wip: moving setup logic to fsm
All checks were successful
continuous-integration/drone/push Build is passing

This commit is contained in:
Pavel 2024-05-13 16:57:55 +03:00
parent 1c37735dea
commit 37b638712c
8 changed files with 425 additions and 0 deletions

View File

@ -5,6 +5,7 @@ import (
"gitea.neur0tx.site/Neur0toxine/vegapokerbot/internal/db" "gitea.neur0tx.site/Neur0toxine/vegapokerbot/internal/db"
"gitea.neur0tx.site/Neur0toxine/vegapokerbot/internal/handler" "gitea.neur0tx.site/Neur0toxine/vegapokerbot/internal/handler"
"gitea.neur0tx.site/Neur0toxine/vegapokerbot/internal/handler/iface" "gitea.neur0tx.site/Neur0toxine/vegapokerbot/internal/handler/iface"
"gitea.neur0tx.site/Neur0toxine/vegapokerbot/internal/handler/wizard"
"gitea.neur0tx.site/Neur0toxine/vegapokerbot/internal/locale" "gitea.neur0tx.site/Neur0toxine/vegapokerbot/internal/locale"
"gitea.neur0tx.site/Neur0toxine/vegapokerbot/internal/logger" "gitea.neur0tx.site/Neur0toxine/vegapokerbot/internal/logger"
"github.com/mymmrac/telego" "github.com/mymmrac/telego"
@ -113,6 +114,7 @@ func (a *App) initTelegram() error {
} }
func (a *App) initHandlers() { func (a *App) initHandlers() {
wizard.PopulateStates(a)
a.Handlers = map[handler.Type]handler.Handler{ a.Handlers = map[handler.Type]handler.Handler{
handler.Noop: handler.NewNoopHandler(a.Logger, a.Config.Debug), handler.Noop: handler.NewNoopHandler(a.Logger, a.Config.Debug),
handler.Message: handler.NewMessageHandler(a), handler.Message: handler.NewMessageHandler(a),

128
internal/fsm/machine.go Normal file
View File

@ -0,0 +1,128 @@
package fsm
import (
"errors"
"fmt"
"sync"
)
var (
// ErrPreventTransition should be returned from Enter if you don't want to perform a state transition and
// everything that needed to be done has been done in Enter callback.
ErrPreventTransition = errors.New("prevents transition; this is not an error")
// ErrStateDoesNotExist will be returned if provided state ID does not exist in this machine.
ErrStateDoesNotExist = errors.New("state does not exist")
)
// MachineHandleInput should be provided to IMachine's Handle method. This function can do two very useful things:
// - It can modify Machine's payload with input data.
// - It can act as a router by changing Machine's state via provided controls.
type MachineHandleInput[T any] func(*T, MachineControls[*T])
// IMachine is a Machine contract. The Machine should be able to do the following:
// - Move to another state (usually called by the IState itself).
// - Handle the state input.
// - Reset the machine.
type IMachine[T any] interface {
MachineControls[*T]
// Handle the state input. Handle func will accept the current payload and modify it based on user input.
Handle(MachineHandleInput[T]) error
// Reset the machine to its initial state.
Reset()
}
// Machine is a finite-state machine implementation.
type Machine[T any] struct {
lock sync.Mutex
payload *T
state StateID
initialState StateID
initialPayload T
states map[StateID]IState[T]
errHandler ErrorState[T]
}
// New machine.
func New[T any](initialState StateID, initialPayload T, states []IState[T], errHandler ErrorState[T]) IMachine[T] {
stateMap := make(map[StateID]IState[T], len(states))
for _, state := range states {
stateMap[state.ID()] = state
}
pl := initialPayload
return &Machine[T]{
state: initialState,
payload: &pl,
initialState: initialState,
initialPayload: initialPayload,
states: stateMap,
errHandler: errHandler,
}
}
// Move to another state.
// Internal: should never be called outside state callbacks.
func (m *Machine[T]) Move(id StateID, payload *T) error {
if id == m.state {
return nil
}
next, err := m.loadState(id, payload)
if next == nil || err != nil {
return err
}
cur, err := m.loadState(m.state, payload)
if err != nil {
return err
}
defer m.lock.Unlock()
m.lock.Lock()
if cur != nil {
cur.Exit(payload)
}
if err := next.Enter(payload, m); err != nil {
if errors.Is(err, ErrPreventTransition) {
return nil
}
m.Reset()
return err
}
m.state = id
return nil
}
// Handle the input.
func (m *Machine[T]) Handle(inputFunc MachineHandleInput[T]) error {
defer m.lock.Unlock()
m.lock.Lock()
inputFunc(m.payload, m)
st, err := m.loadState(m.state, m.payload)
if st == nil || err != nil {
return err
}
st.Handle(m.payload, m)
return nil
}
// Reset the machine.
func (m *Machine[T]) Reset() {
pl := m.initialPayload
m.payload = &pl
m.state = m.initialState
}
func (m *Machine[T]) loadState(id StateID, payload *T) (IState[T], error) {
if id == NilStateID {
return nil, nil
}
st, ok := m.states[id]
if !ok {
return nil, m.fatalError(fmt.Errorf("%w: %s", ErrStateDoesNotExist, id), id, payload)
}
return st, nil
}
func (m *Machine[T]) fatalError(err error, id StateID, payload *T) error {
if m.errHandler != nil {
m.errHandler.Handle(err, m.state, id, payload, m)
}
return nil
}

