-Ansible
if compSpec.Addr().Interface().(InstanceSpec).IsImported() {
continue
}
// check hostname
host := compSpec.FieldByName("Host").String()
cfg := topoType.Field(i).Tag.Get("yaml")
if host == "" {
return errors.Errorf("`%s` contains empty host field", cfg)
}
uniqueHosts.Insert(host)
// Directory conflicts
for _, dirType := range dirTypes {
if j, found := findField(compSpec, dirType); found {
item := usedDir{
host: host,
dir: compSpec.Field(j).String(),
}
// data_dir is relative to deploy_dir by default, so they can be with
// same (sub) paths as long as the deploy_dirs are different
if item.dir != "" && !strings.HasPrefix(item.dir, "/") {
continue
}
// `yaml:"data_dir,omitempty"`
tp := strings.Split(compSpec.Type().Field(j).Tag.Get("yaml"), ",")[0]
prev, exist := dirStats[item]
if exist {
return &meta.ValidateErr{
Type: meta.TypeConflict,
Target: "directory",
LHS: fmt.Sprintf("%s:%s.%s", prev.cfg, item.host, prev.tp),
RHS: fmt.Sprintf("%s:%s.%s", cfg, item.host, tp),
Value: item.dir,
}
}
dirStats[item] = conflict{
tp: tp,
cfg: cfg,
}
}
}
}
}
return nil
}
// CountDir counts for dir paths used by any instance in the cluster with the same
// prefix, useful to find potential path conflicts
func (s *Specification) CountDir(targetHost, dirPrefix string) int {
dirTypes := []string{
"DataDir",
"DeployDir",
"LogDir",
}
// host-path -> count
dirStats := make(map[string]int)
count := 0
topoSpec := reflect.ValueOf(s).Elem()
dirPrefix = spec.Abs(s.GlobalOptions.User, dirPrefix)
for i := 0; i < topoSpec.NumField(); i++ {
if isSkipField(topoSpec.Field(i)) {
continue
}
compSpecs := topoSpec.Field(i)
for index := 0; index < compSpecs.Len(); index++ {
compSpec := reflect.Indirect(compSpecs.Index(index))
// Directory conflicts
for _, dirType := range dirTypes {
if j, found := findField(compSpec, dirType); found {
dir := compSpec.Field(j).String()
host := compSpec.FieldByName("Host").String()
switch dirType { // the same as in logic.go for (*instance)
case "DataDir":
deployDir := compSpec.FieldByName("DeployDir").String()
// the default data_dir is relative to deploy_dir
if dir != "" && !strings.HasPrefix(dir, "/") {
dir = filepath.Join(deployDir, dir)
}
case "LogDir":
deployDir := compSpec.FieldByName("DeployDir").String()
field := compSpec.FieldByName("LogDir")
if field.IsValid() {
dir = field.Interface().(string)
}
if dir == "" {
dir = "log"
}
if !strings.HasPrefix(dir, "/") {
dir = filepath.Join(deployDir, dir)
}
}
dir = spec.Abs(s.GlobalOptions.User, dir)
dirStats[host+dir]++
}
}
}
}
for k, v := range dirStats {
if k == targetHost+dirPrefix || strings.HasPrefix(k, targetHost+dirPrefix+"/") {
count += v
}
}
return count
}
// TLSConfig generates a tls.Config for the specification as needed
func (s *Specification) TLSConfig(dir string) (*tls.Config, error) {
if !s.GlobalOptions.TLSEnabled {
return nil, nil
}
return spec.LoadClientCert(dir)
}
// Validate validates the topology specification and produce error if the
// specification invalid (e.g: port conflicts or directory conflicts)
func (s *Specification) Validate() error {
if err := s.platformConflictsDetect(); err != nil {
return err
}
if err := s.portConflictsDetect(); err != nil {
return err
}
if err := s.dirConflictsDetect(); err != nil {
return err
}
return spec.RelativePathDetect(s, isSkipField)
}
// Type implements Topology interface.
func (s *Specification) Type() string {
return spec.TopoTypeDM
}
// BaseTopo implements Topology interface.
func (s *Specification) BaseTopo() *spec.BaseTopo {
return &spec.BaseTopo{
GlobalOptions: &s.GlobalOptions,
MonitoredOptions: s.GetMonitoredOptions(),
MasterList: s.GetMasterListWithManageHost(),
Monitors: s.Monitors,
Grafanas: s.Grafanas,
Alertmanagers: s.Alertmanagers,
}
}
// NewPart implements ScaleOutTopology interface.
func (s *Specification) NewPart() spec.Topology {
return &Specification{
GlobalOptions: s.GlobalOptions,
MonitoredOptions: s.MonitoredOptions,
ServerConfigs: s.ServerConfigs,
}
}
// MergeTopo implements ScaleOutTopology interface.
