Files
3x-ui/internal/web/service/tgbot/tgbot_report.go
T
Sanaei 41645255f1 refactor: focused service files, leaf subpackages, and an internal/ layout (#5167)
* refactor(service): split client.go into focused files

client.go had grown to 4455 lines mixing ~10 responsibilities. Split it
verbatim into cohesive same-package files (no behavior change):

  client.go            foundation: ClientService, ClientWithAttachments,
                       ClientCreatePayload, ErrClientNotInInbound, sqlInChunk
  client_locks.go      inbound mutation locks, delete tombstones, compactOrphans
  client_lookup.go     read-only lookups (GetByID, List, EffectiveFlow, ...)
  client_link.go       inbound association sync (SyncInbound, DetachInbound, ...)
  client_crud.go       single-client CRUD + validation + protocol defaults
  client_inbound_apply.go  low-level inbound-settings mutators + by-email setters
  client_bulk.go       bulk attach/detach/adjust/delete/create + DelDepleted
  client_traffic.go    traffic-reset paths
  client_groups.go     client group management
  client_paging.go     paged listing, filtering, sorting, summary

Every declaration moved unchanged (verified: identical func/type/const/var
signature set before vs after). Imports redistributed per file via goimports.
go build ./..., go vet, and go test ./web/service/... all pass.

* refactor(service): split inbound.go into focused files

inbound.go was 4100 lines. Split it verbatim into cohesive same-package
files (no behavior change):

  inbound.go             core inbound CRUD + InboundService (keeps pkg doc)
  inbound_protocol.go    protocol / stream capability helpers
  inbound_node.go        node/runtime/remote coordination + online tracking
  inbound_traffic.go     traffic accounting, reset, client stats
  inbound_client_ips.go  per-client IP tracking
  inbound_clients.go     client lookups within inbounds + copy-clients
  inbound_disable.go     auto-disable invalid inbounds/clients
  inbound_migration.go   DB migrations
  inbound_sublink.go     subscription link providers
  inbound_util.go        generic slice/string helpers

Identical func/type/const/var signature set before vs after; package doc
comment preserved on inbound.go. Imports redistributed via goimports.
Build, vet, and go test ./web/service/... all pass.

* refactor(service): split tgbot.go into focused files

tgbot.go was 3738 lines dominated by a 1246-line answerCallback. Split it
verbatim into cohesive same-package files (no behavior change):

  tgbot.go           lifecycle, bot setup, caches, small utils
  tgbot_router.go    incoming update / command / callback dispatch
  tgbot_send.go      outbound messaging primitives
  tgbot_client.go    client views, actions, subscription links
  tgbot_inbound.go   inbound listing / pickers
  tgbot_report.go    server usage, exhausted, online, backups, notifications

Identical func/type/const/var signature set before vs after. Imports
redistributed via goimports. Build, vet, and go test ./web/service/... pass.

* refactor(client): dedupe single-field by-email setters

ResetClientIpLimitByEmail, ResetClientExpiryTimeByEmail, and
ResetClientTrafficLimitByEmail shared an identical ~50-line body that
resolves the inbound by email, confirms the client exists, rewrites a
single-client settings payload, and delegates to UpdateInboundClient.

Extract that into applyClientFieldByEmail(inboundSvc, email, mutate) and
reduce each setter to a 3-line wrapper. Behavior is unchanged: same checks
and error strings, same single-client payload contract, same totalGB guard.

SetClientTelegramUserID (resolves by traffic id, different error text) and
ToggleClientEnableByEmail/SetClientEnableByEmail (different return shape and
a pre-read of the old state) intentionally keep their own bodies.

* refactor(service): extract panel/ subpackage

Move the panel-administration leaf services out of the flat service
package into web/service/panel/ (package panel):

  user.go         UserService (auth / 2FA / LDAP)
  panel.go        PanelService (restart / self-update) + version helpers
  panel_other.go  non-unix RestartPanel
  panel_unix.go   unix RestartPanel
  api_token.go    ApiTokenService
  websocket.go    WebSocketService
  panel_test.go   version/shellQuote unit tests

These are leaves: they depend on core (SettingService, Release) but no
core file references them, so the extraction creates no import cycle.
Core references are now qualified (service.SettingService, service.Release);
callers in main.go, web/web.go, and web/controller/* updated to panel.*.
Build, vet, and go test ./web/... pass.