71
internal/fsm/state.go Normal file
View File

@ -0,0 +1,71 @@
package fsm
// StateID is a state identifier. Machine with string state IDs can have *a lot of* states.
type StateID string
// NilStateID is a noop state. Machine won't do anything for this transition.
const NilStateID = StateID("")
// MachineControls is a fragment of IMachine implementation. This one can Move between the states or Reset the machine.
// It may fail with an error which should be handled by the IState implementation.
type MachineControls[T any] interface {
Move(StateID, T) error
Reset()
}
// IState is a State interface. This contract enforces that any state implementation should have three methods:
// Enter, Handle and Exit. The first one is called right after the machine has moved to the state, the second one is
// called when handling some state input, the last one is called right before leaving to a next state (which happens
// if Handle has called Move on MachineControls.
type IState[T any] interface {
// ID should return state identifier.
ID() StateID
// Enter is a state enter callback. Can be used to perform some sort of input query or to move to another
// state immediately. Also, if Enter fails the machine won't move to the state and MachineControls's Move will
// return an error which was returned from Enter.
Enter(*T, MachineControls[*T]) error
// Handle is called when receiving some sort of input response. This one's signature is nearly identical to Enter,
// but it can wait for some sort of input (standard input? webhook) without locking inside the callback
// while Enter cannot do that.
Handle(*T, MachineControls[*T])
// Exit is called right before leaving the state. It can be used to modify state's payload (T) or for some other
// miscellaneous tasks.
// Note: calling Exit doesn't mean that the machine will really transition to the next state.
// The next state's Enter callback can return an error which will reset the Machine to default state & payload.
Exit(*T)
}
// ErrorState is the Machine's fatal error handler which you should implement yourself.
//
// Error state is used by Machine in case of a fatal error (for example, for invalid state ID).
// You can use ErrorState to make some kind of fatal error response like "Internal error has occurred"
// or something similar. Also, ErrorState is special because neither Enter nor Exit exists in it.
//
// Machine without ErrorState will not do anything in case of fatal errors.
type ErrorState[T any] interface {
Handle(err error, current StateID, next StateID, payload *T, machine MachineControls[*T])
}
// State is the Machine's state. This implementation doesn't do anything and only helps with the
// actual IState implementation (you don't need to write empty Enter and Exit callback if you don't use them).
type State[T any] struct {
Payload *T
}
// ID panics because you need to implement it.
func (s *State[T]) ID() StateID {
panic("implement ID() StateID method for your state")
}
// Enter here will immediately move the Machine to empty state.
func (s *State[T]) Enter(payload *T, machine MachineControls[*T]) error {
return machine.Move(NilStateID, payload)
}
// Handle here will immediately move the Machine to empty state.
func (s *State[T]) Handle(payload *T, machine MachineControls[*T]) {
_ = machine.Move(NilStateID, payload)
}
// Exit won't do anything.
func (s *State[T]) Exit(*T) {}

View File

@ -0,0 +1,48 @@
package wizard
import (
"gitea.neur0tx.site/Neur0toxine/vegapokerbot/internal/fsm"
"gitea.neur0tx.site/Neur0toxine/vegapokerbot/internal/handler/iface"
"gitea.neur0tx.site/Neur0toxine/vegapokerbot/internal/locale"
"github.com/mymmrac/telego"
"strings"
)
type Wizard struct {
UserID int64
ChatID int64
Data telego.Update
}
type State struct {
fsm.State[Wizard]
App iface.App
}
func newBase(app iface.App) State {
return State{App: app}
}
func (s State) Localizer(lang string) locale.Localizer {
lang = strings.ToLower(lang)
if len(lang) > 2 {
lang = lang[:2]
}
switch lang {
case "en", "ru":
return s.App.Localizer(lang)
default:
return s.App.Localizer("en")
}
}
func (s State) LogError(err error) {
if err == nil {
return
}
if s.App.Conf().Debug {
s.App.Log().Errorf("handler error: %s, payload: %#v", err, s.Payload)
return
}
s.App.Log().Errorf("handler error: %s, user id: %d, chat id: %d", err, s.Payload.UserID, s.Payload.ChatID)
}

View File

@ -0,0 +1,21 @@
package wizard
import (
"gitea.neur0tx.site/Neur0toxine/vegapokerbot/internal/fsm"
"go.uber.org/zap"
)
type ErrorState struct {
fsm.ErrorState[Wizard]
log *zap.SugaredLogger
}
func NewErrorState(log *zap.SugaredLogger) *ErrorState {
return &ErrorState{log: log}
}
func (s *ErrorState) Handle(err error, cur fsm.StateID, next fsm.StateID, pl *Wizard, mc fsm.MachineControls[*Wizard]) {
s.log.Errorf("critical wizard error: %s, current state: %s, next state: %s, payload: %#v",
err, cur, next, pl)
mc.Reset()
}

