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feat: add codex telegram bridge scripts

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This commit is contained in:
banteg
2025-12-28 20:06:28 +04:00
parent c913c52233
commit a2141856bc
7 changed files with 978 additions and 0 deletions
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codex/codex_telegram_bridge/bridge_common.py
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from __future__ import annotations
import json
import os
import sqlite3
import time
import urllib.error
import urllib.request
from dataclasses import dataclass
from typing import Any, Dict, Iterable, List, Optional, Tuple
TELEGRAM_HARD_LIMIT = 4096
DEFAULT_CHUNK_LEN = 3500 # leave room for formatting / safety
def _now_unix() -> int:
return int(time.time())
def chunk_text(text: str, limit: int = DEFAULT_CHUNK_LEN) -> List[str]:
"""
Telegram hard limit is 4096 chars. Chunk at newlines when possible.
"""
text = text or ""
if len(text) <= limit:
return [text]
out: List[str] = []
buf: List[str] = []
size = 0
for line in text.splitlines(keepends=True):
if len(line) > limit:
# flush current buffer
if buf:
out.append("".join(buf))
buf, size = [], 0
# hard-split this long line
for i in range(0, len(line), limit):
out.append(line[i : i + limit])
continue
if size + len(line) > limit:
out.append("".join(buf))
buf, size = [line], len(line)
else:
buf.append(line)
size += len(line)
if buf:
out.append("".join(buf))
return out
class TelegramClient:
"""
Minimal Telegram Bot API client using standard library (no requests dependency).
Env:
TELEGRAM_BOT_TOKEN
"""
def __init__(self, token: str, timeout_s: int = 120) -> None:
if not token:
raise ValueError("Telegram token is empty")
self._base = f"https://api.telegram.org/bot{token}"
self._timeout_s = timeout_s
def _call(self, method: str, params: Dict[str, Any]) -> Any:
url = f"{self._base}/{method}"
data = json.dumps(params).encode("utf-8")
req = urllib.request.Request(
url,
data=data,
headers={"Content-Type": "application/json"},
method="POST",
)
try:
with urllib.request.urlopen(req, timeout=self._timeout_s) as resp:
payload = json.loads(resp.read().decode("utf-8"))
except urllib.error.HTTPError as e:
body = e.read().decode("utf-8", errors="replace")
raise RuntimeError(f"Telegram HTTPError {e.code}: {body}") from e
except urllib.error.URLError as e:
raise RuntimeError(f"Telegram URLError: {e}") from e
if not payload.get("ok"):
raise RuntimeError(f"Telegram API error: {payload}")
return payload["result"]
def get_updates(
self,
offset: Optional[int],
timeout_s: int = 50,
allowed_updates: Optional[List[str]] = None,
) -> List[Dict[str, Any]]:
params: Dict[str, Any] = {"timeout": timeout_s}
if offset is not None:
params["offset"] = offset
if allowed_updates is not None:
params["allowed_updates"] = allowed_updates
return self._call("getUpdates", params)
def send_message(
self,
chat_id: int,
text: str,
reply_to_message_id: Optional[int] = None,
disable_notification: bool = False,
) -> Dict[str, Any]:
if len(text) > TELEGRAM_HARD_LIMIT:
raise ValueError("send_message received too-long text; chunk it first")
params: Dict[str, Any] = {
"chat_id": chat_id,
"text": text,
"disable_notification": disable_notification,
}
if reply_to_message_id is not None:
params["reply_to_message_id"] = reply_to_message_id
return self._call("sendMessage", params)
def send_message_chunked(
self,
chat_id: int,
text: str,
reply_to_message_id: Optional[int] = None,
disable_notification: bool = False,
chunk_len: int = DEFAULT_CHUNK_LEN,
) -> List[Dict[str, Any]]:
sent: List[Dict[str, Any]] = []
chunks = chunk_text(text, limit=chunk_len)
for i, c in enumerate(chunks):
msg = self.send_message(
chat_id=chat_id,
text=c,
reply_to_message_id=(reply_to_message_id if i == 0 else None),
disable_notification=disable_notification,
)
sent.append(msg)
return sent
@dataclass(frozen=True)
class Route:
route_type: str # "exec" | "mcp" | "tmux"
route_id: str # session_id / conversationId / tmux target
meta: Dict[str, Any]
class RouteStore:
"""
Stores mapping: (chat_id, bot_message_id) -> route
so Telegram replies can be routed.
