Gitead/DentalManagementMH04
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity
Files
74f930b69a5df8983bc25a61ceac8de0f376cbdd
DentalManagementMH04/apps/SeleniumServiceold/helpers_ddma_eligibility.py

302 lines
13 KiB
Python
Executable File
Raw Blame History

import os
import time
import asyncio
from typing import Dict, Any
from selenium.webdriver.common.by import By
from selenium.webdriver.support.ui import WebDriverWait
from selenium.webdriver.support import expected_conditions as EC
from selenium.common.exceptions import WebDriverException, TimeoutException
from selenium_DDMA_eligibilityCheckWorker import AutomationDeltaDentalMAEligibilityCheck
# In-memory session store
sessions: Dict[str, Dict[str, Any]] = {}
SESSION_OTP_TIMEOUT = int(os.getenv("SESSION_OTP_TIMEOUT", "120")) # seconds
def make_session_entry() -> str:
"""Create a new session entry and return its ID."""
import uuid
sid = str(uuid.uuid4())
sessions[sid] = {
"status": "created", # created → running → waiting_for_otp → completed / error
"created_at": time.time(),
"last_activity": time.time(),
"bot": None, # AutomationDeltaDentalMAEligibilityCheck instance
"driver": None, # selenium webdriver
"otp_event": asyncio.Event(),
"otp_value": None, # OTP submitted from the app
"result": None,
"message": None,
"type": None,
}
return sid
async def cleanup_session(sid: str, message: str | None = None):
"""
Wake any OTP waiter, set final state, and remove the session entry.
Safe to call multiple times (idempotent).
NOTE: Does NOT quit the browser driver — the persistent browser stays alive.
"""
s = sessions.get(sid)
if not s:
return
try:
if s.get("status") not in ("completed", "error", "not_found"):
s["status"] = "error"
if message:
s["message"] = message
ev = s.get("otp_event")
if ev and not ev.is_set():
ev.set()
finally:
sessions.pop(sid, None)
print(f"[helpers_ddma] cleaned session {sid}")
async def _remove_session_later(sid: str, delay: int = 20):
await asyncio.sleep(delay)
await cleanup_session(sid)
async def start_ddma_run(sid: str, data: dict, url: str):
"""
Run the full DDMA eligibility workflow for one session.
Called by agent.py inside a wrapper that manages the semaphore/counters.
OTP handling uses two complementary strategies:
1. Accept OTP submitted from the app (via /submit-otp endpoint → otp_value field)
2. Poll the browser URL/DOM directly to detect when the user enters OTP themselves
"""
s = sessions.get(sid)
if not s:
return {"status": "error", "message": "session not found"}
s["status"] = "running"
s["last_activity"] = time.time()
try:
bot = AutomationDeltaDentalMAEligibilityCheck({"data": data})
bot.config_driver()
s["bot"] = bot
s["driver"] = bot.driver
s["last_activity"] = time.time()
# Navigate to login page
try:
if not url:
raise ValueError("URL not provided for DDMA run")
bot.driver.maximize_window()
bot.driver.get(url)
await asyncio.sleep(1)
except Exception as e:
s["status"] = "error"
s["message"] = f"Navigation failed: {e}"
await cleanup_session(sid)
return {"status": "error", "message": s["message"]}
# Login
try:
login_result = bot.login(url)
except WebDriverException as wde:
s["status"] = "error"
s["message"] = f"Selenium driver error during login: {wde}"
await cleanup_session(sid, s["message"])
return {"status": "error", "message": s["message"]}
except Exception as e:
s["status"] = "error"
s["message"] = f"Unexpected error during login: {e}"
await cleanup_session(sid, s["message"])
return {"status": "error", "message": s["message"]}
# ── Path: already logged in (persistent session) ──────────────────────
if isinstance(login_result, str) and login_result == "ALREADY_LOGGED_IN":
print("[start_ddma_run] Session persisted - skipping OTP")
s["status"] = "running"
s["message"] = "Session persisted"
# ── Path: OTP required ────────────────────────────────────────────────
elif isinstance(login_result, str) and login_result == "OTP_REQUIRED":
s["status"] = "waiting_for_otp"
s["message"] = "OTP required for login - please enter OTP"
s["last_activity"] = time.time()
driver = s["driver"]
# Poll every second for up to SESSION_OTP_TIMEOUT seconds.
# Accept OTP from two sources:
# a) app API (otp_value set by submit_otp())
# b) user entering OTP directly in the browser window
max_polls = SESSION_OTP_TIMEOUT
login_success = False
print(f"[OTP] Polling for OTP completion (up to {SESSION_OTP_TIMEOUT}s)...")
for poll in range(max_polls):
await asyncio.sleep(1)
s["last_activity"] = time.time()
try:
# a) App submitted OTP via /submit-otp endpoint
otp_value = s.get("otp_value")
if otp_value:
print(f"[OTP poll {poll+1}] OTP received from app, typing it in...")