* refactor(service): extract integration/ subpackage

Move the external-provider integration leaves into web/service/integration/
(package integration):

  warp.go        WarpService (Cloudflare WARP)
  nord.go        NordService (NordVPN)
  custom_geo.go  CustomGeoService (custom geo asset management)
  *_test.go      custom_geo / panel-proxy tests

These depend on core (SettingService, ServerService, XraySettingService) but
no core file references them. xray_setting.go stays in core because it calls
the unexported SettingService.saveSetting. The shared isBlockedIP SSRF helper
(used by core url_safety.go and by custom_geo) now has a small copy in each
package rather than being exported. Core references qualified; callers in
web/web.go, web/job/*, and web/controller/* updated to integration.*.
Build, vet, and go test ./web/... pass.

* refactor(service): extract tgbot/ subpackage

Move the Telegram bot (6 files + test) into web/service/tgbot/ (package
tgbot). It is a leaf: it embeds five core services (Inbound/Client/Setting/
Server/Xray) and the core never references it, so no import cycle.

To support the package boundary without changing behavior:
  - core exposes XrayProcess() *xray.Process so tgbot keeps calling the
    exact same running-process methods it used via the package-level `p`;
  - three core methods tgbot calls are exported: ClientService.checkIs-
    EnabledByEmail -> CheckIsEnabledByEmail, InboundService.getAllEmails ->
    GetAllEmails (callers updated in-package);
  - tgbot's embedded-field types and the few core type refs (Status,
    ClientCreatePayload, SanitizePublicHTTPURL) are now service-qualified.

Callers in main.go, web/web.go, web/job/*, and web/controller/* updated to
tgbot.*. Build, vet, and go test ./web/... pass.

* refactor(service): extract outbound/ subpackage

OutboundService (outbound.go) imports only neutral packages (config,
database, model, xray) and its production code is referenced by no core or
sibling service file — only by web/controller/xray_setting.go and
web/job/xray_traffic_job.go. Move it to web/service/outbound/ (package
outbound); no core qualification needed inside. Callers updated to outbound.*.

The one coupling was a tiny pure test helper, outboundsContainTag, used by
both outbound.go and the core outbound_subscription_test.go; it now has a
small copy in that test file rather than being shared across the boundary.
Build, vet, and go test ./web/... pass.

* refactor(util): move wireguard into its own subpackage

util/wireguard.go was the lone file of the root `util` package (24 lines,
one exported func GenerateWireguardKeypair), while every other util concern
lives in a focused subpackage (util/common, util/crypto, util/netsafe, ...).
Move it to util/wireguard/ (package wireguard) for consistency; its only
importer, web/service/integration/warp.go, is updated. The root `util`
package no longer exists.

* refactor(sub): drop redundant sub prefix from filenames

Inside package sub the subXxx.go prefix just repeats the package name
(like client_*.go did inside service). Rename for consistency; content and
type names are unchanged:

  subController.go    -> controller.go
  subService.go       -> service.go
  subClashService.go  -> clash_service.go
  subJsonService.go   -> json_service.go
  (+ matching _test.go files)

* refactor(controller): rename xui.go -> spa.go

XUIController serves the panel's single-page-app shell; spa.go names that
role plainly (the other controller files are domain-named). File rename only
— the type stays XUIController. api_docs_test.go keys route base paths by
filename, so its "xui.go" case is updated to "spa.go".

* refactor: move backend packages under internal/

Adopt the idiomatic Go application layout: the backend packages now live
under internal/ (a boundary the toolchain enforces), signalling private
implementation instead of a library-style flat root. No runtime behavior
changes — only import paths and a few build/config paths move.

