243 lines
13 KiB
Common Lisp
243 lines
13 KiB
Common Lisp
(in-package :org-agent)
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(defvar *system-logs* nil)
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(defvar *logs-lock* (bt:make-lock "kernel-logs-lock"))
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(defvar *max-log-history* 100)
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(defvar *interrupt-flag* nil)
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(defvar *interrupt-lock* (bt:make-lock "kernel-interrupt-lock"))
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(defvar *skill-telemetry* (make-hash-table :test 'equal))
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(defvar *telemetry-lock* (bt:make-lock "kernel-telemetry-lock"))
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(defun dispatch-action (action context)
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"Routes an approved action to its registered physical actuator."
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(when (and action (listp action))
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(let* ((target (or (ignore-errors (getf action :target)) :emacs))
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(actuator-fn (gethash target *actuator-registry*)))
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(if actuator-fn
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(funcall actuator-fn action context)
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(kernel-log "DISPATCH ERROR: No actuator for ~a" target)))))
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(defun kernel-track-telemetry (skill-name duration status)
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"Updates performance metrics for a specific skill."
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(when skill-name (bt:with-lock-held (*telemetry-lock*)
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(let ((entry (or (gethash skill-name *skill-telemetry*) (list :executions 0 :total-time 0 :failures 0))))
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(incf (getf entry :executions)) (incf (getf entry :total-time) duration)
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(when (eq status :rejected) (incf (getf entry :failures))) (setf (gethash skill-name *skill-telemetry*) entry)))))
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(defun kernel-log (fmt &rest args)
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"Records a formatted message to the system log and standard output."
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(let ((msg (apply #'format nil fmt args)))
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(bt:with-lock-held (*logs-lock*) (push msg *system-logs*) (when (> (length *system-logs*) *max-log-history*) (setf *system-logs* (subseq *system-logs* 0 *max-log-history*))))
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(format t "~a~%" msg) (finish-output)))
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(defun inject-stimulus (raw-message &key stream (depth 0))
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"Enqueues a raw message into the reactive signal pipeline, handling async/sync execution and recovery."
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(let* ((payload (getf raw-message :payload))
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(sensor (getf payload :sensor))
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;; Force Chat and Delegation to be async
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(async-p (or (getf payload :async-p) (member sensor '(:chat-message :delegation :user-command)))))
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(when stream (setf (getf raw-message :reply-stream) stream))
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(if async-p (bt:make-thread (lambda () (restart-case (handler-bind ((error (lambda (c) (kernel-log "ASYNC ERROR: ~a" c) (invoke-restart 'skip-event))))
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(process-signal raw-message)) (skip-event () nil))) :name "org-agent-async-task")
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(restart-case (handler-bind ((error (lambda (c) (kernel-log "SYSTEM ERROR: ~a" c) (invoke-restart 'skip-event)))) (process-signal raw-message))
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(skip-event () (kernel-log "SYSTEM RECOVERY: Stimulus dropped.~%"))))))
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(defun execute-system-action (action context)
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"Processes internal kernel commands like skill creation or environment updates."
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(declare (ignore context))
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(let* ((payload (ignore-errors (getf action :payload))) (cmd (ignore-errors (getf payload :action))))
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(case cmd
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(:eval (let ((code (getf payload :code)))
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(kernel-log "ACTUATOR [System] - Evaluating: ~a" code)
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(handler-case (let ((result (eval (read-from-string code))))
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(kernel-log "ACTUATOR [System] - Result: ~s" result)
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result)
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(error (c) (kernel-log "ACTUATOR ERROR [System] - Eval failed: ~a" c)))))
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(:create-skill (let* ((filename (getf payload :filename)) (content (getf payload :content))
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(skills-dir (merge-pathnames "skills/" (asdf:system-source-directory :org-agent))) (full-path (merge-pathnames filename skills-dir)))
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(kernel-log "ACTUATOR [System] - Creating skill ~a..." filename)
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(with-open-file (out full-path :direction :output :if-exists :supersede) (write-string content out))
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(load-skill-from-org full-path)))
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(:set-cascade (setf *provider-cascade* (getf payload :cascade)))
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(:message (kernel-log "ACTUATOR [System] - ~a" (getf payload :text)))
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(t (kernel-log "ACTUATOR [System] - Unknown command ~s" cmd)))))
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(defun perceive-gate (signal)
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"Initial processing: Normalizes raw stimuli and updates memory."
