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KubeWizard / app.py

Kristofy

Made the logging align nicer

e7990b4 6 months ago

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	import re
	import torch
	import time
	import pinecone
	import pickle
	import os
	import numpy as np
	import hashlib
	import gradio as gr
	from transformers.generation.stopping_criteria import StoppingCriteria, StoppingCriteriaList
	from transformers import AutoTokenizer, AutoModelForCausalLM, BitsAndBytesConfig
	from torch import nn
	from sentence_transformers.cross_encoder import CrossEncoder
	from sentence_transformers import SentenceTransformer
	from peft import PeftModel
	from bs4 import BeautifulSoup
	import requests
	import logging

	logging.basicConfig(format='[%(asctime)s] %(message)s', datefmt='%d-%b-%y %H:%M:%S', level=logging.INFO)

	headers = {
	"User-Agent": "Mozilla/5.0 (Macintosh; Intel Mac OS X 10_9_5) AppleWebKit 537.36 (KHTML, like Gecko) Chrome",
	"Accept": "text/html,application/xhtml+xml,application/xml; q=0.9,image/webp,/;q=0.8",
	"Cookie": "CONSENT=YES+cb.20210418-17-p0.it+FX+917; ",
	}


	def google_search(text):
	logging.info(f"Google search on: {text}")
	try:
	site = requests.get(f"https://www.google.com/search?hl=en&q={text}", headers=headers)
	main = (
	BeautifulSoup(site.text, features="html.parser").select_one("#main").select(".VwiC3b.lyLwlc.yDYNvb.W8l4ac")
	)
	res = []
	for m in main:
	t = m.get_text()
	if "—" in t:
	t = t[len("—") + t.index("—") :].strip()

	res.append(t)

	ans = " \n".join(res)
	except Exception as ex:
	logging.error(f"Error: {ex}")
	ans = ""

	logging.info(f"The result of the google search is: {ans}")

	return ans

	PINECONE_API_KEY = os.environ.get("PINECONE_API_KEY")

	pinecone.init(api_key=PINECONE_API_KEY, environment="gcp-starter")

	sentencetransformer_model = SentenceTransformer('sentence-transformers/multi-qa-mpnet-base-cos-v1')

	CACHE_DIR = "./.cache"
	INDEX_NAME = "k8s-semantic-search"

	if not os.path.exists(CACHE_DIR):
	os.makedirs(CACHE_DIR)


	def cached(func):
	def wrapper(args, *kwargs):
	SEP = "$\|$"
	cache_token = (
	f"{func.__name__}{SEP}"
	f"{SEP.join(str(arg) for arg in args)}{SEP}"
	f"{SEP.join( str(key) + SEP * 2 + str(val) for key, val in kwargs.items())}"
	)

	hex_hash = hashlib.sha256(cache_token.encode()).hexdigest()
	cache_filename: str = os.path.join(CACHE_DIR, f"{hex_hash}")

	if os.path.exists(cache_filename):
	with open(cache_filename, "rb") as cache_file:
	return pickle.load(cache_file)

	result = func(args, *kwargs)
	with open(cache_filename, "wb") as cache_file:
	pickle.dump(result, cache_file)

	return result

	return wrapper


	@cached
	def create_embedding(text: str):
	embed_text = sentencetransformer_model.encode(text)

	return embed_text.tolist()


	index = pinecone.Index(INDEX_NAME)


	def query_from_pinecone(query, top_k=3):
	embedding = create_embedding(query)
	if not embedding:
	return None

	return index.query(vector=embedding, top_k=top_k, include_metadata=True).get("matches") # gets the metadata (text)


	cross_encoder = CrossEncoder("cross-encoder/ms-marco-MiniLM-L-12-v2")


	def get_results_from_pinecone(query, top_k=3, re_rank=True, verbose=True):
	results_from_pinecone = query_from_pinecone(query, top_k=top_k)
	if not results_from_pinecone:
	return []

	if verbose:
	logging.info(f"Query: {query}")

	final_results = []

	if re_rank:
	if verbose:
	logging.info("Document ID (Hash)\t\tRetrieval Score\tCE Score\tText")

	sentence_combinations = [
	[query, result_from_pinecone["metadata"]["text"]] for result_from_pinecone in results_from_pinecone
	]

