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qpdf/generate_auto_job

896 lines
38 KiB
Python
Executable File

#!/usr/bin/env python3
import os
import sys
import argparse
import hashlib
import re
import yaml
import json
import filecmp
from contextlib import contextmanager
# The purpose of this code is to automatically generate various parts
# of the QPDFJob class. It is fairly complicated and extremely
# bespoke, so understanding it is important if modifications are to be
# made.
# Documentation of QPDFJob is divided among three places:
#
# * "HOW TO ADD A COMMAND-LINE ARGUMENT" in README-maintainer provides
# a quick reminder for how to add a command-line argument
#
# * This file has a detailed explanation about how QPDFJob and
# generate_auto_job work together
#
# * The manual ("QPDFJob Design" in qpdf-job.rst) discusses the design
# approach, rationale, and evolution of QPDFJob.
#
# QPDFJob solved the problem of moving extensive functionality that
# lived in qpdf.cc into the library. The QPDFJob class consists of
# four major sections:
#
# * The run() method and its subsidiaries are responsible for
# performing the actual operations on PDF files. This is implemented
# in QPDFJob.cc
#
# * The nested Config class and the other classes it creates provide
# an API for setting up a QPDFJob instance and correspond to the
# command-line arguments of the qpdf executable. This is implemented
# in QPDFJob_config.cc
#
# * The argument parsing code reads an argv array and calls
# configuration methods. This is implemented in QPDFJob_argv.cc. The
# argument parsing logic itself is implemented in the QPDFArgParser
# class.
#
# * The job JSON handling code, which reads a QPDFJob JSON file and
# calls configuration methods. This is implemented in
# QPDFJob_json.cc. The JSON parsing code is in the JSON class. A
# sax-like JSON handler class that calls callbacks in response to
# items in the JSON is implemented in the JSONHandler class.
#
# This code has the job of ensuring that configuration, command-line
# arguments, and JSON are all consistent and complete so that a
# developer or user can freely move among those different ways of
# interacting with QPDFJob in a predictable fashion. In addition, help
# information for each option appears in manual/cli.rst, and that
# information is used in the creation of the job JSON schema and to supply
# help text to QPDFArgParser. This code also ensures that there is an
# exact match between options in job.yml and options in cli.rst.
#
# The job.yml file contains the data that drives this code. To
# understand job.yml, here are some important concepts.
#
# QPDFArgParser option table. There is support for positional
# arguments, options consisting of flags and optional parameters, and
# subparsers that start with a regular parameterless flag, have their
# own positional and option sections, and are terminated with -- by
# itself. Examples of this include --encrypt and --pages. An "option
# table" contains an optional positional argument handler and a list
# of valid options with specifications about their parameters. There
# are three kinds of option tables:
#
# * The built-in "help" option table contains help commands, like
# --help and --version, that are only valid when they appear as the
# single command-line argument.
#
# * The "main" option table contains the options that are valid
# starting at the beginning of argument parsing.
#
# * A named option table can be started manually by the argument
# parsing code to switch the argument parser's context. Switching
# the parser to a new option table is manual (via a call to
# selectOptionTable). Context reverts to the main option table
# automatically when -- is encountered.
#
# In QPDFJob.hh, there is a Config class for each option table except
# help.
#
# Option type: bare, required/optional parameter, required/optional
# choices. A bare argument is just a flag, like --qdf. A parameter
# option takes an arbitrary parameter, like --password. A choices
# option takes one of a fixed list of choices, like --object-streams.
# If a parameter or choices option's parameter is option, the empty
# string may be specified as an option, such as --collate (or
# --collate=). For a bare option, --option= is always the same as just
# --option. This makes it possible to switch an option from bare to
# optional choice to optional parameter all without breaking
# compatibility.
#
# JSON "schema". This is a qpdf-specific "schema" for JSON. It is not
# related to any kind of standard JSON schema. It is described in
# JSON.hh and in the manual. QPDFJob uses the JSON "schema" in a mode
# in which keys in the schema are all optional in the JSON object.
#
# Here is the mapping between configuration, argv, and JSON.