"""
def __init__(self, path: str) -> None:
os.makedirs(os.path.dirname(path) or ".", exist_ok=True)
self._conn = sqlite3.connect(path, check_same_thread=False)
self._conn.execute("PRAGMA journal_mode=WAL;")
self._conn.execute(
"""
CREATE TABLE IF NOT EXISTS routes (
chat_id INTEGER NOT NULL,
bot_message_id INTEGER NOT NULL,
route_type TEXT NOT NULL,
route_id TEXT NOT NULL,
meta_json TEXT,
created_at INTEGER NOT NULL,
PRIMARY KEY (chat_id, bot_message_id)
);
"""
)
self._conn.execute(
"CREATE INDEX IF NOT EXISTS idx_routes_route_id ON routes(route_id);"
)
self._conn.commit()
def link(
self,
chat_id: int,
bot_message_id: int,
route_type: str,
route_id: str,
meta: Optional[Dict[str, Any]] = None,
) -> None:
meta_json = json.dumps(meta or {}, ensure_ascii=False)
self._conn.execute(
"""
INSERT OR REPLACE INTO routes(chat_id, bot_message_id, route_type, route_id, meta_json, created_at)
VALUES(?, ?, ?, ?, ?, ?)
""",
(chat_id, bot_message_id, route_type, route_id, meta_json, _now_unix()),
)
self._conn.commit()
def resolve(self, chat_id: int, bot_message_id: int) -> Optional[Route]:
cur = self._conn.execute(
"""
SELECT route_type, route_id, meta_json
FROM routes
WHERE chat_id = ? AND bot_message_id = ?
""",
(chat_id, bot_message_id),
)
row = cur.fetchone()
if not row:
return None
route_type, route_id, meta_json = row
try:
meta = json.loads(meta_json) if meta_json else {}
except json.JSONDecodeError:
meta = {}
return Route(route_type=route_type, route_id=route_id, meta=meta)
def close(self) -> None:
self._conn.close()
def parse_allowed_chat_ids(env_value: str) -> Optional[set[int]]:
"""
Parse ALLOWED_CHAT_IDS="123,456"
"""
v = (env_value or "").strip()
if not v:
return None
out: set[int] = set()
for part in v.split(","):
part = part.strip()
if not part:
continue
out.add(int(part))
return out
codex/codex_telegram_bridge/exec_bridge.py
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from __future__ import annotations
import json
import os
import shlex
import subprocess
import threading
import time
from concurrent.futures import ThreadPoolExecutor
from typing import Any, Dict, Optional, Tuple
from bridge_common import TelegramClient, RouteStore, parse_allowed_chat_ids
# -------------------- Codex runner --------------------
class CodexExecRunner:
"""
Runs Codex in non-interactive mode:
- new: codex exec --json ... -
- resume: codex exec --json ... resume <SESSION_ID> -
"""
def __init__(self, codex_cmd: str, workspace: Optional[str], extra_args: list[str]) -> None:
self.codex_cmd = codex_cmd
self.workspace = workspace
self.extra_args = extra_args
# per-session locks to prevent concurrent resumes to same session_id
self._locks: dict[str, threading.Lock] = {}
self._locks_guard = threading.Lock()
def _lock_for(self, session_id: str) -> threading.Lock:
with self._locks_guard:
if session_id not in self._locks:
self._locks[session_id] = threading.Lock()
return self._locks[session_id]
def run(self, prompt: str, session_id: Optional[str]) -> Tuple[str, str]:
"""
Returns (session_id, final_agent_message_text)
"""
args = [self.codex_cmd, "exec", "--json"]
args.extend(self.extra_args)
if self.workspace:
args.extend(["--cd", self.workspace])
