scholarr/app/services/scholars.py

1123 lines
38 KiB
Python

from __future__ import annotations
import asyncio
from dataclasses import replace
from datetime import datetime
from datetime import timedelta
from datetime import timezone
import logging
import os
import random
import re
from pathlib import Path
from urllib.parse import urlparse
from uuid import uuid4
from sqlalchemy import delete, func, select, text
from sqlalchemy.exc import IntegrityError
from sqlalchemy.ext.asyncio import AsyncSession
from app.db.models import AuthorSearchCacheEntry, AuthorSearchRuntimeState, ScholarProfile
from app.services.scholar_parser import (
ParseState,
ParsedAuthorSearchPage,
parse_author_search_page,
parse_profile_page,
)
from app.services.scholar_source import ScholarSource
SCHOLAR_ID_PATTERN = re.compile(r"^[a-zA-Z0-9_-]{12}$")
MAX_IMAGE_URL_LENGTH = 2048
MAX_AUTHOR_SEARCH_LIMIT = 25
DEFAULT_AUTHOR_SEARCH_CACHE_MAX_ENTRIES = 512
DEFAULT_AUTHOR_SEARCH_BLOCKED_CACHE_TTL_SECONDS = 300
DEFAULT_AUTHOR_SEARCH_COOLDOWN_BLOCK_THRESHOLD = 1
DEFAULT_AUTHOR_SEARCH_COOLDOWN_SECONDS = 1800
DEFAULT_AUTHOR_SEARCH_MIN_INTERVAL_SECONDS = 3.0
DEFAULT_AUTHOR_SEARCH_INTERVAL_JITTER_SECONDS = 1.0
DEFAULT_AUTHOR_SEARCH_RETRY_ALERT_THRESHOLD = 2
DEFAULT_AUTHOR_SEARCH_COOLDOWN_REJECTION_ALERT_THRESHOLD = 3
AUTHOR_SEARCH_RUNTIME_STATE_KEY = "global"
AUTHOR_SEARCH_LOCK_NAMESPACE = 3901
AUTHOR_SEARCH_LOCK_KEY = 1
ALLOWED_IMAGE_UPLOAD_CONTENT_TYPES = {
"image/jpeg": ".jpg",
"image/png": ".png",
"image/webp": ".webp",
"image/gif": ".gif",
}
SEARCH_DISABLED_REASON = "search_disabled_by_configuration"
SEARCH_COOLDOWN_REASON = "search_temporarily_disabled_due_to_repeated_blocks"
SEARCH_CACHED_BLOCK_REASON = "search_temporarily_disabled_from_cached_blocked_response"
STATE_REASON_HINTS: dict[str, str] = {
SEARCH_DISABLED_REASON: (
"Scholar name search is currently disabled by service policy. "
"Add scholars by profile URL or Scholar ID."
),
SEARCH_COOLDOWN_REASON: (
"Scholar name search is temporarily paused after repeated block responses. "
"Use Scholar URL/ID adds until cooldown expires."
),
SEARCH_CACHED_BLOCK_REASON: (
"A recent blocked response was cached to reduce traffic. "
"Retry later or add by Scholar URL/ID."
),
"network_dns_resolution_failed": (
"DNS resolution failed while reaching scholar.google.com. "
"Verify container DNS/network and retry."
),
"network_timeout": (
"Request timed out before Google Scholar responded. "
"Increase delay/backoff and retry."
),
"network_tls_error": (
"TLS handshake/certificate validation failed. "
"Verify outbound TLS/network configuration."
),
"blocked_http_429_rate_limited": (
"Google Scholar rate-limited the request. "
"Slow request cadence and retry later."
),
"blocked_unusual_traffic_detected": (
"Google Scholar flagged traffic as unusual. "
"Increase delay/jitter and reduce concurrent scraping."
),
"blocked_accounts_redirect": (
"Request was redirected to Google Account sign-in. "
"Treat as access block and retry later."
),
}
logger = logging.getLogger(__name__)
class ScholarServiceError(ValueError):
"""Raised for expected scholar-management validation failures."""
def validate_scholar_id(value: str) -> str:
scholar_id = value.strip()
if not SCHOLAR_ID_PATTERN.fullmatch(scholar_id):
raise ScholarServiceError("Scholar ID must match [a-zA-Z0-9_-]{12}.")
return scholar_id
def normalize_display_name(value: str) -> str | None:
normalized = value.strip()
return normalized if normalized else None
def normalize_profile_image_url(value: str | None) -> str | None:
if value is None:
return None
candidate = value.strip()
if not candidate:
return None
if len(candidate) > MAX_IMAGE_URL_LENGTH:
raise ScholarServiceError(
f"Image URL must be {MAX_IMAGE_URL_LENGTH} characters or fewer."