#
# The help options table is implemented solely for argv processing and
# has no counterpart in configuration or JSON.
#
# The config() method returns a shared pointer to a Config object.
# Every command-line option in the main option table has a
# corresponding method in Config whose name is the option converted to
# camel case. For bare options and options with optional parameters, a
# version exists that takes no arguments. For other than bare options,
# a version exist, possibly in addition, that takes a std::string
# const&. For example, the --qdf flag implies a qdf() method in
# Config, and the --object-streams flag implies an
# objectStreams(std::string const&) method in Config. For flags in
# option tables, the method is declared inside a config class specific
# to the option table. The mapping between option tables and config
# classes is explicit in job.yml. Positional arguments are handled
# individually and manually -- see QPDFJob.hh in the CONFIGURATION
# section for details. See examples/qpdf-job.cc for an example.
#
# To understand the rest, start at main and follow comments in the
# code.
whoami = os.path.basename(sys.argv[0])
BANNER = f'''//
// This file is automatically generated by {whoami}.
// Edits will be automatically overwritten if the build is
// run in maintainer mode.
//
// clang-format off
//'''
def warn(*args, **kwargs):
print(*args, file=sys.stderr, **kwargs)
@contextmanager
def write_file(filename):
tmpfile = filename + '.tmp'
with open(tmpfile, 'w') as f:
yield f
if os.path.exists(filename) and filecmp.cmp(filename, tmpfile, False):
os.unlink(tmpfile)
else:
os.rename(tmpfile, filename)
class Main:
# SOURCES is a list of source files whose contents are used by
# this program. If they change, we are out of date.
SOURCES = [
# Keep this list in sync with CMakeLists.txt: auto_job_inputs
whoami,
'manual/_ext/qpdf.py',
'job.yml',
'manual/cli.rst',
]
# DESTS is a map to the output files this code generates. These
# generated files, as well as those added to DESTS later in the
# code, are included in various places by QPDFJob.hh or any of the
# implementing QPDFJob*.cc files.
DESTS = {
# Keep this list in sync with CMakeLists.txt: auto_job_outputs
'decl': 'libqpdf/qpdf/auto_job_decl.hh',
'init': 'libqpdf/qpdf/auto_job_init.hh',
'help': 'libqpdf/qpdf/auto_job_help.hh',
'schema': 'libqpdf/qpdf/auto_job_schema.hh',
'json_decl': 'libqpdf/qpdf/auto_job_json_decl.hh',
'json_init': 'libqpdf/qpdf/auto_job_json_init.hh',
# Others are added in top
}
# SUMS contains a checksum for each source and destination and is
# used to detect whether we're up to date without having to force
# recompilation all the time. This way the build can invoke this
# script unconditionally without causing stuff to rebuild every
# time.
SUMS = 'job.sums'
def main(self, args=sys.argv[1:], prog=whoami):
options = self.parse_args(args, prog)
self.top(options)
def parse_args(self, args, prog):
parser = argparse.ArgumentParser(
prog=prog,
description='Generate files for QPDFJob',
)
mxg = parser.add_mutually_exclusive_group(required=True)
mxg.add_argument('--check',
help='update checksums if files are not up to date',
action='store_true', default=False)
mxg.add_argument('--generate',
help='generate files from sources',
action='store_true', default=False)
return parser.parse_args(args)
def top(self, options):
with open('job.yml', 'r') as f:
data = yaml.safe_load(f.read())
# config_decls maps a config key from an option in "options"
# (from job.yml) to a list of declarations. A declaration is
# generated for each config method for that option table.
self.config_decls = {}
# Keep track of which configs we've declared since we can have
# option tables share a config class, as with the encryption
# tables.
self.declared_configs = set()
# Update DESTS -- see above. This ensures that each config
# class's contents are included in job.sums.
for o in data['options']:
config = o.get('config', None)
if config is not None:
self.DESTS[config] = f'include/qpdf/auto_job_{config}.hh'
self.config_decls[config] = []
if self.check_hashes():
exit(0)
elif options.check:
exit(f'{whoami}: auto job inputs have changed')
elif options.generate:
self.generate(data)
else:
exit(f'{whoami} unknown mode')
def get_hashes(self):
hashes = {}
for i in sorted([*self.SOURCES, *self.DESTS.values()]):
m = hashlib.sha256()
try:
with open(i, 'rb') as f:
m.update(f.read())
hashes[i] = m.hexdigest()
except FileNotFoundError:
pass
return hashes
def check_hashes(self):
hashes = self.get_hashes()
match = False
try:
old_hashes = {}
with open(self.SUMS, 'r') as f:
for line in f.readlines():
m = re.match(r'^(\S+) (\S+)\s*$', line)
if m:
old_hashes[m.group(1)] = m.group(2)
match = old_hashes == hashes
if not match:
# Write to stdout, not stderr. What we write to stderr
# is visible in a normal build. Writing to stdout will
# hide it in that case but expose it if you directly
# run ./generate_auto_job --check as in CI.
print(f'*** {whoami} hash mismatches ***')
match = False
for k, v in hashes.items():
if k not in old_hashes:
print(f' {k} is not in job.sums')
elif v != old_hashes[k]:
print(f' {k} was modified')
for k in old_hashes:
if k not in hashes:
print(f' {k} disappeared')
except Exception:
pass
return match
def update_hashes(self):
hashes = self.get_hashes()
with open(self.SUMS, 'w') as f:
print(f'# Generated by {whoami}', file=f)
for k, v in hashes.items():
print(f'{k} {v}', file=f)
def generate_doc(self, df, f):
st_top = 0
st_topic = 1
st_option = 2
st_option_help = 3
state = st_top
indent = None
topic = None
option = None
short_text = None
long_text = None
# Generate a bunch of short static functions rather than a big
# member function for help. Some compilers have problems with
# very large member functions in classes in anonymous
# namespaces.
help_files = 0
help_lines = 0
self.all_topics = set(self.options_without_help)
self.referenced_topics = set()
def set_indent(x):
nonlocal indent
indent = ' ' * len(x)
def append_long_text(line, topic):
nonlocal indent, long_text
if line == '\n':
long_text += '\n'
elif line.startswith(indent):
long_text += line[len(indent):]
else:
long_text = long_text.strip()
if long_text == '':
raise Exception(f'missing long text for {topic}')
long_text += '\n'
if 'help' not in topic:
# Help for --help itself has --help=... not
# referring to specific options.
for i in re.finditer(r'--help=([^\.\s]+)', long_text):
self.referenced_topics.add(i.group(1))
return True
return False
lineno = 0
for line in df.readlines():
if help_lines == 0:
if help_files > 0:
print('}', file=f)
help_files += 1
help_lines += 1
print(f'static void add_help_{help_files}(QPDFArgParser& ap)\n'
'{', file=f)
lineno += 1
if state == st_top:
m = re.match(r'^(\s*\.\. )help-topic (\S+): (.*)$', line)
if m:
set_indent(m.group(1))
topic = m.group(2)
short_text = m.group(3)
long_text = ''
state = st_topic
continue
m = re.match(
r'^(\s*\.\. )qpdf:option:: (([^=\[\s]+)([\[= ](.+))?)$',
line)
if m:
if topic is None:
raise Exception('option seen before topic')
set_indent(m.group(1))
option = m.group(3)
synopsis = m.group(2)
if synopsis.endswith('`'):
raise Exception(
f'stray ` at end of option line (line {lineno})')
if synopsis != option:
long_text = synopsis + '\n'
else:
long_text = ''
state = st_option
continue
elif state == st_topic:
if append_long_text(line, topic):
self.all_topics.add(topic)
print(f'ap.addHelpTopic("{topic}", "{short_text}",'
f' R"({long_text})");', file=f)
help_lines += 1
state = st_top
elif state == st_option:
if line == '\n' or line.startswith(indent):
m = re.match(r'^(\s*\.\. )help: (.*)$', line)
if m:
set_indent(m.group(1))
short_text = m.group(2)
state = st_option_help
else:
raise Exception('option without help text')
elif state == st_option_help:
if append_long_text(line, option):
if option in self.options_without_help:
self.options_without_help.remove(option)
else:
raise Exception(
f'help for unknown option {option},'
f' lineno={lineno}')
if option not in self.help_options:
self.jdata[option[2:]]['help'] = short_text
print(f'ap.addOptionHelp("{option}", "{topic}",'
f' "{short_text}", R"({long_text})");', file=f)
help_lines += 1
state = st_top
if help_lines == 20:
help_lines = 0
print('}', file=f)
print('static void add_help(QPDFArgParser& ap)\n{', file=f)
for i in range(help_files):
print(f' add_help_{i+1}(ap);', file=f)
print('ap.addHelpFooter("For detailed help, visit'
' the qpdf manual: https://qpdf.readthedocs.io\\n");', file=f)
print('}\n', file=f)
for i in self.referenced_topics:
if i not in self.all_topics:
raise Exception(f'help text referenced --help={i}')
for i in self.options_without_help:
raise Exception(
'Options without help: ' +
', '.join(self.options_without_help))
def generate(self, data):
warn(f'{whoami}: regenerating auto job files')
self.validate(data)
# Keep track of which options are help options since they are
# handled specially. Add the built-in help options to tables
# that we populate as we read job.yml since we won't encounter
# these in job.yml
self.help_options = set(
['--completion-bash', '--completion-zsh', '--help']
)
