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update pdoc

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This commit is contained in:
Fede Luzzi
2026-05-18 14:11:28 -03:00
parent 5a8b744aa8
commit 7b01a0c05f
7 changed files with 729 additions and 403 deletions
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docs/connpy/cli/terminal_ui.html
+197 -73
View File
@@ -90,9 +90,10 @@ el.replaceWith(d);
async def run_session(self,
raw_bytes: bytes,
cmd_byte_positions: List[tuple],
node_info: dict,
on_ai_call: Callable):
on_ai_call: Callable,
cmd_byte_positions: List[tuple] = None,
blocks: List[tuple] = None):
"""
Runs the interactive Copilot session.
on_ai_call: async function(active_buffer, question) -> result_dict
@@ -102,9 +103,11 @@ el.replaceWith(d);
try:
# Prepare UI state
buffer = log_cleaner(raw_bytes.decode(errors='replace'))
blocks = self.ai_service.build_context_blocks(raw_bytes, cmd_byte_positions, node_info)
last_line = buffer.split('\n')[-1].strip() if buffer.strip() else "(prompt)"
blocks.append((len(raw_bytes), last_line[:80]))
# Use pre-calculated blocks if provided (remote mode), otherwise calculate locally (local mode)
if blocks is None:
last_line = buffer.split('\n')[-1].strip() if buffer.strip() else "(prompt)"
blocks = self.ai_service.build_context_blocks(raw_bytes, cmd_byte_positions, node_info, last_line=last_line)
state = {
'context_cmd': 1,
@@ -121,7 +124,7 @@ el.replaceWith(d);
self.console.print("") # Salto de línea real
self.console.print(Rule(title="[bold cyan] AI TERMINAL COPILOT [/bold cyan]", style="cyan"))
self.console.print(Panel(
"[dim]Type your question. Enter to send, Escape/Ctrl+C to cancel.\n"
"[dim]Type your question. Enter to send, Escape/Ctrl+C to cancel. Type / for commands.\n"
"Tab to change context mode. Ctrl+\u2191/\u2193 to adjust context. \u2191\u2193 for question history.[/dim]",
border_style="cyan"
))
@@ -161,9 +164,8 @@ el.replaceWith(d);
if state['context_mode'] == self.mode_lines:
return '\n'.join(buffer.split('\n')[-state['context_lines']:])
idx = max(0, state['total_cmds'] - state['context_cmd'])
start, preview = blocks[idx]
if state['context_mode'] == self.mode_single and idx + 1 < state['total_cmds']:
end = blocks[idx + 1][0]
start, end, preview = blocks[idx]
if state['context_mode'] == self.mode_single:
active_raw = raw_bytes[start:end]
else:
active_raw = raw_bytes[start:]
@@ -205,7 +207,40 @@ el.replaceWith(d);
base_str = f'\u25b6 Ctrl+\u2191/\u2193 adjusts by 50 lines [Tab: {m_label}]'
else:
idx = max(0, state['total_cmds'] - state['context_cmd'])
desc = blocks[idx][1]
import re
def clean_preview(text):
# Limpia saltos de línea y el prompt inicial (todo hasta #, > o $) para que quede solo el comando
original = text.strip().replace('\r', '').replace('\n', ' ')
cleaned = re.sub(r'^.*?[#>\$]\s*', '', original)
# Si limpiar el prompt nos deja con un string vacío (ej: era solo "iol#"), devolvemos el original
return cleaned if cleaned else original
if state['context_mode'] == self.mode_range:
range_blocks = blocks[idx:]
# Si hay más de un bloque, el último es siempre el prompt vacío/actual. Lo omitimos visualmente.
if len(range_blocks) > 1:
range_blocks = range_blocks[:-1]
# Limpiar y truncar comandos muy largos para que no rompan la UI
previews = []
for b in range_blocks:
p = clean_preview(b[2])
if p:
# Truncar comandos individuales largos
if len(p) > 25: p = p[:22] + "..."
previews.append(p)
if not previews:
desc = clean_preview(blocks[idx][2])
elif len(previews) <= 3:
desc = " + ".join(previews)
else:
desc = f"{previews[0]} + {previews[1]} + {previews[2]} ... (+{len(previews)-3})"
else:
# Modo SINGLE original
desc = clean_preview(blocks[idx][2])
base_str = f'\u25b6 {desc} [Tab: {m_label}]'
# Wrap base_str in a style to maintain consistency and avoid glitches
@@ -332,39 +367,67 @@ el.replaceWith(d);
# Use persona from overrides (one-shot) or from session state
active_persona = merged_node_info.get('persona', self.session_state.get('persona', 'engineer'))
persona_color = self._get_theme_color(active_persona, fallback="cyan")
persona_title = "Network Architect" if active_persona == "architect" else "Network Engineer"
active_buffer = get_active_buffer()
live_text = "Thinking..."
panel = Panel(live_text, title=f"[bold {persona_color}]Copilot Guide[/bold {persona_color}]", border_style=persona_color)
live_text = ""
first_chunk = True
import sys
from rich.rule import Rule
from rich.status import Status
from connpy.printer import IncrementalMarkdownParser
md_parser = IncrementalMarkdownParser(console=self.console)
status_spinner = Status(
f"[bold {persona_color}]{persona_title}:[/bold {persona_color}] [dim]Thinking...[/dim]",
console=self.console,
spinner="dots"
)
status_spinner.start()
def on_chunk(text):
nonlocal live_text
if live_text == "Thinking...": live_text = ""
nonlocal live_text, first_chunk
if first_chunk:
status_spinner.stop()
# Print header rule before first chunk arrives
self.console.print(Rule(
f"[bold {persona_color}]{persona_title}[/bold {persona_color}]",
style=persona_color
))
first_chunk = False
live_text += text
md_parser.feed(text)
with Live(panel, console=self.console, refresh_per_second=10) as live:
def update_live(t):
live.update(Panel(Markdown(t), title=f"[bold {persona_color}]Copilot Guide[/bold {persona_color}]", border_style=persona_color))
# Check for interruption during AI call
ai_task = asyncio.create_task(on_ai_call(active_buffer, clean_question, on_chunk, merged_node_info))
wrapped_chunk = lambda t: (on_chunk(t), update_live(live_text))
# Check for interruption during AI call
ai_task = asyncio.create_task(on_ai_call(active_buffer, clean_question, wrapped_chunk, merged_node_info))
try:
while not ai_task.done():
await asyncio.sleep(0.05)
result = await ai_task
except asyncio.CancelledError:
return "cancel", None, None
if not result or result.get("error"):
if result and result.get("error"): self.console.print(f"[red]Error: {result['error']}[/red]")
try:
while not ai_task.done():
await asyncio.sleep(0.05)
result = await ai_task
except asyncio.CancelledError:
status_spinner.stop()
return "cancel", None, None
# 4. Handle result
if live_text == "Thinking..." and result.get("guide"):
self.console.print(Panel(Markdown(result["guide"]), title=f"[bold {persona_color}]Copilot Guide[/bold {persona_color}]", border_style=persona_color))
# Ensure spinner is stopped if no chunks arrived
if first_chunk:
status_spinner.stop()
# Close the streamed output with a Rule
if not first_chunk:
md_parser.flush()
self.console.print(Rule(style=persona_color))
if not result or result.get("error"):
if first_chunk and result and result.get("error"):
self.console.print(f"[red]Error: {result['error']}[/red]")
return "cancel", None, None
# If no chunks were streamed but we have a guide, print it as a panel
if first_chunk and result and result.get("guide"):
self.console.print(Panel(Markdown(result["guide"]), title=f"[bold {persona_color}]{persona_title}[/bold {persona_color}]", border_style=persona_color))
commands = result.get("commands", [])
if not commands:
@@ -466,14 +529,13 @@ el.replaceWith(d);
return "cancel", None, None
finally:
state['cancelled'] = True
self.console.print(&#34;[dim]Returning to session...[/dim]&#34;)</code></pre>
state[&#39;cancelled&#39;] = True</code></pre>
</details>
<div class="desc"></div>
<h3>Methods</h3>
<dl>
<dt id="connpy.cli.terminal_ui.CopilotInterface.run_session"><code class="name flex">
<span>async def <span class="ident">run_session</span></span>(<span>self,<br>raw_bytes: bytes,<br>cmd_byte_positions: List[tuple],<br>node_info: dict,<br>on_ai_call: Callable)</span>
<span>async def <span class="ident">run_session</span></span>(<span>self,<br>raw_bytes: bytes,<br>node_info: dict,<br>on_ai_call: Callable,<br>cmd_byte_positions: List[tuple] = None,<br>blocks: List[tuple] = None)</span>
</code></dt>
<dd>
<details class="source">
@@ -482,9 +544,10 @@ el.replaceWith(d);
</summary>
<pre><code class="python">async def run_session(self,
raw_bytes: bytes,
cmd_byte_positions: List[tuple],
node_info: dict,
on_ai_call: Callable):
on_ai_call: Callable,
cmd_byte_positions: List[tuple] = None,
blocks: List[tuple] = None):
&#34;&#34;&#34;
Runs the interactive Copilot session.