)
parsed = urlparse(candidate)
if parsed.scheme.lower() not in {"http", "https"} or not parsed.netloc:
raise ScholarServiceError("Image URL must be an absolute http(s) URL.")
return candidate
def _ensure_upload_root(upload_dir: str, *, create: bool) -> Path:
root = Path(upload_dir).expanduser().resolve()
if create:
root.mkdir(parents=True, exist_ok=True)
return root
def _resolve_upload_path(upload_root: Path, relative_path: str) -> Path:
candidate = (upload_root / relative_path).resolve()
if upload_root != candidate and upload_root not in candidate.parents:
raise ScholarServiceError("Invalid scholar image path.")
return candidate
def _safe_remove_upload(upload_root: Path, relative_path: str | None) -> None:
if not relative_path:
return
try:
file_path = _resolve_upload_path(upload_root, relative_path)
except ScholarServiceError:
return
try:
if file_path.exists() and file_path.is_file():
file_path.unlink()
except OSError:
return
def resolve_profile_image(
profile: ScholarProfile,
*,
uploaded_image_url: str | None,
) -> tuple[str | None, str]:
if profile.profile_image_upload_path and uploaded_image_url:
return uploaded_image_url, "upload"
if profile.profile_image_override_url:
return profile.profile_image_override_url, "override"
if profile.profile_image_url:
return profile.profile_image_url, "scraped"
return None, "none"
def resolve_upload_file_path(*, upload_dir: str, relative_path: str) -> Path:
root = _ensure_upload_root(upload_dir, create=False)
return _resolve_upload_path(root, relative_path)
def scrape_state_hint(*, state: ParseState, state_reason: str) -> str | None:
if state not in {ParseState.NETWORK_ERROR, ParseState.BLOCKED_OR_CAPTCHA}:
return None
return STATE_REASON_HINTS.get(state_reason)
def _merge_warnings(base: list[str], extra: list[str]) -> list[str]:
if not extra:
return sorted(set(base))
return sorted(set(base + extra))
def _trim_author_search_result(
parsed: ParsedAuthorSearchPage,
*,
limit: int,
extra_warnings: list[str] | None = None,
state_reason_override: str | None = None,
) -> ParsedAuthorSearchPage:
return ParsedAuthorSearchPage(
state=parsed.state,
state_reason=state_reason_override or parsed.state_reason,
candidates=parsed.candidates[: max(1, min(int(limit), MAX_AUTHOR_SEARCH_LIMIT))],
marker_counts=parsed.marker_counts,
warnings=_merge_warnings(parsed.warnings, extra_warnings or []),
)
def _policy_blocked_author_search_result(
*,
reason: str,
warning_codes: list[str],
limit: int,
) -> ParsedAuthorSearchPage:
_ = limit
return ParsedAuthorSearchPage(
state=ParseState.BLOCKED_OR_CAPTCHA,
state_reason=reason,
candidates=[],
marker_counts={},
warnings=_merge_warnings([], warning_codes),
)
async def _acquire_author_search_lock(db_session: AsyncSession) -> None:
await db_session.execute(
text("SELECT pg_advisory_xact_lock(:namespace, :lock_key)"),
{
"namespace": AUTHOR_SEARCH_LOCK_NAMESPACE,
"lock_key": AUTHOR_SEARCH_LOCK_KEY,
},
)
async def _load_runtime_state_for_update(
db_session: AsyncSession,
) -> AuthorSearchRuntimeState:
result = await db_session.execute(
select(AuthorSearchRuntimeState)
.where(AuthorSearchRuntimeState.state_key == AUTHOR_SEARCH_RUNTIME_STATE_KEY)
.with_for_update()
)
state = result.scalar_one_or_none()
if state is not None:
return state
state = AuthorSearchRuntimeState(state_key=AUTHOR_SEARCH_RUNTIME_STATE_KEY)
db_session.add(state)
await db_session.flush()
return state
def _serialize_parsed_author_search_page(parsed: ParsedAuthorSearchPage) -> dict:
return {
"state": parsed.state.value,
"state_reason": parsed.state_reason,
"marker_counts": {str(key): int(value) for key, value in parsed.marker_counts.items()},
"warnings": [str(value) for value in parsed.warnings],
"candidates": [
{
"scholar_id": candidate.scholar_id,
"display_name": candidate.display_name,
"affiliation": candidate.affiliation,
"email_domain": candidate.email_domain,
"cited_by_count": candidate.cited_by_count,
"interests": [str(interest) for interest in candidate.interests],
"profile_url": candidate.profile_url,
"profile_image_url": candidate.profile_image_url,
}
for candidate in parsed.candidates
],
}
def _payload_state(payload: dict[str, object]) -> ParseState | None:
state_raw = str(payload.get("state", "")).strip()