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(let* ((payload (getf signal :payload))
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(type (getf signal :type))
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(sensor (getf payload :sensor)))
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(kernel-log "GATE [Perceive]: ~a (~a)" type (or sensor "no-sensor"))
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(snapshot-object-store)
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(cond ((eq type :EVENT)
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(case sensor
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(:buffer-update (let ((ast (getf payload :ast))) (when ast (ingest-ast ast))))
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(:point-update (let ((element (getf payload :element))) (when element (ingest-ast element))))
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(:interrupt (bt:with-lock-held (*interrupt-lock*) (setf *interrupt-flag* t)))))
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((eq type :RESPONSE)
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(kernel-log "GATE [Perceive]: Act Result -> ~a" (getf payload :status))))
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(setf (getf signal :status) :perceived)
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signal))
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(defun neuro-gate (signal)
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"System 1: Intuition and proposed actions."
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(unless (eq (getf signal :type) :EVENT)
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(return-from neuro-gate signal))
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(kernel-log "GATE [Neuro]: Consulting System 1...")
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(let ((thoughts (think signal)))
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(setf (getf signal :proposals) (if (and thoughts (listp thoughts) (listp (car thoughts)))
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thoughts
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(if thoughts (list thoughts) nil)))
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(setf (getf signal :status) :thought)
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signal))
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(defun resolve-consensus (proposals signal)
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"Resolves diverging proposals by voting or selecting the safest one."
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(declare (ignore signal))
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(kernel-log "CONSENSUS: ~a proposals found. Resolving..." (length proposals))
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;; Simplified consensus: Majority vote or first safe one
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;; For now, we'll select the proposal that appears most frequently.
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(let ((counts (make-hash-table :test 'equal)))
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(dolist (p proposals)
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(incf (gethash p counts 0)))
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(let ((winner (first proposals))
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(max-count 0))
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(maphash (lambda (p count)
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(when (> count max-count)
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(setq max-count count
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winner p)))
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counts)
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(kernel-log "CONSENSUS: Winner selected with ~a votes." max-count)
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winner)))
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(defun consensus-gate (signal)
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"Resolves multiple proposals into a single candidate action."
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(let ((proposals (getf signal :proposals)))
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(if (and proposals (cdr proposals))
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(let ((winner (resolve-consensus proposals signal)))
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(setf (getf signal :candidate) winner))
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(setf (getf signal :candidate) (first proposals)))
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(setf (getf signal :status) :consensus)
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signal))
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(defun delegate-task (task-id recipient &key context)
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"Enqueues a task for another agent or background process."
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(kernel-log "ORCHESTRATOR: Delegating task ~a to ~a" task-id recipient)
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(inject-stimulus (list :type :EVENT
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:payload (list :sensor :delegation
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:task-id task-id
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:recipient recipient
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:context context))))
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(defun decide-gate (signal)
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"System 2: Safety and validation."
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(let ((candidate (getf signal :candidate)))
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(if candidate
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(let ((approved (decide candidate signal)))
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(setf (getf signal :approved-action) approved)
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(unless approved (kernel-log "GATE [Decide]: REJECTED by System 2")))
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(setf (getf signal :approved-action) nil))
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(setf (getf signal :status) :decided)
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signal))
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(defun dispatch-gate (signal)
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"Final Stage: Actuation and feedback generation."
