""" KEY MANAGEMENT All /key management endpoints /key/generate /key/info /key/update /key/delete """ import asyncio import copy import inspect import json import os import re import secrets import traceback from datetime import datetime, timedelta, timezone from typing import Any, Dict, List, Literal, Optional, Tuple, cast import fastapi import yaml from fastapi import APIRouter, Depends, Header, HTTPException, Query, Request, status import litellm from litellm._logging import verbose_proxy_logger from litellm._uuid import uuid from litellm.caching import DualCache from litellm.constants import ( LENGTH_OF_LITELLM_GENERATED_KEY, LITELLM_PROXY_ADMIN_NAME, UI_SESSION_TOKEN_TEAM_ID, ) from litellm.litellm_core_utils.duration_parser import duration_in_seconds from litellm.litellm_core_utils.safe_json_dumps import safe_dumps from litellm.proxy._experimental.mcp_server.db import ( rotate_mcp_server_credentials_master_key, ) from litellm.proxy._types import * from litellm.proxy._types import LiteLLM_VerificationToken from litellm.proxy.auth.auth_checks import ( _cache_key_object, _delete_cache_key_object, can_team_access_model, get_key_object, get_org_object, get_project_object, get_team_object, ) from litellm.proxy.auth.auth_utils import abbreviate_api_key from litellm.proxy.auth.user_api_key_auth import user_api_key_auth from litellm.proxy.common_utils.timezone_utils import get_budget_reset_time from litellm.proxy.hooks.key_management_event_hooks import KeyManagementEventHooks from litellm.proxy.management_endpoints.common_utils import ( _is_user_team_admin, _set_object_metadata_field, ) from litellm.proxy.management_endpoints.model_management_endpoints import ( _add_model_to_db, ) from litellm.proxy.management_helpers.object_permission_utils import ( _set_object_permission, attach_object_permission_to_dict, handle_update_object_permission_common, ) from litellm.proxy.management_helpers.team_member_permission_checks import ( TeamMemberPermissionChecks, ) from litellm.proxy.management_helpers.utils import management_endpoint_wrapper from litellm.proxy.spend_tracking.spend_tracking_utils import _is_master_key from litellm.proxy.utils import ( PrismaClient, ProxyLogging, _hash_token_if_needed, handle_exception_on_proxy, is_valid_api_key, ) from litellm.router import Router from litellm.secret_managers.main import get_secret from litellm.types.proxy.management_endpoints.key_management_endpoints import ( BulkUpdateKeyRequest, BulkUpdateKeyRequestItem, BulkUpdateKeyResponse, FailedKeyUpdate, SuccessfulKeyUpdate, ) from litellm.types.router import Deployment from litellm.types.utils import ( BudgetConfig, PersonalUIKeyGenerationConfig, TeamUIKeyGenerationConfig, ) def _is_team_key(data: Union[GenerateKeyRequest, LiteLLM_VerificationToken]): return data.team_id is not None def _get_user_in_team( team_table: LiteLLM_TeamTableCachedObj, user_id: Optional[str] ) -> Optional[Member]: if user_id is None: return None for member in team_table.members_with_roles: if member.user_id is not None and member.user_id == user_id: return member return None def _calculate_key_rotation_time(rotation_interval: str) -> datetime: """ Helper function to calculate the next rotation time for a key based on the rotation interval. Args: rotation_interval: String representing the rotation interval (e.g., '30d', '90d', '1h') Returns: datetime: The calculated next rotation time in UTC """ now = datetime.now(timezone.utc) interval_seconds = duration_in_seconds(rotation_interval) return now + timedelta(seconds=interval_seconds) def _set_key_rotation_fields( data: dict, auto_rotate: bool, rotation_interval: Optional[str], existing_key_alias: Optional[str] = None ) -> None: """ Helper function to set rotation fields in key data if auto_rotate is enabled. Args: data: Dictionary to update with rotation fields auto_rotate: Whether auto rotation is enabled rotation_interval: The rotation interval string (required if auto_rotate is True) existing_key_alias: The existing key alias from the database (if any) """ if auto_rotate and rotation_interval: if ( litellm._key_management_settings is not None and litellm._key_management_settings.store_virtual_keys is True and data.get("key_alias") is None and existing_key_alias is None ): raise ProxyException( message="key_alias is required when auto_rotate=True and store_virtual_keys is enabled. This ensures stable secret naming during rotation.", type=ProxyErrorTypes.bad_request_error, param="key_alias", code=400, ) data.update( { "auto_rotate": auto_rotate, "rotation_interval": rotation_interval, "key_rotation_at": _calculate_key_rotation_time(rotation_interval), } ) def _is_allowed_to_make_key_request( user_api_key_dict: UserAPIKeyAuth, user_id: Optional[str], team_id: Optional[str], ) -> bool: """ Assert user only creates/updates keys for themselves Relevant issue: https://github.com/BerriAI/litellm/issues/7336 """ ## BASE CASE - PROXY ADMIN if ( user_api_key_dict.user_role is not None and user_api_key_dict.user_role == LitellmUserRoles.PROXY_ADMIN.value ): return True if user_id is not None: assert ( user_id == user_api_key_dict.user_id ), "User can only create keys for themselves. Got user_id={}, Your ID={}".format( user_id, user_api_key_dict.user_id ) if team_id is not None: if ( user_api_key_dict.team_id is not None and user_api_key_dict.team_id == UI_TEAM_ID ): return True # handle https://github.com/BerriAI/litellm/issues/7482 return True def _team_key_operation_team_member_check( assigned_user_id: Optional[str], team_table: LiteLLM_TeamTableCachedObj, user_api_key_dict: UserAPIKeyAuth, team_key_generation: TeamUIKeyGenerationConfig, route: KeyManagementRoutes, ): if assigned_user_id is not None: key_assigned_user_in_team = _get_user_in_team( team_table=team_table, user_id=assigned_user_id ) if key_assigned_user_in_team is None: raise HTTPException( status_code=400, detail=f"User={assigned_user_id} not assigned to team={team_table.team_id}", ) team_member_object = _get_user_in_team( team_table=team_table, user_id=user_api_key_dict.user_id ) is_admin = ( user_api_key_dict.user_role is not None and user_api_key_dict.user_role == LitellmUserRoles.PROXY_ADMIN.value ) if is_admin: return True elif team_member_object is None: raise HTTPException( status_code=400, detail=f"User={user_api_key_dict.user_id} not assigned to team={team_table.team_id}", ) elif ( "allowed_team_member_roles" in team_key_generation and team_member_object.role not in team_key_generation["allowed_team_member_roles"] ): raise HTTPException( status_code=400, detail=f"Team member role {team_member_object.role} not in allowed_team_member_roles={team_key_generation['allowed_team_member_roles']}", ) TeamMemberPermissionChecks.does_team_member_have_permissions_for_endpoint( team_member_object=team_member_object, team_table=team_table, route=route, ) return True def _key_generation_required_param_check( data: GenerateKeyRequest, required_params: Optional[List[str]] ): if required_params is None: return True data_dict = data.model_dump(exclude_unset=True) for param in required_params: if param not in data_dict: raise HTTPException( status_code=400, detail=f"Required param {param} not in data", ) return True def _team_key_generation_check( team_table: LiteLLM_TeamTableCachedObj, user_api_key_dict: UserAPIKeyAuth, data: GenerateKeyRequest, route: KeyManagementRoutes, ): if user_api_key_dict.user_role == LitellmUserRoles.PROXY_ADMIN.value: return True if ( litellm.key_generation_settings is not None and "team_key_generation" in litellm.key_generation_settings ): _team_key_generation = litellm.key_generation_settings["team_key_generation"] else: _team_key_generation = TeamUIKeyGenerationConfig( allowed_team_member_roles=["admin", "user"], ) _team_key_operation_team_member_check( assigned_user_id=data.user_id, team_table=team_table, user_api_key_dict=user_api_key_dict, team_key_generation=_team_key_generation, route=route, ) _key_generation_required_param_check( data, _team_key_generation.get("required_params"), ) return True def _personal_key_membership_check( user_api_key_dict: UserAPIKeyAuth, personal_key_generation: Optional[PersonalUIKeyGenerationConfig], ): if ( personal_key_generation is None or "allowed_user_roles" not in personal_key_generation ): return True if user_api_key_dict.user_role not in personal_key_generation["allowed_user_roles"]: raise HTTPException( status_code=400, detail=f"Personal key creation has been restricted by admin. Allowed roles={litellm.key_generation_settings['personal_key_generation']['allowed_user_roles']}. Your role={user_api_key_dict.user_role}", # type: ignore ) return True def _personal_key_generation_check( user_api_key_dict: UserAPIKeyAuth, data: GenerateKeyRequest ): if ( litellm.key_generation_settings is None or litellm.key_generation_settings.get("personal_key_generation") is None ): return True _personal_key_generation = litellm.key_generation_settings["personal_key_generation"] # type: ignore _personal_key_membership_check( user_api_key_dict, personal_key_generation=_personal_key_generation, ) _key_generation_required_param_check( data, _personal_key_generation.get("required_params"), ) return True def key_generation_check( team_table: Optional[LiteLLM_TeamTableCachedObj], user_api_key_dict: UserAPIKeyAuth, data: GenerateKeyRequest, route: KeyManagementRoutes, ) -> bool: """ Check if admin has restricted key creation to certain roles for teams or individuals """ ## check if key is for team or individual is_team_key = _is_team_key(data=data) if is_team_key: if team_table is None and litellm.key_generation_settings is not None: raise HTTPException( status_code=400, detail=f"Unable to find team object in database. Team ID: {data.team_id}", ) elif team_table is None: return True # assume user is assigning team_id without using the team table return _team_key_generation_check( team_table=team_table, user_api_key_dict=user_api_key_dict, data=data, route=route, ) else: return _personal_key_generation_check( user_api_key_dict=user_api_key_dict, data=data ) def common_key_access_checks( user_api_key_dict: UserAPIKeyAuth, data: Union[GenerateKeyRequest, UpdateKeyRequest], llm_router: Optional[Router], premium_user: bool, user_id: Optional[str] = None, ) -> Literal[True]: """ Check if user is allowed to make a key request, for this key """ try: _is_allowed_to_make_key_request( user_api_key_dict=user_api_key_dict, user_id=user_id or data.user_id, team_id=data.team_id, ) except AssertionError as e: raise HTTPException( status_code=403, detail=str(e), ) except Exception as e: raise HTTPException( status_code=500, detail=str(e), ) _check_model_access_group( models=data.models, llm_router=llm_router, premium_user=premium_user, ) return True router = APIRouter() def handle_key_type(data: GenerateKeyRequest, data_json: dict) -> dict: """ Handle the key type. """ key_type = data.key_type data_json.pop("key_type", None) if key_type == LiteLLMKeyType.LLM_API: data_json["allowed_routes"] = ["llm_api_routes"] elif key_type == LiteLLMKeyType.MANAGEMENT: data_json["allowed_routes"] = ["management_routes"] elif key_type == LiteLLMKeyType.READ_ONLY: data_json["allowed_routes"] = ["info_routes"] return data_json async def validate_team_id_used_in_service_account_request( team_id: Optional[str], prisma_client: Optional[PrismaClient], ): """ Validate team_id is used in the request body for generating a service account key """ if team_id is None: raise HTTPException( status_code=400, detail="team_id is required for service account keys. Please specify `team_id` in the request body.", ) if prisma_client is None: raise HTTPException( status_code=400, detail="prisma_client is required for service account keys. Please specify `prisma_client` in the request body.", ) # check if team_id exists in the database team = await prisma_client.db.litellm_teamtable.find_unique( where={"team_id": team_id}, ) if team is None: raise HTTPException( status_code=400, detail="team_id does not exist in the database. Please specify a valid `team_id` in the request body.", ) return True async def _common_key_generation_helper( # noqa: PLR0915 data: GenerateKeyRequest, user_api_key_dict: UserAPIKeyAuth, litellm_changed_by: Optional[str], team_table: Optional[LiteLLM_TeamTableCachedObj], ) -> GenerateKeyResponse: from litellm.proxy.proxy_server import ( litellm_proxy_admin_name, llm_router, premium_user, prisma_client, ) common_key_access_checks( user_api_key_dict=user_api_key_dict, data=data, llm_router=llm_router, premium_user=premium_user, ) if ( data.metadata is not None and data.metadata.get("service_account_id") is not None and data.team_id is None ): await validate_team_id_used_in_service_account_request( team_id=data.team_id, prisma_client=prisma_client, ) # check if user set default key/generate params on config.yaml if litellm.default_key_generate_params is not None: for elem in data: key, value = elem if value is None and key in [ "max_budget", "user_id", "team_id", "max_parallel_requests", "tpm_limit", "rpm_limit", "budget_duration", "duration", ]: setattr(data, key, litellm.default_key_generate_params.get(key, None)) elif key == "models" and value == []: setattr(data, key, litellm.default_key_generate_params.get(key, [])) elif key == "metadata" and value == {}: setattr(data, key, litellm.default_key_generate_params.get(key, {})) # check if user set default key/generate params on config.yaml if litellm.upperbound_key_generate_params is not None: for elem in data: key, value = elem upperbound_value = getattr( litellm.upperbound_key_generate_params, key, None ) if upperbound_value is not None: if value is None: # Use the upperbound value if user didn't provide a value setattr(data, key, upperbound_value) else: # Compare with upperbound for numeric fields if key in [ "max_budget", "max_parallel_requests", "tpm_limit", "rpm_limit", ]: if value > upperbound_value: raise HTTPException( status_code=400, detail={ "error": f"{key} is over max limit set in config - user_value={value}; max_value={upperbound_value}" }, ) # Compare durations elif key in ["budget_duration", "duration"]: upperbound_duration = duration_in_seconds( duration=upperbound_value ) # Handle special case where duration is None or "-1" (never expires) if value is None or value == "-1": user_duration = float("inf") # Infinite duration else: user_duration = duration_in_seconds(duration=value) if user_duration > upperbound_duration: raise HTTPException( status_code=400, detail={ "error": f"{key} is over max limit set in config - user_value={value}; max_value={upperbound_value}" }, ) # APPLY ENTERPRISE KEY MANAGEMENT PARAMS try: from litellm_enterprise.proxy.management_endpoints.key_management_endpoints import ( apply_enterprise_key_management_params, ) data = apply_enterprise_key_management_params(data, team_table) except Exception as e: verbose_proxy_logger.debug( "litellm.proxy.proxy_server.generate_key_fn(): Enterprise key management params not applied - {}".format( str(e) ) ) # TODO: @ishaan-jaff: Migrate all budget tracking to use LiteLLM_BudgetTable _budget_id = data.budget_id if prisma_client is not None and data.soft_budget is not None: # create the Budget Row for the LiteLLM Verification Token budget_row = LiteLLM_BudgetTable( soft_budget=data.soft_budget, model_max_budget=data.model_max_budget or {}, ) new_budget = prisma_client.jsonify_object(budget_row.json(exclude_none=True)) _budget = await prisma_client.db.litellm_budgettable.create( data={ **new_budget, # type: ignore "created_by": user_api_key_dict.user_id or litellm_proxy_admin_name, "updated_by": user_api_key_dict.user_id or litellm_proxy_admin_name, } ) _budget_id = getattr(_budget, "budget_id", None) # ADD METADATA FIELDS # Set Management Endpoint Metadata Fields for field in LiteLLM_ManagementEndpoint_MetadataFields_Premium: if getattr(data, field, None) is not None: _set_object_metadata_field( object_data=data, field_name=field, value=getattr(data, field), ) delattr(data, field) for field in LiteLLM_ManagementEndpoint_MetadataFields: if getattr(data, field, None) is not None: _set_object_metadata_field( object_data=data, field_name=field, value=getattr(data, field), ) delattr(data, field) data_json = data.model_dump(exclude_unset=True, exclude_none=True) # type: ignore data_json = handle_key_type(data, data_json) # if we get max_budget passed to /key/generate, then use it as key_max_budget. Since generate_key_helper_fn is used to make new users if "max_budget" in data_json: data_json["key_max_budget"] = data_json.pop("max_budget", None) if _budget_id is not None: data_json["budget_id"] = _budget_id # Only set budget_duration on key when explicitly provided. Keys with budget_id # but no explicit budget_duration follow their linked budget tier's schedule; # reset_budget_for_keys_linked_to_budgets() resets them when the tier resets. # This avoids duplicating budget_duration on keys so tier updates apply automatically. if "budget_duration" in data_json: data_json["key_budget_duration"] = data_json.pop("budget_duration", None) if user_api_key_dict.user_id is not None: data_json["created_by"] = user_api_key_dict.user_id data_json["updated_by"] = user_api_key_dict.user_id # Set tags on the new key if "tags" in data_json: from litellm.proxy.proxy_server import premium_user if premium_user is not True and data_json["tags"] is not None: raise ValueError( f"Only premium users can add tags to keys. {CommonProxyErrors.not_premium_user.value}" ) _metadata = data_json.get("metadata") if not _metadata: data_json["metadata"] = {"tags": data_json["tags"]} else: data_json["metadata"]["tags"] = data_json["tags"] data_json.pop("tags") data_json = await _set_object_permission( data_json=data_json, prisma_client=prisma_client, ) _validate_key_alias_format(key_alias=data_json.get("key_alias", None)) await _enforce_unique_key_alias( key_alias=data_json.get("key_alias", None), prisma_client=prisma_client, ) # Validate user-provided key format if data.key is not None and not data.key.startswith("sk-"): _masked = ( "{}****{}".format(data.key[:4], data.key[-4:]) if len(data.key) > 8 else "****" ) raise HTTPException( status_code=400, detail={ "error": f"Invalid key format. LiteLLM Virtual Key must start with 'sk-'. Received: {_masked}" }, ) # check org key limits - done here to handle inheriting org id from team if data.organization_id is not None: from litellm.proxy.proxy_server import prisma_client, user_api_key_cache if prisma_client: org_table = await get_org_object( org_id=data.organization_id, user_api_key_cache=user_api_key_cache, prisma_client=prisma_client, ) if org_table is None: raise HTTPException( status_code=400, detail=f"Organization not found for organization_id={data.organization_id}", ) await _check_org_key_limits( org_table=org_table, data=data, prisma_client=prisma_client, ) response = await generate_key_helper_fn( request_type="key", **data_json, table_name="key" ) response[ "soft_budget" ] = data.soft_budget # include the user-input soft budget in the response response = GenerateKeyResponse(**response) response.token = ( response.token_id ) # remap token to use the hash, and leave the key in the `key` field [TODO]: clean up generate_key_helper_fn to do this asyncio.create_task( KeyManagementEventHooks.async_key_generated_hook( data=data, response=response, user_api_key_dict=user_api_key_dict, litellm_changed_by=litellm_changed_by, ) ) return response def _check_key_model_specific_limits( keys: List[LiteLLM_VerificationToken], data: Union[GenerateKeyRequest, UpdateKeyRequest], entity_rpm_limit: Optional[int], entity_tpm_limit: Optional[int], entity_model_rpm_limit_dict: Dict[str, int], entity_model_tpm_limit_dict: Dict[str, int], entity_type: str, # "team" or "organization" ) -> None: """ Generic function to check if a key is allocating model specific limits. Raises an error if we're overallocating. """ model_rpm_limit = getattr(data, "model_rpm_limit", None) or ( data.metadata.get("model_rpm_limit", None) if