try:
return ParseState(state_raw)
except ValueError:
return None
def _payload_marker_counts(payload: dict[str, object]) -> dict[str, int]:
marker_counts_payload = payload.get("marker_counts")
if not isinstance(marker_counts_payload, dict):
return {}
parsed: dict[str, int] = {}
for key, value in marker_counts_payload.items():
try:
parsed[str(key)] = int(value)
except (TypeError, ValueError):
continue
return parsed
def _payload_warnings(payload: dict[str, object]) -> list[str]:
warnings_payload = payload.get("warnings")
if not isinstance(warnings_payload, list):
return []
return [str(value) for value in warnings_payload if isinstance(value, str)]
def _parse_optional_string(value: object) -> str | None:
if value is None:
return None
normalized = str(value).strip()
return normalized or None
def _parse_optional_int(value: object) -> int | None:
if isinstance(value, int):
return value
if isinstance(value, str) and value.strip():
try:
return int(value)
except ValueError:
return None
return None
def _normalize_interests(value: object) -> list[str]:
if not isinstance(value, list):
return []
return [str(item) for item in value if isinstance(item, str)]
def _deserialize_candidate_payload(value: object) -> dict[str, object] | None:
if not isinstance(value, dict):
return None
scholar_id = str(value.get("scholar_id", "")).strip()
display_name = str(value.get("display_name", "")).strip()
profile_url = str(value.get("profile_url", "")).strip()
if not scholar_id or not display_name or not profile_url:
return None
return {
"scholar_id": scholar_id,
"display_name": display_name,
"affiliation": _parse_optional_string(value.get("affiliation")),
"email_domain": _parse_optional_string(value.get("email_domain")),
"cited_by_count": _parse_optional_int(value.get("cited_by_count")),
"interests": _normalize_interests(value.get("interests")),
"profile_url": profile_url,
"profile_image_url": _parse_optional_string(value.get("profile_image_url")),
}
def _deserialize_candidates(payload: dict[str, object]) -> list[dict[str, object]]:
candidates_payload = payload.get("candidates")
if not isinstance(candidates_payload, list):
return []
normalized: list[dict[str, object]] = []
for value in candidates_payload:
candidate = _deserialize_candidate_payload(value)
if candidate is not None:
normalized.append(candidate)
return normalized
def _deserialize_parsed_author_search_page(payload: object) -> ParsedAuthorSearchPage | None:
if not isinstance(payload, dict):
return None
state = _payload_state(payload)
if state is None:
return None
marker_counts = _payload_marker_counts(payload)
warnings = _payload_warnings(payload)
from app.services.scholar_parser import ScholarSearchCandidate
normalized_candidates = _deserialize_candidates(payload)
return ParsedAuthorSearchPage(
state=state,
state_reason=str(payload.get("state_reason", "")).strip() or "unknown",
candidates=[
ScholarSearchCandidate(
scholar_id=item["scholar_id"],
display_name=item["display_name"],
affiliation=item["affiliation"],
email_domain=item["email_domain"],
cited_by_count=item["cited_by_count"],
interests=item["interests"],
profile_url=item["profile_url"],
profile_image_url=item["profile_image_url"],
)
for item in normalized_candidates
],
marker_counts=marker_counts,
warnings=warnings,
)
async def _cache_get_author_search_result(
db_session: AsyncSession,
*,
query_key: str,
now_utc: datetime,
) -> ParsedAuthorSearchPage | None:
result = await db_session.execute(
select(AuthorSearchCacheEntry).where(AuthorSearchCacheEntry.query_key == query_key)
)
entry = result.scalar_one_or_none()
if entry is None:
return None
expires_at = entry.expires_at
if expires_at.tzinfo is None:
expires_at = expires_at.replace(tzinfo=timezone.utc)
if expires_at <= now_utc:
await db_session.delete(entry)
return None
parsed = _deserialize_parsed_author_search_page(entry.payload)
if parsed is None:
await db_session.delete(entry)
return None
return parsed
async def _cache_set_author_search_result(
db_session: AsyncSession,
*,
query_key: str,
parsed: ParsedAuthorSearchPage,
ttl_seconds: float,
max_entries: int,
now_utc: datetime,
) -> None:
ttl = max(float(ttl_seconds), 0.0)
existing_result = await db_session.execute(
