libvirt/docs/apibuild.py

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#!/usr/bin/python -u
#
# This is the API builder, it parses the C sources and build the
# API formal description in XML.
#
# See Copyright for the status of this software.
#
# daniel@veillard.com
#
import os, sys
import string
import glob
import re
quiet=True
warnings=0
debug=False
debugsym=None
#
# C parser analysis code
#
included_files = {
"libvirt-domain.h": "header with general libvirt API definitions",
"libvirt-domain-snapshot.h": "header with general libvirt API definitions",
"libvirt-event.h": "header with general libvirt API definitions",
"libvirt-host.h": "header with general libvirt API definitions",
"libvirt-interface.h": "header with general libvirt API definitions",
"libvirt-network.h": "header with general libvirt API definitions",
"libvirt-nodedev.h": "header with general libvirt API definitions",
"libvirt-nwfilter.h": "header with general libvirt API definitions",
"libvirt-secret.h": "header with general libvirt API definitions",
"libvirt-storage.h": "header with general libvirt API definitions",
"libvirt-stream.h": "header with general libvirt API definitions",
"virterror.h": "header with error specific API definitions",
"libvirt.c": "Main interfaces for the libvirt library",
"libvirt-domain.c": "Domain interfaces for the libvirt library",
"libvirt-domain-snapshot.c": "Domain snapshot interfaces for the libvirt library",
"libvirt-host.c": "Host interfaces for the libvirt library",
"libvirt-interface.c": "Interface interfaces for the libvirt library",
"libvirt-network.c": "Network interfaces for the libvirt library",
"libvirt-nodedev.c": "Node device interfaces for the libvirt library",
"libvirt-nwfilter.c": "NWFilter interfaces for the libvirt library",
"libvirt-secret.c": "Secret interfaces for the libvirt library",
"libvirt-storage.c": "Storage interfaces for the libvirt library",
"libvirt-stream.c": "Stream interfaces for the libvirt library",
"virerror.c": "implements error handling and reporting code for libvirt",
"virevent.c": "event loop for monitoring file handles",
"virtypedparam.c": "virTypedParameters APIs",
}
qemu_included_files = {
"libvirt-qemu.h": "header with QEMU specific API definitions",
"libvirt-qemu.c": "Implementations for the QEMU specific APIs",
}
lxc_included_files = {
"libvirt-lxc.h": "header with LXC specific API definitions",
"libvirt-lxc.c": "Implementations for the LXC specific APIs",
}
ignored_words = {
"ATTRIBUTE_UNUSED": (0, "macro keyword"),
"ATTRIBUTE_SENTINEL": (0, "macro keyword"),
"VIR_DEPRECATED": (0, "macro keyword"),
"VIR_EXPORT_VAR": (0, "macro keyword"),
"WINAPI": (0, "Windows keyword"),
"__declspec": (3, "Windows keyword"),
"__stdcall": (0, "Windows keyword"),
}
ignored_functions = {
"virConnectSupportsFeature": "private function for remote access",
"virDomainMigrateFinish": "private function for migration",
"virDomainMigrateFinish2": "private function for migration",
"virDomainMigratePerform": "private function for migration",
"virDomainMigratePrepare": "private function for migration",
"virDomainMigratePrepare2": "private function for migration",
"virDomainMigratePrepareTunnel": "private function for tunnelled migration",
Introduce yet another migration version in API. Migration just seems to go from bad to worse. We already had to introduce a second migration protocol when adding the QEMU driver, since the one from Xen was insufficiently flexible to cope with passing the data the QEMU driver required. It turns out that this protocol still has some flaws that we need to address. The current sequence is * Src: DumpXML - Generate XML to pass to dst * Dst: Prepare - Get ready to accept incoming VM - Generate optional cookie to pass to src * Src: Perform - Start migration and wait for send completion - Kill off VM if successful, resume if failed * Dst: Finish - Wait for recv completion and check status - Kill off VM if unsuccessful The problems with this are: - Since the first step is a generic 'DumpXML' call, we can't add in other migration specific data. eg, we can't include any VM lease data from lock manager plugins - Since the first step is a generic 'DumpXML' call, we can't emit any 'migration begin' event on the source, or have any hook that runs right at the start of the process - Since there is no final step on the source, if the Finish method fails to receive all migration data & has to kill the VM, then there's no way to resume the original VM on the source This patch attempts to introduce a version 3 that uses the improved 5 step sequence * Src: Begin - Generate XML to pass to dst - Generate optional cookie to pass to dst * Dst: Prepare - Get ready to accept incoming VM - Generate optional cookie to pass to src * Src: Perform - Start migration and wait for send completion - Generate optional cookie to pass to dst * Dst: Finish - Wait for recv completion and check status - Kill off VM if failed, resume if success - Generate optional cookie to pass to src * Src: Confirm - Kill off VM if success, resume if failed The API is designed to allow both input and output cookies in all methods where applicable. This lets us pass around arbitrary extra driver specific data between src & dst during migration. Combined with the extra 'Begin' method this lets us pass lease information from source to dst at the start of migration Moving the killing of the source VM out of Perform and into Confirm, means we can now recover if the dst host can't successfully Finish receiving migration data.
2010-11-02 20:43:44 +08:00
"virDomainMigrateBegin3": "private function for migration",
"virDomainMigrateFinish3": "private function for migration",
"virDomainMigratePerform3": "private function for migration",
"virDomainMigratePrepare3": "private function for migration",
"virDomainMigrateConfirm3": "private function for migration",
"virDomainMigratePrepareTunnel3": "private function for tunnelled migration",
"DllMain": "specific function for Win32",
"virTypedParamsValidate": "internal function in virtypedparam.c",
"virTypedParameterValidateSet": "internal function in virtypedparam.c",
"virTypedParameterAssign": "internal function in virtypedparam.c",
"virTypedParameterAssignFromStr": "internal function in virtypedparam.c",
"virTypedParameterToString": "internal function in virtypedparam.c",
"virTypedParamsCheck": "internal function in virtypedparam.c",
"virTypedParamsCopy": "internal function in virtypedparam.c",
"virDomainMigrateBegin3Params": "private function for migration",
"virDomainMigrateFinish3Params": "private function for migration",
"virDomainMigratePerform3Params": "private function for migration",
"virDomainMigratePrepare3Params": "private function for migration",
"virDomainMigrateConfirm3Params": "private function for migration",
"virDomainMigratePrepareTunnel3Params": "private function for tunnelled migration",
}
ignored_macros = {
"_virSchedParameter": "backward compatibility macro for virTypedParameter",
"_virBlkioParameter": "backward compatibility macro for virTypedParameter",
"_virMemoryParameter": "backward compatibility macro for virTypedParameter",
}
def escape(raw):
raw = string.replace(raw, '&', '&')
raw = string.replace(raw, '<', '&lt;')
raw = string.replace(raw, '>', '&gt;')
raw = string.replace(raw, "'", '&apos;')
raw = string.replace(raw, '"', '&quot;')
return raw
def uniq(items):
d = {}
for item in items:
d[item]=1
k = d.keys()
k.sort()
return k
class identifier:
def __init__(self, name, header=None, module=None, type=None, lineno = 0,
info=None, extra=None, conditionals = None):
self.name = name
self.header = header
self.module = module
self.type = type
self.info = info
self.extra = extra
self.lineno = lineno
self.static = 0
if conditionals is None or len(conditionals) == 0:
self.conditionals = None
else:
self.conditionals = conditionals[:]
if self.name == debugsym and not quiet:
print "=> define %s : %s" % (debugsym, (module, type, info,
extra, conditionals))
def __repr__(self):
r = "%s %s:" % (self.type, self.name)
if self.static:
r = r + " static"
if self.module is not None:
r = r + " from %s" % (self.module)
if self.info is not None:
r = r + " " + `self.info`
if self.extra is not None:
r = r + " " + `self.extra`
if self.conditionals is not None:
r = r + " " + `self.conditionals`
return r
def set_header(self, header):
self.header = header
def set_module(self, module):
self.module = module
def set_type(self, type):
self.type = type
def set_info(self, info):
self.info = info
def set_extra(self, extra):
self.extra = extra
def set_lineno(self, lineno):
self.lineno = lineno
def set_static(self, static):
self.static = static
def set_conditionals(self, conditionals):
if conditionals is None or len(conditionals) == 0:
self.conditionals = None
else:
self.conditionals = conditionals[:]
def get_name(self):
return self.name
def get_header(self):
return self.module
def get_module(self):
return self.module
def get_type(self):
return self.type
def get_info(self):
return self.info
def get_lineno(self):
return self.lineno
def get_extra(self):
return self.extra
def get_static(self):
return self.static
def get_conditionals(self):
return self.conditionals
def update(self, header, module, type = None, info = None, extra=None,
conditionals=None):
if self.name == debugsym and not quiet:
print "=> update %s : %s" % (debugsym, (module, type, info,
extra, conditionals))