on_ai_call: async function(active_buffer, question) -&gt; result_dict
@@ -494,9 +557,11 @@ el.replaceWith(d);
try:
# Prepare UI state
buffer = log_cleaner(raw_bytes.decode(errors=&#39;replace&#39;))
blocks = self.ai_service.build_context_blocks(raw_bytes, cmd_byte_positions, node_info)
last_line = buffer.split(&#39;\n&#39;)[-1].strip() if buffer.strip() else &#34;(prompt)&#34;
blocks.append((len(raw_bytes), last_line[:80]))
# Use pre-calculated blocks if provided (remote mode), otherwise calculate locally (local mode)
if blocks is None:
last_line = buffer.split(&#39;\n&#39;)[-1].strip() if buffer.strip() else &#34;(prompt)&#34;
blocks = self.ai_service.build_context_blocks(raw_bytes, cmd_byte_positions, node_info, last_line=last_line)
state = {
&#39;context_cmd&#39;: 1,
@@ -513,7 +578,7 @@ el.replaceWith(d);
self.console.print(&#34;&#34;) # Salto de línea real
self.console.print(Rule(title=&#34;[bold cyan] AI TERMINAL COPILOT [/bold cyan]&#34;, style=&#34;cyan&#34;))
self.console.print(Panel(
&#34;[dim]Type your question. Enter to send, Escape/Ctrl+C to cancel.\n&#34;
&#34;[dim]Type your question. Enter to send, Escape/Ctrl+C to cancel. Type / for commands.\n&#34;
&#34;Tab to change context mode. Ctrl+\u2191/\u2193 to adjust context. \u2191\u2193 for question history.[/dim]&#34;,
border_style=&#34;cyan&#34;
))
@@ -553,9 +618,8 @@ el.replaceWith(d);
if state[&#39;context_mode&#39;] == self.mode_lines:
return &#39;\n&#39;.join(buffer.split(&#39;\n&#39;)[-state[&#39;context_lines&#39;]:])
idx = max(0, state[&#39;total_cmds&#39;] - state[&#39;context_cmd&#39;])
start, preview = blocks[idx]
if state[&#39;context_mode&#39;] == self.mode_single and idx + 1 &lt; state[&#39;total_cmds&#39;]:
end = blocks[idx + 1][0]
start, end, preview = blocks[idx]
if state[&#39;context_mode&#39;] == self.mode_single:
active_raw = raw_bytes[start:end]
else:
active_raw = raw_bytes[start:]
@@ -597,7 +661,40 @@ el.replaceWith(d);
base_str = f&#39;\u25b6 Ctrl+\u2191/\u2193 adjusts by 50 lines [Tab: {m_label}]&#39;
else:
idx = max(0, state[&#39;total_cmds&#39;] - state[&#39;context_cmd&#39;])
desc = blocks[idx][1]
import re
def clean_preview(text):
# Limpia saltos de línea y el prompt inicial (todo hasta #, &gt; o $) para que quede solo el comando
original = text.strip().replace(&#39;\r&#39;, &#39;&#39;).replace(&#39;\n&#39;, &#39; &#39;)
cleaned = re.sub(r&#39;^.*?[#&gt;\$]\s*&#39;, &#39;&#39;, original)
# Si limpiar el prompt nos deja con un string vacío (ej: era solo &#34;iol#&#34;), devolvemos el original
return cleaned if cleaned else original
if state[&#39;context_mode&#39;] == self.mode_range:
range_blocks = blocks[idx:]
# Si hay más de un bloque, el último es siempre el prompt vacío/actual. Lo omitimos visualmente.
if len(range_blocks) &gt; 1:
range_blocks = range_blocks[:-1]
# Limpiar y truncar comandos muy largos para que no rompan la UI
previews = []
for b in range_blocks:
p = clean_preview(b[2])
if p:
# Truncar comandos individuales largos
if len(p) &gt; 25: p = p[:22] + &#34;...&#34;
previews.append(p)
if not previews:
desc = clean_preview(blocks[idx][2])
elif len(previews) &lt;= 3:
desc = &#34; + &#34;.join(previews)
else:
desc = f&#34;{previews[0]} + {previews[1]} + {previews[2]} ... (+{len(previews)-3})&#34;
else:
# Modo SINGLE original
desc = clean_preview(blocks[idx][2])
base_str = f&#39;\u25b6 {desc} [Tab: {m_label}]&#39;
# Wrap base_str in a style to maintain consistency and avoid glitches
@@ -724,39 +821,67 @@ el.replaceWith(d);
# Use persona from overrides (one-shot) or from session state
active_persona = merged_node_info.get(&#39;persona&#39;, self.session_state.get(&#39;persona&#39;, &#39;engineer&#39;))
persona_color = self._get_theme_color(active_persona, fallback=&#34;cyan&#34;)
persona_title = &#34;Network Architect&#34; if active_persona == &#34;architect&#34; else &#34;Network Engineer&#34;
active_buffer = get_active_buffer()
live_text = &#34;Thinking...&#34;
panel = Panel(live_text, title=f&#34;[bold {persona_color}]Copilot Guide[/bold {persona_color}]&#34;, border_style=persona_color)
live_text = &#34;&#34;
first_chunk = True
import sys
from rich.rule import Rule
from rich.status import Status
from connpy.printer import IncrementalMarkdownParser
md_parser = IncrementalMarkdownParser(console=self.console)
status_spinner = Status(
f&#34;[bold {persona_color}]{persona_title}:[/bold {persona_color}] [dim]Thinking...[/dim]&#34;,
console=self.console,
spinner=&#34;dots&#34;
)
status_spinner.start()
def on_chunk(text):
nonlocal live_text
if live_text == &#34;Thinking...&#34;: live_text = &#34;&#34;
nonlocal live_text, first_chunk
if first_chunk:
status_spinner.stop()
# Print header rule before first chunk arrives
self.console.print(Rule(
f&#34;[bold {persona_color}]{persona_title}[/bold {persona_color}]&#34;,
style=persona_color
))
first_chunk = False
live_text += text
md_parser.feed(text)
with Live(panel, console=self.console, refresh_per_second=10) as live:
def update_live(t):
live.update(Panel(Markdown(t), title=f&#34;[bold {persona_color}]Copilot Guide[/bold {persona_color}]&#34;, border_style=persona_color))
# Check for interruption during AI call
ai_task = asyncio.create_task(on_ai_call(active_buffer, clean_question, on_chunk, merged_node_info))
wrapped_chunk = lambda t: (on_chunk(t), update_live(live_text))
# Check for interruption during AI call
ai_task = asyncio.create_task(on_ai_call(active_buffer, clean_question, wrapped_chunk, merged_node_info))
try:
while not ai_task.done():
await asyncio.sleep(0.05)
result = await ai_task
except asyncio.CancelledError:
return &#34;cancel&#34;, None, None
if not result or result.get(&#34;error&#34;):
if result and result.get(&#34;error&#34;): self.console.print(f&#34;[red]Error: {result[&#39;error&#39;]}[/red]&#34;)
try:
while not ai_task.done():
await asyncio.sleep(0.05)
result = await ai_task
except asyncio.CancelledError:
status_spinner.stop()
return &#34;cancel&#34;, None, None
# 4. Handle result
if live_text == &#34;Thinking...&#34; and result.get(&#34;guide&#34;):
self.console.print(Panel(Markdown(result[&#34;guide&#34;]), title=f&#34;[bold {persona_color}]Copilot Guide[/bold {persona_color}]&#34;, border_style=persona_color))
# Ensure spinner is stopped if no chunks arrived
if first_chunk:
status_spinner.stop()
# Close the streamed output with a Rule
if not first_chunk:
md_parser.flush()
self.console.print(Rule(style=persona_color))
if not result or result.get(&#34;error&#34;):
if first_chunk and result and result.get(&#34;error&#34;):
self.console.print(f&#34;[red]Error: {result[&#39;error&#39;]}[/red]&#34;)
return &#34;cancel&#34;, None, None
# If no chunks were streamed but we have a guide, print it as a panel
if first_chunk and result and result.get(&#34;guide&#34;):
self.console.print(Panel(Markdown(result[&#34;guide&#34;]), title=f&#34;[bold {persona_color}]{persona_title}[/bold {persona_color}]&#34;, border_style=persona_color))
commands = result.get(&#34;commands&#34;, [])
if not commands:
@@ -858,8 +983,7 @@ el.replaceWith(d);
return &#34;cancel&#34;, None, None
finally:
state[&#39;cancelled&#39;] = True
self.console.print(&#34;[dim]Returning to session...[/dim]&#34;)</code></pre>
state[&#39;cancelled&#39;] = True</code></pre>
</details>
<div class="desc"><p>Runs the interactive Copilot session.
on_ai_call: async function(active_buffer, question) -&gt; result_dict</p></div>
docs/connpy/grpc_layer/server.html
+54 -37
View File
@@ -807,15 +807,34 @@ interceptor chooses to service this RPC, or None otherwise.</p></div>
import json
import asyncio
import os
from ..services.ai_service import AIService
service = AIService(self.service.config)
if node_info is None:
node_info = {}
# Calculate real command blocks from history using the central service
raw_bytes = n.mylog.getvalue() if hasattr(n, &#39;mylog&#39;) else buffer
if not isinstance(raw_bytes, bytes):
raw_bytes = str(raw_bytes).encode()
from connpy.utils import log_cleaner
last_line = log_cleaner(raw_bytes.decode(errors=&#39;replace&#39;)).split(&#39;\n&#39;)[-1].strip()
blocks = service.build_context_blocks(raw_bytes, n.cmd_byte_positions, node_info, last_line=last_line)
node_info[&#34;context_blocks&#34;] = blocks
node_info_json = json.dumps(node_info)
# Convert buffer to string if it&#39;s bytes for the preview
preview_str = buffer[-200:].decode(errors=&#39;replace&#39;) if isinstance(buffer, bytes) else str(buffer)[-200:]
# Generate a unique session ID for this copilot interaction to prevent race conditions
import uuid
copilot_session_id = str(uuid.uuid4())
node_info[&#34;session_id&#34;] = copilot_session_id
node_info_json = json.dumps(node_info)
# 1. Send prompt to client
response_queue.put(connpy_pb2.InteractResponse(
copilot_prompt=True,
@@ -824,6 +843,13 @@ interceptor chooses to service this RPC, or None otherwise.</p></div>
))
while True:
# 0. Drain the queue of any stale messages before starting a new interaction
while not remote_stream.copilot_queue.empty():
try:
remote_stream.copilot_queue.get_nowait()
except:
break
# 2. Await the question from client via the copilot_queue
import threading
def preload_ai_deps():
@@ -836,8 +862,17 @@ interceptor chooses to service this RPC, or None otherwise.</p></div>
try:
req_data = await asyncio.wait_for(remote_stream.copilot_queue.get(), timeout=120)
if not req_data: return
if &#34;question&#34; not in req_data or not req_data[&#34;question&#34;] or req_data[&#34;question&#34;] == &#34;CANCEL&#34; or req_data.get(&#34;action&#34;) == &#34;cancel&#34;:
os.write(child_fd, b&#39;\x15\r&#39;)
# Validate session ID if provided by client (skip validation if not provided for CLI compatibility)
req_session_id = req_data.get(&#34;session_id&#34;)
if req_session_id and req_session_id != copilot_session_id:
continue # Ignore stale request from a previous session
if &#34;question&#34; not in req_data or not req_data[&#34;question&#34;] or req_data[&#34;question&#34;] == &#34;CANCEL&#34; or req_data.get(&#34;action&#34;) in (&#34;cancel&#34;, &#34;web_cancel&#34;):
if req_data.get(&#34;action&#34;) == &#34;web_cancel&#34;:
os.write(child_fd, b&#39;\x05&#39;)
else:
os.write(child_fd, b&#39;\x15\r&#39;)
return
question = req_data[&#34;question&#34;]
@@ -864,9 +899,6 @@ interceptor chooses to service this RPC, or None otherwise.</p></div>
return
# 3. Call AI Service with streaming
from ..services.ai_service import AIService
service = AIService(self.service.config)
def chunk_callback(chunk_text):
if chunk_text:
response_queue.put(connpy_pb2.InteractResponse(
@@ -887,8 +919,11 @@ interceptor chooses to service this RPC, or None otherwise.</p></div>
if wait_action_task in done:
req_data = wait_action_task.result()
ai_task.cancel()
if req_data.get(&#34;action&#34;) == &#34;cancel&#34; or req_data.get(&#34;question&#34;) == &#34;CANCEL&#34;:
os.write(child_fd, b&#39;\x15\r&#39;)
if req_data.get(&#34;action&#34;) in (&#34;cancel&#34;, &#34;web_cancel&#34;) or req_data.get(&#34;question&#34;) == &#34;CANCEL&#34;:
if req_data.get(&#34;action&#34;) == &#34;web_cancel&#34;:
os.write(child_fd, b&#39;\x05&#39;)
else:
os.write(child_fd, b&#39;\x15\r&#39;)
return
continue # Loop back instead of returning to keep session alive
else:
@@ -912,45 +947,27 @@ interceptor chooses to service this RPC, or None otherwise.</p></div>
if action == &#34;continue&#34;:
continue # Loop back for next question
if action == &#34;cancel&#34;:
os.write(child_fd, b&#39;\x15\r&#39;)
if action in (&#34;cancel&#34;, &#34;web_cancel&#34;):
if action == &#34;web_cancel&#34;:
os.write(child_fd, b&#39;\x05&#39;)
else:
os.write(child_fd, b&#39;\x15\r&#39;)
return
except asyncio.TimeoutError:
os.write(child_fd, b&#39;\x15\r&#39;)
return
def on_inject(cmd):
response_queue.put(connpy_pb2.InteractResponse(copilot_injected_command=cmd))
if action == &#34;send_all&#34;:
commands = result.get(&#34;commands&#34;, [])
os.write(child_fd, b&#39;\x15&#39;) # Ctrl+U to clear line
await asyncio.sleep(0.1)
# Prepend screen length command to avoid pagination
if &#34;screen_length_command&#34; in n.tags:
os.write(child_fd, (n.tags[&#34;screen_length_command&#34;] + &#34;\n&#34;).encode())
response_queue.put(connpy_pb2.InteractResponse(copilot_injected_command=n.tags[&#34;screen_length_command&#34;]))
await asyncio.sleep(0.8)
for cmd in commands:
os.write(child_fd, (cmd + &#34;\n&#34;).encode())
response_queue.put(connpy_pb2.InteractResponse(copilot_injected_command=cmd))
await asyncio.sleep(0.8)
await n.inject_commands(commands, child_fd, on_inject=on_inject)
return
elif action.startswith(&#34;custom:&#34;):
custom_cmds = action[7:]
os.write(child_fd, b&#39;\x15&#39;)
await asyncio.sleep(0.1)
# Prepend screen length command to avoid pagination
if &#34;screen_length_command&#34; in n.tags:
os.write(child_fd, (n.tags[&#34;screen_length_command&#34;] + &#34;\n&#34;).encode())
response_queue.put(connpy_pb2.InteractResponse(copilot_injected_command=n.tags[&#34;screen_length_command&#34;]))
await asyncio.sleep(0.8)
for cmd in custom_cmds.split(&#39;\n&#39;):
if cmd.strip():
os.write(child_fd, (cmd.strip() + &#34;\n&#34;).encode())
response_queue.put(connpy_pb2.InteractResponse(copilot_injected_command=cmd.strip()))
await asyncio.sleep(0.8)
custom_cmds_raw = action[7:]
custom_cmds = [cmd.strip() for cmd in custom_cmds_raw.split(&#39;\n&#39;) if cmd.strip()]
await n.inject_commands(custom_cmds, child_fd, on_inject=on_inject)
return
else:
os.write(child_fd, b&#39;\x15\r&#39;)
docs/connpy/grpc_layer/stubs.html
+66 -119
View File
@@ -104,7 +104,6 @@ el.replaceWith(d);
import queue
from rich.prompt import Prompt
from rich.text import Text
from rich.live import Live
from rich.panel import Panel
from rich.markdown import Markdown
@@ -135,7 +134,7 @@ el.replaceWith(d);
responses = self.stub.ask(request_generator())
full_content = &#34;&#34;
live_display = None
header_printed = False
final_result = {&#34;response&#34;: &#34;&#34;, &#34;chat_history&#34;: []}
# Background thread to pull responses from gRPC into a local queue
@@ -200,69 +199,53 @@ el.replaceWith(d);
if response.debug_message:
if debug:
if live_display:
try: live_display.stop()
except: pass
if status:
try: status.stop()
except: pass
printer.console.print(Text.from_ansi(response.debug_message))
if live_display:
try: live_display.start()
except: pass
elif status:
if status:
try: status.start()
except: pass
continue
if response.important_message:
if live_display:
try: live_display.stop()
except: pass
if status:
try: status.stop()
except: pass
printer.console.print(Text.from_ansi(response.important_message))
if live_display:
try: live_display.start()
except: pass
elif status:
if status:
try: status.start()
except: pass
continue
if not response.is_final:
if response.text_chunk:
full_content += response.text_chunk
if not live_display:
if not header_printed:
if status:
try: status.stop()
except: pass
from rich.console import Console as RichConsole
from ..printer import connpy_theme, get_original_stdout
from rich.rule import Rule
from ..printer import connpy_theme, get_original_stdout, IncrementalMarkdownParser
stable_console = RichConsole(theme=connpy_theme, file=get_original_stdout())
# We default to Engineer title during stream, final result will correct it if needed
live_display = Live(
Panel(Markdown(full_content), title=&#34;[bold engineer]Network Engineer[/bold engineer]&#34;, border_style=&#34;engineer&#34;, expand=False),
console=stable_console,
refresh_per_second=8,
transient=False
)
live_display.start()
else:
live_display.update(
Panel(Markdown(full_content), title=&#34;[bold engineer]Network Engineer[/bold engineer]&#34;, border_style=&#34;engineer&#34;, expand=False)
)
# Print header on first chunk
stable_console.print(Rule(&#34;[bold engineer]Network Engineer[/bold engineer]&#34;, style=&#34;engineer&#34;))
header_printed = True
# Initialize parser
md_parser = IncrementalMarkdownParser(console=stable_console)
full_content += response.text_chunk
md_parser.feed(response.text_chunk)
continue
if response.is_final:
if live_display:
try: live_display.stop()
except: pass
# Final stop for status to ensure it disappears before the panel
if header_printed:
from rich.rule import Rule
md_parser.flush()
if status:
try: status.stop()
except: pass
@@ -273,13 +256,14 @@ el.replaceWith(d);
role_label = &#34;Network Architect&#34; if responder == &#34;architect&#34; else &#34;Network Engineer&#34;
title = f&#34;[bold {alias}]{role_label}[/bold {alias}]&#34;
content_to_print = full_content or final_result.get(&#34;response&#34;, &#34;&#34;)
if content_to_print:
if live_display:
# Re-render the final frame with correct title/colors
live_display.update(Panel(Markdown(content_to_print), title=title, border_style=alias, expand=False))
else:
printer.console.print(Panel(Markdown(content_to_print), title=title, border_style=alias, expand=False))
if header_printed:
from rich.console import Console as RichConsole
from ..printer import connpy_theme, get_original_stdout
stable_console = RichConsole(theme=connpy_theme, file=get_original_stdout())
stable_console.print(Rule(style=alias))
elif not full_content and final_result.get(&#34;response&#34;):
# If nothing streamed but we have response (e.g. error or direct guide)
printer.console.print(Panel(Markdown(final_result[&#34;response&#34;]), title=title, border_style=alias, expand=False))
break
except Exception as e:
# Check if it was a gRPC error that we should let handle_errors catch
@@ -342,7 +326,6 @@ def ask(self, input_text, dryrun=False, chat_history=None, session_id=None, debu
import queue
from rich.prompt import Prompt
from rich.text import Text
from rich.live import Live
from rich.panel import Panel
from rich.markdown import Markdown
@@ -373,7 +356,7 @@ def ask(self, input_text, dryrun=False, chat_history=None, session_id=None, debu
responses = self.stub.ask(request_generator())
full_content = &#34;&#34;
live_display = None
header_printed = False
final_result = {&#34;response&#34;: &#34;&#34;, &#34;chat_history&#34;: []}
# Background thread to pull responses from gRPC into a local queue
@@ -438,69 +421,53 @@ def ask(self, input_text, dryrun=False, chat_history=None, session_id=None, debu
if response.debug_message:
if debug:
if live_display:
try: live_display.stop()
except: pass
if status:
try: status.stop()
except: pass
printer.console.print(Text.from_ansi(response.debug_message))
if live_display:
try: live_display.start()
except: pass
elif status:
if status:
try: status.start()
except: pass
continue
if response.important_message:
if live_display:
try: live_display.stop()
except: pass
if status:
try: status.stop()
except: pass
printer.console.print(Text.from_ansi(response.important_message))
if live_display:
try: live_display.start()
except: pass
elif status:
if status:
try: status.start()
except: pass
continue
if not response.is_final:
if response.text_chunk:
full_content += response.text_chunk
if not live_display:
if not header_printed:
if status:
try: status.stop()
except: pass
from rich.console import Console as RichConsole
from ..printer import connpy_theme, get_original_stdout
from rich.rule import Rule
from ..printer import connpy_theme, get_original_stdout, IncrementalMarkdownParser
stable_console = RichConsole(theme=connpy_theme, file=get_original_stdout())
# We default to Engineer title during stream, final result will correct it if needed
live_display = Live(
Panel(Markdown(full_content), title=&#34;[bold engineer]Network Engineer[/bold engineer]&#34;, border_style=&#34;engineer&#34;, expand=False),
console=stable_console,
refresh_per_second=8,
transient=False
)
live_display.start()
else:
live_display.update(
Panel(Markdown(full_content), title=&#34;[bold engineer]Network Engineer[/bold engineer]&#34;, border_style=&#34;engineer&#34;, expand=False)
)
# Print header on first chunk
stable_console.print(Rule(&#34;[bold engineer]Network Engineer[/bold engineer]&#34;, style=&#34;engineer&#34;))
header_printed = True
# Initialize parser
md_parser = IncrementalMarkdownParser(console=stable_console)
full_content += response.text_chunk
md_parser.feed(response.text_chunk)
continue
if response.is_final:
if live_display:
try: live_display.stop()
except: pass
# Final stop for status to ensure it disappears before the panel
if header_printed:
from rich.rule import Rule
md_parser.flush()
if status:
try: status.stop()
except: pass
@@ -511,13 +478,14 @@ def ask(self, input_text, dryrun=False, chat_history=None, session_id=None, debu
role_label = &#34;Network Architect&#34; if responder == &#34;architect&#34; else &#34;Network Engineer&#34;
title = f&#34;[bold {alias}]{role_label}[/bold {alias}]&#34;
content_to_print = full_content or final_result.get(&#34;response&#34;, &#34;&#34;)
if content_to_print:
if live_display:
# Re-render the final frame with correct title/colors
live_display.update(Panel(Markdown(content_to_print), title=title, border_style=alias, expand=False))
else:
printer.console.print(Panel(Markdown(content_to_print), title=title, border_style=alias, expand=False))