select(AuthorSearchCacheEntry).where(AuthorSearchCacheEntry.query_key == query_key)
)
existing = existing_result.scalar_one_or_none()
if ttl <= 0.0:
if existing is not None:
await db_session.delete(existing)
return
expires_at = now_utc + timedelta(seconds=ttl)
payload = _serialize_parsed_author_search_page(parsed)
if existing is None:
db_session.add(
AuthorSearchCacheEntry(
query_key=query_key,
payload=payload,
expires_at=expires_at,
cached_at=now_utc,
updated_at=now_utc,
)
)
else:
existing.payload = payload
existing.expires_at = expires_at
existing.cached_at = now_utc
existing.updated_at = now_utc
await _prune_author_search_cache(db_session, now_utc=now_utc, max_entries=max_entries)
async def _prune_author_search_cache(
db_session: AsyncSession,
*,
now_utc: datetime,
max_entries: int,
) -> None:
await db_session.execute(
delete(AuthorSearchCacheEntry).where(AuthorSearchCacheEntry.expires_at <= now_utc)
)
bounded_max_entries = max(1, int(max_entries))
count_result = await db_session.execute(
select(func.count()).select_from(AuthorSearchCacheEntry)
)
entry_count = int(count_result.scalar_one() or 0)
overflow = max(0, entry_count - bounded_max_entries)
if overflow <= 0:
return
stale_keys_result = await db_session.execute(
select(AuthorSearchCacheEntry.query_key)
.order_by(AuthorSearchCacheEntry.cached_at.asc())
.limit(overflow)
)
stale_keys = [str(row[0]) for row in stale_keys_result.all()]
if stale_keys:
await db_session.execute(
delete(AuthorSearchCacheEntry).where(AuthorSearchCacheEntry.query_key.in_(stale_keys))
)
def _is_author_search_block_state(parsed: ParsedAuthorSearchPage) -> bool:
return parsed.state == ParseState.BLOCKED_OR_CAPTCHA
def _author_search_cooldown_remaining_seconds(
runtime_state: AuthorSearchRuntimeState,
now_utc: datetime,
) -> int:
cooldown_until = runtime_state.cooldown_until
if cooldown_until is None:
return 0
if cooldown_until.tzinfo is None:
cooldown_until = cooldown_until.replace(tzinfo=timezone.utc)
remaining_seconds = int((cooldown_until - now_utc).total_seconds())
return max(0, remaining_seconds)
def _reset_author_search_runtime_state_for_tests() -> None:
# Runtime state now lives in the database; tests should reset via DB fixtures.
return None
async def list_scholars_for_user(
db_session: AsyncSession,
*,
user_id: int,
) -> list[ScholarProfile]:
result = await db_session.execute(
select(ScholarProfile)
.where(ScholarProfile.user_id == user_id)
.order_by(ScholarProfile.created_at.desc(), ScholarProfile.id.desc())
)
return list(result.scalars().all())
async def create_scholar_for_user(
db_session: AsyncSession,
*,
user_id: int,
scholar_id: str,
display_name: str,
profile_image_url: str | None = None,
) -> ScholarProfile:
profile = ScholarProfile(
user_id=user_id,
scholar_id=validate_scholar_id(scholar_id),
display_name=normalize_display_name(display_name),
profile_image_url=normalize_profile_image_url(profile_image_url),
)
db_session.add(profile)
try:
await db_session.commit()
except IntegrityError as exc:
await db_session.rollback()
raise ScholarServiceError("That scholar is already tracked for this account.") from exc
await db_session.refresh(profile)
return profile
async def get_user_scholar_by_id(
db_session: AsyncSession,
*,
user_id: int,
scholar_profile_id: int,
) -> ScholarProfile | None:
result = await db_session.execute(
select(ScholarProfile).where(
ScholarProfile.id == scholar_profile_id,
ScholarProfile.user_id == user_id,
)
)
return result.scalar_one_or_none()
async def toggle_scholar_enabled(
db_session: AsyncSession,
*,
profile: ScholarProfile,
) -> ScholarProfile:
profile.is_enabled = not profile.is_enabled
await db_session.commit()
await db_session.refresh(profile)
return profile
async def delete_scholar(
db_session: AsyncSession,
*,
profile: ScholarProfile,
upload_dir: str | None = None,
) -> None:
if upload_dir:
upload_root = _ensure_upload_root(upload_dir, create=True)
_safe_remove_upload(upload_root, profile.profile_image_upload_path)
await db_session.delete(profile)
await db_session.commit()
def _normalize_author_search_inputs(query: str, limit: int) -> tuple[str, int, str]:
normalized_query = query.strip()
if len(normalized_query) < 2:
raise ScholarServiceError("Search query must be at least 2 characters.")