# Always pipe prompt via stdin ("-") to avoid quoting issues.
if session_id:
args.extend(["resume", session_id, "-"])
else:
args.append("-")
# read both stdout+stderr without deadlock
proc = subprocess.Popen(
args,
stdin=subprocess.PIPE,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
text=True,
bufsize=1,
)
assert proc.stdin and proc.stdout and proc.stderr
# send prompt then close stdin
proc.stdin.write(prompt)
proc.stdin.close()
stderr_lines: list[str] = []
def _drain_stderr() -> None:
for line in proc.stderr:
stderr_lines.append(line)
t = threading.Thread(target=_drain_stderr, daemon=True)
t.start()
found_session: Optional[str] = session_id
last_agent_text: Optional[str] = None
for line in proc.stdout:
line = line.strip()
if not line:
continue
try:
evt = json.loads(line)
except json.JSONDecodeError:
continue
# From Codex JSONL event stream
if evt.get("type") == "thread.started":
found_session = evt.get("thread_id") or found_session
if evt.get("type") == "item.completed":
item = evt.get("item") or {}
if item.get("type") == "agent_message" and isinstance(item.get("text"), str):
last_agent_text = item["text"]
rc = proc.wait()
t.join(timeout=2.0)
if rc != 0:
tail = "".join(stderr_lines[-200:])
raise RuntimeError(f"codex exec failed (rc={rc}). stderr tail:\n{tail}")
if not found_session:
raise RuntimeError("codex exec finished but no session_id/thread_id was captured")
return found_session, (last_agent_text or "(No agent_message captured from JSON stream.)")
def run_serialized(self, prompt: str, session_id: Optional[str]) -> Tuple[str, str]:
"""
If resuming, serialize per-session.
"""
if not session_id:
return self.run(prompt, session_id=None)
lock = self._lock_for(session_id)
with lock:
return self.run(prompt, session_id=session_id)
# -------------------- Telegram loop --------------------
def main() -> None:
token = os.environ.get("TELEGRAM_BOT_TOKEN", "")
db_path = os.environ.get("BRIDGE_DB", "./bridge_routes.sqlite3")
allowed = parse_allowed_chat_ids(os.environ.get("ALLOWED_CHAT_IDS", ""))
codex_cmd = os.environ.get("CODEX_CMD", "codex")
workspace = os.environ.get("CODEX_WORKSPACE") # optional
extra_args = shlex.split(os.environ.get("CODEX_EXEC_ARGS", "")) # e.g. "--full-auto --search"
bot = TelegramClient(token)
store = RouteStore(db_path)
runner = CodexExecRunner(codex_cmd=codex_cmd, workspace=workspace, extra_args=extra_args)
pool = ThreadPoolExecutor(max_workers=int(os.environ.get("MAX_WORKERS", "4")))
offset: Optional[int] = None
print("Option1 bridge running (codex exec). Long-polling Telegram...")
def handle(chat_id: int, user_msg_id: int, text: str, resume_session: Optional[str]) -> None:
try:
session_id, answer = runner.run_serialized(text, resume_session)
sent_msgs = bot.send_message_chunked(
chat_id=chat_id,
text=answer,
reply_to_message_id=user_msg_id,
)
for m in sent_msgs:
store.link(chat_id, m["message_id"], "exec", session_id, meta={"workspace": workspace})
except Exception as e:
err = f"❌ Error:\n{e}"
sent_msgs = bot.send_message_chunked(chat_id=chat_id, text=err, reply_to_message_id=user_msg_id)
for m in sent_msgs:
store.link(chat_id, m["message_id"], "exec", resume_session or "unknown", meta={"error": True})
while True:
try:
updates = bot.get_updates(offset=offset, timeout_s=50, allowed_updates=["message"])
except Exception as e:
print(f"[telegram] get_updates error: {e}")
time.sleep(2.0)
continue
for upd in updates:
offset = upd["update_id"] + 1
msg = upd.get("message") or {}
if "text" not in msg:
continue
chat_id = msg["chat"]["id"]
if allowed is not None and int(chat_id) not in allowed:
continue
if msg.get("from", {}).get("is_bot"):
continue
text = msg["text"]
user_msg_id = msg["message_id"]
# If user replied to a bot message, route to that session
resume_session: Optional[str] = None
r = msg.get("reply_to_message")
if r and "message_id" in r:
route = store.resolve(chat_id, r["message_id"])
if route and route.route_type == "exec":
resume_session = route.route_id
pool.submit(handle, chat_id, user_msg_id, text, resume_session)
if __name__ == "__main__":
main()