Moved: config, database, logger, mtproto, sub, util, web, xray -> internal/.
main.go stays at the repo root and tools/openapigen stays under tools/ (both
still import internal/* because the internal rule keys off the module root).
The module path github.com/mhsanaei/3x-ui/v3 is unchanged; 149 .go files had
their import prefix rewritten to .../internal/<pkg>.

Couplings the Go compiler can't see, updated to the new layout:
  - frontend i18n imports of web/translation (react.ts, setup.components.ts)
  - vite outDir + eslint/tsconfig ignore globs -> internal/web/dist
  - Dockerfile COPY paths for web/dist and web/translation
  - locale.go os.DirFS("web") disk fallback -> "internal/web"
  - .gitignore and ci.yml go:embed stub for internal/web/dist
  - api_docs_test.go repo-root relative walk (one level deeper)
  - tools/openapigen filesystem package paths; ApiTokenView repointed to the
    web/service/panel subpackage and codegen regenerated (clears a stale
    type the ci.yml codegen check was failing on)

Verified: go build/vet/test (all packages), and frontend typecheck, lint,
vitest (478 tests), and production build into internal/web/dist.

* fix(config): keep test runs from writing logs into the source tree

GetLogFolder() returns a CWD-relative "./log" on Windows. Under `go test`
the working directory is each package's own folder, so InitLogger (called by
tests in web/job, web/service, xray, web/websocket) created stray log/
directories scattered through the source tree (e.g. internal/web/job/log/).

Redirect to a shared temp folder when testing.Testing() reports a test run.
Production behavior is unchanged: Windows still uses ./log next to the binary
and Linux /var/log/x-ui. The log files were always gitignored (*.log) and
never committed; this just stops the noise at the source.

* docs: move subscription-template guide out of root into docs/

sub_templates/ was a top-level folder holding only a README and no actual
templates (3x-ui ships none by design), referenced nowhere and unlinked from
any doc — it read like an empty placeholder cluttering the repo root.

Move the guide to docs/custom-subscription-templates.md (a proper docs home),
reword its intro to read as documentation rather than a folder note, link it
from the Features list in README.md, and drop the empty sub_templates/ folder.

* fix: update stale web/ path references after the internal/ move

The internal/ migration rewrote Go import paths but left some references to
the old top-level layout in docs, comments, and a few runtime disk paths.

Functional (dev-mode only): the disk-serving fallbacks that read the Vite
build from disk when running from source still pointed at web/dist/, which
moved to internal/web/dist/ — so `os.DirFS`/`os.Stat`/`os.ReadFile` in
internal/web/web.go and internal/sub/{sub,controller}.go are corrected.
Production was unaffected (it serves the embedded FS; verified by the Docker
build), but `go run` with a live frontend build silently fell back to embed.

Docs/comments: frontend/README.md, CONTRIBUTING.md, the claude-issue-bot and
release workflows, the openapigen -root help text, and assorted Go comments
now reference internal/web, internal/database, internal/sub, internal/xray,
etc. Package-name mentions (the "web" package), root paths (main.go,
frontend/, install scripts, /etc/x-ui), routes (/panel/api/xray), and the
historical "web/assets no longer exists" note were intentionally left as-is.

* refactor(web): remove the legacy /xui -> /panel redirect middleware

RedirectMiddleware existed only for backward compatibility with the old
`/xui` URL scheme (301-redirecting /xui and /xui/API to /panel and
/panel/api). That cutover was long ago, so drop the middleware, its
registration in initRouter, and the now-inaccurate "URL redirection"
mention in the middleware package doc. Old /xui URLs now 404 like any other
unknown path. HTTPS auto-redirect and auth redirects are unrelated and stay.