if header is not None and self.header is None:
self.set_header(module)
if module is not None and (self.module is None or self.header == self.module):
self.set_module(module)
if type is not None and self.type is None:
self.set_type(type)
if info is not None:
self.set_info(info)
if extra is not None:
self.set_extra(extra)
if conditionals is not None:
self.set_conditionals(conditionals)
class index:
def __init__(self, name = "noname"):
self.name = name
self.identifiers = {}
self.functions = {}
self.variables = {}
self.includes = {}
self.structs = {}
self.unions = {}
self.enums = {}
self.typedefs = {}
self.macros = {}
self.references = {}
self.info = {}
def add_ref(self, name, header, module, static, type, lineno, info=None, extra=None, conditionals = None):
if name[0:2] == '__':
return None
d = None
try:
d = self.identifiers[name]
d.update(header, module, type, lineno, info, extra, conditionals)
except:
d = identifier(name, header, module, type, lineno, info, extra, conditionals)
self.identifiers[name] = d
if d is not None and static == 1:
d.set_static(1)
if d is not None and name is not None and type is not None:
self.references[name] = d
if name == debugsym and not quiet:
print "New ref: %s" % (d)
return d
def add(self, name, header, module, static, type, lineno, info=None, extra=None, conditionals = None):
if name[0:2] == '__':
return None
d = None
try:
d = self.identifiers[name]
d.update(header, module, type, lineno, info, extra, conditionals)
except:
d = identifier(name, header, module, type, lineno, info, extra, conditionals)
self.identifiers[name] = d
if d is not None and static == 1:
d.set_static(1)
if d is not None and name is not None and type is not None:
if type == "function":
self.functions[name] = d
elif type == "functype":
self.functions[name] = d
elif type == "variable":
self.variables[name] = d
elif type == "include":
self.includes[name] = d
elif type == "struct":
self.structs[name] = d
elif type == "union":
self.unions[name] = d
elif type == "enum":
self.enums[name] = d
elif type == "typedef":
self.typedefs[name] = d
elif type == "macro":
self.macros[name] = d
else:
self.warning("Unable to register type ", type)
if name == debugsym and not quiet:
print "New symbol: %s" % (d)
return d
def merge(self, idx):
for id in idx.functions.keys():
#
# macro might be used to override functions or variables
# definitions
#
if self.macros.has_key(id):
del self.macros[id]
if self.functions.has_key(id):
self.warning("function %s from %s redeclared in %s" % (
id, self.functions[id].header, idx.functions[id].header))
else:
self.functions[id] = idx.functions[id]
self.identifiers[id] = idx.functions[id]
for id in idx.variables.keys():
#
# macro might be used to override functions or variables
# definitions
#
if self.macros.has_key(id):
del self.macros[id]
if self.variables.has_key(id):
self.warning("variable %s from %s redeclared in %s" % (
id, self.variables[id].header, idx.variables[id].header))
else:
self.variables[id] = idx.variables[id]
self.identifiers[id] = idx.variables[id]
for id in idx.structs.keys():
if self.structs.has_key(id):
self.warning("struct %s from %s redeclared in %s" % (
id, self.structs[id].header, idx.structs[id].header))
else:
self.structs[id] = idx.structs[id]
self.identifiers[id] = idx.structs[id]
for id in idx.unions.keys():
if self.unions.has_key(id):
print "union %s from %s redeclared in %s" % (
id, self.unions[id].header, idx.unions[id].header)
else:
self.unions[id] = idx.unions[id]
self.identifiers[id] = idx.unions[id]
for id in idx.typedefs.keys():
if self.typedefs.has_key(id):
self.warning("typedef %s from %s redeclared in %s" % (
id, self.typedefs[id].header, idx.typedefs[id].header))
else:
self.typedefs[id] = idx.typedefs[id]
self.identifiers[id] = idx.typedefs[id]
for id in idx.macros.keys():
#
# macro might be used to override functions or variables
# definitions
#
if self.variables.has_key(id):
continue
if self.functions.has_key(id):
continue
if self.enums.has_key(id):
continue
if self.macros.has_key(id):
self.warning("macro %s from %s redeclared in %s" % (
id, self.macros[id].header, idx.macros[id].header))
else:
self.macros[id] = idx.macros[id]
self.identifiers[id] = idx.macros[id]
for id in idx.enums.keys():
if self.enums.has_key(id):
self.warning("enum %s from %s redeclared in %s" % (
id, self.enums[id].header, idx.enums[id].header))
else:
self.enums[id] = idx.enums[id]
self.identifiers[id] = idx.enums[id]
def merge_public(self, idx):
for id in idx.functions.keys():
if self.functions.has_key(id):
# check that function condition agrees with header
if idx.functions[id].conditionals != \
self.functions[id].conditionals:
self.warning("Header condition differs from Function for %s:" \
% id)
self.warning(" H: %s" % self.functions[id].conditionals)
self.warning(" C: %s" % idx.functions[id].conditionals)
up = idx.functions[id]
self.functions[id].update(None, up.module, up.type, up.info, up.extra)
# else:
# print "Function %s from %s is not declared in headers" % (
# id, idx.functions[id].module)
# TODO: do the same for variables.
def analyze_dict(self, type, dict):
count = 0
public = 0
for name in dict.keys():
id = dict[name]
count = count + 1
if id.static == 0:
public = public + 1
if count != public:
print " %d %s , %d public" % (count, type, public)
elif count != 0:
print " %d public %s" % (count, type)
def analyze(self):
if not quiet:
self.analyze_dict("functions", self.functions)
self.analyze_dict("variables", self.variables)
self.analyze_dict("structs", self.structs)
self.analyze_dict("unions", self.unions)
self.analyze_dict("typedefs", self.typedefs)
self.analyze_dict("macros", self.macros)
class CLexer:
"""A lexer for the C language, tokenize the input by reading and
analyzing it line by line"""
def __init__(self, input):
self.input = input
self.tokens = []
self.line = ""
self.lineno = 0
def getline(self):
line = ''
while line == '':
line = self.input.readline()
if not line:
return None
self.lineno = self.lineno + 1
line = string.lstrip(line)
line = string.rstrip(line)
if line == '':
continue
while line[-1] == '\\':
line = line[:-1]
n = self.input.readline()
self.lineno = self.lineno + 1
n = string.lstrip(n)
n = string.rstrip(n)
if not n:
break
else:
line = line + n
return line
def getlineno(self):
return self.lineno
def push(self, token):
self.tokens.insert(0, token)
def debug(self):
print "Last token: ", self.last
print "Token queue: ", self.tokens
print "Line %d end: " % (self.lineno), self.line
def token(self):
while self.tokens == []:
if self.line == "":
line = self.getline()
else:
line = self.line
self.line = ""
if line is None:
return None
if line[0] == '#':
self.tokens = map((lambda x: ('preproc', x)),
string.split(line))
# We might have whitespace between the '#' and preproc
# macro name, so instead of having a single token element
# of '#define' we might end up with '#' and 'define'. This
# merges them back together
if self.tokens[0][1] == "#":
self.tokens[0] = ('preproc', self.tokens[0][1] + self.tokens[1][1])
self.tokens = self.tokens[:1] + self.tokens[2:]
break
l = len(line)
if line[0] == '"' or line[0] == "'":
end = line[0]
line = line[1:]
found = 0
tok = ""
while found == 0:
i = 0
l = len(line)
while i < l:
if line[i] == end:
self.line = line[i+1:]
line = line[:i]
l = i
found = 1
break
if line[i] == '\\':
i = i + 1
i = i + 1
tok = tok + line
if found == 0:
line = self.getline()
if line is None:
return None
self.last = ('string', tok)
return self.last
if l >= 2 and line[0] == '/' and line[1] == '*':
line = line[2:]
found = 0
tok = ""
while found == 0:
i = 0
l = len(line)
while i < l:
if line[i] == '*' and i+1 < l and line[i+1] == '/':
self.line = line[i+2:]
line = line[:i-1]
l = i
found = 1
break
i = i + 1
if tok != "":
tok = tok + "\n"
tok = tok + line
if found == 0:
line = self.getline()
if line is None:
return None
self.last = ('comment', tok)
return self.last
if l >= 2 and line[0] == '/' and line[1] == '/':
line = line[2:]
self.last = ('comment', line)
return self.last
i = 0
while i < l:
if line[i] == '/' and i+1 < l and line[i+1] == '/':
self.line = line[i:]
line = line[:i]
break
if line[i] == '/' and i+1 < l and line[i+1] == '*':
self.line = line[i:]
line = line[:i]
break
if line[i] == '"' or line[i] == "'":
self.line = line[i:]
line = line[:i]
break
i = i + 1
l = len(line)
i = 0
while i < l:
if line[i] == ' ' or line[i] == '\t':
i = i + 1
continue
o = ord(line[i])
if (o >= 97 and o <= 122) or (o >= 65 and o <= 90) or \
(o >= 48 and o <= 57):
s = i
while i < l:
o = ord(line[i])
if (o >= 97 and o <= 122) or (o >= 65 and o <= 90) or \
(o >= 48 and o <= 57) or string.find(
" \t(){}:;,+-*/%&!|[]=><", line[i]) == -1:
i = i + 1
else:
break
self.tokens.append(('name', line[s:i]))
continue
if string.find("(){}:;,[]", line[i]) != -1:
# if line[i] == '(' or line[i] == ')' or line[i] == '{' or \
# line[i] == '}' or line[i] == ':' or line[i] == ';' or \
# line[i] == ',' or line[i] == '[' or line[i] == ']':
self.tokens.append(('sep', line[i]))
i = i + 1
continue
if string.find("+-*><=/%&!|.", line[i]) != -1:
# if line[i] == '+' or line[i] == '-' or line[i] == '*' or \
# line[i] == '>' or line[i] == '<' or line[i] == '=' or \
# line[i] == '/' or line[i] == '%' or line[i] == '&' or \
# line[i] == '!' or line[i] == '|' or line[i] == '.':
if line[i] == '.' and i + 2 < l and \
line[i+1] == '.' and line[i+2] == '.':
self.tokens.append(('name', '...'))