codex/codex_telegram_bridge/mcp_bridge.py
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from __future__ import annotations
import json
import os
import shlex
import subprocess
import threading
import time
from queue import Queue, Empty
from typing import Any, Dict, List, Optional, Tuple
from bridge_common import TelegramClient, RouteStore, parse_allowed_chat_ids
MCP_PROTOCOL_VERSION = "2025-06-18"
def _deep_find_agent_text(obj: Any) -> Optional[str]:
"""
Heuristic: search nested dict/list for something like:
{"type":"agent_message","text":"..."}
"""
if isinstance(obj, dict):
if obj.get("type") == "agent_message" and isinstance(obj.get("text"), str):
return obj["text"]
for v in obj.values():
t = _deep_find_agent_text(v)
if t is not None:
return t
elif isinstance(obj, list):
for it in obj:
t = _deep_find_agent_text(it)
if t is not None:
return t
return None
def _extract_text_from_tool_result(result: Any) -> str:
"""
MCP tool results often look like: {"content":[{"type":"text","text":"..."}]}
"""
if not isinstance(result, dict):
return ""
content = result.get("content")
if not isinstance(content, list):
return ""
parts: List[str] = []
for c in content:
if isinstance(c, dict) and c.get("type") == "text" and isinstance(c.get("text"), str):
parts.append(c["text"])
return "\n".join(parts).strip()
class MCPStdioClient:
"""
Minimal MCP stdio JSON-RPC client:
- spawns subprocess (codex mcp-server)
- performs initialize + notifications/initialized
- supports tools/list + tools/call
"""
def __init__(self, cmd: List[str]) -> None:
self._proc = subprocess.Popen(
cmd,
stdin=subprocess.PIPE,
stdout=subprocess.PIPE,
stderr=subprocess.PIPE,
text=True,
bufsize=1,
)
assert self._proc.stdin and self._proc.stdout and self._proc.stderr
self._inbox: "Queue[Dict[str, Any]]" = Queue()
self._next_id = 1
self._lock = threading.Lock()
self._stderr_tail: List[str] = []
self._reader = threading.Thread(target=self._read_stdout, daemon=True)
self._reader.start()
self._stderr_reader = threading.Thread(target=self._read_stderr, daemon=True)
self._stderr_reader.start()
self._initialize()
def _read_stdout(self) -> None:
for line in self._proc.stdout: # type: ignore[union-attr]
line = line.strip()
if not line:
continue
try:
msg = json.loads(line)
except json.JSONDecodeError:
continue
if isinstance(msg, dict):
self._inbox.put(msg)
def _read_stderr(self) -> None:
for line in self._proc.stderr: # type: ignore[union-attr]
self._stderr_tail.append(line)
# keep last ~300 lines
if len(self._stderr_tail) > 300:
self._stderr_tail = self._stderr_tail[-300:]
def _send(self, msg: Dict[str, Any]) -> None:
raw = json.dumps(msg, ensure_ascii=False)
self._proc.stdin.write(raw + "\n") # type: ignore[union-attr]
self._proc.stdin.flush() # type: ignore[union-attr]
def _request(self, method: str, params: Optional[Dict[str, Any]], timeout_s: int = 600) -> Any:
"""
Send one request and wait for response.
Sequential-only (guarded by self._lock).
"""
with self._lock:
req_id = self._next_id
self._next_id += 1
msg: Dict[str, Any] = {"jsonrpc": "2.0", "id": req_id, "method": method}
if params is not None:
msg["params"] = params
self._send(msg)
deadline = time.monotonic() + timeout_s
while True:
remaining = deadline - time.monotonic()
if remaining <= 0:
raise TimeoutError(f"MCP request timed out: {method}")
try:
incoming = self._inbox.get(timeout=min(1.0, remaining))
except Empty:
# also check process
if self._proc.poll() is not None:
tail = "".join(self._stderr_tail)
raise RuntimeError(f"MCP server exited unexpectedly. stderr tail:\n{tail}")
continue
if incoming.get("id") == req_id:
if "error" in incoming:
raise RuntimeError(f"MCP error response: {incoming['error']}")
return incoming.get("result")
# ignore other messages here (we run sequential requests)
# (notifications are handled by call_tool_collecting_events)
def _notify(self, method: str, params: Optional[Dict[str, Any]] = None) -> None:
msg: Dict[str, Any] = {"jsonrpc": "2.0", "method": method}
if params is not None:
msg["params"] = params
self._send(msg)
def _initialize(self) -> None:
# MCP lifecycle: initialize then notifications/initialized.
init_params = {
"protocolVersion": MCP_PROTOCOL_VERSION,
"capabilities": {},
"clientInfo": {"name": "telegram-codex-bridge", "version": "0.1.0"},
}
self._request("initialize", init_params, timeout_s=30)
# send initialized notification
self._notify("notifications/initialized")
return
def tools_list(self) -> Any:
return self._request("tools/list", {}, timeout_s=30)
def call_tool_collecting_events(
self,
tool_name: str,
arguments: Dict[str, Any],
timeout_s: int = 600,
) -> Tuple[Optional[str], str]:
"""
Calls tools/call and collects notifications during the call.
Returns (session_id, best_text_answer)
"""
with self._lock:
req_id = self._next_id
self._next_id += 1
msg = {
"jsonrpc": "2.0",
"id": req_id,
"method": "tools/call",
"params": {"name": tool_name, "arguments": arguments},
}
self._send(msg)
deadline = time.monotonic() + timeout_s
session_id: Optional[str] = None
last_agent_text: Optional[str] = None
final_result: Optional[Any] = None
while True:
remaining = deadline - time.monotonic()
if remaining <= 0:
raise TimeoutError(f"tools/call timed out: {tool_name}")
try:
incoming = self._inbox.get(timeout=min(1.0, remaining))
except Empty:
if self._proc.poll() is not None:
tail = "".join(self._stderr_tail)
raise RuntimeError(f"MCP server exited unexpectedly. stderr tail:\n{tail}")
continue
# Notifications (no id) can stream progress/events
if "method" in incoming and "id" not in incoming:
if incoming.get("method") == "codex/event":
params = incoming.get("params") or {}
if isinstance(params, dict):
# Workaround: session_id can arrive in notification
sid = params.get("session_id")
if isinstance(sid, str) and sid:
session_id = sid
# Try to extract agent message text from event payload heuristically
t = _deep_find_agent_text(params)
if t:
last_agent_text = t
continue
# Response for our request
if incoming.get("id") == req_id:
if "error" in incoming:
raise RuntimeError(f"MCP tools/call error: {incoming['error']}")
final_result = incoming.get("result")
break
# Ignore other responses (we do sequential calls)
# Prefer last streamed agent message, else result.content text
if last_agent_text:
return session_id, last_agent_text
text_from_result = _extract_text_from_tool_result(final_result)
return session_id, (text_from_result or "(No agent_message found; tool result had no text.)")
def close(self) -> None:
try:
self._proc.terminate()
except Exception:
pass
def main() -> None:
token = os.environ.get("TELEGRAM_BOT_TOKEN", "")
db_path = os.environ.get("BRIDGE_DB", "./bridge_routes.sqlite3")
allowed = parse_allowed_chat_ids(os.environ.get("ALLOWED_CHAT_IDS", ""))
# How to start Codex MCP server:
# default: "codex mcp-server" (can also be "npx -y codex mcp-server")
mcp_cmd = shlex.split(os.environ.get("CODEX_MCP_CMD", "codex mcp-server"))
# Optional defaults for tool args (you can override as you like)
default_cwd = os.environ.get("CODEX_WORKSPACE") # used as tool 'cwd'
default_sandbox = os.environ.get("CODEX_SANDBOX", "workspace-write")
default_approval = os.environ.get("CODEX_APPROVAL_POLICY", "never")
bot = TelegramClient(token)
store = RouteStore(db_path)
print(f"Starting MCP server: {mcp_cmd}")
mcp = MCPStdioClient(mcp_cmd)
# Optional: verify tools exist
try:
mcp.tools_list()
# Not strictly required; but helpful for debugging
print("tools/list ok")
except Exception as e:
print(f"tools/list failed: {e}")
offset: Optional[int] = None
print("Option2 bridge running (codex mcp-server). Long-polling Telegram...")