* build: fix .dockerignore for internal/ layout and exclude runtime dir

- web/dist -> internal/web/dist: the embedded frontend moved under internal/,
  so the stale exclude no longer matched and the locally-built dist could be
  sent to the build context (the frontend stage rebuilds it fresh anyway).
- exclude x-ui/: the local runtime directory (SQLite db, geo .dat files, xray
  binaries, certs — ~150MB) was being shipped into the build context for no
  reason. Verified the pattern excludes only the directory and still keeps
  x-ui.sh, which the Dockerfile copies to /usr/bin/x-ui.
2026-06-10 15:19:22 +02:00

494 lines
17 KiB
Go

package tgbot
import (
"context"
"fmt"
"net"
"os"
"strconv"
"strings"
"time"
"github.com/mhsanaei/3x-ui/v3/internal/config"
"github.com/mhsanaei/3x-ui/v3/internal/database"
"github.com/mhsanaei/3x-ui/v3/internal/database/model"
"github.com/mhsanaei/3x-ui/v3/internal/logger"
"github.com/mhsanaei/3x-ui/v3/internal/util/common"
"github.com/mhsanaei/3x-ui/v3/internal/web/service"
"github.com/mhsanaei/3x-ui/v3/internal/xray"
"github.com/mymmrac/telego"
tu "github.com/mymmrac/telego/telegoutil"
)
// SendReport sends a periodic report to admin chats.
func (t *Tgbot) SendReport() {
runTime, err := t.settingService.GetTgbotRuntime()
if err == nil && len(runTime) > 0 {
msg := ""
msg += t.I18nBot("tgbot.messages.report", "RunTime=="+runTime)
msg += t.I18nBot("tgbot.messages.datetime", "DateTime=="+time.Now().Format("2006-01-02 15:04:05"))
t.SendMsgToTgbotAdmins(msg)
}
info := t.sendServerUsage()
t.SendMsgToTgbotAdmins(info)
t.sendExhaustedToAdmins()
t.notifyExhausted()
backupEnable, err := t.settingService.GetTgBotBackup()
if err == nil && backupEnable {
t.SendBackupToAdmins()
}
}
// SendBackupToAdmins sends a database backup to admin chats.
func (t *Tgbot) SendBackupToAdmins() {
if !t.IsRunning() {
return
}
for i, adminId := range adminIds {
t.sendBackup(int64(adminId))
// Add delay between sends to avoid Telegram rate limits
if i < len(adminIds)-1 {
time.Sleep(1 * time.Second)
}
}
}
// sendExhaustedToAdmins sends notifications about exhausted clients to admins.
func (t *Tgbot) sendExhaustedToAdmins() {
if !t.IsRunning() {
return
}
for _, adminId := range adminIds {
t.getExhausted(int64(adminId))
}
}
// getServerUsage retrieves and formats server usage information.
func (t *Tgbot) getServerUsage(chatId int64, messageID ...int) string {
info := t.prepareServerUsageInfo()
keyboard := tu.InlineKeyboard(tu.InlineKeyboardRow(
tu.InlineKeyboardButton(t.I18nBot("tgbot.buttons.refresh")).WithCallbackData(t.encodeQuery("usage_refresh"))))
if len(messageID) > 0 {
t.editMessageTgBot(chatId, messageID[0], info, keyboard)
} else {
t.SendMsgToTgbot(chatId, info, keyboard)
}
return info
}
// Send server usage without an inline keyboard
func (t *Tgbot) sendServerUsage() string {
info := t.prepareServerUsageInfo()
return info
}
// prepareServerUsageInfo prepares the server usage information string.
func (t *Tgbot) prepareServerUsageInfo() string {
// Check if we have cached data first
if cachedStats, found := t.getCachedServerStats(); found {
return cachedStats
}
info, ipv4, ipv6 := "", "", ""
// get latest status of server with caching
if cachedStatus, found := t.getCachedStatus(); found {
t.lastStatus = cachedStatus
} else {