i = i + 3
continue
j = i + 1
if j < l and (
string.find("+-*><=/%&!|", line[j]) != -1):
# line[j] == '+' or line[j] == '-' or line[j] == '*' or \
# line[j] == '>' or line[j] == '<' or line[j] == '=' or \
# line[j] == '/' or line[j] == '%' or line[j] == '&' or \
# line[j] == '!' or line[j] == '|'):
self.tokens.append(('op', line[i:j+1]))
i = j + 1
else:
self.tokens.append(('op', line[i]))
i = i + 1
continue
s = i
while i < l:
o = ord(line[i])
if (o >= 97 and o <= 122) or (o >= 65 and o <= 90) or \
(o >= 48 and o <= 57) or (
string.find(" \t(){}:;,+-*/%&!|[]=><", line[i]) == -1):
# line[i] != ' ' and line[i] != '\t' and
# line[i] != '(' and line[i] != ')' and
# line[i] != '{' and line[i] != '}' and
# line[i] != ':' and line[i] != ';' and
# line[i] != ',' and line[i] != '+' and
# line[i] != '-' and line[i] != '*' and
# line[i] != '/' and line[i] != '%' and
# line[i] != '&' and line[i] != '!' and
# line[i] != '|' and line[i] != '[' and
# line[i] != ']' and line[i] != '=' and
# line[i] != '*' and line[i] != '>' and
# line[i] != '<'):
i = i + 1
else:
break
self.tokens.append(('name', line[s:i]))
tok = self.tokens[0]
self.tokens = self.tokens[1:]
self.last = tok
return tok
class CParser:
"""The C module parser"""
def __init__(self, filename, idx = None):
self.filename = filename
if len(filename) > 2 and filename[-2:] == '.h':
self.is_header = 1
else:
self.is_header = 0
self.input = open(filename)
self.lexer = CLexer(self.input)
if idx is None:
self.index = index()
else:
self.index = idx
self.top_comment = ""
self.last_comment = ""
self.comment = None
self.collect_ref = 0
self.no_error = 0
self.conditionals = []
self.defines = []
def collect_references(self):
self.collect_ref = 1
def stop_error(self):
self.no_error = 1
def start_error(self):
self.no_error = 0
def lineno(self):
return self.lexer.getlineno()
def index_add(self, name, module, static, type, info=None, extra = None):
if self.is_header == 1:
self.index.add(name, module, module, static, type, self.lineno(),
info, extra, self.conditionals)
else:
self.index.add(name, None, module, static, type, self.lineno(),
info, extra, self.conditionals)
def index_add_ref(self, name, module, static, type, info=None,
extra = None):
if self.is_header == 1:
self.index.add_ref(name, module, module, static, type,
self.lineno(), info, extra, self.conditionals)
else:
self.index.add_ref(name, None, module, static, type, self.lineno(),
info, extra, self.conditionals)
def warning(self, msg):
global warnings
warnings = warnings + 1
if self.no_error:
return
print msg
def error(self, msg, token=-1):
if self.no_error:
return
print "Parse Error: " + msg
if token != -1:
print "Got token ", token
self.lexer.debug()
sys.exit(1)
def debug(self, msg, token=-1):
print "Debug: " + msg
if token != -1:
print "Got token ", token
self.lexer.debug()
def parseTopComment(self, comment):
res = {}
lines = string.split(comment, "\n")
item = None
for line in lines:
2013-01-10 23:02:23 +08:00
line = line.lstrip().lstrip('*').lstrip()
m = re.match('([_.a-zA-Z0-9]+):(.*)', line)
if m:
item = m.group(1)
line = m.group(2).lstrip()
if item:
if res.has_key(item):
res[item] = res[item] + " " + line
else:
res[item] = line
self.index.info = res
def strip_lead_star(self, line):
l = len(line)
i = 0
while i < l:
if line[i] == ' ' or line[i] == '\t':
i += 1
elif line[i] == '*':
return line[:i] + line[i + 1:]
else:
return line
return line
def cleanupComment(self):
if type(self.comment) != type(""):
return
# remove the leading * on multi-line comments
lines = self.comment.splitlines(True)
com = ""
for line in lines:
com = com + self.strip_lead_star(line)
self.comment = com.strip()
def parseComment(self, token):
com = token[1]
if self.top_comment == "":
self.top_comment = com
if self.comment is None or com[0] == '*':
self.comment = com
else:
self.comment = self.comment + com
token = self.lexer.token()
if string.find(self.comment, "DOC_DISABLE") != -1:
self.stop_error()
if string.find(self.comment, "DOC_ENABLE") != -1:
self.start_error()
return token
#
# Parse a comment block associate to a typedef
#
def parseTypeComment(self, name, quiet = 0):
if name[0:2] == '__':
quiet = 1
args = []
desc = ""
if self.comment is None:
if not quiet:
self.warning("Missing comment for type %s" % (name))
return((args, desc))
if self.comment[0] != '*':
if not quiet:
self.warning("Missing * in type comment for %s" % (name))
return((args, desc))
lines = string.split(self.comment, '\n')
if lines[0] == '*':
del lines[0]
if lines[0] != "* %s:" % (name):
if not quiet:
self.warning("Misformatted type comment for %s" % (name))
self.warning(" Expecting '* %s:' got '%s'" % (name, lines[0]))
return((args, desc))
del lines[0]
while len(lines) > 0 and lines[0] == '*':
del lines[0]
desc = ""
while len(lines) > 0:
l = lines[0]
while len(l) > 0 and l[0] == '*':
l = l[1:]
l = string.strip(l)
desc = desc + " " + l
del lines[0]
desc = string.strip(desc)
if quiet == 0:
if desc == "":
self.warning("Type comment for %s lack description of the macro" % (name))
return(desc)
#
# Parse a comment block associate to a macro
#
def parseMacroComment(self, name, quiet = 0):
global ignored_macros
if name[0:2] == '__':
quiet = 1
if ignored_macros.has_key(name):
quiet = 1
args = []
desc = ""
if self.comment is None:
if not quiet:
self.warning("Missing comment for macro %s" % (name))
return((args, desc))
if self.comment[0] != '*':
if not quiet:
self.warning("Missing * in macro comment for %s" % (name))
return((args, desc))
lines = string.split(self.comment, '\n')
if lines[0] == '*':
del lines[0]
if lines[0] != "* %s:" % (name):
if not quiet:
self.warning("Misformatted macro comment for %s" % (name))
self.warning(" Expecting '* %s:' got '%s'" % (name, lines[0]))
return((args, desc))
del lines[0]
while lines[0] == '*':
del lines[0]
while len(lines) > 0 and lines[0][0:3] == '* @':
l = lines[0][3:]
try:
(arg, desc) = string.split(l, ':', 1)
desc=string.strip(desc)
arg=string.strip(arg)
except:
if not quiet:
self.warning("Misformatted macro comment for %s" % (name))
self.warning(" problem with '%s'" % (lines[0]))
del lines[0]
continue
del lines[0]
l = string.strip(lines[0])
while len(l) > 2 and l[0:3] != '* @':
while l[0] == '*':
l = l[1:]
desc = desc + ' ' + string.strip(l)
del lines[0]
if len(lines) == 0:
break
l = lines[0]
args.append((arg, desc))
while len(lines) > 0 and lines[0] == '*':
del lines[0]
desc = ""
while len(lines) > 0:
l = lines[0]
while len(l) > 0 and l[0] == '*':
l = l[1:]
l = string.strip(l)
desc = desc + " " + l
del lines[0]
desc = string.strip(desc)
if quiet == 0:
if desc == "":
self.warning("Macro comment for %s lack description of the macro" % (name))
return((args, desc))
#
# Parse a comment block and merge the information found in the
# parameters descriptions, finally returns a block as complete
# as possible
#
def mergeFunctionComment(self, name, description, quiet = 0):
global ignored_functions
if name == 'main':
quiet = 1
if name[0:2] == '__':
quiet = 1
if ignored_functions.has_key(name):
quiet = 1
(ret, args) = description
desc = ""
retdesc = ""
if self.comment is None:
if not quiet:
self.warning("Missing comment for function %s" % (name))
return(((ret[0], retdesc), args, desc))
if self.comment[0] != '*':
if not quiet:
self.warning("Missing * in function comment for %s" % (name))
return(((ret[0], retdesc), args, desc))
lines = string.split(self.comment, '\n')
if lines[0] == '*':
del lines[0]
if lines[0] != "* %s:" % (name):
if not quiet:
self.warning("Misformatted function comment for %s" % (name))
self.warning(" Expecting '* %s:' got '%s'" % (name, lines[0]))
return(((ret[0], retdesc), args, desc))
del lines[0]
while lines[0] == '*':
del lines[0]
nbargs = len(args)
while len(lines) > 0 and lines[0][0:3] == '* @':
l = lines[0][3:]
try:
(arg, desc) = string.split(l, ':', 1)
desc=string.strip(desc)
arg=string.strip(arg)
except:
if not quiet:
self.warning("Misformatted function comment for %s" % (name))
self.warning(" problem with '%s'" % (lines[0]))
del lines[0]
continue
del lines[0]
l = string.strip(lines[0])
while len(l) > 2 and l[0:3] != '* @':
while l[0] == '*':
l = l[1:]
desc = desc + ' ' + string.strip(l)
del lines[0]
if len(lines) == 0:
break
l = lines[0]
i = 0
while i < nbargs:
if args[i][1] == arg:
args[i] = (args[i][0], arg, desc)
break
i = i + 1
if i >= nbargs:
if not quiet:
self.warning("Unable to find arg %s from function comment for %s" % (
arg, name))
while len(lines) > 0 and lines[0] == '*':
del lines[0]
desc = None
while len(lines) > 0:
l = lines[0]
i = 0
# Remove all leading '*', followed by at most one ' ' character
# since we need to preserve correct indentation of code examples
while i < len(l) and l[i] == '*':
i = i + 1
if i > 0:
if i < len(l) and l[i] == ' ':
i = i + 1
l = l[i:]
if len(l) >= 6 and l[0:7] == "Returns":
try:
l = string.split(l, ' ', 1)[1]
except:
l = ""
retdesc = string.strip(l)
del lines[0]
while len(lines) > 0:
l = lines[0]
while len(l) > 0 and l[0] == '*':
l = l[1:]
l = string.strip(l)
retdesc = retdesc + " " + l
del lines[0]
else:
if desc is not None:
desc = desc + "\n" + l
else:
desc = l
del lines[0]
if desc is None:
desc = ""
retdesc = string.strip(retdesc)
desc = string.strip(desc)
if quiet == 0:
#
# report missing comments
#
i = 0
while i < nbargs:
if args[i][2] is None and args[i][0] != "void" and args[i][1] is not None:
self.warning("Function comment for %s lacks description of arg %s" % (name, args[i][1]))
i = i + 1
if retdesc == "" and ret[0] != "void":
self.warning("Function comment for %s lacks description of return value" % (name))
if desc == "":
self.warning("Function comment for %s lacks description of the function" % (name))
return(((ret[0], retdesc), args, desc))
def parsePreproc(self, token):
if debug:
print "=> preproc ", token, self.lexer.tokens
name = token[1]
if name == "#include":
token = self.lexer.token()
if token is None:
return None
if token[0] == 'preproc':
self.index_add(token[1], self.filename, not self.is_header,
"include")
return self.lexer.token()
return token
if name == "#define":
token = self.lexer.token()
if token is None:
return None
if token[0] == 'preproc':
# TODO macros with arguments
name = token[1]
lst = []
token = self.lexer.token()
while token is not None and token[0] == 'preproc' and \
token[1][0] != '#':
lst.append(token[1])
token = self.lexer.token()
try:
name = string.split(name, '(') [0]
except:
pass
info = self.parseMacroComment(name, not self.is_header)
self.index_add(name, self.filename, not self.is_header,
"macro", info)