bounded_limit = max(1, min(int(limit), MAX_AUTHOR_SEARCH_LIMIT))
return normalized_query, bounded_limit, normalized_query.casefold()
def _disabled_search_result(*, normalized_query: str, bounded_limit: int) -> ParsedAuthorSearchPage:
logger.warning(
"scholar_search.disabled_by_configuration",
extra={"event": "scholar_search.disabled_by_configuration", "query": normalized_query},
)
return _policy_blocked_author_search_result(
reason=SEARCH_DISABLED_REASON,
warning_codes=["author_search_disabled_by_configuration"],
limit=bounded_limit,
)
def _normalize_runtime_cooldown_state(
runtime_state: AuthorSearchRuntimeState,
*,
now_utc: datetime,
) -> bool:
if runtime_state.cooldown_until is None:
return False
cooldown_until = runtime_state.cooldown_until
updated = False
if cooldown_until.tzinfo is None:
cooldown_until = cooldown_until.replace(tzinfo=timezone.utc)
runtime_state.cooldown_until = cooldown_until
updated = True
if now_utc < cooldown_until:
return updated
logger.info(
"scholar_search.cooldown_expired",
extra={"event": "scholar_search.cooldown_expired", "cooldown_until_utc": cooldown_until.isoformat()},
)
runtime_state.cooldown_until = None
runtime_state.cooldown_rejection_count = 0
runtime_state.cooldown_alert_emitted = False
return True
def _cooldown_warning_codes(
*,
runtime_state: AuthorSearchRuntimeState,
cooldown_remaining_seconds: int,
) -> list[str]:
warning_codes = [
"author_search_cooldown_active",
f"author_search_cooldown_remaining_{cooldown_remaining_seconds}s",
]
if bool(runtime_state.cooldown_alert_emitted):
warning_codes.append("author_search_cooldown_alert_threshold_exceeded")
return warning_codes
def _emit_cooldown_threshold_alert(
*,
runtime_state: AuthorSearchRuntimeState,
normalized_query: str,
cooldown_rejection_alert_threshold: int,
) -> bool:
runtime_state.cooldown_rejection_count = int(runtime_state.cooldown_rejection_count) + 1
threshold = max(1, int(cooldown_rejection_alert_threshold))
if int(runtime_state.cooldown_rejection_count) < threshold:
return True
if bool(runtime_state.cooldown_alert_emitted):
return True
logger.error(
"scholar_search.cooldown_rejection_threshold_exceeded",
extra={
"event": "scholar_search.cooldown_rejection_threshold_exceeded",
"query": normalized_query,
"cooldown_rejection_count": int(runtime_state.cooldown_rejection_count),
"threshold": threshold,
"cooldown_until_utc": runtime_state.cooldown_until.isoformat() if runtime_state.cooldown_until else None,
},
)
runtime_state.cooldown_alert_emitted = True
return True
def _cooldown_block_result(
*,
runtime_state: AuthorSearchRuntimeState,
normalized_query: str,
bounded_limit: int,
cooldown_rejection_alert_threshold: int,
cooldown_remaining_seconds: int,
) -> ParsedAuthorSearchPage:
_emit_cooldown_threshold_alert(
runtime_state=runtime_state,
normalized_query=normalized_query,
cooldown_rejection_alert_threshold=cooldown_rejection_alert_threshold,
)
logger.warning(
"scholar_search.cooldown_active",
extra={
"event": "scholar_search.cooldown_active",
"query": normalized_query,
"cooldown_remaining_seconds": cooldown_remaining_seconds,
"cooldown_until_utc": runtime_state.cooldown_until.isoformat() if runtime_state.cooldown_until else None,
},
)
return _policy_blocked_author_search_result(
reason=SEARCH_COOLDOWN_REASON,
warning_codes=_cooldown_warning_codes(
runtime_state=runtime_state,
cooldown_remaining_seconds=cooldown_remaining_seconds,
),
limit=bounded_limit,
)
async def _cache_hit_result(
db_session: AsyncSession,
*,
query_key: str,
now_utc: datetime,
normalized_query: str,
bounded_limit: int,
) -> ParsedAuthorSearchPage | None:
cached = await _cache_get_author_search_result(
db_session,
query_key=query_key,
now_utc=now_utc,
)
if cached is None:
return None
logger.info(
"scholar_search.cache_hit",
extra={
"event": "scholar_search.cache_hit",
"query": normalized_query,
"state": cached.state.value,
"state_reason": cached.state_reason,
},
)
state_reason_override = SEARCH_CACHED_BLOCK_REASON if _is_author_search_block_state(cached) else None
return _trim_author_search_result(
cached,
limit=bounded_limit,
extra_warnings=["author_search_served_from_cache"],
state_reason_override=state_reason_override,
)
def _throttle_sleep_seconds(
*,
runtime_state: AuthorSearchRuntimeState,
now_utc: datetime,
min_interval_seconds: float,
interval_jitter_seconds: float,
