linux/Documentation/sphinx/kfigure.py
Alexander A. Klimov 93431e0607 Replace HTTP links with HTTPS ones: documentation
Rationale:
Reduces attack surface on kernel devs opening the links for MITM
as HTTPS traffic is much harder to manipulate.

Deterministic algorithm:
For each file:
  For each line:
    If doesn't contain `\bxmlns\b`:
      For each link, `\bhttp://[^# \t\r\n]*(?:\w|/)`:
        If both the HTTP and HTTPS versions
        return 200 OK and serve the same content:
          Replace HTTP with HTTPS.

Signed-off-by: Alexander A. Klimov <grandmaster@al2klimov.de>
Link: https://lore.kernel.org/r/20200526060544.25127-1-grandmaster@al2klimov.de
Signed-off-by: Jonathan Corbet <corbet@lwn.net>
2020-06-08 09:30:19 -06:00

558 lines
18 KiB
Python

# -*- coding: utf-8; mode: python -*-
# pylint: disable=C0103, R0903, R0912, R0915
u"""
scalable figure and image handling
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
Sphinx extension which implements scalable image handling.
:copyright: Copyright (C) 2016 Markus Heiser
:license: GPL Version 2, June 1991 see Linux/COPYING for details.
The build for image formats depend on image's source format and output's
destination format. This extension implement methods to simplify image
handling from the author's POV. Directives like ``kernel-figure`` implement
methods *to* always get the best output-format even if some tools are not
installed. For more details take a look at ``convert_image(...)`` which is
the core of all conversions.
* ``.. kernel-image``: for image handling / a ``.. image::`` replacement
* ``.. kernel-figure``: for figure handling / a ``.. figure::`` replacement
* ``.. kernel-render``: for render markup / a concept to embed *render*
markups (or languages). Supported markups (see ``RENDER_MARKUP_EXT``)
- ``DOT``: render embedded Graphviz's **DOC**
- ``SVG``: render embedded Scalable Vector Graphics (**SVG**)
- ... *developable*
Used tools:
* ``dot(1)``: Graphviz (https://www.graphviz.org). If Graphviz is not
available, the DOT language is inserted as literal-block.
* SVG to PDF: To generate PDF, you need at least one of this tools:
- ``convert(1)``: ImageMagick (https://www.imagemagick.org)
List of customizations:
* generate PDF from SVG / used by PDF (LaTeX) builder
* generate SVG (html-builder) and PDF (latex-builder) from DOT files.
DOT: see https://www.graphviz.org/content/dot-language
"""
import os
from os import path
import subprocess
from hashlib import sha1
import sys
from docutils import nodes
from docutils.statemachine import ViewList
from docutils.parsers.rst import directives
from docutils.parsers.rst.directives import images
import sphinx
from sphinx.util.nodes import clean_astext
from six import iteritems
import kernellog
PY3 = sys.version_info[0] == 3
if PY3:
_unicode = str
else:
_unicode = unicode
# Get Sphinx version
major, minor, patch = sphinx.version_info[:3]
if major == 1 and minor > 3:
# patches.Figure only landed in Sphinx 1.4
from sphinx.directives.patches import Figure # pylint: disable=C0413
else:
Figure = images.Figure
__version__ = '1.0.0'
# simple helper
# -------------
def which(cmd):
"""Searches the ``cmd`` in the ``PATH`` environment.
This *which* searches the PATH for executable ``cmd`` . First match is
returned, if nothing is found, ``None` is returned.
