MakerFLOSS/scripts/gen_rack.py

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#!/usr/bin/env python3
"""Generate per-rack elevation SVG + page from hardware frontmatter.
Reads `docs/hardware/*.md`, selects files that declare a `rack` field,
validates rack placement, and writes for each rack:
docs/infrastructure/racks/<rack>-elevation.svg
docs/infrastructure/racks/<rack>.md
Deterministic, offline, stdlib + PyYAML. Non-zero exit on schema violation.
The physical rack is labeled U1 at the top; the SVG renders U1 at the top.
"""
from __future__ import annotations
import re
import sys
from pathlib import Path
import yaml
REPO_ROOT = Path(__file__).resolve().parent.parent
HARDWARE_DIR = REPO_ROOT / "docs" / "hardware"
OUTPUT_DIR = REPO_ROOT / "docs" / "infrastructure" / "racks"
RACK_UNITS = 48
FRONTMATTER_RE = re.compile(r"^---\s*\n(.*?)\n---\s*\n", re.DOTALL)
FACES = {"front", "rear", "both", "left", "right"}
ZERO_U_FACES = {"left", "right"}
KIND_COLORS = {
"server": "#4c78a8",
"switch": "#59a14f",
"patch-panel": "#9c755f",
"pdu": "#e15759",
"ups": "#edc948",
"shelf": "#bab0ac",
"kvm": "#b07aa1",
"blank": "#d4d4d4",
}
DEFAULT_COLOR = "#888888"
class SchemaError(Exception):
pass
def parse_frontmatter(path: Path) -> dict | None:
text = path.read_text(encoding="utf-8")
m = FRONTMATTER_RE.match(text)
if not m:
return None
data = yaml.safe_load(m.group(1))
if not isinstance(data, dict):
raise SchemaError(f"{path}: frontmatter is not a mapping")
return data
def load_rack_items(hardware_dir: Path) -> list[dict]:
"""Return frontmatter dicts for hardware files that declare a rack."""
items: list[dict] = []
for path in sorted(hardware_dir.glob("*.md")):
if path.name == "index.md":
continue
fm = parse_frontmatter(path)
if fm is None or "rack" not in fm:
continue
fm = dict(fm)
fm["_path"] = str(path)
items.append(fm)
return items
def validate_item(fm: dict) -> None:
name = fm.get("hostname") or fm.get("_path", "?")
rack = fm.get("rack")
if not isinstance(rack, str) or not rack:
raise SchemaError(f"{name}: rack must be a non-empty string")
face = fm.get("rack_face")
if face not in FACES:
raise SchemaError(f"{name}: rack_face={face!r} not in {sorted(FACES)}")
if face in ZERO_U_FACES:
if "rack_u" in fm or "u_height" in fm:
raise SchemaError(
f"{name}: 0U item (face={face}) must omit rack_u/u_height"
)
return
u = fm.get("rack_u")
h = fm.get("u_height")
if not isinstance(u, int) or not isinstance(h, int):
raise SchemaError(f"{name}: rack_u and u_height must be integers")
if u < 1 or u > RACK_UNITS:
raise SchemaError(f"{name}: rack_u={u} out of range 1..{RACK_UNITS}")
if h < 1:
raise SchemaError(f"{name}: u_height={h} must be >= 1")
if u + h - 1 > RACK_UNITS:
raise SchemaError(
f"{name}: occupies U{u}..U{u + h - 1}, exceeds {RACK_UNITS}U"
)
def check_overlaps(items: list[dict]) -> None:
"""Raise if two items share a U on the same face within one rack."""
occupied: dict[tuple[str, int], str] = {}
for fm in items:
face = fm.get("rack_face")
if face in ZERO_U_FACES:
continue
faces = ("front", "rear") if face == "both" else (face,)
u = fm["rack_u"]
h = fm["u_height"]
name = fm.get("hostname", "?")
for f in faces:
for uu in range(u, u + h):
key = (f, uu)
if key in occupied:
raise SchemaError(
f"U{uu} {f}: {name} overlaps {occupied[key]}"
)
occupied[key] = name
def _pdu_index(items: list[dict]) -> dict[str, dict]:
"""Map hostname -> frontmatter for every kind:pdu item."""
return {
fm.get("hostname"): fm
for fm in items
if fm.get("kind") == "pdu"
}
def validate_power(items: list[dict]) -> None:
"""Validate PDU outlet declarations and `power` feeds within one rack.
Rule 3: every power[].pdu resolves to a kind:pdu file, and outlet is
within that PDU's `outlets` count.