) -> tuple[float, bool]:
updated = False
if runtime_state.last_live_request_at is None:
enforced_wait_seconds = 0.0
else:
last_live_request_at = runtime_state.last_live_request_at
if last_live_request_at.tzinfo is None:
last_live_request_at = last_live_request_at.replace(tzinfo=timezone.utc)
runtime_state.last_live_request_at = last_live_request_at
updated = True
enforced_wait_seconds = (
last_live_request_at + timedelta(seconds=max(float(min_interval_seconds), 0.0)) - now_utc
).total_seconds()
jitter_seconds = random.uniform(0.0, max(float(interval_jitter_seconds), 0.0))
return max(0.0, float(enforced_wait_seconds)) + jitter_seconds, updated
async def _wait_for_author_search_throttle(
*,
runtime_state: AuthorSearchRuntimeState,
normalized_query: str,
now_utc: datetime,
min_interval_seconds: float,
interval_jitter_seconds: float,
) -> bool:
sleep_seconds, updated = _throttle_sleep_seconds(
runtime_state=runtime_state,
now_utc=now_utc,
min_interval_seconds=min_interval_seconds,
interval_jitter_seconds=interval_jitter_seconds,
)
if sleep_seconds <= 0.0:
return updated
logger.info(
"scholar_search.throttle_wait",
extra={"event": "scholar_search.throttle_wait", "query": normalized_query, "sleep_seconds": round(sleep_seconds, 3)},
)
await asyncio.sleep(sleep_seconds)
return True
async def _fetch_author_search_with_retries(
*,
source: ScholarSource,
normalized_query: str,
network_error_retries: int,
retry_backoff_seconds: float,
) -> tuple[ParsedAuthorSearchPage, int, list[str]]:
max_attempts = max(1, int(network_error_retries) + 1)
parsed: ParsedAuthorSearchPage | None = None
retry_warnings: list[str] = []
retry_scheduled_count = 0
for attempt_index in range(max_attempts):
fetch_result = await source.fetch_author_search_html(normalized_query, start=0)
parsed = parse_author_search_page(fetch_result)
if parsed.state != ParseState.NETWORK_ERROR or attempt_index >= max_attempts - 1:
break
retry_warnings.append("network_retry_scheduled_for_author_search")
retry_scheduled_count += 1
retry_sleep_seconds = max(float(retry_backoff_seconds), 0.0) * (2**attempt_index)
if retry_sleep_seconds > 0:
await asyncio.sleep(retry_sleep_seconds)
if parsed is None:
raise ScholarServiceError("Unable to complete scholar author search.")
return parsed, retry_scheduled_count, retry_warnings
def _with_retry_warnings(
parsed: ParsedAuthorSearchPage,
*,
retry_warnings: list[str],
retry_scheduled_count: int,
retry_alert_threshold: int,
normalized_query: str,
) -> ParsedAuthorSearchPage:
merged = replace(parsed, warnings=_merge_warnings(parsed.warnings, retry_warnings))
threshold = max(1, int(retry_alert_threshold))
if retry_scheduled_count < threshold:
return merged
logger.warning(
"scholar_search.retry_threshold_exceeded",
extra={
"event": "scholar_search.retry_threshold_exceeded",
"query": normalized_query,
"retry_scheduled_count": retry_scheduled_count,
"threshold": threshold,
"final_state": merged.state.value,
"final_state_reason": merged.state_reason,
},
)
return replace(
merged,
warnings=_merge_warnings(
merged.warnings,
[f"author_search_retry_threshold_exceeded_{retry_scheduled_count}"],
),
)
def _apply_block_circuit_breaker(
*,
runtime_state: AuthorSearchRuntimeState,
merged_parsed: ParsedAuthorSearchPage,
cooldown_block_threshold: int,
cooldown_seconds: int,
normalized_query: str,
) -> ParsedAuthorSearchPage:
if not _is_author_search_block_state(merged_parsed):
runtime_state.consecutive_blocked_count = 0
return merged_parsed
runtime_state.consecutive_blocked_count = int(runtime_state.consecutive_blocked_count) + 1
logger.warning(
"scholar_search.block_detected",
extra={
"event": "scholar_search.block_detected",
"query": normalized_query,
"state_reason": merged_parsed.state_reason,
"consecutive_blocked_count": int(runtime_state.consecutive_blocked_count),
},
)
if int(runtime_state.consecutive_blocked_count) < max(1, int(cooldown_block_threshold)):
return merged_parsed
runtime_state.cooldown_until = datetime.now(timezone.utc) + timedelta(seconds=max(60, int(cooldown_seconds)))
runtime_state.consecutive_blocked_count = 0
runtime_state.cooldown_rejection_count = 0
runtime_state.cooldown_alert_emitted = False
logger.error(
"scholar_search.cooldown_activated",
extra={
"event": "scholar_search.cooldown_activated",
"query": normalized_query,
