qemu-e2k/scripts/qapi/common.py
Markus Armbruster 157dd36395 qapi: Simplify how QAPIDoc implements its state machine
QAPIDoc uses a state machine to for processing of documentation lines.
Its state is encoded as an enum QAPIDoc._state (well, as enum-like
class actually, thanks to our infatuation with Python 2).

All we ever do with the state is calling the state's function to
process a line of documentation.  The enum values effectively serve as
handles for the functions.

Eliminate the rather wordy indirection: store the function to call in
QAPIDoc._append_line.  Update and improve comments.

Signed-off-by: Markus Armbruster <armbru@redhat.com>
Message-Id: <20190606153803.5278-8-armbru@redhat.com>
Reviewed-by: Kevin Wolf <kwolf@redhat.com>
[Commit message typo fixed]
2019-06-12 18:37:17 +02:00

2580 lines
88 KiB
Python

#
# QAPI helper library
#
# Copyright IBM, Corp. 2011
# Copyright (c) 2013-2018 Red Hat Inc.
#
# Authors:
# Anthony Liguori <aliguori@us.ibm.com>
# Markus Armbruster <armbru@redhat.com>
#
# This work is licensed under the terms of the GNU GPL, version 2.
# See the COPYING file in the top-level directory.
from __future__ import print_function
from contextlib import contextmanager
import errno
import os
import re
import string
import sys
from collections import OrderedDict
builtin_types = {
'null': 'QTYPE_QNULL',
'str': 'QTYPE_QSTRING',
'int': 'QTYPE_QNUM',
'number': 'QTYPE_QNUM',
'bool': 'QTYPE_QBOOL',
'int8': 'QTYPE_QNUM',
'int16': 'QTYPE_QNUM',
'int32': 'QTYPE_QNUM',
'int64': 'QTYPE_QNUM',
'uint8': 'QTYPE_QNUM',
'uint16': 'QTYPE_QNUM',
'uint32': 'QTYPE_QNUM',
'uint64': 'QTYPE_QNUM',
'size': 'QTYPE_QNUM',
'any': None, # any QType possible, actually
'QType': 'QTYPE_QSTRING',
}
# Are documentation comments required?
doc_required = False
# Whitelist of commands allowed to return a non-dictionary
returns_whitelist = []
# Whitelist of entities allowed to violate case conventions
name_case_whitelist = []
enum_types = {}
struct_types = {}
union_types = {}
all_names = {}
#
# Parsing the schema into expressions
#
def error_path(parent):
res = ''
while parent:
res = ('In file included from %s:%d:\n' % (parent['file'],
parent['line'])) + res
parent = parent['parent']
return res
class QAPIError(Exception):
def __init__(self, fname, line, col, incl_info, msg):
Exception.__init__(self)
self.fname = fname
self.line = line
self.col = col
self.info = incl_info
self.msg = msg
def __str__(self):
loc = '%s:%d' % (self.fname, self.line)
if self.col is not None:
loc += ':%s' % self.col
return error_path(self.info) + '%s: %s' % (loc, self.msg)
class QAPIParseError(QAPIError):
def __init__(self, parser, msg):
col = 1
for ch in parser.src[parser.line_pos:parser.pos]:
if ch == '\t':
col = (col + 7) % 8 + 1
else:
col += 1
QAPIError.__init__(self, parser.fname, parser.line, col,
parser.incl_info, msg)
class QAPISemError(QAPIError):
def __init__(self, info, msg):
QAPIError.__init__(self, info['file'], info['line'], None,
info['parent'], msg)
class QAPIDoc(object):
"""
A documentation comment block, either expression or free-form
Expression documentation blocks consist of
* a body section: one line naming the expression, followed by an
overview (any number of lines)
* argument sections: a description of each argument (for commands
and events) or member (for structs, unions and alternates)
* features sections: a description of each feature flag
* additional (non-argument) sections, possibly tagged
Free-form documentation blocks consist only of a body section.
"""
class Section(object):
def __init__(self, name=None):
# optional section name (argument/member or section name)
self.name = name
# the list of lines for this section
self.text = ''
def append(self, line):
self.text += line.rstrip() + '\n'
class ArgSection(Section):
def __init__(self, name):
QAPIDoc.Section.__init__(self, name)
self.member = None
def connect(self, member):
self.member = member
def __init__(self, parser, info):
# self._parser is used to report errors with QAPIParseError. The
# resulting error position depends on the state of the parser.
# It happens to be the beginning of the comment. More or less
# servicable, but action at a distance.
self._parser = parser
self.info = info
self.symbol = None
self.body = QAPIDoc.Section()
# dict mapping parameter name to ArgSection
self.args = OrderedDict()
self.features = OrderedDict()
# a list of Section
self.sections = []
# the current section
self._section = self.body
self._append_line = self._append_body_line
def has_section(self, name):
"""Return True if we have a section with this name."""
for i in self.sections:
if i.name == name:
return True
return False
def append(self, line):
"""
Parse a comment line and add it to the documentation.
The way that the line is dealt with depends on which part of
the documentation we're parsing right now:
* The body section: ._append_line is ._append_body_line
* An argument section: ._append_line is ._append_args_line
* A features section: ._append_line is ._append_features_line
* An additional section: ._append_line is ._append_various_line
"""
line = line[1:]
if not line:
self._append_freeform(line)
return
if line[0] != ' ':
raise QAPIParseError(self._parser, "Missing space after #")
line = line[1:]
self._append_line(line)
def end_comment(self):
self._end_section()
@staticmethod
def _is_section_tag(name):
return name in ('Returns:', 'Since:',
# those are often singular or plural
'Note:', 'Notes:',
'Example:', 'Examples:',
'TODO:')
def _append_body_line(self, line):
"""
Process a line of documentation text in the body section.
If this a symbol line and it is the section's first line, this
is an expression documentation block for that symbol.
If it's an expression documentation block, another symbol line
begins the argument section for the argument named by it, and
a section tag begins an additional section. Start that
section and append the line to it.
Else, append the line to the current section.
"""
name = line.split(' ', 1)[0]
# FIXME not nice: things like '# @foo:' and '# @foo: ' aren't
# recognized, and get silently treated as ordinary text
if not self.symbol and not self.body.text and line.startswith('@'):
if not line.endswith(':'):
raise QAPIParseError(self._parser, "Line should end with :")
self.symbol = line[1:-1]
# FIXME invalid names other than the empty string aren't flagged
if not self.symbol:
raise QAPIParseError(self._parser, "Invalid name")
elif self.symbol:
# This is an expression documentation block
if name.startswith('@') and name.endswith(':'):
self._append_line = self._append_args_line
self._append_args_line(line)
elif line == 'Features:':
self._append_line = self._append_features_line
elif self._is_section_tag(name):
self._append_line = self._append_various_line
self._append_various_line(line)
else:
self._append_freeform(line.strip())
else:
# This is a free-form documentation block
self._append_freeform(line.strip())
def _append_args_line(self, line):
"""
Process a line of documentation text in an argument section.
A symbol line begins the next argument section, a section tag
section or a non-indented line after a blank line begins an
additional section. Start that section and append the line to
it.
Else, append the line to the current section.
"""
name = line.split(' ', 1)[0]
if name.startswith('@') and name.endswith(':'):
line = line[len(name)+1:]
self._start_args_section(name[1:-1])
elif self._is_section_tag(name):
self._append_line = self._append_various_line
self._append_various_line(line)
return
elif (self._section.text.endswith('\n\n')
and line and not line[0].isspace()):
if line == 'Features:':
self._append_line = self._append_features_line
else:
self._start_section()
self._append_line = self._append_various_line
self._append_various_line(line)
return
self._append_freeform(line.strip())
def _append_features_line(self, line):
name = line.split(' ', 1)[0]
if name.startswith('@') and name.endswith(':'):
line = line[len(name)+1:]
self._start_features_section(name[1:-1])
elif self._is_section_tag(name):
self._append_line = self._append_various_line
self._append_various_line(line)
return
elif (self._section.text.endswith('\n\n')
and line and not line[0].isspace()):
self._start_section()
self._append_line = self._append_various_line
self._append_various_line(line)
return
self._append_freeform(line.strip())
def _append_various_line(self, line):
"""
Process a line of documentation text in an additional section.
A symbol line is an error.
A section tag begins an additional section. Start that
section and append the line to it.
Else, append the line to the current section.