try:
otp_input = driver.find_element(By.XPATH,
"//input[contains(@aria-label,'Verification') or contains(@placeholder,'verification') or @type='tel' or contains(@aria-lable,'Verification code') or contains(@placeholder,'Enter your verification code')]"
)
otp_input.clear()
otp_input.send_keys(otp_value)
try:
verify_btn = driver.find_element(By.XPATH, "//button[@type='button' and @aria-label='Verify']")
verify_btn.click()
except Exception:
otp_input.send_keys("\n")
print("[OTP] OTP typed and submitted via app")
s["otp_value"] = None # Clear so we don't re-submit
await asyncio.sleep(3)
except Exception as type_err:
print(f"[OTP] Failed to type OTP from app: {type_err}")
# b) Check URL — if we're past OTP page, login succeeded
current_url = driver.current_url.lower()
print(f"[OTP poll {poll+1}/{max_polls}] URL: {current_url[:70]}...")
if "member" in current_url or "dashboard" in current_url or "eligibility" in current_url:
try:
member_search = WebDriverWait(driver, 5).until(
EC.presence_of_element_located((By.XPATH, '//input[@placeholder="Search by member ID"]'))
)
print("[OTP] Member search found — login successful!")
login_success = True
break
except TimeoutException:
print("[OTP] On member page but search input not found, continuing...")
# Check if OTP input is still visible (user hasn't finished)
try:
otp_input_elem = driver.find_element(By.XPATH,
"//input[contains(@aria-label,'Verification') or contains(@placeholder,'verification') or @type='tel']"
)
print(f"[OTP poll {poll+1}] OTP input still visible - waiting...")
except Exception:
# OTP input gone — may mean login is completing; try members page
if "onboarding" in current_url or "start" in current_url:
print("[OTP] OTP input gone, trying to navigate to members page...")
try:
driver.get("https://providers.deltadentalma.com/members")
await asyncio.sleep(2)
except Exception:
pass
except Exception as poll_err:
print(f"[OTP poll {poll+1}] Error: {poll_err}")
if not login_success:
# Final check — navigate directly to members page
try:
print("[OTP] Final attempt - navigating to members page...")
driver.get("https://providers.deltadentalma.com/members")
await asyncio.sleep(3)
member_search = WebDriverWait(driver, 10).until(
EC.presence_of_element_located((By.XPATH, '//input[@placeholder="Search by member ID"]'))
)
print("[OTP] Member search found — login successful!")
login_success = True
except TimeoutException:
s["status"] = "error"
s["message"] = "OTP timeout - login not completed"
await cleanup_session(sid)
return {"status": "error", "message": "OTP not completed in time"}
except Exception as final_err:
s["status"] = "error"
s["message"] = f"OTP verification failed: {final_err}"
await cleanup_session(sid)
return {"status": "error", "message": s["message"]}
if login_success:
s["status"] = "running"
s["message"] = "Login successful after OTP"
print("[OTP] Proceeding to step1...")
# ── Path: login succeeded without OTP ─────────────────────────────────
elif isinstance(login_result, str) and login_result == "SUCCESS":
print("[start_ddma_run] Login succeeded without OTP")
s["status"] = "running"
s["message"] = "Login succeeded"
# ── Path: login error ──────────────────────────────────────────────────
elif isinstance(login_result, str) and login_result.startswith("ERROR"):
s["status"] = "error"
s["message"] = login_result
await cleanup_session(sid)
return {"status": "error", "message": login_result}
# ── Step 1: search ────────────────────────────────────────────────────
step1_result = bot.step1()
if isinstance(step1_result, str) and step1_result.startswith("ERROR"):
s["status"] = "error"
s["message"] = step1_result
await cleanup_session(sid)
return {"status": "error", "message": step1_result}
# ── Step 2: PDF generation ────────────────────────────────────────────
step2_result = bot.step2()
if isinstance(step2_result, dict) and step2_result.get("status") == "success":
s["status"] = "completed"
s["result"] = step2_result
s["message"] = "completed"
asyncio.create_task(_remove_session_later(sid, 30))
return step2_result
else:
s["status"] = "error"
if isinstance(step2_result, dict):
s["message"] = step2_result.get("message", "unknown error")
else:
s["message"] = str(step2_result)
await cleanup_session(sid)
return {"status": "error", "message": s["message"]}
except Exception as e:
s["status"] = "error"
s["message"] = f"worker exception: {e}"
await cleanup_session(sid)
return {"status": "error", "message": s["message"]}
def submit_otp(sid: str, otp: str) -> Dict[str, Any]:
"""
Called when the app sends an OTP via POST /submit-otp.
Sets otp_value on the session so the polling loop picks it up.
"""
s = sessions.get(sid)
if not s:
return {"status": "error", "message": "session not found"}
if s.get("status") != "waiting_for_otp":
return {"status": "error", "message": f"session not waiting for OTP (state={s.get('status')})"}
s["otp_value"] = otp
s["last_activity"] = time.time()
try:
s["otp_event"].set()
except Exception:
pass
return {"status": "ok", "message": "otp accepted"}
def get_session_status(sid: str) -> Dict[str, Any]:
s = sessions.get(sid)
if not s:
return {"status": "not_found"}
return {
"session_id": sid,
"status": s.get("status"),
"message": s.get("message"),
"created_at": s.get("created_at"),
"last_activity": s.get("last_activity"),
"result": s.get("result") if s.get("status") == "completed" else None,
}
Reference in New Issue View Git Blame Copy Permalink