data.metadata else None ) model_tpm_limit = getattr(data, "model_tpm_limit", None) or ( data.metadata.get("model_tpm_limit", None) if data.metadata else None ) if model_rpm_limit is None and model_tpm_limit is None: return # get total model specific tpm/rpm limit model_specific_rpm_limit: Dict[str, int] = {} model_specific_tpm_limit: Dict[str, int] = {} for key in keys: if key.metadata.get("model_rpm_limit", None) is not None: for model, rpm_limit in key.metadata.get("model_rpm_limit", {}).items(): model_specific_rpm_limit[model] = ( model_specific_rpm_limit.get(model, 0) + rpm_limit ) if key.metadata.get("model_tpm_limit", None) is not None: for model, tpm_limit in key.metadata.get("model_tpm_limit", {}).items(): model_specific_tpm_limit[model] = ( model_specific_tpm_limit.get(model, 0) + tpm_limit ) if model_rpm_limit is not None: for model, rpm_limit in model_rpm_limit.items(): if ( entity_rpm_limit is not None and model_specific_rpm_limit.get(model, 0) + rpm_limit > entity_rpm_limit ): raise HTTPException( status_code=400, detail=f"Allocated RPM limit={model_specific_rpm_limit.get(model, 0)} + Key RPM limit={rpm_limit} is greater than {entity_type} RPM limit={entity_rpm_limit}", ) elif entity_model_rpm_limit_dict: entity_model_specific_rpm_limit = entity_model_rpm_limit_dict.get(model) if ( entity_model_specific_rpm_limit and model_specific_rpm_limit.get(model, 0) + rpm_limit > entity_model_specific_rpm_limit ): raise HTTPException( status_code=400, detail=f"Allocated RPM limit={model_specific_rpm_limit.get(model, 0)} + Key RPM limit={rpm_limit} is greater than {entity_type} RPM limit={entity_model_specific_rpm_limit}", ) if model_tpm_limit is not None: for model, tpm_limit in model_tpm_limit.items(): if ( entity_tpm_limit is not None and model_specific_tpm_limit.get(model, 0) + tpm_limit > entity_tpm_limit ): raise HTTPException( status_code=400, detail=f"Allocated TPM limit={model_specific_tpm_limit.get(model, 0)} + Key TPM limit={tpm_limit} is greater than {entity_type} TPM limit={entity_tpm_limit}", ) elif entity_model_tpm_limit_dict: entity_model_specific_tpm_limit = entity_model_tpm_limit_dict.get(model) if ( entity_model_specific_tpm_limit and model_specific_tpm_limit.get(model, 0) + tpm_limit > entity_model_specific_tpm_limit ): raise HTTPException( status_code=400, detail=f"Allocated TPM limit={model_specific_tpm_limit.get(model, 0)} + Key TPM limit={tpm_limit} is greater than {entity_type} TPM limit={entity_model_specific_tpm_limit}", ) def _check_key_rpm_tpm_limits( keys: List[LiteLLM_VerificationToken], data: Union[GenerateKeyRequest, UpdateKeyRequest], entity_rpm_limit: Optional[int], entity_tpm_limit: Optional[int], entity_type: str, # "team" or "organization" ) -> None: """ Generic function to check if a key is allocating rpm/tpm limits. Raises an error if we're overallocating. """ if keys is not None and len(keys) > 0: allocated_tpm = sum(key.tpm_limit for key in keys if key.tpm_limit is not None) allocated_rpm = sum(key.rpm_limit for key in keys if key.rpm_limit is not None) else: allocated_tpm = 0 allocated_rpm = 0 if ( data.tpm_limit is not None and entity_tpm_limit is not None and data.tpm_limit + allocated_tpm > entity_tpm_limit ): raise HTTPException( status_code=400, detail=f"Allocated TPM limit={allocated_tpm} + Key TPM limit={data.tpm_limit} is greater than {entity_type} TPM limit={entity_tpm_limit}", ) if ( data.rpm_limit is not None and entity_rpm_limit is not None and data.rpm_limit + allocated_rpm > entity_rpm_limit ): raise HTTPException( status_code=400, detail=f"Allocated RPM limit={allocated_rpm} + Key RPM limit={data.rpm_limit} is greater than {entity_type} RPM limit={entity_rpm_limit}", ) def check_team_key_model_specific_limits( keys: List[LiteLLM_VerificationToken], team_table: LiteLLM_TeamTableCachedObj, data: Union[GenerateKeyRequest, UpdateKeyRequest], ) -> None: """ Check if the team key is allocating model specific limits. If so, raise an error if we're overallocating. """ entity_model_rpm_limit_dict = {} entity_model_tpm_limit_dict = {} if team_table.metadata: entity_model_rpm_limit_dict = team_table.metadata.get("model_rpm_limit", {}) entity_model_tpm_limit_dict = team_table.metadata.get("model_tpm_limit", {}) _check_key_model_specific_limits( keys=keys, data=data, entity_rpm_limit=team_table.rpm_limit, entity_tpm_limit=team_table.tpm_limit, entity_model_rpm_limit_dict=entity_model_rpm_limit_dict, entity_model_tpm_limit_dict=entity_model_tpm_limit_dict, entity_type="team", ) def check_team_key_rpm_tpm_limits( keys: List[LiteLLM_VerificationToken], team_table: LiteLLM_TeamTableCachedObj, data: Union[GenerateKeyRequest, UpdateKeyRequest], ) -> None: """ Check if the team key is allocating rpm/tpm limits. If so, raise an error if we're overallocating. """ _check_key_rpm_tpm_limits( keys=keys, data=data, entity_rpm_limit=team_table.rpm_limit, entity_tpm_limit=team_table.tpm_limit, entity_type="team", ) async def _check_team_key_limits( team_table: LiteLLM_TeamTableCachedObj, data: Union[GenerateKeyRequest, UpdateKeyRequest], prisma_client: PrismaClient, ) -> None: """ Check if the team key is allocating guaranteed throughput limits. If so, raise an error if we're overallocating. Only runs check if tpm_limit_type or rpm_limit_type is "guaranteed_throughput" """ if ( data.tpm_limit_type != "guaranteed_throughput" and data.rpm_limit_type != "guaranteed_throughput" ): return # get all team keys # calculate allocated tpm/rpm limit # check if specified tpm/rpm limit is greater than allocated tpm/rpm limit keys = await prisma_client.db.litellm_verificationtoken.find_many( where={"team_id": team_table.team_id}, ) check_team_key_model_specific_limits( keys=keys, team_table=team_table, data=data, ) check_team_key_rpm_tpm_limits( keys=keys, team_table=team_table, data=data, ) async def _check_project_key_limits( project_id: str, data: Union[GenerateKeyRequest, UpdateKeyRequest], prisma_client: PrismaClient, user_api_key_cache: DualCache, ) -> None: """ Validate that key's models and budget respect its project's limits. - Key models must be a subset of project models - Key max_budget must be <= project max_budget """ project_obj = await get_project_object( project_id=project_id, prisma_client=prisma_client, user_api_key_cache=user_api_key_cache, ) if project_obj is None: raise HTTPException( status_code=404, detail={"error": f"Project not found, project_id={project_id}"}, ) # Validate key models are a subset of project models if data.models and len(project_obj.models) > 0: for m in data.models: if m not in project_obj.models: raise HTTPException( status_code=400, detail={ "error": f"Model '{m}' not in project's allowed models. Project allowed models={project_obj.models}. Project: {project_id}" }, ) # Validate key max_budget <= project max_budget project_max_budget = None if project_obj.litellm_budget_table is not None: project_max_budget = getattr( project_obj.litellm_budget_table, "max_budget", None ) if ( data.max_budget is not None and project_max_budget is not None and data.max_budget > project_max_budget ): raise HTTPException( status_code=400, detail={ "error": f"Key max_budget ({data.max_budget}) exceeds project's max_budget ({project_max_budget}). Project: {project_id}" }, ) def check_org_key_model_specific_limits( keys: List[LiteLLM_VerificationToken], org_table: LiteLLM_OrganizationTable, data: Union[GenerateKeyRequest, UpdateKeyRequest], ) -> None: """ Check if the organization key is allocating model specific limits. If so, raise an error if we're overallocating. """ # Get org limits from budget table if available entity_rpm_limit = None entity_tpm_limit = None entity_model_rpm_limit_dict = {} entity_model_tpm_limit_dict = {} if org_table.litellm_budget_table is not None: entity_rpm_limit = org_table.litellm_budget_table.rpm_limit entity_tpm_limit = org_table.litellm_budget_table.tpm_limit if org_table.metadata: entity_model_rpm_limit_dict = org_table.metadata.get("model_rpm_limit", {}) entity_model_tpm_limit_dict = org_table.metadata.get("model_tpm_limit", {}) _check_key_model_specific_limits( keys=keys, data=data, entity_rpm_limit=entity_rpm_limit, entity_tpm_limit=entity_tpm_limit, entity_model_rpm_limit_dict=entity_model_rpm_limit_dict, entity_model_tpm_limit_dict=entity_model_tpm_limit_dict, entity_type="organization", ) def check_org_key_rpm_tpm_limits( keys: List[LiteLLM_VerificationToken], org_table: LiteLLM_OrganizationTable, data: Union[GenerateKeyRequest, UpdateKeyRequest], ) -> None: """ Check if the organization key is allocating rpm/tpm limits. If so, raise an error if we're overallocating. """ # Get org limits from budget table if available entity_rpm_limit = None entity_tpm_limit = None if org_table.litellm_budget_table is not None: entity_rpm_limit = org_table.litellm_budget_table.rpm_limit entity_tpm_limit = org_table.litellm_budget_table.tpm_limit _check_key_rpm_tpm_limits( keys=keys, data=data, entity_rpm_limit=entity_rpm_limit, entity_tpm_limit=entity_tpm_limit, entity_type="organization", ) async def _check_org_key_limits( org_table: LiteLLM_OrganizationTable, data: Union[GenerateKeyRequest, UpdateKeyRequest], prisma_client: PrismaClient, ) -> None: """ Check if the organization key is allocating guaranteed throughput limits. If so, raise an error if we're overallocating. Only runs check if tpm_limit_type or rpm_limit_type is "guaranteed_throughput" """ rpm_limit_type = getattr(data, "rpm_limit_type", None) or ( data.metadata.get("rpm_limit_type", None) if data.metadata else None ) tpm_limit_type = getattr(data, "tpm_limit_type", None) or ( data.metadata.get("tpm_limit_type", None) if data.metadata else None ) if ( tpm_limit_type != "guaranteed_throughput" and rpm_limit_type != "guaranteed_throughput" ): return # get all organization keys # calculate allocated tpm/rpm limit # check if specified tpm/rpm limit is greater than allocated tpm/rpm limit keys = await prisma_client.db.litellm_verificationtoken.find_many( where={"organization_id": org_table.organization_id}, ) check_org_key_model_specific_limits( keys=keys, org_table=org_table, data=data, ) check_org_key_rpm_tpm_limits( keys=keys, org_table=org_table, data=data, ) @router.post( "/key/generate", tags=["key management"], dependencies=[Depends(user_api_key_auth)], response_model=GenerateKeyResponse, ) @management_endpoint_wrapper async def generate_key_fn( data: GenerateKeyRequest, user_api_key_dict: UserAPIKeyAuth = Depends(user_api_key_auth), litellm_changed_by: Optional[str] = Header( None, description="The litellm-changed-by header enables tracking of actions performed by authorized users on behalf of other users, providing an audit trail for accountability", ), ): """ Generate an API key based on the provided data. Docs: https://docs.litellm.ai/docs/proxy/virtual_keys Parameters: - duration: Optional[str] - Specify the length of time the token is valid for. You can set duration as seconds ("30s"), minutes ("30m"), hours ("30h"), days ("30d"). - key_alias: Optional[str] - User defined key alias - key: Optional[str] - User defined key value. If not set, a 16-digit unique sk-key is created for you. - team_id: Optional[str] - The team id of the key - user_id: Optional[str] - The user id of the key - agent_id: Optional[str] - The agent id associated with the key. - organization_id: Optional[str] - The organization id of the key. If not set, and team_id is set, the organization id will be the same as the team id. If conflict, an error will be raised. - project_id: Optional[str] - The project id of the key. When set, models and max_budget are validated against the project's limits. - budget_id: Optional[str] - The budget id associated with the key. Created by calling `/budget/new`. - models: Optional[list] - Model_name's a user is allowed to call. (if empty, key is allowed to call all models) - aliases: Optional[dict] - Any alias mappings, on top of anything in the config.yaml model list. - https://docs.litellm.ai/docs/proxy/virtual_keys#managing-auth---upgradedowngrade-models - config: Optional[dict] - any key-specific configs, overrides config in config.yaml - spend: Optional[int] - Amount spent by key. Default is 0. Will be updated by proxy whenever key is used. https://docs.litellm.ai/docs/proxy/virtual_keys#managing-auth---tracking-spend - send_invite_email: Optional[bool] - Whether to send an invite email to the user_id, with the generate key - max_budget: Optional[float] - Specify max budget for a given key. - budget_duration: Optional[str] - Budget is reset at the end of specified duration. If not set, budget is never reset. You can set duration as seconds ("30s"), minutes ("30m"), hours ("30h"), days ("30d"). - max_parallel_requests: Optional[int] - Rate limit a user based on the number of parallel requests. Raises 429 error, if user's parallel requests > x. - metadata: Optional[dict] - Metadata for key, store information for key. Example metadata = {"team": "core-infra", "app": "app2", "email": "ishaan@berri.ai" } - guardrails: Optional[List[str]] - List of active guardrails for the key - policies: Optional[List[str]] - List of policy names to apply to the key. Policies define guardrails, conditions, and inheritance rules. - disable_global_guardrails: Optional[bool] - Whether to disable global guardrails for the key. - permissions: Optional[dict] - key-specific permissions. Currently just used for turning off pii masking (if connected). Example - {"pii": false} - model_max_budget: Optional[Dict[str, BudgetConfig]] - Model-specific budgets {"gpt-4": {"budget_limit": 0.0005, "time_period": "30d"}}}. IF null or {} then no model specific budget. - model_rpm_limit: Optional[dict] - key-specific model rpm limit. Example - {"text-davinci-002": 1000, "gpt-3.5-turbo": 1000}. IF null or {} then no model specific rpm limit. - model_tpm_limit: Optional[dict] - key-specific model tpm limit. Example - {"text-davinci-002": 1000, "gpt-3.5-turbo": 1000}. IF null or {} then no model specific tpm limit. - tpm_limit_type: Optional[str] - Type of tpm limit. Options: "best_effort_throughput" (no error if we're overallocating tpm), "guaranteed_throughput" (raise an error if we're overallocating tpm), "dynamic" (dynamically exceed limit when no 429 errors). Defaults to "best_effort_throughput". - rpm_limit_type: Optional[str] - Type of rpm limit. Options: "best_effort_throughput" (no error if we're overallocating rpm), "guaranteed_throughput" (raise an error if we're overallocating rpm), "dynamic" (dynamically exceed limit when no 429 errors). Defaults to "best_effort_throughput". - allowed_cache_controls: Optional[list] - List of allowed cache control values. Example - ["no-cache", "no-store"]. See all values - https://docs.litellm.ai/docs/proxy/caching#turn-on--off-caching-per-request - blocked: Optional[bool] - Whether the key is blocked. - rpm_limit: Optional[int] - Specify rpm limit for a given key (Requests per minute) - tpm_limit: Optional[int] - Specify tpm limit for a given key (Tokens per minute) - soft_budget: Optional[float] - Specify soft budget for a given key. Will trigger a slack alert when this soft budget is reached. - tags: Optional[List[str]] - Tags for [tracking spend](https://litellm.vercel.app/docs/proxy/enterprise#tracking-spend-for-custom-tags) and/or doing [tag-based routing](https://litellm.vercel.app/docs/proxy/tag_routing). - prompts: Optional[List[str]] - List of prompts that the key is allowed to use. - enforced_params: Optional[List[str]] - List of enforced params for the key (Enterprise only). [Docs](https://docs.litellm.ai/docs/proxy/enterprise#enforce-required-params-for-llm-requests) - prompts: Optional[List[str]] - List of prompts that the key is allowed to use. - allowed_routes: Optional[list] - List of allowed routes for the key. Store the actual route or store a wildcard pattern for a set of routes. Example - ["/chat/completions", "/embeddings", "/keys/*"] - allowed_passthrough_routes: Optional[list] - List of allowed pass through endpoints for the key. Store the actual endpoint or store a wildcard pattern for a set of endpoints. Example - ["/my-custom-endpoint"]. Use this instead of allowed_routes, if you just want to specify which pass through endpoints the key can access, without specifying the routes. If allowed_routes is specified, allowed_pass_through_endpoints is ignored. - object_permission: Optional[LiteLLM_ObjectPermissionBase] - key-specific object permission. Example - {"vector_stores": ["vector_store_1", "vector_store_2"], "agents": ["agent_1", "agent_2"], "agent_access_groups": ["dev_group"]}. IF null or {} then no object permission. - key_type: Optional[str] - Type of key that determines default allowed routes. Options: "llm_api" (can call LLM API routes), "management" (can call management routes), "read_only" (can only call info/read routes), "default" (uses default allowed routes). Defaults to "default". - prompts: Optional[List[str]] - List of allowed prompts for the key. If specified, the key will only be able to use these specific prompts. - auto_rotate: Optional[bool] - Whether this key should be automatically rotated (regenerated) - rotation_interval: Optional[str] - How often to auto-rotate this key (e.g., '30s', '30m', '30h', '30d'). Required if auto_rotate=True. - allowed_vector_store_indexes: Optional[List[dict]] - List of allowed vector store indexes for the key. Example - [{"index_name": "my-index", "index_permissions": ["write", "read"]}]. If specified, the key will only be able to use these specific vector store indexes. Create index, using `/v1/indexes` endpoint. - router_settings: Optional[UpdateRouterConfig] - key-specific router settings. Example - {"model_group_retry_policy": {"max_retries": 5}}. IF null or {} then no router settings. - access_group_ids: Optional[List[str]] - List of access group IDs to associate with the key. Access groups define which models a key can access. Example - ["access_group_1", "access_group_2"]. Examples: 1. Allow users to turn on/off pii masking ```bash curl --location 'http://0.0.0.0:4000/key/generate' \ --header 'Authorization: Bearer sk-1234' \ --header 'Content-Type: application/json' \ --data '{ "permissions": {"allow_pii_controls": true} }' ``` Returns: - key: (str) The generated api key - expires: (datetime) Datetime object for when key expires. - user_id: (str) Unique user id - used for tracking spend across multiple keys for same user id. """ try: from litellm.proxy._types import CommonProxyErrors from litellm.proxy.proxy_server import ( prisma_client, user_api_key_cache, user_custom_key_generate, ) if prisma_client is None: raise HTTPException( status_code=status.HTTP_500_INTERNAL_SERVER_ERROR, detail={"error": CommonProxyErrors.db_not_connected_error.value}, ) verbose_proxy_logger.debug("entered /key/generate") # Validate budget values are not negative if data.max_budget is not None and data.max_budget < 0: raise HTTPException( status_code=400, detail={ "error": f"max_budget cannot be negative. Received: {data.max_budget}" }, ) if data.soft_budget is not None and data.soft_budget < 0: raise HTTPException( status_code=400, detail={ "error": f"soft_budget cannot be negative. Received: {data.soft_budget}" }, ) if user_custom_key_generate is not None: if inspect.iscoroutinefunction(user_custom_key_generate): result = await user_custom_key_generate(data) # type: ignore else: raise ValueError("user_custom_key_generate must be a coroutine") decision = result.get("decision", True) message = result.get("message", "Authentication Failed - Custom Auth Rule") if not decision: raise HTTPException( status_code=status.HTTP_403_FORBIDDEN, detail=message ) team_table: Optional[LiteLLM_TeamTableCachedObj] = None if data.team_id is not None: try: team_table = await get_team_object( team_id=data.team_id, prisma_client=prisma_client, user_api_key_cache=user_api_key_cache, parent_otel_span=user_api_key_dict.parent_otel_span, check_db_only=True, ) except Exception as e: verbose_proxy_logger.debug( f"Error getting team object in `/key/generate`: {e}" ) key_generation_check( team_table=team_table, user_api_key_dict=user_api_key_dict, data=data, route=KeyManagementRoutes.KEY_GENERATE, ) if team_table is not None: await _check_team_key_limits( team_table=team_table, data=data, prisma_client=prisma_client, ) # Validate key against project limits if project_id is set if data.project_id is not None: await _check_project_key_limits( project_id=data.project_id, data=data, prisma_client=prisma_client, user_api_key_cache=user_api_key_cache, ) return await _common_key_generation_helper( data=data, user_api_key_dict=user_api_key_dict, litellm_changed_by=litellm_changed_by, team_table=team_table, ) except Exception as e: verbose_proxy_logger.exception( "litellm.proxy.proxy_server.generate_key_fn(): Exception occured - {}".format( str(e) ) ) raise handle_exception_on_proxy(e) @router.post( "/key/service-account/generate", tags=["key management"], dependencies=[Depends(user_api_key_auth)], ) @management_endpoint_wrapper async def generate_service_account_key_fn( data: GenerateKeyRequest, user_api_key_dict: UserAPIKeyAuth = Depends(user_api_key_auth), litellm_changed_by: Optional[str] = Header( None, description="The litellm-changed-by header enables tracking of actions performed by authorized users on behalf of other users, providing an audit trail for accountability", ), ): """ Generate a Service Account API key based on the provided data. This key does not belong to any user. It belongs to the team. Why use a service account key? - Prevent key from being deleted when user is deleted. - Apply team limits, not team member limits to key. Docs: https://docs.litellm.ai/docs/proxy/virtual_keys Parameters: - duration: Optional[str] - Specify the length of time the token is valid for. You can set duration as seconds ("30s"), minutes ("30m"), hours ("30h"), days ("30d"). - key_alias: Optional[str] - User defined key alias - key: Optional[str] - User defined key value. If not set, a 16-digit unique sk-key is created for you. - team_id: Optional[str] - The team id of the key - user_id: Optional[str] - [NON-FUNCTIONAL] THIS WILL BE IGNORED. The user id of the key - budget_id: Optional[str] - The budget id associated with the key. Created by calling `/budget/new`. - models: Optional[list] - Model_name's a user is allowed to call. (if empty, key is allowed to call all models) - aliases: Optional[dict] - Any alias mappings, on top of anything in the config.yaml model list. - https://docs.litellm.ai/docs/proxy/virtual_keys#managing-auth---upgradedowngrade-models - config: Optional[dict] - any key-specific configs, overrides config in config.yaml - spend: Optional[int] - Amount spent by key. Default is 0. Will be updated by proxy whenever key is used. https://docs.litellm.ai/docs/proxy/virtual_keys#managing-auth---tracking-spend - send_invite_email: Optional[bool] - Whether to send an invite email to the user_id, with the generate key - max_budget: Optional[float] - Specify max budget for a given key. - budget_duration: Optional[str] - Budget is reset at the end of specified duration. If not set, budget is never reset. You can set duration as seconds ("30s"), minutes ("30m"), hours ("30h"), days ("30d"). - max_parallel_requests: Optional[int] - Rate limit a user based on the number of parallel requests. Raises 429 error, if user's parallel requests > x. - metadata: Optional[dict] - Metadata for key, store information for key. Example metadata = {"team": "core-infra", "app": "app2", "email": "ishaan@berri.ai" } - guardrails: Optional[List[str]] - List of active guardrails for the key - permissions: Optional[dict] - key-specific permissions. Currently just used for turning off pii masking (if connected). Example - {"pii": false} - model_max_budget: Optional[Dict[str, BudgetConfig]] - Model-specific budgets {"gpt-4": {"budget_limit": 0.0005, "time_period": "30d"}}}. IF null or {} then no model specific budget. - model_rpm_limit: Optional[dict] - key-specific model rpm limit. Example - {"text-davinci-002": 1000, "gpt-3.5-turbo": 1000}. IF null or {} then no model specific rpm limit. - model_tpm_limit: Optional[dict] - key-specific model tpm limit. Example - {"text-davinci-002": 1000, "gpt-3.5-turbo": 1000}. IF null or {} then no model specific tpm limit. - tpm_limit_type: Optional[str] - TPM rate limit type - "best_effort_throughput", "guaranteed_throughput", or "dynamic" - rpm_limit_type: Optional[str] - RPM rate limit type - "best_effort_throughput", "guaranteed_throughput", or "dynamic" - allowed_cache_controls: Optional[list] - List of allowed cache control values. Example - ["no-cache", "no-store"]. See all values - https://docs.litellm.ai/docs/proxy/caching#turn-on--off-caching-per-request - blocked: Optional[bool] - Whether the key is blocked. - rpm_limit: Optional[int] - Specify rpm limit for a given key (Requests per minute) - tpm_limit: Optional[int] - Specify tpm limit for a given key (Tokens per minute) - soft_budget: Optional[float] - Specify soft budget for a given key. Will trigger a slack alert when this soft budget is reached. - tags: Optional[List[str]] - Tags for [tracking spend](https://litellm.vercel.app/docs/proxy/enterprise#tracking-spend-for-custom-tags) and/or doing [tag-based routing](https://litellm.vercel.app/docs/proxy/tag_routing). - enforced_params: Optional[List[str]] - List of enforced params for the key (Enterprise only). [Docs](https://docs.litellm.ai/docs/proxy/enterprise#enforce-required-params-for-llm-requests) - allowed_routes: Optional[list] - List of allowed routes for the key. Store the actual route or store a wildcard pattern for a set of routes. Example - ["/chat/completions", "/embeddings", "/keys/*"] - object_permission: Optional[LiteLLM_ObjectPermissionBase] - key-specific object permission. Example - {"vector_stores": ["vector_store_1", "vector_store_2"], "agents": ["agent_1", "agent_2"], "agent_access_groups": ["dev_group"]}. IF null or {} then no object permission. Examples: - allowed_vector_store_indexes: Optional[List[dict]] - List of allowed vector store indexes for the key. Example - [{"index_name": "my-index", "index_permissions": ["write", "read"]}]. If specified, the key will only be able to use these specific vector store indexes. Create index, using `/v1/indexes` endpoint. 1. Allow users to turn on/off pii masking ```bash curl --location 'http://0.0.0.0:4000/key/generate' \ --header 'Authorization: Bearer sk-1234' \ --header 'Content-Type: application/json' \ --data '{ "permissions": {"allow_pii_controls": true} }' ``` Returns: - key: (str) The generated api key - expires: (datetime) Datetime object for when key expires. - user_id: (str) Unique user id - used for tracking spend across multiple keys for same user id. """ from litellm.proxy._types import CommonProxyErrors from litellm.proxy.proxy_server import ( prisma_client, user_api_key_cache, user_custom_key_generate, ) if prisma_client is None: raise HTTPException( status_code=status.HTTP_500_INTERNAL_SERVER_ERROR, detail={"error": CommonProxyErrors.db_not_connected_error.value}, ) await validate_team_id_used_in_service_account_request( team_id=data.team_id, prisma_client=prisma_client, ) verbose_proxy_logger.debug("entered /key/generate") if user_custom_key_generate is not None: if inspect.iscoroutinefunction(user_custom_key_generate): result = await user_custom_key_generate(data) # type: ignore else: raise ValueError("user_custom_key_generate must be a coroutine") decision = result.get("decision", True) message = result.get("message", "Authentication Failed - Custom Auth Rule") if not decision: raise HTTPException(status_code=status.HTTP_403_FORBIDDEN, detail=message) team_table: Optional[LiteLLM_TeamTableCachedObj] = None if data.team_id is not None: try: team_table = await get_team_object( team_id=data.team_id, prisma_client=prisma_client, user_api_key_cache=user_api_key_cache, parent_otel_span=user_api_key_dict.parent_otel_span, check_db_only=True, ) except Exception as e: verbose_proxy_logger.debug( f"Error getting team object in `/key/generate`: {e}" ) team_table = None if team_table is not None: await _check_team_key_limits( team_table=team_table, data=data, prisma_client=prisma_client, ) key_generation_check( team_table=team_table, user_api_key_dict=user_api_key_dict, data=data, route=KeyManagementRoutes.KEY_GENERATE_SERVICE_ACCOUNT, ) data.user_id = None # do not allow user_id to be set for service account keys return await _common_key_generation_helper( data=data, user_api_key_dict=user_api_key_dict, litellm_changed_by=litellm_changed_by, team_table=team_table, ) def prepare_metadata_fields( data: BaseModel, non_default_values: dict, existing_metadata: dict ) -> dict: """ Check LiteLLM_ManagementEndpoint_MetadataFields (proxy/_types.py) for fields that are allowed to be updated """ if "metadata" not in non_default_values: # allow user to set metadata to none non_default_values["metadata"] = existing_metadata.copy() casted_metadata = cast(dict, non_default_values["metadata"]) data_json = data.model_dump(exclude_unset=True, exclude_none=True) try: for k, v in data_json.items(): if k in LiteLLM_ManagementEndpoint_MetadataFields: if isinstance(v, datetime): casted_metadata[k] = v.isoformat() else: casted_metadata[k] = v if k in LiteLLM_ManagementEndpoint_MetadataFields_Premium: from litellm.proxy.utils import _premium_user_check _premium_user_check(k) casted_metadata[k] = v except Exception as e: verbose_proxy_logger.exception( "litellm.proxy.proxy_server.prepare_metadata_fields(): Exception occured - {}".format( str(e) ) ) non_default_values["metadata"] = casted_metadata return non_default_values async def prepare_key_update_data( data: Union[UpdateKeyRequest, RegenerateKeyRequest], existing_key_row: LiteLLM_VerificationToken, ): data_json: dict = data.model_dump(exclude_unset=True) data_json.pop("key", None) data_json.pop("new_key", None) data_json.pop("grace_period", None) # Request-only param, not a DB column if ( data.metadata is not None and data.metadata.get("service_account_id") is not None and (data.team_id or existing_key_row.team_id) is None ): raise HTTPException( status_code=400, detail="team_id is required for service account keys. Please specify `team_id` in the request body.", ) non_default_values = {} # ADD METADATA FIELDS # Set Management Endpoint Metadata Fields for field in LiteLLM_ManagementEndpoint_MetadataFields_Premium: if getattr(data, field, None) is not None: _set_object_metadata_field( object_data=data, field_name=field, value=getattr(data, field), ) for k, v in data_json.items(): if ( k in LiteLLM_ManagementEndpoint_MetadataFields or k in LiteLLM_ManagementEndpoint_MetadataFields_Premium ): continue non_default_values[k] = v if "duration" in non_default_values: duration = non_default_values.pop("duration") if duration is None or duration == "-1": # Set expires to None to indicate the key never expires non_default_values["expires"] = None elif duration and (isinstance(duration, str)) and len(duration) > 0: duration_s = duration_in_seconds(duration=duration) expires = datetime.now(timezone.utc) + timedelta(seconds=duration_s) non_default_values["expires"] = expires if "budget_duration" in non_default_values: budget_duration = non_default_values.pop("budget_duration") if ( budget_duration and (isinstance(budget_duration, str)) and len(budget_duration) > 0 ): from litellm.proxy.common_utils.timezone_utils import get_budget_reset_time key_reset_at = get_budget_reset_time(budget_duration=budget_duration) non_default_values["budget_reset_at"] = key_reset_at non_default_values["budget_duration"] = budget_duration if "object_permission" in non_default_values: non_default_values = await _handle_update_object_permission( data_json=non_default_values, existing_key_row=existing_key_row, ) _metadata = existing_key_row.metadata or {} # validate model_max_budget if "model_max_budget" in non_default_values: validate_model_max_budget(non_default_values["model_max_budget"]) # Serialize router_settings to JSON if present if ( "router_settings" in non_default_values and non_default_values["router_settings"] is not None ): non_default_values["router_settings"] = safe_dumps( non_default_values["router_settings"] ) non_default_values = prepare_metadata_fields( data=data, non_default_values=non_default_values, existing_metadata=_metadata ) return non_default_values async def _handle_update_object_permission( data_json: dict, existing_key_row: LiteLLM_VerificationToken, ) -> dict: """ Handle the update of object permission. """ from litellm.proxy.proxy_server import prisma_client # Use the common helper to handle the object permission update object_permission_id = await handle_update_object_permission_common( data_json=data_json, existing_object_permission_id=existing_key_row.object_permission_id, prisma_client=prisma_client, ) # Add the object_permission_id to data_json if one was created/updated if object_permission_id is not None: data_json["object_permission_id"] = object_permission_id verbose_proxy_logger.debug( f"updated object_permission_id: {object_permission_id}" ) return data_json def is_different_team( data: UpdateKeyRequest, existing_key_row: LiteLLM_VerificationToken ) -> bool: if data.team_id is None: return False if existing_key_row.team_id is None: return True return data.team_id != existing_key_row.team_id def _validate_max_budget(max_budget: Optional[float]) -> None: """ Validate that max_budget is not negative. Args: max_budget: The max_budget value to validate Raises: HTTPException: If max_budget is negative """ if max_budget is not None and max_budget < 0: raise HTTPException( status_code=400, detail={"error": f"max_budget cannot be negative. Received: {max_budget}"}, ) async def _get_and_validate_existing_key( token: str, prisma_client: Optional[PrismaClient] ) -> LiteLLM_VerificationToken: """ Get existing key from database and validate it exists. Args: token: The key token to look up prisma_client: Prisma client instance Returns: LiteLLM_VerificationToken: The existing key row Raises: HTTPException: If key is not found """ if prisma_client is None: raise HTTPException( status_code=500, detail={"error": "Database not connected"}, ) existing_key_row = await prisma_client.get_data( token=token, table_name="key", query_type="find_unique", ) if existing_key_row is None: raise HTTPException( status_code=404, detail={"error": f"Key not found: {token}"}, ) return existing_key_row async def _process_single_key_update( key_update_item: BulkUpdateKeyRequestItem, user_api_key_dict: UserAPIKeyAuth, litellm_changed_by: Optional[str], prisma_client: Optional[PrismaClient], user_api_key_cache: DualCache, proxy_logging_obj: Any, llm_router: Optional[Router], ) -> Dict[str, Any]: """ Process a single key update with all validations and checks. This function encapsulates all the logic for updating a single key, including validation, permission checks, team checks, and database updates. Args: key_update_item: The key update request item user_api_key_dict: The authenticated user's API key info litellm_changed_by: Optional header for tracking who made the change prisma_client: Prisma client instance user_api_key_cache: User API key cache proxy_logging_obj: Proxy logging object llm_router: LLM router instance Returns: Dict containing the updated key information Raises: HTTPException: For various validation and permission errors """ # Validate max_budget _validate_max_budget(key_update_item.max_budget) # Get and validate existing key existing_key_row = await _get_and_validate_existing_key( token=key_update_item.key, prisma_client=prisma_client, ) # Check team member permissions if prisma_client is not None: await TeamMemberPermissionChecks.can_team_member_execute_key_management_endpoint( user_api_key_dict=user_api_key_dict, route=KeyManagementRoutes.KEY_UPDATE, prisma_client=prisma_client, existing_key_row=existing_key_row, user_api_key_cache=user_api_key_cache, ) # Create UpdateKeyRequest from BulkUpdateKeyRequestItem update_key_request = UpdateKeyRequest( key=key_update_item.key, budget_id=key_update_item.budget_id, max_budget=key_update_item.max_budget, team_id=key_update_item.team_id, tags=key_update_item.tags, ) # Get team object and check team limits if team_id is provided team_obj: Optional[LiteLLM_TeamTableCachedObj] = None if update_key_request.team_id is not None: team_obj = await get_team_object( team_id=update_key_request.team_id, prisma_client=prisma_client, user_api_key_cache=user_api_key_cache, check_db_only=True, ) if team_obj is not None and prisma_client is not None: await _check_team_key_limits( team_table=team_obj, data=update_key_request, prisma_client=prisma_client, ) # Validate team change if team is being changed if is_different_team(data=update_key_request, existing_key_row=existing_key_row): if llm_router is None: raise HTTPException( status_code=400, detail={ "error": "LLM router not found. Please set it up by passing in a valid config.yaml or adding models via the UI." }, ) if team_obj is None: raise HTTPException( status_code=500, detail={"error": "Team object not found for team change validation"}, ) await validate_key_team_change( key=existing_key_row, team=team_obj, change_initiated_by=user_api_key_dict, llm_router=llm_router, ) # Prepare update data non_default_values = await prepare_key_update_data( data=update_key_request, existing_key_row=existing_key_row ) # Update key in database if prisma_client is None: raise HTTPException( status_code=500, detail={"error": "Database not connected"}, ) _data = {**non_default_values, "token": key_update_item.key} response = await prisma_client.update_data(token=key_update_item.key, data=_data) # Delete cache await _delete_cache_key_object( hashed_token=hash_token(key_update_item.key), user_api_key_cache=user_api_key_cache, proxy_logging_obj=proxy_logging_obj, ) # Trigger async hook asyncio.create_task( KeyManagementEventHooks.async_key_updated_hook( data=update_key_request, existing_key_row=existing_key_row, response=response, user_api_key_dict=user_api_key_dict, litellm_changed_by=litellm_changed_by, ) ) if response is None: raise ValueError("Failed to update key got response = None") # Extract and format updated key info updated_key_info = response.get("data", {}) if hasattr(updated_key_info, "model_dump"): updated_key_info = updated_key_info.model_dump() elif hasattr(updated_key_info, "dict"): updated_key_info = updated_key_info.dict() updated_key_info.pop("token", None) return updated_key_info @router.post( "/key/update", tags=["key management"], dependencies=[Depends(user_api_key_auth)] ) @management_endpoint_wrapper async def update_key_fn( request: Request, data: UpdateKeyRequest, user_api_key_dict: UserAPIKeyAuth = Depends(user_api_key_auth), litellm_changed_by: Optional[str] = Header( None, description="The litellm-changed-by header enables tracking of actions performed by authorized users on behalf of other users, providing an audit trail for accountability", ), ): """ Update an existing API key's parameters. Parameters: - key: str - The key to update - key_alias: Optional[str] - User-friendly key alias - user_id: Optional[str] - User ID associated with key - team_id: Optional[str] - Team ID associated with key - agent_id: Optional[str] - The agent id associated with the key. - budget_id: Optional[str] - The budget id associated with the key. Created by calling `/budget/new`. - models: Optional[list] - Model_name's a user is allowed to call - tags: Optional[List[str]] - Tags for organizing keys (Enterprise only) - prompts: Optional[List[str]] - List of prompts that the key is allowed to use. - enforced_params: Optional[List[str]] - List of enforced params for the key (Enterprise only). [Docs](https://docs.litellm.ai/docs/proxy/enterprise#enforce-required-params-for-llm-requests) - spend: Optional[float] - Amount spent by key - max_budget: Optional[float] - Max budget for key - model_max_budget: Optional[Dict[str, BudgetConfig]] - Model-specific budgets {"gpt-4": {"budget_limit": 0.0005, "time_period": "30d"}} - budget_duration: Optional[str] - Budget reset period ("30d", "1h", etc.) - soft_budget: Optional[float] - [TODO] Soft budget limit (warning vs. hard stop). Will trigger a slack alert when this soft budget is reached. - max_parallel_requests: Optional[int] - Rate limit for parallel requests - metadata: Optional[dict] - Metadata for key. Example {"team": "core-infra", "app": "app2"} - tpm_limit: Optional[int] - Tokens per minute limit - rpm_limit: Optional[int] - Requests per minute limit - model_rpm_limit: Optional[dict] - Model-specific RPM limits {"gpt-4": 100, "claude-v1": 200} - model_tpm_limit: Optional[dict] - Model-specific TPM limits {"gpt-4": 100000, "claude-v1": 200000} - tpm_limit_type: Optional[str] - TPM rate limit type - "best_effort_throughput", "guaranteed_throughput", or "dynamic" - rpm_limit_type: Optional[str] - RPM rate limit type - "best_effort_throughput", "guaranteed_throughput", or "dynamic" - allowed_cache_controls: Optional[list] - List of allowed cache control values - duration: Optional[str] - Key validity duration ("30d", "1h", etc.), null to never expire, or "-1" to never expire (deprecated, use null) - permissions: Optional[dict] - Key-specific permissions - send_invite_email: Optional[bool] - Send invite email to user_id - guardrails: Optional[List[str]] - List of active guardrails for the key - policies: Optional[List[str]] - List of policy names to apply to the key. Policies define guardrails, conditions, and inheritance rules. - disable_global_guardrails: Optional[bool] - Whether to disable global guardrails for the key. - prompts: Optional[List[str]] - List of prompts that the key is allowed to use. - blocked: Optional[bool] - Whether the key is blocked - aliases: Optional[dict] - Model aliases for the key - [Docs](https://litellm.vercel.app/docs/proxy/virtual_keys#model-aliases) - config: Optional[dict] - [DEPRECATED PARAM] Key-specific config. - temp_budget_increase: Optional[float] - Temporary budget increase for the key (Enterprise only). - temp_budget_expiry: Optional[str] - Expiry time for the temporary budget increase (Enterprise only). - allowed_routes: Optional[list] - List of allowed routes for the key. Store the actual route or store a wildcard pattern for a set of routes. Example - ["/chat/completions", "/embeddings", "/keys/*"] - allowed_passthrough_routes: Optional[list] - List of allowed pass through routes for the key. Store the actual route or store a wildcard pattern for a set of routes. Example - ["/my-custom-endpoint"]. Use this instead of allowed_routes, if you just want to specify which pass through routes the key can access, without specifying the routes. If allowed_routes is specified, allowed_passthrough_routes is ignored. - prompts: Optional[List[str]] - List of allowed prompts for the key. If specified, the key will only be able to use these specific prompts. - object_permission: Optional[LiteLLM_ObjectPermissionBase] - key-specific object permission. Example - {"vector_stores": ["vector_store_1", "vector_store_2"], "agents": ["agent_1", "agent_2"], "agent_access_groups": ["dev_group"]}. IF null or {} then no object permission. - auto_rotate: Optional[bool] - Whether this key should be automatically rotated - rotation_interval: Optional[str] - How often to rotate this key (e.g., '30d', '90d'). Required if auto_rotate=True - allowed_vector_store_indexes: Optional[List[dict]] - List of allowed vector store indexes for the key. Example - [{"index_name": "my-index", "index_permissions": ["write", "read"]}]. If specified, the key will only be able to use these specific vector store indexes. Create index, using `/v1/indexes` endpoint. - router_settings: Optional[UpdateRouterConfig] - key-specific router settings. Example - {"model_group_retry_policy": {"max_retries": 5}}. IF null or {} then no router settings. - access_group_ids: Optional[List[str]] - List of access group IDs to associate with the key. Access groups define which models a key can access. Example - ["access_group_1", "access_group_2"]. Example: ```bash curl --location 'http://0.0.0.0:4000/key/update' \ --header 'Authorization: Bearer sk-1234' \ --header 'Content-Type: application/json' \ --data '{ "key": "sk-1234", "key_alias": "my-key", "user_id": "user-1234", "team_id": "team-1234", "max_budget": 100, "metadata": {"any_key": "any-val"}, }' ``` """ from litellm.proxy.proxy_server import ( llm_router, premium_user, prisma_client, proxy_logging_obj, user_api_key_cache, ) try: # Validate budget values are not negative if data.max_budget is not None and data.max_budget < 0: raise HTTPException( status_code=400, detail={ "error": f"max_budget cannot be negative. Received: {data.max_budget}" }, ) data_json: dict = data.model_dump(exclude_unset=True, exclude_none=True) key = data_json.pop("key") # get the row from db if prisma_client is None: raise Exception("Not connected to DB!") existing_key_row = await prisma_client.get_data( token=data.key, table_name="key", query_type="find_unique" ) if existing_key_row is None: raise HTTPException( status_code=404, detail={"error": f"Team not found, passed team_id={data.team_id}"}, ) ## sanity check - prevent non-proxy admin user from updating key to belong to a different user if ( data.user_id is not None and data.user_id != existing_key_row.user_id and user_api_key_dict.user_role != LitellmUserRoles.PROXY_ADMIN.value ): raise HTTPException( status_code=403, detail=f"User={data.user_id} is not allowed to update key={key} to belong to user={existing_key_row.user_id}", ) common_key_access_checks( user_api_key_dict=user_api_key_dict, data=data, user_id=existing_key_row.user_id, llm_router=llm_router, premium_user=premium_user, ) # check if user has permission to update key await TeamMemberPermissionChecks.can_team_member_execute_key_management_endpoint( user_api_key_dict=user_api_key_dict, route=KeyManagementRoutes.KEY_UPDATE, prisma_client=prisma_client, existing_key_row=existing_key_row, user_api_key_cache=user_api_key_cache, ) # Only check team limits if key has a team_id team_obj: Optional[LiteLLM_TeamTableCachedObj] = None if data.team_id is not None: team_obj = await get_team_object( team_id=data.team_id, prisma_client=prisma_client, user_api_key_cache=user_api_key_cache, check_db_only=True, ) if team_obj is not None: await _check_team_key_limits( team_table=team_obj, data=data, prisma_client=prisma_client, ) # Validate key against project limits if project_id is being set _project_id_to_check = getattr(data, "project_id", None) or getattr( existing_key_row, "project_id", None ) if _project_id_to_check is not None and ( data.models is not None or data.max_budget is not None ): await _check_project_key_limits( project_id=_project_id_to_check, data=data, prisma_client=prisma_client, user_api_key_cache=user_api_key_cache, ) # if team change - check if this is possible if is_different_team(data=data, existing_key_row=existing_key_row): if llm_router is None: raise HTTPException( status_code=400, detail={ "error": "LLM router not found. Please set it up by passing in a valid config.yaml or adding models via the UI." }, ) # team_obj should be set since is_different_team() returns True only when data.team_id is not None if team_obj is None: raise HTTPException( status_code=500, detail={ "error": "Team object not found for team change validation" }, ) await validate_key_team_change( key=existing_key_row, team=team_obj, change_initiated_by=user_api_key_dict, llm_router=llm_router, ) # Set Management Endpoint Metadata Fields non_default_values = await prepare_key_update_data( data=data, existing_key_row=existing_key_row ) _validate_key_alias_format(key_alias=non_default_values.get("key_alias", None)) await _enforce_unique_key_alias( key_alias=non_default_values.get("key_alias", None), prisma_client=prisma_client, existing_key_token=existing_key_row.token, ) # Handle rotation fields if auto_rotate is being enabled _set_key_rotation_fields( non_default_values, non_default_values.get("auto_rotate", False), non_default_values.get("rotation_interval"), existing_key_alias=existing_key_row.key_alias, ) _data = {**non_default_values, "token": key} response = await prisma_client.update_data(token=key, data=_data) # Delete - key from cache, since it's been updated! # key updated - a new model could have been added to this key. it should not block requests after this is done await _delete_cache_key_object( hashed_token=hash_token(key), user_api_key_cache=user_api_key_cache, proxy_logging_obj=proxy_logging_obj, ) asyncio.create_task( KeyManagementEventHooks.async_key_updated_hook( data=data, existing_key_row=existing_key_row, response=response, user_api_key_dict=user_api_key_dict, litellm_changed_by=litellm_changed_by, ) ) if response is None: raise ValueError("Failed to update key got response = None") return {"key": key, **response["data"]} # update based on remaining passed in values except Exception as e: verbose_proxy_logger.exception( "litellm.proxy.proxy_server.update_key_fn(): Exception occured - {}".format( str(e) ) ) if isinstance(e, HTTPException): raise ProxyException( message=getattr(e, "detail", f"Authentication Error({str(e)})"), type=ProxyErrorTypes.auth_error, param=getattr(e, "param", "None"), code=getattr(e, "status_code", status.HTTP_400_BAD_REQUEST), ) elif isinstance(e, ProxyException): raise e raise ProxyException( message="Authentication Error, " + str(e), type=ProxyErrorTypes.auth_error, param=getattr(e, "param", "None"), code=status.HTTP_400_BAD_REQUEST, ) @router.post( "/key/bulk_update", tags=["key management"], dependencies=[Depends(user_api_key_auth)], response_model=BulkUpdateKeyResponse, ) @management_endpoint_wrapper async def bulk_update_keys( data: BulkUpdateKeyRequest, user_api_key_dict: UserAPIKeyAuth = Depends(user_api_key_auth), litellm_changed_by: Optional[str] = Header( None, description="The litellm-changed-by header enables tracking of actions performed by authorized users on behalf of other users, providing an audit trail for accountability", ), ): """ Bulk update multiple keys at once. This endpoint allows updating multiple keys in a single request. Each key update is processed independently - if some updates fail, others will still succeed. Parameters: - keys: List[BulkUpdateKeyRequestItem] - List of key update requests, each containing: - key: str - The key identifier (token) to update - budget_id: Optional[str] - Budget ID associated with the key - max_budget: Optional[float] - Max budget for key - team_id: Optional[str] - Team ID associated with key - tags: Optional[List[str]] - Tags for organizing keys Returns: - total_requested: int - Total number of keys requested for update - successful_updates: List[SuccessfulKeyUpdate] - List of successfully updated keys with their updated info - failed_updates: List[FailedKeyUpdate] - List of failed updates with key_info and failed_reason Example request: ```bash curl --location 'http://0.0.0.0:4000/key/bulk_update' \ --header 'Authorization: Bearer sk-1234' \ --header 'Content-Type: application/json' \ --data '{ "keys": [ { "key": "sk-1234", "max_budget": 100.0, "team_id": "team-123", "tags": ["production", "api"] }, { "key": "sk-5678", "budget_id": "budget-456", "tags": ["staging"] } ] }' ``` """ from litellm.proxy.proxy_server import ( llm_router, prisma_client, proxy_logging_obj, user_api_key_cache, ) if user_api_key_dict.user_role != LitellmUserRoles.PROXY_ADMIN.value: raise HTTPException( status_code=403, detail={"error": "Only proxy admins can perform bulk key updates"}, ) if prisma_client is None: raise HTTPException( status_code=500, detail={"error": "Database not connected"}, ) if not data.keys: raise HTTPException( status_code=400, detail={"error": "No keys provided for update"}, ) MAX_BATCH_SIZE = 500 if len(data.keys) > MAX_BATCH_SIZE: raise HTTPException( status_code=400, detail={ "error": f"Maximum {MAX_BATCH_SIZE} keys can be updated at once. Found {len(data.keys)} keys." }, ) successful_updates: List[SuccessfulKeyUpdate] = [] failed_updates: List[FailedKeyUpdate] = [] for key_update_item in data.keys: try: # Process single key update using reusable function updated_key_info = await _process_single_key_update( key_update_item=key_update_item, user_api_key_dict=user_api_key_dict, litellm_changed_by=litellm_changed_by, prisma_client=prisma_client, user_api_key_cache=user_api_key_cache, proxy_logging_obj=proxy_logging_obj, llm_router=llm_router, ) successful_updates.append( SuccessfulKeyUpdate( key=key_update_item.key, key_info=updated_key_info, ) ) except Exception as e: verbose_proxy_logger.exception( f"Failed to update key {key_update_item.key}: {e}" ) if isinstance(e, HTTPException): error_detail = e.detail if isinstance(error_detail, dict): error_message = error_detail.get("error", str(e)) else: error_message = str(error_detail) else: error_message = str(e) key_info = None try: existing_key_row = await prisma_client.get_data( token=key_update_item.key, table_name="key", query_type="find_unique", ) if existing_key_row is not None: if hasattr(existing_key_row, "model_dump"): key_info = existing_key_row.model_dump() elif hasattr(existing_key_row, "dict"): key_info = existing_key_row.dict() if key_info: key_info.pop("token", None) except Exception: pass failed_updates.append( FailedKeyUpdate( key=key_update_item.key, key_info=key_info, failed_reason=error_message, ) ) return BulkUpdateKeyResponse( total_requested=len(data.keys), successful_updates=successful_updates, failed_updates=failed_updates, ) async def validate_key_team_change( key: LiteLLM_VerificationToken, team: LiteLLM_TeamTable, change_initiated_by: UserAPIKeyAuth, llm_router: Router, ): """ Validate that a key can be moved to a new team. - The team must have access to the key's models - The key's user_id must be a member of the team - The key's tpm/rpm limit must be less than the team's tpm/rpm limit - The person initiating the change must be either Proxy Admin or Team Admin """ # Check if the team has access to the key's models if len(key.models) > 0: for model in key.models: await can_team_access_model( model=model, team_object=team, llm_router=llm_router, ) # Check if the key's user_id is a member of the team member_object = _get_user_in_team( team_table=cast(LiteLLM_TeamTableCachedObj, team), user_id=key.user_id ) if key.user_id is not None: if not member_object: raise HTTPException( status_code=403, detail=f"User={key.user_id} is not a member of the team={team.team_id}. Check team members via `/team/info`.", ) # Check if the key's tpm/rpm limit is less than the team's tpm/rpm limit if key.tpm_limit is not None: if team.tpm_limit and key.tpm_limit > team.tpm_limit: raise HTTPException( status_code=403, detail=f"Key={key.token} has a tpm_limit={key.tpm_limit} which is greater than the team's tpm_limit={team.tpm_limit}.", ) if team.rpm_limit and key.rpm_limit and key.rpm_limit > team.rpm_limit: raise HTTPException( status_code=403, detail=f"Key={key.token} has a rpm_limit={key.rpm_limit} which is greater than the team's rpm_limit={team.rpm_limit}.", ) # Check if the person initiating the change is a Proxy Admin or Team Admin if change_initiated_by.user_role == LitellmUserRoles.PROXY_ADMIN.value: return elif _is_user_team_admin( user_api_key_dict=change_initiated_by, team_obj=team, ): return # this teams member permissions allow updating a elif TeamMemberPermissionChecks.does_team_member_have_permissions_for_endpoint( team_member_object=member_object, team_table=cast(LiteLLM_TeamTableCachedObj, team), route=KeyManagementRoutes.KEY_UPDATE.value, ): return else: raise HTTPException( status_code=403, detail=f"User={change_initiated_by.user_id} is not a Proxy Admin or Team Admin for team={team.team_id}. Please ask your Proxy Admin to allow this action under 'Member Permissions' for this team.", ) @router.post( "/key/delete", tags=["key management"], dependencies=[Depends(user_api_key_auth)] ) @management_endpoint_wrapper async def delete_key_fn( data: KeyRequest, user_api_key_dict: UserAPIKeyAuth = Depends(user_api_key_auth), litellm_changed_by: Optional[str] = Header( None, description="The litellm-changed-by header enables tracking of actions performed by authorized users on behalf of other users, providing an audit trail for accountability", ), ): """ Delete a key from the key management system. Parameters:: - keys (List[str]): A list of keys or hashed keys to delete. Example {"keys": ["sk-QWrxEynunsNpV1zT48HIrw", "837e17519f44683334df5291321d97b8bf1098cd490e49e215f6fea935aa28be"]} - key_aliases (List[str]): A list of key aliases to delete. Can be passed instead of `keys`.Example {"key_aliases": ["alias1", "alias2"]} Returns: - deleted_keys (List[str]): A list of deleted keys. Example {"deleted_keys": ["sk-QWrxEynunsNpV1zT48HIrw", "837e17519f44683334df5291321d97b8bf1098cd490e49e215f6fea935aa28be"]} Example: ```bash curl --location 'http://0.0.0.0:4000/key/delete' \ --header 'Authorization: Bearer sk-1234' \ --header 'Content-Type: application/json' \ --data '{ "keys": ["sk-QWrxEynunsNpV1zT48HIrw"] }' ``` Raises: HTTPException: If an error occurs during key deletion. """ try: from litellm.proxy.proxy_server import prisma_client, user_api_key_cache if prisma_client is None: raise Exception("Not connected to DB!") # Normalize litellm_changed_by: if it's a Header object or not a string, convert to None if litellm_changed_by is not None and not isinstance(litellm_changed_by, str): litellm_changed_by = None ## only allow user to delete keys they own verbose_proxy_logger.debug( f"user_api_key_dict.user_role: {user_api_key_dict.user_role}" ) num_keys_to_be_deleted = 0 deleted_keys = [] if data.keys: number_deleted_keys, _keys_being_deleted = await delete_verification_tokens( tokens=data.keys, user_api_key_cache=user_api_key_cache, user_api_key_dict=user_api_key_dict, litellm_changed_by=litellm_changed_by, ) num_keys_to_be_deleted = len(data.keys) deleted_keys = data.keys elif data.key_aliases: number_deleted_keys, _keys_being_deleted = await delete_key_aliases( key_aliases=data.key_aliases, prisma_client=prisma_client, user_api_key_cache=user_api_key_cache, user_api_key_dict=user_api_key_dict, litellm_changed_by=litellm_changed_by, ) num_keys_to_be_deleted = len(data.key_aliases) deleted_keys = data.key_aliases else: raise ValueError("Invalid request type") if number_deleted_keys is None: raise ProxyException( message="Failed to delete keys got None response from delete_verification_token", type=ProxyErrorTypes.internal_server_error, param="keys", code=status.HTTP_500_INTERNAL_SERVER_ERROR, ) verbose_proxy_logger.debug(f"/key/delete - deleted_keys={number_deleted_keys}") try: assert num_keys_to_be_deleted == len(deleted_keys) except Exception: raise HTTPException( status_code=400, detail={ "error": f"Not all keys passed in were deleted. This probably means you don't have access to delete all the keys passed in. Keys passed in={num_keys_to_be_deleted}, Deleted keys ={number_deleted_keys}" }, ) verbose_proxy_logger.debug( f"/keys/delete - cache after delete: {user_api_key_cache.in_memory_cache.cache_dict}" ) asyncio.create_task( KeyManagementEventHooks.async_key_deleted_hook( data=data, keys_being_deleted=_keys_being_deleted, user_api_key_dict=user_api_key_dict, litellm_changed_by=litellm_changed_by, response=number_deleted_keys, ) ) return {"deleted_keys": deleted_keys} except Exception as e: verbose_proxy_logger.exception( "litellm.proxy.proxy_server.delete_key_fn(): Exception occured - {}".format( str(e) ) ) raise handle_exception_on_proxy(e) @router.post( "/v2/key/info", tags=["key management"], dependencies=[Depends(user_api_key_auth)], include_in_schema=False, ) async def info_key_fn_v2( data: Optional[KeyRequest] = None, user_api_key_dict: UserAPIKeyAuth = Depends(user_api_key_auth), ): """ Retrieve information about a list of keys. **New endpoint**. Currently admin only. Parameters: keys: Optional[list] = body parameter representing the key(s) in the request user_api_key_dict: UserAPIKeyAuth = Dependency representing the user's API key Returns: Dict containing the key and its associated information Example Curl: ``` curl -X GET "http://0.0.0.0:4000/key/info" \ -H "Authorization: Bearer sk-1234" \ -d {"keys": ["sk-1", "sk-2", "sk-3"]} ``` """ from litellm.proxy.proxy_server import prisma_client try: if prisma_client is None: raise Exception( "Database not connected. Connect a database to your proxy - https://docs.litellm.ai/docs/simple_proxy#managing-auth---virtual-keys" ) if data is None: raise HTTPException( status_code=status.HTTP_422_UNPROCESSABLE_ENTITY, detail={"message": "Malformed request. No keys passed in."