"""
name = line.split(' ', 1)[0]
if name.startswith('@') and name.endswith(':'):
raise QAPIParseError(self._parser,
"'%s' can't follow '%s' section"
% (name, self.sections[0].name))
elif self._is_section_tag(name):
line = line[len(name)+1:]
self._start_section(name[:-1])
if (not self._section.name or
not self._section.name.startswith('Example')):
line = line.strip()
self._append_freeform(line)
def _start_symbol_section(self, symbols_dict, name):
# FIXME invalid names other than the empty string aren't flagged
if not name:
raise QAPIParseError(self._parser, "Invalid parameter name")
if name in symbols_dict:
raise QAPIParseError(self._parser,
"'%s' parameter name duplicated" % name)
assert not self.sections
self._end_section()
self._section = QAPIDoc.ArgSection(name)
symbols_dict[name] = self._section
def _start_args_section(self, name):
self._start_symbol_section(self.args, name)
def _start_features_section(self, name):
self._start_symbol_section(self.features, name)
def _start_section(self, name=None):
if name in ('Returns', 'Since') and self.has_section(name):
raise QAPIParseError(self._parser,
"Duplicated '%s' section" % name)
self._end_section()
self._section = QAPIDoc.Section(name)
self.sections.append(self._section)
def _end_section(self):
if self._section:
text = self._section.text = self._section.text.strip()
if self._section.name and (not text or text.isspace()):
raise QAPIParseError(self._parser, "Empty doc section '%s'"
% self._section.name)
self._section = None
def _append_freeform(self, line):
match = re.match(r'(@\S+:)', line)
if match:
raise QAPIParseError(self._parser,
"'%s' not allowed in free-form documentation"
% match.group(1))
self._section.append(line)
def connect_member(self, member):
if member.name not in self.args:
# Undocumented TODO outlaw
self.args[member.name] = QAPIDoc.ArgSection(member.name)
self.args[member.name].connect(member)
def check_expr(self, expr):
if self.has_section('Returns') and 'command' not in expr:
raise QAPISemError(self.info,
"'Returns:' is only valid for commands")
def check(self):
bogus = [name for name, section in self.args.items()
if not section.member]
if bogus:
raise QAPISemError(
self.info,
"The following documented members are not in "
"the declaration: %s" % ", ".join(bogus))
class QAPISchemaParser(object):
def __init__(self, fp, previously_included=[], incl_info=None):
self.fname = fp.name
previously_included.append(os.path.abspath(fp.name))
self.incl_info = incl_info
self.src = fp.read()
if self.src == '' or self.src[-1] != '\n':
self.src += '\n'
self.cursor = 0
self.line = 1
self.line_pos = 0
self.exprs = []
self.docs = []
self.accept()
cur_doc = None
while self.tok is not None:
info = {'file': self.fname, 'line': self.line,
'parent': self.incl_info}
if self.tok == '#':
self.reject_expr_doc(cur_doc)
cur_doc = self.get_doc(info)
self.docs.append(cur_doc)
continue
expr = self.get_expr(False)
if 'include' in expr:
self.reject_expr_doc(cur_doc)
if len(expr) != 1:
raise QAPISemError(info, "Invalid 'include' directive")
include = expr['include']
if not isinstance(include, str):
raise QAPISemError(info,
"Value of 'include' must be a string")
incl_fname = os.path.join(os.path.dirname(self.fname),
include)
self.exprs.append({'expr': {'include': incl_fname},
'info': info})
exprs_include = self._include(include, info, incl_fname,
previously_included)
if exprs_include:
self.exprs.extend(exprs_include.exprs)
self.docs.extend(exprs_include.docs)
elif "pragma" in expr:
self.reject_expr_doc(cur_doc)
if len(expr) != 1:
raise QAPISemError(info, "Invalid 'pragma' directive")
pragma = expr['pragma']
if not isinstance(pragma, dict):
raise QAPISemError(
info, "Value of 'pragma' must be a dictionary")
for name, value in pragma.items():
self._pragma(name, value, info)
else:
expr_elem = {'expr': expr,
'info': info}
if cur_doc:
if not cur_doc.symbol:
raise QAPISemError(
cur_doc.info, "Expression documentation required")
expr_elem['doc'] = cur_doc
self.exprs.append(expr_elem)
cur_doc = None
self.reject_expr_doc(cur_doc)
@staticmethod
def reject_expr_doc(doc):
if doc and doc.symbol:
raise QAPISemError(
doc.info,
"Documentation for '%s' is not followed by the definition"
% doc.symbol)
def _include(self, include, info, incl_fname, previously_included):
incl_abs_fname = os.path.abspath(incl_fname)
# catch inclusion cycle
inf = info
while inf:
if incl_abs_fname == os.path.abspath(inf['file']):
raise QAPISemError(info, "Inclusion loop for %s" % include)
inf = inf['parent']
# skip multiple include of the same file
if incl_abs_fname in previously_included:
return None
try:
if sys.version_info[0] >= 3:
fobj = open(incl_fname, 'r', encoding='utf-8')
else:
fobj = open(incl_fname, 'r')
except IOError as e:
raise QAPISemError(info, '%s: %s' % (e.strerror, incl_fname))
return QAPISchemaParser(fobj, previously_included, info)
def _pragma(self, name, value, info):
global doc_required, returns_whitelist, name_case_whitelist
if name == 'doc-required':
if not isinstance(value, bool):
raise QAPISemError(info,
"Pragma 'doc-required' must be boolean")
doc_required = value
elif name == 'returns-whitelist':
if (not isinstance(value, list)
or any([not isinstance(elt, str) for elt in value])):
raise QAPISemError(info,
"Pragma returns-whitelist must be"
" a list of strings")
returns_whitelist = value
elif name == 'name-case-whitelist':
if (not isinstance(value, list)
or any([not isinstance(elt, str) for elt in value])):
raise QAPISemError(info,
"Pragma name-case-whitelist must be"
" a list of strings")
name_case_whitelist = value
else:
raise QAPISemError(info, "Unknown pragma '%s'" % name)
def accept(self, skip_comment=True):
while True:
self.tok = self.src[self.cursor]
self.pos = self.cursor
self.cursor += 1
self.val = None
if self.tok == '#':
if self.src[self.cursor] == '#':
# Start of doc comment
skip_comment = False
self.cursor = self.src.find('\n', self.cursor)
if not skip_comment:
self.val = self.src[self.pos:self.cursor]
return
elif self.tok in '{}:,[]':
return
elif self.tok == "'":
string = ''
esc = False
while True:
ch = self.src[self.cursor]
self.cursor += 1
if ch == '\n':
raise QAPIParseError(self, 'Missing terminating "\'"')
if esc:
if ch == 'b':
string += '\b'
elif ch == 'f':
string += '\f'
elif ch == 'n':
string += '\n'
elif ch == 'r':
string += '\r'
elif ch == 't':
string += '\t'
elif ch == 'u':
value = 0
for _ in range(0, 4):
ch = self.src[self.cursor]
self.cursor += 1
if ch not in '0123456789abcdefABCDEF':
raise QAPIParseError(self,
'\\u escape needs 4 '
'hex digits')
value = (value << 4) + int(ch, 16)
# If Python 2 and 3 didn't disagree so much on
# how to handle Unicode, then we could allow
# Unicode string defaults. But most of QAPI is
# ASCII-only, so we aren't losing much for now.
if not value or value > 0x7f:
raise QAPIParseError(self,
'For now, \\u escape '
'only supports non-zero '
'values up to \\u007f')
string += chr(value)
elif ch in '\\/\'"':
string += ch
else:
raise QAPIParseError(self,
"Unknown escape \\%s" % ch)
esc = False
elif ch == '\\':
esc = True
elif ch == "'":
self.val = string
return
else:
string += ch
elif self.src.startswith('true', self.pos):
self.val = True
self.cursor += 3
return
elif self.src.startswith('false', self.pos):
self.val = False
self.cursor += 4
return
elif self.src.startswith('null', self.pos):
self.val = None
self.cursor += 3
return
elif self.tok == '\n':
if self.cursor == len(self.src):
self.tok = None
return
self.line += 1
self.line_pos = self.cursor
elif not self.tok.isspace():
raise QAPIParseError(self, 'Stray "%s"' % self.tok)
def get_members(self):
expr = OrderedDict()
if self.tok == '}':
self.accept()
return expr
if self.tok != "'":
raise QAPIParseError(self, 'Expected string or "}"')
while True:
key = self.val
self.accept()
if self.tok != ':':
raise QAPIParseError(self, 'Expected ":"')
self.accept()
if key in expr:
raise QAPIParseError(self, 'Duplicate key "%s"' % key)
expr[key] = self.get_expr(True)
if self.tok == '}':
self.accept()
return expr
if self.tok != ',':
raise QAPIParseError(self, 'Expected "," or "}"')
self.accept()
if self.tok != "'":
raise QAPIParseError(self, 'Expected string')
def get_values(self):
expr = []
if self.tok == ']':
self.accept()
return expr
if self.tok not in "{['tfn":
raise QAPIParseError(self, 'Expected "{", "[", "]", string, '
'boolean or "null"')
while True:
expr.append(self.get_expr(True))
if self.tok == ']':
self.accept()
return expr
if self.tok != ',':
raise QAPIParseError(self, 'Expected "," or "]"')
self.accept()
def get_expr(self, nested):
if self.tok != '{' and not nested:
raise QAPIParseError(self, 'Expected "{"')
if self.tok == '{':
self.accept()
expr = self.get_members()
elif self.tok == '[':
self.accept()
expr = self.get_values()
elif self.tok in "'tfn":
expr = self.val
self.accept()
else:
raise QAPIParseError(self, 'Expected "{", "[", string, '
'boolean or "null"')
return expr
def get_doc(self, info):
if self.val != '##':
raise QAPIParseError(self, "Junk after '##' at start of "
"documentation comment")
doc = QAPIDoc(self, info)
self.accept(False)
while self.tok == '#':
if self.val.startswith('##'):
# End of doc comment
if self.val != '##':
raise QAPIParseError(self, "Junk after '##' at end of "
"documentation comment")
doc.end_comment()
self.accept()
return doc
else:
doc.append(self.val)
self.accept(False)
raise QAPIParseError(self, "Documentation comment must end with '##'")
#
# Semantic analysis of schema expressions
# TODO fold into QAPISchema
# TODO catching name collisions in generated code would be nice
#
def find_base_members(base):
if isinstance(base, dict):
return base
base_struct_define = struct_types.get(base)
if not base_struct_define:
return None
return base_struct_define['data']
# Return the qtype of an alternate branch, or None on error.
def find_alternate_member_qtype(qapi_type):
if qapi_type in builtin_types:
return builtin_types[qapi_type]
elif qapi_type in struct_types:
return 'QTYPE_QDICT'
elif qapi_type in enum_types:
return 'QTYPE_QSTRING'
elif qapi_type in union_types:
return 'QTYPE_QDICT'
return None
# Return the discriminator enum define if discriminator is specified as an
# enum type, otherwise return None.
def discriminator_find_enum_define(expr):
base = expr.get('base')
discriminator = expr.get('discriminator')
if not (discriminator and base):
return None
base_members = find_base_members(base)
if not base_members:
return None
discriminator_value = base_members.get(discriminator)
if not discriminator_value:
return None
return enum_types.get(discriminator_value['type'])
