import gradio as gr import requests, re from api_usage import get_subscription, check_key_availability, get_orgs_me, check_key_ant_availability, check_ant_rate_limit, check_key_gemini_availability, check_key_azure_availability, get_azure_status, get_azure_deploy, check_key_mistral_availability, check_mistral_quota, check_key_replicate_availability, check_key_aws_availability, check_key_or_availability, check_key_or_limits, check_gcp_anthropic, check_groq_status, check_nai_status, check_elevenlabs_status, check_xai_status, check_stability_status, check_deepseek_status async def sort_key(key, rate_limit, claude_model): _key = key.strip() if re.match(re.compile("sk-or-v1-[a-z0-9]{64}"), _key): return get_key_openrouter_info(_key) if re.match(re.compile("sk-ant-api03-[a-zA-Z0-9\-_]{93}AA"), _key) or (_key.startswith("sk-ant-") and len(_key) == 93) or (len(_key) == 89 and re.match(re.compile("sk-[a-zA-Z0-9]{86}"), _key)): return await get_key_ant_info(_key, rate_limit, claude_model) if re.match(re.compile(r"sk-[a-zA-Z0-9]{48}"), _key) and len(_key) == 51 and 'T3BlbkFJ' not in _key: return get_key_stability_info(_key) if re.match(re.compile(r"sk-[a-f0-9]{32}"), _key): return get_key_deepseek_info(_key) if _key.startswith("sk-"): return get_key_oai_info(_key) if _key.startswith("AIzaSy"): return get_key_gemini_info(_key) if _key.startswith("pst-"): return get_key_nai_info(_key) if (_key.startswith("r8_") and len(_key) == 40) or (_key.islower() and len(_key) == 40): return get_key_replicate_info(_key) if _key.startswith("xai-"): return get_key_xai_info(_key) if len(_key.split(':')) == 2 and _key.split(':')[1].islower() and len(_key.split(':')[1]) == 32 and "openai.azure.com" not in _key.split(':')[1]: endpoint = f"{_key.split(':')[0]}.openai.azure.com" api_key = _key.split(':')[1] return get_key_azure_info(endpoint, api_key) if "openai.azure.com" in _key.split(';')[0]: endpoint = _key.split(';')[0] api_key = _key.split(';')[1] return get_key_azure_info(endpoint, api_key) if _key.startswith("AKIA") and len(_key.split(':')[0]) == 20 and _key.split(':')[0].isupper(): return await get_key_aws_info(_key) if re.match(re.compile(r"[a-f0-9]{32}"), _key) or re.match(re.compile(r"sk_[a-f0-9]{48}"), _key): return get_key_elevenlabs_info(_key) if re.match(re.compile(r"[a-zA-Z0-9]{32}"), _key): return get_key_mistral_info(_key) if re.match(re.compile(r"gsk_[a-zA-Z0-9]{20}WGdyb3FY[a-zA-Z0-9]{24}"), _key): return get_key_groq_info(_key) if re.match(re.compile(r"[\w\-]+:[\w\-@\.]+:[\w-]+:.+"), _key): # 0: refresh token return await get_key_gcp_info(_key, 0) if re.match(re.compile(r"[\w\-]+:[\w\-@\.]+:.+\\n"), _key): # 1: service account return await get_key_gcp_info(_key, 1) return not_supported(_key) def get_key_oai_info(key): # Return a dictionary containing key information session = requests.Session() status, org_data = check_key_availability(session, key) info_dict = { "key_type": "OpenAI", "key_availability": True if status else False, "gpt4_availability": "", "gpt4_32k_availability": "", "default_org": "", "org_description": "", "organization": "", "models": "", "requests_per_minute": "", "tokens_per_minute": "", "quota": "", "all_models": "" } if not status: return info_dict if status == 403: status_me, orgs_me = get_orgs_me(session, key) if status_me == 200: org_data = orgs_me subscription_info = get_subscription(key, session, org_data) # Update the info_dict with subscription details info_dict.update({ "gpt4_availability": subscription_info["has_gpt4"], "gpt4_32k_availability": subscription_info["has_gpt4_32k"], "default_org": subscription_info["default_org"], "org_description": subscription_info["org_description"], "organization": subscription_info["organization"], "models": subscription_info["models"], "requests_per_minute": subscription_info["rpm"], "tokens_per_minute": subscription_info["tpm"], "quota": subscription_info["quota"], "all_models": subscription_info["all_models"] }) return info_dict async def get_key_ant_info(key, rate_limit, claude_model): # Return a dictionary containing key information key_avai = await check_key_ant_availability(key, claude_model) info_dict = {#"account_name": "", "key_type": "Anthropic