def load_pdf(self) -> bool: """Load and extract text from PDF""" try: with open(self.pdf_path, 'rb') as file: pdf_reader = PyPDF2.PdfReader(file) text = [] for page_num in range(len(pdf_reader.pages)): page = pdf_reader.pages[page_num] text.append(page.extract_text()) self.text_content = '\n'.join(text) print(f"[+] Successfully loaded len(pdf_reader.pages) pages") return True except Exception as e: print(f"[-] Error loading PDF: e") return False
if progress['machines']: print("\nCompleted machines:") for machine in progress['machines']: print(f" - machine['name'] (machine['date']) - machine.get('difficulty', 'N/A')") oscp pen-200 pdf
class OSCPStudyTool: def (self, pdf_path: str): self.pdf_path = pdf_path self.text_content = "" self.topics = "buffer_overflow": ["buffer overflow", "mona", "immunity debugger", "egghunter", "bad characters"], "privilege_escalation": ["privilege escalation", "sudo", "suid", "cron", "kernel exploit", "lse"], "active_directory": ["active directory", "ldap", "kerberos", "domain controller", "bloodhound"], "web_attacks": ["sql injection", "xss", "csrf", "lfi", "rfi", "file upload", "web shell"], "pivoting": ["pivoting", "tunneling", "ssh tunneling", "proxychains", "port forwarding"], "enumeration": ["nmap", "gobuster", "nikto", "enum4linux", "snmp", "dns enumeration"], "password_attacks": ["password cracking", "hashcat", "john", "hydra", "pass the hash"], "reporting": ["reporting", "template", "evidence", "screenshot", "writeup"] def load_pdf(self) -> bool: """Load and extract text
def generate_flashcards(self, output_file: str = "oscp_flashcards.txt"): """Generate flashcards from important concepts""" flashcards = [] # Extract sentences that look like commands or important concepts lines = self.text_content.split('\n') important_patterns = [ r'^\s*[a-z]+\s+\-\w+', # Commands with options r'^(nmap|hydra|john|sqlmap|msfvenom|msfconsole)', r'(vulnerability|exploit|bypass|escalate|crack)', r'^\d+\.\s+\w+' # Numbered items ] for line in lines: for pattern in important_patterns: if re.search(pattern, line, re.IGNORECASE): if len(line) > 10 and len(line) < 200: flashcards.append(line.strip()) break # Remove duplicates flashcards = list(dict.fromkeys(flashcards)) with open(output_file, 'w') as f: f.write(f"# OSCP PEN-200 Flashcards\n# Generated: datetime.now().strftime('%Y-%m-%d %H:%M:%S')\n\n") for i, card in enumerate(flashcards[:100], 1): # Limit to 100 flashcards f.write(f"Card i:\ncard\n'-'*50\n") print(f"[+] Generated len(flashcards[:100]) flashcards in output_file") def load_pdf(self) ->
buffer = b"A" * 100 while len(buffer) <= 2000: try: s = socket.socket(socket.AF_INET, socket.SOCK_STREAM) s.connect(('target', 9999)) s.send(buffer + b'\\r\\n') s.close() buffer += b"A" * 100 except: print(f"Fuzzing crashed at len(buffer) bytes") break