# Names must be letters, numbers, -, and _. They must start with letter,
# except for downstream extensions which must start with __RFQDN_.
# Dots are only valid in the downstream extension prefix.
valid_name = re.compile(r'^(__[a-zA-Z0-9.-]+_)?'
'[a-zA-Z][a-zA-Z0-9_-]*$')
def check_name(info, source, name, allow_optional=False,
enum_member=False):
global valid_name
membername = name
if not isinstance(name, str):
raise QAPISemError(info, "%s requires a string name" % source)
if name.startswith('*'):
membername = name[1:]
if not allow_optional:
raise QAPISemError(info, "%s does not allow optional name '%s'"
% (source, name))
# Enum members can start with a digit, because the generated C
# code always prefixes it with the enum name
if enum_member and membername[0].isdigit():
membername = 'D' + membername
# Reserve the entire 'q_' namespace for c_name(), and for 'q_empty'
# and 'q_obj_*' implicit type names.
if not valid_name.match(membername) or \
c_name(membername, False).startswith('q_'):
raise QAPISemError(info, "%s uses invalid name '%s'" % (source, name))
def add_name(name, info, meta, implicit=False):
global all_names
check_name(info, "'%s'" % meta, name)
# FIXME should reject names that differ only in '_' vs. '.'
# vs. '-', because they're liable to clash in generated C.
if name in all_names:
raise QAPISemError(info, "%s '%s' is already defined"
% (all_names[name], name))
if not implicit and (name.endswith('Kind') or name.endswith('List')):
raise QAPISemError(info, "%s '%s' should not end in '%s'"
% (meta, name, name[-4:]))
all_names[name] = meta
def check_if(expr, info):
def check_if_str(ifcond, info):
if not isinstance(ifcond, str):
raise QAPISemError(
info, "'if' condition must be a string or a list of strings")
if ifcond == '':
raise QAPISemError(info, "'if' condition '' makes no sense")
ifcond = expr.get('if')
if ifcond is None:
return
if isinstance(ifcond, list):
if ifcond == []:
raise QAPISemError(info, "'if' condition [] is useless")
for elt in ifcond:
check_if_str(elt, info)
else:
check_if_str(ifcond, info)
def check_type(info, source, value, allow_array=False,
allow_dict=False, allow_optional=False,
allow_metas=[]):
global all_names
if value is None:
return
# Check if array type for value is okay
if isinstance(value, list):
if not allow_array:
raise QAPISemError(info, "%s cannot be an array" % source)
if len(value) != 1 or not isinstance(value[0], str):
raise QAPISemError(info,
"%s: array type must contain single type name" %
source)
value = value[0]
# Check if type name for value is okay
if isinstance(value, str):
if value not in all_names:
raise QAPISemError(info, "%s uses unknown type '%s'"
% (source, value))
if not all_names[value] in allow_metas:
raise QAPISemError(info, "%s cannot use %s type '%s'" %
(source, all_names[value], value))
return
if not allow_dict:
raise QAPISemError(info, "%s should be a type name" % source)
if not isinstance(value, OrderedDict):
raise QAPISemError(info,
"%s should be a dictionary or type name" % source)
# value is a dictionary, check that each member is okay
for (key, arg) in value.items():
check_name(info, "Member of %s" % source, key,
allow_optional=allow_optional)
if c_name(key, False) == 'u' or c_name(key, False).startswith('has_'):
raise QAPISemError(info, "Member of %s uses reserved name '%s'"
% (source, key))
# Todo: allow dictionaries to represent default values of
# an optional argument.
check_known_keys(info, "member '%s' of %s" % (key, source),
arg, ['type'], ['if'])
check_type(info, "Member '%s' of %s" % (key, source),
arg['type'], allow_array=True,
allow_metas=['built-in', 'union', 'alternate', 'struct',
'enum'])
def check_command(expr, info):
name = expr['command']
boxed = expr.get('boxed', False)
args_meta = ['struct']
if boxed:
args_meta += ['union', 'alternate']
check_type(info, "'data' for command '%s'" % name,
expr.get('data'), allow_dict=not boxed, allow_optional=True,
allow_metas=args_meta)
returns_meta = ['union', 'struct']
if name in returns_whitelist:
returns_meta += ['built-in', 'alternate', 'enum']
check_type(info, "'returns' for command '%s'" % name,
expr.get('returns'), allow_array=True,
allow_optional=True, allow_metas=returns_meta)
def check_event(expr, info):
name = expr['event']
boxed = expr.get('boxed', False)
meta = ['struct']
if boxed:
meta += ['union', 'alternate']
check_type(info, "'data' for event '%s'" % name,
expr.get('data'), allow_dict=not boxed, allow_optional=True,
allow_metas=meta)
def enum_get_names(expr):
return [e['name'] for e in expr['data']]
def check_union(expr, info):
name = expr['union']
base = expr.get('base')
discriminator = expr.get('discriminator')
members = expr['data']
# Two types of unions, determined by discriminator.
# With no discriminator it is a simple union.
if discriminator is None:
enum_define = None
allow_metas = ['built-in', 'union', 'alternate', 'struct', 'enum']
if base is not None:
raise QAPISemError(info, "Simple union '%s' must not have a base" %
name)
# Else, it's a flat union.
else:
# The object must have a string or dictionary 'base'.
check_type(info, "'base' for union '%s'" % name,
base, allow_dict=True, allow_optional=True,
allow_metas=['struct'])
if not base:
raise QAPISemError(info, "Flat union '%s' must have a base"
% name)
base_members = find_base_members(base)
assert base_members is not None
# The value of member 'discriminator' must name a non-optional
# member of the base struct.
check_name(info, "Discriminator of flat union '%s'" % name,
discriminator)
discriminator_value = base_members.get(discriminator)
if not discriminator_value:
raise QAPISemError(info,
"Discriminator '%s' is not a member of base "
"struct '%s'"
% (discriminator, base))
if discriminator_value.get('if'):
raise QAPISemError(info, 'The discriminator %s.%s for union %s '
'must not be conditional' %
(base, discriminator, name))
enum_define = enum_types.get(discriminator_value['type'])
allow_metas = ['struct']
# Do not allow string discriminator
if not enum_define:
raise QAPISemError(info,
"Discriminator '%s' must be of enumeration "
"type" % discriminator)
# Check every branch; don't allow an empty union
if len(members) == 0:
raise QAPISemError(info, "Union '%s' cannot have empty 'data'" % name)
for (key, value) in members.items():
check_name(info, "Member of union '%s'" % name, key)
check_known_keys(info, "member '%s' of union '%s'" % (key, name),
value, ['type'], ['if'])
# Each value must name a known type
check_type(info, "Member '%s' of union '%s'" % (key, name),
value['type'],
allow_array=not base, allow_metas=allow_metas)
# If the discriminator names an enum type, then all members
# of 'data' must also be members of the enum type.
if enum_define:
if key not in enum_get_names(enum_define):
raise QAPISemError(info,
"Discriminator value '%s' is not found in "
"enum '%s'"
% (key, enum_define['enum']))
def check_alternate(expr, info):
name = expr['alternate']
members = expr['data']
types_seen = {}
# Check every branch; require at least two branches
if len(members) < 2:
raise QAPISemError(info,
"Alternate '%s' should have at least two branches "
"in 'data'" % name)
for (key, value) in members.items():
check_name(info, "Member of alternate '%s'" % name, key)
check_known_keys(info,
"member '%s' of alternate '%s'" % (key, name),
value, ['type'], ['if'])
typ = value['type']