}, ) key_info = await prisma_client.get_data( token=data.keys, table_name="key", query_type="find_all" ) if key_info is None: raise HTTPException( status_code=status.HTTP_404_NOT_FOUND, detail={"message": "No keys found"}, ) filtered_key_info = [] for k in key_info: try: k = k.model_dump() # noqa except Exception: # if using pydantic v1 k = k.dict() filtered_key_info.append(k) return {"key": data.keys, "info": filtered_key_info} except Exception as e: raise handle_exception_on_proxy(e) @router.get( "/key/info", tags=["key management"], dependencies=[Depends(user_api_key_auth)] ) async def info_key_fn( key: Optional[str] = fastapi.Query( default=None, description="Key in the request parameters" ), user_api_key_dict: UserAPIKeyAuth = Depends(user_api_key_auth), ): """ Retrieve information about a key. Parameters: key: Optional[str] = Query parameter representing the key in the request user_api_key_dict: UserAPIKeyAuth = Dependency representing the user's API key Returns: Dict containing the key and its associated information Example Curl: ``` curl -X GET "http://0.0.0.0:4000/key/info?key=sk-test-example-key-123" \ -H "Authorization: Bearer sk-1234" ``` Example Curl - if no key is passed, it will use the Key Passed in Authorization Header ``` curl -X GET "http://0.0.0.0:4000/key/info" \ -H "Authorization: Bearer sk-test-example-key-123" ``` """ from litellm.proxy.proxy_server import prisma_client try: if prisma_client is None: raise Exception( "Database not connected. Connect a database to your proxy - https://docs.litellm.ai/docs/simple_proxy#managing-auth---virtual-keys" ) # default to using Auth token if no key is passed in key = key or user_api_key_dict.api_key hashed_key: Optional[str] = key if key is not None: hashed_key = _hash_token_if_needed(token=key) key_info = await prisma_client.db.litellm_verificationtoken.find_unique( where={"token": hashed_key}, # type: ignore include={"litellm_budget_table": True}, ) if key_info is None: raise ProxyException( message="Key not found in database", type=ProxyErrorTypes.not_found_error, param="key", code=status.HTTP_404_NOT_FOUND, ) if ( await _can_user_query_key_info( user_api_key_dict=user_api_key_dict, key=key, key_info=key_info, ) is not True ): raise HTTPException( status_code=status.HTTP_403_FORBIDDEN, detail="You are not allowed to access this key's info. Your role={}".format( user_api_key_dict.user_role ), ) ## REMOVE HASHED TOKEN INFO BEFORE RETURNING ## try: key_info = key_info.model_dump() # noqa except Exception: # if using pydantic v1 key_info = key_info.dict() key_info.pop("token") # Attach object_permission if object_permission_id is set key_info = await attach_object_permission_to_dict(key_info, prisma_client) return {"key": key, "info": key_info} except Exception as e: raise handle_exception_on_proxy(e) def _check_model_access_group( models: Optional[List[str]], llm_router: Optional[Router], premium_user: bool ) -> Literal[True]: """ if is_model_access_group is True + is_wildcard_route is True, check if user is a premium user Return True if user is a premium user, False otherwise """ if models is None or llm_router is None: return True for model in models: if llm_router._is_model_access_group_for_wildcard_route( model_access_group=model ): if not premium_user: raise HTTPException( status_code=status.HTTP_403_FORBIDDEN, detail={ "error": "Setting a model access group on a wildcard model is only available for LiteLLM Enterprise users.{}".format( CommonProxyErrors.not_premium_user.value ) }, ) return True async def generate_key_helper_fn( # noqa: PLR0915 request_type: Literal[ "user", "key" ], # identifies if this request is from /user/new or /key/generate duration: Optional[str] = None, models: list = [], aliases: dict = {}, config: dict = {}, spend: float = 0.0, key_max_budget: Optional[float] = None, # key_max_budget is used to Budget Per key key_budget_duration: Optional[str] = None, budget_id: Optional[float] = None, # budget id <-> LiteLLM_BudgetTable soft_budget: Optional[ float ] = None, # soft_budget is used to set soft Budgets Per user max_budget: Optional[float] = None, # max_budget is used to Budget Per user blocked: Optional[bool] = None, budget_duration: Optional[str] = None, # max_budget is used to Budget Per user token: Optional[str] = None, key: Optional[ str ] = None, # dev-friendly alt param for 'token'. Exposed on `/key/generate` for setting key value yourself. user_id: Optional[str] = None, user_alias: Optional[str] = None, team_id: Optional[str] = None, agent_id: Optional[str] = None, user_email: Optional[str] = None, user_role: Optional[str] = None, max_parallel_requests: Optional[int] = None, metadata: Optional[dict] = {}, tpm_limit: Optional[int] = None, rpm_limit: Optional[int] = None, query_type: Literal["insert_data", "update_data"] = "insert_data", update_key_values: Optional[dict] = None, key_alias: Optional[str] = None, allowed_cache_controls: Optional[list] = [], permissions: Optional[dict] = {}, model_max_budget: Optional[dict] = {}, model_rpm_limit: Optional[dict] = None, model_tpm_limit: Optional[dict] = None, guardrails: Optional[list] = None, policies: Optional[list] = None, prompts: Optional[list] = None, teams: Optional[list] = None, organization_id: Optional[str] = None, project_id: Optional[str] = None, table_name: Optional[Literal["key", "user"]] = None, send_invite_email: Optional[bool] = None, created_by: Optional[str] = None, updated_by: Optional[str] = None, allowed_routes: Optional[list] = None, sso_user_id: Optional[str] = None, object_permission_id: Optional[ str ] = None, # object_permission_id <-> LiteLLM_ObjectPermissionTable object_permission: Optional[LiteLLM_ObjectPermissionBase] = None, auto_rotate: Optional[bool] = None, rotation_interval: Optional[str] = None, router_settings: Optional[dict] = None, access_group_ids: Optional[list] = None, ): from litellm.proxy.proxy_server import premium_user, prisma_client if prisma_client is None: raise Exception( "Connect Proxy to database to generate keys - https://docs.litellm.ai/docs/proxy/virtual_keys " ) if token is None: if key is not None: token = key else: token = f"sk-{secrets.token_urlsafe(LENGTH_OF_LITELLM_GENERATED_KEY)}" if duration is None: # allow tokens that never expire expires = None else: # Add duration to current time for exact expiration (not standardized reset time) duration_seconds = duration_in_seconds(duration) expires = datetime.now(timezone.utc) + timedelta(seconds=duration_seconds) if key_budget_duration is None: # one-time budget key_reset_at = None else: key_reset_at = get_budget_reset_time(budget_duration=key_budget_duration) if budget_duration is None: # one-time budget reset_at = None else: reset_at = get_budget_reset_time(budget_duration=budget_duration) aliases_json = json.dumps(aliases) config_json = json.dumps(config) permissions_json = json.dumps(permissions) router_settings_json = ( safe_dumps(router_settings) if router_settings is not None else safe_dumps({}) ) # Add model_rpm_limit and model_tpm_limit to metadata if model_rpm_limit is not None: metadata = metadata or {} metadata["model_rpm_limit"] = model_rpm_limit if model_tpm_limit is not None: metadata = metadata or {} metadata["model_tpm_limit"] = model_tpm_limit if guardrails is not None: metadata = metadata or {} metadata["guardrails"] = guardrails if policies is not None: metadata = metadata or {} metadata["policies"] = policies if prompts is not None: metadata = metadata or {} metadata["prompts"] = prompts metadata_json = json.dumps(metadata) validate_model_max_budget(model_max_budget) model_max_budget_json = json.dumps(model_max_budget) user_role = user_role tpm_limit = tpm_limit rpm_limit = rpm_limit allowed_cache_controls = allowed_cache_controls try: # Create a new verification token (you may want to enhance this logic based on your needs) user_data = { "max_budget": max_budget, "user_email": user_email, "user_id": user_id, "user_alias": user_alias, "team_id": team_id, "organization_id": organization_id, "user_role": user_role, "spend": spend, "models": models, "metadata": metadata_json, "max_parallel_requests": max_parallel_requests, "tpm_limit": tpm_limit, "rpm_limit": rpm_limit, "budget_duration": budget_duration, "budget_reset_at": reset_at, "allowed_cache_controls": allowed_cache_controls, "sso_user_id": sso_user_id, "object_permission_id": object_permission_id, } if teams is not None: user_data["teams"] = teams key_data = { "token": token, "key_alias": key_alias, "expires": expires, "models": models, "aliases": aliases_json, "config": config_json, "spend": spend, "max_budget": key_max_budget, "user_id": user_id, "team_id": team_id, "agent_id": agent_id, "project_id": project_id, "max_parallel_requests": max_parallel_requests, "metadata": metadata_json, "tpm_limit": tpm_limit, "rpm_limit": rpm_limit, "budget_duration": key_budget_duration, "budget_reset_at": key_reset_at, "allowed_cache_controls": allowed_cache_controls, "permissions": permissions_json, "model_max_budget": model_max_budget_json, "organization_id": organization_id, "budget_id": budget_id, "blocked": blocked, "created_by": created_by, "updated_by": updated_by, "allowed_routes": allowed_routes or [], "object_permission_id": object_permission_id, "router_settings": router_settings_json, "access_group_ids": access_group_ids or [], } # Add rotation fields if auto_rotate is enabled _set_key_rotation_fields( data=key_data, auto_rotate=auto_rotate or False, rotation_interval=rotation_interval, ) if ( get_secret("DISABLE_KEY_NAME", False) is True ): # allow user to disable storing abbreviated key name (shown in UI, to help figure out which key spent how much) pass else: key_data["key_name"] = abbreviate_api_key(api_key=token) saved_token = copy.deepcopy(key_data) if isinstance(saved_token["aliases"], str): saved_token["aliases"] = json.loads(saved_token["aliases"]) if isinstance(saved_token["config"], str): saved_token["config"] = json.loads(saved_token["config"]) if isinstance(saved_token["metadata"], str): saved_token["metadata"] = json.loads(saved_token["metadata"]) if isinstance(saved_token["permissions"], str): if ( "get_spend_routes" in saved_token["permissions"] and premium_user is not True ): raise ValueError( "get_spend_routes permission is only available for LiteLLM Enterprise users" ) saved_token["permissions"] = json.loads(saved_token["permissions"]) if isinstance(saved_token["model_max_budget"], str): saved_token["model_max_budget"] = json.loads( saved_token["model_max_budget"] ) router_settings = cast(Optional[dict], saved_token.get("router_settings")) if router_settings is not None and isinstance(router_settings, str): try: saved_token["router_settings"] = yaml.safe_load(router_settings) except yaml.YAMLError: # If it's not valid JSON/YAML, keep as is or set to empty dict saved_token["router_settings"] = {} if saved_token.get("expires", None) is not None and isinstance( saved_token["expires"], datetime ): saved_token["expires"] = saved_token["expires"].isoformat() if prisma_client is not None: if ( table_name is None or table_name == "user" ): # do not auto-create users for `/key/generate` ## CREATE USER (If necessary) if query_type == "insert_data": user_row = await prisma_client.insert_data( data=user_data, table_name="user" ) if user_row is None: raise Exception("Failed to create user") ## use default user model list if no key-specific model list provided if len(user_row.models) > 0 and len(key_data["models"]) == 0: # type: ignore key_data["models"] = user_row.models # type: ignore elif query_type == "update_data": user_row = await prisma_client.update_data( data=user_data, table_name="user", update_key_values=update_key_values, ) if table_name is not None and table_name == "user": # do not create a key if table name is set to just 'user' # we only need to ensure this exists in the user table # the LiteLLM_VerificationToken table will increase in size if we don't do this check return user_data ## CREATE KEY verbose_proxy_logger.debug("prisma_client: Creating Key= %s", key_data) create_key_response = await prisma_client.insert_data( data=key_data, table_name="key" ) key_data["token_id"] = getattr(create_key_response, "token", None) key_data["litellm_budget_table"] = getattr( create_key_response, "litellm_budget_table", None ) key_data["created_at"] = getattr(create_key_response, "created_at", None) key_data["updated_at"] = getattr(create_key_response, "updated_at", None) # Deserialize router_settings from JSON string to dict for response router_settings_value = key_data.get("router_settings") if router_settings_value is not None and isinstance( router_settings_value, str ): try: key_data["router_settings"] = yaml.safe_load(router_settings_value) except yaml.YAMLError: # If it's not valid JSON/YAML, keep as is or set to empty dict key_data["router_settings"] = {} except Exception as e: verbose_proxy_logger.error( "litellm.proxy.proxy_server.generate_key_helper_fn(): Exception occured - {}".format( str(e) ) ) verbose_proxy_logger.debug(traceback.format_exc()) if isinstance(e, HTTPException): raise e raise HTTPException( status_code=status.HTTP_500_INTERNAL_SERVER_ERROR, detail={"error": "Internal Server Error."}, ) # Add budget related info in key_data - this ensures it's returned key_data["budget_id"] = budget_id if request_type == "user": # if this is a /user/new request update the key_date with user_data fields key_data.update(user_data) return key_data async def _team_key_deletion_check( user_api_key_dict: UserAPIKeyAuth, key_info: LiteLLM_VerificationToken, prisma_client: PrismaClient, user_api_key_cache: DualCache, ): is_team_key = _is_team_key(data=key_info) if is_team_key and key_info.team_id is not None: team_table = await get_team_object( team_id=key_info.team_id, prisma_client=prisma_client, user_api_key_cache=user_api_key_cache, check_db_only=True, ) if ( litellm.key_generation_settings is not None and "team_key_generation" in litellm.key_generation_settings ): _team_key_generation = litellm.key_generation_settings[ "team_key_generation" ] else: _team_key_generation = TeamUIKeyGenerationConfig( allowed_team_member_roles=["admin", "user"], ) # check if user is team admin if team_table is not None: return _team_key_operation_team_member_check( assigned_user_id=user_api_key_dict.user_id, team_table=team_table, user_api_key_dict=user_api_key_dict, team_key_generation=_team_key_generation, route=KeyManagementRoutes.KEY_DELETE, ) else: raise HTTPException( status_code=status.HTTP_404_NOT_FOUND, detail={ "error": f"Team not found in db, and user not proxy admin. Team id = {key_info.team_id}" }, ) return False async def can_modify_verification_token( key_info: LiteLLM_VerificationToken, user_api_key_cache: DualCache, user_api_key_dict: UserAPIKeyAuth, prisma_client: PrismaClient, ) -> bool: """ Check if user has permission to modify (delete/regenerate) a verification token. Rules: - Proxy admin can modify any key - Internal jobs service account can modify any key (for auto-rotation) - For team keys: only team admin or key owner can modify - For personal keys: only key owner can modify Args: key_info: The verification token to check user_api_key_cache: Cache for user API keys user_api_key_dict: The user making the request prisma_client: Prisma client for database access Returns: True if user can modify the key, False otherwise """ from litellm.constants import LITELLM_INTERNAL_JOBS_SERVICE_ACCOUNT_NAME is_team_key = _is_team_key(data=key_info) # 1. Proxy admin can modify any key if user_api_key_dict.user_role == LitellmUserRoles.PROXY_ADMIN.value: return True # 2. Internal jobs service account can modify any key (for auto-rotation) if user_api_key_dict.api_key == LITELLM_INTERNAL_JOBS_SERVICE_ACCOUNT_NAME: return True # 3. For team keys: only team admin or key owner can modify if is_team_key and key_info.team_id is not None: # Get team object to check if user is team admin team_table = await get_team_object( team_id=key_info.team_id, prisma_client=prisma_client, user_api_key_cache=user_api_key_cache, check_db_only=True, ) if team_table is None: return False # Check if user is team admin if _is_user_team_admin( user_api_key_dict=user_api_key_dict, team_obj=team_table, ): return True # Check if the key belongs to the user (they own it) if ( key_info.user_id is not None and key_info.user_id == user_api_key_dict.user_id ): return True # Not team admin and doesn't own the key return False # 4. For personal keys: only key owner can modify if key_info.user_id is not None and key_info.user_id == user_api_key_dict.user_id: return True # Default: deny return False async def delete_verification_tokens( tokens: List, user_api_key_cache: DualCache, user_api_key_dict: UserAPIKeyAuth, litellm_changed_by: Optional[str] = None, ) -> Tuple[Optional[Dict], List[LiteLLM_VerificationToken]]: """ Helper that deletes the list of tokens from the database - check if user is proxy admin - check if user is team admin and key is a team key Args: tokens: List of tokens to delete user_id: Optional user_id to filter by Returns: Tuple[Optional[Dict], List[LiteLLM_VerificationToken]]: Optional[Dict]: - Number of deleted tokens List[LiteLLM_VerificationToken]: - List of keys being deleted, this contains information about the key_alias, token, and user_id being deleted, this is passed down to the KeyManagementEventHooks to delete the keys from the secret manager and handle audit logs """ from litellm.proxy.proxy_server import prisma_client failed_tokens: List = [] try: if prisma_client: tokens = [_hash_token_if_needed(token=key) for key in tokens] _keys_being_deleted: List[ LiteLLM_VerificationToken ] = await prisma_client.db.litellm_verificationtoken.find_many( where={"token": {"in": tokens}} ) if len(_keys_being_deleted) == 0: raise HTTPException( status_code=status.HTTP_404_NOT_FOUND, detail={"error": "No keys found"}, ) if user_api_key_dict.user_role == LitellmUserRoles.PROXY_ADMIN.value: authorized_keys = _keys_being_deleted else: authorized_keys = [] for key in _keys_being_deleted: if await can_modify_verification_token( key_info=key, user_api_key_cache=user_api_key_cache, user_api_key_dict=user_api_key_dict, prisma_client=prisma_client, ): authorized_keys.append(key) else: raise HTTPException( status_code=status.HTTP_403_FORBIDDEN, detail={ "error": "You are not authorized to delete this key" }, ) await _persist_deleted_verification_tokens( keys=authorized_keys, prisma_client=prisma_client, user_api_key_dict=user_api_key_dict, litellm_changed_by=litellm_changed_by, ) if user_api_key_dict.user_role == LitellmUserRoles.PROXY_ADMIN.value: deleted_tokens = await prisma_client.delete_data(tokens=tokens) if deleted_tokens is not None and len(deleted_tokens) != len(tokens): failed_tokens = [ token for token in tokens if token not in deleted_tokens ] else: deletion_tasks = [ prisma_client.delete_data(tokens=[key.token]) for key in authorized_keys ] await asyncio.gather(*deletion_tasks) deleted_tokens = [key.token for key in authorized_keys] if len(deleted_tokens) != len(tokens): failed_tokens = [ token for token in tokens if token not in deleted_tokens ] else: raise Exception("DB not connected. prisma_client is None") except