# Single worker queue so we never overlap tools/call
work_q: "Queue[Tuple[int, int, str, Optional[str]]]" = Queue()
def worker() -> None:
while True:
chat_id, user_msg_id, prompt, conversation_id = work_q.get()
try:
if conversation_id:
args = {"conversationId": conversation_id, "prompt": prompt}
sid, answer = mcp.call_tool_collecting_events("codex-reply", args, timeout_s=600)
# sid may be None on replies; keep conversation_id
sid = sid or conversation_id
else:
args = {
"prompt": prompt,
"cwd": default_cwd,
"sandbox": default_sandbox,
"approval-policy": default_approval,
}
sid, answer = mcp.call_tool_collecting_events("codex", args, timeout_s=600)
if not sid:
# Worst-case fallback (still let user see output)
sid = "unknown-session"
sent_msgs = bot.send_message_chunked(chat_id=chat_id, text=answer, reply_to_message_id=user_msg_id)
for m in sent_msgs:
store.link(chat_id, m["message_id"], "mcp", sid, meta={"cwd": default_cwd})
except Exception as e:
err = f"❌ Error:\n{e}"
sent_msgs = bot.send_message_chunked(chat_id=chat_id, text=err, reply_to_message_id=user_msg_id)
for m in sent_msgs:
store.link(chat_id, m["message_id"], "mcp", conversation_id or "unknown", meta={"error": True})
finally:
work_q.task_done()
threading.Thread(target=worker, daemon=True).start()
while True:
try:
updates = bot.get_updates(offset=offset, timeout_s=50, allowed_updates=["message"])
except Exception as e:
print(f"[telegram] get_updates error: {e}")
time.sleep(2.0)
continue
for upd in updates:
offset = upd["update_id"] + 1
msg = upd.get("message") or {}
if "text" not in msg:
continue
chat_id = msg["chat"]["id"]
if allowed is not None and int(chat_id) not in allowed:
continue
if msg.get("from", {}).get("is_bot"):
continue
prompt = msg["text"]
user_msg_id = msg["message_id"]
conversation_id: Optional[str] = None
r = msg.get("reply_to_message")
if r and "message_id" in r:
route = store.resolve(chat_id, r["message_id"])
if route and route.route_type == "mcp":
conversation_id = route.route_id
work_q.put((chat_id, user_msg_id, prompt, conversation_id))
if __name__ == "__main__":
main()
codex/codex_telegram_bridge/readme.md
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# Telegram Codex Bridge (Codex)
Route Telegram replies back into Codex sessions. Includes three options:
1. Non-interactive `codex exec` + `codex exec resume`.
2. `codex mcp-server` with MCP stdio JSON-RPC.
3. tmux injection for interactive Codex sessions.
All options store a mapping from `(chat_id, bot_message_id)` to a route so replies can be routed correctly.
## Install
1. Ensure `uv` is installed.
2. Use the scripts in this folder as-is (no extra dependencies).
3. Set `TELEGRAM_BOT_TOKEN` and (optionally) `ALLOWED_CHAT_IDS`.
## Option 1: exec/resume
Run:
```bash
export TELEGRAM_BOT_TOKEN="123:abc"
export BRIDGE_DB="./bridge_routes.sqlite3"
export CODEX_CMD="codex"
export CODEX_WORKSPACE="/path/to/repo"
export CODEX_EXEC_ARGS="--full-auto"
uv run exec_bridge.py
```
## Option 2: MCP server
Run:
```bash
export TELEGRAM_BOT_TOKEN="123:abc"
export BRIDGE_DB="./bridge_routes.sqlite3"
export CODEX_MCP_CMD="codex mcp-server"
export CODEX_WORKSPACE="/path/to/repo"
export CODEX_SANDBOX="workspace-write"
export CODEX_APPROVAL_POLICY="never"
uv run mcp_bridge.py
```
## Option 3: tmux
Reply injector:
```bash
export TELEGRAM_BOT_TOKEN="123:abc"
export BRIDGE_DB="./bridge_routes.sqlite3"
export ALLOWED_CHAT_IDS="123456789"
uv run tmux_reply_bot.py
```
Notifier (call from your existing hook):
```bash
uv run tmux_notify.py --chat-id "$CHAT_ID" --tmux-target "codex1:0.0" --text "$TURN_TEXT"
```
## Files
- `bridge_common.py`: shared Telegram client, chunking, and routing store
- `exec_bridge.py`: codex exec + resume bridge
- `mcp_bridge.py`: MCP stdio JSON-RPC bridge
- `tmux_notify.py`: tmux notifier helper
- `tmux_reply_bot.py`: tmux reply injector
codex/codex_telegram_bridge/tmux_notify.py
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from __future__ import annotations
import argparse
import os
import sys
from typing import Optional
from bridge_common import TelegramClient, RouteStore
def main() -> None:
ap = argparse.ArgumentParser()
ap.add_argument("--chat-id", type=int, required=True)
ap.add_argument("--tmux-target", type=str, required=True, help='tmux target, e.g. "codex1:0.0" or "codex1"')
ap.add_argument("--db", type=str, default=os.environ.get("BRIDGE_DB", "./bridge_routes.sqlite3"))
ap.add_argument("--reply-to", type=int, default=None, help="Optional Telegram message_id to reply to")
ap.add_argument("--text", type=str, default=None, help="Message text. If omitted, read stdin.")