# Keep track of which options we have encountered but haven't
# seen help text for. This enables us to report if any option
# is missing help.
self.options_without_help = set(self.help_options)
# Compute the information needed for generated files and write
# the files.
self.prepare(data)
with write_file(self.DESTS['decl']) as f:
print(BANNER, file=f)
for i in self.decls:
print(i, file=f)
with write_file(self.DESTS['init']) as f:
print(BANNER, file=f)
for i in self.init:
print(i, file=f)
with write_file(self.DESTS['help']) as f:
with open('manual/cli.rst', 'r') as df:
print(BANNER, file=f)
self.generate_doc(df, f)
# Compute the json files after the config and arg parsing
# files. We need to have full information about all the
# options before we can generate the schema. Generating the
# schema also generates the json header files.
self.generate_schema(data)
with write_file(self.DESTS['schema']) as f:
print('static constexpr char const* JOB_SCHEMA_DATA = R"(' +
json.dumps(self.schema, indent=2, separators=(',', ': ')) +
')";', file=f)
for k, v in self.config_decls.items():
with write_file(self.DESTS[k]) as f:
print(BANNER, file=f)
for i in v:
print(i, file=f)
with write_file(self.DESTS['json_decl']) as f:
print(BANNER, file=f)
for i in self.json_decls:
print(i, file=f)
with write_file(self.DESTS['json_init']) as f:
print(BANNER, file=f)
for i in self.json_init:
print(i, file=f)
# Update hashes last to ensure that this will be rerun in the
# event of a failure.
self.update_hashes()
# DON'T ADD CODE TO generate AFTER update_hashes
def handle_trivial(self, i, identifier, cfg, prefix, kind, v):
# A "trivial" option is one whose handler does nothing other
# than to call the config method with the same name (switched
# to camelCase).
decl_arg = 1
decl_arg_optional = False
if kind == 'bare':
decl_arg = 0
self.init.append(f'this->ap.addBare("{i}", '
f'[this](){{{cfg}->{identifier}();}});')
elif kind == 'required_parameter':
self.init.append(
f'this->ap.addRequiredParameter("{i}", '
f'[this](std::string const& x){{{cfg}->{identifier}(x);}}'
f', "{v}");')
elif kind == 'optional_parameter':
decl_arg_optional = True
self.init.append(
f'this->ap.addOptionalParameter("{i}", '
f'[this](std::string const& x){{{cfg}->{identifier}(x);}});')
elif kind == 'required_choices':
self.init.append(
f'this->ap.addChoices("{i}", '
f'[this](std::string const& x){{{cfg}->{identifier}(x);}}'
f', true, {v}_choices);')
elif kind == 'optional_choices':
decl_arg_optional = True
self.init.append(
f'this->ap.addChoices("{i}", '
f'[this](std::string const& x){{{cfg}->{identifier}(x);}}'
f', false, {v}_choices);')
# Generate declarations for config methods separately by
# config object.
config_prefix = prefix + 'Config'
arg = ''
if decl_arg:
arg = 'std::string const& parameter'
fn = f'{config_prefix}* {identifier}({arg})'
if fn not in self.declared_configs:
self.declared_configs.add(fn)
self.config_decls[cfg].append(f'QPDF_DLL {fn};')
if decl_arg_optional:
# Rather than making the parameter optional, add an
# overloaded method that takes no arguments. This
# strategy enables us to change an option from bare to
# optional_parameter or optional_choices without
# breaking binary compatibility. The overloaded
# methods both have to be implemented manually. They
# are not automatically called, so if you forget,
# someone will get a link error if they try to call
# one.
self.config_decls[cfg].append(
f'QPDF_DLL {config_prefix}* {identifier}();')
def handle_flag(self, i, identifier, kind, v):