"""
pdus = _pdu_index(items)
for name, fm in pdus.items():
outlets = fm.get("outlets")
if not isinstance(outlets, int) or outlets < 1:
raise SchemaError(
f"{name}: kind:pdu must declare a positive integer 'outlets'"
)
for fm in items:
feeds = fm.get("power")
if feeds is None:
continue
name = fm.get("hostname", "?")
if not isinstance(feeds, list):
raise SchemaError(f"{name}: power must be a list")
for feed in feeds:
if not isinstance(feed, dict):
raise SchemaError(f"{name}: power entry must be a mapping")
pdu = feed.get("pdu")
outlet = feed.get("outlet")
if not isinstance(pdu, str) or not pdu:
raise SchemaError(f"{name}: power entry needs a non-empty 'pdu'")
if not isinstance(outlet, int):
raise SchemaError(
f"{name}: power entry for {pdu} needs an integer 'outlet'"
)
target = pdus.get(pdu)
if target is None:
raise SchemaError(
f"{name}: power pdu={pdu!r} is not a known kind:pdu file"
)
count = target["outlets"]
if outlet < 1 or outlet > count:
raise SchemaError(
f"{name}: outlet {outlet} out of range 1..{count} on {pdu}"
)
def _esc(s: object) -> str:
return str(s).replace("&", "&amp;").replace("<", "&lt;").replace(">", "&gt;")
def _sorted_items(items: list[dict]) -> list[dict]:
"""Deterministic order: faced items by U then hostname, 0U items last."""
return sorted(
items,
key=lambda i: (
0 if i.get("rack_face") not in ZERO_U_FACES else 1,
i.get("rack_u", 0) if isinstance(i.get("rack_u"), int) else 0,
i.get("hostname", ""),
),
)
def render_svg(rack: str, items: list[dict]) -> str:
U_H = 20
COL_W = 240
LABEL_W = 30
RAIL_W = 16
PAD = 12
GAP = 50
TITLE_H = 28
items = _sorted_items(items)
left_items = [i for i in items if i.get("rack_face") == "left"]
right_items = [i for i in items if i.get("rack_face") == "right"]
body_h = RACK_UNITS * U_H
height = PAD + TITLE_H + body_h + PAD
front_x = PAD + len(left_items) * RAIL_W + LABEL_W
rear_x = front_x + COL_W + GAP
width = rear_x + COL_W + len(right_items) * RAIL_W + PAD
top = PAD + TITLE_H
def u_y(u: int) -> int:
# U1 at the top; U numbers increase downward.
return top + (u - 1) * U_H
p: list[str] = []
p.append(
f'<svg xmlns="http://www.w3.org/2000/svg" width="{width}" '
f'height="{height}" viewBox="0 0 {width} {height}" '
f'font-family="sans-serif" font-size="11">'
)
p.append(f'<rect width="{width}" height="{height}" fill="#ffffff"/>')
p.append(
f'<text x="{PAD}" y="{PAD + 16}" font-size="16" '
f'font-weight="bold">Rack {_esc(rack)}</text>'
)
for col_x, col_label in ((front_x, "front"), (rear_x, "rear")):
p.append(
f'<text x="{col_x + COL_W // 2}" y="{top - 6}" '
f'text-anchor="middle" font-weight="bold">{col_label}</text>'
)
for u in range(1, RACK_UNITS + 1):
y = u_y(u)
p.append(
f'<rect x="{col_x}" y="{y}" width="{COL_W}" height="{U_H}" '
f'fill="#f5f5f5" stroke="#e0e0e0"/>'
)
# U numbers in the gutter left of the front column.
for u in range(1, RACK_UNITS + 1):
y = u_y(u)
p.append(
f'<text x="{front_x - 4}" y="{y + 14}" text-anchor="end" '
f'fill="#999">{u}</text>'
)
def draw_device(fm: dict, col_x: int) -> None:
u = fm["rack_u"]
h = fm["u_height"]
y = u_y(u)
box_h = h * U_H
color = KIND_COLORS.get(fm.get("kind", ""), DEFAULT_COLOR)
name = fm.get("hostname", "?")
urange = f"U{u}" if h == 1 else f"U{u}U{u + h - 1}"
p.append(
f'<rect x="{col_x + 1}" y="{y + 1}" width="{COL_W - 2}" '
f'height="{box_h - 2}" rx="3" fill="{color}" stroke="#333"/>'
)
p.append(
f'<text x="{col_x + COL_W // 2}" y="{y + box_h // 2 + 4}" '
f'text-anchor="middle" fill="#ffffff">'
f'{_esc(name)} ({urange})</text>'
)
for fm in items:
face = fm.get("rack_face")
if face in ("front", "both"):
draw_device(fm, front_x)
if face in ("rear", "both"):
draw_device(fm, rear_x)
def draw_rail(fm: dict, x: int) -> None:
color = KIND_COLORS.get(fm.get("kind", ""), DEFAULT_COLOR)
name = fm.get("hostname", "?")