if header_printed:
from rich.console import Console as RichConsole
from ..printer import connpy_theme, get_original_stdout
stable_console = RichConsole(theme=connpy_theme, file=get_original_stdout())
stable_console.print(Rule(style=alias))
elif not full_content and final_result.get(&#34;response&#34;):
# If nothing streamed but we have response (e.g. error or direct guide)
printer.console.print(Panel(Markdown(final_result[&#34;response&#34;]), title=title, border_style=alias, expand=False))
break
except Exception as e:
# Check if it was a gRPC error that we should let handle_errors catch
@@ -1024,7 +992,7 @@ def set_reserved_names(self, names):
self.remote_host = remote_host
self.config = config
def _handle_remote_copilot(self, res, request_queue, response_queue, client_buffer_bytes, cmd_byte_positions, pause_generator, resume_generator, old_tty):
def _handle_remote_copilot(self, res, request_queue, response_queue, client_buffer_bytes, pause_generator, resume_generator, old_tty):
import json, asyncio, termios, sys, tty, queue
from ..core import copilot_terminal_mode
from . import connpy_pb2
@@ -1032,6 +1000,10 @@ def set_reserved_names(self, names):
pause_generator()
termios.tcsetattr(sys.stdin, termios.TCSADRAIN, old_tty)
node_info = json.loads(res.copilot_node_info_json) if res.copilot_node_info_json else {}
blocks = node_info.get(&#34;context_blocks&#34;, [])
interface = CopilotInterface(
self.config,
history=getattr(self, &#39;copilot_history&#39;, None),
@@ -1040,8 +1012,6 @@ def set_reserved_names(self, names):
self.copilot_history = interface.history
self.copilot_state = interface.session_state
node_info = json.loads(res.copilot_node_info_json) if res.copilot_node_info_json else {}
async def on_ai_call_remote(active_buffer, question, chunk_callback, merged_node_info):
# Send request to server
request_queue.put(connpy_pb2.InteractRequest(
@@ -1066,9 +1036,9 @@ def set_reserved_names(self, names):
while True:
action, commands, custom_cmd = await interface.run_session(
raw_bytes=bytes(client_buffer_bytes),
cmd_byte_positions=cmd_byte_positions,
node_info=node_info,
on_ai_call=on_ai_call_remote
on_ai_call=on_ai_call_remote,
blocks=blocks
)
if action == &#34;continue&#34;:
@@ -1081,6 +1051,7 @@ def set_reserved_names(self, names):
with copilot_terminal_mode():
action, commands, custom_cmd = asyncio.run(run_remote_copilot())
print(&#34;\033[2m Returning to session...\033[0m&#34;, flush=True)
# Prepare final action for server
action_sent = &#34;cancel&#34;
if action == &#34;send_all&#34; and commands:
@@ -1105,7 +1076,6 @@ def set_reserved_names(self, names):
request_queue = queue.Queue()
client_buffer_bytes = bytearray()
cmd_byte_positions = [(0, None)]
pause_stdin = [False]
wake_r, wake_w = os.pipe()
@@ -1152,8 +1122,6 @@ def set_reserved_names(self, names):
data = os.read(sys.stdin.fileno(), 1024)
if not data:
break
if b&#39;\r&#39; in data or b&#39;\n&#39; in data:
cmd_byte_positions.append((len(client_buffer_bytes), None))
yield connpy_pb2.InteractRequest(stdin_data=data)
except OSError:
break
@@ -1227,14 +1195,11 @@ def set_reserved_names(self, names):
if res.copilot_prompt:
self._handle_remote_copilot(
res, request_queue, response_queue,
client_buffer_bytes, cmd_byte_positions,
client_buffer_bytes,
pause_generator, resume_generator, old_tty
)
continue
if res.copilot_injected_command:
cmd_byte_positions.append((len(client_buffer_bytes), res.copilot_injected_command))
if res.stdout_data:
os.write(sys.stdout.fileno(), res.stdout_data)
client_buffer_bytes.extend(res.stdout_data)
@@ -1256,7 +1221,6 @@ def set_reserved_names(self, names):
params_json = json.dumps(connection_params)
request_queue = queue.Queue()
client_buffer_bytes = bytearray()
cmd_byte_positions = [(0, None)]
pause_stdin = [False]
wake_r, wake_w = os.pipe()
@@ -1304,8 +1268,6 @@ def set_reserved_names(self, names):
data = os.read(sys.stdin.fileno(), 1024)
if not data:
break
if b&#39;\r&#39; in data or b&#39;\n&#39; in data:
cmd_byte_positions.append((len(client_buffer_bytes), None))
yield connpy_pb2.InteractRequest(stdin_data=data)
except OSError:
break
@@ -1378,14 +1340,11 @@ def set_reserved_names(self, names):
if res.copilot_prompt:
self._handle_remote_copilot(
res, request_queue, response_queue,
client_buffer_bytes, cmd_byte_positions,
client_buffer_bytes,
pause_generator, resume_generator, old_tty
)
continue
if res.copilot_injected_command:
cmd_byte_positions.append((len(client_buffer_bytes), res.copilot_injected_command))
if res.stdout_data:
os.write(sys.stdout.fileno(), res.stdout_data)
client_buffer_bytes.extend(res.stdout_data)
@@ -1553,7 +1512,6 @@ def connect_dynamic(self, connection_params, debug=False):
params_json = json.dumps(connection_params)
request_queue = queue.Queue()
client_buffer_bytes = bytearray()
cmd_byte_positions = [(0, None)]
pause_stdin = [False]
wake_r, wake_w = os.pipe()
@@ -1601,8 +1559,6 @@ def connect_dynamic(self, connection_params, debug=False):
data = os.read(sys.stdin.fileno(), 1024)
if not data:
break
if b&#39;\r&#39; in data or b&#39;\n&#39; in data:
cmd_byte_positions.append((len(client_buffer_bytes), None))
yield connpy_pb2.InteractRequest(stdin_data=data)
except OSError:
break
@@ -1675,14 +1631,11 @@ def connect_dynamic(self, connection_params, debug=False):
if res.copilot_prompt:
self._handle_remote_copilot(
res, request_queue, response_queue,
client_buffer_bytes, cmd_byte_positions,
client_buffer_bytes,
pause_generator, resume_generator, old_tty
)
continue
if res.copilot_injected_command:
cmd_byte_positions.append((len(client_buffer_bytes), res.copilot_injected_command))
if res.stdout_data:
os.write(sys.stdout.fileno(), res.stdout_data)
client_buffer_bytes.extend(res.stdout_data)
@@ -1713,7 +1666,6 @@ def connect_node(self, unique_id, sftp=False, debug=False, logger=None):
request_queue = queue.Queue()
client_buffer_bytes = bytearray()
cmd_byte_positions = [(0, None)]
pause_stdin = [False]
wake_r, wake_w = os.pipe()
@@ -1760,8 +1712,6 @@ def connect_node(self, unique_id, sftp=False, debug=False, logger=None):
data = os.read(sys.stdin.fileno(), 1024)
if not data:
break
if b&#39;\r&#39; in data or b&#39;\n&#39; in data:
cmd_byte_positions.append((len(client_buffer_bytes), None))
yield connpy_pb2.InteractRequest(stdin_data=data)
except OSError:
break
@@ -1835,14 +1785,11 @@ def connect_node(self, unique_id, sftp=False, debug=False, logger=None):
if res.copilot_prompt:
self._handle_remote_copilot(
res, request_queue, response_queue,
client_buffer_bytes, cmd_byte_positions,
client_buffer_bytes,
pause_generator, resume_generator, old_tty
)
continue
if res.copilot_injected_command:
cmd_byte_positions.append((len(client_buffer_bytes), res.copilot_injected_command))
if res.stdout_data:
os.write(sys.stdout.fileno(), res.stdout_data)
client_buffer_bytes.extend(res.stdout_data)
docs/connpy/index.html
+151 -69
View File
@@ -737,6 +737,7 @@ class ai:
- COMPLETE MISSIONS: Execute ALL steps of a mission before reporting back.
- DIAGRAM: Use ASCII art or Unicode box-drawing characters directly in your responses to visualize topologies or paths when helpful.
- EVIDENCE: Include &#39;Key Snippets&#39; from tool outputs. Be token-efficient.
- LANGUAGE: You MUST respond in the same language used by the user in their question or instruction.
- NO WANDERING: Do not speculate. If stuck, report attempts.
- SAFETY: When you use &#39;run_commands&#39; with configuration commands, the system automatically prompts the user for confirmation. Just execute - don&#39;t ask permission first.
{architect_instructions}
@@ -754,6 +755,7 @@ class ai:
- ENGINEER CAPABILITIES: Your Engineer can:
* Filter nodes (list_nodes), Run CLI commands (run_commands), Get metadata (get_node_info).
- ANALYSIS: Review technical findings to identify patterns or design failures.
- LANGUAGE: You MUST respond in the same language used by the user in their question or instruction.
- MEMORY: Update long-term facts ONLY when the user explicitly requests it.
CRITICAL - EFFICIENT DELEGATION:
@@ -829,7 +831,6 @@ class ai:
- response: reconstructed ModelResponse (same as non-streaming)
- streamed: True if text was rendered to console during streaming
&#34;&#34;&#34;
from rich.live import Live
stream_resp = completion(model=model, messages=messages, tools=tools, api_key=api_key, stream=True, **kwargs)
@@ -837,7 +838,7 @@ class ai:
full_content = &#34;&#34;
is_streaming_text = False
has_tool_calls = False
live_display = None
header_printed = False
# Determine styling based on current brain
role_label = &#34;Network Architect&#34; if &#34;architect&#34; in label.lower() else &#34;Network Engineer&#34;
@@ -866,7 +867,6 @@ class ai:
if not chunk_callback:
if not is_streaming_text:
# Stop spinner definitively
if status:
try:
status.stop()
@@ -875,35 +875,28 @@ class ai:
# Create a stable, direct Console to bypass _ConsoleProxy recreation bugs
from rich.console import Console as RichConsole
from .printer import connpy_theme, get_original_stdout
from rich.rule import Rule
from .printer import connpy_theme, get_original_stdout, IncrementalMarkdownParser
stable_console = RichConsole(theme=connpy_theme, file=get_original_stdout())
live_display = Live(
Panel(Markdown(full_content), title=title, border_style=border, expand=False),
console=stable_console,
refresh_per_second=8,
transient=False
)
live_display.start()
stable_console.print(Rule(f&#34;[bold {border}]{title}[/bold {border}]&#34;, style=border))
header_printed = True
md_parser = IncrementalMarkdownParser(console=stable_console)
is_streaming_text = True
else:
live_display.update(
Panel(Markdown(full_content), title=title, border_style=border, expand=False)
)
md_parser.feed(delta.content)
except Exception as e:
if not chunks:
raise
finally:
if live_display:
# Render final state with complete content
if header_printed:
try:
live_display.update(
Panel(Markdown(full_content), title=title, border_style=border, expand=False)
)
except Exception:
pass
try:
live_display.stop()
md_parser.flush()
from rich.console import Console as RichConsole
from rich.rule import Rule
from .printer import connpy_theme, get_original_stdout
stable_console = RichConsole(theme=connpy_theme, file=get_original_stdout())
stable_console.print(Rule(style=border))
except Exception:
pass
@@ -1852,11 +1845,13 @@ class ai:
if persona == &#34;architect&#34;:
system_prompt = f&#34;&#34;&#34;Role: NETWORK ARCHITECT. You act as a senior strategic advisor during a live SSH session.
