ricochet-go/cli/conversation.go

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package main
import (
"errors"
"fmt"
"github.com/ricochet-im/ricochet-go/rpc"
"golang.org/x/net/context"
"log"
"time"
)
const (
maxMessageTextLength = 2000
// Number of messages before the first unread message shown when
// opening a conversation
backlogContextNum = 3
// Maximum number of messages to keep in the backlog. Unread messages
// will never be discarded to keep this limit, and at least
// backlogContextNum messages are kept before the first unread message.
backlogSoftLimit = 100
// Hard limit for the maximum numer of messages to keep in the backlog
backlogHardLimit = 200
)
type Conversation struct {
Client *Client
Contact *Contact
messages []*ricochet.Message
numUnread int
active bool
}
// Send an outbound message to the contact and add that message into the
// conversation backlog. Blocking API call.
func (c *Conversation) SendMessage(text string) error {
msg, err := c.Client.Backend.SendMessage(context.Background(), &ricochet.Message{
Sender: &ricochet.Entity{IsSelf: true},
Recipient: &ricochet.Entity{
ContactId: c.Contact.Data.Id,
Address: c.Contact.Data.Address,
},
Text: text,
})
if err != nil {
fmt.Fprintf(Ui.Stdout, "send message error: %v\n", err)
return err
}
if err := c.validateMessage(msg); err != nil {
log.Printf("Conversation sent message does not validate: %v", err)
}
return nil
}
// Add a message to the conversation. The message can be inbound or
// outbound. This is called for message events from the backend, and should
// not be used when sending messages. If 'populating' is true, this message
// is part of the initial sync of the history from the backend.
func (c *Conversation) AddMessage(msg *ricochet.Message, populating bool) {
if err := c.validateMessage(msg); err != nil {
log.Printf("Rejected conversation message: %v", err)
return
}
c.messages = append(c.messages, msg)
if msg.Status == ricochet.Message_UNREAD {
c.numUnread++
}
c.trimBacklog()
if !populating {
c.printMessage(msg)
if c.active {
c.MarkAsReadBefore(msg)
}
}
}
func (c *Conversation) UpdateMessage(updatedMsg *ricochet.Message) {
if err := c.validateMessage(updatedMsg); err != nil {
log.Printf("Rejected conversation message update: %v", err)
return
}
for i := len(c.messages) - 1; i >= 0; i-- {
msg := c.messages[i]
if msg.Sender.IsSelf != updatedMsg.Sender.IsSelf ||
msg.Identifier != updatedMsg.Identifier {
continue
}
if msg.Status == ricochet.Message_UNREAD &&
updatedMsg.Status != ricochet.Message_UNREAD {
c.numUnread--
}
c.messages[i] = updatedMsg
return
}
log.Printf("Ignoring message update for unknown message: %v", updatedMsg)
}
// XXX
func (c *Conversation) AddStatusMessage(text string, backlog bool) {
}
// Mark all unread messages in this conversation as read on the backend.
func (c *Conversation) MarkAsRead() error {
// Get the identifier of the last received message
var lastRecvMsg *ricochet.Message
findMessageId:
for i := len(c.messages) - 1; i >= 0; i-- {
switch c.messages[i].Status {
case ricochet.Message_UNREAD:
lastRecvMsg = c.messages[i]
break findMessageId
case ricochet.Message_READ:
break findMessageId
}
}
if lastRecvMsg != nil {
return c.MarkAsReadBefore(lastRecvMsg)
}
return nil
}
func (c *Conversation) MarkAsReadBefore(message *ricochet.Message) error {
if err := c.validateMessage(message); err != nil {
return err
} else if message.Sender.IsSelf {
return errors.New("Outbound messages cannot be marked as read")
}
// XXX This probably means it's impossible to mark messages as read
// if the sender uses 0 identifiers. We really should not use actual
// protocol identifiers in RPC API.
