"""Streamlit app for Presidio.""" import os from json import JSONEncoder import pandas as pd import streamlit as st import streamlit.components.v1 as components from annotated_text import annotated_text from presidio_helpers import ( get_supported_entities, analyze, anonymize, annotate, create_fake_data, analyzer_engine, ) components.html( """ """ ) st.set_page_config(page_title="Presidio demo", layout="wide") # Sidebar st.sidebar.header( """ PII De-Identification with Microsoft Presidio """ ) st.sidebar.info( "Presidio is an open source customizable framework for PII detection and de-identification\n" "[Code](https://aka.ms/presidio) | " "[Tutorial](https://microsoft.github.io/presidio/tutorial/) | " "[Installation](https://microsoft.github.io/presidio/installation/) | " "[FAQ](https://microsoft.github.io/presidio/faq/)", icon="ℹ️", ) st.sidebar.markdown( "[![Pypi Downloads](https://img.shields.io/pypi/dm/presidio-analyzer.svg)](https://img.shields.io/pypi/dm/presidio-analyzer.svg)" # noqa "[![MIT license](https://img.shields.io/badge/license-MIT-brightgreen.svg)](https://opensource.org/licenses/MIT)" "![GitHub Repo stars](https://img.shields.io/github/stars/microsoft/presidio?style=social)" ) st_model = st.sidebar.selectbox( "NER model for PII detection", [ "StanfordAIMI/stanford-deidentifier-base", "obi/deid_roberta_i2b2", "flair/ner-english-large", "en_core_web_lg", ], index=1, help=""" Select which Named Entity Recognition (NER) model to use for PII detection, in parallel to rule-based recognizers. Presidio supports multiple NER packages off-the-shelf, such as spaCy, Huggingface, Stanza and Flair. """, ) st.sidebar.markdown("> Note: Models might take some time to download. ") st_operator = st.sidebar.selectbox( "De-identification approach", ["redact", "replace", "synthesize", "highlight", "mask", "hash", "encrypt"], index=1, help=""" Select which manipulation to the text is requested after PII has been identified.\n - Redact: Completely remove the PII text\n - Replace: Replace the PII text with a constant, e.g. \n - Synthesize: Replace with fake values (requires an OpenAI key)\n - Highlight: Shows the original text with PII highlighted in colors\n - Mask: Replaces a requested number of characters with an asterisk (or other mask character)\n - Hash: Replaces with the hash of the PII string\n - Encrypt: Replaces with an AES encryption of the PII string, allowing the process to be reversed """, ) st_mask_char = "*" st_number_of_chars = 15 st_encrypt_key = "WmZq4t7w!z%C&F)J" st_openai_key = "" st_openai_model = "text-davinci-003" if st_operator == "mask": st_number_of_chars = st.sidebar.number_input( "number of chars", value=st_number_of_chars, min_value=0, max_value=100 ) st_mask_char = st.sidebar.text_input( "Mask character", value=st_mask_char, max_chars=1 ) elif st_operator == "encrypt": st_encrypt_key = st.sidebar.text_input("AES key", value=st_encrypt_key) elif st_operator == "synthesize": st_openai_key = st.sidebar.text_input( "OPENAI_KEY", value=os.getenv("OPENAI_KEY", default=""), help="See https://help.openai.com/en/articles/4936850-where-do-i-find-my-secret-api-key for more info.", type="password", ) st_openai_model = st.sidebar.text_input( "OpenAI model for text synthesis", value=st_openai_model, help="See more here: https://platform.openai.com/docs/models/", ) st_threshold = st.sidebar.slider( label="Acceptance threshold", min_value=0.0, max_value=1.0, value=0.35, help="Define the threshold for accepting a detection as PII.", ) st_return_decision_process = st.sidebar.checkbox( "Add analysis explanations to findings", value=False, help="Add the decision process to the output table. " "More information can be found here: https://microsoft.github.io/presidio/analyzer/decision_process/", ) st_entities = st.sidebar.multiselect( label="Which entities to look for?", options=get_supported_entities(st_model), default=list(get_supported_entities(st_model)), help="Limit the list of PII entities detected. " "This list is dynamic and based on the NER model and registered recognizers. " "More information can be found here: https://microsoft.github.io/presidio/analyzer/adding_recognizers/", ) # Main panel analyzer_load_state = st.info("Starting Presidio analyzer...") engine = analyzer_engine(model_path=st_model) analyzer_load_state.empty() # Read default text with open("demo_text.txt") as f: demo_text = f.readlines() # Create two columns for before and after col1, col2 = st.columns(2) # Before: col1.subheader("Input string:") st_text = col1.text_area( label="Enter text", value="".join(demo_text), height=400, ) st_analyze_results = analyze( st_model=st_model, text=st_text, entities=st_entities, language="en", score_threshold=st_threshold, return_decision_process=st_return_decision_process, ) # After if st_operator not in ("highlight", "synthesize"): with col2: st.subheader(f"Output") st_anonymize_results = anonymize( text=st_text, operator=st_operator, mask_char=st_mask_char, number_of_chars=st_number_of_chars, encrypt_key=st_encrypt_key, analyze_results=st_analyze_results, ) st.text_area(label="De-identified", value=st_anonymize_results.text, height=400) elif st_operator == "synthesize": with col2: st.subheader(f"OpenAI Generated output") fake_data = create_fake_data( st_text, st_analyze_results, openai_key=st_openai_key, openai_model_name=st_openai_model, ) st.text_area(label="Synthetic data", value=fake_data, height=400) else: st.subheader("Highlighted") annotated_tokens = annotate( text=st_text, analyze_results=st_analyze_results ) # annotated_tokens annotated_text(*annotated_tokens) # json result class ToDictEncoder(JSONEncoder): """Encode dict to json.""" def default(self, o): """Encode to JSON using to_dict.""" return o.to_dict() # table result st.subheader( "Findings" if not st_return_decision_process else "Findings with decision factors" ) if st_analyze_results: df = pd.DataFrame.from_records([r.to_dict() for r in st_analyze_results]) df["text"] = [st_text[res.start: res.end] for res in st_analyze_results] df_subset = df[["entity_type", "text", "start", "end", "score"]].rename( { "entity_type": "Entity type", "text": "Text", "start": "Start", "end": "End", "score": "Confidence", }, axis=1, ) df_subset["Text"] = [st_text[res.start: res.end] for res in st_analyze_results] if st_return_decision_process: analysis_explanation_df = pd.DataFrame.from_records( [r.analysis_explanation.to_dict() for r in st_analyze_results] ) df_subset = pd.concat([df_subset, analysis_explanation_df], axis=1) st.dataframe(df_subset.reset_index(drop=True), use_container_width=True) else: st.text("No findings")