githaven/modules/setting/config_provider.go
wxiaoguang 2cdf260f42
Refactor path & config system (#25330)
# The problem

There were many "path tricks":

* By default, Gitea uses its program directory as its work path
* Gitea tries to use the "work path" to guess its "custom path" and
"custom conf (app.ini)"
* Users might want to use other directories as work path
* The non-default work path should be passed to Gitea by GITEA_WORK_DIR
or "--work-path"
* But some Gitea processes are started without these values
    * The "serv" process started by OpenSSH server
    * The CLI sub-commands started by site admin
* The paths are guessed by SetCustomPathAndConf again and again
* The default values of "work path / custom path / custom conf" can be
changed when compiling

# The solution

* Use `InitWorkPathAndCommonConfig` to handle these path tricks, and use
test code to cover its behaviors.
* When Gitea's web server runs, write the WORK_PATH to "app.ini", this
value must be the most correct one, because if this value is not right,
users would find that the web UI doesn't work and then they should be
able to fix it.
* Then all other sub-commands can use the WORK_PATH in app.ini to
initialize their paths.
* By the way, when Gitea starts for git protocol, it shouldn't output
any log, otherwise the git protocol gets broken and client blocks
forever.

The "work path" priority is: WORK_PATH in app.ini > cmd arg --work-path
> env var GITEA_WORK_DIR > builtin default

The "app.ini" searching order is: cmd arg --config > cmd arg "work path
/ custom path" > env var "work path / custom path" > builtin default


## ⚠️ BREAKING

If your instance's "work path / custom path / custom conf" doesn't meet
the requirements (eg: work path must be absolute), Gitea will report a
fatal error and exit. You need to set these values according to the
error log.



----

Close #24818
Close #24222
Close #21606
Close #21498
Close #25107
Close #24981
Maybe close #24503