func (s *Specification) MergeTopo(rhs spec.Topology) spec.Topology {
other, ok := rhs.(*Specification)
if !ok {
panic("topo should be DM Topology")
}
return s.Merge(other)
}
// GetMasterListWithManageHost returns a list of Master API hosts of the current cluster
func (s *Specification) GetMasterListWithManageHost() []string {
var masterList []string
for _, master := range s.Masters {
host := master.Host
if master.ManageHost != "" {
host = master.ManageHost
}
masterList = append(masterList, utils.JoinHostPort(host, master.Port))
}
return masterList
}
// FillHostArchOrOS fills the topology with the given host->arch
func (s *Specification) FillHostArchOrOS(hostArch map[string]string, fullType spec.FullHostType) error {
return spec.FillHostArchOrOS(s, hostArch, fullType)
}
// Merge returns a new Topology which sum old ones
func (s *Specification) Merge(that spec.Topology) spec.Topology {
spec := that.(*Specification)
return &Specification{
GlobalOptions: s.GlobalOptions,
MonitoredOptions: s.MonitoredOptions,
ServerConfigs: s.ServerConfigs,
Masters: append(s.Masters, spec.Masters...),
Workers: append(s.Workers, spec.Workers...),
Monitors: append(s.Monitors, spec.Monitors...),
Grafanas: append(s.Grafanas, spec.Grafanas...),
Alertmanagers: append(s.Alertmanagers, spec.Alertmanagers...),
}
}
// fillDefaults tries to fill custom fields to their default values
func fillDMCustomDefaults(globalOptions *GlobalOptions, data any) error {
v := reflect.ValueOf(data).Elem()
t := v.Type()
var err error
for i := 0; i < t.NumField(); i++ {
if err = setDMCustomDefaults(globalOptions, v.Field(i)); err != nil {
return err
}
}
return nil
}
func setDMCustomDefaults(globalOptions *GlobalOptions, field reflect.Value) error {
if !field.CanSet() || isSkipField(field) {
return nil
}
switch field.Kind() {
case reflect.Slice:
for i := 0; i < field.Len(); i++ {
if err := setDMCustomDefaults(globalOptions, field.Index(i)); err != nil {
return err
}
}
case reflect.Struct:
ref := reflect.New(field.Type())
ref.Elem().Set(field)
if err := fillDMCustomDefaults(globalOptions, ref.Interface()); err != nil {
return err
}
field.Set(ref.Elem())
case reflect.Ptr:
if err := setDMCustomDefaults(globalOptions, field.Elem()); err != nil {
return err
}
}
if field.Kind() != reflect.Struct {
return nil
}
for j := 0; j < field.NumField(); j++ {
switch field.Type().Field(j).Name {
case "SSHPort":
if field.Field(j).Int() != 0 {
continue
}
field.Field(j).Set(reflect.ValueOf(globalOptions.SSHPort))
case "Name":
if field.Field(j).String() != "" {
continue
}
host := field.FieldByName("Host").String()
port := field.FieldByName("Port").Int()
field.Field(j).Set(reflect.ValueOf(fmt.Sprintf("dm-%s-%d", host, port)))
case "DataDir":
dataDir := field.Field(j).String()
if dataDir != "" { // already have a value, skip filling default values
continue
}
// If the data dir in global options is an obsolute path, it appends to
// the global and has a comp-port sub directory
if strings.HasPrefix(globalOptions.DataDir, "/") {
field.Field(j).Set(reflect.ValueOf(filepath.Join(
globalOptions.DataDir,
fmt.Sprintf("%s-%s", field.Addr().Interface().(InstanceSpec).Role(), getPort(field)),
)))
continue
}
// If the data dir in global options is empty or a relative path, keep it be relative
// Our run_*.sh start scripts are run inside deploy_path, so the final location
// will be deploy_path/global.data_dir
// (the default value of global.data_dir is "data")
if globalOptions.DataDir == "" {
field.Field(j).Set(reflect.ValueOf("data"))
} else {
field.Field(j).Set(reflect.ValueOf(globalOptions.DataDir))
}
case "DeployDir":
setDefaultDir(globalOptions.DeployDir, field.Addr().Interface().(InstanceSpec).Role(), getPort(field), field.Field(j))
case "LogDir":
if field.Field(j).String() == "" && defaults.CanUpdate(field.Field(j).Interface()) {
field.Field(j).Set(reflect.ValueOf(globalOptions.LogDir))
}
case "Arch":
switch strings.ToLower(field.Field(j).String()) {
// replace "x86_64" with amd64, they are the same in our repo
case "x86_64":
field.Field(j).Set(reflect.ValueOf("amd64"))
// replace "aarch64" with arm64
case "aarch64":
field.Field(j).Set(reflect.ValueOf("arm64"))
}
// convert to lower case
if field.Field(j).String() != "" {
field.Field(j).Set(reflect.ValueOf(strings.ToLower(field.Field(j).String())))
}
case "OS":
// convert to lower case
if field.Field(j).String() != "" {
field.Field(j).Set(reflect.ValueOf(strings.ToLower(field.Field(j).String())))
}
}
}
return nil
}
func getPort(v reflect.Value) string {
for i := 0; i < v.NumField(); i++ {
switch v.Type().Field(i).Name {
case "Port", "ClientPort", "WebPort", "TCPPort", "NodeExporterPort":
return fmt.Sprintf("%d", v.Field(i).Int())
}
}
return ""
}
// GetGrafanaConfig returns global grafana configurations
func (s *Specification) GetGrafanaConfig() map[string]string {
return s.ServerConfigs.Grafana
}