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ergo/irc/responsebuffer.go

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// Copyright (c) 2016-2017 Daniel Oaks <daniel@danieloaks.net>
// released under the MIT license
package irc
import (
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"runtime/debug"
"time"
"github.com/goshuirc/irc-go/ircmsg"
"github.com/oragono/oragono/irc/caps"
"github.com/oragono/oragono/irc/utils"
)
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const (
// https://ircv3.net/specs/extensions/labeled-response.html
defaultBatchType = "draft/labeled-response"
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)
// ResponseBuffer - put simply - buffers messages and then outputs them to a given client.
//
// Using a ResponseBuffer lets you really easily implement labeled-response, since the
// buffer will silently create a batch if required and label the outgoing messages as
// necessary (or leave it off and simply tag the outgoing message).
type ResponseBuffer struct {
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Label string // label if this is a labeled response batch
batchID string // ID of the labeled response batch, if one has been initiated
batchType string // type of the labeled response batch (possibly `history` or `chathistory`)
// stack of batch IDs of nested batches, which are handled separately
// from the underlying labeled-response batch. starting a new nested batch
// unconditionally enqueues its batch start message; subsequent messages
// are tagged with the nested batch ID, until nested batch end.
// (the nested batch start itself may have no batch tag, or the batch tag of the
// underlying labeled-response batch, or the batch tag of the next outermost
// nested batch.)
nestedBatches []string
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messages []ircmsg.IrcMessage
finalized bool
target *Client
session *Session
}
// GetLabel returns the label from the given message.
func GetLabel(msg ircmsg.IrcMessage) string {
_, value := msg.GetTag(caps.LabelTagName)
return value
}
// NewResponseBuffer returns a new ResponseBuffer.
func NewResponseBuffer(session *Session) *ResponseBuffer {
return &ResponseBuffer{
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session: session,
target: session.client,
batchType: defaultBatchType,
}
}
func (rb *ResponseBuffer) AddMessage(msg ircmsg.IrcMessage) {
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if rb.finalized {
rb.target.server.logger.Error("internal", "message added to finalized ResponseBuffer, undefined behavior")
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debug.PrintStack()
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// TODO(dan): send a NOTICE to the end user with a string representation of the message,
// for debugging purposes
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return
}
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rb.session.setTimeTag(&msg, time.Time{})
rb.setNestedBatchTag(&msg)
rb.messages = append(rb.messages, msg)
}
func (rb *ResponseBuffer) setNestedBatchTag(msg *ircmsg.IrcMessage) {
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if 0 < len(rb.nestedBatches) {
msg.SetTag("batch", rb.nestedBatches[len(rb.nestedBatches)-1])
}
}
// Add adds a standard new message to our queue.
func (rb *ResponseBuffer) Add(tags map[string]string, prefix string, command string, params ...string) {
rb.AddMessage(ircmsg.MakeMessage(tags, prefix, command, params...))
}
// Broadcast adds a standard new message to our queue, then sends an unlabeled copy
// to all other sessions.
func (rb *ResponseBuffer) Broadcast(tags map[string]string, prefix string, command string, params ...string) {
// can't reuse the IrcMessage object because of tag pollution :-\
rb.Add(tags, prefix, command, params...)
for _, session := range rb.session.client.Sessions() {
if session != rb.session {
session.Send(tags, prefix, command, params...)
}
}
}
// AddFromClient adds a new message from a specific client to our queue.
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func (rb *ResponseBuffer) AddFromClient(time time.Time, msgid string, fromNickMask string, fromAccount string, tags map[string]string, command string, params ...string) {
msg := ircmsg.MakeMessage(nil, fromNickMask, command, params...)
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if rb.session.capabilities.Has(caps.MessageTags) {
msg.UpdateTags(tags)
}
// attach account-tag
if rb.session.capabilities.Has(caps.AccountTag) && fromAccount != "*" {
msg.SetTag("account", fromAccount)
}
// attach message-id
if len(msgid) > 0 && rb.session.capabilities.Has(caps.MessageTags) {
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msg.SetTag("msgid", msgid)
}
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// attach server-time
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rb.session.setTimeTag(&msg, time)
rb.AddMessage(msg)
}
// AddSplitMessageFromClient adds a new split message from a specific client to our queue.
func (rb *ResponseBuffer) AddSplitMessageFromClient(fromNickMask string, fromAccount string, tags map[string]string, command string, target string, message utils.SplitMessage) {
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if message.Is512() {
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rb.AddFromClient(message.Time, message.Msgid, fromNickMask, fromAccount, tags, command, target, message.Message)
} else {
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if message.IsMultiline() && rb.session.capabilities.Has(caps.Multiline) {
batch := rb.session.composeMultilineBatch(fromNickMask, fromAccount, tags, command, target, message)
rb.setNestedBatchTag(&batch[0])
rb.setNestedBatchTag(&batch[len(batch)-1])
rb.messages = append(rb.messages, batch...)