"""
envpath = os.environ.get('PATH', None) or os.defpath
for folder in envpath.split(os.pathsep):
fname = folder + os.sep + cmd
if path.isfile(fname):
return fname
def mkdir(folder, mode=0o775):
if not path.isdir(folder):
os.makedirs(folder, mode)
def file2literal(fname):
with open(fname, "r") as src:
data = src.read()
node = nodes.literal_block(data, data)
return node
def isNewer(path1, path2):
"""Returns True if ``path1`` is newer than ``path2``
If ``path1`` exists and is newer than ``path2`` the function returns
``True`` is returned otherwise ``False``
"""
return (path.exists(path1)
and os.stat(path1).st_ctime > os.stat(path2).st_ctime)
def pass_handle(self, node): # pylint: disable=W0613
pass
# setup conversion tools and sphinx extension
# -------------------------------------------
# Graphviz's dot(1) support
dot_cmd = None
# ImageMagick' convert(1) support
convert_cmd = None
def setup(app):
# check toolchain first
app.connect('builder-inited', setupTools)
# image handling
app.add_directive("kernel-image", KernelImage)
app.add_node(kernel_image,
html = (visit_kernel_image, pass_handle),
latex = (visit_kernel_image, pass_handle),
texinfo = (visit_kernel_image, pass_handle),
text = (visit_kernel_image, pass_handle),
man = (visit_kernel_image, pass_handle), )
# figure handling
app.add_directive("kernel-figure", KernelFigure)
app.add_node(kernel_figure,
html = (visit_kernel_figure, pass_handle),
latex = (visit_kernel_figure, pass_handle),
texinfo = (visit_kernel_figure, pass_handle),
text = (visit_kernel_figure, pass_handle),
man = (visit_kernel_figure, pass_handle), )
# render handling
app.add_directive('kernel-render', KernelRender)
app.add_node(kernel_render,
html = (visit_kernel_render, pass_handle),
latex = (visit_kernel_render, pass_handle),
texinfo = (visit_kernel_render, pass_handle),
text = (visit_kernel_render, pass_handle),
man = (visit_kernel_render, pass_handle), )
app.connect('doctree-read', add_kernel_figure_to_std_domain)
return dict(
version = __version__,
parallel_read_safe = True,
parallel_write_safe = True
)
def setupTools(app):
u"""
Check available build tools and log some *verbose* messages.
This function is called once, when the builder is initiated.
"""
global dot_cmd, convert_cmd # pylint: disable=W0603
kernellog.verbose(app, "kfigure: check installed tools ...")
dot_cmd = which('dot')
convert_cmd = which('convert')
if dot_cmd:
kernellog.verbose(app, "use dot(1) from: " + dot_cmd)
else:
kernellog.warn(app, "dot(1) not found, for better output quality install "
"graphviz from https://www.graphviz.org")
if convert_cmd:
kernellog.verbose(app, "use convert(1) from: " + convert_cmd)
else:
kernellog.warn(app,
"convert(1) not found, for SVG to PDF conversion install "
"ImageMagick (https://www.imagemagick.org)")
# integrate conversion tools
# --------------------------
RENDER_MARKUP_EXT = {
# The '.ext' must be handled by convert_image(..) function's *in_ext* input.
# <name> : <.ext>
'DOT' : '.dot',
'SVG' : '.svg'
}
def convert_image(img_node, translator, src_fname=None):
"""Convert a image node for the builder.
Different builder prefer different image formats, e.g. *latex* builder
prefer PDF while *html* builder prefer SVG format for images.
This function handles output image formats in dependence of source the
format (of the image) and the translator's output format.
"""
app = translator.builder.app
fname, in_ext = path.splitext(path.basename(img_node['uri']))
if src_fname is None:
src_fname = path.join(translator.builder.srcdir, img_node['uri'])
if not path.exists(src_fname):
src_fname = path.join(translator.builder.outdir, img_node['uri'])
dst_fname = None
# in kernel builds, use 'make SPHINXOPTS=-v' to see verbose messages
kernellog.verbose(app, 'assert best format for: ' + img_node['uri'])
if in_ext == '.dot':
if not dot_cmd:
kernellog.verbose(app,
"dot from graphviz not available / include DOT raw.")
img_node.replace_self(file2literal(src_fname))
elif translator.builder.format == 'latex':
dst_fname = path.join(translator.builder.outdir, fname + '.pdf')
img_node['uri'] = fname + '.pdf'
img_node['candidates'] = {'*': fname + '.pdf'}
elif translator.builder.format == 'html':
dst_fname = path.join(
translator.builder.outdir,
translator.builder.imagedir,
fname + '.svg')
img_node['uri'] = path.join(
translator.builder.imgpath, fname + '.svg')
img_node['candidates'] = {
'*': path.join(translator.builder.imgpath, fname + '.svg')}
else:
# all other builder formats will include DOT as raw
img_node.replace_self(file2literal(src_fname))
elif in_ext == '.svg':
if translator.builder.format == 'latex':
if convert_cmd is None:
kernellog.verbose(app,
"no SVG to PDF conversion available / include SVG raw.")