# For flags that require manual handlers, declare the handler
# and register it. They have to be implemented manually in
# QPDFJob_argv.cc. You get compiler/linker errors for any
# missing methods.
if kind == 'bare':
self.decls.append(f'void {identifier}();')
self.init.append(f'this->ap.addBare("{i}", '
f'b(&ArgParser::{identifier}));')
elif kind == 'required_parameter':
self.decls.append(f'void {identifier}(std::string const&);')
self.init.append(f'this->ap.addRequiredParameter("{i}", '
f'p(&ArgParser::{identifier})'
f', "{v}");')
elif kind == 'optional_parameter':
self.decls.append(f'void {identifier}(std::string const&);')
self.init.append(f'this->ap.addOptionalParameter("{i}", '
f'p(&ArgParser::{identifier}));')
elif kind == 'required_choices':
self.decls.append(f'void {identifier}(std::string const&);')
self.init.append(f'this->ap.addChoices("{i}", '
f'p(&ArgParser::{identifier})'
f', true, {v}_choices);')
elif kind == 'optional_choices':
self.decls.append(f'void {identifier}(std::string const&);')
self.init.append(f'this->ap.addChoices("{i}", '
f'p(&ArgParser::{identifier})'
f', false, {v}_choices);')
def prepare(self, data):
self.decls = [] # argv handler declarations
self.init = [] # initialize arg parsing code
self.json_decls = [] # json handler declarations
self.json_init = [] # initialize json handlers
self.jdata = {} # running data used for json generate
self.by_table = {} # table information by name for easy lookup
def add_jdata(flag, table, details):
# Keep track of each flag and where it appears so we can
# check consistency between the json information and the
# options section.
nonlocal self
if table == 'help':
self.help_options.add(f'--{flag}')
elif flag in self.jdata:
self.jdata[flag]['tables'][table] = details
else:
self.jdata[flag] = {
'tables': {table: details},
}
# helper functions
self.init.append('auto b = [this](void (ArgParser::*f)()) {')
self.init.append(' return QPDFArgParser::bindBare(f, this);')
self.init.append('};')
self.init.append(
'auto p = [this](void (ArgParser::*f)(std::string const&)) {')
self.init.append(' return QPDFArgParser::bindParam(f, this);')
self.init.append('};')
self.init.append('')
# static variables for each set of choices for choices options
for k, v in data['choices'].items():
s = f'static char const* {k}_choices[] = {{'
for i in v:
s += f'"{i}", '
s += '0};'
self.init.append(s)
self.json_init.append(s)
self.init.append('')
self.json_init.append('')
# constants for the table names to reduce hard-coding strings
# in the handlers
for o in data['options']:
table = o['table']
if table in ('main', 'help'):
continue
i = self.to_identifier(table, 'O', True)
self.decls.append(f'static constexpr char const* {i} = "{table}";')
self.decls.append('')
# Walk through all the options adding declarations for the
# option handlers and initialization code to register the
# handlers in QPDFArgParser. For "trivial" cases,
# QPDFArgParser will call the corresponding config method
# automatically. Otherwise, it will declare a handler that you
# have to explicitly implement.
# If you add a new option table, you have to set config to the
# name of a member variable that you declare in the ArgParser
# class in QPDFJob_argv.cc. Then there should be an option in
# the main table, also listed as manual in job.yml, that
# switches to it. See implementations of any of the existing
# options that do this for examples.
for o in data['options']:
table = o['table']
config = o.get('config', None)
table_prefix = o.get('prefix', '')
arg_prefix = 'arg' + table_prefix
config_prefix = o.get('config_prefix', table_prefix)
manual = o.get('manual', [])
json_prefix = table_prefix or table
self.by_table[json_prefix] = {
'config': config,
'manual': manual,
}
if table == 'main':
self.init.append('this->ap.selectMainOptionTable();')
elif table == 'help':
self.init.append('this->ap.selectHelpOptionTable();')
else:
identifier = self.to_identifier(table, 'argEnd', False)
self.init.append(f'this->ap.registerOptionTable("{table}",'
f' b(&ArgParser::{identifier}));')
if o.get('positional', False):
self.decls.append(
f'void {arg_prefix}Positional(std::string const&);')
self.init.append('this->ap.addPositional('
f'p(&ArgParser::{arg_prefix}Positional));')
flags = {}
for i in o.get('bare', []):
flags[i] = ['bare', None]
for i, v in o.get('required_parameter', {}).items():
flags[i] = ['required_parameter', v]
for i in o.get('optional_parameter', []):
flags[i] = ['optional_parameter', None]
for i, v in o.get('required_choices', {}).items():
flags[i] = ['required_choices', v]
for i, v in o.get('optional_choices', {}).items():
flags[i] = ['optional_choices', v]
self.options_without_help.add(f'--{i}')
for i, [kind, v] in flags.items():
self.options_without_help.add(f'--{i}')
add_jdata(i, json_prefix, [kind, v])
if config is None or i in manual:
identifier = self.to_identifier(i, arg_prefix, False)
self.handle_flag(i, identifier, kind, v)
else:
identifier = self.to_identifier(i, '', False)
self.handle_trivial(
i, identifier, config, config_prefix, kind, v)
