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arikawa/bot/ctx_call.go

404 lines
9.6 KiB
Go

package bot
import (
"reflect"
"strings"
"github.com/diamondburned/arikawa/api"
"github.com/diamondburned/arikawa/discord"
"github.com/diamondburned/arikawa/gateway"
"github.com/pkg/errors"
)
// Break is a non-fatal error that could be returned from middlewares to stop
// the chain of execution.
var Break = errors.New("break middleware chain, non-fatal")
// filterEventType filters all commands and subcommands into a 2D slice,
// structured so that a Break would only exit out the nested slice.
func (ctx *Context) filterEventType(evT reflect.Type) (callers [][]caller) {
// Find the main context first.
callers = append(callers, ctx.eventCallers(evT))
for _, sub := range ctx.subcommands {
// Find subcommands second.
callers = append(callers, sub.eventCallers(evT))
}
return
}
func (ctx *Context) callCmd(ev interface{}) (bottomError error) {
evV := reflect.ValueOf(ev)
evT := evV.Type()
var callers [][]caller
// Hit the cache
t, ok := ctx.typeCache.Load(evT)
if ok {
callers = t.([][]caller)
} else {
callers = ctx.filterEventType(evT)
ctx.typeCache.Store(evT, callers)
}
for _, subcallers := range callers {
for _, c := range subcallers {
_, err := c.call(evV)
if err != nil {
// Only count as an error if it's not Break.
if err = errNoBreak(err); err != nil {
bottomError = err
}
// Break the caller loop only for this subcommand.
break
}
}
}
var msc *gateway.MessageCreateEvent
// We call the messages later, since we want MessageCreate middlewares to
// run as well.
switch {
case evT == typeMessageCreate:
msc = ev.(*gateway.MessageCreateEvent)
case evT == typeMessageUpdate && ctx.EditableCommands:
up := ev.(*gateway.MessageUpdateEvent)
// Message updates could have empty contents when only their embeds are
// filled. We don't need that here.
if up.Content == "" {
return nil
}
// Query the updated message.
m, err := ctx.Store.Message(up.ChannelID, up.ID)
if err != nil {
// It's probably safe to ignore this.
return nil
}
// Treat the message update as a message create event to avoid breaking
// changes.
msc = &gateway.MessageCreateEvent{Message: *m, Member: up.Member}
// Fill up member, if available.
if m.GuildID.IsValid() && up.Member == nil {
if mem, err := ctx.Store.Member(m.GuildID, m.Author.ID); err == nil {
msc.Member = mem
}
}
// Update the reflect value as well.
evV = reflect.ValueOf(msc)
default:
// Unknown event, return.
return nil
}
// There's no need for an errNoBreak here, as the method already checked
// for that.
return ctx.callMessageCreate(msc, evV)
}
func (ctx *Context) callMessageCreate(mc *gateway.MessageCreateEvent, value reflect.Value) error {
// check if bot
if !ctx.AllowBot && mc.Author.Bot {
return nil
}
// check if prefix
pf, ok := ctx.HasPrefix(mc)
if !ok {
return nil
}
// trim the prefix before splitting, this way multi-words prefixes work
content := mc.Content[len(pf):]
if content == "" {
return nil // just the prefix only
}
// parse arguments
parts, parseErr := ctx.ParseArgs(content)
// We're not checking parse errors yet, as raw arguments may be able to
// ignore it.
if len(parts) == 0 {
return parseErr
}
// Find the command and subcommand.
arguments, cmd, sub, err := ctx.findCommand(parts)
if err != nil {
return errNoBreak(err)
}
// We don't run the subcommand's middlewares here, as the callCmd function
// already handles that.
// Run command middlewares.
if err := cmd.walkMiddlewares(value); err != nil {
return errNoBreak(err)
}
// Start converting
var argv []reflect.Value
var argc int
// the last argument in the list, not used until set
var last Argument
// Here's an edge case: when the handler takes no arguments, we allow that
// anyway, as they might've used the raw content.
if len(cmd.Arguments) == 0 {
goto Call
}
// Argument count check.
if argdelta := len(arguments) - len(cmd.Arguments); argdelta != 0 {
var err error // no err if nil
// If the function is variadic, then we can allow the last argument to
// be empty.
if cmd.Variadic {
argdelta++
}
switch {
// If there aren't enough arguments given.
case argdelta < 0:
err = ErrNotEnoughArgs
// If there are too many arguments, then check if the command supports
// variadic arguments. We already did a length check above.
case argdelta > 0 && !cmd.Variadic:
// If it's not variadic, then we can't accept it.
err = ErrTooManyArgs
}
if err != nil {
return &ErrInvalidUsage{
Prefix: pf,
Args: parts,
Index: len(parts) - 1,
Wrap: err,
Ctx: cmd,
}
}
}
// The last argument in the arguments slice.
last = cmd.Arguments[len(cmd.Arguments)-1]
// Allocate a new slice the length of function arguments.