Claude", "key_availability": key_avai[0], "status": "", "filter_response": "", "requests_per_minute": "", "tokens_per_minute": "", "tokens_input_per_minute": "", "tokens_output_per_minute": "", "tier": "", "concurrent_rate_limit": "", "models": ""} info_dict["status"] = key_avai[1] info_dict["filter_response"] = key_avai[2] info_dict["requests_per_minute"] = key_avai[3] + ("" if key_avai[3] == "" else f" ({key_avai[4]} left)") info_dict["tokens_per_minute"] = key_avai[5] + ("" if key_avai[5] == "" else f" ({key_avai[6]} left)") info_dict["tokens_input_per_minute"] = key_avai[8] + ("" if key_avai[8] == "" else f" ({key_avai[9]} left)") info_dict["tokens_output_per_minute"] = key_avai[10] + ("" if key_avai[10] == "" else f" ({key_avai[11]} left)") info_dict["tier"] = key_avai[7] info_dict["models"] = key_avai[12] if rate_limit: rate = await check_ant_rate_limit(key, claude_model) info_dict["concurrent_rate_limit"] = rate return info_dict def get_key_gemini_info(key): key_avai = check_key_gemini_availability(key) info_dict = {#"account_name": "", "key_type": "Google Gemini", "key_availability": key_avai[0], "status": key_avai[1], "models": key_avai[2]} return info_dict def get_key_azure_info(endpoint, api_key): key_avai = check_key_azure_availability(endpoint, api_key) info_dict = {#"account_name": "", "key_type": "Microsoft Azure OpenAI", "key_availability": key_avai[0], "gpt35_availability": "", "gpt4_availability": "", "gpt4_32k_availability": "", "dall_e_3_availability": "", "moderation_status": "", "models": "", "deployments": ""} if key_avai[0]: azure_deploy = get_azure_deploy(endpoint, api_key) status = get_azure_status(endpoint, api_key, azure_deploy) info_dict["gpt35_availability"] = status[1] info_dict["gpt4_availability"] = status[2] info_dict["gpt4_32k_availability"] = status[3] info_dict["dall_e_3_availability"] = status[4] info_dict["moderation_status"] = status[0] info_dict["models"] = key_avai[1] info_dict["deployments"] = azure_deploy return info_dict def get_key_mistral_info(key): key_avai = check_key_mistral_availability(key) info_dict = {#"account_name": "", "key_type": "Mistral AI", "key_availability": True if key_avai else False, "has_quota": "", "limits": "", "models": ""} if key_avai: quota_info = check_mistral_quota(key) info_dict['has_quota'] = quota_info[0] if quota_info[1]: info_dict['limits'] = quota_info[1] info_dict['models'] = key_avai return info_dict def get_key_replicate_info(key): key_avai = check_key_replicate_availability(key) info_dict = {#"account_name": "", "key_type": "Replicate", "key_availability": key_avai[0], "account_name": "", "type": "", "has_quota": "", "hardware_available": ""} if key_avai[0]: info_dict['account_name'] = key_avai[1]['username'] info_dict['type'] = key_avai[1]['type'] info_dict['has_quota'] = key_avai[2] info_dict['hardware_available'] = key_avai[3] return info_dict async def get_key_aws_info(key): key_avai = await check_key_aws_availability(key) info_dict = {#"account_name": "", "key_type": "Amazon AWS Claude", "key_availability": key_avai[0], "username": "", "root": "", "admin": "", "quarantine": "", "iam_full_access": "", "iam_user_change_password": "", "aws_bedrock_full_access": "", "enabled_region": "", "models_usage": "", "cost_and_usage": key_avai[1]} if key_avai[0]: info_dict['username'] = key_avai[1] info_dict['root'] = key_avai[2] info_dict['admin'] = key_avai[3] info_dict['quarantine'] = key_avai[4] info_dict['iam_full_access'] = key_avai[5] info_dict['iam_user_change_password'] = key_avai[6] info_dict['aws_bedrock_full_access'] = key_avai[7] info_dict['enabled_region'] = key_avai[8] info_dict['models_usage'] = key_avai[9] info_dict['cost_and_usage'] = key_avai[10] return info_dict def get_key_openrouter_info(key): key_avai = check_key_or_availability(key) info_dict = {#"account_name": "", "key_type": "OpenRouter", "key_availability": key_avai[0], "is_free_tier": "", "usage": "", "balance": "", "limit": "", "limit_remaining": "", "rate_limit_per_minite": "", "4_turbo_per_request_tokens_limit": "", "sonnet_per_request_tokens_limit": "", "opus_per_request_tokens_limit": ""} if key_avai[0]: models_info = check_key_or_limits(key) info_dict['is_free_tier'] = key_avai[1]['is_free_tier'] info_dict['limit'] = key_avai[1]['limit'] info_dict['limit_remaining'] = key_avai[1]['limit_remaining'] info_dict['usage'] = f"${format(key_avai[1]['usage'], '.4f')}" info_dict['balance'] = f"${format(models_info[0], '.4f')}" if models_info[0] else f"${key_avai[2]/60} (estimated)" info_dict['rate_limit_per_minite'] = key_avai[2] info_dict['4_turbo_per_request_tokens_limit'] = models_info[1]['openai/gpt-4o'] info_dict['sonnet_per_request_tokens_limit'] = models_info[1]['anthropic/claude-3.5-sonnet:beta'] info_dict['opus_per_request_tokens_limit'] = models_info[1]['anthropic/claude-3-opus:beta'] else: info_dict['usage'] = key_avai[1] return info_dict async def get_key_gcp_info(key, type): key_avai = await check_gcp_anthropic(key, type) info_dict = {#"account_name": "", "key_type": "Vertex AI (GCP)", "key_availability": key_avai[0], "status": "", "enabled_region": ""} if key_avai[0]: info_dict['enabled_region'] = key_avai[2] else: info_dict['status'] = key_avai[1] return info_dict def get_key_groq_info(key): key_avai = check_groq_status(key) info_dict = {#"account_name": "", "key_type": "Groq", "key_availability": True if key_avai else False, "models": key_avai if key_avai else ""} return info_dict def get_key_nai_info(key): key_avai = check_nai_status(key) info_dict = {#"account_name": "", "key_type": "NovelAI", "key_availability": True if key_avai[0] else False, "user_info": key_avai[1] if key_avai[0] else ""} return info_dict def get_key_elevenlabs_info(key): key_avai = check_elevenlabs_status(key) info_dict = {#"account_name": "", "key_type": "ElevenLabs", "key_availability": key_avai[0], "user_info": key_avai[1], "voices_info": key_avai[2]} return info_dict def get_key_xai_info(key): key_avai = check_xai_status(key) info_dict = {#"account_name": "", "key_type": "xAI Grok", "key_availability": key_avai[0], "key_status": "", "models": ""} if key_avai[0]: info_dict['key_status'] = key_avai[1] info_dict['models'] = key_avai[2] return info_dict def get_key_stability_info(key): key_avai = check_stability_status(key) info_dict = {#"account_name": "", "key_type": "Stability AI", "key_availability": key_avai[0], "account_info": "", "credits": "", "models": ""} if key_avai[0]: info_dict['account_info'] = key_avai[1] info_dict['credits'] = key_avai[2] info_dict['models'] = key_avai[3] return info_dict def get_key_deepseek_info(key): key_avai = check_deepseek_status(key) info_dict = {#"account_name": "", "key_type": "deepseek", "key_availability": key_avai[0], "balance": "", "models": ""} if key_avai[0]: info_dict['models'] = key_avai[1] info_dict['balance'] = key_avai[2] return info_dict def not_supported(key): info_dict = {#"account_name": "", "key_type": "Not supported", "status": ""} return info_dict def clear_inputs(text): return "" with gr.Blocks() as demo: gr.Markdown(''' # OpenAI/Anthropic/Gemini/Azure/Mistral/Replicate/AWS Claude/OpenRouter/Vertex AI(GCP Anthropic)/Groq/NovelAI/ElevenLabs/xAI/Stability/Deepseek API Key Status Checker *(Based on shaocongma, CncAnon1, su, Drago, kingbased key checkers)* AWS credential's format: AWS_ACCESS_KEY_ID:AWS_SECRET_ACCESS_KEY (root might not be accurate) Azure endpoint's format: YOUR_RESOURCE_NAME:YOUR_API_KEY or (https://)YOUR_RESOURCE_NAME.openai.azure.com;YOUR_API_KEY GCP format: PROJECT_ID:CLIENT_EMAIL:PRIVATE_KEY (including \\n) | or refresh token: PROJECT_ID:CLIENT_ID:CLIENT_SECRET:REFRESH_TOKEN ''') claude_options = [ 'claude-3-haiku-20240307', 'claude-3-sonnet-20240229', 'claude-3-opus-20240229', 'claude-3-5-sonnet-20240620', 'claude-3-5-sonnet-20241022', 'claude-3-5-haiku-20241022' ] with gr.Row(): with gr.Column(): key = gr.Textbox(lines=1, max_lines=5, label="API Key") claude_model = gr.Dropdown(claude_options, value="claude-3-haiku-20240307", label="Claude API model", info="model for filter_response and concurrent check") rate_limit = gr.Checkbox(label="Check concurrent rate limit (API Claude, experimental)") with gr.Row(): clear_button = gr.Button("Clear") submit_button = gr.Button("Submit", variant="primary") with gr.Column(): info = gr.JSON(label="API Key Information", open=True) clear_button.click(fn=clear_inputs, inputs=[key], outputs=[key]) submit_button.click(fn=sort_key, inputs=[key, rate_limit, claude_model], outputs=[info], api_name="sort_key") demo.launch()