t.lastStatus = t.serverService.GetStatus(t.lastStatus)
t.setCachedStatus(t.lastStatus)
}
onlines := service.XrayProcess().GetOnlineClients()
info += t.I18nBot("tgbot.messages.hostname", "Hostname=="+hostname)
info += t.I18nBot("tgbot.messages.version", "Version=="+config.GetVersion())
info += t.I18nBot("tgbot.messages.xrayVersion", "XrayVersion=="+fmt.Sprint(t.lastStatus.Xray.Version))
// get ip address
netInterfaces, err := net.Interfaces()
if err != nil {
logger.Error("net.Interfaces failed, err: ", err.Error())
info += t.I18nBot("tgbot.messages.ip", "IP=="+t.I18nBot("tgbot.unknown"))
info += "\r\n"
} else {
for i := range netInterfaces {
if (netInterfaces[i].Flags & net.FlagUp) != 0 {
addrs, _ := netInterfaces[i].Addrs()
for _, address := range addrs {
if ipnet, ok := address.(*net.IPNet); ok && !ipnet.IP.IsLoopback() {
if ipnet.IP.To4() != nil {
ipv4 += ipnet.IP.String() + " "
} else if ipnet.IP.To16() != nil && !ipnet.IP.IsLinkLocalUnicast() {
ipv6 += ipnet.IP.String() + " "
}
}
}
}
}
info += t.I18nBot("tgbot.messages.ipv4", "IPv4=="+ipv4)
info += t.I18nBot("tgbot.messages.ipv6", "IPv6=="+ipv6)
}
info += t.I18nBot("tgbot.messages.serverUpTime", "UpTime=="+strconv.FormatUint(t.lastStatus.Uptime/86400, 10), "Unit=="+t.I18nBot("tgbot.days"))
info += t.I18nBot("tgbot.messages.serverLoad", "Load1=="+strconv.FormatFloat(t.lastStatus.Loads[0], 'f', 2, 64), "Load2=="+strconv.FormatFloat(t.lastStatus.Loads[1], 'f', 2, 64), "Load3=="+strconv.FormatFloat(t.lastStatus.Loads[2], 'f', 2, 64))
info += t.I18nBot("tgbot.messages.serverMemory", "Current=="+common.FormatTraffic(int64(t.lastStatus.Mem.Current)), "Total=="+common.FormatTraffic(int64(t.lastStatus.Mem.Total)))
info += t.I18nBot("tgbot.messages.onlinesCount", "Count=="+fmt.Sprint(len(onlines)))
info += t.I18nBot("tgbot.messages.tcpCount", "Count=="+strconv.Itoa(t.lastStatus.TcpCount))
info += t.I18nBot("tgbot.messages.udpCount", "Count=="+strconv.Itoa(t.lastStatus.UdpCount))
info += t.I18nBot("tgbot.messages.traffic", "Total=="+common.FormatTraffic(int64(t.lastStatus.NetTraffic.Sent+t.lastStatus.NetTraffic.Recv)), "Upload=="+common.FormatTraffic(int64(t.lastStatus.NetTraffic.Sent)), "Download=="+common.FormatTraffic(int64(t.lastStatus.NetTraffic.Recv)))
info += t.I18nBot("tgbot.messages.xrayStatus", "State=="+fmt.Sprint(t.lastStatus.Xray.State))
// Cache the complete server stats
t.setCachedServerStats(info)
return info
}
// UserLoginNotify sends a notification about user login attempts to admins.
func (t *Tgbot) UserLoginNotify(attempt LoginAttempt) {
if !t.IsRunning() {
return
}
if attempt.Username == "" || attempt.IP == "" || attempt.Time == "" {
logger.Warning("UserLoginNotify failed, invalid info!")
return
}
loginNotifyEnabled, err := t.settingService.GetTgBotLoginNotify()
if err != nil || !loginNotifyEnabled {
return
}
msg := ""
switch attempt.Status {
case LoginSuccess:
msg += t.I18nBot("tgbot.messages.loginSuccess")
msg += t.I18nBot("tgbot.messages.hostname", "Hostname=="+hostname)
case LoginFail:
msg += t.I18nBot("tgbot.messages.loginFailed")
msg += t.I18nBot("tgbot.messages.hostname", "Hostname=="+hostname)
if attempt.Reason != "" {
msg += t.I18nBot("tgbot.messages.reason", "Reason=="+attempt.Reason)
}
}
msg += t.I18nBot("tgbot.messages.username", "Username=="+attempt.Username)