Replace #23301
Replace #22754

And maybe more
2023-06-21 13:50:26 +08:00

357 lines
9.8 KiB
Go

// Copyright 2023 The Gitea Authors. All rights reserved.
// SPDX-License-Identifier: MIT
package setting
import (
"errors"
"fmt"
"os"
"path/filepath"
"strconv"
"strings"
"time"
"code.gitea.io/gitea/modules/log"
"code.gitea.io/gitea/modules/util"
"gopkg.in/ini.v1" //nolint:depguard
)
type ConfigKey interface {
Name() string
Value() string
SetValue(v string)
In(defaultVal string, candidates []string) string
String() string
Strings(delim string) []string
MustString(defaultVal string) string
MustBool(defaultVal ...bool) bool
MustInt(defaultVal ...int) int
MustInt64(defaultVal ...int64) int64
MustDuration(defaultVal ...time.Duration) time.Duration
}
type ConfigSection interface {
Name() string
MapTo(any) error
HasKey(key string) bool
NewKey(name, value string) (ConfigKey, error)
Key(key string) ConfigKey
Keys() []ConfigKey
ChildSections() []ConfigSection
}
// ConfigProvider represents a config provider
type ConfigProvider interface {
Section(section string) ConfigSection
Sections() []ConfigSection
NewSection(name string) (ConfigSection, error)
GetSection(name string) (ConfigSection, error)
Save() error
SaveTo(filename string) error
DisableSaving()
PrepareSaving() (ConfigProvider, error)
IsLoadedFromEmpty() bool
}
type iniConfigProvider struct {
file string
ini *ini.File
disableSaving bool // disable the "Save" method because the config options could be polluted
loadedFromEmpty bool // whether the file has not existed previously
}
type iniConfigSection struct {
sec *ini.Section
}
var (
_ ConfigProvider = (*iniConfigProvider)(nil)
_ ConfigSection = (*iniConfigSection)(nil)
_ ConfigKey = (*ini.Key)(nil)
)
// ConfigSectionKey only searches the keys in the given section, but it is O(n).
// ini package has a special behavior: with "[sec] a=1" and an empty "[sec.sub]",
// then in "[sec.sub]", Key()/HasKey() can always see "a=1" because it always tries parent sections.
// It returns nil if the key doesn't exist.
func ConfigSectionKey(sec ConfigSection, key string) ConfigKey {
if sec == nil {
return nil
}
for _, k := range sec.Keys() {
if k.Name() == key {
return k
}
}
return nil
}
func ConfigSectionKeyString(sec ConfigSection, key string, def ...string) string {
k := ConfigSectionKey(sec, key)
if k != nil && k.String() != "" {
return k.String()
}
if len(def) > 0 {
return def[0]
}
return ""
}
func ConfigSectionKeyBool(sec ConfigSection, key string, def ...bool) bool {
k := ConfigSectionKey(sec, key)
if k != nil && k.String() != "" {
b, _ := strconv.ParseBool(k.String())
return b
}
if len(def) > 0 {
return def[0]
}
return false
}
// ConfigInheritedKey works like ini.Section.Key(), but it always returns a new key instance, it is O(n) because NewKey is O(n)
// and the returned key is safe to be used with "MustXxx", it doesn't change the parent's values.
// Otherwise, ini.Section.Key().MustXxx would pollute the parent section's keys.
// It never returns nil.
func ConfigInheritedKey(sec ConfigSection, key string) ConfigKey {
k := sec.Key(key)
if k != nil && k.String() != "" {
newKey, _ := sec.NewKey(k.Name(), k.String())
return newKey
}
newKey, _ := sec.NewKey(key, "")
return newKey
}
func ConfigInheritedKeyString(sec ConfigSection, key string, def ...string) string {
k := sec.Key(key)
if k != nil && k.String() != "" {
return k.String()
}
if len(def) > 0 {
return def[0]
}
return ""
}
func (s *iniConfigSection) Name() string {
return s.sec.Name()
}
func (s *iniConfigSection) MapTo(v any) error {
return s.sec.MapTo(v)
}
func (s *iniConfigSection) HasKey(key string) bool {
return s.sec.HasKey(key)
}
func (s *iniConfigSection) NewKey(name, value string) (ConfigKey, error) {
return s.sec.NewKey(name, value)
}
func (s *iniConfigSection) Key(key string) ConfigKey {
return s.sec.Key(key)
}
func (s *iniConfigSection) Keys() (keys []ConfigKey) {
for _, k := range s.sec.Keys() {
keys = append(keys, k)
}
return keys
}
func (s *iniConfigSection) ChildSections() (sections []ConfigSection) {
for _, s := range s.sec.ChildSections() {
sections = append(sections, &iniConfigSection{s})
}
return sections
}
// NewConfigProviderFromData this function is mainly for testing purpose
func NewConfigProviderFromData(configContent string) (ConfigProvider, error) {
cfg, err := ini.Load(strings.NewReader(configContent))
if err != nil {
return nil, err
}
cfg.NameMapper = ini.SnackCase
return &iniConfigProvider{
ini: cfg,
loadedFromEmpty: true,
}, nil
}
// NewConfigProviderFromFile load configuration from file.
// NOTE: do not print any log except error.
func NewConfigProviderFromFile(file string, extraConfigs ...string) (ConfigProvider, error) {
cfg := ini.Empty(ini.LoadOptions{KeyValueDelimiterOnWrite: " = "})
loadedFromEmpty := true
if file != "" {
isFile, err := util.IsFile(file)
if err != nil {