# Subsidiary options tables need end methods to do any
# final checking within the option table. Final checking
# for the main option table is handled by
# checkConfiguration, which is called explicitly in the
# QPDFJob code.
if table not in ('main', 'help'):
identifier = self.to_identifier(table, 'argEnd', False)
self.decls.append(f'void {identifier}();')
def handle_json_trivial(self, flag_key, fdata):
config = None
for t, [kind, v] in fdata['tables'].items():
# We have determined that all tables, if multiple, have
# the same config.
tdata = self.by_table[t]
config = tdata['config']
if kind == 'bare':
self.json_init.append(
f'addBare([this]() {{ {config}->{flag_key}(); }});')
elif kind == 'required_parameter' or kind == 'optional_parameter':
# Optional parameters end up just being the empty string,
# so the handler has to deal with it. The empty string is
# also allowed for non-optional.
self.json_init.append(
f'addParameter([this](std::string const& p)'
f' {{ {config}->{flag_key}(p); }});')
elif kind == 'required_choices':
self.json_init.append(
f'addChoices({v}_choices, true,'
f' [this](std::string const& p)'
f' {{ {config}->{flag_key}(p); }});')
elif kind == 'optional_choices':
self.json_init.append(
f'addChoices({v}_choices, false,'
f' [this](std::string const& p)'
f' {{ {config}->{flag_key}(p); }});')
def handle_json_manual(self, path):
method = re.sub(r'\.([a-zA-Z0-9])',
lambda x: x.group(1).upper(),
f'setup{path}')
self.json_decls.append(f'void {method}();')
self.json_init.append(f'{method}();')
def option_to_json_key(self, s):
return self.to_identifier(s, '', False)
def flag_to_schema_key(self, k):
if k.startswith('_'):
schema_key = k[1:]
else:
schema_key = re.sub(r'[^\.]+\.', '', k)
return self.option_to_json_key(schema_key)
def build_schema(self, j, path, flag, expected, options_seen):
# j: the part of data from "json" in job.yml as we traverse it
# path: a string representation of the path in the json
# flag: the command-line flag
# expected: a map of command-line options we expect to eventually see
# options_seen: which options we have seen so far
# As described in job.yml, the json can have keys that don't
# map to options. This includes keys whose values are
# dictionaries as well as keys that correspond to positional
# arguments. These start with _ and get their help from
# job.yml. Things that correspond to options get their help
# from the help text we gathered from cli.rst.
if flag in expected:
options_seen.add(flag)
elif isinstance(j, str):
if not flag.startswith('_'):
raise Exception(f'json: {flag} has a description'
' but doesn\'t start with _')
elif not (flag == '' or flag.startswith('_')):
raise Exception(f'json: unknown key {flag}')