Exception as e: verbose_proxy_logger.exception( "litellm.proxy.proxy_server.delete_verification_tokens(): Exception occured - {}".format( str(e) ) ) verbose_proxy_logger.debug(traceback.format_exc()) raise e for key in tokens: user_api_key_cache.delete_cache(key) # remove hash token from cache hashed_token = hash_token(cast(str, key)) user_api_key_cache.delete_cache(hashed_token) return {"deleted_keys": deleted_tokens, "failed_tokens": failed_tokens}, _keys_being_deleted def _transform_verification_tokens_to_deleted_records( keys: List[LiteLLM_VerificationToken], user_api_key_dict: UserAPIKeyAuth, litellm_changed_by: Optional[str] = None, ) -> List[Dict[str, Any]]: """Transform verification tokens into deleted token records ready for persistence.""" if not keys: return [] deleted_at = datetime.now(timezone.utc) records = [] for key in keys: key_payload = key.model_dump() deleted_record = LiteLLM_DeletedVerificationToken( **key_payload, deleted_at=deleted_at, deleted_by=user_api_key_dict.user_id, deleted_by_api_key=user_api_key_dict.api_key, litellm_changed_by=litellm_changed_by, ) record = deleted_record.model_dump() # Map org_id to organization_id (model uses org_id, but schema expects organization_id) org_id_value = record.pop("org_id", None) if org_id_value is not None: record["organization_id"] = org_id_value for json_field in [ "aliases", "config", "permissions", "metadata", "model_spend", "model_max_budget", "router_settings", ]: if json_field in record and record[json_field] is not None: record[json_field] = json.dumps(record[json_field]) for rel_key in ( "litellm_budget_table", "litellm_organization_table", "object_permission", "id", ): record.pop(rel_key, None) records.append(record) return records async def _save_deleted_verification_token_records( records: List[Dict[str, Any]], prisma_client: PrismaClient, ) -> None: """Save deleted verification token records to the database.""" if not records: return await prisma_client.db.litellm_deletedverificationtoken.create_many(data=records) async def _persist_deleted_verification_tokens( keys: List[LiteLLM_VerificationToken], prisma_client: PrismaClient, user_api_key_dict: UserAPIKeyAuth, litellm_changed_by: Optional[str] = None, ) -> None: """Persist deleted verification token records by transforming and saving them.""" records = _transform_verification_tokens_to_deleted_records( keys=keys, user_api_key_dict=user_api_key_dict, litellm_changed_by=litellm_changed_by, ) await _save_deleted_verification_token_records( records=records, prisma_client=prisma_client, ) async def delete_key_aliases( key_aliases: List[str], user_api_key_cache: DualCache, prisma_client: PrismaClient, user_api_key_dict: UserAPIKeyAuth, litellm_changed_by: Optional[str] = None, ) -> Tuple[Optional[Dict], List[LiteLLM_VerificationToken]]: _keys_being_deleted = await prisma_client.db.litellm_verificationtoken.find_many( where={"key_alias": {"in": key_aliases}} ) tokens = [key.token for key in _keys_being_deleted] return await delete_verification_tokens( tokens=tokens, user_api_key_cache=user_api_key_cache, user_api_key_dict=user_api_key_dict, litellm_changed_by=litellm_changed_by, ) async def _rotate_master_key( # noqa: PLR0915 prisma_client: PrismaClient, user_api_key_dict: UserAPIKeyAuth, current_master_key: str, new_master_key: str, ) -> None: """ Rotate the master key 1. Get the values from the DB - Get models from DB - Get config from DB 2. Decrypt the values - ModelTable - [{"model_name": "str", "litellm_params": {}}] - ConfigTable 3. Encrypt the values with the new master key 4. Update the values in the DB """ import prisma from litellm.proxy.proxy_server import proxy_config try: models: Optional[ List ] = await prisma_client.db.litellm_proxymodeltable.find_many() except Exception: models = None # 2. process model table if models: decrypted_models = proxy_config.decrypt_model_list_from_db(new_models=models) verbose_proxy_logger.debug( "ABLE TO DECRYPT MODELS - len(decrypted_models): %s", len(decrypted_models) ) new_models = [] for model in decrypted_models: new_model = await _add_model_to_db( model_params=Deployment(**model), user_api_key_dict=user_api_key_dict, prisma_client=prisma_client, new_encryption_key=new_master_key, should_create_model_in_db=False, ) if new_model: _dumped = new_model.model_dump(exclude_none=True) _dumped["litellm_params"] = prisma.Json(_dumped["litellm_params"]) # type: ignore[attr-defined] _dumped["model_info"] = prisma.Json(_dumped["model_info"]) # type: ignore[attr-defined] new_models.append(_dumped) verbose_proxy_logger.debug("Resetting proxy model table") async with prisma_client.db.tx() as tx: await tx.litellm_proxymodeltable.delete_many() verbose_proxy_logger.debug("Creating %s models", len(new_models)) await tx.litellm_proxymodeltable.create_many( data=new_models, ) # 3. process config table try: config = await prisma_client.db.litellm_config.find_many() except Exception: config = None if config: """If environment_variables is found, decrypt it and encrypt it with the new master key""" environment_variables_dict = {} for c in config: if c.param_name == "environment_variables": environment_variables_dict = c.param_value if environment_variables_dict: decrypted_env_vars = proxy_config._decrypt_and_set_db_env_variables( environment_variables=environment_variables_dict ) encrypted_env_vars = proxy_config._encrypt_env_variables( environment_variables=decrypted_env_vars, new_encryption_key=new_master_key, ) if encrypted_env_vars: await prisma_client.db.litellm_config.update( where={"param_name": "environment_variables"}, data={"param_value": prisma.Json(encrypted_env_vars)}, # type: ignore[attr-defined] ) # 4. process MCP server table try: await rotate_mcp_server_credentials_master_key( prisma_client=prisma_client, touched_by=user_api_key_dict.user_id or LITELLM_PROXY_ADMIN_NAME, new_master_key=new_master_key, ) except Exception as e: verbose_proxy_logger.warning( "Failed to rotate MCP server credentials: %s", str(e) ) # 5. process credentials table try: credentials = await prisma_client.db.litellm_credentialstable.find_many() except Exception: credentials = None if credentials: from litellm.proxy.credential_endpoints.endpoints import update_db_credential for cred in credentials: try: decrypted_cred = proxy_config.decrypt_credentials(cred) encrypted_cred = update_db_credential( db_credential=cred, updated_patch=decrypted_cred, new_encryption_key=new_master_key, ) _cred_data = encrypted_cred.model_dump(exclude_none=True) if "credential_values" in _cred_data: _cred_data["credential_values"] = prisma.Json( # type: ignore[attr-defined] _cred_data["credential_values"] ) if "credential_info" in _cred_data: _cred_data["credential_info"] = prisma.Json( # type: ignore[attr-defined] _cred_data["credential_info"] ) await prisma_client.db.litellm_credentialstable.update( where={"credential_name": cred.credential_name}, data={ **_cred_data, "updated_by": user_api_key_dict.user_id, }, ) except Exception as e: verbose_proxy_logger.error( f"Failed to re-encrypt credential {cred.credential_name}: {str(e)}" ) # Continue with next credential instead of failing entire rotation continue verbose_proxy_logger.debug( f"Successfully re-encrypted {len(credentials)} credentials with new master key" ) def get_new_token(data: Optional[RegenerateKeyRequest]) -> str: if data and data.new_key is not None: new_token = data.new_key if not data.new_key.startswith("sk-"): raise HTTPException( status_code=status.HTTP_400_BAD_REQUEST, detail={ "error": "New key must start with 'sk-'. This is to distinguish a key hash (used by litellm for logging / internal logic) from the actual key." }, ) else: new_token = f"sk-{secrets.token_urlsafe(LENGTH_OF_LITELLM_GENERATED_KEY)}" return new_token async def _insert_deprecated_key( prisma_client: "PrismaClient", old_token_hash: str, new_token_hash: str, grace_period: Optional[str], ) -> None: """ Insert old key into deprecated table so it remains valid during grace period. Uses upsert to handle concurrent rotations gracefully. Parameters: prisma_client: DB client old_token_hash: Hash of the old key being rotated out new_token_hash: Hash of the new replacement key grace_period: Duration string (e.g. "24h", "2d") or None/empty for immediate revoke """ grace_period_value = grace_period or os.getenv( "LITELLM_KEY_ROTATION_GRACE_PERIOD", "" ) if not grace_period_value: return try: grace_seconds = duration_in_seconds(grace_period_value) except ValueError: verbose_proxy_logger.warning( "Invalid grace_period format: %s. Expected format like '24h', '2d'.", grace_period_value, ) return if grace_seconds <= 0: return try: revoke_at = datetime.now(timezone.utc) + timedelta(seconds=grace_seconds) await prisma_client.db.litellm_deprecatedverificationtoken.upsert( where={"token": old_token_hash}, data={ "create": { "token": old_token_hash, "active_token_id": new_token_hash, "revoke_at": revoke_at, }, "update": { "active_token_id": new_token_hash, "revoke_at": revoke_at, }, }, ) verbose_proxy_logger.debug( "Deprecated key retained for %s (revoke_at: %s)", grace_period_value, revoke_at, ) except Exception as deprecated_err: verbose_proxy_logger.warning( "Failed to insert deprecated key for grace period: %s", deprecated_err, ) async def _execute_virtual_key_regeneration( *, prisma_client: PrismaClient, key_in_db: LiteLLM_VerificationToken, hashed_api_key: str, key: str, data: Optional[RegenerateKeyRequest], user_api_key_dict: UserAPIKeyAuth, litellm_changed_by: Optional[str], user_api_key_cache: DualCache, proxy_logging_obj: ProxyLogging, ) -> GenerateKeyResponse: """Generate new token, update DB, invalidate cache, and return response.""" from litellm.proxy.proxy_server import hash_token new_token = get_new_token(data=data) new_token_hash = hash_token(new_token) new_token_key_name = f"sk-...{new_token[-4:]}" update_data = {"token": new_token_hash, "key_name": new_token_key_name} non_default_values = {} if data is not None: non_default_values = await prepare_key_update_data( data=data, existing_key_row=key_in_db ) _validate_key_alias_format(key_alias=non_default_values.get("key_alias")) verbose_proxy_logger.debug("non_default_values: %s", non_default_values) update_data.update(non_default_values) update_data = prisma_client.jsonify_object(data=update_data) # If grace period set, insert deprecated key so old key remains valid await _insert_deprecated_key( prisma_client=prisma_client, old_token_hash=hashed_api_key, new_token_hash=new_token_hash, grace_period=data.grace_period if data else None, ) updated_token = await prisma_client.db.litellm_verificationtoken.update( where={"token": hashed_api_key}, data=update_data, # type: ignore ) updated_token_dict = dict(updated_token) if updated_token is not None else {} updated_token_dict["key"] = new_token updated_token_dict["token_id"] = updated_token_dict.pop("token") if hashed_api_key or key: await _delete_cache_key_object( hashed_token=hash_token(key), user_api_key_cache=user_api_key_cache, proxy_logging_obj=proxy_logging_obj, ) response = GenerateKeyResponse(**updated_token_dict) asyncio.create_task( KeyManagementEventHooks.async_key_rotated_hook( data=data, existing_key_row=key_in_db, response=response, user_api_key_dict=user_api_key_dict, litellm_changed_by=litellm_changed_by, ) ) return response @router.post( "/key/{key:path}/regenerate", tags=["key management"], dependencies=[Depends(user_api_key_auth)], ) @router.post( "/key/regenerate", tags=["key management"], dependencies=[Depends(user_api_key_auth)], ) @management_endpoint_wrapper async def regenerate_key_fn( # noqa: PLR0915 key: Optional[str] = None, data: Optional[RegenerateKeyRequest] = None, user_api_key_dict: UserAPIKeyAuth = Depends(user_api_key_auth), litellm_changed_by: Optional[str] = Header( None, description="The litellm-changed-by header enables tracking of actions performed by authorized users on behalf of other users, providing an audit trail for accountability", ), ) -> Optional[GenerateKeyResponse]: """ Regenerate an existing API key while optionally updating its parameters. Parameters: - key: str (path parameter) - The key to regenerate - data: Optional[RegenerateKeyRequest] - Request body containing optional parameters to update - key: Optional[str] - The key to regenerate. - new_master_key: Optional[str] - The new master key to use, if key is the master key. - new_key: Optional[str] - The new key to use, if key is not the master key. If both set, new_master_key will be used. - key_alias: Optional[str] - User-friendly key alias - user_id: Optional[str] - User ID associated with key - team_id: Optional[str] - Team ID associated with key - models: Optional[list] - Model_name's a user is allowed to call - tags: Optional[List[str]] - Tags for organizing keys (Enterprise only) - spend: Optional[float] - Amount spent by key - max_budget: Optional[float] - Max budget for key - model_max_budget: Optional[Dict[str, BudgetConfig]] - Model-specific budgets {"gpt-4": {"budget_limit": 0.0005, "time_period": "30d"}} - budget_duration: Optional[str] - Budget reset period ("30d", "1h", etc.) - soft_budget: Optional[float] - Soft budget limit (warning vs. hard stop). Will trigger a slack alert when this soft budget is reached. - max_parallel_requests: Optional[int] - Rate limit for parallel requests - metadata: Optional[dict] - Metadata for key. Example {"team": "core-infra", "app": "app2"} - tpm_limit: Optional[int] - Tokens per minute limit - rpm_limit: Optional[int] - Requests per minute limit - model_rpm_limit: Optional[dict] - Model-specific RPM limits {"gpt-4": 100, "claude-v1": 200} - model_tpm_limit: Optional[dict] - Model-specific TPM limits {"gpt-4": 100000, "claude-v1": 200000} - allowed_cache_controls: Optional[list] - List of allowed cache control values - duration: Optional[str] - Key validity duration ("30d", "1h", etc.) - permissions: Optional[dict] - Key-specific permissions - guardrails: Optional[List[str]] - List of active guardrails for the key - blocked: Optional[bool] - Whether the key is blocked - grace_period: Optional[str] - Duration to keep old key valid after rotation (e.g. "24h", "2d"). Omitted = immediate revoke. Env: LITELLM_KEY_ROTATION_GRACE_PERIOD Returns: - GenerateKeyResponse containing the new key and its updated parameters Example: ```bash curl --location --request POST 'http://localhost:4000/key/sk-1234/regenerate' \ --header 'Authorization: Bearer sk-1234' \ --header 'Content-Type: application/json' \ --data-raw '{ "max_budget": 100, "metadata": {"team": "core-infra"}, "models": ["gpt-4", "gpt-3.5-turbo"] }' ``` Note: This is an Enterprise feature. It requires a premium license to use. """ try: from litellm.proxy.proxy_server import ( hash_token, master_key, premium_user, prisma_client, proxy_logging_obj, user_api_key_cache, ) is_master_key_regeneration = data and data.new_master_key is not None if ( premium_user is not True and not is_master_key_regeneration ): # allow master key regeneration for non-premium users raise ValueError( f"Regenerating Virtual Keys is an Enterprise feature, {CommonProxyErrors.not_premium_user.value}" ) # Check if key exists, raise exception if key is not in the DB key = data.key if data and data.key else key if not key: raise HTTPException(status_code=400, detail={"error": "No key passed in."}) ### 1. Create New copy that is duplicate of existing key ###################################################################### # create duplicate of existing key # set token = new token generated # insert new token in DB # create hash of token if prisma_client is None: raise HTTPException( status_code=status.HTTP_500_INTERNAL_SERVER_ERROR, detail={"error": "DB not connected. prisma_client is None"}, ) _is_master_key_valid = _is_master_key(api_key=key, _master_key=master_key) if master_key is not None and data and _is_master_key_valid: if data.new_master_key is None: raise HTTPException( status_code=status.HTTP_400_BAD_REQUEST, detail={"error": "New master key is required."}, ) await _rotate_master_key( prisma_client=prisma_client, user_api_key_dict=user_api_key_dict, current_master_key=master_key, new_master_key=data.new_master_key, ) return GenerateKeyResponse( key=data.new_master_key, token=data.new_master_key, key_name=data.new_master_key, expires=None, ) if "sk" not in key: hashed_api_key = key else: hashed_api_key = hash_token(key) _key_in_db = await prisma_client.db.litellm_verificationtoken.find_unique( where={"token": hashed_api_key}, ) if _key_in_db is None: raise HTTPException( status_code=status.HTTP_404_NOT_FOUND, detail={"error": f"Key {key} not found."}, ) # check if user has permission to regenerate key await TeamMemberPermissionChecks.can_team_member_execute_key_management_endpoint( user_api_key_dict=user_api_key_dict, route=KeyManagementRoutes.KEY_REGENERATE, prisma_client=prisma_client, existing_key_row=_key_in_db, user_api_key_cache=user_api_key_cache, ) # check if user has ownership permission to regenerate key if not await can_modify_verification_token( key_info=_key_in_db, user_api_key_cache=user_api_key_cache, user_api_key_dict=user_api_key_dict, prisma_client=prisma_client, ): raise HTTPException( status_code=status.HTTP_403_FORBIDDEN, detail={"error": "You are not authorized to regenerate this key"}, ) verbose_proxy_logger.info( "Key regeneration requested: key_alias=%s", getattr(_key_in_db, "key_alias", None), ) verbose_proxy_logger.debug("key_in_db: %s", _key_in_db) # Normalize litellm_changed_by: if it's a Header object or not a string, convert to None if litellm_changed_by is not None and not isinstance(litellm_changed_by, str): litellm_changed_by = None # Save the old key record to deleted table before regeneration. # This preserves key_alias and team_id metadata for historical spend records. # If this fails, abort the regeneration to avoid permanently losing the # old hash→metadata mapping. await _persist_deleted_verification_tokens( keys=[_key_in_db], prisma_client=prisma_client, user_api_key_dict=user_api_key_dict, litellm_changed_by=litellm_changed_by, ) return await _execute_virtual_key_regeneration( prisma_client=prisma_client, key_in_db=_key_in_db, hashed_api_key=hashed_api_key, key=key, data=data, user_api_key_dict=user_api_key_dict, litellm_changed_by=litellm_changed_by, user_api_key_cache=user_api_key_cache, proxy_logging_obj=proxy_logging_obj, ) except Exception as e: verbose_proxy_logger.exception("Error regenerating key: %s", e) raise handle_exception_on_proxy(e) async def _check_proxy_or_team_admin_for_key( key_in_db: LiteLLM_VerificationToken, user_api_key_dict: UserAPIKeyAuth, prisma_client: PrismaClient, user_api_key_cache: DualCache, ) -> None: if user_api_key_dict.user_role == LitellmUserRoles.PROXY_ADMIN.value: return if key_in_db.team_id is not None: team_table = await get_team_object( team_id=key_in_db.team_id, prisma_client=prisma_client, user_api_key_cache=user_api_key_cache, check_db_only=True, ) if team_table is not None: if _is_user_team_admin( user_api_key_dict=user_api_key_dict, team_obj=team_table, ): return raise HTTPException( status_code=status.HTTP_403_FORBIDDEN, detail={"error": "You must be a proxy admin or team admin to reset key spend"}, ) def _validate_reset_spend_value( reset_to: Any, key_in_db: LiteLLM_VerificationToken ) -> float: if not isinstance(reset_to, (int, float)): raise HTTPException( status_code=status.HTTP_400_BAD_REQUEST, detail={"error": "reset_to must be a float"}, ) reset_to = float(reset_to) if reset_to < 0: raise HTTPException( status_code=status.HTTP_400_BAD_REQUEST, detail={"error": "reset_to must be >= 0"}, ) current_spend = key_in_db.spend or 0.0 if reset_to > current_spend: raise HTTPException( status_code=status.HTTP_400_BAD_REQUEST, detail={ "error": f"reset_to ({reset_to}) must be <= current spend ({current_spend})" }, ) max_budget = key_in_db.max_budget if key_in_db.litellm_budget_table is not None: budget_max_budget = getattr(key_in_db.litellm_budget_table, "max_budget", None) if budget_max_budget is not None: if max_budget is None or budget_max_budget < max_budget: max_budget = budget_max_budget if max_budget is not None and reset_to > max_budget: raise HTTPException( status_code=status.HTTP_400_BAD_REQUEST, detail={"error": f"reset_to ({reset_to}) must be <= budget ({max_budget})"}, ) return reset_to @router.post( "/key/{key:path}/reset_spend", tags=["key management"], dependencies=[Depends(user_api_key_auth)], ) @management_endpoint_wrapper async def reset_key_spend_fn( key: str, data: ResetSpendRequest, user_api_key_dict: UserAPIKeyAuth = Depends(user_api_key_auth), litellm_changed_by: Optional[str] = Header( None, description="The litellm-changed-by header enables tracking of actions performed by authorized users on behalf of other users, providing an audit trail for accountability", ), ) -> Dict[str, Any]: try: from litellm.proxy.proxy_server import ( hash_token, prisma_client, proxy_logging_obj, user_api_key_cache, ) if prisma_client is None: raise HTTPException( status_code=status.HTTP_500_INTERNAL_SERVER_ERROR, detail={"error": "DB not connected. prisma_client is None"}, ) if "sk" not in key: hashed_api_key = key else: hashed_api_key = hash_token(key) _key_in_db = await prisma_client.db.litellm_verificationtoken.find_unique( where={"token": hashed_api_key}, include={"litellm_budget_table": True}, ) if _key_in_db is None: raise HTTPException( status_code=status.HTTP_404_NOT_FOUND, detail={"error": f"Key {key} not found."