# Ensure alternates have no type conflicts.
check_type(info, "Member '%s' of alternate '%s'" % (key, name), typ,
allow_metas=['built-in', 'union', 'struct', 'enum'])
qtype = find_alternate_member_qtype(typ)
if not qtype:
raise QAPISemError(info, "Alternate '%s' member '%s' cannot use "
"type '%s'" % (name, key, typ))
conflicting = set([qtype])
if qtype == 'QTYPE_QSTRING':
enum_expr = enum_types.get(typ)
if enum_expr:
for v in enum_get_names(enum_expr):
if v in ['on', 'off']:
conflicting.add('QTYPE_QBOOL')
if re.match(r'[-+0-9.]', v): # lazy, could be tightened
conflicting.add('QTYPE_QNUM')
else:
conflicting.add('QTYPE_QNUM')
conflicting.add('QTYPE_QBOOL')
for qt in conflicting:
if qt in types_seen:
raise QAPISemError(info, "Alternate '%s' member '%s' can't "
"be distinguished from member '%s'"
% (name, key, types_seen[qt]))
types_seen[qt] = key
def check_enum(expr, info):
name = expr['enum']
members = expr['data']
prefix = expr.get('prefix')
if not isinstance(members, list):
raise QAPISemError(info,
"Enum '%s' requires an array for 'data'" % name)
if prefix is not None and not isinstance(prefix, str):
raise QAPISemError(info,
"Enum '%s' requires a string for 'prefix'" % name)
for member in members:
source = "dictionary member of enum '%s'" % name
check_known_keys(info, source, member, ['name'], ['if'])
check_if(member, info)
check_name(info, "Member of enum '%s'" % name, member['name'],
enum_member=True)
def check_struct(expr, info):
name = expr['struct']
members = expr['data']
features = expr.get('features')
check_type(info, "'data' for struct '%s'" % name, members,
allow_dict=True, allow_optional=True)
check_type(info, "'base' for struct '%s'" % name, expr.get('base'),
allow_metas=['struct'])
if features:
if not isinstance(features, list):
raise QAPISemError(info,
"Struct '%s' requires an array for 'features'" %
name)
for f in features:
assert isinstance(f, dict)
check_known_keys(info, "feature of struct %s" % name, f,
['name'], ['if'])
check_if(f, info)
check_name(info, "Feature of struct %s" % name, f['name'])
def check_known_keys(info, source, keys, required, optional):
def pprint(elems):
return ', '.join("'" + e + "'" for e in sorted(elems))
missing = set(required) - set(keys)
if missing:
raise QAPISemError(info, "Key%s %s %s missing from %s"
% ('s' if len(missing) > 1 else '', pprint(missing),
'are' if len(missing) > 1 else 'is', source))
allowed = set(required + optional)
unknown = set(keys) - allowed
if unknown:
raise QAPISemError(info, "Unknown key%s %s in %s\nValid keys are %s."
% ('s' if len(unknown) > 1 else '', pprint(unknown),
source, pprint(allowed)))
def check_keys(expr_elem, meta, required, optional=[]):
expr = expr_elem['expr']
info = expr_elem['info']
name = expr[meta]
if not isinstance(name, str):
raise QAPISemError(info, "'%s' key must have a string value" % meta)
required = required + [meta]
source = "%s '%s'" % (meta, name)
check_known_keys(info, source, expr.keys(), required, optional)
for (key, value) in expr.items():
if key in ['gen', 'success-response'] and value is not False:
raise QAPISemError(info,
"'%s' of %s '%s' should only use false value"
% (key, meta, name))
if (key in ['boxed', 'allow-oob', 'allow-preconfig']
and value is not True):
raise QAPISemError(info,
"'%s' of %s '%s' should only use true value"
% (key, meta, name))
if key == 'if':
check_if(expr, info)
def normalize_enum(expr):
if isinstance(expr['data'], list):
expr['data'] = [m if isinstance(m, dict) else {'name': m}
for m in expr['data']]
def normalize_members(members):
if isinstance(members, OrderedDict):
for key, arg in members.items():
if isinstance(arg, dict):
continue
members[key] = {'type': arg}
def normalize_features(features):
if isinstance(features, list):
features[:] = [f if isinstance(f, dict) else {'name': f}
for f in features]
def check_exprs(exprs):
global all_names
# Populate name table with names of built-in types
for builtin in builtin_types.keys():
all_names[builtin] = 'built-in'
# Learn the types and check for valid expression keys
for expr_elem in exprs:
expr = expr_elem['expr']
info = expr_elem['info']
doc = expr_elem.get('doc')
if 'include' in expr:
continue
if not doc and doc_required:
raise QAPISemError(info,
"Expression missing documentation comment")
if 'enum' in expr:
meta = 'enum'
check_keys(expr_elem, 'enum', ['data'], ['if', 'prefix'])
normalize_enum(expr)
enum_types[expr[meta]] = expr
elif 'union' in expr:
meta = 'union'
check_keys(expr_elem, 'union', ['data'],
['base', 'discriminator', 'if'])
normalize_members(expr.get('base'))
normalize_members(expr['data'])
union_types[expr[meta]] = expr
elif 'alternate' in expr:
meta = 'alternate'
check_keys(expr_elem, 'alternate', ['data'], ['if'])
normalize_members(expr['data'])
elif 'struct' in expr:
meta = 'struct'
check_keys(expr_elem, 'struct', ['data'],
['base', 'if', 'features'])
normalize_members(expr['data'])
normalize_features(expr.get('features'))
struct_types[expr[meta]] = expr
elif 'command' in expr:
meta = 'command'
check_keys(expr_elem, 'command', [],
['data', 'returns', 'gen', 'success-response',
'boxed', 'allow-oob', 'allow-preconfig', 'if'])
normalize_members(expr.get('data'))
elif 'event' in expr:
meta = 'event'
check_keys(expr_elem, 'event', [], ['data', 'boxed', 'if'])
normalize_members(expr.get('data'))
else:
raise QAPISemError(expr_elem['info'],
"Expression is missing metatype")
name = expr[meta]
add_name(name, info, meta)
if doc and doc.symbol != name:
raise QAPISemError(info, "Definition of '%s' follows documentation"
" for '%s'" % (name, doc.symbol))
# Try again for hidden UnionKind enum
for expr_elem in exprs:
expr = expr_elem['expr']
if 'include' in expr:
continue
if 'union' in expr and not discriminator_find_enum_define(expr):
name = '%sKind' % expr['union']
elif 'alternate' in expr:
name = '%sKind' % expr['alternate']
else:
continue
enum_types[name] = {'enum': name}
add_name(name, info, 'enum', implicit=True)
# Validate that exprs make sense
for expr_elem in exprs:
expr = expr_elem['expr']
info = expr_elem['info']
doc = expr_elem.get('doc')
if 'include' in expr:
continue
if 'enum' in expr:
check_enum(expr, info)
elif 'union' in expr:
check_union(expr, info)
elif 'alternate' in expr:
check_alternate(expr, info)
elif 'struct' in expr:
check_struct(expr, info)
elif 'command' in expr:
check_command(expr, info)
elif 'event' in expr:
check_event(expr, info)
else:
assert False, 'unexpected meta type'
if doc:
doc.check_expr(expr)
return exprs
#
# Schema compiler frontend
#
def listify_cond(ifcond):
if not ifcond:
return []
if not isinstance(ifcond, list):
return [ifcond]
return ifcond
class QAPISchemaEntity(object):
def __init__(self, name, info, doc, ifcond=None):
assert name is None or isinstance(name, str)
self.name = name
self.module = None
# For explicitly defined entities, info points to the (explicit)
# definition. For builtins (and their arrays), info is None.
# For implicitly defined entities, info points to a place that
# triggered the implicit definition (there may be more than one
# such place).
self.info = info
self.doc = doc
self._ifcond = ifcond # self.ifcond is set only after .check()
def c_name(self):
return c_name(self.name)
def check(self, schema):
if isinstance(self._ifcond, QAPISchemaType):
# inherit the condition from a type
typ = self._ifcond
typ.check(schema)
self.ifcond = typ.ifcond
else:
self.ifcond = listify_cond(self._ifcond)
if self.info:
self.module = os.path.relpath(self.info['file'],
os.path.dirname(schema.fname))
def is_implicit(self):
return not self.info
def visit(self, visitor):
pass
class QAPISchemaVisitor(object):
def visit_begin(self, schema):
pass
def visit_end(self):
pass
def visit_module(self, fname):
pass
def visit_needed(self, entity):
# Default to visiting everything
return True
def visit_include(self, fname, info):
pass
def visit_builtin_type(self, name, info, json_type):
pass
def visit_enum_type(self, name, info, ifcond, members, prefix):
pass
def visit_array_type(self, name, info, ifcond, element_type):
pass
def visit_object_type(self, name, info, ifcond, base, members, variants,
features):
pass
def visit_object_type_flat(self, name, info, ifcond, members, variants,
features):
pass
def visit_alternate_type(self, name, info, ifcond, variants):
pass
def visit_command(self, name, info, ifcond, arg_type, ret_type, gen,
success_response, boxed, allow_oob, allow_preconfig):
pass
def visit_event(self, name, info, ifcond, arg_type, boxed):
pass
class QAPISchemaInclude(QAPISchemaEntity):
def __init__(self, fname, info):
QAPISchemaEntity.__init__(self, None, info, None)
self.fname = fname
def visit(self, visitor):
visitor.visit_include(self.fname, self.info)
class QAPISchemaType(QAPISchemaEntity):