msg += t.I18nBot("tgbot.messages.ip", "IP=="+attempt.IP)
msg += t.I18nBot("tgbot.messages.time", "Time=="+attempt.Time)
go t.SendMsgToTgbotAdmins(msg)
}
// getExhausted retrieves and sends information about exhausted clients.
func (t *Tgbot) getExhausted(chatId int64) {
trDiff := int64(0)
exDiff := int64(0)
now := time.Now().Unix() * 1000
var exhaustedInbounds []model.Inbound
var exhaustedClients []xray.ClientTraffic
var disabledInbounds []model.Inbound
var disabledClients []xray.ClientTraffic
TrafficThreshold, err := t.settingService.GetTrafficDiff()
if err == nil && TrafficThreshold > 0 {
trDiff = int64(TrafficThreshold) * 1073741824
}
ExpireThreshold, err := t.settingService.GetExpireDiff()
if err == nil && ExpireThreshold > 0 {
exDiff = int64(ExpireThreshold) * 86400000
}
inbounds, err := t.inboundService.GetAllInbounds()
if err != nil {
logger.Warning("Unable to load Inbounds", err)
}
for _, inbound := range inbounds {
if inbound.Enable {
if (inbound.ExpiryTime > 0 && (inbound.ExpiryTime-now < exDiff)) ||
(inbound.Total > 0 && (inbound.Total-(inbound.Up+inbound.Down) < trDiff)) {
exhaustedInbounds = append(exhaustedInbounds, *inbound)
}
if len(inbound.ClientStats) > 0 {
for _, client := range inbound.ClientStats {
if client.Enable {
if (client.ExpiryTime > 0 && (client.ExpiryTime-now < exDiff)) ||
(client.Total > 0 && (client.Total-(client.Up+client.Down) < trDiff)) {
exhaustedClients = append(exhaustedClients, client)
}
} else {
disabledClients = append(disabledClients, client)
}
}
}
} else {
disabledInbounds = append(disabledInbounds, *inbound)
}
}
// Inbounds
output := ""
output += t.I18nBot("tgbot.messages.exhaustedCount", "Type=="+t.I18nBot("tgbot.inbounds"))
output += t.I18nBot("tgbot.messages.disabled", "Disabled=="+strconv.Itoa(len(disabledInbounds)))
output += t.I18nBot("tgbot.messages.depleteSoon", "Deplete=="+strconv.Itoa(len(exhaustedInbounds)))
if len(exhaustedInbounds) > 0 {
output += t.I18nBot("tgbot.messages.depleteSoon", "Deplete=="+t.I18nBot("tgbot.inbounds"))
for _, inbound := range exhaustedInbounds {
output += t.I18nBot("tgbot.messages.inbound", "Remark=="+inbound.Remark)
output += t.I18nBot("tgbot.messages.port", "Port=="+strconv.Itoa(inbound.Port))
output += t.I18nBot("tgbot.messages.traffic", "Total=="+common.FormatTraffic((inbound.Up+inbound.Down)), "Upload=="+common.FormatTraffic(inbound.Up), "Download=="+common.FormatTraffic(inbound.Down))
if inbound.ExpiryTime == 0 {
output += t.I18nBot("tgbot.messages.expire", "Time=="+t.I18nBot("tgbot.unlimited"))
} else {
output += t.I18nBot("tgbot.messages.expire", "Time=="+time.Unix((inbound.ExpiryTime/1000), 0).Format("2006-01-02 15:04:05"))
}
output += "\r\n"
}
}
// Clients
exhaustedCC := len(exhaustedClients)
output += t.I18nBot("tgbot.messages.exhaustedCount", "Type=="+t.I18nBot("tgbot.clients"))
output += t.I18nBot("tgbot.messages.disabled", "Disabled=="+strconv.Itoa(len(disabledClients)))
output += t.I18nBot("tgbot.messages.depleteSoon", "Deplete=="+strconv.Itoa(exhaustedCC))
if exhaustedCC > 0 {
output += t.I18nBot("tgbot.messages.depleteSoon", "Deplete=="+t.I18nBot("tgbot.clients"))
var buttons []telego.InlineKeyboardButton
for _, traffic := range exhaustedClients {
output += t.clientInfoMsg(&traffic, true, false, false, true, true, false)
output += "\r\n"