"cooldown_until_utc": runtime_state.cooldown_until.isoformat() if runtime_state.cooldown_until else None,
},
)
return replace(
merged_parsed,
warnings=_merge_warnings(merged_parsed.warnings, ["author_search_circuit_breaker_armed"]),
)
def _resolve_author_search_cache_ttl_seconds(
*,
merged_parsed: ParsedAuthorSearchPage,
blocked_cache_ttl_seconds: int,
cache_ttl_seconds: int,
) -> int:
if _is_author_search_block_state(merged_parsed):
return min(max(1, int(blocked_cache_ttl_seconds)), max(1, int(cache_ttl_seconds)))
return max(1, int(cache_ttl_seconds))
async def _load_locked_runtime_state(
db_session: AsyncSession,
) -> AuthorSearchRuntimeState:
await _acquire_author_search_lock(db_session)
return await _load_runtime_state_for_update(db_session)
async def _cooldown_or_cache_result(
db_session: AsyncSession,
*,
runtime_state: AuthorSearchRuntimeState,
query_key: str,
normalized_query: str,
bounded_limit: int,
cooldown_rejection_alert_threshold: int,
) -> tuple[ParsedAuthorSearchPage | None, bool]:
runtime_state_updated = _normalize_runtime_cooldown_state(
runtime_state,
now_utc=datetime.now(timezone.utc),
)
cooldown_remaining_seconds = _author_search_cooldown_remaining_seconds(
runtime_state,
datetime.now(timezone.utc),
)
if cooldown_remaining_seconds > 0:
return (
_cooldown_block_result(
runtime_state=runtime_state,
normalized_query=normalized_query,
bounded_limit=bounded_limit,
cooldown_rejection_alert_threshold=cooldown_rejection_alert_threshold,
cooldown_remaining_seconds=cooldown_remaining_seconds,
),
True,
)
cached_result = await _cache_hit_result(
db_session,
query_key=query_key,
now_utc=datetime.now(timezone.utc),
normalized_query=normalized_query,
bounded_limit=bounded_limit,
)
return cached_result, runtime_state_updated
async def _perform_live_author_search(db_session: AsyncSession, *, source: ScholarSource, runtime_state: AuthorSearchRuntimeState, normalized_query: str, query_key: str, network_error_retries: int, retry_backoff_seconds: float, min_interval_seconds: float, interval_jitter_seconds: float, retry_alert_threshold: int, cooldown_block_threshold: int, cooldown_seconds: int, blocked_cache_ttl_seconds: int, cache_ttl_seconds: int, cache_max_entries: int) -> tuple[ParsedAuthorSearchPage, bool]:
runtime_state_updated = await _wait_for_author_search_throttle(
runtime_state=runtime_state,
normalized_query=normalized_query,
now_utc=datetime.now(timezone.utc),
min_interval_seconds=min_interval_seconds,
interval_jitter_seconds=interval_jitter_seconds,
)
parsed, retry_count, retry_warnings = await _fetch_author_search_with_retries(
source=source,
normalized_query=normalized_query,
network_error_retries=network_error_retries,
retry_backoff_seconds=retry_backoff_seconds,
)
runtime_state.last_live_request_at = datetime.now(timezone.utc)
merged = _with_retry_warnings(
parsed,
retry_warnings=retry_warnings,
retry_scheduled_count=retry_count,
retry_alert_threshold=retry_alert_threshold,
normalized_query=normalized_query,
)
merged = _apply_block_circuit_breaker(
runtime_state=runtime_state,
merged_parsed=merged,
cooldown_block_threshold=cooldown_block_threshold,
cooldown_seconds=cooldown_seconds,
normalized_query=normalized_query,
)
ttl_seconds = _resolve_author_search_cache_ttl_seconds(
merged_parsed=merged,
blocked_cache_ttl_seconds=blocked_cache_ttl_seconds,
cache_ttl_seconds=cache_ttl_seconds,
)
await _cache_set_author_search_result(
db_session,
query_key=query_key,
parsed=merged,
ttl_seconds=float(ttl_seconds),
max_entries=cache_max_entries,
now_utc=datetime.now(timezone.utc),
)
return merged, True
async def search_author_candidates(*, source: ScholarSource, db_session: AsyncSession, query: str, limit: int, network_error_retries: int = 1, retry_backoff_seconds: float = 1.0, search_enabled: bool = True, cache_ttl_seconds: int = 21_600, blocked_cache_ttl_seconds: int = DEFAULT_AUTHOR_SEARCH_BLOCKED_CACHE_TTL_SECONDS, cache_max_entries: int = DEFAULT_AUTHOR_SEARCH_CACHE_MAX_ENTRIES, min_interval_seconds: float = DEFAULT_AUTHOR_SEARCH_MIN_INTERVAL_SECONDS, interval_jitter_seconds: float = DEFAULT_AUTHOR_SEARCH_INTERVAL_JITTER_SECONDS, cooldown_block_threshold: int = DEFAULT_AUTHOR_SEARCH_COOLDOWN_BLOCK_THRESHOLD, cooldown_seconds: int = DEFAULT_AUTHOR_SEARCH_COOLDOWN_SECONDS, retry_alert_threshold: int = DEFAULT_AUTHOR_SEARCH_RETRY_ALERT_THRESHOLD, cooldown_rejection_alert_threshold: int = DEFAULT_AUTHOR_SEARCH_COOLDOWN_REJECTION_ALERT_THRESHOLD) -> ParsedAuthorSearchPage:
normalized_query, bounded_limit, query_key = _normalize_author_search_inputs(query, limit)
if not search_enabled:
return _disabled_search_result(
normalized_query=normalized_query,
bounded_limit=bounded_limit,
)
runtime_state = await _load_locked_runtime_state(db_session)
early_result, runtime_state_updated = await _cooldown_or_cache_result(
db_session,
runtime_state=runtime_state,
query_key=query_key,
normalized_query=normalized_query,
bounded_limit=bounded_limit,
cooldown_rejection_alert_threshold=cooldown_rejection_alert_threshold,
)
if early_result is not None:
await db_session.commit()
return early_result
merged_parsed, live_runtime_updated = await _perform_live_author_search(
db_session,
source=source,
runtime_state=runtime_state,
normalized_query=normalized_query,
query_key=query_key,
network_error_retries=network_error_retries,
retry_backoff_seconds=retry_backoff_seconds,
min_interval_seconds=min_interval_seconds,
interval_jitter_seconds=interval_jitter_seconds,
retry_alert_threshold=retry_alert_threshold,
cooldown_block_threshold=cooldown_block_threshold,
cooldown_seconds=cooldown_seconds,
blocked_cache_ttl_seconds=blocked_cache_ttl_seconds,
cache_ttl_seconds=cache_ttl_seconds,
cache_max_entries=cache_max_entries,
)
runtime_state_updated = runtime_state_updated or live_runtime_updated
if runtime_state_updated:
await db_session.commit()
return _trim_author_search_result(merged_parsed, limit=bounded_limit)
async def hydrate_profile_metadata(
db_session: AsyncSession,
*,
profile: ScholarProfile,
source: ScholarSource,
) -> ScholarProfile:
fetch_result = await source.fetch_profile_html(profile.scholar_id)
parsed_page = parse_profile_page(fetch_result)
if parsed_page.profile_name and not (profile.display_name or "").strip():
profile.display_name = parsed_page.profile_name
if parsed_page.profile_image_url and not profile.profile_image_url:
profile.profile_image_url = parsed_page.profile_image_url
await db_session.commit()
await db_session.refresh(profile)
return profile
async def set_profile_image_override_url(
db_session: AsyncSession,
*,
profile: ScholarProfile,
image_url: str | None,
upload_dir: str,
) -> ScholarProfile:
upload_root = _ensure_upload_root(upload_dir, create=True)
_safe_remove_upload(upload_root, profile.profile_image_upload_path)
profile.profile_image_upload_path = None
profile.profile_image_override_url = normalize_profile_image_url(image_url)
await db_session.commit()
await db_session.refresh(profile)
return profile
async def clear_profile_image_customization(
db_session: AsyncSession,
*,
profile: ScholarProfile,
upload_dir: str,
) -> ScholarProfile:
upload_root = _ensure_upload_root(upload_dir, create=True)
_safe_remove_upload(upload_root, profile.profile_image_upload_path)
profile.profile_image_upload_path = None
profile.profile_image_override_url = None
await db_session.commit()
await db_session.refresh(profile)
return profile
async def set_profile_image_upload(
db_session: AsyncSession,
*,
profile: ScholarProfile,
content_type: str | None,
image_bytes: bytes,
upload_dir: str,
max_upload_bytes: int,
) -> ScholarProfile:
normalized_content_type = (content_type or "").strip().lower()
extension = ALLOWED_IMAGE_UPLOAD_CONTENT_TYPES.get(normalized_content_type)
if extension is None:
raise ScholarServiceError(
"Unsupported image type. Use JPEG, PNG, WEBP, or GIF."
)
if not image_bytes:
raise ScholarServiceError("Uploaded image file is empty.")
if len(image_bytes) > max_upload_bytes:
raise ScholarServiceError(
f"Uploaded image exceeds {max_upload_bytes} bytes."
)
upload_root = _ensure_upload_root(upload_dir, create=True)
user_dir = upload_root / str(profile.user_id)
user_dir.mkdir(parents=True, exist_ok=True)
filename = f"{profile.id}_{uuid4().hex}{extension}"
relative_path = os.path.join(str(profile.user_id), filename)
absolute_path = _resolve_upload_path(upload_root, relative_path)
absolute_path.write_bytes(image_bytes)
old_path = profile.profile_image_upload_path
profile.profile_image_upload_path = relative_path
profile.profile_image_override_url = None
await db_session.commit()
await db_session.refresh(profile)
if old_path and old_path != relative_path:
_safe_remove_upload(upload_root, old_path)
return profile