}, ) current_spend = _key_in_db.spend or 0.0 reset_to = _validate_reset_spend_value(data.reset_to, _key_in_db) await _check_proxy_or_team_admin_for_key( key_in_db=_key_in_db, user_api_key_dict=user_api_key_dict, prisma_client=prisma_client, user_api_key_cache=user_api_key_cache, ) updated_key = await prisma_client.db.litellm_verificationtoken.update( where={"token": hashed_api_key}, data={"spend": reset_to}, ) if updated_key is None: raise HTTPException( status_code=status.HTTP_500_INTERNAL_SERVER_ERROR, detail={"error": "Failed to update key spend"}, ) await _delete_cache_key_object( hashed_token=hashed_api_key, user_api_key_cache=user_api_key_cache, proxy_logging_obj=proxy_logging_obj, ) max_budget = updated_key.max_budget budget_reset_at = updated_key.budget_reset_at return { "key_hash": hashed_api_key, "spend": reset_to, "previous_spend": current_spend, "max_budget": max_budget, "budget_reset_at": budget_reset_at, } except HTTPException: raise except Exception as e: verbose_proxy_logger.exception("Error resetting key spend: %s", e) raise handle_exception_on_proxy(e) async def validate_key_list_check( user_api_key_dict: UserAPIKeyAuth, user_id: Optional[str], team_id: Optional[str], organization_id: Optional[str], key_alias: Optional[str], key_hash: Optional[str], prisma_client: PrismaClient, ) -> Optional[LiteLLM_UserTable]: if user_api_key_dict.user_role == LitellmUserRoles.PROXY_ADMIN.value: return None if user_api_key_dict.user_id is None: raise ProxyException( message="You are not authorized to access this endpoint. No 'user_id' is associated with your API key.", type=ProxyErrorTypes.bad_request_error, param="user_id", code=status.HTTP_403_FORBIDDEN, ) complete_user_info_db_obj: Optional[ BaseModel ] = await prisma_client.db.litellm_usertable.find_unique( where={"user_id": user_api_key_dict.user_id}, include={"organization_memberships": True}, ) if complete_user_info_db_obj is None: raise ProxyException( message="You are not authorized to access this endpoint. No 'user_id' is associated with your API key.", type=ProxyErrorTypes.bad_request_error, param="user_id", code=status.HTTP_403_FORBIDDEN, ) complete_user_info = LiteLLM_UserTable(**complete_user_info_db_obj.model_dump()) # internal user can only see their own keys if user_id: if complete_user_info.user_id != user_id: raise ProxyException( message="You are not authorized to check another user's keys", type=ProxyErrorTypes.bad_request_error, param="user_id", code=status.HTTP_403_FORBIDDEN, ) if team_id: if team_id not in complete_user_info.teams: raise ProxyException( message="You are not authorized to check this team's keys", type=ProxyErrorTypes.bad_request_error, param="team_id", code=status.HTTP_403_FORBIDDEN, ) if organization_id: if ( complete_user_info.organization_memberships is None or organization_id not in [ membership.organization_id for membership in complete_user_info.organization_memberships ] ): raise ProxyException( message="You are not authorized to check this organization's keys", type=ProxyErrorTypes.bad_request_error, param="organization_id", code=status.HTTP_403_FORBIDDEN, ) if key_hash: try: key_info = await prisma_client.db.litellm_verificationtoken.find_unique( where={"token": key_hash}, ) except Exception: raise ProxyException( message="Key Hash not found.", type=ProxyErrorTypes.bad_request_error, param="key_hash", code=status.HTTP_403_FORBIDDEN, ) can_user_query_key_info = await _can_user_query_key_info( user_api_key_dict=user_api_key_dict, key=key_hash, key_info=key_info, ) if not can_user_query_key_info: raise HTTPException( status_code=status.HTTP_403_FORBIDDEN, detail="You are not allowed to access this key's info. Your role={}".format( user_api_key_dict.user_role ), ) return complete_user_info async def _fetch_user_team_objects( complete_user_info: Optional[LiteLLM_UserTable], prisma_client: PrismaClient, ) -> List[LiteLLM_TeamTable]: """Fetch team objects for all teams a user belongs to (single DB query).""" if complete_user_info is None or not complete_user_info.teams: return [] teams: Optional[ List[BaseModel] ] = await prisma_client.db.litellm_teamtable.find_many( where={"team_id": {"in": complete_user_info.teams}} ) if teams is None: return [] return [LiteLLM_TeamTable(**team.model_dump()) for team in teams] def _get_admin_team_ids_from_objects( user_api_key_dict: UserAPIKeyAuth, team_objects: List[LiteLLM_TeamTable], ) -> List[str]: """Filter team objects to those where the user is an admin.""" return [ team.team_id for team in team_objects if _is_user_team_admin(user_api_key_dict=user_api_key_dict, team_obj=team) ] def _get_member_team_ids_from_objects( user_api_key_dict: UserAPIKeyAuth, team_objects: List[LiteLLM_TeamTable], ) -> List[str]: """Filter team objects to those where the user is a member (any role).""" return [ team.team_id for team in team_objects if any( member.user_id is not None and member.user_id == user_api_key_dict.user_id for member in team.members_with_roles ) ] async def get_admin_team_ids( complete_user_info: Optional[LiteLLM_UserTable], user_api_key_dict: UserAPIKeyAuth, prisma_client: PrismaClient, ) -> List[str]: """Get all team IDs where the user is an admin.""" team_objects = await _fetch_user_team_objects(complete_user_info, prisma_client) return _get_admin_team_ids_from_objects(user_api_key_dict, team_objects) async def get_member_team_ids( complete_user_info: Optional[LiteLLM_UserTable], user_api_key_dict: UserAPIKeyAuth, prisma_client: PrismaClient, ) -> List[str]: """ Get all team IDs where the user is a member (any role, including admin). Used to determine which teams' service accounts (keys with user_id=NULL) a regular team member can see. """ team_objects = await _fetch_user_team_objects(complete_user_info, prisma_client) return _get_member_team_ids_from_objects(user_api_key_dict, team_objects) @router.get( "/key/list", tags=["key management"], dependencies=[Depends(user_api_key_auth)], ) @management_endpoint_wrapper async def list_keys( request: Request, user_api_key_dict: UserAPIKeyAuth = Depends(user_api_key_auth), page: int = Query(1, description="Page number", ge=1), size: int = Query(10, description="Page size", ge=1, le=100), user_id: Optional[str] = Query(None, description="Filter keys by user ID"), team_id: Optional[str] = Query(None, description="Filter keys by team ID"), organization_id: Optional[str] = Query( None, description="Filter keys by organization ID" ), key_hash: Optional[str] = Query(None, description="Filter keys by key hash"), key_alias: Optional[str] = Query(None, description="Filter keys by key alias"), return_full_object: bool = Query(False, description="Return full key object"), include_team_keys: bool = Query( False, description="Include all keys for teams that user is an admin of." ), include_created_by_keys: bool = Query( False, description="Include keys created by the user" ), sort_by: Optional[str] = Query( default=None, description="Column to sort by (e.g. 'user_id', 'created_at', 'spend')", ), sort_order: str = Query(default="desc", description="Sort order ('asc' or 'desc')"), expand: Optional[List[str]] = Query( None, description="Expand related objects (e.g. 'user')" ), status: Optional[str] = Query( None, description="Filter by status (e.g. 'deleted')" ), project_id: Optional[str] = Query(None, description="Filter keys by project ID"), access_group_id: Optional[str] = Query( None, description="Filter keys by access group ID" ), ) -> KeyListResponseObject: """ List all keys for a given user / team / organization. Parameters: expand: Optional[List[str]] - Expand related objects (e.g. 'user' to include user information) status: Optional[str] - Filter by status. Currently supports "deleted" to query deleted keys. Returns: { "keys": List[str] or List[UserAPIKeyAuth], "total_count": int, "current_page": int, "total_pages": int, } When expand includes "user", each key object will include a "user" field with the associated user object. Note: When expand=user is specified, full key objects are returned regardless of the return_full_object parameter. """ try: from litellm.proxy.proxy_server import prisma_client verbose_proxy_logger.debug("Entering list_keys function") if prisma_client is None: verbose_proxy_logger.error("Database not connected") raise Exception("Database not connected") # Validate status parameter if status is not None and status != "deleted": raise HTTPException( status_code=400, detail={ "error": "Invalid status value. Currently only 'deleted' is supported." }, ) complete_user_info = await validate_key_list_check( user_api_key_dict=user_api_key_dict, user_id=user_id, team_id=team_id, organization_id=organization_id, key_alias=key_alias, key_hash=key_hash, prisma_client=prisma_client, ) # Fetch team objects once when needed for either admin or member filtering. # This avoids duplicate DB queries for the same team data. if include_team_keys or include_created_by_keys: team_objects = await _fetch_user_team_objects( complete_user_info=complete_user_info, prisma_client=prisma_client, ) member_team_ids = _get_member_team_ids_from_objects( user_api_key_dict=user_api_key_dict, team_objects=team_objects, ) else: team_objects = [] member_team_ids = None if include_team_keys: admin_team_ids = _get_admin_team_ids_from_objects( user_api_key_dict=user_api_key_dict, team_objects=team_objects, ) else: admin_team_ids = None if not user_id and user_api_key_dict.user_role not in [ LitellmUserRoles.PROXY_ADMIN.value, LitellmUserRoles.PROXY_ADMIN_VIEW_ONLY.value, ]: user_id = user_api_key_dict.user_id response = await _list_key_helper( prisma_client=prisma_client, page=page, size=size, user_id=user_id, team_id=team_id, key_alias=key_alias, key_hash=key_hash, return_full_object=return_full_object, organization_id=organization_id, admin_team_ids=admin_team_ids, member_team_ids=member_team_ids, include_created_by_keys=include_created_by_keys, sort_by=sort_by, sort_order=sort_order, expand=expand, status=status, project_id=project_id, access_group_id=access_group_id, ) verbose_proxy_logger.debug("Successfully prepared response") return response except Exception as e: verbose_proxy_logger.exception(f"Error in list_keys: {e}") if isinstance(e, HTTPException): raise ProxyException( message=getattr(e, "detail", f"error({str(e)})"), type=ProxyErrorTypes.internal_server_error, param=getattr(e, "param", "None"), code=getattr( e, "status_code", fastapi.status.HTTP_500_INTERNAL_SERVER_ERROR ), ) elif isinstance(e, ProxyException): raise e raise ProxyException( message="Authentication Error, " + str(e), type=ProxyErrorTypes.internal_server_error, param=getattr(e, "param", "None"), code=fastapi.status.HTTP_500_INTERNAL_SERVER_ERROR, ) @router.get( "/key/aliases", tags=["key management"], dependencies=[Depends(user_api_key_auth)], ) @management_endpoint_wrapper async def key_aliases( user_api_key_dict: UserAPIKeyAuth = Depends(user_api_key_auth), page: int = Query(1, ge=1, description="Page number"), size: int = Query(50, ge=1, le=100, description="Page size"), search: Optional[str] = Query( None, description="Search key aliases (case-insensitive partial match)" ), ) -> Dict[str, Any]: """ Lists key aliases with pagination and optional search. Non-admin users only see aliases for keys they own or keys belonging to their teams. Returns: { "aliases": List[str], "total_count": int, "current_page": int, "total_pages": int, "size": int, } """ try: from litellm.proxy.proxy_server import prisma_client verbose_proxy_logger.debug("Entering key_aliases function") if prisma_client is None: verbose_proxy_logger.error("Database not connected") raise Exception("Database not connected") # Build a parameterized WHERE clause to avoid loading full rows into # memory. Raw SQL is used because the Prisma client wrapper does not # support column-level SELECT projection on find_many. # # $1 is always UI_SESSION_TOKEN_TEAM_ID (filters out UI session tokens). query_params: List[Any] = [UI_SESSION_TOKEN_TEAM_ID] where_parts = [ "key_alias IS NOT NULL", "key_alias != ''", "(team_id IS NULL OR team_id != $1)", ] # Scope results for non-admin users: only show aliases for keys the # user owns or keys belonging to teams they are a member of. is_proxy_admin = user_api_key_dict.user_role in [ LitellmUserRoles.PROXY_ADMIN.value, LitellmUserRoles.PROXY_ADMIN_VIEW_ONLY.value, ] if not is_proxy_admin: scope_conditions: List[str] = [] if user_api_key_dict.user_id: query_params.append(user_api_key_dict.user_id) scope_conditions.append(f"user_id = ${len(query_params)}") # Look up the user's teams from the user table user_teams: List[str] = [] if user_api_key_dict.user_id: user_row = await prisma_client.db.litellm_usertable.find_unique( where={"user_id": user_api_key_dict.user_id} ) if user_row is not None: user_teams = getattr(user_row, "teams", []) or [] if user_teams: team_placeholders = ", ".join( f"${len(query_params) + i + 1}" for i in range(len(user_teams)) ) query_params.extend(user_teams) scope_conditions.append(f"team_id IN ({team_placeholders})") if scope_conditions: where_parts.append(f"({' OR '.join(scope_conditions)})") else: # No user_id and no teams — return nothing where_parts.append("FALSE") if search: query_params.append(f"%{search}%") where_parts.append(f"key_alias ILIKE ${len(query_params)}") where_sql = " AND ".join(where_parts) count_sql = ( f'SELECT COUNT(*) AS count FROM "LiteLLM_VerificationToken" WHERE {where_sql}' ) count_rows = await prisma_client.db.query_raw(count_sql, *query_params) total_count = int(count_rows[0]["count"]) if count_rows else 0 aliases_params = query_params + [size, (page - 1) * size] limit_idx = len(aliases_params) - 1 offset_idx = len(aliases_params) aliases_sql = ( f"SELECT key_alias" f' FROM "LiteLLM_VerificationToken"' f" WHERE {where_sql}" f" ORDER BY key_alias ASC" f" LIMIT ${limit_idx} OFFSET ${offset_idx}" ) alias_rows = await prisma_client.db.query_raw(aliases_sql, *aliases_params) aliases: List[str] = [row["key_alias"] for row in alias_rows if row.get("key_alias")] total_pages = -(-total_count // size) if total_count > 0 else 0 verbose_proxy_logger.debug( f"key_aliases: page={page}, size={size}, search={search!r}, " f"total_count={total_count}, total_pages={total_pages}" ) return { "aliases": aliases, "total_count": total_count, "current_page": page, "total_pages": total_pages, "size": size, } except Exception as e: verbose_proxy_logger.exception(f"Error in key_aliases: {e}") if isinstance(e, HTTPException): raise ProxyException( message=getattr(e, "detail", f"error({str(e)})"), type=ProxyErrorTypes.internal_server_error, param=getattr(e, "param", "None"), code=getattr(e, "status_code", status.HTTP_500_INTERNAL_SERVER_ERROR), ) elif isinstance(e, ProxyException): raise e raise ProxyException( message="Authentication Error, " + str(e), type=ProxyErrorTypes.internal_server_error, param=getattr(e, "param", "None"), code=status.HTTP_500_INTERNAL_SERVER_ERROR, ) def _validate_sort_params( sort_by: Optional[str], sort_order: str ) -> Optional[Dict[str, str]]: order_by: Dict[str, str] = {} if sort_by is None: return None # Validate sort_by is a valid column valid_columns = [ "spend", "max_budget", "created_at", "updated_at", "token", "key_alias", ] if sort_by not in valid_columns: raise HTTPException( status_code=400, detail={ "error": f"Invalid sort column. Must be one of: {', '.join(valid_columns)}" }, ) # Validate sort_order if sort_order.lower() not in ["asc", "desc"]: raise HTTPException( status_code=400, detail={"error": "Invalid sort order. Must be 'asc' or 'desc'"}, ) order_by[sort_by] = sort_order.lower() return order_by def _build_key_filter_conditions( user_id: Optional[str], team_id: Optional[str], organization_id: Optional[str], key_alias: Optional[str], key_hash: Optional[str], exclude_team_id: Optional[str], admin_team_ids: Optional[List[str]], member_team_ids: Optional[List[str]] = None, include_created_by_keys: bool = False, project_id: Optional[str] = None, access_group_id: Optional[str] = None, ) -> Dict[str, Union[str, Dict[str, Any], List[Dict[str, Any]]]]: """Build filter conditions for key listing. Visibility rules: - Users always see their own keys (user_id match) - Team admins see ALL keys for their admin teams (via admin_team_ids) - Regular team members see only service accounts (user_id=NULL) for their teams (via member_team_ids). This prevents leaking other members' spend data. - created_by visibility is scoped to teams the user currently belongs to, so former members cannot see service accounts they created after leaving. """ # Prepare filter conditions where: Dict[str, Union[str, Dict[str, Any], List[Dict[str, Any]]]] = {} where.update(_get_condition_to_filter_out_ui_session_tokens()) # Build the OR conditions for user's keys and admin team keys or_conditions: List[Dict[str, Any]] = [] # Base conditions for user's own keys user_condition: Dict[str, Any] = {} if user_id and isinstance(user_id, str): user_condition["user_id"] = user_id if key_alias and isinstance(key_alias, str): user_condition["key_alias"] = key_alias if exclude_team_id and isinstance(exclude_team_id, str): user_condition["team_id"] = {"not": exclude_team_id} if organization_id and isinstance(organization_id, str): user_condition["organization_id"] = organization_id if key_hash and isinstance(key_hash, str): user_condition["token"] = key_hash if user_condition: or_conditions.append(user_condition) # Add condition for created_by keys, scoped to user's current teams if include_created_by_keys and user_id: if member_team_ids is not None: if member_team_ids: # Scope created_by keys to teams user is still a member of, # or keys that have no team (personal keys) or_conditions.append( { "AND": [ {"created_by": user_id}, { "OR": [ {"team_id": {"in": member_team_ids}}, {"team_id": None}, ] }, ] } ) else: # User is not a member of any team, only show non-team created_by keys or_conditions.append( {"AND": [{"created_by": user_id}, {"team_id": None}]} ) else: # No team membership info provided (backward compatibility for # direct _list_key_helper callers like Prometheus) or_conditions.append({"created_by": user_id}) # Add condition for admin team keys (admins see ALL team keys) if admin_team_ids: or_conditions.append({"team_id": {"in": admin_team_ids}}) # Add condition for member team service accounts (members only see keys with user_id=NULL) if member_team_ids: # Exclude teams where user is already admin (those are covered above with full visibility) member_only_team_ids = [ tid for tid in member_team_ids