cx = x + RAIL_W // 2
cy = top + body_h // 2
p.append(
f'<rect x="{x}" y="{top}" width="{RAIL_W}" height="{body_h}" '
f'fill="{color}" stroke="#333"/>'
)
p.append(
f'<text x="{cx}" y="{cy}" text-anchor="middle" fill="#ffffff" '
f'transform="rotate(-90 {cx} {cy})">{_esc(name)}</text>'
)
for idx, fm in enumerate(left_items):
draw_rail(fm, PAD + idx * RAIL_W)
for idx, fm in enumerate(right_items):
draw_rail(fm, rear_x + COL_W + idx * RAIL_W)
p.append("</svg>")
return "\n".join(p) + "\n"
def _node_id(name: str) -> str:
"""A mermaid-safe node id derived from a hostname."""
return re.sub(r"[^0-9A-Za-z]", "_", str(name))
def render_power(rack: str, items: list[dict]) -> str:
"""Return a mermaid power-distribution flowchart, or '' if no feeds."""
powered = [fm for fm in items if fm.get("power")]
if not powered:
return ""
pdus = _pdu_index(items)
edges: list[tuple[str, int, str]] = []
for fm in powered:
device = fm.get("hostname", "?")
for feed in fm["power"]:
edges.append((feed["pdu"], feed["outlet"], device))
edges.sort()
lines: list[str] = ["```mermaid", "flowchart LR"]
for pdu in sorted(pdus):
outlets = pdus[pdu].get("outlets")
lines.append(f' {_node_id(pdu)}["{pdu}<br/>{outlets} outlets"]')
devices = sorted(
powered,
key=lambda i: (
i.get("rack_u", 0) if isinstance(i.get("rack_u"), int) else 0,
i.get("hostname", ""),
),
)
for fm in devices:
device = fm.get("hostname", "?")
lines.append(f' {_node_id(device)}["{device}"]')
for pdu, outlet, device in edges:
lines.append(
f" {_node_id(pdu)} -->|outlet {outlet}| {_node_id(device)}"
)
lines.append("```")
return "\n".join(lines) + "\n"
def render_page(rack: str, items: list[dict]) -> str:
items = _sorted_items(items)
lines: list[str] = []
lines.append(f"# Rack {rack}")
lines.append("")
lines.append(
f"_Auto-generated from `docs/hardware/*.md` (items with `rack: {rack}`) "
f"— do not edit by hand. Run `make docs-index` after changing a "
f"source file._"
)
lines.append("")
lines.append("## Elevation")
lines.append("")
lines.append(f"![Rack {rack} elevation]({rack}-elevation.svg)")
lines.append("")
power = render_power(rack, items)
if power:
lines.append("## Power")
lines.append("")
lines.append(power.rstrip())
lines.append("")
lines.append("## Occupancy")
lines.append("")
lines.append("| U | Device | Kind | Face | Status |")
lines.append("|---|---|---|---|---|")
for fm in items:
name = fm.get("hostname", "?")
link = f"[{name}](../../hardware/{name}.md)"
face = fm.get("rack_face", "")
if face in ZERO_U_FACES:
urange = "0U"
else:
u = fm["rack_u"]
h = fm["u_height"]
urange = f"U{u}" if h == 1 else f"U{u}U{u + h - 1}"
lines.append(
f"| {urange} | {link} | {fm.get('kind', '')} | {face} "
f"| {fm.get('status', '')} |"
)
lines.append("")
return "\n".join(lines).rstrip() + "\n"
def generate(hardware_dir: Path, output_dir: Path) -> int:
items = load_rack_items(hardware_dir)
errors: list[str] = []
for fm in items:
try:
validate_item(fm)
except SchemaError as e:
errors.append(str(e))
racks: dict[str, list[dict]] = {}
for fm in items:
racks.setdefault(fm["rack"], []).append(fm)
if not errors: # only check overlaps once placements are individually valid
for rack, ritems in racks.items():
try:
check_overlaps(ritems)
validate_power(ritems)
except SchemaError as e:
errors.append(f"{rack}: {e}")
if errors:
for err in errors:
print(f"ERROR: {err}", file=sys.stderr)
return 1
output_dir.mkdir(parents=True, exist_ok=True)
for rack in sorted(racks):
ritems = racks[rack]
(output_dir / f"{rack}-elevation.svg").write_text(
render_svg(rack, ritems), encoding="utf-8"
)
(output_dir / f"{rack}.md").write_text(
render_page(rack, ritems), encoding="utf-8"
)
print(f"Wrote {rack}.md + {rack}-elevation.svg ({len(ritems)} item(s))")
return 0
def main() -> int:
return generate(HARDWARE_DIR, OUTPUT_DIR)
if __name__ == "__main__":
sys.exit(main())