argc = len(cmd.Arguments) - 1 // arg len without last
argv = make([]reflect.Value, 0, argc) // could be 0
// Parse all arguments except for the last one.
for i := 0; i < argc; i++ {
v, err := cmd.Arguments[i].fn(arguments[0])
if err != nil {
return &ErrInvalidUsage{
Prefix: pf,
Args: parts,
Index: len(parts) - len(arguments) + i,
Wrap: err,
Ctx: cmd,
}
}
// Pop arguments.
arguments = arguments[1:]
argv = append(argv, v)
}
// Is this last argument actually a variadic slice? If yes, then it
// should still have fn normally.
if last.fn != nil {
// Allocate a new slice to append into.
vars := make([]reflect.Value, 0, len(arguments))
// Parse the rest with variadic arguments. Go's reflect states that
// variadic parameters will automatically be copied, which is good.
for i := 0; len(arguments) > 0; i++ {
v, err := last.fn(arguments[0])
if err != nil {
return &ErrInvalidUsage{
Prefix: pf,
Args: parts,
Index: len(parts) - len(arguments) + i,
Wrap: err,
Ctx: cmd,
}
}
arguments = arguments[1:]
vars = append(vars, v)
}
argv = append(argv, vars...)
} else {
// Create a zero value instance of this:
v := reflect.New(last.rtype)
var err error // return error
switch {
// If the argument wants all arguments:
case last.manual != nil:
// Call the manual parse method:
_, err = callWith(last.manual.Func, v, reflect.ValueOf(arguments))
// If the argument wants all arguments in string:
case last.custom != nil:
// Ignore parser errors. This allows custom commands sliced away to
// have erroneous hanging quotes.
parseErr = nil
// Manual string seeking is a must here. This is because the string
// could contain multiple whitespaces, and the parser would not
// count them.
var seekTo = cmd.Command
// We can't rely on the plumbing behavior.
if sub.plumbed != nil {
seekTo = sub.Command
}
// Seek to the string.
var i = strings.Index(content, seekTo)
// Edge case if the subcommand is the same as the command.
if cmd.Command == sub.Command {
// Seek again past the command.
i = strings.Index(content[i+len(seekTo):], seekTo)
}
if i > -1 {
// Seek past the substring.
i += len(seekTo)
content = strings.TrimSpace(content[i:])
}
// Call the method with the raw unparsed command:
_, err = callWith(last.custom.Func, v, reflect.ValueOf(content))
}
// Check the returned error:
if err != nil {
return err
}
// Check if the argument wants a non-pointer:
if last.pointer {
v = v.Elem()
}
// Add the argument into argv.
argv = append(argv, v)
}
// Check for parsing errors after parsing arguments.
if parseErr != nil {
return parseErr
}
Call:
// call the function and parse the error return value
v, err := cmd.call(value, argv...)
if err != nil {
return err
}
switch v := v.(type) {
case string:
v = sub.SanitizeMessage(v)
_, err = ctx.SendMessage(mc.ChannelID, v, nil)
case *discord.Embed:
_, err = ctx.SendMessage(mc.ChannelID, "", v)
case *api.SendMessageData:
if v.Content != "" {
v.Content = sub.SanitizeMessage(v.Content)
}
_, err = ctx.SendMessageComplex(mc.ChannelID, *v)
}
return err
}
// findCommand filters.
func (ctx *Context) findCommand(parts []string) ([]string, *MethodContext, *Subcommand, error) {
// Main command entrypoint cannot have plumb.
for _, c := range ctx.Commands {
if c.Command == parts[0] {
return parts[1:], c, ctx.Subcommand, nil
}
// Check for alias
for _, alias := range c.Aliases {
if alias == parts[0] {
return parts[1:], c, ctx.Subcommand, nil
}
}
}
// Can't find the command, look for subcommands if len(args) has a 2nd
// entry.
for _, s := range ctx.subcommands {
if s.Command != parts[0] {
continue
}
// Only actually plumb if we actually have a plumbed handler AND
// 1. We only have one command handler OR
// 2. We only have the subcommand name but no command.
if s.plumbed != nil && (len(s.Commands) == 1 || len(parts) <= 2) {
return parts[1:], s.plumbed, s, nil
}
if len(parts) >= 2 {
for _, c := range s.Commands {
if c.Command == parts[1] {
return parts[2:], c, s, nil
}
// Check for aliases
for _, alias := range c.Aliases {
if alias == parts[1] {
return parts[2:], c, s, nil
}
}
}
}
// If unknown command is disabled or the subcommand is hidden:
if ctx.SilentUnknown.Subcommand || s.Hidden {
return nil, nil, nil, Break
}
return nil, nil, nil, &ErrUnknownCommand{
Parts: parts,
Subcmd: s,
}
}
if ctx.SilentUnknown.Command {
return nil, nil, nil, Break
}
return nil, nil, nil, &ErrUnknownCommand{
Parts: parts,
Subcmd: ctx.Subcommand,
}
}
func errNoBreak(err error) error {
if errors.Is(err, Break) {
return nil
}
return err
}