	# Compute the similarity scores for these combinations
	similarity_scores = cross_encoder.predict(sentence_combinations, activation_fct=nn.Sigmoid())

	# Sort the scores in decreasing order
	sim_scores_argsort = reversed(np.argsort(similarity_scores))

	# Print the scores
	for idx in sim_scores_argsort:
	result_from_pinecone = results_from_pinecone[idx]
	final_results.append(result_from_pinecone)
	if verbose:
	logging.info(
	f"{result_from_pinecone['id']:<4}\t{result_from_pinecone['score']:.2f}\t{similarity_scores[idx]:.2f}\t{result_from_pinecone['metadata']['text'][:50]}"
	)
	return final_results

	if verbose:
	logging.info("Document ID (Hash)\t\tRetrieval Score\tText")
	for result_from_pinecone in results_from_pinecone:
	final_results.append(result_from_pinecone)
	if verbose:
	logging.info(
	f"{result_from_pinecone['id']}\t{result_from_pinecone['score']:.2f}\t{result_from_pinecone['metadata']['text'][:50]}"
	)

	return final_results


	def semantic_search(prompt):
	final_results = get_results_from_pinecone(prompt, top_k=9, re_rank=True, verbose=True)
	if not final_results:
	return ""

	return "\n\n".join(res["metadata"]["text"].strip() for res in final_results[:3])


	base_model_id = "mistralai/Mistral-7B-Instruct-v0.1"
	lora_model_id = "ComponentSoft/mistral-kubectl-instruct"

	tokenizer = AutoTokenizer.from_pretrained(
	lora_model_id,
	padding_side="left",
	add_eos_token=False,
	add_bos_token=True,
	)
	tokenizer.pad_token = tokenizer.eos_token

	bnb_config = BitsAndBytesConfig(
	load_in_4bit=True, bnb_4bit_use_double_quant=True, bnb_4bit_quant_type="nf4", bnb_4bit_compute_dtype=torch.bfloat16
	)

	base_model = AutoModelForCausalLM.from_pretrained(
	base_model_id,
	quantization_config=bnb_config,
	use_cache=True,
	trust_remote_code=True,
	)

	model = PeftModel.from_pretrained(base_model, lora_model_id)
	model.eval()


	def create_stop_criterion(*args):
	term_tokens = [torch.tensor(tokenizer.encode(term, add_special_tokens=False)).to("cuda") for term in args]

	class CustomStopCriterion(StoppingCriteria):
	def __call__(self, input_ids: torch.LongTensor, score: torch.FloatTensor, **kwargs):
	return any(torch.equal(e, input_ids[0][-len(e) :]) for e in term_tokens)

	return CustomStopCriterion()


	eval_stop_criterion = create_stop_criterion("</s>", "#End")
	category_stop_criterion = create_stop_criterion("</s>", "\n")

	start_template = "### Answer:"
	command_template = "# Command:"
	end_template = "#End"

	def str_to_md(text):
	def escape_hash(line):
	i = 0
	while i < len(line) and line[i] == ' ':
	i+=1

	if i == len(line):
	return line

	if line[i] == '#':
	line = line[:i] + '\\' + line[i:]

	return line

	lines = text.split('\n')
	lines = [escape_hash(line) for line in lines]
	return ' \n'.join(l if not all(c == '-' for c in l) else '_'*len(l) for l in lines)

	def text_to_text_generation(verbose, prompt):
	prompt = prompt.strip()