args = ap.parse_args()
token = os.environ.get("TELEGRAM_BOT_TOKEN", "")
bot = TelegramClient(token)
store = RouteStore(args.db)
text = args.text
if text is None:
text = sys.stdin.read()
sent = bot.send_message_chunked(
chat_id=args.chat_id,
text=text,
reply_to_message_id=args.reply_to,
)
# Store mapping for every chunk so user can reply to any chunk.
for m in sent:
store.link(args.chat_id, m["message_id"], "tmux", args.tmux_target, meta={})
if __name__ == "__main__":
main()
codex/codex_telegram_bridge/tmux_reply_bot.py
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from __future__ import annotations
import os
import subprocess
import time
from typing import Optional
from bridge_common import TelegramClient, RouteStore, parse_allowed_chat_ids
def tmux_send_text(target: str, text: str, press_enter: bool = True) -> None:
"""
Send text to tmux target pane/session.
If your Telegram messages include newlines, we replace them with literal '\n'
to avoid accidentally submitting early.
"""
safe = (text or "").replace("\r\n", "\n").replace("\r", "\n").replace("\n", "\\n")
subprocess.check_call(["tmux", "send-keys", "-t", target, "-l", safe])
if press_enter:
subprocess.check_call(["tmux", "send-keys", "-t", target, "Enter"])
def main() -> None:
token = os.environ.get("TELEGRAM_BOT_TOKEN", "")
db_path = os.environ.get("BRIDGE_DB", "./bridge_routes.sqlite3")
allowed = parse_allowed_chat_ids(os.environ.get("ALLOWED_CHAT_IDS", ""))
bot = TelegramClient(token)
store = RouteStore(db_path)
offset: Optional[int] = None
print("Option3 reply bot running (tmux injector). Long-polling Telegram...")
while True:
try:
updates = bot.get_updates(offset=offset, timeout_s=50, allowed_updates=["message"])
except Exception as e:
print(f"[telegram] get_updates error: {e}")
time.sleep(2.0)
continue
for upd in updates:
offset = upd["update_id"] + 1
msg = upd.get("message") or {}
if "text" not in msg:
continue
chat_id = msg["chat"]["id"]
if allowed is not None and int(chat_id) not in allowed:
continue
if msg.get("from", {}).get("is_bot"):
continue
text = msg["text"]
user_msg_id = msg["message_id"]
r = msg.get("reply_to_message")
if not (r and "message_id" in r):
# In tmux mode we only route replies (no reply => ignore or treat as new session)
bot.send_message(
chat_id=chat_id,
text="Reply to a Codex message (from the bot) so I know which tmux session to send this to.",
reply_to_message_id=user_msg_id,
)
continue
route = store.resolve(chat_id, r["message_id"])
if not route or route.route_type != "tmux":
bot.send_message(
chat_id=chat_id,
text="I don't know which tmux session this reply belongs to (no routing record found).",
reply_to_message_id=user_msg_id,
)
continue
tmux_target = route.route_id
try:
tmux_send_text(tmux_target, text, press_enter=True)
bot.send_message(
chat_id=chat_id,
text=f"✅ Sent to tmux target: {tmux_target}",
reply_to_message_id=user_msg_id,
)
except Exception as e:
bot.send_message(
chat_id=chat_id,
text=f"❌ Failed to send to tmux ({tmux_target}): {e}",
reply_to_message_id=user_msg_id,
)
if __name__ == "__main__":
main()