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(let* ((approved (getf signal :approved-action))
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(type (getf signal :type))
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(depth (getf signal :depth 0))
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(feedback nil))
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(case type
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(:REQUEST (dispatch-action signal signal))
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(:EVENT
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(when approved
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(let* ((payload (getf approved :payload))
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(target (getf approved :target))
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(action (or (getf payload :action) (getf approved :action)))
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(tool-name (or (getf payload :tool) (getf approved :tool)))
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(tool-args (or (getf payload :args) (getf approved :args))))
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(if (and (eq target :tool) (eq action :call))
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(let ((tool (gethash (string-downcase (string tool-name)) *cognitive-tools*)))
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(if tool
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(handler-case
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(let* ((clean-args (if (and (listp tool-args) (listp (car tool-args))) (car tool-args) tool-args))
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(result (funcall (cognitive-tool-body tool) clean-args)))
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(setf feedback (list :type :EVENT :depth (1+ depth) :reply-stream (getf signal :reply-stream)
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:payload (list :sensor :tool-output :result result :tool tool-name))))
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(error (c)
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(setf feedback (list :type :EVENT :depth (1+ depth) :reply-stream (getf signal :reply-stream)
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:payload (list :sensor :tool-error :tool tool-name :message (format nil "~a" c))))))
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(setf feedback (list :type :EVENT :depth (1+ depth) :reply-stream (getf signal :reply-stream)
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:payload (list :sensor :tool-error :message "Tool not found")))))
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(let ((result (dispatch-action approved signal)))
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(when (and result (not (member target '(:emacs :system-message))))
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(setf feedback (list :type :EVENT :depth (1+ depth) :reply-stream (getf signal :reply-stream)
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:payload (list :sensor :tool-output :result result :tool approved))))))))))
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(setf (getf signal :status) :dispatched)
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feedback))
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(defun process-signal (signal)
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"The entry point to the Reactive Signal Pipeline."
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(let ((current-signal signal))
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(loop while current-signal do
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(let ((depth (getf current-signal :depth 0)))
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(when (> depth 10)
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(kernel-log "PIPELINE ERROR: Max depth reached.")
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(return nil))
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(when (bt:with-lock-held (*interrupt-lock*) *interrupt-flag*)
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(kernel-log "PIPELINE: Interrupted.")
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(bt:with-lock-held (*interrupt-lock*) (setf *interrupt-flag* nil))
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(return nil))
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(handler-case
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(progn
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(setf current-signal (perceive-gate current-signal))
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(setf current-signal (neuro-gate current-signal))
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(setf current-signal (consensus-gate current-signal))
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(setf current-signal (decide-gate current-signal))
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(setf current-signal (dispatch-gate current-signal)))
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(error (c)
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(kernel-log "PIPELINE CRASH: ~a - Initiating Micro-Rollback." c)
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(rollback-object-store 0)
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(let ((sensor (ignore-errors (getf (getf current-signal :payload) :sensor))))
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(if (or (> depth 2) (member sensor '(:loop-error :tool-error)))
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(setf current-signal nil)
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(setf current-signal (list :type :EVENT :depth (1+ depth) :reply-stream (getf current-signal :reply-stream)
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:payload (list :sensor :loop-error :message (format nil "~a" c) :depth depth)))))))))))
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(defvar *heartbeat-thread* nil)
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(defun start-heartbeat (&optional (interval 60))
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"Spawns a thread that periodically injects a heartbeat stimulus."
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(setf *heartbeat-thread*
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(bt:make-thread
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(lambda ()
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(loop
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(sleep interval)
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(kernel-log "KERNEL: Heartbeat pulse...")
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(inject-stimulus (list :type :EVENT :payload (list :sensor :heartbeat :unix-time (get-universal-time))))))
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:name "org-agent-heartbeat")))
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(defun stop-heartbeat ()
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"Gracefully terminates the heartbeat pulse thread."
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(when (and *heartbeat-thread* (bt:thread-alive-p *heartbeat-thread*))
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(bt:destroy-thread *heartbeat-thread*)
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(setf *heartbeat-thread* nil)))
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(defun load-all-skills ()
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"Deprecated: use initialize-all-skills. Centralized boot orchestrator."
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(initialize-all-skills))
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(defun main ()
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"The entry point for the compiled standalone binary."
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(let* ((home (uiop:getenv "HOME"))
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(env-file (uiop:merge-pathnames* ".local/share/org-agent/.env" (uiop:ensure-directory-pathname home))))
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(if (uiop:file-exists-p env-file)
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(progn
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(format t "KERNEL: Loading environment from ~a~%" env-file)
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(cl-dotenv:load-env env-file))
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(format t "KERNEL ERROR: .env not found at ~a~%" env-file)))
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(let ((interval (or (ignore-errors (parse-integer (uiop:getenv "HEARTBEAT_INTERVAL") :junk-allowed t)) 60)))
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(format t "KERNEL: Heartbeat interval set to ~a seconds.~%" interval)
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(start-daemon :interval interval))
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(loop (sleep 3600)))
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