:PROPERTIES: :ID: 0ae190ec-5658-4630-aed8-a5e9ffbbea0e :END: #+TITLE: SKILL: Shell Actuator Agent (Universal Literate Note) #+STARTUP: content #+FILETAGS: :shell:actuator:system:psf: * Overview The *Shell Actuator Agent* provides the bridge to the host operating system. It enables secure command execution while maintaining a strict security posture through whitelisting and diagnostic feedback loops. * Phase A: Demand (PRD) :PROPERTIES: :STATUS: FROZEN :END: ** 1. Purpose Define a secure, diagnostic-rich interface for host OS interaction. ** 2. User Needs - *Secure Actuation:* Strict whitelist of permitted commands. - *Diagnostic Feedback:* Capture STDOUT, STDERR, and exit codes. - *Loop Closure:* Automatic neural analysis of command results. - *Resilience:* Graceful handling of blocked or failed commands. ** 3. Success Criteria *** TODO Whitelist Enforcement *** TODO Diagnostic Capture *** TODO Result Analysis Loop * Phase B: Blueprint (PROTOCOL) :PROPERTIES: :STATUS: SIGNED :END: ** 1. Architectural Intent Interfaces for secure system calls. State is event-driven via the core kernel bus. ** 2. Semantic Interfaces #+begin_src lisp (defun execute-shell-safely (action) "Verifies command against whitelist and captures diagnostics.") (defun trigger-skill-shell-actuator (context) "Monitors for shell-response events.") (defun neuro-skill-shell-actuator (context) "Neural interpretation of command diagnostics.") #+end_src * Phase D: Build (Implementation) ** Whitelisting & Execution #+begin_src lisp :tangle ../projects/org-skill-shell-actuator/src/shell-logic.lisp (defparameter *allowed-commands* '("ls" "git" "rg" "grep" "date" "echo" "cat" "node" "python3" "sbcl")) (defun execute-shell-safely (action context) (let* ((cmd-string (getf (getf action :payload) :cmd)) (executable (car (uiop:split-string cmd-string :separator '(#\Space))))) (if (member executable *allowed-commands* :test #'string=) (multiple-value-bind (stdout stderr exit-code) (uiop:run-program cmd-string :output :string :error-output :string :ignore-error-status t) (org-agent:inject-stimulus `(:type :EVENT :payload (:sensor :shell-response :cmd ,cmd-string :stdout ,(or stdout "") :stderr ,(or stderr "") :exit-code ,exit-code)) :stream (getf context :reply-stream))) (org-agent:inject-stimulus `(:type :EVENT :payload (:sensor :shell-response :cmd ,cmd-string :stdout "" :stderr "ERROR - Command not in security whitelist." :exit-code 1)) :stream (getf context :reply-stream))))) (defun execute-sandboxed-script (action context) "Executes a synthesized script (Python/Lisp/JS) in a controlled directory. This enables SOTA-level Tool Synthesis and Iterative Fixing." (let* ((payload (getf action :payload)) (language (getf payload :language)) (content (getf payload :content)) (sandbox-dir "/tmp/org-agent-sandbox/") (filename (format nil "synth-~a.~a" (get-universal-time) (case language (:python "py") (:lisp "lisp") (:js "js") (t "txt")))) (full-path (format nil "~a~a" sandbox-dir filename))) (ensure-directories-exist sandbox-dir) (with-open-file (out full-path :direction :output :if-exists :supersede) (write-string content out)) (let ((cmd (case language (:python (format nil "python3 ~a" full-path)) (:lisp (format nil "sbcl --script ~a" full-path)) (:js (format nil "node ~a" full-path))))) (multiple-value-bind (stdout stderr exit-code) (uiop:run-program cmd :output :string :error-output :string :ignore-error-status t) (org-agent:inject-stimulus `(:type :EVENT :payload (:sensor :shell-response :cmd ,cmd :stdout ,(or stdout "") :stderr ,(or stderr "") :exit-code ,exit-code :synthesis-p t)) :stream (getf context :reply-stream)))))) (defun provision-microvm (id &key (cpu 1) (ram 512)) "Hardware-Level Isolation: Provisions an ephemeral Firecracker MicroVM. This is the high-security evolution of directory-based sandboxing." (kernel-log "SECURITY [Hardware] - Provisioning MicroVM ~a (CPU: ~a, RAM: ~aMB)..." id cpu ram) ;; Future implementation: Wraps 'fcvm' or 'firecracker' CLI calls. (format nil "vm-~a-provisioned" id)) #+end_src ** Feedback Perception #+begin_src lisp :tangle ../projects/org-skill-shell-actuator/src/shell-logic.lisp (defun trigger-skill-shell-actuator (context) (let ((type (getf context :type)) (payload (getf context :payload))) (and (eq type :EVENT) (eq (getf payload :sensor) :shell-response)))) #+end_src ** Neuro-Cognitive Analysis #+begin_src lisp :tangle ../projects/org-skill-shell-actuator/src/shell-logic.lisp (defun neuro-skill-shell-actuator (context) (let* ((p (getf context :payload)) (cmd (getf p :cmd)) (stdout (getf p :stdout)) (stderr (getf p :stderr)) (exit-code (getf p :exit-code)) (synthesis-p (getf p :synthesis-p))) (if synthesis-p (format nil " TOOL SYNTHESIS RESULT: Command: ~a (Exit: ~a) STDOUT: ~a STDERR: ~a TASK: If the command failed (Exit != 0), analyze the STDERR and propose a FIX for the script. If it succeeded, use the STDOUT to complete the original goal. " cmd exit-code stdout stderr) (let ((result-text (format nil "* Shell Command Result\n- Command: ~a\n- Exit Code: ~a\n\n** STDOUT\n#+begin_example\n~a\n#+end_example\n\n** STDERR\n#+begin_example\n~a\n#+end_example" cmd exit-code stdout stderr))) `(:type :request :target :emacs :payload (:action :insert-at-end :buffer "*org-agent-chat*" :text ,result-text)))))) #+end_src * Registration #+begin_src lisp (org-agent:register-actuator :shell #'execute-shell-safely) (defskill :skill-shell-actuator :priority 80 :trigger #'trigger-skill-shell-actuator :neuro #'neuro-skill-shell-actuator :symbolic (lambda (action context) action)) #+end_src