return token
#
# Processing of conditionals modified by Bill 1/1/05
#
# We process conditionals (i.e. tokens from #ifdef, #ifndef,
# #if, #else and #endif) for headers and mainline code,
# store the ones from the header in libxml2-api.xml, and later
# (in the routine merge_public) verify that the two (header and
# mainline code) agree.
#
# There is a small problem with processing the headers. Some of
# the variables are not concerned with enabling / disabling of
# library functions (e.g. '__XML_PARSER_H__'), and we don't want
# them to be included in libxml2-api.xml, or involved in
# the check between the header and the mainline code. To
# accomplish this, we ignore any conditional which doesn't include
# the string 'ENABLED'
#
if name == "#ifdef":
apstr = self.lexer.tokens[0][1]
try:
self.defines.append(apstr)
if string.find(apstr, 'ENABLED') != -1:
self.conditionals.append("defined(%s)" % apstr)
except:
pass
elif name == "#ifndef":
apstr = self.lexer.tokens[0][1]
try:
self.defines.append(apstr)
if string.find(apstr, 'ENABLED') != -1:
self.conditionals.append("!defined(%s)" % apstr)
except:
pass
elif name == "#if":
apstr = ""
for tok in self.lexer.tokens:
if apstr != "":
apstr = apstr + " "
apstr = apstr + tok[1]
try:
self.defines.append(apstr)
if string.find(apstr, 'ENABLED') != -1:
self.conditionals.append(apstr)
except:
pass
elif name == "#else":
if self.conditionals != [] and \
string.find(self.defines[-1], 'ENABLED') != -1:
self.conditionals[-1] = "!(%s)" % self.conditionals[-1]
elif name == "#endif":
if self.conditionals != [] and \
string.find(self.defines[-1], 'ENABLED') != -1:
self.conditionals = self.conditionals[:-1]
self.defines = self.defines[:-1]
token = self.lexer.token()
while token is not None and token[0] == 'preproc' and \
token[1][0] != '#':
token = self.lexer.token()
return token
#
# token acquisition on top of the lexer, it handle internally
# preprocessor and comments since they are logically not part of
# the program structure.
#
def push(self, tok):
self.lexer.push(tok)
def token(self):
global ignored_words
token = self.lexer.token()
while token is not None:
if token[0] == 'comment':
token = self.parseComment(token)
continue
elif token[0] == 'preproc':
token = self.parsePreproc(token)
continue
elif token[0] == "name" and token[1] == "__const":
token = ("name", "const")
return token
elif token[0] == "name" and token[1] == "__attribute":
token = self.lexer.token()
while token is not None and token[1] != ";":
token = self.lexer.token()
return token
elif token[0] == "name" and ignored_words.has_key(token[1]):
(n, info) = ignored_words[token[1]]
i = 0
while i < n:
token = self.lexer.token()
i = i + 1
token = self.lexer.token()
continue
else:
if debug:
print "=> ", token
return token
return None
#
# Parse a typedef, it records the type and its name.
#
def parseTypedef(self, token):
if token is None:
return None
token = self.parseType(token)
if token is None:
self.error("parsing typedef")
return None
base_type = self.type
type = base_type
#self.debug("end typedef type", token)
while token is not None:
if token[0] == "name":
name = token[1]
signature = self.signature
if signature is not None:
type = string.split(type, '(')[0]
d = self.mergeFunctionComment(name,
((type, None), signature), 1)
self.index_add(name, self.filename, not self.is_header,
"functype", d)
else:
if base_type == "struct":
self.index_add(name, self.filename, not self.is_header,
"struct", type)
base_type = "struct " + name
else:
# TODO report missing or misformatted comments
info = self.parseTypeComment(name, 1)
self.index_add(name, self.filename, not self.is_header,
"typedef", type, info)
token = self.token()
else:
self.error("parsing typedef: expecting a name")
return token
#self.debug("end typedef", token)
if token is not None and token[0] == 'sep' and token[1] == ',':
type = base_type
token = self.token()
while token is not None and token[0] == "op":
type = type + token[1]
token = self.token()
elif token is not None and token[0] == 'sep' and token[1] == ';':
break
elif token is not None and token[0] == 'name':
type = base_type
continue
else:
self.error("parsing typedef: expecting ';'", token)
return token
token = self.token()
return token
#
# Parse a C code block, used for functions it parse till
# the balancing } included
#
def parseBlock(self, token):
while token is not None:
if token[0] == "sep" and token[1] == "{":
token = self.token()
token = self.parseBlock(token)
elif token[0] == "sep" and token[1] == "}":
self.comment = None
token = self.token()
return token
else:
if self.collect_ref == 1:
oldtok = token
token = self.token()
if oldtok[0] == "name" and oldtok[1][0:3] == "vir":
if token[0] == "sep" and token[1] == "(":
self.index_add_ref(oldtok[1], self.filename,
0, "function")
token = self.token()
elif token[0] == "name":
token = self.token()
if token[0] == "sep" and (token[1] == ";" or
token[1] == "," or token[1] == "="):
self.index_add_ref(oldtok[1], self.filename,
0, "type")
elif oldtok[0] == "name" and oldtok[1][0:4] == "XEN_":
self.index_add_ref(oldtok[1], self.filename,
0, "typedef")
elif oldtok[0] == "name" and oldtok[1][0:7] == "LIBXEN_":
self.index_add_ref(oldtok[1], self.filename,
0, "typedef")
else:
token = self.token()
return token
#
# Parse a C struct definition till the balancing }
#
def parseStruct(self, token):
fields = []
#self.debug("start parseStruct", token)
while token is not None:
if token[0] == "sep" and token[1] == "{":
token = self.token()
token = self.parseTypeBlock(token)
elif token[0] == "sep" and token[1] == "}":
self.struct_fields = fields
#self.debug("end parseStruct", token)
#print fields
token = self.token()
return token
else:
base_type = self.type
#self.debug("before parseType", token)
token = self.parseType(token)
#self.debug("after parseType", token)
if token is not None and token[0] == "name":
fname = token[1]
token = self.token()
if token[0] == "sep" and token[1] == ";":
self.comment = None
token = self.token()
self.cleanupComment()
if self.type == "union":
fields.append((self.type, fname, self.comment,
self.union_fields))
self.union_fields = []
else:
fields.append((self.type, fname, self.comment))
self.comment = None
else:
self.error("parseStruct: expecting ;", token)
elif token is not None and token[0] == "sep" and token[1] == "{":
token = self.token()
token = self.parseTypeBlock(token)
if token is not None and token[0] == "name":
token = self.token()
if token is not None and token[0] == "sep" and token[1] == ";":
token = self.token()
else:
self.error("parseStruct: expecting ;", token)
else:
self.error("parseStruct: name", token)
token = self.token()
self.type = base_type
self.struct_fields = fields
#self.debug("end parseStruct", token)
#print fields
return token
#
# Parse a C union definition till the balancing }
#
def parseUnion(self, token):
fields = []
# self.debug("start parseUnion", token)
while token is not None:
if token[0] == "sep" and token[1] == "{":
token = self.token()
token = self.parseTypeBlock(token)
elif token[0] == "sep" and token[1] == "}":
self.union_fields = fields
# self.debug("end parseUnion", token)
# print fields
token = self.token()
return token
else:
base_type = self.type
# self.debug("before parseType", token)
token = self.parseType(token)
# self.debug("after parseType", token)
if token is not None and token[0] == "name":
fname = token[1]
token = self.token()
if token[0] == "sep" and token[1] == ";":
self.comment = None
token = self.token()
self.cleanupComment()
fields.append((self.type, fname, self.comment))
self.comment = None
else:
self.error("parseUnion: expecting ;", token)
elif token is not None and token[0] == "sep" and token[1] == "{":
token = self.token()
token = self.parseTypeBlock(token)
if token is not None and token[0] == "name":
token = self.token()
if token is not None and token[0] == "sep" and token[1] == ";":
token = self.token()
else:
self.error("parseUnion: expecting ;", token)
else:
self.error("parseUnion: name", token)
token = self.token()
self.type = base_type
self.union_fields = fields
# self.debug("end parseUnion", token)
# print fields
return token
#
# Parse a C enum block, parse till the balancing }
#
def parseEnumBlock(self, token):
self.enums = []
name = None
self.comment = None
comment = ""
value = "-1"
while token is not None:
if token[0] == "sep" and token[1] == "{":
token = self.token()
token = self.parseTypeBlock(token)
elif token[0] == "sep" and token[1] == "}":
if name is not None:
self.cleanupComment()
if self.comment is not None:
comment = self.comment
self.comment = None
self.enums.append((name, value, comment))
token = self.token()
return token
elif token[0] == "name":
self.cleanupComment()
if name is not None:
if self.comment is not None:
comment = string.strip(self.comment)
self.comment = None
self.enums.append((name, value, comment))
name = token[1]
comment = ""
token = self.token()
if token[0] == "op" and token[1][0] == "=":
value = ""
if len(token[1]) > 1:
value = token[1][1:]
token = self.token()
while token[0] != "sep" or (token[1] != ',' and
token[1] != '}'):
value = value + token[1]
token = self.token()
else:
try:
value = "%d" % (int(value) + 1)
except:
self.warning("Failed to compute value of enum %s" % (name))
value=""
if token[0] == "sep" and token[1] == ",":
token = self.token()
else:
token = self.token()
return token
def parseVirEnumDecl(self, token):
if token[0] != "name":
self.error("parsing VIR_ENUM_DECL: expecting name", token)
token = self.token()
if token[0] != "sep":
self.error("parsing VIR_ENUM_DECL: expecting ')'", token)
if token[1] != ')':
self.error("parsing VIR_ENUM_DECL: expecting ')'", token)
token = self.token()
if token[0] == "sep" and token[1] == ';':
token = self.token()
return token
def parseVirEnumImpl(self, token):
# First the type name
if token[0] != "name":
self.error("parsing VIR_ENUM_IMPL: expecting name", token)
token = self.token()
if token[0] != "sep":
self.error("parsing VIR_ENUM_IMPL: expecting ','", token)
if token[1] != ',':
self.error("parsing VIR_ENUM_IMPL: expecting ','", token)
token = self.token()
# Now the sentinel name
if token[0] != "name":
self.error("parsing VIR_ENUM_IMPL: expecting name", token)
token = self.token()
if token[0] != "sep":
self.error("parsing VIR_ENUM_IMPL: expecting ','", token)
if token[1] != ',':
self.error("parsing VIR_ENUM_IMPL: expecting ','", token)
token = self.token()
# Now a list of strings (optional comments)
while token is not None:
isGettext = False
# First a string, optionally with N_(...)
if token[0] == 'name':
if token[1] != 'N_':
self.error("parsing VIR_ENUM_IMPL: expecting 'N_'", token)
token = self.token()
if token[0] != "sep" or token[1] != '(':
self.error("parsing VIR_ENUM_IMPL: expecting '('", token)
token = self.token()
isGettext = True
if token[0] != "string":
self.error("parsing VIR_ENUM_IMPL: expecting a string", token)
token = self.token()
elif token[0] == "string":
token = self.token()
else:
self.error("parsing VIR_ENUM_IMPL: expecting a string", token)
# Then a separator
if token[0] == "sep":
if isGettext and token[1] == ')':
token = self.token()
if token[1] == ',':
token = self.token()
if token[1] == ')':
token = self.token()
break
# Then an optional comment
if token[0] == "comment":
token = self.token()
if token[0] == "sep" and token[1] == ';':
token = self.token()
return token
def parseVirLogInit(self, token):
if token[0] != "string":
self.error("parsing VIR_LOG_INIT: expecting string", token)
token = self.token()
if token[0] != "sep":
self.error("parsing VIR_LOG_INIT: expecting ')'", token)
if token[1] != ')':
self.error("parsing VIR_LOG_INIT: expecting ')'", token)
token = self.token()
if token[0] == "sep" and token[1] == ';':
token = self.token()
return token
#
# Parse a C definition block, used for structs or unions it parse till
# the balancing }
#
def parseTypeBlock(self, token):
while token is not None:
if token[0] == "sep" and token[1] == "{":
token = self.token()
token = self.parseTypeBlock(token)
elif token[0] == "sep" and token[1] == "}":
token = self.token()
return token
else:
token = self.token()
return token
#
# Parse a type: the fact that the type name can either occur after
# the definition or within the definition makes it a little harder
# if inside, the name token is pushed back before returning
#
def parseType(self, token):
self.type = ""
self.struct_fields = []
self.union_fields = []
self.signature = None
if token is None:
return token
while token[0] == "name" and (
token[1] == "const" or \
token[1] == "unsigned" or \
token[1] == "signed"):
if self.type == "":
self.type = token[1]
else:
self.type = self.type + " " + token[1]
token = self.token()
if token[0] == "name" and token[1] == "long":
if self.type == "":
self.type = token[1]
else:
self.type = self.type + " " + token[1]
# some read ahead for long long
oldtmp = token
token = self.token()
if token[0] == "name" and token[1] == "long":
self.type = self.type + " " + token[1]
else:
self.push(token)
token = oldtmp
oldtmp = token
token = self.token()
if token[0] == "name" and token[1] == "int":
self.type = self.type + " " + token[1]
else:
self.push(token)
token = oldtmp
elif token[0] == "name" and token[1] == "short":
if self.type == "":
self.type = token[1]
else:
self.type = self.type + " " + token[1]
elif token[0] == "name" and token[1] == "struct":
if self.type == "":
self.type = token[1]
else:
self.type = self.type + " " + token[1]
token = self.token()
nametok = None
if token[0] == "name":
nametok = token
token = self.token()
if token is not None and token[0] == "sep" and token[1] == "{":
token = self.token()
token = self.parseStruct(token)
elif token is not None and token[0] == "op" and token[1] == "*":
self.type = self.type + " " + nametok[1] + " *"
token = self.token()
while token is not None and token[0] == "op" and token[1] == "*":
self.type = self.type + " *"
token = self.token()
if token[0] == "name":
nametok = token
token = self.token()
else:
self.error("struct : expecting name", token)
return token
elif token is not None and token[0] == "name" and nametok is not None:
self.type = self.type + " " + nametok[1]
return token
if nametok is not None:
self.lexer.push(token)
token = nametok
return token
elif token[0] == "name" and token[1] == "union":
if self.type == "":
self.type = token[1]
else:
self.type = self.type + " " + token[1]
token = self.token()
nametok = None
if token[0] == "name":
nametok = token
token = self.token()
if token is not None and token[0] == "sep" and token[1] == "{":
token = self.token()
token = self.parseUnion(token)
elif token is not None and token[0] == "name" and nametok is not None:
self.type = self.type + " " + nametok[1]
return token
if nametok is not None:
self.lexer.push(token)
token = nametok
return token
elif token[0] == "name" and token[1] == "enum":
if self.type == "":
self.type = token[1]
else:
self.type = self.type + " " + token[1]
self.enums = []
token = self.token()
if token is not None and token[0] == "sep" and token[1] == "{":
token = self.token()
token = self.parseEnumBlock(token)
else:
self.error("parsing enum: expecting '{'", token)
enum_type = None
if token is not None and token[0] != "name":
self.lexer.push(token)
token = ("name", "enum")
else:
enum_type = token[1]
for enum in self.enums:
self.index_add(enum[0], self.filename,
not self.is_header, "enum",
(enum[1], enum[2], enum_type))
return token
elif token[0] == "name" and token[1] == "VIR_ENUM_DECL":
token = self.token()
if token is not None and token[0] == "sep" and token[1] == "(":
token = self.token()
token = self.parseVirEnumDecl(token)
else:
self.error("parsing VIR_ENUM_DECL: expecting '('", token)
if token is not None:
self.lexer.push(token)
token = ("name", "virenumdecl")
return token
elif token[0] == "name" and token[1] == "VIR_ENUM_IMPL":
token = self.token()
if token is not None and token[0] == "sep" and token[1] == "(":
token = self.token()
token = self.parseVirEnumImpl(token)
else:
self.error("parsing VIR_ENUM_IMPL: expecting '('", token)
if token is not None:
self.lexer.push(token)
token = ("name", "virenumimpl")
return token
elif token[0] == "name" and token[1] == "VIR_LOG_INIT":
token = self.token()
if token is not None and token[0] == "sep" and token[1] == "(":
token = self.token()
token = self.parseVirLogInit(token)
else:
self.error("parsing VIR_LOG_INIT: expecting '('", token)
if token is not None:
self.lexer.push(token)
token = ("name", "virloginit")
return token
elif token[0] == "name":
if self.type == "":
self.type = token[1]
else:
self.type = self.type + " " + token[1]
else:
self.error("parsing type %s: expecting a name" % (self.type),
token)
return token
token = self.token()
while token is not None and (token[0] == "op" or
token[0] == "name" and token[1] == "const"):
self.type = self.type + " " + token[1]
token = self.token()
#
# if there is a parenthesis here, this means a function type
#
if token is not None and token[0] == "sep" and token[1] == '(':
self.type = self.type + token[1]
token = self.token()
while token is not None and token[0] == "op" and token[1] == '*':
self.type = self.type + token[1]
token = self.token()
if token is None or token[0] != "name" :
self.error("parsing function type, name expected", token)
return token
self.type = self.type + token[1]
nametok = token
token = self.token()
if token is not None and token[0] == "sep" and token[1] == ')':
self.type = self.type + token[1]
token = self.token()
if token is not None and token[0] == "sep" and token[1] == '(':
token = self.token()
type = self.type
token = self.parseSignature(token)
self.type = type
else:
self.error("parsing function type, '(' expected", token)
return token
else:
self.error("parsing function type, ')' expected", token)
return token
self.lexer.push(token)
token = nametok
return token
#
# do some lookahead for arrays
#
if token is not None and token[0] == "name":
nametok = token
token = self.token()
if token is not None and token[0] == "sep" and token[1] == '[':
self.type = self.type + " " + nametok[1]
while token is not None and token[0] == "sep" and token[1] == '[':
self.type = self.type + token[1]
token = self.token()
while token is not None and token[0] != 'sep' and \
token[1] != ']' and token[1] != ';':
self.type = self.type + token[1]
token = self.token()
if token is not None and token[0] == 'sep' and token[1] == ']':
self.type = self.type + token[1]
token = self.token()
else:
self.error("parsing array type, ']' expected", token)
return token
elif token is not None and token[0] == "sep" and token[1] == ':':
# remove :12 in case it's a limited int size
token = self.token()
token = self.token()
self.lexer.push(token)
token = nametok
return token
#
# Parse a signature: '(' has been parsed and we scan the type definition
# up to the ')' included
def parseSignature(self, token):
signature = []
if token is not None and token[0] == "sep" and token[1] == ')':
self.signature = []
token = self.token()
return token
while token is not None:
token = self.parseType(token)
if token is not None and token[0] == "name":
signature.append((self.type, token[1], None))
token = self.token()
elif token is not None and token[0] == "sep" and token[1] == ',':
token = self.token()
continue
elif token is not None and token[0] == "sep" and token[1] == ')':