buttons = append(buttons, tu.InlineKeyboardButton(traffic.Email).WithCallbackData(t.encodeQuery("client_get_usage "+traffic.Email)))
}
cols := 0
if exhaustedCC < 11 {
cols = 1
} else {
cols = 2
}
output += t.I18nBot("tgbot.messages.refreshedOn", "Time=="+time.Now().Format("2006-01-02 15:04:05"))
keyboard := tu.InlineKeyboardGrid(tu.InlineKeyboardCols(cols, buttons...))
t.SendMsgToTgbot(chatId, output, keyboard)
} else {
output += t.I18nBot("tgbot.messages.refreshedOn", "Time=="+time.Now().Format("2006-01-02 15:04:05"))
t.SendMsgToTgbot(chatId, output)
}
}
// notifyExhausted sends notifications for exhausted clients.
func (t *Tgbot) notifyExhausted() {
trDiff := int64(0)
exDiff := int64(0)
now := time.Now().Unix() * 1000
TrafficThreshold, err := t.settingService.GetTrafficDiff()
if err == nil && TrafficThreshold > 0 {
trDiff = int64(TrafficThreshold) * 1073741824
}
ExpireThreshold, err := t.settingService.GetExpireDiff()
if err == nil && ExpireThreshold > 0 {
exDiff = int64(ExpireThreshold) * 86400000
}
inbounds, err := t.inboundService.GetAllInbounds()
if err != nil {
logger.Warning("Unable to load Inbounds", err)
}
var chatIDsDone []int64
for _, inbound := range inbounds {
if inbound.Enable {
if len(inbound.ClientStats) > 0 {
clients, err := t.inboundService.GetClients(inbound)
if err == nil {
for _, client := range clients {
if client.TgID != 0 {
chatID := client.TgID
if !int64Contains(chatIDsDone, chatID) && !checkAdmin(chatID) {
var disabledClients []xray.ClientTraffic
var exhaustedClients []xray.ClientTraffic
traffics, err := t.inboundService.GetClientTrafficTgBot(client.TgID)
if err == nil && len(traffics) > 0 {
var output strings.Builder
output.WriteString(t.I18nBot("tgbot.messages.exhaustedCount", "Type=="+t.I18nBot("tgbot.clients")))
for _, traffic := range traffics {
if traffic.Enable {
if (traffic.ExpiryTime > 0 && (traffic.ExpiryTime-now < exDiff)) ||
(traffic.Total > 0 && (traffic.Total-(traffic.Up+traffic.Down) < trDiff)) {
exhaustedClients = append(exhaustedClients, *traffic)
}
} else {
disabledClients = append(disabledClients, *traffic)
}
}
if len(exhaustedClients) > 0 {
output.WriteString(t.I18nBot("tgbot.messages.disabled", "Disabled=="+strconv.Itoa(len(disabledClients))))
if len(disabledClients) > 0 {
output.WriteString(t.I18nBot("tgbot.clients"))
output.WriteString(":\r\n")
for _, traffic := range disabledClients {
output.WriteString(" ")
output.WriteString(traffic.Email)
}
output.WriteString("\r\n")
}
output.WriteString("\r\n")
output.WriteString(t.I18nBot("tgbot.messages.depleteSoon", "Deplete=="+strconv.Itoa(len(exhaustedClients))))
for _, traffic := range exhaustedClients {
output.WriteString(t.clientInfoMsg(&traffic, true, false, false, true, true, false))
output.WriteString("\r\n")
}
t.SendMsgToTgbot(chatID, output.String())
}
chatIDsDone = append(chatIDsDone, chatID)
}
}
}
}
}
}
}
}
}
// onlineClients retrieves and sends information about online clients.
func (t *Tgbot) onlineClients(chatId int64, messageID ...int) {
if !service.XrayProcess().IsRunning() {
return
}
onlines := service.XrayProcess().GetOnlineClients()
onlinesCount := len(onlines)
output := t.I18nBot("tgbot.messages.onlinesCount", "Count=="+fmt.Sprint(onlinesCount))
keyboard := tu.InlineKeyboard(tu.InlineKeyboardRow(