	is_kubectl_prompt = (
	f"You are a helpful assistant who classifies prompts into three categories. [INST] Respond with 0 if it pertains to a 'kubectl' operation. This is an instruction that can be answered with a 'kubectl' action. Look for keywords like 'get', 'list', 'create', 'show', 'view', and other command-like words. This category is an instruction instead of a question. Respond with 1 only if the prompt is a question, and is about a definition related to Kubernetes, or non-action inquiries. Respond with 2 every other scenario, for example if the question is a general question, not related to Kubernetes or 'kubectl'.\n"
	f"Here are some examples:\n"
	f"text: List all pods in Kubernetes\n"
	f"response (0/1/2): 0 \n"
	f"text: What is a headless service and how to create one?\n"
	f"response (0/1/2): 1 \n"
	f"text: What is the capital of Hungary?\n"
	f"response (0/1/2): 2 \n"
	f"text: Display detailed information about the pod 'web-app-pod-1'\n"
	f"response (0/1/2): 0 \n"
	f"text: What are some typical foods in Germany?\n"
	f"response (0/1/2): 2 \n"
	f"text: What is a LoadBalancer in Kubernetes?\n"
	f"response (0/1/2): 1 \n"
	f"text: How can I enhance the performance of a k8s cluster?\n"
	f"response (0/1/2): 1 \n"
	f'Classify the following: [/INST] \ntext: "{prompt}\n"'
	f"response (0/1/2): "
	)

	model_input = tokenizer(is_kubectl_prompt, return_tensors="pt").to("cuda")

	with torch.no_grad():
	response = tokenizer.decode(
	model.generate(
	**model_input,
	max_new_tokens=8,
	pad_token_id=tokenizer.eos_token_id,
	repetition_penalty=1.15,
	stopping_criteria=StoppingCriteriaList([category_stop_criterion]),
	)[0],
	skip_special_tokens=True,
	)
	response = response[len(is_kubectl_prompt) :]


	response_num = 0 if "0" in response else (1 if "1" in response else 2)

	def create_generation_prompt(response_num, prompt, retriever):
	md = ""
	match response_num:
	case 0:
	prompt = f"[INST] {prompt}\n Lets think step by step. [/INST] {start_template}"
	logging.info('Kubectl command prompt:')
	logging.info(prompt)
	case 1:
	if retriever == "semantic_search":
	question = prompt
	logging.info('Semantic search prompt:')
	logging.info(
	(
	f"You are a helpful kubernetes professional. [INST] Use the following documentation, if it is relevant to answer the question below. [/INST]\nDocumentation: [RETRIEVED_RESULTS_FROM_BOOK] [INST] Answer the following question: {question} [/INST]\nAnswer: \n")

	)
	retrieved_results = semantic_search(prompt)
	prompt = f"You are a helpful kubernetes professional. [INST] Use the following documentation, if it is relevant to answer the question below. [/INST]\nDocumentation: {retrieved_results} </s>\n<s> [INST] Answer the following question: {prompt} [/INST]\nAnswer:\n\n"

	md = (
	f"### Step 1: Preparing prompt for additional documentation \n\n"
	f"You are a helpful kubernetes professional. [INST] Use the following documentation, if it is relevant to answer the question below. [/INST]\nDocumentation: \n\n"
	f"### Step 2: Retrieving documentation from a book. \n\n"
	f"{str_to_md(retrieved_results)} \n\n"
	f"### Step 3: Creating full prompt given to model \n\n"
	f"You are a helpful kubernetes professional. [INST] Use the following documentation, if it is relevant to answer the question below. [/INST]\nDocumentation: [RETRIEVED_RESULTS_FROM_BOOK] [INST] Answer the following question: {question} [/INST]\nAnswer:"
	)
	elif retriever == "google_search":
	retrieved_results = google_search(prompt)
	question = prompt
	prompt = f"You are a helpful kubernetes professional. [INST] Use the following documentation, if it is relevant to answer the question below. [/INST]\nDocumentation: {retrieved_results} </s>\n<s> [INST] Answer the following question: {prompt} [/INST]\nAnswer: "