} else {
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for i, messagePair := range message.Split {
var msgid string
if i == 0 {
msgid = message.Msgid
}
rb.AddFromClient(message.Time, msgid, fromNickMask, fromAccount, tags, command, target, messagePair.Message)
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}
}
}
}
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func (rb *ResponseBuffer) sendBatchStart(blocking bool) {
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if rb.batchID != "" {
// batch already initialized
return
}
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rb.batchID = rb.session.generateBatchID()
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message := ircmsg.MakeMessage(nil, rb.target.server.name, "BATCH", "+"+rb.batchID, rb.batchType)
if rb.Label != "" {
message.SetTag(caps.LabelTagName, rb.Label)
}
rb.session.SendRawMessage(message, blocking)
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}
func (rb *ResponseBuffer) sendBatchEnd(blocking bool) {
if rb.batchID == "" {
// we are not sending a batch, skip this
return
}
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message := ircmsg.MakeMessage(nil, rb.target.server.name, "BATCH", "-"+rb.batchID)
rb.session.SendRawMessage(message, blocking)
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}
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// Starts a nested batch (see the ResponseBuffer struct definition for a description of
// how this works)
func (rb *ResponseBuffer) StartNestedBatch(batchType string, params ...string) (batchID string) {
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batchID = rb.session.generateBatchID()
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msgParams := make([]string, len(params)+2)
msgParams[0] = "+" + batchID
msgParams[1] = batchType
copy(msgParams[2:], params)
rb.AddMessage(ircmsg.MakeMessage(nil, rb.target.server.name, "BATCH", msgParams...))
rb.nestedBatches = append(rb.nestedBatches, batchID)
return
}
// Ends a nested batch
func (rb *ResponseBuffer) EndNestedBatch(batchID string) {
if batchID == "" {
return
}
if 0 == len(rb.nestedBatches) || rb.nestedBatches[len(rb.nestedBatches)-1] != batchID {
rb.target.server.logger.Error("internal", "inconsistent batch nesting detected")
debug.PrintStack()
return
}
rb.nestedBatches = rb.nestedBatches[0 : len(rb.nestedBatches)-1]
rb.AddMessage(ircmsg.MakeMessage(nil, rb.target.server.name, "BATCH", "-"+batchID))
}
// Convenience to start a nested batch for history lines, at the highest level
// supported by the client (`history`, `chathistory`, or no batch, in descending order).
func (rb *ResponseBuffer) StartNestedHistoryBatch(params ...string) (batchID string) {
var batchType string
if rb.session.capabilities.Has(caps.EventPlayback) {
batchType = "history"
} else if rb.session.capabilities.Has(caps.Batch) {
batchType = "chathistory"
}
if batchType != "" {
batchID = rb.StartNestedBatch(batchType, params...)
}
return
}
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// Send sends all messages in the buffer to the client.
// Afterwards, the buffer is in an undefined state and MUST NOT be used further.
// If `blocking` is true you MUST be sending to the client from its own goroutine.
func (rb *ResponseBuffer) Send(blocking bool) error {
return rb.flushInternal(true, blocking)
}
// Flush sends all messages in the buffer to the client.
// Afterwards, the buffer can still be used. Client code MUST subsequently call Send()
// to ensure that the final `BATCH -` message is sent.
// If `blocking` is true you MUST be sending to the client from its own goroutine.
func (rb *ResponseBuffer) Flush(blocking bool) error {
return rb.flushInternal(false, blocking)
}
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// detects whether the response buffer consists of a single, unflushed nested batch,
// in which case it can be collapsed down to that batch
func (rb *ResponseBuffer) isCollapsible() (result bool) {
// rb.batchID indicates that we already flushed some lines
if rb.batchID != "" || len(rb.messages) < 2 {
return false
}
first, last := rb.messages[0], rb.messages[len(rb.messages)-1]
if first.Command != "BATCH" || last.Command != "BATCH" {
return false
}
if len(first.Params) == 0 || len(first.Params[0]) == 0 || len(last.Params) == 0 || len(last.Params[0]) == 0 {
return false
}
return first.Params[0][1:] == last.Params[0][1:]
}
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// flushInternal sends the contents of the buffer, either blocking or nonblocking
// It sends the `BATCH +` message if the client supports it and it hasn't been sent already.
// If `final` is true, it also sends `BATCH -` (if necessary).
func (rb *ResponseBuffer) flushInternal(final bool, blocking bool) error {
if rb.finalized {
return nil
}
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if rb.session.capabilities.Has(caps.LabeledResponse) && rb.Label != "" {
if final && rb.isCollapsible() {
// collapse to the outermost nested batch
rb.messages[0].SetTag(caps.LabelTagName, rb.Label)
} else if !final || 2 <= len(rb.messages) {
// we either have 2+ messages, or we are doing a Flush() and have to assume
// there will be more messages in the future
rb.sendBatchStart(blocking)
} else if len(rb.messages) == 1 && rb.batchID == "" {
// single labeled message
rb.messages[0].SetTag(caps.LabelTagName, rb.Label)
} else if len(rb.messages) == 0 && rb.batchID == "" {
// ACK message
message := ircmsg.MakeMessage(nil, rb.session.client.server.name, "ACK")
message.SetTag(caps.LabelTagName, rb.Label)
rb.session.setTimeTag(&message, time.Time{})
rb.session.SendRawMessage(message, blocking)
}
}
// send each message out
for _, message := range rb.messages {
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// attach batch ID, unless this message was part of a nested batch and is
// already tagged
if rb.batchID != "" && !message.HasTag("batch") {
message.SetTag("batch", rb.batchID)
}
// send message out
rb.session.SendRawMessage(message, blocking)
}
// end batch if required
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if final {
rb.sendBatchEnd(blocking)
rb.finalized = true
}
// clear out any existing messages
rb.messages = rb.messages[:0]
return nil
}
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// Notice sends the client the given notice from the server.
func (rb *ResponseBuffer) Notice(text string) {
rb.Add(nil, rb.target.server.name, "NOTICE", rb.target.nick, text)
}