# Return the C type for common use.
# For the types we commonly box, this is a pointer type.
def c_type(self):
pass
# Return the C type to be used in a parameter list.
def c_param_type(self):
return self.c_type()
# Return the C type to be used where we suppress boxing.
def c_unboxed_type(self):
return self.c_type()
def json_type(self):
pass
def alternate_qtype(self):
json2qtype = {
'null': 'QTYPE_QNULL',
'string': 'QTYPE_QSTRING',
'number': 'QTYPE_QNUM',
'int': 'QTYPE_QNUM',
'boolean': 'QTYPE_QBOOL',
'object': 'QTYPE_QDICT'
}
return json2qtype.get(self.json_type())
def doc_type(self):
if self.is_implicit():
return None
return self.name
class QAPISchemaBuiltinType(QAPISchemaType):
def __init__(self, name, json_type, c_type):
QAPISchemaType.__init__(self, name, None, None)
assert not c_type or isinstance(c_type, str)
assert json_type in ('string', 'number', 'int', 'boolean', 'null',
'value')
self._json_type_name = json_type
self._c_type_name = c_type
def c_name(self):
return self.name
def c_type(self):
return self._c_type_name
def c_param_type(self):
if self.name == 'str':
return 'const ' + self._c_type_name
return self._c_type_name
def json_type(self):
return self._json_type_name
def doc_type(self):
return self.json_type()
def visit(self, visitor):
visitor.visit_builtin_type(self.name, self.info, self.json_type())
class QAPISchemaEnumType(QAPISchemaType):
def __init__(self, name, info, doc, ifcond, members, prefix):
QAPISchemaType.__init__(self, name, info, doc, ifcond)
for m in members:
assert isinstance(m, QAPISchemaMember)
m.set_owner(name)
assert prefix is None or isinstance(prefix, str)
self.members = members
self.prefix = prefix
def check(self, schema):
QAPISchemaType.check(self, schema)
seen = {}
for m in self.members:
m.check_clash(self.info, seen)
if self.doc:
self.doc.connect_member(m)
def is_implicit(self):
# See QAPISchema._make_implicit_enum_type() and ._def_predefineds()
return self.name.endswith('Kind') or self.name == 'QType'
def c_type(self):
return c_name(self.name)
def member_names(self):
return [m.name for m in self.members]
def json_type(self):
return 'string'
def visit(self, visitor):
visitor.visit_enum_type(self.name, self.info, self.ifcond,
self.members, self.prefix)
class QAPISchemaArrayType(QAPISchemaType):
def __init__(self, name, info, element_type):
QAPISchemaType.__init__(self, name, info, None, None)
assert isinstance(element_type, str)
self._element_type_name = element_type
self.element_type = None
def check(self, schema):
QAPISchemaType.check(self, schema)
self.element_type = schema.lookup_type(self._element_type_name)
assert self.element_type
self.element_type.check(schema)
self.module = self.element_type.module
self.ifcond = self.element_type.ifcond
def is_implicit(self):
return True
def c_type(self):
return c_name(self.name) + pointer_suffix
def json_type(self):
return 'array'
def doc_type(self):
elt_doc_type = self.element_type.doc_type()
if not elt_doc_type:
return None
return 'array of ' + elt_doc_type
def visit(self, visitor):
visitor.visit_array_type(self.name, self.info, self.ifcond,
self.element_type)
class QAPISchemaObjectType(QAPISchemaType):
def __init__(self, name, info, doc, ifcond,
base, local_members, variants, features):
# struct has local_members, optional base, and no variants
# flat union has base, variants, and no local_members
# simple union has local_members, variants, and no base
QAPISchemaType.__init__(self, name, info, doc, ifcond)
assert base is None or isinstance(base, str)
for m in local_members:
assert isinstance(m, QAPISchemaObjectTypeMember)
m.set_owner(name)
if variants is not None:
assert isinstance(variants, QAPISchemaObjectTypeVariants)
variants.set_owner(name)
for f in features:
assert isinstance(f, QAPISchemaFeature)
f.set_owner(name)
self._base_name = base
self.base = None
self.local_members = local_members
self.variants = variants
self.members = None
self.features = features
def check(self, schema):
QAPISchemaType.check(self, schema)
if self.members is False: # check for cycles
raise QAPISemError(self.info,
"Object %s contains itself" % self.name)
if self.members:
return
self.members = False # mark as being checked
seen = OrderedDict()
if self._base_name:
self.base = schema.lookup_type(self._base_name)
assert isinstance(self.base, QAPISchemaObjectType)
self.base.check(schema)
self.base.check_clash(self.info, seen)
for m in self.local_members:
m.check(schema)
m.check_clash(self.info, seen)
if self.doc:
self.doc.connect_member(m)
self.members = seen.values()
if self.variants:
self.variants.check(schema, seen)
assert self.variants.tag_member in self.members
self.variants.check_clash(self.info, seen)
# Features are in a name space separate from members
seen = {}
for f in self.features:
f.check_clash(self.info, seen)
if self.doc:
self.doc.check()
# Check that the members of this type do not cause duplicate JSON members,
# and update seen to track the members seen so far. Report any errors
# on behalf of info, which is not necessarily self.info
def check_clash(self, info, seen):
assert not self.variants # not implemented
for m in self.members:
m.check_clash(info, seen)
def is_implicit(self):
# See QAPISchema._make_implicit_object_type(), as well as
# _def_predefineds()
return self.name.startswith('q_')
def is_empty(self):
assert self.members is not None
return not self.members and not self.variants
def c_name(self):
assert self.name != 'q_empty'
return QAPISchemaType.c_name(self)
def c_type(self):
assert not self.is_implicit()
return c_name(self.name) + pointer_suffix
def c_unboxed_type(self):
return c_name(self.name)
def json_type(self):
return 'object'
def visit(self, visitor):
visitor.visit_object_type(self.name, self.info, self.ifcond,
self.base, self.local_members, self.variants,
self.features)
visitor.visit_object_type_flat(self.name, self.info, self.ifcond,
self.members, self.variants,
self.features)
class QAPISchemaMember(object):
""" Represents object members, enum members and features """
role = 'member'
def __init__(self, name, ifcond=None):
assert isinstance(name, str)
self.name = name
self.ifcond = listify_cond(ifcond)
self.owner = None
def set_owner(self, name):
assert not self.owner
self.owner = name
def check_clash(self, info, seen):
cname = c_name(self.name)
if cname.lower() != cname and self.owner not in name_case_whitelist:
raise QAPISemError(info,
"%s should not use uppercase" % self.describe())
if cname in seen:
raise QAPISemError(info, "%s collides with %s" %
(self.describe(), seen[cname].describe()))
seen[cname] = self
def _pretty_owner(self):
owner = self.owner
if owner.startswith('q_obj_'):
# See QAPISchema._make_implicit_object_type() - reverse the
# mapping there to create a nice human-readable description
owner = owner[6:]
if owner.endswith('-arg'):
return '(parameter of %s)' % owner[:-4]
elif owner.endswith('-base'):
return '(base of %s)' % owner[:-5]
else:
assert owner.endswith('-wrapper')
# Unreachable and not implemented
assert False
if owner.endswith('Kind'):
# See QAPISchema._make_implicit_enum_type()
return '(branch of %s)' % owner[:-4]
return '(%s of %s)' % (self.role, owner)
def describe(self):
return "'%s' %s" % (self.name, self._pretty_owner())
class QAPISchemaFeature(QAPISchemaMember):
role = 'feature'
class QAPISchemaObjectTypeMember(QAPISchemaMember):
def __init__(self, name, typ, optional, ifcond=None):
QAPISchemaMember.__init__(self, name, ifcond)
assert isinstance(typ, str)
assert isinstance(optional, bool)
self._type_name = typ
self.type = None
self.optional = optional
def check(self, schema):
assert self.owner
self.type = schema.lookup_type(self._type_name)
assert self.type
class QAPISchemaObjectTypeVariants(object):
def __init__(self, tag_name, tag_member, variants):
# Flat unions pass tag_name but not tag_member.
# Simple unions and alternates pass tag_member but not tag_name.
# After check(), tag_member is always set, and tag_name remains
# a reliable witness of being used by a flat union.
assert bool(tag_member) != bool(tag_name)
assert (isinstance(tag_name, str) or
isinstance(tag_member, QAPISchemaObjectTypeMember))
assert len(variants) > 0
for v in variants:
assert isinstance(v, QAPISchemaObjectTypeVariant)
self._tag_name = tag_name
self.tag_member = tag_member
self.variants = variants
def set_owner(self, name):
for v in self.variants:
v.set_owner(name)
def check(self, schema, seen):
if not self.tag_member: # flat union
self.tag_member = seen[c_name(self._tag_name)]
assert self._tag_name == self.tag_member.name
assert isinstance(self.tag_member.type, QAPISchemaEnumType)
if self._tag_name: # flat union
# branches that are not explicitly covered get an empty type
cases = set([v.name for v in self.variants])
for m in self.tag_member.type.members:
if m.name not in cases:
v = QAPISchemaObjectTypeVariant(m.name, 'q_empty',
m.ifcond)
v.set_owner(self.tag_member.owner)
self.variants.append(v)
for v in self.variants:
v.check(schema)