	logging.info('Google search prompt:')
	logging.info(
	(
	f"You are a helpful kubernetes professional. [INST] Use the following documentation, if it is relevant to answer the question below. [/INST]\nDocumentation: [RETRIEVED_RESULTS_FROM_GOOGLE] [INST] Answer the following question: {question} [/INST]\nAnswer:\n\n"
	)
	)

	md = (
	f"### Step 1: Preparing prompt for additional documentation \n\n"
	f"You are a helpful kubernetes professional. [INST] Use the following documentation, if it is relevant to answer the question below. [/INST]\nDocumentation: \n\n"
	f"### Step 2: Retrieving documentation from Google. \n\n"
	f"{str_to_md(retrieved_results)} \n\n"
	f"### Step 3: Creating full prompt given to model \n\n"
	f"You are a helpful kubernetes professional. [INST] Use the following documentation, if it is relevant to answer the question below. [/INST]\nDocumentation: [RETRIEVED_RESULTS_FROM_GOOGLE] [INST] Answer the following question: {question} [/INST]\nAnswer:"
	)
	else:
	prompt = f"[INST] Answer the following question: {prompt} [/INST]\nAnswer: "
	logging.info('No retriever question prompt:')
	logging.info(prompt)

	case _:
	prompt = f"[INST] {prompt} [/INST]"
	logging.info('Other question prompt:')
	logging.info(prompt)

	return prompt, md

	def generate_batch(*prompts):
	tokenized_inputs = tokenizer(prompts, return_tensors="pt", padding=True).to("cuda")

	with torch.no_grad():
	responses = tokenizer.batch_decode(
	model.generate(
	**tokenized_inputs,
	max_new_tokens=256,
	pad_token_id=tokenizer.eos_token_id,
	repetition_penalty=1.15,
	stopping_criteria=StoppingCriteriaList([eval_stop_criterion]),
	),
	skip_special_tokens=True,
	)

	decoded_prompts = tokenizer.batch_decode(tokenized_inputs.input_ids, skip_special_tokens=True)

	return [(prompt, answer) for prompt, answer in zip(decoded_prompts, responses)]

	def cleanup(prompt, answer):
	start = answer.index(start_template) + len(start_template) if start_template in answer else len(prompt)
	start = answer.index(command_template) + len(command_template) if command_template in answer else start
	end = answer.index(end_template) if end_template in answer else len(answer)

	return (prompt, answer[start:end].strip())

	modes = ["Kubectl command", "Kubernetes related", "Other"]

	logging.info(f'{" Query Start ":-^40}')
	logging.info(f"Classified as: {modes[response_num]}")

	modes[response_num] = f"{modes[response_num]}"
	modes = " / ".join(modes)


	if response_num == 2:
	prompt, md = create_generation_prompt(response_num, prompt, False)
	original, new = generate_batch(prompt)[0]
	prompt, response = cleanup(original, new)
	if verbose:
	return (
	f"# 📚KubeWizard📚\n"
	f"#### A helpful Kubernetes Assistant powered by Component Soft\n"
	f"--------------------------------------------\n"
	f"# Classified your prompt as:\n"
	f"{modes}\n\n"
	f"# Prompt given to the model:\n"
	f"{str_to_md(prompt)}\n"
	f"# Model's answer:\n" f"{str_to_md(response)}\n"
	)
	else:
	return (
	f"# 📚KubeWizard📚\n"
	f"#### A helpful Kubernetes Assistant powered by Component Soft\n"
	f"--------------------------------------------\n"
	f"# Classified your prompt as:\n"
	f"{modes}\n\n"
	f"# Answer:\n" f"{str_to_md(response)}"
	)