Rules:
1. Answer the user&#39;s question directly based on the Terminal Context.
2. Focus on the &#34;why&#34; and &#34;how&#34;. Analyze topologies, design patterns, and validate configurations.
3. Do NOT provide commands to execute unless specifically requested. Instead, explain the consequences and best practices.
4. Keep your guide concise and authoritative.
5. You MUST output your response in the following strict format:
1. MANDATORY: You MUST respond in the same language used by the user in their question.
2. Answer the user&#39;s question directly and EXCLUSIVELY based on the Terminal Context.
3. NO HALLUCINATIONS. The Terminal Context is a live buffer. If it contains only a shell prompt (like &#39;iol#&#39; or &#39;admin@vrouter&gt;&#39;) and no command output, it means YOU DON&#39;T HAVE DATA. In this case, YOU MUST NOT invent any information.
4. Focus on the &#34;why&#34; and &#34;how&#34;. Analyze topologies, design patterns, and validate configurations.
5. Do NOT provide commands to execute unless specifically requested. Instead, explain the consequences and best practices.
6. Keep your guide concise and authoritative.
7. You MUST output your response in the following strict format:
&lt;guide&gt;
Your brief tactical guide in markdown.
&lt;/guide&gt;
@@ -1865,7 +1860,7 @@ Your brief tactical guide in markdown.
&lt;risk&gt;
low
&lt;/risk&gt;
6. Risk level is usually &#34;low&#34; for read-only/no commands.
8. Risk level is usually &#34;low&#34; for read-only/no commands.
Terminal Context:
{terminal_buffer}
@@ -1875,11 +1870,13 @@ Node: {node_name}&#34;&#34;&#34;
else:
system_prompt = f&#34;&#34;&#34;Role: TERMINAL COPILOT. You assist a network engineer during a live SSH session.
Rules:
1. Answer the user&#39;s question directly based on the Terminal Context.
2. If the user asks you to analyze, parse, or extract data from the Terminal Context, DO IT directly in the &lt;guide&gt; section (you can use markdown tables or lists). Do NOT just give them a command to do it themselves.
3. If the user wants to execute an action, provide the required CLI commands inside a &lt;commands&gt; block, one command per line. If no commands are needed, leave it empty or omit the block.
4. ULTRA-CONCISE. Keep your guide to the point.
5. You MUST output your response in the following strict format:
1. MANDATORY: You MUST respond in the same language used by the user in their question.
2. EXTREMELY IMPORTANT: Answer EXCLUSIVELY based on the provided Terminal Context.
3. NO HALLUCINATIONS. The Terminal Context is a live buffer. If it contains only a shell prompt (like &#39;iol#&#39; or &#39;admin@vrouter&gt;&#39;) and no command output, it means YOU DON&#39;T HAVE DATA. In this case, YOU MUST NOT invent any information. Instead, explicitly state that you don&#39;t see the data and offer the correct CLI commands to retrieve it.
4. If the user asks you to analyze, parse, or extract data from the Terminal Context, DO IT directly in the &lt;guide&gt; section (you can use markdown tables or lists). Do NOT just give them a command to do it themselves.
5. If the user wants to execute an action, provide the required CLI commands inside a &lt;commands&gt; block, one command per line. If no commands are needed, leave it empty or omit the block.
6. ULTRA-CONCISE. Keep your guide to the point.
7. You MUST output your response in the following strict format:
&lt;guide&gt;
Your brief tactical guide in markdown. 3-4 sentences max.
&lt;/guide&gt;
@@ -1890,7 +1887,7 @@ command 2
&lt;risk&gt;
low, high, or destructive
&lt;/risk&gt;
6. Risk level: &#34;low&#34; for read-only/no commands, &#34;high&#34; for config changes, &#34;destructive&#34; for potentially dangerous ops.
8. Risk level: &#34;low&#34; for read-only/no commands, &#34;high&#34; for config changes, &#34;destructive&#34; for potentially dangerous ops.
Terminal Context:
{terminal_buffer}
@@ -1932,6 +1929,7 @@ Node: {node_name}&#34;&#34;&#34;
try:
while iteration &lt; max_iterations:
iteration += 1
response = await acompletion(
model=current_model,
messages=messages,
@@ -2177,11 +2175,13 @@ def engineer_system_prompt(self):
if persona == &#34;architect&#34;:
system_prompt = f&#34;&#34;&#34;Role: NETWORK ARCHITECT. You act as a senior strategic advisor during a live SSH session.
Rules:
1. Answer the user&#39;s question directly based on the Terminal Context.
2. Focus on the &#34;why&#34; and &#34;how&#34;. Analyze topologies, design patterns, and validate configurations.
3. Do NOT provide commands to execute unless specifically requested. Instead, explain the consequences and best practices.
4. Keep your guide concise and authoritative.
5. You MUST output your response in the following strict format:
1. MANDATORY: You MUST respond in the same language used by the user in their question.
2. Answer the user&#39;s question directly and EXCLUSIVELY based on the Terminal Context.
3. NO HALLUCINATIONS. The Terminal Context is a live buffer. If it contains only a shell prompt (like &#39;iol#&#39; or &#39;admin@vrouter&gt;&#39;) and no command output, it means YOU DON&#39;T HAVE DATA. In this case, YOU MUST NOT invent any information.
4. Focus on the &#34;why&#34; and &#34;how&#34;. Analyze topologies, design patterns, and validate configurations.
5. Do NOT provide commands to execute unless specifically requested. Instead, explain the consequences and best practices.
6. Keep your guide concise and authoritative.
7. You MUST output your response in the following strict format:
&lt;guide&gt;
Your brief tactical guide in markdown.
&lt;/guide&gt;
@@ -2190,7 +2190,7 @@ Your brief tactical guide in markdown.
&lt;risk&gt;
low
&lt;/risk&gt;
6. Risk level is usually &#34;low&#34; for read-only/no commands.
8. Risk level is usually &#34;low&#34; for read-only/no commands.
Terminal Context:
{terminal_buffer}
@@ -2200,11 +2200,13 @@ Node: {node_name}&#34;&#34;&#34;
else:
system_prompt = f&#34;&#34;&#34;Role: TERMINAL COPILOT. You assist a network engineer during a live SSH session.
Rules:
1. Answer the user&#39;s question directly based on the Terminal Context.
2. If the user asks you to analyze, parse, or extract data from the Terminal Context, DO IT directly in the &lt;guide&gt; section (you can use markdown tables or lists). Do NOT just give them a command to do it themselves.
3. If the user wants to execute an action, provide the required CLI commands inside a &lt;commands&gt; block, one command per line. If no commands are needed, leave it empty or omit the block.
4. ULTRA-CONCISE. Keep your guide to the point.
5. You MUST output your response in the following strict format:
1. MANDATORY: You MUST respond in the same language used by the user in their question.
2. EXTREMELY IMPORTANT: Answer EXCLUSIVELY based on the provided Terminal Context.
3. NO HALLUCINATIONS. The Terminal Context is a live buffer. If it contains only a shell prompt (like &#39;iol#&#39; or &#39;admin@vrouter&gt;&#39;) and no command output, it means YOU DON&#39;T HAVE DATA. In this case, YOU MUST NOT invent any information. Instead, explicitly state that you don&#39;t see the data and offer the correct CLI commands to retrieve it.
4. If the user asks you to analyze, parse, or extract data from the Terminal Context, DO IT directly in the &lt;guide&gt; section (you can use markdown tables or lists). Do NOT just give them a command to do it themselves.
5. If the user wants to execute an action, provide the required CLI commands inside a &lt;commands&gt; block, one command per line. If no commands are needed, leave it empty or omit the block.
6. ULTRA-CONCISE. Keep your guide to the point.
7. You MUST output your response in the following strict format:
&lt;guide&gt;
Your brief tactical guide in markdown. 3-4 sentences max.
&lt;/guide&gt;
@@ -2215,7 +2217,7 @@ command 2
&lt;risk&gt;
low, high, or destructive
&lt;/risk&gt;
6. Risk level: &#34;low&#34; for read-only/no commands, &#34;high&#34; for config changes, &#34;destructive&#34; for potentially dangerous ops.
8. Risk level: &#34;low&#34; for read-only/no commands, &#34;high&#34; for config changes, &#34;destructive&#34; for potentially dangerous ops.
Terminal Context:
{terminal_buffer}
@@ -2257,6 +2259,7 @@ Node: {node_name}&#34;&#34;&#34;
try:
while iteration &lt; max_iterations:
iteration += 1
response = await acompletion(
model=current_model,
messages=messages,
@@ -4119,6 +4122,7 @@ class node:
self.output = &#34;&#34;
self.status = 1
self.result = {}
self.cmd_byte_positions = [(0, None)]
@MethodHook
def _passtx(self, passwords, *, keyfile=None):
@@ -4293,9 +4297,9 @@ class node:
loop = asyncio.get_running_loop()
child_reader_queue = asyncio.Queue()
# Track command byte positions for copilot context navigation
# Reset and track command byte positions for copilot context navigation
# Each entry is (byte_position, command_text_or_None)
cmd_byte_positions = [(0, None)]
self.cmd_byte_positions = [(self.mylog.tell() if hasattr(self, &#39;mylog&#39;) else 0, None)]
def _child_read_ready():
try:
@@ -4336,7 +4340,7 @@ class node:
node_info[&#34;prompt&#34;] = to_str(self.tags.get(&#34;prompt&#34;, r&#39;&gt;$|#$|\$$|&gt;.$|#.$|\$.$&#39;))
# Invoke copilot (async callback handles UI)
await copilot_handler(self.mylog.getvalue(), node_info, local_stream, child_fd, cmd_byte_positions)
await copilot_handler(self.mylog.getvalue(), node_info, local_stream, child_fd, self.cmd_byte_positions)
continue
# Remove any stray \x00 bytes and forward normally
@@ -4344,10 +4348,9 @@ class node:
if clean_data:
# Track command boundaries when user hits Enter
if hasattr(self, &#39;mylog&#39;) and (b&#39;\r&#39; in clean_data or b&#39;\n&#39; in clean_data):
cmd_byte_positions.append((self.mylog.tell(), None))
self.cmd_byte_positions.append((self.mylog.tell(), None))
try:
os.write(child_fd, clean_data)
try: os.write(child_fd, clean_data)
except OSError:
break
self.lastinput = time()
@@ -4469,6 +4472,45 @@ class node:
finally:
local_stream.teardown()
@MethodHook
async def inject_commands(self, commands, child_fd, on_inject=None):
&#34;&#34;&#34;
Inject a list of commands into the node&#39;s PTY.