# Union names must match enum values; alternate names are
# checked separately. Use 'seen' to tell the two apart.
if seen:
assert v.name in self.tag_member.type.member_names()
assert isinstance(v.type, QAPISchemaObjectType)
v.type.check(schema)
def check_clash(self, info, seen):
for v in self.variants:
# Reset seen map for each variant, since qapi names from one
# branch do not affect another branch
assert isinstance(v.type, QAPISchemaObjectType)
v.type.check_clash(info, dict(seen))
class QAPISchemaObjectTypeVariant(QAPISchemaObjectTypeMember):
role = 'branch'
def __init__(self, name, typ, ifcond=None):
QAPISchemaObjectTypeMember.__init__(self, name, typ, False, ifcond)
class QAPISchemaAlternateType(QAPISchemaType):
def __init__(self, name, info, doc, ifcond, variants):
QAPISchemaType.__init__(self, name, info, doc, ifcond)
assert isinstance(variants, QAPISchemaObjectTypeVariants)
assert variants.tag_member
variants.set_owner(name)
variants.tag_member.set_owner(self.name)
self.variants = variants
def check(self, schema):
QAPISchemaType.check(self, schema)
self.variants.tag_member.check(schema)
# Not calling self.variants.check_clash(), because there's nothing
# to clash with
self.variants.check(schema, {})
# Alternate branch names have no relation to the tag enum values;
# so we have to check for potential name collisions ourselves.
seen = {}
for v in self.variants.variants:
v.check_clash(self.info, seen)
if self.doc:
self.doc.connect_member(v)
if self.doc:
self.doc.check()
def c_type(self):
return c_name(self.name) + pointer_suffix
def json_type(self):
return 'value'
def visit(self, visitor):
visitor.visit_alternate_type(self.name, self.info, self.ifcond,
self.variants)
def is_empty(self):
return False
class QAPISchemaCommand(QAPISchemaEntity):
def __init__(self, name, info, doc, ifcond, arg_type, ret_type,
gen, success_response, boxed, allow_oob, allow_preconfig):
QAPISchemaEntity.__init__(self, name, info, doc, ifcond)
assert not arg_type or isinstance(arg_type, str)
assert not ret_type or isinstance(ret_type, str)
self._arg_type_name = arg_type
self.arg_type = None
self._ret_type_name = ret_type
self.ret_type = None
self.gen = gen
self.success_response = success_response
self.boxed = boxed
self.allow_oob = allow_oob
self.allow_preconfig = allow_preconfig
def check(self, schema):
QAPISchemaEntity.check(self, schema)
if self._arg_type_name:
self.arg_type = schema.lookup_type(self._arg_type_name)
assert (isinstance(self.arg_type, QAPISchemaObjectType) or
isinstance(self.arg_type, QAPISchemaAlternateType))
self.arg_type.check(schema)
if self.boxed:
if self.arg_type.is_empty():
raise QAPISemError(self.info,
"Cannot use 'boxed' with empty type")
else:
assert not isinstance(self.arg_type, QAPISchemaAlternateType)
assert not self.arg_type.variants
elif self.boxed:
raise QAPISemError(self.info, "Use of 'boxed' requires 'data'")
if self._ret_type_name:
self.ret_type = schema.lookup_type(self._ret_type_name)
assert isinstance(self.ret_type, QAPISchemaType)
def visit(self, visitor):
visitor.visit_command(self.name, self.info, self.ifcond,
self.arg_type, self.ret_type,
self.gen, self.success_response,
self.boxed, self.allow_oob,
self.allow_preconfig)
class QAPISchemaEvent(QAPISchemaEntity):
def __init__(self, name, info, doc, ifcond, arg_type, boxed):
QAPISchemaEntity.__init__(self, name, info, doc, ifcond)
assert not arg_type or isinstance(arg_type, str)
self._arg_type_name = arg_type
self.arg_type = None
self.boxed = boxed
def check(self, schema):
QAPISchemaEntity.check(self, schema)
if self._arg_type_name:
self.arg_type = schema.lookup_type(self._arg_type_name)
assert (isinstance(self.arg_type, QAPISchemaObjectType) or
isinstance(self.arg_type, QAPISchemaAlternateType))
self.arg_type.check(schema)
if self.boxed:
if self.arg_type.is_empty():
raise QAPISemError(self.info,
"Cannot use 'boxed' with empty type")
else:
assert not isinstance(self.arg_type, QAPISchemaAlternateType)
assert not self.arg_type.variants
elif self.boxed:
raise QAPISemError(self.info, "Use of 'boxed' requires 'data'")
def visit(self, visitor):
visitor.visit_event(self.name, self.info, self.ifcond,
self.arg_type, self.boxed)
class QAPISchema(object):
def __init__(self, fname):
self.fname = fname
if sys.version_info[0] >= 3:
f = open(fname, 'r', encoding='utf-8')
else:
f = open(fname, 'r')
parser = QAPISchemaParser(f)
exprs = check_exprs(parser.exprs)
self.docs = parser.docs
self._entity_list = []
self._entity_dict = {}
self._predefining = True
self._def_predefineds()
self._predefining = False
self._def_exprs(exprs)
self.check()
def _def_entity(self, ent):
# Only the predefined types are allowed to not have info
assert ent.info or self._predefining
assert ent.name is None or ent.name not in self._entity_dict
self._entity_list.append(ent)
if ent.name is not None:
self._entity_dict[ent.name] = ent
def lookup_entity(self, name, typ=None):
ent = self._entity_dict.get(name)
if typ and not isinstance(ent, typ):
return None
return ent
def lookup_type(self, name):
return self.lookup_entity(name, QAPISchemaType)
def _def_include(self, expr, info, doc):
include = expr['include']
assert doc is None
main_info = info
while main_info['parent']:
main_info = main_info['parent']
fname = os.path.relpath(include, os.path.dirname(main_info['file']))
self._def_entity(QAPISchemaInclude(fname, info))
def _def_builtin_type(self, name, json_type, c_type):
self._def_entity(QAPISchemaBuiltinType(name, json_type, c_type))
# Instantiating only the arrays that are actually used would
# be nice, but we can't as long as their generated code
# (qapi-builtin-types.[ch]) may be shared by some other
# schema.
self._make_array_type(name, None)
def _def_predefineds(self):
for t in [('str', 'string', 'char' + pointer_suffix),
('number', 'number', 'double'),
('int', 'int', 'int64_t'),
('int8', 'int', 'int8_t'),
('int16', 'int', 'int16_t'),
('int32', 'int', 'int32_t'),
('int64', 'int', 'int64_t'),
('uint8', 'int', 'uint8_t'),
('uint16', 'int', 'uint16_t'),
('uint32', 'int', 'uint32_t'),
('uint64', 'int', 'uint64_t'),
('size', 'int', 'uint64_t'),
('bool', 'boolean', 'bool'),
('any', 'value', 'QObject' + pointer_suffix),
('null', 'null', 'QNull' + pointer_suffix)]:
self._def_builtin_type(*t)
self.the_empty_object_type = QAPISchemaObjectType(
'q_empty', None, None, None, None, [], None, [])
self._def_entity(self.the_empty_object_type)
qtypes = ['none', 'qnull', 'qnum', 'qstring', 'qdict', 'qlist',
'qbool']
qtype_values = self._make_enum_members([{'name': n} for n in qtypes])
self._def_entity(QAPISchemaEnumType('QType', None, None, None,
qtype_values, 'QTYPE'))
def _make_features(self, features):
return [QAPISchemaFeature(f['name'], f.get('if')) for f in features]
def _make_enum_members(self, values):
return [QAPISchemaMember(v['name'], v.get('if')) for v in values]
def _make_implicit_enum_type(self, name, info, ifcond, values):
# See also QAPISchemaObjectTypeMember._pretty_owner()
name = name + 'Kind' # Use namespace reserved by add_name()
self._def_entity(QAPISchemaEnumType(
name, info, None, ifcond, self._make_enum_members(values), None))
return name
def _make_array_type(self, element_type, info):
name = element_type + 'List' # Use namespace reserved by add_name()
if not self.lookup_type(name):
self._def_entity(QAPISchemaArrayType(name, info, element_type))
return name
def _make_implicit_object_type(self, name, info, doc, ifcond,
role, members):
if not members:
return None
# See also QAPISchemaObjectTypeMember._pretty_owner()
name = 'q_obj_%s-%s' % (name, role)
typ = self.lookup_entity(name, QAPISchemaObjectType)
if typ:
# The implicit object type has multiple users. This can
# happen only for simple unions' implicit wrapper types.
# Its ifcond should be the disjunction of its user's
# ifconds. Not implemented. Instead, we always pass the
# wrapped type's ifcond, which is trivially the same for all
# users. It's also necessary for the wrapper to compile.
# But it's not tight: the disjunction need not imply it. We
# may end up compiling useless wrapper types.
# TODO kill simple unions or implement the disjunction
assert ifcond == typ._ifcond # pylint: disable=protected-access
else:
self._def_entity(QAPISchemaObjectType(name, info, doc, ifcond,
None, members, None, []))
return name
def _def_enum_type(self, expr, info, doc):
name = expr['enum']
data = expr['data']
prefix = expr.get('prefix')
ifcond = expr.get('if')
self._def_entity(QAPISchemaEnumType(
name, info, doc, ifcond,
self._make_enum_members(data), prefix))
def _make_member(self, name, typ, ifcond, info):
optional = False
if name.startswith('*'):
name = name[1:]
optional = True
if isinstance(typ, list):
assert len(typ) == 1
typ = self._make_array_type(typ[0], info)
return QAPISchemaObjectTypeMember(name, typ, optional, ifcond)
def _make_members(self, data, info):
return [self._make_member(key, value['type'], value.get('if'), info)
for (key, value) in data.items()]
def _def_struct_type(self, expr, info, doc):
name = expr['struct']
base = expr.get('base')
data = expr['data']
ifcond = expr.get('if')
features = expr.get('features', [])
self._def_entity(QAPISchemaObjectType(name, info, doc, ifcond, base,
self._make_members(data, info),
None,
self._make_features(features)))
def _make_variant(self, case, typ, ifcond):
return QAPISchemaObjectTypeVariant(case, typ, ifcond)
def _make_simple_variant(self, case, typ, ifcond, info):
if isinstance(typ, list):
assert len(typ) == 1
typ = self._make_array_type(typ[0], info)
typ = self._make_implicit_object_type(
typ, info, None, self.lookup_type(typ),
'wrapper', [self._make_member('data', typ, None, info)])
return QAPISchemaObjectTypeVariant(case, typ, ifcond)
def _def_union_type(self, expr, info, doc):
name = expr['union']
data = expr['data']
base = expr.get('base')
ifcond = expr.get('if')
tag_name = expr.get('discriminator')
tag_member = None
if isinstance(base, dict):
base = self._make_implicit_object_type(
name, info, doc, ifcond,
'base', self._make_members(base, info))
if tag_name:
variants = [self._make_variant(key, value['type'], value.get('if'))
for (key, value) in data.items()]
members = []
else:
variants = [self._make_simple_variant(key, value['type'],
value.get('if'), info)
for (key, value) in data.items()]
enum = [{'name': v.name, 'if': v.ifcond} for v in variants]
typ = self._make_implicit_enum_type(name, info, ifcond, enum)
tag_member = QAPISchemaObjectTypeMember('type', typ, False)
members = [tag_member]
self._def_entity(
QAPISchemaObjectType(name, info, doc, ifcond, base, members,
QAPISchemaObjectTypeVariants(tag_name,
tag_member,
variants), []))
def _def_alternate_type(self, expr, info, doc):
name = expr['alternate']
data = expr['data']
ifcond = expr.get('if')
variants = [self._make_variant(key, value['type'], value.get('if'))
for (key, value) in data.items()]
tag_member = QAPISchemaObjectTypeMember('type', 'QType', False)
self._def_entity(
QAPISchemaAlternateType(name, info, doc, ifcond,
QAPISchemaObjectTypeVariants(None,
tag_member,
variants)))
def _def_command(self, expr, info, doc):
name = expr['command']
data = expr.get('data')
rets = expr.get('returns')
gen = expr.get('gen', True)
success_response = expr.get('success-response', True)
boxed = expr.get('boxed', False)
allow_oob = expr.get('allow-oob', False)
allow_preconfig = expr.get('allow-preconfig', False)
ifcond = expr.get('if')
if isinstance(data, OrderedDict):
data = self._make_implicit_object_type(
name, info, doc, ifcond, 'arg', self._make_members(data, info))
if isinstance(rets, list):
assert len(rets) == 1
rets = self._make_array_type(rets[0], info)
self._def_entity(QAPISchemaCommand(name, info, doc, ifcond, data, rets,
gen, success_response,
boxed, allow_oob, allow_preconfig))
def _def_event(self, expr, info, doc):
name = expr['event']
data = expr.get('data')
boxed = expr.get('boxed', False)
ifcond = expr.get('if')
if isinstance(data, OrderedDict):
data = self._make_implicit_object_type(
name, info, doc, ifcond, 'arg', self._make_members(data, info))
self._def_entity(QAPISchemaEvent(name, info, doc, ifcond, data, boxed))
def _def_exprs(self, exprs):
for expr_elem in exprs:
expr = expr_elem['expr']
info = expr_elem['info']
doc = expr_elem.get('doc')
if 'enum' in expr:
self._def_enum_type(expr, info, doc)
elif 'struct' in expr:
self._def_struct_type(expr, info, doc)
elif 'union' in expr:
self._def_union_type(expr, info, doc)
elif 'alternate' in expr:
self._def_alternate_type(expr, info, doc)
elif 'command' in expr:
self._def_command(expr, info, doc)
elif 'event' in expr:
self._def_event(expr, info, doc)
elif 'include' in expr:
self._def_include(expr, info, doc)
else:
assert False
def check(self):
for ent in self._entity_list:
ent.check(self)
def visit(self, visitor):
visitor.visit_begin(self)
module = None
visitor.visit_module(module)
for entity in self._entity_list:
if visitor.visit_needed(entity):
if entity.module != module:
module = entity.module
visitor.visit_module(module)
entity.visit(visitor)
visitor.visit_end()
#
# Code generation helpers
#
def camel_case(name):
new_name = ''
first = True
for ch in name:
if ch in ['_', '-']:
first = True
elif first:
new_name += ch.upper()
first = False
else:
new_name += ch.lower()
return new_name
# ENUMName -> ENUM_NAME, EnumName1 -> ENUM_NAME1
# ENUM_NAME -> ENUM_NAME, ENUM_NAME1 -> ENUM_NAME1, ENUM_Name2 -> ENUM_NAME2
# ENUM24_Name -> ENUM24_NAME
def camel_to_upper(value):
c_fun_str = c_name(value, False)
if value.isupper():
return c_fun_str
new_name = ''
length = len(c_fun_str)
for i in range(length):
c = c_fun_str[i]
# When c is upper and no '_' appears before, do more checks
if c.isupper() and (i > 0) and c_fun_str[i - 1] != '_':
if i < length - 1 and c_fun_str[i + 1].islower():
new_name += '_'
elif c_fun_str[i - 1].isdigit():
new_name += '_'
new_name += c
return new_name.lstrip('_').upper()
def c_enum_const(type_name, const_name, prefix=None):
if prefix is not None:
type_name = prefix
return camel_to_upper(type_name) + '_' + c_name(const_name, False).upper()
if hasattr(str, 'maketrans'):
c_name_trans = str.maketrans('.-', '__')
else:
c_name_trans = string.maketrans('.-', '__')
# Map @name to a valid C identifier.
# If @protect, avoid returning certain ticklish identifiers (like
# C keywords) by prepending 'q_'.
#
# Used for converting 'name' from a 'name':'type' qapi definition
# into a generated struct member, as well as converting type names
# into substrings of a generated C function name.
# '__a.b_c' -> '__a_b_c', 'x-foo' -> 'x_foo'
# protect=True: 'int' -> 'q_int'; protect=False: 'int' -> 'int'
def c_name(name, protect=True):
# ANSI X3J11/88-090, 3.1.1
c89_words = set(['auto', 'break', 'case', 'char', 'const', 'continue',
'default', 'do', 'double', 'else', 'enum', 'extern',
'float', 'for', 'goto', 'if', 'int', 'long', 'register',
'return', 'short', 'signed', 'sizeof', 'static',
'struct', 'switch', 'typedef', 'union', 'unsigned',
'void', 'volatile', 'while'])
# ISO/IEC 9899:1999, 6.4.1
c99_words = set(['inline', 'restrict', '_Bool', '_Complex', '_Imaginary'])
# ISO/IEC 9899:2011, 6.4.1
c11_words = set(['_Alignas', '_Alignof', '_Atomic', '_Generic',
'_Noreturn', '_Static_assert', '_Thread_local'])
# GCC http://gcc.gnu.org/onlinedocs/gcc-4.7.1/gcc/C-Extensions.html
# excluding _.*
gcc_words = set(['asm', 'typeof'])
# C++ ISO/IEC 14882:2003 2.11
cpp_words = set(['bool', 'catch', 'class', 'const_cast', 'delete',
'dynamic_cast', 'explicit', 'false', 'friend', 'mutable',
'namespace', 'new', 'operator', 'private', 'protected',
'public', 'reinterpret_cast', 'static_cast', 'template',
'this', 'throw', 'true', 'try', 'typeid', 'typename',
'using', 'virtual', 'wchar_t',
# alternative representations
'and', 'and_eq', 'bitand', 'bitor', 'compl', 'not',
'not_eq', 'or', 'or_eq', 'xor', 'xor_eq'])
# namespace pollution:
polluted_words = set(['unix', 'errno', 'mips', 'sparc', 'i386'])
name = name.translate(c_name_trans)
if protect and (name in c89_words | c99_words | c11_words | gcc_words
| cpp_words | polluted_words):
return 'q_' + name
return name
eatspace = '\033EATSPACE.'