if tid not in (admin_team_ids or []) ] if member_only_team_ids: or_conditions.append( { "AND": [ {"team_id": {"in": member_only_team_ids}}, {"user_id": None}, ] } ) # Combine conditions with OR if we have multiple conditions if len(or_conditions) > 1: where = {"AND": [where, {"OR": or_conditions}]} elif len(or_conditions) == 1: where.update(or_conditions[0]) # Apply team_id, project_id and access_group_id as global AND filters so they # narrow results across all visibility conditions (own keys, team keys, etc.) if team_id and isinstance(team_id, str): where = {"AND": [where, {"team_id": team_id}]} if project_id: where = {"AND": [where, {"project_id": project_id}]} if access_group_id: where = {"AND": [where, {"access_group_ids": {"hasSome": [access_group_id]}}]} verbose_proxy_logger.debug(f"Filter conditions: {where}") return where async def _list_key_helper( prisma_client: PrismaClient, page: int, size: int, user_id: Optional[str], team_id: Optional[str], organization_id: Optional[str], key_alias: Optional[str], key_hash: Optional[str], exclude_team_id: Optional[str] = None, return_full_object: bool = False, admin_team_ids: Optional[ List[str] ] = None, # New parameter for teams where user is admin member_team_ids: Optional[ List[str] ] = None, # Team IDs where user is a member (any role) - for service account visibility include_created_by_keys: bool = False, sort_by: Optional[str] = None, sort_order: str = "desc", expand: Optional[List[str]] = None, status: Optional[str] = None, project_id: Optional[str] = None, access_group_id: Optional[str] = None, ) -> KeyListResponseObject: """ Helper function to list keys Args: page: int size: int user_id: Optional[str] team_id: Optional[str] key_alias: Optional[str] exclude_team_id: Optional[str] # exclude a specific team_id return_full_object: bool # when true, will return UserAPIKeyAuth objects instead of just the token admin_team_ids: Optional[List[str]] # list of team IDs where the user is an admin member_team_ids: Optional[List[str]] # list of team IDs where user is a member (for service account visibility) Returns: KeyListResponseObject { "keys": List[str] or List[UserAPIKeyAuth], # Updated to reflect possible return types "total_count": int, "current_page": int, "total_pages": int, } """ where = _build_key_filter_conditions( user_id=user_id, team_id=team_id, organization_id=organization_id, key_alias=key_alias, key_hash=key_hash, exclude_team_id=exclude_team_id, admin_team_ids=admin_team_ids, member_team_ids=member_team_ids, include_created_by_keys=include_created_by_keys, project_id=project_id, access_group_id=access_group_id, ) # Calculate skip for pagination skip = (page - 1) * size verbose_proxy_logger.debug(f"Pagination: skip={skip}, take={size}") order_by: Optional[Dict[str, str]] = ( _validate_sort_params(sort_by, sort_order) if sort_by is not None and isinstance(sort_by, str) else None ) # Determine which table to query based on status use_deleted_table = status == "deleted" # Fetch keys with pagination if use_deleted_table: keys = await prisma_client.db.litellm_deletedverificationtoken.find_many( where=where, # type: ignore skip=skip, # type: ignore take=size, # type: ignore order=( order_by if order_by else [ {"created_at": "desc"}, {"token": "desc"}, # fallback sort ] ), ) else: keys = await prisma_client.db.litellm_verificationtoken.find_many( where=where, # type: ignore skip=skip, # type: ignore take=size, # type: ignore order=( order_by if order_by else [ {"created_at": "desc"}, {"token": "desc"}, # fallback sort ] ), include={"object_permission": True}, ) verbose_proxy_logger.debug(f"Fetched {len(keys)} keys") # Get total count of keys if use_deleted_table: total_count = await prisma_client.db.litellm_deletedverificationtoken.count( where=where # type: ignore ) else: total_count = await prisma_client.db.litellm_verificationtoken.count( where=where # type: ignore ) verbose_proxy_logger.debug(f"Total count of keys: {total_count}") # Calculate total pages total_pages = -(-total_count // size) # Ceiling division # Fetch user information if expand includes "user" user_map = {} if expand and "user" in expand: user_ids = [key.user_id for key in keys if key.user_id] if user_ids: users = await prisma_client.db.litellm_usertable.find_many( where={"user_id": {"in": list(set(user_ids))}} # Remove duplicates ) user_map = {user.user_id: user for user in users} # Prepare response key_list: List[Union[str, UserAPIKeyAuth, LiteLLM_DeletedVerificationToken]] = [] for key in keys: # Convert Prisma model to dict (supports both Pydantic v1 and v2) try: key_dict = key.model_dump() except Exception: # Fallback for Pydantic v1 compatibility key_dict = key.dict() # Attach object_permission if object_permission_id is set (only for non-deleted keys) if not use_deleted_table: key_dict = await attach_object_permission_to_dict(key_dict, prisma_client) # Include user information if expand includes "user" if expand and "user" in expand and key.user_id and key.user_id in user_map: try: key_dict["user"] = user_map[key.user_id].model_dump() except Exception: key_dict["user"] = user_map[key.user_id].dict() if return_full_object is True or (expand and "user" in expand): if use_deleted_table: # Use deleted key type to preserve deleted_at, deleted_by, etc. key_list.append(LiteLLM_DeletedVerificationToken(**key_dict)) else: key_list.append(UserAPIKeyAuth(**key_dict)) # Return full key object else: _token = key_dict.get("token") key_list.append(cast(str, _token)) # Return only the token return KeyListResponseObject( keys=key_list, total_count=total_count, current_page=page, total_pages=total_pages, ) def _get_condition_to_filter_out_ui_session_tokens() -> Dict[str, Any]: """ Condition to filter out UI session tokens """ return { "OR": [ {"team_id": None}, # Include records where team_id is null { "team_id": {"not": UI_SESSION_TOKEN_TEAM_ID} }, # Include records where team_id != UI_SESSION_TOKEN_TEAM_ID ] } @router.post( "/key/block", tags=["key management"], dependencies=[Depends(user_api_key_auth)] ) @management_endpoint_wrapper async def block_key( data: BlockKeyRequest, http_request: Request, user_api_key_dict: UserAPIKeyAuth = Depends(user_api_key_auth), litellm_changed_by: Optional[str] = Header( None, description="The litellm-changed-by header enables tracking of actions performed by authorized users on behalf of other users, providing an audit trail for accountability", ), ) -> Optional[LiteLLM_VerificationToken]: """ Block an Virtual key from making any requests. Parameters: - key: str - The key to block. Can be either the unhashed key (sk-...) or the hashed key value Example: ```bash curl --location 'http://0.0.0.0:4000/key/block' \ --header 'Authorization: Bearer sk-1234' \ --header 'Content-Type: application/json' \ --data '{ "key": "sk-Fn8Ej39NxjAXrvpUGKghGw" }' ``` Note: This is an admin-only endpoint. Only proxy admins can block keys. """ from litellm.proxy.proxy_server import ( create_audit_log_for_update, hash_token, litellm_proxy_admin_name, prisma_client, proxy_logging_obj, user_api_key_cache, ) if prisma_client is None: raise Exception("{}".format(CommonProxyErrors.db_not_connected_error.value)) if not is_valid_api_key(data.key): raise ProxyException( message="Invalid key format.", type=ProxyErrorTypes.bad_request_error, param="key", code=status.HTTP_400_BAD_REQUEST, ) if data.key.startswith("sk-"): hashed_token = hash_token(token=data.key) else: hashed_token = data.key if litellm.store_audit_logs is True: # make an audit log for key update record = await prisma_client.db.litellm_verificationtoken.find_unique( where={"token": hashed_token} ) if record is None: raise ProxyException( message=f"Key {data.key} not found", type=ProxyErrorTypes.bad_request_error, param="key", code=status.HTTP_404_NOT_FOUND, ) asyncio.create_task( create_audit_log_for_update( request_data=LiteLLM_AuditLogs( id=str(uuid.uuid4()), updated_at=datetime.now(timezone.utc), changed_by=litellm_changed_by or user_api_key_dict.user_id or litellm_proxy_admin_name, changed_by_api_key=user_api_key_dict.api_key, table_name=LitellmTableNames.KEY_TABLE_NAME, object_id=hashed_token, action="blocked", updated_values="{}", before_value=record.model_dump_json(), ) ) ) record = await prisma_client.db.litellm_verificationtoken.update( where={"token": hashed_token}, data={"blocked": True} # type: ignore ) ## UPDATE KEY CACHE ### get cached object ### key_object = await get_key_object( hashed_token=hashed_token, prisma_client=prisma_client, user_api_key_cache=user_api_key_cache, parent_otel_span=None, proxy_logging_obj=proxy_logging_obj, ) ### update cached object ### key_object.blocked = True ### store cached object ### await _cache_key_object( hashed_token=hashed_token, user_api_key_obj=key_object, user_api_key_cache=user_api_key_cache, proxy_logging_obj=proxy_logging_obj, ) return record @router.post( "/key/unblock", tags=["key management"], dependencies=[Depends(user_api_key_auth)] ) @management_endpoint_wrapper async def unblock_key( data: BlockKeyRequest, http_request: Request, user_api_key_dict: UserAPIKeyAuth = Depends(user_api_key_auth), litellm_changed_by: Optional[str] = Header( None, description="The litellm-changed-by header enables tracking of actions performed by authorized users on behalf of other users, providing an audit trail for accountability", ), ): """ Unblock a Virtual key to allow it to make requests again. Parameters: - key: str - The key to unblock. Can be either the unhashed key (sk-...) or the hashed key value Example: ```bash curl --location 'http://0.0.0.0:4000/key/unblock' \ --header 'Authorization: Bearer sk-1234' \ --header 'Content-Type: application/json' \ --data '{ "key": "sk-Fn8Ej39NxjAXrvpUGKghGw" }' ``` Note: This is an admin-only endpoint. Only proxy admins can unblock keys. """ from litellm.proxy.proxy_server import ( create_audit_log_for_update, hash_token, litellm_proxy_admin_name, prisma_client, proxy_logging_obj, user_api_key_cache, ) if prisma_client is None: raise Exception("{}".format(CommonProxyErrors.db_not_connected_error.value)) if not is_valid_api_key(data.key): raise ProxyException( message="Invalid key format.", type=ProxyErrorTypes.bad_request_error, param="key", code=status.HTTP_400_BAD_REQUEST, ) if data.key.startswith("sk-"): hashed_token = hash_token(token=data.key) else: hashed_token = data.key if litellm.store_audit_logs is True: # make an audit log for key update record = await prisma_client.db.litellm_verificationtoken.find_unique( where={"token": hashed_token} ) if record is None: raise ProxyException( message=f"Key {data.key} not found", type=ProxyErrorTypes.bad_request_error, param="key", code=status.HTTP_404_NOT_FOUND, ) asyncio.create_task( create_audit_log_for_update( request_data=LiteLLM_AuditLogs( id=str(uuid.uuid4()), updated_at=datetime.now(timezone.utc), changed_by=litellm_changed_by or user_api_key_dict.user_id or litellm_proxy_admin_name, changed_by_api_key=user_api_key_dict.api_key, table_name=LitellmTableNames.KEY_TABLE_NAME, object_id=hashed_token, action="blocked", updated_values="{}", before_value=record.model_dump_json(), ) ) ) record = await prisma_client.db.litellm_verificationtoken.update( where={"token": hashed_token}, data={"blocked": False} # type: ignore ) ## UPDATE KEY CACHE ### get cached object ### key_object = await get_key_object( hashed_token=hashed_token, prisma_client=prisma_client, user_api_key_cache=user_api_key_cache, parent_otel_span=None, proxy_logging_obj=proxy_logging_obj, ) ### update cached object ### key_object.blocked = False ### store cached object ### await _cache_key_object( hashed_token=hashed_token, user_api_key_obj=key_object, user_api_key_cache=user_api_key_cache, proxy_logging_obj=proxy_logging_obj, ) return record @router.post( "/key/health", tags=["key management"], dependencies=[Depends(user_api_key_auth)], response_model=KeyHealthResponse, ) @management_endpoint_wrapper async def key_health( request: Request, user_api_key_dict: UserAPIKeyAuth = Depends(user_api_key_auth), ): """ Check the health of the key Checks: - If key based logging is configured correctly - sends a test log Usage Pass the key in the request header ```bash curl -X POST "http://localhost:4000/key/health" \ -H "Authorization: Bearer sk-1234" \ -H "Content-Type: application/json" ``` Response when logging callbacks are setup correctly: ```json { "key": "healthy", "logging_callbacks": { "callbacks": [ "gcs_bucket" ], "status": "healthy", "details": "No logger exceptions triggered, system is healthy. Manually check if logs were sent to ['gcs_bucket']" } } ``` Response when logging callbacks are not setup correctly: ```json { "key": "unhealthy", "logging_callbacks": { "callbacks": [ "gcs_bucket" ], "status": "unhealthy", "details": "Logger exceptions triggered, system is unhealthy: Failed to load vertex credentials. Check to see if credentials containing partial/invalid information." } } ``` """ try: # Get the key's metadata key_metadata = user_api_key_dict.metadata health_status: KeyHealthResponse = KeyHealthResponse( key="healthy", logging_callbacks=None, ) # Check if logging is configured in metadata if key_metadata and "logging" in key_metadata: logging_statuses = await test_key_logging( user_api_key_dict=user_api_key_dict, request=request, key_logging=key_metadata["logging"], ) health_status["logging_callbacks"] = logging_statuses # Check if any logging callback is unhealthy if logging_statuses.get("status") == "unhealthy": health_status["key"] = "unhealthy" return KeyHealthResponse(**health_status) except Exception as e: raise ProxyException( message=f"Key health check failed: {str(e)}", type=ProxyErrorTypes.internal_server_error, param=getattr(e, "param", "None"), code=status.HTTP_500_INTERNAL_SERVER_ERROR, ) async def _can_user_query_key_info( user_api_key_dict: UserAPIKeyAuth, key: Optional[str], key_info: LiteLLM_VerificationToken, ) -> bool: """ Helper to check if the user has access to the key's info """ if ( user_api_key_dict.user_role == LitellmUserRoles.PROXY_ADMIN.value or user_api_key_dict.user_role == LitellmUserRoles.PROXY_ADMIN_VIEW_ONLY.value ): return True elif user_api_key_dict.api_key == key: return True # user can query their own key info elif key_info.user_id == user_api_key_dict.user_id: return True elif await TeamMemberPermissionChecks.user_belongs_to_keys_team( user_api_key_dict=user_api_key_dict, existing_key_row=key_info, ): return True return False async def test_key_logging( user_api_key_dict: UserAPIKeyAuth, request: Request, key_logging: List[Dict[str, Any]], ) -> LoggingCallbackStatus: """ Test the key-based logging - Test that key logging is correctly formatted and all args are passed correctly - Make a mock completion call -> user can check if it's correctly logged - Check if any logger.exceptions were triggered -> if they were then returns it to the user client side """ import logging from io import StringIO from litellm.proxy.litellm_pre_call_utils import add_litellm_data_to_request from litellm.proxy.proxy_server import general_settings, proxy_config logging_callbacks: List[str] = [] for callback in key_logging: if callback.get("callback_name") is not None: logging_callbacks.append(callback["callback_name"]) else: raise ValueError("callback_name is required in key_logging") log_capture_string = StringIO() ch = logging.StreamHandler(log_capture_string) ch.setLevel(logging.ERROR) logger = logging.getLogger() logger.addHandler(ch) try: data = { "model": "openai/litellm-key-health-test", "messages": [ { "role": "user", "content": "Hello, this is a test from litellm /key/health. No LLM API call was made for this", } ], "mock_response": "test response", } data = await add_litellm_data_to_request( data=data, user_api_key_dict=user_api_key_dict, proxy_config=proxy_config, general_settings=general_settings, request=request, ) await litellm.acompletion( **data ) # make mock completion call to trigger key based callbacks except Exception as e: return LoggingCallbackStatus( callbacks=logging_callbacks, status="unhealthy", details=f"Logging test failed: {str(e)}", ) await asyncio.sleep( 2 ) # wait for callbacks to run, callbacks use batching so wait for the flush event # Check if any logger exceptions were triggered log_contents = log_capture_string.getvalue() logger.removeHandler(ch) if log_contents: return LoggingCallbackStatus( callbacks=logging_callbacks, status="unhealthy", details=f"Logger exceptions triggered, system is unhealthy: {log_contents}", ) else: return LoggingCallbackStatus( callbacks=logging_callbacks, status="healthy", details=f"No logger exceptions triggered, system is healthy. Manually check if logs were sent to {logging_callbacks} ", ) _KEY_ALIAS_PATTERN = re.compile(r"^[a-zA-Z0-9][a-zA-Z0-9_\-/\.@]{0,253}[a-zA-Z0-9]$") def _validate_key_alias_format(key_alias: Optional[str]) -> None: """ Validate the format of the key_alias. Gated behind ``litellm.enable_key_alias_format_validation`` (default **False**). When disabled, no validation is performed so existing workflows are not broken. Rules (when enabled): - None is OK (no alias). - Otherwise must be 2–255 chars - start/end with alphanumeric - only allow a-zA-Z0-9_-/.@ """ if not litellm.enable_key_alias_format_validation: return if key_alias is None: return if not _KEY_ALIAS_PATTERN.match(key_alias): raise ProxyException( message="Invalid key_alias format. Must be 2-255 characters, start/end with alphanumeric, and only contain a-zA-Z0-9_-/.@.", type=ProxyErrorTypes.bad_request_error, param="key_alias", code=400, ) async def _enforce_unique_key_alias( key_alias: Optional[str], prisma_client: Any, existing_key_token: Optional[str] = None, ) -> None: """ Helper to enforce unique key aliases across all keys. Args: key_alias (Optional[str]): The key alias to check prisma_client (Any): Prisma client instance existing_key_token (Optional[str]): ID of existing key being updated, to exclude from uniqueness check (The Admin UI passes key_alias, in all Edit key requests. So we need to be sure that if we find a key with the same alias, it's not the same key we're updating) Raises: ProxyException: If key alias already exists on a different key """ if key_alias is not None and prisma_client is not None: where_clause: dict[str, Any] = {"key_alias": key_alias} if existing_key_token: # Exclude the current key from the uniqueness check where_clause["NOT"] = {"token": existing_key_token} existing_key = await prisma_client.db.litellm_verificationtoken.find_first( where=where_clause ) if existing_key is not None: raise ProxyException( message=f"Key with alias '{key_alias}' already exists. Unique key aliases across all keys are required.", type=ProxyErrorTypes.bad_request_error, param="key_alias", code=status.HTTP_400_BAD_REQUEST, ) def validate_model_max_budget(model_max_budget: Optional[Dict]) -> None: """ Validate the model_max_budget is GenericBudgetConfigType + enforce user has an enterprise license Raises: Exception: If model_max_budget is not a valid GenericBudgetConfigType """ try: if model_max_budget is None: return if len(model_max_budget) == 0: return if model_max_budget is not None: from litellm.proxy.proxy_server import CommonProxyErrors, premium_user if premium_user is not True: raise ValueError( f"You must have an enterprise license to set model_max_budget. {CommonProxyErrors.not_premium_user.value}" ) for _model, _budget_info in model_max_budget.items(): assert isinstance(_model, str) # Normalize to dict (Pydantic may already parse nested values as BudgetConfig) _info = ( _budget_info.model_dump() if hasattr(_budget_info, "model_dump") else dict(_budget_info) ) # /CRUD endpoints can pass budget_limit as a string, so we need to convert it to a float if "budget_limit" in _info: _info["budget_limit"] = float(_info["budget_limit"]) BudgetConfig(**_info) except Exception as e: raise ValueError( f"Invalid model_max_budget: {str(e)}. Example of valid model_max_budget: https://docs.litellm.ai/docs/proxy/users" )