Handles screen_length_command, history tracking and delays.
&#34;&#34;&#34;
if not commands:
return
# 0. Clear line
os.write(child_fd, b&#39;\x15&#39;)
await asyncio.sleep(0.1)
# 1. Prepare list (prepend screen_length if exists)
slc = self.tags.get(&#34;screen_length_command&#34;) if hasattr(self, &#39;tags&#39;) and isinstance(self.tags, dict) else None
to_send = list(commands)
if slc and slc not in to_send: # avoid duplicates if already there
to_send.insert(0, slc)
# 2. Inject one by one
for cmd in to_send:
# Register in node&#39;s official history (SKIP if it&#39;s the administrative screen length command)
if cmd != slc and hasattr(self, &#39;cmd_byte_positions&#39;) and self.cmd_byte_positions is not None:
log_pos = self.mylog.tell() if hasattr(self, &#39;mylog&#39;) else 0
self.cmd_byte_positions.append((log_pos, cmd))
# Write physically to PTY
os.write(child_fd, (cmd + &#34;\n&#34;).encode())
# Notify (e.g., for gRPC or logs) - SKIP for administrative SLC
if on_inject and cmd != slc:
if asyncio.iscoroutinefunction(on_inject):
await on_inject(cmd)
else:
on_inject(cmd)
# Delay to avoid overwhelming the router
await asyncio.sleep(0.8)
@MethodHook
def interact(self, debug=False, logger=None):
@@ -4550,7 +4592,7 @@ class node:
while True:
action, commands, custom_cmd = await interface.run_session(
raw_bytes=raw_bytes,
cmd_byte_positions=cmd_byte_positions,
cmd_byte_positions=self.cmd_byte_positions,
node_info=node_info,
on_ai_call=on_ai_call
)
@@ -4558,6 +4600,7 @@ class node:
continue
break
finally:
print(&#34;\033[2m Returning to session...\033[0m&#34;, flush=True)
# Reiniciar el lector de la terminal para volver al modo interactivo SSH/Telnet
if hasattr(stream, &#39;start_reading&#39;):
stream.start_reading()
@@ -4566,20 +4609,7 @@ class node:
if action in (&#34;send_all&#34;, &#34;custom&#34;):
cmds_to_send = commands if action == &#34;send_all&#34; else custom_cmd
if cmds_to_send:
os.write(child_fd, b&#39;\x15&#39;) # Ctrl+U
await asyncio.sleep(0.1)
# Prepend screen length command to avoid pagination
if &#34;screen_length_command&#34; in self.tags:
cmds_to_send.insert(0, self.tags[&#34;screen_length_command&#34;])
for cmd in cmds_to_send:
if cmd_byte_positions is not None:
cmd_byte_positions.append((self.mylog.tell(), cmd))
os.write(child_fd, (cmd + &#34;\n&#34;).encode())
await asyncio.sleep(0.8)
await self.inject_commands(cmds_to_send, child_fd)
else:
os.write(child_fd, b&#39;\x15\r&#39;)
except Exception as e:
@@ -5073,6 +5103,57 @@ class node:
</code></pre></div>
<h3>Methods</h3>
<dl>
<dt id="connpy.node.inject_commands"><code class="name flex">
<span>async def <span class="ident">inject_commands</span></span>(<span>self, commands, child_fd, on_inject=None)</span>
</code></dt>
<dd>
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">@MethodHook
async def inject_commands(self, commands, child_fd, on_inject=None):
&#34;&#34;&#34;
Inject a list of commands into the node&#39;s PTY.
Handles screen_length_command, history tracking and delays.
&#34;&#34;&#34;
if not commands:
return
# 0. Clear line
os.write(child_fd, b&#39;\x15&#39;)
await asyncio.sleep(0.1)
# 1. Prepare list (prepend screen_length if exists)
slc = self.tags.get(&#34;screen_length_command&#34;) if hasattr(self, &#39;tags&#39;) and isinstance(self.tags, dict) else None
to_send = list(commands)
if slc and slc not in to_send: # avoid duplicates if already there
to_send.insert(0, slc)
# 2. Inject one by one
for cmd in to_send:
# Register in node&#39;s official history (SKIP if it&#39;s the administrative screen length command)
if cmd != slc and hasattr(self, &#39;cmd_byte_positions&#39;) and self.cmd_byte_positions is not None:
log_pos = self.mylog.tell() if hasattr(self, &#39;mylog&#39;) else 0
self.cmd_byte_positions.append((log_pos, cmd))
# Write physically to PTY
os.write(child_fd, (cmd + &#34;\n&#34;).encode())
# Notify (e.g., for gRPC or logs) - SKIP for administrative SLC
if on_inject and cmd != slc:
if asyncio.iscoroutinefunction(on_inject):
await on_inject(cmd)
else:
on_inject(cmd)
# Delay to avoid overwhelming the router
await asyncio.sleep(0.8)</code></pre>
</details>
<div class="desc"><p>Inject a list of commands into the node's PTY.
Handles screen_length_command, history tracking and delays.</p></div>
</dd>
<dt id="connpy.node.interact"><code class="name flex">
<span>def <span class="ident">interact</span></span>(<span>self, debug=False, logger=None)</span>
</code></dt>
@@ -6189,6 +6270,7 @@ def test(self, commands, expected, vars = None,*, folder = None, prompt = None,
<li>
<h4><code><a title="connpy.node" href="#connpy.node">node</a></code></h4>
<ul class="">
<li><code><a title="connpy.node.inject_commands" href="#connpy.node.inject_commands">inject_commands</a></code></li>
<li><code><a title="connpy.node.interact" href="#connpy.node.interact">interact</a></code></li>
<li><code><a title="connpy.node.run" href="#connpy.node.run">run</a></code></li>
<li><code><a title="connpy.node.test" href="#connpy.node.test">test</a></code></li>
docs/connpy/services/ai_service.html
+115 -47
View File
@@ -58,10 +58,10 @@ el.replaceWith(d);
<pre><code class="python">class AIService(BaseService):
&#34;&#34;&#34;Business logic for interacting with AI agents and LLM configurations.&#34;&#34;&#34;
def build_context_blocks(self, raw_bytes: bytes, cmd_byte_positions: list, node_info: dict) -&gt; list:
def build_context_blocks(self, raw_bytes: bytes, cmd_byte_positions: list, node_info: dict, last_line: str = &#34;&#34;) -&gt; list:
&#34;&#34;&#34;Identifies command blocks in the terminal history.&#34;&#34;&#34;
blocks = []
if not (cmd_byte_positions and len(cmd_byte_positions) &gt;= 2 and raw_bytes):
if not raw_bytes:
return blocks
default_prompt = r&#39;&gt;$|#$|\$$|&gt;.$|#.$|\$.$&#39;
@@ -72,29 +72,63 @@ el.replaceWith(d);
except Exception:
prompt_re = re.compile(re.sub(r&#39;(?&lt;!\\)\$&#39;, &#39;&#39;, default_prompt))
for i in range(1, len(cmd_byte_positions)):
pos, known_cmd = cmd_byte_positions[i]
prev_pos = cmd_byte_positions[i-1][0]
parsed_positions = []
if cmd_byte_positions and len(cmd_byte_positions) &gt;= 1:
for i in range(1, len(cmd_byte_positions)):
pos, known_cmd = cmd_byte_positions[i]
prev_pos = cmd_byte_positions[i-1][0]
if known_cmd:
prev_chunk = raw_bytes[prev_pos:pos]
prev_cleaned = log_cleaner(prev_chunk.decode(errors=&#39;replace&#39;))
prev_lines = [l for l in prev_cleaned.split(&#39;\n&#39;) if l.strip()]
prompt_text = prev_lines[-1].strip() if prev_lines else &#34;&#34;
preview = f&#34;{prompt_text}{known_cmd}&#34; if prompt_text else known_cmd
blocks.append((pos, preview[:80]))
else:
chunk = raw_bytes[prev_pos:pos]
cleaned = log_cleaner(chunk.decode(errors=&#39;replace&#39;))
lines = [l for l in cleaned.split(&#39;\n&#39;) if l.strip()]
preview = lines[-1].strip() if lines else &#34;&#34;
if known_cmd:
prev_chunk = raw_bytes[prev_pos:pos]
prev_cleaned = log_cleaner(prev_chunk.decode(errors=&#39;replace&#39;))
prev_lines = [l for l in prev_cleaned.split(&#39;\n&#39;) if l.strip()]
prompt_text = prev_lines[-1].strip() if prev_lines else &#34;&#34;
preview = f&#34;{prompt_text}{known_cmd}&#34; if prompt_text else known_cmd
parsed_positions.append({&#34;pos&#34;: pos, &#34;type&#34;: &#34;VALID_CMD&#34;, &#34;preview&#34;: preview[:80]})
else:
chunk = raw_bytes[prev_pos:pos]
cleaned = log_cleaner(chunk.decode(errors=&#39;replace&#39;))
lines = [l for l in cleaned.split(&#39;\n&#39;) if l.strip()]
preview = lines[-1].strip() if lines else &#34;&#34;
if preview:
match = prompt_re.search(preview)
if match:
cmd_text = preview[match.end():].strip()
if cmd_text:
parsed_positions.append({&#34;pos&#34;: pos, &#34;type&#34;: &#34;VALID_CMD&#34;, &#34;preview&#34;: preview[:80]})
else:
parsed_positions.append({&#34;pos&#34;: pos, &#34;type&#34;: &#34;EMPTY_PROMPT&#34;, &#34;preview&#34;: &#34;&#34;})
else:
parsed_positions.append({&#34;pos&#34;: pos, &#34;type&#34;: &#34;SCROLLING&#34;, &#34;preview&#34;: &#34;&#34;})
else:
parsed_positions.append({&#34;pos&#34;: pos, &#34;type&#34;: &#34;SCROLLING&#34;, &#34;preview&#34;: &#34;&#34;})
last_newline = raw_bytes.rfind(b&#39;\n&#39;)
current_prompt_pos = last_newline + 1 if last_newline != -1 else 0