# only the type was provided
if self.type == "...":
signature.append((self.type, "...", None))
else:
signature.append((self.type, None, None))
if token is not None and token[0] == "sep":
if token[1] == ',':
token = self.token()
continue
elif token[1] == ')':
token = self.token()
break
self.signature = signature
return token
# this dict contains the functions that are allowed to use [unsigned]
# long for legacy reasons in their signature and return type. this list is
# fixed. new procedures and public APIs have to use [unsigned] long long
long_legacy_functions = \
{ "virGetVersion" : (False, ("libVer", "typeVer")),
"virConnectGetLibVersion" : (False, ("libVer")),
"virConnectGetVersion" : (False, ("hvVer")),
"virDomainGetMaxMemory" : (True, ()),
"virDomainMigrate" : (False, ("flags", "bandwidth")),
"virDomainMigrate2" : (False, ("flags", "bandwidth")),
"virDomainMigrateBegin3" : (False, ("flags", "bandwidth")),
"virDomainMigrateConfirm3" : (False, ("flags", "bandwidth")),
"virDomainMigrateDirect" : (False, ("flags", "bandwidth")),
"virDomainMigrateFinish" : (False, ("flags")),
"virDomainMigrateFinish2" : (False, ("flags")),
"virDomainMigrateFinish3" : (False, ("flags")),
"virDomainMigratePeer2Peer" : (False, ("flags", "bandwidth")),
"virDomainMigratePerform" : (False, ("flags", "bandwidth")),
"virDomainMigratePerform3" : (False, ("flags", "bandwidth")),
"virDomainMigratePrepare" : (False, ("flags", "bandwidth")),
"virDomainMigratePrepare2" : (False, ("flags", "bandwidth")),
"virDomainMigratePrepare3" : (False, ("flags", "bandwidth")),
"virDomainMigratePrepareTunnel" : (False, ("flags", "bandwidth")),
"virDomainMigratePrepareTunnel3" : (False, ("flags", "bandwidth")),
"virDomainMigrateToURI" : (False, ("flags", "bandwidth")),
"virDomainMigrateToURI2" : (False, ("flags", "bandwidth")),
"virDomainMigrateVersion1" : (False, ("flags", "bandwidth")),
"virDomainMigrateVersion2" : (False, ("flags", "bandwidth")),
"virDomainMigrateVersion3" : (False, ("flags", "bandwidth")),
"virDomainMigrateSetMaxSpeed" : (False, ("bandwidth")),
"virDomainSetMaxMemory" : (False, ("memory")),
"virDomainSetMemory" : (False, ("memory")),
"virDomainSetMemoryFlags" : (False, ("memory")),
blockjob: add virDomainBlockCommit A block commit moves data in the opposite direction of block pull. Block pull reduces the chain length by dropping backing files after data has been pulled into the top overlay, and is always safe; block commit reduces the chain length by dropping overlays after data has been committed into the backing file, and any files that depended on base but not on top are invalidated at any point where they have unallocated data that is now pointing to changed contents in base. Both directions are useful, however: a qcow2 layer that is more than 50% allocated will typically be faster with a pull operation, while a qcow2 layer with less than 50% allocation will be faster as a commit operation. Committing across multiple layers can be more efficient than repeatedly committing one layer at a time, but requires extra support from the hypervisor. This API matches Jeff Cody's proposed qemu command 'block-commit': https://lists.gnu.org/archive/html/qemu-devel/2012-09/msg02226.html Jeff's command is still in the works for qemu 1.3, and may gain further enhancements, such as the ability to control on-error handling (it will be comparable to the error handling Paolo is adding to 'drive-mirror', so a similar solution will be needed when I finally propose virDomainBlockCopy with more functionality than the basics supported by virDomainBlockRebase). However, even without qemu support, this API will be useful for _offline_ block commits, by wrapping qemu-img calls and turning them into a block job, so this API is worth committing now. For some examples of how this will be implemented, all starting with the chain: base <- snap1 <- snap2 <- active + These are equivalent: virDomainBlockCommit(dom, disk, NULL, NULL, 0, 0) virDomainBlockCommit(dom, disk, NULL, "active", 0, 0) virDomainBlockCommit(dom, disk, "base", NULL, 0, 0) virDomainBlockCommit(dom, disk, "base", "active", 0, 0) but cannot be implemented for online qemu with round 1 of Jeff's patches; and for offline images, it would require three back-to-back qemu-img invocations unless qemu-img is patched to allow more efficient multi-layer commits; the end result would be 'base' as the active disk with contents from all three other files, where 'snap1' and 'snap2' are invalid right away, and 'active' is invalid once any further changes to 'base' are made. + These are equivalent: virDomainBlockCommit(dom, disk, "snap2", NULL, 0, 0) virDomainBlockCommit(dom, disk, NULL, NULL, 0, _SHALLOW) they cannot be implemented for online qemu, but for offline, it is a matter of 'qemu-img commit active', so that 'snap2' is now the active disk with contents formerly in 'active'. + Similarly: virDomainBlockCommit(dom, disk, "snap2", NULL, 0, _DELETE) for an offline domain will merge 'active' into 'snap2', then delete 'active' to avoid leaving a potentially invalid file around. + This version: virDomainBlockCommit(dom, disk, NULL, "snap2", 0, _SHALLOW) can be implemented online with 'block-commit' passing a base of snap1 and a top of snap2; and can be implemented offline by 'qemu-img commit snap2' followed by 'qemu-img rebase -u -b snap1 active' * include/libvirt/libvirt.h.in (virDomainBlockCommit): New API. * src/libvirt.c (virDomainBlockCommit): Implement it. * src/libvirt_public.syms (LIBVIRT_0.10.2): Export it. * src/driver.h (virDrvDomainBlockCommit): New driver callback. * docs/apibuild.py (CParser.parseSignature): Add exception.
2012-09-18 01:56:27 +08:00
"virDomainBlockCommit" : (False, ("bandwidth")),
"virDomainBlockJobSetSpeed" : (False, ("bandwidth")),
"virDomainBlockPull" : (False, ("bandwidth")),
block rebase: add new API virDomainBlockRebase Qemu is adding the ability to do a partial rebase. That is, given: base <- intermediate <- current virDomainBlockPull will produce: current but qemu now has the ability to leave base in the chain, to produce: base <- current Note that current qemu can only do a forward merge, and only with the current image as the destination, which is fully described by this API without flags. But in the future, it may be possible to enhance this API for additional scenarios by using flags: Merging the current image back into a previous image (that is, undoing a live snapshot), could be done by passing base as the destination and flags with a bit requesting a backward merge. Merging any other part of the image chain, whether forwards (the backing image contents are pulled into the newer file) or backwards (the deltas recorded in the newer file are merged back into the backing file), could also be done by passing a new flag that says that base should be treated as an XML snippet rather than an absolute path name, where the XML could then supply the additional instructions of which part of the image chain is being merged into any other part. * include/libvirt/libvirt.h.in (virDomainBlockRebase): New declaration. * src/libvirt.c (virDomainBlockRebase): Implement it. * src/libvirt_public.syms (LIBVIRT_0.9.10): Export it. * src/driver.h (virDrvDomainBlockRebase): New driver callback. * src/rpc/gendispatch.pl (long_legacy): Add exemption. * docs/apibuild.py (long_legacy_functions): Likewise.
2012-02-01 12:19:51 +08:00
"virDomainBlockRebase" : (False, ("bandwidth")),
"virDomainMigrateGetMaxSpeed" : (False, ("bandwidth")) }
def checkLongLegacyFunction(self, name, return_type, signature):
if "long" in return_type and "long long" not in return_type:
try:
if not CParser.long_legacy_functions[name][0]:
raise Exception()
except:
self.error(("function '%s' is not allowed to return long, "
"use long long instead") % (name))
for param in signature:
if "long" in param[0] and "long long" not in param[0]:
try:
if param[1] not in CParser.long_legacy_functions[name][1]:
raise Exception()
except:
self.error(("function '%s' is not allowed to take long "
"parameter '%s', use long long instead")
% (name, param[1]))
# this dict contains the structs that are allowed to use [unsigned]
# long for legacy reasons. this list is fixed. new structs have to use
# [unsigned] long long
long_legacy_struct_fields = \
{ "_virDomainInfo" : ("maxMem", "memory"),
"_virNodeInfo" : ("memory"),
"_virDomainBlockJobInfo" : ("bandwidth") }
def checkLongLegacyStruct(self, name, fields):
for field in fields:
if "long" in field[0] and "long long" not in field[0]:
try:
if field[1] not in CParser.long_legacy_struct_fields[name]:
raise Exception()
except:
self.error(("struct '%s' is not allowed to contain long "
"field '%s', use long long instead") \
% (name, field[1]))