img_node.replace_self(file2literal(src_fname))
else:
dst_fname = path.join(translator.builder.outdir, fname + '.pdf')
img_node['uri'] = fname + '.pdf'
img_node['candidates'] = {'*': fname + '.pdf'}
if dst_fname:
# the builder needs not to copy one more time, so pop it if exists.
translator.builder.images.pop(img_node['uri'], None)
_name = dst_fname[len(translator.builder.outdir) + 1:]
if isNewer(dst_fname, src_fname):
kernellog.verbose(app,
"convert: {out}/%s already exists and is newer" % _name)
else:
ok = False
mkdir(path.dirname(dst_fname))
if in_ext == '.dot':
kernellog.verbose(app, 'convert DOT to: {out}/' + _name)
ok = dot2format(app, src_fname, dst_fname)
elif in_ext == '.svg':
kernellog.verbose(app, 'convert SVG to: {out}/' + _name)
ok = svg2pdf(app, src_fname, dst_fname)
if not ok:
img_node.replace_self(file2literal(src_fname))
def dot2format(app, dot_fname, out_fname):
"""Converts DOT file to ``out_fname`` using ``dot(1)``.
* ``dot_fname`` pathname of the input DOT file, including extension ``.dot``
* ``out_fname`` pathname of the output file, including format extension
The *format extension* depends on the ``dot`` command (see ``man dot``
option ``-Txxx``). Normally you will use one of the following extensions:
- ``.ps`` for PostScript,
- ``.svg`` or ``svgz`` for Structured Vector Graphics,
- ``.fig`` for XFIG graphics and
- ``.png`` or ``gif`` for common bitmap graphics.
"""
out_format = path.splitext(out_fname)[1][1:]
cmd = [dot_cmd, '-T%s' % out_format, dot_fname]
exit_code = 42
with open(out_fname, "w") as out:
exit_code = subprocess.call(cmd, stdout = out)
if exit_code != 0:
kernellog.warn(app,
"Error #%d when calling: %s" % (exit_code, " ".join(cmd)))
return bool(exit_code == 0)
def svg2pdf(app, svg_fname, pdf_fname):
"""Converts SVG to PDF with ``convert(1)`` command.
Uses ``convert(1)`` from ImageMagick (https://www.imagemagick.org) for
conversion. Returns ``True`` on success and ``False`` if an error occurred.
* ``svg_fname`` pathname of the input SVG file with extension (``.svg``)
* ``pdf_name`` pathname of the output PDF file with extension (``.pdf``)
"""
cmd = [convert_cmd, svg_fname, pdf_fname]
# use stdout and stderr from parent
exit_code = subprocess.call(cmd)
if exit_code != 0:
kernellog.warn(app, "Error #%d when calling: %s" % (exit_code, " ".join(cmd)))
return bool(exit_code == 0)
# image handling
# ---------------------
def visit_kernel_image(self, node): # pylint: disable=W0613
"""Visitor of the ``kernel_image`` Node.
Handles the ``image`` child-node with the ``convert_image(...)``.
"""
img_node = node[0]
convert_image(img_node, self)
class kernel_image(nodes.image):
"""Node for ``kernel-image`` directive."""
pass
class KernelImage(images.Image):
u"""KernelImage directive
Earns everything from ``.. image::`` directive, except *remote URI* and
*glob* pattern. The KernelImage wraps a image node into a
kernel_image node. See ``visit_kernel_image``.
"""
def run(self):
uri = self.arguments[0]
if uri.endswith('.*') or uri.find('://') != -1:
raise self.severe(
'Error in "%s: %s": glob pattern and remote images are not allowed'
% (self.name, uri))
result = images.Image.run(self)
if len(result) == 2 or isinstance(result[0], nodes.system_message):
return result
(image_node,) = result
# wrap image node into a kernel_image node / see visitors
node = kernel_image('', image_node)
return [node]
# figure handling
# ---------------------
def visit_kernel_figure(self, node): # pylint: disable=W0613
"""Visitor of the ``kernel_figure`` Node.
Handles the ``image`` child-node with the ``convert_image(...)``.
"""
img_node = node[0][0]
convert_image(img_node, self)
class kernel_figure(nodes.figure):
"""Node for ``kernel-figure`` directive."""
class KernelFigure(Figure):
u"""KernelImage directive
Earns everything from ``.. figure::`` directive, except *remote URI* and
*glob* pattern. The KernelFigure wraps a figure node into a kernel_figure
node. See ``visit_kernel_figure``.
"""
def run(self):
uri = self.arguments[0]
if uri.endswith('.*') or uri.find('://') != -1:
raise self.severe(
'Error in "%s: %s":'
' glob pattern and remote images are not allowed'
% (self.name, uri))
result = Figure.run(self)
if len(result) == 2 or isinstance(result[0], nodes.system_message):
return result
(figure_node,) = result
# wrap figure node into a kernel_figure node / see visitors
node = kernel_figure('', figure_node)
return [node]
# render handling
# ---------------------
def visit_kernel_render(self, node):
"""Visitor of the ``kernel_render`` Node.