pointer_suffix = ' *' + eatspace
def genindent(count):
ret = ''
for _ in range(count):
ret += ' '
return ret
indent_level = 0
def push_indent(indent_amount=4):
global indent_level
indent_level += indent_amount
def pop_indent(indent_amount=4):
global indent_level
indent_level -= indent_amount
# Generate @code with @kwds interpolated.
# Obey indent_level, and strip eatspace.
def cgen(code, **kwds):
raw = code % kwds
if indent_level:
indent = genindent(indent_level)
# re.subn() lacks flags support before Python 2.7, use re.compile()
raw = re.subn(re.compile(r'^(?!(#|$))', re.MULTILINE),
indent, raw)
raw = raw[0]
return re.sub(re.escape(eatspace) + r' *', '', raw)
def mcgen(code, **kwds):
if code[0] == '\n':
code = code[1:]
return cgen(code, **kwds)
def c_fname(filename):
return re.sub(r'[^A-Za-z0-9_]', '_', filename)
def guardstart(name):
return mcgen('''
#ifndef %(name)s
#define %(name)s
''',
name=c_fname(name).upper())
def guardend(name):
return mcgen('''
#endif /* %(name)s */
''',
name=c_fname(name).upper())
def gen_if(ifcond):
ret = ''
for ifc in ifcond:
ret += mcgen('''
#if %(cond)s
''', cond=ifc)
return ret
def gen_endif(ifcond):
ret = ''
for ifc in reversed(ifcond):
ret += mcgen('''
#endif /* %(cond)s */
''', cond=ifc)
return ret
def _wrap_ifcond(ifcond, before, after):
if before == after:
return after # suppress empty #if ... #endif
assert after.startswith(before)
out = before
added = after[len(before):]
if added[0] == '\n':
out += '\n'
added = added[1:]
out += gen_if(ifcond)
out += added
out += gen_endif(ifcond)
return out
def gen_enum_lookup(name, members, prefix=None):
ret = mcgen('''
const QEnumLookup %(c_name)s_lookup = {
.array = (const char *const[]) {
''',
c_name=c_name(name))
for m in members:
ret += gen_if(m.ifcond)
index = c_enum_const(name, m.name, prefix)
ret += mcgen('''
[%(index)s] = "%(name)s",
''',
index=index, name=m.name)
ret += gen_endif(m.ifcond)
ret += mcgen('''
},
.size = %(max_index)s
};
''',
max_index=c_enum_const(name, '_MAX', prefix))
return ret
def gen_enum(name, members, prefix=None):
# append automatically generated _MAX value
enum_members = members + [QAPISchemaMember('_MAX')]
ret = mcgen('''
typedef enum %(c_name)s {
''',
c_name=c_name(name))
for m in enum_members:
ret += gen_if(m.ifcond)
ret += mcgen('''
%(c_enum)s,
''',
c_enum=c_enum_const(name, m.name, prefix))
ret += gen_endif(m.ifcond)
ret += mcgen('''
} %(c_name)s;
''',
c_name=c_name(name))
ret += mcgen('''
#define %(c_name)s_str(val) \\
qapi_enum_lookup(&%(c_name)s_lookup, (val))
extern const QEnumLookup %(c_name)s_lookup;
''',
c_name=c_name(name))
return ret
def build_params(arg_type, boxed, extra=None):
ret = ''
sep = ''
if boxed:
assert arg_type
ret += '%s arg' % arg_type.c_param_type()
sep = ', '
elif arg_type:
assert not arg_type.variants
for memb in arg_type.members:
ret += sep
sep = ', '
if memb.optional:
ret += 'bool has_%s, ' % c_name(memb.name)
ret += '%s %s' % (memb.type.c_param_type(),
c_name(memb.name))
if extra:
ret += sep + extra
return ret if ret else 'void'
#
# Accumulate and write output
#
class QAPIGen(object):
def __init__(self, fname):
self.fname = fname
self._preamble = ''
self._body = ''
def preamble_add(self, text):
self._preamble += text
def add(self, text):
self._body += text
def get_content(self):
return self._top() + self._preamble + self._body + self._bottom()
def _top(self):
return ''
def _bottom(self):
return ''
def write(self, output_dir):
pathname = os.path.join(output_dir, self.fname)
dir = os.path.dirname(pathname)
if dir:
try:
os.makedirs(dir)
except os.error as e:
if e.errno != errno.EEXIST:
raise
fd = os.open(pathname, os.O_RDWR | os.O_CREAT, 0o666)
if sys.version_info[0] >= 3:
f = open(fd, 'r+', encoding='utf-8')
else:
f = os.fdopen(fd, 'r+')
text = self.get_content()
oldtext = f.read(len(text) + 1)
if text != oldtext:
f.seek(0)
f.truncate(0)
f.write(text)
f.close()
@contextmanager
def ifcontext(ifcond, *args):
"""A 'with' statement context manager to wrap with start_if()/end_if()
*args: any number of QAPIGenCCode
Example::
with ifcontext(ifcond, self._genh, self._genc):
modify self._genh and self._genc ...
Is equivalent to calling::
self._genh.start_if(ifcond)
self._genc.start_if(ifcond)
modify self._genh and self._genc ...
self._genh.end_if()
self._genc.end_if()
"""
for arg in args:
arg.start_if(ifcond)
yield
for arg in args:
arg.end_if()
class QAPIGenCCode(QAPIGen):
def __init__(self, fname):
QAPIGen.__init__(self, fname)
self._start_if = None
def start_if(self, ifcond):
assert self._start_if is None
self._start_if = (ifcond, self._body, self._preamble)
def end_if(self):
assert self._start_if
self._wrap_ifcond()
self._start_if = None
def _wrap_ifcond(self):
self._body = _wrap_ifcond(self._start_if[0],
self._start_if[1], self._body)
self._preamble = _wrap_ifcond(self._start_if[0],
self._start_if[2], self._preamble)
def get_content(self):
assert self._start_if is None
return QAPIGen.get_content(self)
class QAPIGenC(QAPIGenCCode):
def __init__(self, fname, blurb, pydoc):
QAPIGenCCode.__init__(self, fname)
self._blurb = blurb
self._copyright = '\n * '.join(re.findall(r'^Copyright .*', pydoc,
re.MULTILINE))
def _top(self):
return mcgen('''
/* AUTOMATICALLY GENERATED, DO NOT MODIFY */
/*
%(blurb)s
*
* %(copyright)s
*
* This work is licensed under the terms of the GNU LGPL, version 2.1 or later.
* See the COPYING.LIB file in the top-level directory.
*/
''',
blurb=self._blurb, copyright=self._copyright)
def _bottom(self):
return mcgen('''
/* Dummy declaration to prevent empty .o file */
char qapi_dummy_%(name)s;
''',
name=c_fname(self.fname))
class QAPIGenH(QAPIGenC):
def _top(self):
return QAPIGenC._top(self) + guardstart(self.fname)
def _bottom(self):
return guardend(self.fname)
class QAPIGenDoc(QAPIGen):
def _top(self):
return (QAPIGen._top(self)
+ '@c AUTOMATICALLY GENERATED, DO NOT MODIFY\n\n')
class QAPISchemaMonolithicCVisitor(QAPISchemaVisitor):
def __init__(self, prefix, what, blurb, pydoc):
self._prefix = prefix
self._what = what
self._genc = QAPIGenC(self._prefix + self._what + '.c',
blurb, pydoc)
self._genh = QAPIGenH(self._prefix + self._what + '.h',
blurb, pydoc)
def write(self, output_dir):
self._genc.write(output_dir)
self._genh.write(output_dir)
class QAPISchemaModularCVisitor(QAPISchemaVisitor):
def __init__(self, prefix, what, blurb, pydoc):
self._prefix = prefix
self._what = what
self._blurb = blurb
self._pydoc = pydoc
self._genc = None
self._genh = None
self._module = {}
self._main_module = None
@staticmethod
def _is_user_module(name):
return name and not name.startswith('./')
@staticmethod
def _is_builtin_module(name):
return not name
def _module_dirname(self, what, name):
if self._is_user_module(name):
return os.path.dirname(name)
return ''
def _module_basename(self, what, name):
ret = '' if self._is_builtin_module(name) else self._prefix
if self._is_user_module(name):
basename = os.path.basename(name)
ret += what
if name != self._main_module:
ret += '-' + os.path.splitext(basename)[0]
else:
name = name[2:] if name else 'builtin'
ret += re.sub(r'-', '-' + name + '-', what)
return ret
def _module_filename(self, what, name):
return os.path.join(self._module_dirname(what, name),
self._module_basename(what, name))
def _add_module(self, name, blurb):
basename = self._module_filename(self._what, name)
genc = QAPIGenC(basename + '.c', blurb, self._pydoc)
genh = QAPIGenH(basename + '.h', blurb, self._pydoc)
self._module[name] = (genc, genh)
self._set_module(name)
def _add_user_module(self, name, blurb):
assert self._is_user_module(name)
if self._main_module is None:
self._main_module = name
self._add_module(name, blurb)
def _add_system_module(self, name, blurb):
self._add_module(name and './' + name, blurb)
def _set_module(self, name):
self._genc, self._genh = self._module[name]
def write(self, output_dir, opt_builtins=False):
for name in self._module:
if self._is_builtin_module(name) and not opt_builtins:
continue
(genc, genh) = self._module[name]
genc.write(output_dir)
genh.write(output_dir)
def _begin_user_module(self, name):
pass
def visit_module(self, name):
if name in self._module:
self._set_module(name)
elif self._is_builtin_module(name):
# The built-in module has not been created. No code may
# be generated.
self._genc = None
self._genh = None
else:
self._add_user_module(name, self._blurb)
self._begin_user_module(name)
def visit_include(self, name, info):
relname = os.path.relpath(self._module_filename(self._what, name),
os.path.dirname(self._genh.fname))
self._genh.preamble_add(mcgen('''
#include "%(relname)s.h"
''',
relname=relname))