View File

@ -0,0 +1,31 @@
package wizard
import (
"gitea.neur0tx.site/Neur0toxine/vegapokerbot/internal/fsm"
"gitea.neur0tx.site/Neur0toxine/vegapokerbot/internal/handler/iface"
"github.com/mymmrac/telego"
tu "github.com/mymmrac/telego/telegoutil"
)
type HelpState struct {
State
}
func NewHelpState(app iface.App) fsm.IState[Wizard] {
return &HelpState{newBase(app)}
}
func (s *HelpState) Enter(pl *Wizard, _ fsm.MachineControls[*Wizard]) error {
_, err := s.App.TG().SendMessage(&telego.SendMessageParams{
ChatID: tu.ID(pl.Data.Message.Chat.ID),
Text: s.Localizer(pl.Data.Message.From.LanguageCode).
Template("help_output", map[string]interface{}{"Name": s.App.TGProfile().Username}),
ParseMode: telego.ModeMarkdown,
})
s.LogError(err)
return fsm.ErrPreventTransition
}
func (s *HelpState) ID() fsm.StateID {
return "help"
}

View File

@ -0,0 +1,48 @@
package wizard
import (
"gitea.neur0tx.site/Neur0toxine/vegapokerbot/internal/fsm"
"gitea.neur0tx.site/Neur0toxine/vegapokerbot/internal/handler/iface"
"github.com/maypok86/otter"
"time"
)
var (
wizards otter.Cache[int64, fsm.IMachine[Wizard]]
states []fsm.IState[Wizard]
errorState *ErrorState
)
func init() {
storage, err := otter.MustBuilder[int64, fsm.IMachine[Wizard]](1000).
Cost(func(key int64, value fsm.IMachine[Wizard]) uint32 {
return 1
}).
WithTTL(time.Hour * 24 * 7).
Build()
if err != nil {
panic(err)
}
wizards = storage
}
func Get(chatID int64) fsm.IMachine[Wizard] {
if machine, ok := wizards.Get(chatID); ok {
return machine
}
machine := newWizard()
wizards.Set(chatID, machine)
return machine
}
func newWizard() fsm.IMachine[Wizard] {
return fsm.New[Wizard](states[0].ID(), Wizard{}, states, errorState)
}
func PopulateStates(app iface.App) {
states = []fsm.IState[Wizard]{
NewRegisterState(app),
NewHelpState(app),
}
errorState = NewErrorState(app.Log())
}

View File

@ -0,0 +1,76 @@
package wizard
import (
"gitea.neur0tx.site/Neur0toxine/vegapokerbot/internal/db/model"
"gitea.neur0tx.site/Neur0toxine/vegapokerbot/internal/fsm"
"gitea.neur0tx.site/Neur0toxine/vegapokerbot/internal/handler/iface"
"github.com/mymmrac/telego"
tu "github.com/mymmrac/telego/telegoutil"
)
type RegisterState struct {
State
}
func NewRegisterState(app iface.App) fsm.IState[Wizard] {
return &RegisterState{newBase(app)}
}
func (s *RegisterState) Handle(pl *Wizard, _ fsm.MachineControls[*Wizard]) {
loc := s.Localizer(pl.Data.Message.From.LanguageCode)
userRepo := s.App.DB().ForUser()
user, err := userRepo.ByTelegramID(pl.Data.Message.From.ID)
if err != nil {
return
}
if user != nil && user.ID > 0 {
var shouldUpdate bool
if user.ChatID != pl.Data.Message.Chat.ID {
user.ChatID = pl.Data.Message.Chat.ID
shouldUpdate = true
}
if user.Language != pl.Data.Message.From.LanguageCode {
user.Language = pl.Data.Message.From.LanguageCode
shouldUpdate = true
}
if shouldUpdate {
_ = userRepo.Save(user)
}
_, err := s.App.TG().SendMessage(&telego.SendMessageParams{
ChatID: tu.ID(pl.Data.Message.Chat.ID),
Text: loc.Message("welcome"),
ParseMode: telego.ModeMarkdown,
})
s.LogError(err)
return
}
err = userRepo.Save(&model.User{
TelegramID: pl.Data.Message.From.ID,
ChatID: pl.Data.Message.Chat.ID,
Language: pl.Data.Message.From.LanguageCode,
})
if err != nil {
s.LogError(err)
_, err = s.App.TG().SendMessage(&telego.SendMessageParams{
ChatID: tu.ID(pl.Data.Message.Chat.ID),
Text: loc.Message("internal_error"),
ParseMode: telego.ModeMarkdown,
})
s.LogError(err)
return
}
_, err = s.App.TG().SendMessage(&telego.SendMessageParams{
ChatID: tu.ID(pl.Data.Message.Chat.ID),
Text: loc.Message("welcome"),
ParseMode: telego.ModeMarkdown,
})
s.LogError(err)
return
}
func (s *RegisterState) ID() fsm.StateID {
return "register"
}