#
# Parse a global definition, be it a type, variable or function
# the extern "C" blocks are a bit nasty and require it to recurse.
#
def parseGlobal(self, token):
static = 0
if token[1] == 'extern':
token = self.token()
if token is None:
return token
if token[0] == 'string':
if token[1] == 'C':
token = self.token()
if token is None:
return token
if token[0] == 'sep' and token[1] == "{":
token = self.token()
# print 'Entering extern "C line ', self.lineno()
while token is not None and (token[0] != 'sep' or
token[1] != "}"):
if token[0] == 'name':
token = self.parseGlobal(token)
else:
self.error(
"token %s %s unexpected at the top level" % (
token[0], token[1]))
token = self.parseGlobal(token)
# print 'Exiting extern "C" line', self.lineno()
token = self.token()
return token
else:
return token
elif token[1] == 'static':
static = 1
token = self.token()
if token is None or token[0] != 'name':
return token
if token[1] == 'typedef':
token = self.token()
return self.parseTypedef(token)
else:
token = self.parseType(token)
type_orig = self.type
if token is None or token[0] != "name":
return token
type = type_orig
self.name = token[1]
token = self.token()
while token is not None and (token[0] == "sep" or token[0] == "op"):
if token[0] == "sep":
if token[1] == "[":
type = type + token[1]
token = self.token()
while token is not None and (token[0] != "sep" or \
token[1] != ";"):
type = type + token[1]
token = self.token()
if token is not None and token[0] == "op" and token[1] == "=":
#
# Skip the initialization of the variable
#
token = self.token()
if token[0] == 'sep' and token[1] == '{':
token = self.token()
token = self.parseBlock(token)
else:
self.comment = None
while token is not None and (token[0] != "sep" or \
(token[1] != ';' and token[1] != ',')):
token = self.token()
self.comment = None
if token is None or token[0] != "sep" or (token[1] != ';' and
token[1] != ','):
self.error("missing ';' or ',' after value")
if token is not None and token[0] == "sep":
if token[1] == ";":
self.comment = None
token = self.token()
if type == "struct":
self.checkLongLegacyStruct(self.name, self.struct_fields)
self.index_add(self.name, self.filename,
not self.is_header, "struct", self.struct_fields)
else:
self.index_add(self.name, self.filename,
not self.is_header, "variable", type)
break
elif token[1] == "(":
token = self.token()
token = self.parseSignature(token)
if token is None:
return None
if token[0] == "sep" and token[1] == ";":
self.checkLongLegacyFunction(self.name, type, self.signature)
d = self.mergeFunctionComment(self.name,
((type, None), self.signature), 1)
self.index_add(self.name, self.filename, static,
"function", d)
token = self.token()
elif token[0] == "sep" and token[1] == "{":
self.checkLongLegacyFunction(self.name, type, self.signature)
d = self.mergeFunctionComment(self.name,
((type, None), self.signature), static)
self.index_add(self.name, self.filename, static,
"function", d)
token = self.token()
token = self.parseBlock(token)
elif token[1] == ',':
self.comment = None
self.index_add(self.name, self.filename, static,
"variable", type)
type = type_orig
token = self.token()
while token is not None and token[0] == "sep":
type = type + token[1]
token = self.token()
if token is not None and token[0] == "name":
self.name = token[1]
token = self.token()
else:
break
return token
def parse(self):
if not quiet:
print "Parsing %s" % (self.filename)
token = self.token()
while token is not None:
if token[0] == 'name':
token = self.parseGlobal(token)
else:
self.error("token %s %s unexpected at the top level" % (
token[0], token[1]))
token = self.parseGlobal(token)
return
self.parseTopComment(self.top_comment)
return self.index
class docBuilder:
"""A documentation builder"""
def __init__(self, name, path='.', directories=['.'], includes=[]):
self.name = name
self.path = path
self.directories = directories
if name == "libvirt":
self.includes = includes + included_files.keys()
elif name == "libvirt-qemu":
self.includes = includes + qemu_included_files.keys()
elif name == "libvirt-lxc":
self.includes = includes + lxc_included_files.keys()
self.modules = {}
self.headers = {}
self.idx = index()
self.xref = {}
self.index = {}
self.basename = name
self.errors = 0
def warning(self, msg):
global warnings
warnings = warnings + 1
print msg
def error(self, msg):
self.errors += 1
print >>sys.stderr, "Error:", msg
def indexString(self, id, str):
if str is None:
return
str = string.replace(str, "'", ' ')
str = string.replace(str, '"', ' ')
str = string.replace(str, "/", ' ')
str = string.replace(str, '*', ' ')
str = string.replace(str, "[", ' ')
str = string.replace(str, "]", ' ')
str = string.replace(str, "(", ' ')
str = string.replace(str, ")", ' ')
str = string.replace(str, "<", ' ')
str = string.replace(str, '>', ' ')
str = string.replace(str, "&", ' ')
str = string.replace(str, '#', ' ')
str = string.replace(str, ",", ' ')
str = string.replace(str, '.', ' ')
str = string.replace(str, ';', ' ')
tokens = string.split(str)
for token in tokens:
try:
c = token[0]
if string.find(string.letters, c) < 0:
pass
elif len(token) < 3:
pass
else:
lower = string.lower(token)
# TODO: generalize this a bit
if lower == 'and' or lower == 'the':
pass
elif self.xref.has_key(token):
self.xref[token].append(id)
else:
self.xref[token] = [id]
except:
pass
def analyze(self):
if not quiet:
print "Project %s : %d headers, %d modules" % (self.name, len(self.headers.keys()), len(self.modules.keys()))
self.idx.analyze()
def scanHeaders(self):
for header in self.headers.keys():
parser = CParser(header)
idx = parser.parse()
self.headers[header] = idx
self.idx.merge(idx)
def scanModules(self):
for module in self.modules.keys():
parser = CParser(module)
idx = parser.parse()
# idx.analyze()
self.modules[module] = idx
self.idx.merge_public(idx)
def scan(self):
for directory in self.directories:
files = glob.glob(directory + "/*.c")
for file in files:
skip = 1
for incl in self.includes:
if string.find(file, incl) != -1:
skip = 0
break
if skip == 0:
self.modules[file] = None
files = glob.glob(directory + "/*.h")
for file in files:
skip = 1
for incl in self.includes:
if string.find(file, incl) != -1:
skip = 0
break
if skip == 0:
self.headers[file] = None
self.scanHeaders()
self.scanModules()
def modulename_file(self, file):
module = os.path.basename(file)
if module[-2:] == '.h':
module = module[:-2]
elif module[-2:] == '.c':
module = module[:-2]
return module
def serialize_enum(self, output, name):
id = self.idx.enums[name]
output.write(" <enum name='%s' file='%s'" % (name,
self.modulename_file(id.header)))
if id.info is not None:
info = id.info
if info[0] is not None and info[0] != '':
try:
val = eval(info[0])
except:
val = info[0]
output.write(" value='%s'" % (val))
if info[2] is not None and info[2] != '':
output.write(" type='%s'" % info[2])
if info[1] is not None and info[1] != '':
output.write(" info='%s'" % escape(info[1]))
output.write("/>\n")
def serialize_macro(self, output, name):
id = self.idx.macros[name]
output.write(" <macro name='%s' file='%s'>\n" % (name,
self.modulename_file(id.header)))
if id.info is not None:
try:
(args, desc) = id.info
if desc is not None and desc != "":
output.write(" <info><![CDATA[%s]]></info>\n" % (desc))
self.indexString(name, desc)
for arg in args:
(name, desc) = arg
if desc is not None and desc != "":
output.write(" <arg name='%s' info='%s'/>\n" % (
name, escape(desc)))
self.indexString(name, desc)
else:
output.write(" <arg name='%s'/>\n" % (name))
except:
pass
output.write(" </macro>\n")
def serialize_union(self, output, field, desc):
output.write(" <field name='%s' type='union' info='%s'>\n" % (field[1] , desc))
output.write(" <union>\n")
for f in field[3]:
desc = f[2]
if desc is None:
desc = ''
else:
desc = escape(desc)
output.write(" <field name='%s' type='%s' info='%s'/>\n" % (f[1] , f[0], desc))
output.write(" </union>\n")
output.write(" </field>\n")
def serialize_typedef(self, output, name):
id = self.idx.typedefs[name]
if id.info[0:7] == 'struct ':
output.write(" <struct name='%s' file='%s' type='%s'" % (
name, self.modulename_file(id.header), id.info))
name = id.info[7:]
if self.idx.structs.has_key(name) and ( \
type(self.idx.structs[name].info) == type(()) or
type(self.idx.structs[name].info) == type([])):
output.write(">\n")
try:
for field in self.idx.structs[name].info:
desc = field[2]
self.indexString(name, desc)
if desc is None:
desc = ''
else:
desc = escape(desc)
if field[0] == "union":
self.serialize_union(output, field, desc)
else:
output.write(" <field name='%s' type='%s' info='%s'/>\n" % (field[1] , field[0], desc))
except:
self.warning("Failed to serialize struct %s" % (name))
output.write(" </struct>\n")
else:
output.write("/>\n")
else :
output.write(" <typedef name='%s' file='%s' type='%s'" % (
name, self.modulename_file(id.header), id.info))
try:
desc = id.extra
if desc is not None and desc != "":
output.write(">\n <info><![CDATA[%s]]></info>\n" % (desc))
output.write(" </typedef>\n")
else:
output.write("/>\n")
except:
output.write("/>\n")
def serialize_variable(self, output, name):
id = self.idx.variables[name]
if id.info is not None:
output.write(" <variable name='%s' file='%s' type='%s'/>\n" % (
name, self.modulename_file(id.header), id.info))
else:
output.write(" <variable name='%s' file='%s'/>\n" % (
name, self.modulename_file(id.header)))
def serialize_function(self, output, name):
id = self.idx.functions[name]
if name == debugsym and not quiet:
print "=>", id
output.write(" <%s name='%s' file='%s' module='%s'>\n" % (id.type,
name, self.modulename_file(id.header),
self.modulename_file(id.module)))
#
# Processing of conditionals modified by Bill 1/1/05
#
if id.conditionals is not None:
apstr = ""
for cond in id.conditionals:
if apstr != "":
apstr = apstr + " &amp;&amp; "
apstr = apstr + cond
output.write(" <cond>%s</cond>\n"% (apstr))
try:
(ret, params, desc) = id.info
output.write(" <info><![CDATA[%s]]></info>\n" % (desc))
self.indexString(name, desc)
if ret[0] is not None:
if ret[0] == "void":
output.write(" <return type='void'/>\n")
elif (ret[1] is None or ret[1] == '') and not ignored_functions.has_key(name):
self.error("Missing documentation for return of function `%s'" % name)
else:
output.write(" <return type='%s' info='%s'/>\n" % (
ret[0], escape(ret[1])))
self.indexString(name, ret[1])
for param in params:
if param[0] == 'void':
continue
if (param[2] is None or param[2] == ''):
if ignored_functions.has_key(name):
output.write(" <arg name='%s' type='%s' info=''/>\n" % (param[1], param[0]))
else:
self.error("Missing documentation for arg `%s' of function `%s'" % (param[1], name))
else:
output.write(" <arg name='%s' type='%s' info='%s'/>\n" % (param[1], param[0], escape(param[2])))
self.indexString(name, param[2])
except:
print >>sys.stderr, "Exception:", sys.exc_info()[1]
self.warning("Failed to save function %s info: %s" % (name, `id.info`))
output.write(" </%s>\n" % (id.type))
def serialize_exports(self, output, file):
module = self.modulename_file(file)
output.write(" <file name='%s'>\n" % (module))
dict = self.headers[file]
if dict.info is not None:
for data in ('Summary', 'Description', 'Author'):
try:
output.write(" <%s>%s</%s>\n" % (
string.lower(data),
escape(dict.info[data]),
string.lower(data)))
except:
self.warning("Header %s lacks a %s description" % (module, data))
if dict.info.has_key('Description'):
desc = dict.info['Description']
if string.find(desc, "DEPRECATED") != -1:
output.write(" <deprecated/>\n")
ids = dict.macros.keys()
ids.sort()
for id in uniq(ids):