tu.InlineKeyboardButton(t.I18nBot("tgbot.buttons.refresh")).WithCallbackData(t.encodeQuery("onlines_refresh"))))
if onlinesCount > 0 {
var buttons []telego.InlineKeyboardButton
for _, online := range onlines {
buttons = append(buttons, tu.InlineKeyboardButton(online).WithCallbackData(t.encodeQuery("client_get_usage "+online)))
}
cols := 0
if onlinesCount < 21 {
cols = 2
} else if onlinesCount < 61 {
cols = 3
} else {
cols = 4
}
keyboard.InlineKeyboard = append(keyboard.InlineKeyboard, tu.InlineKeyboardCols(cols, buttons...)...)
}
if len(messageID) > 0 {
t.editMessageTgBot(chatId, messageID[0], output, keyboard)
} else {
t.SendMsgToTgbot(chatId, output, keyboard)
}
}
// sendBackup sends a backup of the database and configuration files.
func (t *Tgbot) sendBackup(chatId int64) {
output := t.I18nBot("tgbot.messages.backupTime", "Time=="+time.Now().Format("2006-01-02 15:04:05"))
t.SendMsgToTgbot(chatId, output)
// Send database backup (SQLite file, or a pg_dump archive on PostgreSQL)
dbData, err := t.serverService.GetDb()
if err == nil {
dbFilename := "x-ui.db"
if database.IsPostgres() {
dbFilename = "x-ui.dump"
}
ctx, cancel := context.WithTimeout(context.Background(), 30*time.Second)
document := tu.Document(
tu.ID(chatId),
tu.FileFromBytes(dbData, dbFilename),
)
_, err = bot.SendDocument(ctx, document)
cancel()
if err != nil {
logger.Error("Error in uploading backup: ", err)
}
} else {
logger.Error("Error in getting db backup: ", err)
}
// Small delay between file sends
time.Sleep(500 * time.Millisecond)
// Send config.json backup
file, err := os.Open(xray.GetConfigPath())
if err == nil {
defer file.Close()
ctx, cancel := context.WithTimeout(context.Background(), 30*time.Second)
defer cancel()
document := tu.Document(
tu.ID(chatId),
tu.File(file),
)
_, err = bot.SendDocument(ctx, document)
if err != nil {
logger.Error("Error in uploading config.json: ", err)
}
} else {
logger.Error("Error in opening config.json file for backup: ", err)
}
}
// sendBanLogs sends the ban logs to the specified chat.
func (t *Tgbot) sendBanLogs(chatId int64, dt bool) {
if dt {
output := t.I18nBot("tgbot.messages.datetime", "DateTime=="+time.Now().Format("2006-01-02 15:04:05"))
t.SendMsgToTgbot(chatId, output)
}
file, err := os.Open(xray.GetIPLimitBannedPrevLogPath())
if err == nil {
// Check if the file is non-empty before attempting to upload
fileInfo, _ := file.Stat()
if fileInfo.Size() > 0 {
document := tu.Document(
tu.ID(chatId),
tu.File(file),
)
_, err = bot.SendDocument(context.Background(), document)
if err != nil {
logger.Error("Error in uploading IPLimitBannedPrevLog: ", err)
}
} else {
logger.Warning("IPLimitBannedPrevLog file is empty, not uploading.")
}
file.Close()
} else {
logger.Error("Error in opening IPLimitBannedPrevLog file for backup: ", err)
}
file, err = os.Open(xray.GetIPLimitBannedLogPath())
if err == nil {
// Check if the file is non-empty before attempting to upload
fileInfo, _ := file.Stat()
if fileInfo.Size() > 0 {
document := tu.Document(
tu.ID(chatId),
tu.File(file),
)
_, err = bot.SendDocument(context.Background(), document)
if err != nil {
logger.Error("Error in uploading IPLimitBannedLog: ", err)
}
} else {
logger.Warning("IPLimitBannedLog file is empty, not uploading.")
}
file.Close()
} else {
logger.Error("Error in opening IPLimitBannedLog file for backup: ", err)
}
}