# The logic here is subtle and makes sense if you understand
# how our JSON schemas work. They are described in JSON.hh,
# but basically, if you see a dictionary, the schema should
# have a dictionary with the same keys whose values are
# descriptive. If you see an array, the array should have
# single member that describes each element of the array. See
# JSON.hh for details.
# See comments in QPDFJob_json.cc in the Handlers class
# declaration to understand how and why the methods called
# here work. The idea is that Handlers keeps a stack of
# JSONHandler shared pointers so that we can register our
# handlers in the right place as we go.
if isinstance(j, dict):
schema_value = {}
if flag:
identifier = self.to_identifier(path, '', False)
self.json_decls.append(f'void begin{identifier}(JSON);')
self.json_decls.append(f'void end{identifier}();')
self.json_init.append(
f'beginDict(bindJSON(&Handlers::begin{identifier}),'
f' bindBare(&Handlers::end{identifier})); // {path}')
for k, v in j.items():
schema_key = self.flag_to_schema_key(k)
subpath = f'{path}.{schema_key}'
self.json_init.append(f'pushKey("{schema_key}");')
schema_value[schema_key] = self.build_schema(
v, subpath, k, expected, options_seen)
self.json_init.append(f'popHandler(); // key: {schema_key}')
elif isinstance(j, list):
if len(j) != 1:
raise Exception('json contains array with length != 1')
identifier = self.to_identifier(path, '', False)
self.json_decls.append(f'void begin{identifier}Array(JSON);')
self.json_decls.append(f'void end{identifier}Array();')
self.json_init.append(
f'beginArray(bindJSON(&Handlers::begin{identifier}Array),'
f' bindBare(&Handlers::end{identifier}Array));'
f' // {path}[]')
schema_value = [
self.build_schema(j[0], path, flag,
expected, options_seen)
]
self.json_init.append(
f'popHandler(); // array: {path}[]')
else:
schema_value = j
if schema_value is None:
schema_value = re.sub(
r'--([^\s=]+)',
lambda x: self.option_to_json_key(x.group(1)),
expected[flag]['help'])
is_trivial = False
if flag in expected:
is_trivial = True
common_config = None
for t in expected[flag]['tables']:
tdata = self.by_table[t]
if flag in tdata['manual']:
is_trivial = False
if common_config is None:
common_config = tdata['config']
elif common_config != tdata['config']:
is_trivial = False
config_key = self.flag_to_schema_key(flag)
if is_trivial:
self.handle_json_trivial(config_key, expected[flag])
else:
self.handle_json_manual(path)
return schema_value
def generate_schema(self, data):
# Check to make sure that every command-line option is
# represented in data['json']. Build a list of options that we
# expect. If an option appears once, we just expect to see it
# once. If it appears in more than one options table, we need
# to see a separate version of it for each option table. It is
# represented in job.yml prepended with the table prefix. The
# table prefix is removed in the schema. Example: "password"
# appears multiple times, so the json section of job.yml has
# main.password, uo.password, etc. But most options appear
# only once, so we can just list them as they are. There is a
# nearly exact match between option tables and dictionary in
# the job json schema, but it's not perfect because of how
# positional arguments are handled, so we have to do this
# extra work. Information about which tables a particular
# option appeared in is gathered up in prepare().
expected = {}
for k, v in self.jdata.items():
tables = v['tables']
if len(tables) == 1:
expected[k] = {**v}
else:
for t in sorted(tables):
expected[f'{t}.{k}'] = {**v}
options_seen = set()
# Walk through the json information building the schema as we
# go. This verifies consistency between command-line options
# and the json section of the data and builds up a schema by
# populating with help information as available. In addition
# to generating the schema, we declare and register json
# handlers that correspond with it. That way, we can first
# check a job JSON file against the schema, and if it matches,
# we have fewer error opportunities while calling handlers.
self.schema = self.build_schema(
data['json'], '', '', expected, options_seen)
if options_seen != set(expected.keys()):
raise Exception('missing from json: ' +
str(set(expected.keys()) - options_seen))
def check_keys(self, what, d, exp):
if not isinstance(d, dict):
exit(f'{what} is not a dictionary')
actual = set(d.keys())
extra = actual - exp
if extra:
exit(f'{what}: unknown keys = {extra}')
def validate(self, data):
self.check_keys('top', data, set(
['choices', 'options', 'json']))
for o in data['options']:
self.check_keys('top', o, set(
['table', 'prefix', 'config', 'config_prefix',
'manual', 'bare', 'positional',
'optional_parameter', 'required_parameter',
'required_choices', 'optional_choices']))
def to_identifier(self, label, prefix, const):
identifier = re.sub(r'[^a-zA-Z0-9]', '_', label)
if const:
identifier = f'{prefix}_{identifier.upper()}'
else:
if prefix:
identifier = f'{prefix}_{identifier}'
identifier = re.sub(r'_([a-z])',
lambda x: x.group(1).upper(),
identifier).replace('_', '')
return identifier
if __name__ == '__main__':
try:
os.chdir(os.path.dirname(os.path.realpath(__file__)))
Main().main()
except KeyboardInterrupt:
exit(130)