	if response_num == 0:
	prompt, md = create_generation_prompt(response_num, prompt, False)
	original, new = generate_batch(prompt)[0]
	prompt, response = cleanup(original, new)
	model_response = new[len(original):].strip()
	if verbose:
	return (
	f"# 📚KubeWizard📚\n"
	f"#### A helpful Kubernetes Assistant powered by Component Soft\n"
	f"--------------------------------------------\n"
	f"# Classified your prompt as:\n"
	f"{modes}\n\n"
	f"# Prompt given to the model:\n"
	f"{str_to_md(prompt)}\n"
	f"# Model's answer:\n"
	f"{str_to_md(model_response)}\n"
	f"# Processed answer:\n"
	f"```bash\n{str_to_md(response)}\n```\n"
	)
	else:
	return (
	f"# 📚KubeWizard📚\n"
	f"#### A helpful Kubernetes Assistant powered by Component Soft\n"
	f"--------------------------------------------\n"
	f"# Classified your prompt as:\n"
	f"{modes}\n\n"
	f"# Answer:\n" f"```bash\n{str_to_md(response)}\n```\n"
	)

	res_prompt, res_md = create_generation_prompt(response_num, prompt, False)
	res_semantic_search_prompt, res_semantic_search_md = create_generation_prompt(response_num, prompt, "semantic_search")
	res_google_search_prompt, res_google_search_md = create_generation_prompt(response_num, prompt, "google_search")

	gen_normal, gen_semantic_search, gen_google_search = generate_batch(
	res_prompt, res_semantic_search_prompt, res_google_search_prompt
	)

	logging.info(f"SEMANTIC BEFORE CLEANUP: {str(gen_semantic_search)}")
	logging.info(f"GOOGLE BEFORE CLEANUP: {str(gen_google_search)}")


	res_prompt, res_normal = cleanup(*gen_normal)
	res_semantic_search_prompt, res_semantic_search = cleanup(*gen_semantic_search)
	res_google_search_prompt, res_google_search = cleanup(*gen_google_search)

	logging.info(f"SEMANTIC AFTER CLEANUP: {str(res_semantic_search)}")
	logging.info(f"GOOGLE AFTER CLEANUP: {str(res_google_search)}")

	if verbose:
	return (
	f"# 📚KubeWizard📚\n"
	f"#### A helpful Kubernetes Assistant powered by Component Soft\n"
	f"--------------------------------------------\n"
	f"# Classified your prompt as:\n"
	f"{modes}\n\n"
	f"--------------------------------------------\n"
	f"# Answer with finetuned model\n"
	f"## Prompt given to the model:\n"
	f"{str_to_md(res_prompt)}\n\n"
	f"## Model's answer:\n"
	f"{str_to_md(res_normal)}\n\n"
	f"--------------------------------------------\n"
	f"# Answer with RAG\n"
	f"## Section 1: Preparing for generation \n\n{res_semantic_search_md} \n\n"
	f"## Section 2: Generating answer \n\n{str_to_md(res_semantic_search.strip())} \n\n"
	f"--------------------------------------------\n"
	f"# Answer with Google search\n"
	f"## Section 1: Preparing for generation \n\n{res_google_search_md} \n\n"
	f"## Section 2: Generating answer \n\n{str_to_md(res_google_search.strip())} \n\n"
	)
	else:
	return (
	f"# 📚KubeWizard📚\n"
	f"#### A helpful Kubernetes Assistant powered by Component Soft\n"
	f"--------------------------------------------\n"
	f"# Classified your prompt as:\n"
	f"{modes}\n\n"
	f"# Answer with finetuned model \n\n{str_to_md(res_normal)} \n\n"
	f"# Answer with RAG \n\n{str_to_md(res_semantic_search.strip())} \n\n"
	f"# Answer with Google search \n\n{str_to_md(res_google_search)} \n\n"
	)


	iface = gr.Interface(
	fn=text_to_text_generation,
	inputs=[
	gr.components.Checkbox(label="Verbose"),
	gr.components.Text(placeholder="prompt here ...", label="Prompt"),
	],
	outputs=gr.components.Markdown(label="Answer"),
	allow_flagging="never",
	title="📚KubeWizard📚",
	)

	iface.launch()