If rendering tools available, save the markup of the ``literal_block`` child
node into a file and replace the ``literal_block`` node with a new created
``image`` node, pointing to the saved markup file. Afterwards, handle the
image child-node with the ``convert_image(...)``.
"""
app = self.builder.app
srclang = node.get('srclang')
kernellog.verbose(app, 'visit kernel-render node lang: "%s"' % (srclang))
tmp_ext = RENDER_MARKUP_EXT.get(srclang, None)
if tmp_ext is None:
kernellog.warn(app, 'kernel-render: "%s" unknown / include raw.' % (srclang))
return
if not dot_cmd and tmp_ext == '.dot':
kernellog.verbose(app, "dot from graphviz not available / include raw.")
return
literal_block = node[0]
code = literal_block.astext()
hashobj = code.encode('utf-8') # str(node.attributes)
fname = path.join('%s-%s' % (srclang, sha1(hashobj).hexdigest()))
tmp_fname = path.join(
self.builder.outdir, self.builder.imagedir, fname + tmp_ext)
if not path.isfile(tmp_fname):
mkdir(path.dirname(tmp_fname))
with open(tmp_fname, "w") as out:
out.write(code)
img_node = nodes.image(node.rawsource, **node.attributes)
img_node['uri'] = path.join(self.builder.imgpath, fname + tmp_ext)
img_node['candidates'] = {
'*': path.join(self.builder.imgpath, fname + tmp_ext)}
literal_block.replace_self(img_node)
convert_image(img_node, self, tmp_fname)
class kernel_render(nodes.General, nodes.Inline, nodes.Element):
"""Node for ``kernel-render`` directive."""
pass
class KernelRender(Figure):
u"""KernelRender directive
Render content by external tool. Has all the options known from the
*figure* directive, plus option ``caption``. If ``caption`` has a
value, a figure node with the *caption* is inserted. If not, a image node is
inserted.
The KernelRender directive wraps the text of the directive into a
literal_block node and wraps it into a kernel_render node. See
``visit_kernel_render``.
"""
has_content = True
required_arguments = 1
optional_arguments = 0
final_argument_whitespace = False
# earn options from 'figure'
option_spec = Figure.option_spec.copy()
option_spec['caption'] = directives.unchanged
def run(self):
return [self.build_node()]
def build_node(self):
srclang = self.arguments[0].strip()
if srclang not in RENDER_MARKUP_EXT.keys():
return [self.state_machine.reporter.warning(
'Unknown source language "%s", use one of: %s.' % (
srclang, ",".join(RENDER_MARKUP_EXT.keys())),
line=self.lineno)]
code = '\n'.join(self.content)
if not code.strip():
return [self.state_machine.reporter.warning(
'Ignoring "%s" directive without content.' % (
self.name),
line=self.lineno)]
node = kernel_render()
node['alt'] = self.options.get('alt','')
node['srclang'] = srclang
literal_node = nodes.literal_block(code, code)
node += literal_node
caption = self.options.get('caption')
if caption:
# parse caption's content
parsed = nodes.Element()
self.state.nested_parse(
ViewList([caption], source=''), self.content_offset, parsed)
caption_node = nodes.caption(
parsed[0].rawsource, '', *parsed[0].children)
caption_node.source = parsed[0].source
caption_node.line = parsed[0].line
figure_node = nodes.figure('', node)
for k,v in self.options.items():
figure_node[k] = v
figure_node += caption_node
node = figure_node
return node
def add_kernel_figure_to_std_domain(app, doctree):
"""Add kernel-figure anchors to 'std' domain.
The ``StandardDomain.process_doc(..)`` method does not know how to resolve
the caption (label) of ``kernel-figure`` directive (it only knows about
standard nodes, e.g. table, figure etc.). Without any additional handling
this will result in a 'undefined label' for kernel-figures.
This handle adds labels of kernel-figure to the 'std' domain labels.
"""
std = app.env.domains["std"]
docname = app.env.docname
labels = std.data["labels"]
for name, explicit in iteritems(doctree.nametypes):
if not explicit:
continue
labelid = doctree.nameids[name]
if labelid is None:
continue
node = doctree.ids[labelid]
if node.tagname == 'kernel_figure':
for n in node.next_node():
if n.tagname == 'caption':
sectname = clean_astext(n)
# add label to std domain
labels[name] = docname, labelid, sectname
break