_, err := c.Client.Backend.MarkConversationRead(context.Background(),
&ricochet.MarkConversationReadRequest{
Entity: message.Sender,
LastRecvIdentifier: message.Identifier,
})
if err != nil {
log.Printf("Mark conversation read failed: %v", err)
}
return err
}
func (c *Conversation) PrintContext() {
// Print starting from backlogContextNum messages before the first unread
start := len(c.messages) - backlogContextNum
for i, message := range c.messages {
if message.Status == ricochet.Message_UNREAD {
start = i - backlogContextNum
break
}
}
if start < 0 {
start = 0
}
for i := start; i < len(c.messages); i++ {
c.printMessage(c.messages[i])
}
}
func (c *Conversation) trimBacklog() {
if len(c.messages) > backlogHardLimit {
c.messages = c.messages[len(c.messages)-backlogHardLimit:]
c.recountUnread()
}
if len(c.messages) <= backlogSoftLimit {
return
}
// Find the index of the oldest unread message
var keepIndex int
for i, message := range c.messages {
if message.Status == ricochet.Message_UNREAD {
// Keep backlogContextNum messages before the first unread one
keepIndex = i - backlogContextNum
if keepIndex < 0 {
keepIndex = 0
}
break
} else if len(c.messages)-i <= backlogSoftLimit {
// Remove all messages before this one to reduce to the limit
keepIndex = i
break
}
}
c.messages = c.messages[keepIndex:]
}
// Validate that a message object is well-formed, sane, and belongs
// to this conversation.
func (c *Conversation) validateMessage(msg *ricochet.Message) error {
if msg.Sender == nil || msg.Recipient == nil {
return fmt.Errorf("Message entities are incomplete: %v %v", msg.Sender, msg.Recipient)
}
var localEntity *ricochet.Entity
var remoteEntity *ricochet.Entity
if msg.Sender.IsSelf {
localEntity = msg.Sender
remoteEntity = msg.Recipient
} else {
localEntity = msg.Recipient
remoteEntity = msg.Sender
}
if !localEntity.IsSelf || localEntity.ContactId != 0 ||
(len(localEntity.Address) > 0 && localEntity.Address != c.Client.Identity.Address) {
return fmt.Errorf("Invalid self entity on message: %v", localEntity)
}
if remoteEntity.IsSelf || remoteEntity.ContactId != c.Contact.Data.Id ||
remoteEntity.Address != c.Contact.Data.Address {
return fmt.Errorf("Invalid remote entity on message: %v", remoteEntity)
}
// XXX timestamp
// XXX identifier
if msg.Status == ricochet.Message_NULL {
return fmt.Errorf("Message has null status: %v", msg)
}
// XXX more sanity checks on message text?
if len(msg.Text) == 0 || len(msg.Text) > maxMessageTextLength {
return errors.New("Message text is unacceptable")
}
return nil
}
func (c *Conversation) printMessage(msg *ricochet.Message) {
if !c.active {
messages := fmt.Sprintf("%d new message", c.numUnread)
if c.numUnread > 1 {
messages += "s"
}
fmt.Fprintf(Ui.Stdout, "\r\x1b[31m[[ \x1b[1;34m%s\x1b[0m from \x1b[1m%s\x1b[0m (\x1b[1m%d\x1b[0m) \x1b[31m]]\x1b[39m\n", messages, c.Contact.Data.Nickname, c.Contact.Data.Id)
return
}
// XXX actual timestamp
ts := "\x1b[90m" + time.Now().Format("15:04") + "\x1b[39m"
var direction string
if msg.Sender.IsSelf {
direction = "\x1b[34m<<\x1b[39m"
} else {
direction = "\x1b[31m>>\x1b[39m"
}
// XXX shell escaping
fmt.Fprintf(Ui.Stdout, "%s | %s %s %s\n",
ts,
c.Contact.Data.Nickname,
direction,
msg.Text)
}
func (c *Conversation) UnreadCount() int {
return c.numUnread
}
func (c *Conversation) recountUnread() {
c.numUnread = 0
for _, msg := range c.messages {
if msg.Status == ricochet.Message_UNREAD {
c.numUnread++
}
}
}
func (c *Conversation) SetActive(active bool) {
if active == c.active {
return
}
c.active = active
if active {
c.PrintContext()
c.MarkAsRead()
}
}