return nil, fmt.Errorf("unable to check if %q is a file. Error: %v", file, err)
}
if isFile {
if err = cfg.Append(file); err != nil {
return nil, fmt.Errorf("failed to load config file %q: %v", file, err)
}
loadedFromEmpty = false
}
}
if len(extraConfigs) > 0 {
for _, s := range extraConfigs {
if err := cfg.Append([]byte(s)); err != nil {
return nil, fmt.Errorf("unable to append more config: %v", err)
}
}
}
cfg.NameMapper = ini.SnackCase
return &iniConfigProvider{
file: file,
ini: cfg,
loadedFromEmpty: loadedFromEmpty,
}, nil
}
func (p *iniConfigProvider) Section(section string) ConfigSection {
return &iniConfigSection{sec: p.ini.Section(section)}
}
func (p *iniConfigProvider) Sections() (sections []ConfigSection) {
for _, s := range p.ini.Sections() {
sections = append(sections, &iniConfigSection{s})
}
return sections
}
func (p *iniConfigProvider) NewSection(name string) (ConfigSection, error) {
sec, err := p.ini.NewSection(name)
if err != nil {
return nil, err
}
return &iniConfigSection{sec: sec}, nil
}
func (p *iniConfigProvider) GetSection(name string) (ConfigSection, error) {
sec, err := p.ini.GetSection(name)
if err != nil {
return nil, err
}
return &iniConfigSection{sec: sec}, nil
}
var errDisableSaving = errors.New("this config can't be saved, developers should prepare a new config to save")
// Save saves the content into file
func (p *iniConfigProvider) Save() error {
if p.disableSaving {
return errDisableSaving
}
filename := p.file
if filename == "" {
return fmt.Errorf("config file path must not be empty")
}
if p.loadedFromEmpty {
if err := os.MkdirAll(filepath.Dir(filename), os.ModePerm); err != nil {
return fmt.Errorf("failed to create %q: %v", filename, err)
}
}
if err := p.ini.SaveTo(filename); err != nil {
return fmt.Errorf("failed to save %q: %v", filename, err)
}
// Change permissions to be more restrictive
fi, err := os.Stat(filename)
if err != nil {
return fmt.Errorf("failed to determine current conf file permissions: %v", err)
}
if fi.Mode().Perm() > 0o600 {
if err = os.Chmod(filename, 0o600); err != nil {
log.Warn("Failed changing conf file permissions to -rw-------. Consider changing them manually.")
}
}
return nil
}
func (p *iniConfigProvider) SaveTo(filename string) error {
if p.disableSaving {
return errDisableSaving
}
return p.ini.SaveTo(filename)
}
// DisableSaving disables the saving function, use PrepareSaving to get clear config options.
func (p *iniConfigProvider) DisableSaving() {
p.disableSaving = true
}
// PrepareSaving loads the ini from file again to get clear config options.
// Otherwise, the "MustXxx" calls would have polluted the current config provider,
// it makes the "Save" outputs a lot of garbage options
// After the INI package gets refactored, no "MustXxx" pollution, this workaround can be dropped.
func (p *iniConfigProvider) PrepareSaving() (ConfigProvider, error) {
if p.file == "" {
return nil, errors.New("no config file to save")
}
return NewConfigProviderFromFile(p.file)
}
func (p *iniConfigProvider) IsLoadedFromEmpty() bool {
return p.loadedFromEmpty
}
func mustMapSetting(rootCfg ConfigProvider, sectionName string, setting any) {
if err := rootCfg.Section(sectionName).MapTo(setting); err != nil {
log.Fatal("Failed to map %s settings: %v", sectionName, err)
}
}
func deprecatedSetting(rootCfg ConfigProvider, oldSection, oldKey, newSection, newKey, version string) {
if rootCfg.Section(oldSection).HasKey(oldKey) {
log.Error("Deprecated fallback `[%s]` `%s` present. Use `[%s]` `%s` instead. This fallback will be/has been removed in %s", oldSection, oldKey, newSection, newKey, version)
}
}
func deprecatedSettingFatal(rootCfg ConfigProvider, oldSection, oldKey, newSection, newKey, version string) {
if rootCfg.Section(oldSection).HasKey(oldKey) {
log.Fatal("Deprecated fallback `[%s]` `%s` present. Use `[%s]` `%s` instead. This fallback will be/has been removed in %s", oldSection, oldKey, newSection, newKey, version)
}
}
// deprecatedSettingDB add a hint that the configuration has been moved to database but still kept in app.ini
func deprecatedSettingDB(rootCfg ConfigProvider, oldSection, oldKey string) {
if rootCfg.Section(oldSection).HasKey(oldKey) {
log.Error("Deprecated `[%s]` `%s` present which has been copied to database table sys_setting", oldSection, oldKey)
}
}
// NewConfigProviderForLocale loads locale configuration from source and others. "string" if for a local file path, "[]byte" is for INI content
func NewConfigProviderForLocale(source any, others ...any) (ConfigProvider, error) {
iniFile, err := ini.LoadSources(ini.LoadOptions{
IgnoreInlineComment: true,
UnescapeValueCommentSymbols: true,
}, source, others...)
if err != nil {
return nil, fmt.Errorf("unable to load locale ini: %w", err)
}
iniFile.BlockMode = false
return &iniConfigProvider{
ini: iniFile,
loadedFromEmpty: true,
}, nil
}
func init() {
ini.PrettyFormat = false
}