current_end = len(raw_bytes)
for i, item in enumerate(parsed_positions):
if item[&#34;type&#34;] == &#34;VALID_CMD&#34;:
start_pos = item[&#34;pos&#34;]
preview = item[&#34;preview&#34;]
# Find the end position: next VALID_CMD or EMPTY_PROMPT
end_pos = current_prompt_pos
for j in range(i + 1, len(parsed_positions)):
next_item = parsed_positions[j]
if next_item[&#34;type&#34;] in (&#34;VALID_CMD&#34;, &#34;EMPTY_PROMPT&#34;):
end_pos = next_item[&#34;pos&#34;]
break
blocks.append((start_pos, end_pos, preview))
# Always ensure there is a final block representing the current prompt
if not blocks:
blocks.append((current_prompt_pos, current_end, last_line[:80] if last_line else &#34;CURRENT CONTEXT&#34;))
elif blocks[-1][0] &lt; current_prompt_pos:
blocks.append((current_prompt_pos, current_end, last_line[:80] if last_line else &#34;CURRENT CONTEXT&#34;))
if preview:
match = prompt_re.search(preview)
if match:
cmd_text = preview[match.end():].strip()
if cmd_text:
blocks.append((pos, preview[:80]))
return blocks
def process_copilot_input(self, input_text: str, session_state: dict) -&gt; dict:
@@ -317,17 +351,17 @@ el.replaceWith(d);
<div class="desc"><p>Ask the AI copilot for terminal assistance.</p></div>
</dd>
<dt id="connpy.services.ai_service.AIService.build_context_blocks"><code class="name flex">
<span>def <span class="ident">build_context_blocks</span></span>(<span>self, raw_bytes: bytes, cmd_byte_positions: list, node_info: dict) > list</span>
<span>def <span class="ident">build_context_blocks</span></span>(<span>self,<br>raw_bytes: bytes,<br>cmd_byte_positions: list,<br>node_info: dict,<br>last_line: str = '') > list</span>
</code></dt>
<dd>
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">def build_context_blocks(self, raw_bytes: bytes, cmd_byte_positions: list, node_info: dict) -&gt; list:
<pre><code class="python">def build_context_blocks(self, raw_bytes: bytes, cmd_byte_positions: list, node_info: dict, last_line: str = &#34;&#34;) -&gt; list:
&#34;&#34;&#34;Identifies command blocks in the terminal history.&#34;&#34;&#34;
blocks = []
if not (cmd_byte_positions and len(cmd_byte_positions) &gt;= 2 and raw_bytes):
if not raw_bytes:
return blocks
default_prompt = r&#39;&gt;$|#$|\$$|&gt;.$|#.$|\$.$&#39;
@@ -338,29 +372,63 @@ el.replaceWith(d);
except Exception:
prompt_re = re.compile(re.sub(r&#39;(?&lt;!\\)\$&#39;, &#39;&#39;, default_prompt))
for i in range(1, len(cmd_byte_positions)):
pos, known_cmd = cmd_byte_positions[i]
prev_pos = cmd_byte_positions[i-1][0]
parsed_positions = []
if cmd_byte_positions and len(cmd_byte_positions) &gt;= 1:
for i in range(1, len(cmd_byte_positions)):
pos, known_cmd = cmd_byte_positions[i]
prev_pos = cmd_byte_positions[i-1][0]
if known_cmd:
prev_chunk = raw_bytes[prev_pos:pos]
prev_cleaned = log_cleaner(prev_chunk.decode(errors=&#39;replace&#39;))
prev_lines = [l for l in prev_cleaned.split(&#39;\n&#39;) if l.strip()]
prompt_text = prev_lines[-1].strip() if prev_lines else &#34;&#34;
preview = f&#34;{prompt_text}{known_cmd}&#34; if prompt_text else known_cmd
blocks.append((pos, preview[:80]))
else:
chunk = raw_bytes[prev_pos:pos]
cleaned = log_cleaner(chunk.decode(errors=&#39;replace&#39;))
lines = [l for l in cleaned.split(&#39;\n&#39;) if l.strip()]
preview = lines[-1].strip() if lines else &#34;&#34;
if known_cmd:
prev_chunk = raw_bytes[prev_pos:pos]
prev_cleaned = log_cleaner(prev_chunk.decode(errors=&#39;replace&#39;))
prev_lines = [l for l in prev_cleaned.split(&#39;\n&#39;) if l.strip()]
prompt_text = prev_lines[-1].strip() if prev_lines else &#34;&#34;
preview = f&#34;{prompt_text}{known_cmd}&#34; if prompt_text else known_cmd
parsed_positions.append({&#34;pos&#34;: pos, &#34;type&#34;: &#34;VALID_CMD&#34;, &#34;preview&#34;: preview[:80]})
else:
chunk = raw_bytes[prev_pos:pos]
cleaned = log_cleaner(chunk.decode(errors=&#39;replace&#39;))
lines = [l for l in cleaned.split(&#39;\n&#39;) if l.strip()]
preview = lines[-1].strip() if lines else &#34;&#34;
if preview:
match = prompt_re.search(preview)
if match:
cmd_text = preview[match.end():].strip()
if cmd_text:
parsed_positions.append({&#34;pos&#34;: pos, &#34;type&#34;: &#34;VALID_CMD&#34;, &#34;preview&#34;: preview[:80]})
else:
parsed_positions.append({&#34;pos&#34;: pos, &#34;type&#34;: &#34;EMPTY_PROMPT&#34;, &#34;preview&#34;: &#34;&#34;})
else:
parsed_positions.append({&#34;pos&#34;: pos, &#34;type&#34;: &#34;SCROLLING&#34;, &#34;preview&#34;: &#34;&#34;})
else:
parsed_positions.append({&#34;pos&#34;: pos, &#34;type&#34;: &#34;SCROLLING&#34;, &#34;preview&#34;: &#34;&#34;})
last_newline = raw_bytes.rfind(b&#39;\n&#39;)
current_prompt_pos = last_newline + 1 if last_newline != -1 else 0
current_end = len(raw_bytes)
for i, item in enumerate(parsed_positions):
if item[&#34;type&#34;] == &#34;VALID_CMD&#34;:
start_pos = item[&#34;pos&#34;]
preview = item[&#34;preview&#34;]
# Find the end position: next VALID_CMD or EMPTY_PROMPT
end_pos = current_prompt_pos
for j in range(i + 1, len(parsed_positions)):
next_item = parsed_positions[j]
if next_item[&#34;type&#34;] in (&#34;VALID_CMD&#34;, &#34;EMPTY_PROMPT&#34;):
end_pos = next_item[&#34;pos&#34;]
break
blocks.append((start_pos, end_pos, preview))
# Always ensure there is a final block representing the current prompt
if not blocks:
blocks.append((current_prompt_pos, current_end, last_line[:80] if last_line else &#34;CURRENT CONTEXT&#34;))
elif blocks[-1][0] &lt; current_prompt_pos:
blocks.append((current_prompt_pos, current_end, last_line[:80] if last_line else &#34;CURRENT CONTEXT&#34;))
if preview:
match = prompt_re.search(preview)
if match:
cmd_text = preview[match.end():].strip()
if cmd_text:
blocks.append((pos, preview[:80]))
return blocks</code></pre>
</details>
<div class="desc"><p>Identifies command blocks in the terminal history.</p></div>
docs/connpy/services/index.html
+115 -47
View File
@@ -113,10 +113,10 @@ el.replaceWith(d);
<pre><code class="python">class AIService(BaseService):
&#34;&#34;&#34;Business logic for interacting with AI agents and LLM configurations.&#34;&#34;&#34;
def build_context_blocks(self, raw_bytes: bytes, cmd_byte_positions: list, node_info: dict) -&gt; list:
def build_context_blocks(self, raw_bytes: bytes, cmd_byte_positions: list, node_info: dict, last_line: str = &#34;&#34;) -&gt; list:
&#34;&#34;&#34;Identifies command blocks in the terminal history.&#34;&#34;&#34;
blocks = []
if not (cmd_byte_positions and len(cmd_byte_positions) &gt;= 2 and raw_bytes):
if not raw_bytes:
return blocks
default_prompt = r&#39;&gt;$|#$|\$$|&gt;.$|#.$|\$.$&#39;
@@ -127,29 +127,63 @@ el.replaceWith(d);
except Exception:
prompt_re = re.compile(re.sub(r&#39;(?&lt;!\\)\$&#39;, &#39;&#39;, default_prompt))
for i in range(1, len(cmd_byte_positions)):
pos, known_cmd = cmd_byte_positions[i]
prev_pos = cmd_byte_positions[i-1][0]
parsed_positions = []
if cmd_byte_positions and len(cmd_byte_positions) &gt;= 1:
for i in range(1, len(cmd_byte_positions)):
pos, known_cmd = cmd_byte_positions[i]
prev_pos = cmd_byte_positions[i-1][0]
if known_cmd:
prev_chunk = raw_bytes[prev_pos:pos]
prev_cleaned = log_cleaner(prev_chunk.decode(errors=&#39;replace&#39;))
prev_lines = [l for l in prev_cleaned.split(&#39;\n&#39;) if l.strip()]
prompt_text = prev_lines[-1].strip() if prev_lines else &#34;&#34;
preview = f&#34;{prompt_text}{known_cmd}&#34; if prompt_text else known_cmd
blocks.append((pos, preview[:80]))
else:
chunk = raw_bytes[prev_pos:pos]
cleaned = log_cleaner(chunk.decode(errors=&#39;replace&#39;))
lines = [l for l in cleaned.split(&#39;\n&#39;) if l.strip()]
preview = lines[-1].strip() if lines else &#34;&#34;
if known_cmd:
prev_chunk = raw_bytes[prev_pos:pos]
prev_cleaned = log_cleaner(prev_chunk.decode(errors=&#39;replace&#39;))
prev_lines = [l for l in prev_cleaned.split(&#39;\n&#39;) if l.strip()]
prompt_text = prev_lines[-1].strip() if prev_lines else &#34;&#34;
preview = f&#34;{prompt_text}{known_cmd}&#34; if prompt_text else known_cmd
parsed_positions.append({&#34;pos&#34;: pos, &#34;type&#34;: &#34;VALID_CMD&#34;, &#34;preview&#34;: preview[:80]})
else:
chunk = raw_bytes[prev_pos:pos]
cleaned = log_cleaner(chunk.decode(errors=&#39;replace&#39;))