# Macros are sometime used to masquerade other types.
if dict.functions.has_key(id):
continue
if dict.variables.has_key(id):
continue
if dict.typedefs.has_key(id):
continue
if dict.structs.has_key(id):
continue
if dict.unions.has_key(id):
continue
if dict.enums.has_key(id):
continue
output.write(" <exports symbol='%s' type='macro'/>\n" % (id))
ids = dict.enums.keys()
ids.sort()
for id in uniq(ids):
output.write(" <exports symbol='%s' type='enum'/>\n" % (id))
ids = dict.typedefs.keys()
ids.sort()
for id in uniq(ids):
output.write(" <exports symbol='%s' type='typedef'/>\n" % (id))
ids = dict.structs.keys()
ids.sort()
for id in uniq(ids):
output.write(" <exports symbol='%s' type='struct'/>\n" % (id))
ids = dict.variables.keys()
ids.sort()
for id in uniq(ids):
output.write(" <exports symbol='%s' type='variable'/>\n" % (id))
ids = dict.functions.keys()
ids.sort()
for id in uniq(ids):
output.write(" <exports symbol='%s' type='function'/>\n" % (id))
output.write(" </file>\n")
def serialize_xrefs_files(self, output):
headers = self.headers.keys()
headers.sort()
for file in headers:
module = self.modulename_file(file)
output.write(" <file name='%s'>\n" % (module))
dict = self.headers[file]
ids = uniq(dict.functions.keys() + dict.variables.keys() + \
dict.macros.keys() + dict.typedefs.keys() + \
dict.structs.keys() + dict.enums.keys())
ids.sort()
for id in ids:
output.write(" <ref name='%s'/>\n" % (id))
output.write(" </file>\n")
pass
def serialize_xrefs_functions(self, output):
funcs = {}
for name in self.idx.functions.keys():
id = self.idx.functions[name]
try:
(ret, params, desc) = id.info
for param in params:
if param[0] == 'void':
continue
if funcs.has_key(param[0]):
funcs[param[0]].append(name)
else:
funcs[param[0]] = [name]
except:
pass
typ = funcs.keys()
typ.sort()
for type in typ:
if type == '' or type == 'void' or type == "int" or \
type == "char *" or type == "const char *" :
continue
output.write(" <type name='%s'>\n" % (type))
ids = funcs[type]
ids.sort()
pid = '' # not sure why we have dups, but get rid of them!
for id in ids:
if id != pid:
output.write(" <ref name='%s'/>\n" % (id))
pid = id
output.write(" </type>\n")
def serialize_xrefs_constructors(self, output):
funcs = {}
for name in self.idx.functions.keys():
id = self.idx.functions[name]
try:
(ret, params, desc) = id.info
if ret[0] == "void":
continue
if funcs.has_key(ret[0]):
funcs[ret[0]].append(name)
else:
funcs[ret[0]] = [name]
except:
pass
typ = funcs.keys()
typ.sort()
for type in typ:
if type == '' or type == 'void' or type == "int" or \
type == "char *" or type == "const char *" :
continue
output.write(" <type name='%s'>\n" % (type))
ids = funcs[type]
ids.sort()
for id in ids:
output.write(" <ref name='%s'/>\n" % (id))
output.write(" </type>\n")
def serialize_xrefs_alpha(self, output):
letter = None
ids = self.idx.identifiers.keys()
ids.sort()
for id in ids:
if id[0] != letter:
if letter is not None:
output.write(" </letter>\n")
letter = id[0]
output.write(" <letter name='%s'>\n" % (letter))
output.write(" <ref name='%s'/>\n" % (id))
if letter is not None:
output.write(" </letter>\n")
def serialize_xrefs_references(self, output):
typ = self.idx.identifiers.keys()
typ.sort()
for id in typ:
idf = self.idx.identifiers[id]
module = idf.header
output.write(" <reference name='%s' href='%s'/>\n" % (id,
'html/' + self.basename + '-' +
self.modulename_file(module) + '.html#' +
id))
def serialize_xrefs_index(self, output):
index = self.xref
typ = index.keys()
typ.sort()
letter = None
count = 0
chunk = 0
chunks = []
for id in typ:
if len(index[id]) > 30:
continue
if id[0] != letter:
if letter is None or count > 200:
if letter is not None:
output.write(" </letter>\n")
output.write(" </chunk>\n")
count = 0
chunks.append(["chunk%s" % (chunk -1), first_letter, letter])
output.write(" <chunk name='chunk%s'>\n" % (chunk))
first_letter = id[0]
chunk = chunk + 1
elif letter is not None:
output.write(" </letter>\n")
letter = id[0]
output.write(" <letter name='%s'>\n" % (letter))
output.write(" <word name='%s'>\n" % (id))
tokens = index[id]
tokens.sort()
tok = None
for token in tokens:
if tok == token:
continue
tok = token
output.write(" <ref name='%s'/>\n" % (token))
count = count + 1
output.write(" </word>\n")
if letter is not None:
output.write(" </letter>\n")
output.write(" </chunk>\n")
if count != 0:
chunks.append(["chunk%s" % (chunk -1), first_letter, letter])
output.write(" <chunks>\n")
for ch in chunks:
output.write(" <chunk name='%s' start='%s' end='%s'/>\n" % (
ch[0], ch[1], ch[2]))
output.write(" </chunks>\n")
def serialize_xrefs(self, output):
output.write(" <references>\n")
self.serialize_xrefs_references(output)
output.write(" </references>\n")
output.write(" <alpha>\n")
self.serialize_xrefs_alpha(output)
output.write(" </alpha>\n")
output.write(" <constructors>\n")
self.serialize_xrefs_constructors(output)
output.write(" </constructors>\n")
output.write(" <functions>\n")
self.serialize_xrefs_functions(output)
output.write(" </functions>\n")
output.write(" <files>\n")
self.serialize_xrefs_files(output)
output.write(" </files>\n")
output.write(" <index>\n")
self.serialize_xrefs_index(output)
output.write(" </index>\n")
def serialize(self):
filename = "%s/%s-api.xml" % (self.path, self.name)
if not quiet:
print "Saving XML description %s" % (filename)
output = open(filename, "w")
output.write('<?xml version="1.0" encoding="ISO-8859-1"?>\n')
output.write("<api name='%s'>\n" % self.name)
output.write(" <files>\n")
headers = self.headers.keys()
headers.sort()
for file in headers:
self.serialize_exports(output, file)
output.write(" </files>\n")
output.write(" <symbols>\n")
macros = self.idx.macros.keys()
macros.sort()
for macro in macros:
self.serialize_macro(output, macro)
enums = self.idx.enums.keys()
enums.sort()
for enum in enums:
self.serialize_enum(output, enum)
typedefs = self.idx.typedefs.keys()
typedefs.sort()
for typedef in typedefs:
self.serialize_typedef(output, typedef)
variables = self.idx.variables.keys()
variables.sort()
for variable in variables:
self.serialize_variable(output, variable)
functions = self.idx.functions.keys()
functions.sort()
for function in functions:
self.serialize_function(output, function)
output.write(" </symbols>\n")
output.write("</api>\n")
output.close()
if self.errors > 0:
print >>sys.stderr, "apibuild.py: %d error(s) encountered during generation" % self.errors
sys.exit(3)
filename = "%s/%s-refs.xml" % (self.path, self.name)
if not quiet:
print "Saving XML Cross References %s" % (filename)
output = open(filename, "w")
output.write('<?xml version="1.0" encoding="ISO-8859-1"?>\n')
output.write("<apirefs name='%s'>\n" % self.name)
self.serialize_xrefs(output)
output.write("</apirefs>\n")
output.close()
def rebuild(name):
if name not in ["libvirt", "libvirt-qemu", "libvirt-lxc"]:
2012-10-12 00:31:20 +08:00
self.warning("rebuild() failed, unknown module %s") % name
return None
builder = None
srcdir = os.environ["srcdir"]
if glob.glob(srcdir + "/../src/libvirt.c") != [] :
if not quiet:
print "Rebuilding API description for %s" % name
dirs = [srcdir + "/../src",
srcdir + "/../src/util",
srcdir + "/../include/libvirt"]
if glob.glob(srcdir + "/../include/libvirt/libvirt.h") == [] :
dirs.append("../include/libvirt")
builder = docBuilder(name, srcdir, dirs, [])
2006-02-10 02:03:54 +08:00
elif glob.glob("src/libvirt.c") != [] :
if not quiet:
print "Rebuilding API description for %s" % name
builder = docBuilder(name, srcdir,
["src", "src/util", "include/libvirt"],
[])
else:
self.warning("rebuild() failed, unable to guess the module")
return None
builder.scan()
builder.analyze()
builder.serialize()
return builder
#
# for debugging the parser
#
def parse(filename):
parser = CParser(filename)
idx = parser.parse()
return idx
if __name__ == "__main__":
if len(sys.argv) > 1:
debug = 1
parse(sys.argv[1])
else:
rebuild("libvirt")
rebuild("libvirt-qemu")
rebuild("libvirt-lxc")
if warnings > 0:
sys.exit(2)
else:
sys.exit(0)