lines = [l for l in cleaned.split(&#39;\n&#39;) if l.strip()]
preview = lines[-1].strip() if lines else &#34;&#34;
if preview:
match = prompt_re.search(preview)
if match:
cmd_text = preview[match.end():].strip()
if cmd_text:
parsed_positions.append({&#34;pos&#34;: pos, &#34;type&#34;: &#34;VALID_CMD&#34;, &#34;preview&#34;: preview[:80]})
else:
parsed_positions.append({&#34;pos&#34;: pos, &#34;type&#34;: &#34;EMPTY_PROMPT&#34;, &#34;preview&#34;: &#34;&#34;})
else:
parsed_positions.append({&#34;pos&#34;: pos, &#34;type&#34;: &#34;SCROLLING&#34;, &#34;preview&#34;: &#34;&#34;})
else:
parsed_positions.append({&#34;pos&#34;: pos, &#34;type&#34;: &#34;SCROLLING&#34;, &#34;preview&#34;: &#34;&#34;})
last_newline = raw_bytes.rfind(b&#39;\n&#39;)
current_prompt_pos = last_newline + 1 if last_newline != -1 else 0
current_end = len(raw_bytes)
for i, item in enumerate(parsed_positions):
if item[&#34;type&#34;] == &#34;VALID_CMD&#34;:
start_pos = item[&#34;pos&#34;]
preview = item[&#34;preview&#34;]
# Find the end position: next VALID_CMD or EMPTY_PROMPT
end_pos = current_prompt_pos
for j in range(i + 1, len(parsed_positions)):
next_item = parsed_positions[j]
if next_item[&#34;type&#34;] in (&#34;VALID_CMD&#34;, &#34;EMPTY_PROMPT&#34;):
end_pos = next_item[&#34;pos&#34;]
break
blocks.append((start_pos, end_pos, preview))
# Always ensure there is a final block representing the current prompt
if not blocks:
blocks.append((current_prompt_pos, current_end, last_line[:80] if last_line else &#34;CURRENT CONTEXT&#34;))
elif blocks[-1][0] &lt; current_prompt_pos:
blocks.append((current_prompt_pos, current_end, last_line[:80] if last_line else &#34;CURRENT CONTEXT&#34;))
if preview:
match = prompt_re.search(preview)
if match:
cmd_text = preview[match.end():].strip()
if cmd_text:
blocks.append((pos, preview[:80]))
return blocks
def process_copilot_input(self, input_text: str, session_state: dict) -&gt; dict:
@@ -372,17 +406,17 @@ el.replaceWith(d);
<div class="desc"><p>Ask the AI copilot for terminal assistance.</p></div>
</dd>
<dt id="connpy.services.AIService.build_context_blocks"><code class="name flex">
<span>def <span class="ident">build_context_blocks</span></span>(<span>self, raw_bytes: bytes, cmd_byte_positions: list, node_info: dict) > list</span>
<span>def <span class="ident">build_context_blocks</span></span>(<span>self,<br>raw_bytes: bytes,<br>cmd_byte_positions: list,<br>node_info: dict,<br>last_line: str = '') > list</span>
</code></dt>
<dd>
<details class="source">
<summary>
<span>Expand source code</span>
</summary>
<pre><code class="python">def build_context_blocks(self, raw_bytes: bytes, cmd_byte_positions: list, node_info: dict) -&gt; list:
<pre><code class="python">def build_context_blocks(self, raw_bytes: bytes, cmd_byte_positions: list, node_info: dict, last_line: str = &#34;&#34;) -&gt; list:
&#34;&#34;&#34;Identifies command blocks in the terminal history.&#34;&#34;&#34;
blocks = []
if not (cmd_byte_positions and len(cmd_byte_positions) &gt;= 2 and raw_bytes):
if not raw_bytes:
return blocks
default_prompt = r&#39;&gt;$|#$|\$$|&gt;.$|#.$|\$.$&#39;
@@ -393,29 +427,63 @@ el.replaceWith(d);
except Exception:
prompt_re = re.compile(re.sub(r&#39;(?&lt;!\\)\$&#39;, &#39;&#39;, default_prompt))
for i in range(1, len(cmd_byte_positions)):
pos, known_cmd = cmd_byte_positions[i]
prev_pos = cmd_byte_positions[i-1][0]
parsed_positions = []
if cmd_byte_positions and len(cmd_byte_positions) &gt;= 1:
for i in range(1, len(cmd_byte_positions)):
pos, known_cmd = cmd_byte_positions[i]
prev_pos = cmd_byte_positions[i-1][0]
if known_cmd:
prev_chunk = raw_bytes[prev_pos:pos]
prev_cleaned = log_cleaner(prev_chunk.decode(errors=&#39;replace&#39;))
prev_lines = [l for l in prev_cleaned.split(&#39;\n&#39;) if l.strip()]
prompt_text = prev_lines[-1].strip() if prev_lines else &#34;&#34;
preview = f&#34;{prompt_text}{known_cmd}&#34; if prompt_text else known_cmd
blocks.append((pos, preview[:80]))
else:
chunk = raw_bytes[prev_pos:pos]
cleaned = log_cleaner(chunk.decode(errors=&#39;replace&#39;))
lines = [l for l in cleaned.split(&#39;\n&#39;) if l.strip()]
preview = lines[-1].strip() if lines else &#34;&#34;
if known_cmd:
prev_chunk = raw_bytes[prev_pos:pos]
prev_cleaned = log_cleaner(prev_chunk.decode(errors=&#39;replace&#39;))
prev_lines = [l for l in prev_cleaned.split(&#39;\n&#39;) if l.strip()]
prompt_text = prev_lines[-1].strip() if prev_lines else &#34;&#34;
preview = f&#34;{prompt_text}{known_cmd}&#34; if prompt_text else known_cmd
parsed_positions.append({&#34;pos&#34;: pos, &#34;type&#34;: &#34;VALID_CMD&#34;, &#34;preview&#34;: preview[:80]})
else:
chunk = raw_bytes[prev_pos:pos]
cleaned = log_cleaner(chunk.decode(errors=&#39;replace&#39;))
lines = [l for l in cleaned.split(&#39;\n&#39;) if l.strip()]
preview = lines[-1].strip() if lines else &#34;&#34;
if preview:
match = prompt_re.search(preview)
if match:
cmd_text = preview[match.end():].strip()
if cmd_text:
parsed_positions.append({&#34;pos&#34;: pos, &#34;type&#34;: &#34;VALID_CMD&#34;, &#34;preview&#34;: preview[:80]})
else:
parsed_positions.append({&#34;pos&#34;: pos, &#34;type&#34;: &#34;EMPTY_PROMPT&#34;, &#34;preview&#34;: &#34;&#34;})
else:
parsed_positions.append({&#34;pos&#34;: pos, &#34;type&#34;: &#34;SCROLLING&#34;, &#34;preview&#34;: &#34;&#34;})
else:
parsed_positions.append({&#34;pos&#34;: pos, &#34;type&#34;: &#34;SCROLLING&#34;, &#34;preview&#34;: &#34;&#34;})
last_newline = raw_bytes.rfind(b&#39;\n&#39;)
current_prompt_pos = last_newline + 1 if last_newline != -1 else 0
current_end = len(raw_bytes)
for i, item in enumerate(parsed_positions):
if item[&#34;type&#34;] == &#34;VALID_CMD&#34;:
start_pos = item[&#34;pos&#34;]
preview = item[&#34;preview&#34;]
# Find the end position: next VALID_CMD or EMPTY_PROMPT
end_pos = current_prompt_pos
for j in range(i + 1, len(parsed_positions)):
next_item = parsed_positions[j]
if next_item[&#34;type&#34;] in (&#34;VALID_CMD&#34;, &#34;EMPTY_PROMPT&#34;):
end_pos = next_item[&#34;pos&#34;]
break
blocks.append((start_pos, end_pos, preview))
# Always ensure there is a final block representing the current prompt
if not blocks:
blocks.append((current_prompt_pos, current_end, last_line[:80] if last_line else &#34;CURRENT CONTEXT&#34;))
elif blocks[-1][0] &lt; current_prompt_pos:
blocks.append((current_prompt_pos, current_end, last_line[:80] if last_line else &#34;CURRENT CONTEXT&#34;))
if preview:
match = prompt_re.search(preview)
if match:
cmd_text = preview[match.end():].strip()
if cmd_text:
blocks.append((pos, preview[:80]))
return blocks</code></pre>
</details>
<div class="desc"><p>Identifies command blocks in the terminal history.</p></div>
docs/connpy/utils.html
+28 -8
View File
@@ -75,14 +75,34 @@ el.replaceWith(d);
elif token in (&#39;\b&#39;, &#39;\x7f&#39;):
if cursor &gt; 0:
cursor -= 1
elif token == &#39;\x1B[D&#39;: # Left Arrow
if cursor &gt; 0:
cursor -= 1
elif token == &#39;\x1B[C&#39;: # Right Arrow
if cursor &lt; len(buffer):
cursor += 1
elif token == &#39;\x1B[K&#39;: # Clear to end of line
buffer = buffer[:cursor]
elif token.startswith(&#39;\x1B[&#39;) and len(token) &gt;= 3:
# Parse CSI: \x1B[ &lt;params&gt; &lt;final_char&gt;
final = token[-1]
param_str = token[2:-1]
n = int(param_str) if param_str.isdigit() else 1
if final == &#39;D&#39;: # CUB Cursor Back
cursor = max(0, cursor - n)
elif final == &#39;C&#39;: # CUF Cursor Forward
cursor = min(len(buffer), cursor + n)
elif final == &#39;K&#39;: # EL Erase in Line
if n == 0 or param_str == &#39;&#39;: # Clear to end
buffer = buffer[:cursor]
elif n == 1: # Clear to start
buffer[:cursor] = [&#39; &#39;] * cursor
elif n == 2: # Clear entire line
buffer = []
cursor = 0
elif final == &#39;G&#39;: # CHA Cursor Horizontal Absolute (1-indexed)
cursor = max(0, n - 1)
# Pad buffer if cursor is beyond current length
if cursor &gt; len(buffer):
buffer.extend([&#39; &#39;] * (cursor - len(buffer)))
elif final == &#39;P&#39;: # DCH Delete Characters
del buffer[cursor:cursor + n]
elif final == &#39;@&#39;: # ICH Insert Characters
buffer[cursor:cursor] = [&#39; &#39;] * n
# All other CSI sequences are silently discarded
elif token.startswith(&#39;\x1B&#39;):
continue
elif len(token) == 1 and ord(token) &lt; 32: