| #!/usr/bin/env python |
| # Copyright (c) 2012 The Chromium Authors. All rights reserved. |
| # Use of this source code is governed by a BSD-style license that can be |
| # found in the LICENSE file. |
| |
| """Extracts native methods from a Java file and generates the JNI bindings. |
| If you change this, please run and update the tests.""" |
| |
| import collections |
| import errno |
| import optparse |
| import os |
| import re |
| import string |
| from string import Template |
| import subprocess |
| import sys |
| import textwrap |
| import zipfile |
| |
| CHROMIUM_SRC = os.path.join( |
| os.path.dirname(__file__), os.pardir, os.pardir, os.pardir) |
| BUILD_ANDROID_GYP = os.path.join( |
| CHROMIUM_SRC, 'build', 'android', 'gyp') |
| |
| sys.path.append(BUILD_ANDROID_GYP) |
| |
| from util import build_utils |
| |
| |
| class ParseError(Exception): |
| """Exception thrown when we can't parse the input file.""" |
| |
| def __init__(self, description, *context_lines): |
| Exception.__init__(self) |
| self.description = description |
| self.context_lines = context_lines |
| |
| def __str__(self): |
| context = '\n'.join(self.context_lines) |
| return '***\nERROR: %s\n\n%s\n***' % (self.description, context) |
| |
| |
| class Param(object): |
| """Describes a param for a method, either java or native.""" |
| |
| def __init__(self, **kwargs): |
| self.datatype = kwargs['datatype'] |
| self.name = kwargs['name'] |
| |
| |
| class NativeMethod(object): |
| """Describes a C/C++ method that is called by Java code""" |
| |
| def __init__(self, **kwargs): |
| self.static = kwargs['static'] |
| self.java_class_name = kwargs['java_class_name'] |
| self.return_type = kwargs['return_type'] |
| self.name = kwargs['name'] |
| self.params = kwargs['params'] |
| if self.params: |
| assert type(self.params) is list |
| assert type(self.params[0]) is Param |
| if (self.params and |
| self.params[0].datatype == kwargs.get('ptr_type', 'int') and |
| self.params[0].name.startswith('native')): |
| self.type = 'method' |
| self.p0_type = self.params[0].name[len('native'):] |
| if kwargs.get('native_class_name'): |
| self.p0_type = kwargs['native_class_name'] |
| else: |
| self.type = 'function' |
| self.method_id_var_name = kwargs.get('method_id_var_name', None) |
| |
| |
| class CalledByNative(object): |
| """Describes a java method exported to c/c++""" |
| |
| def __init__(self, **kwargs): |
| self.system_class = kwargs['system_class'] |
| self.unchecked = kwargs['unchecked'] |
| self.static = kwargs['static'] |
| self.java_class_name = kwargs['java_class_name'] |
| self.return_type = kwargs['return_type'] |
| self.name = kwargs['name'] |
| self.params = kwargs['params'] |
| self.method_id_var_name = kwargs.get('method_id_var_name', None) |
| self.signature = kwargs.get('signature') |
| self.is_constructor = kwargs.get('is_constructor', False) |
| self.env_call = GetEnvCall(self.is_constructor, self.static, |
| self.return_type) |
| self.static_cast = GetStaticCastForReturnType(self.return_type) |
| |
| |
| class ConstantField(object): |
| def __init__(self, **kwargs): |
| self.name = kwargs['name'] |
| self.value = kwargs['value'] |
| |
| |
| def JavaDataTypeToC(java_type): |
| """Returns a C datatype for the given java type.""" |
| java_pod_type_map = { |
| 'int': 'jint', |
| 'byte': 'jbyte', |
| 'char': 'jchar', |
| 'short': 'jshort', |
| 'boolean': 'jboolean', |
| 'long': 'jlong', |
| 'double': 'jdouble', |
| 'float': 'jfloat', |
| } |
| java_type_map = { |
| 'void': 'void', |
| 'String': 'jstring', |
| 'java/lang/String': 'jstring', |
| 'java/lang/Class': 'jclass', |
| } |
| |
| if java_type in java_pod_type_map: |
| return java_pod_type_map[java_type] |
| elif java_type in java_type_map: |
| return java_type_map[java_type] |
| elif java_type.endswith('[]'): |
| if java_type[:-2] in java_pod_type_map: |
| return java_pod_type_map[java_type[:-2]] + 'Array' |
| return 'jobjectArray' |
| elif java_type.startswith('Class'): |
| # Checking just the start of the name, rather than a direct comparison, |
| # in order to handle generics. |
| return 'jclass' |
| else: |
| return 'jobject' |
| |
| |
| def JavaDataTypeToCForCalledByNativeParam(java_type): |
| """Returns a C datatype to be when calling from native.""" |
| if java_type == 'int': |
| return 'JniIntWrapper' |
| else: |
| return JavaDataTypeToC(java_type) |
| |
| |
| def JavaReturnValueToC(java_type): |
| """Returns a valid C return value for the given java type.""" |
| java_pod_type_map = { |
| 'int': '0', |
| 'byte': '0', |
| 'char': '0', |
| 'short': '0', |
| 'boolean': 'false', |
| 'long': '0', |
| 'double': '0', |
| 'float': '0', |
| 'void': '' |
| } |
| return java_pod_type_map.get(java_type, 'NULL') |
| |
| |
| class JniParams(object): |
| _imports = [] |
| _fully_qualified_class = '' |
| _package = '' |
| _inner_classes = [] |
| _remappings = [] |
| _implicit_imports = [] |
| |
| @staticmethod |
| def SetFullyQualifiedClass(fully_qualified_class): |
| JniParams._fully_qualified_class = 'L' + fully_qualified_class |
| JniParams._package = '/'.join(fully_qualified_class.split('/')[:-1]) |
| |
| @staticmethod |
| def AddAdditionalImport(class_name): |
| assert class_name.endswith('.class') |
| raw_class_name = class_name[:-len('.class')] |
| if '.' in raw_class_name: |
| raise SyntaxError('%s cannot be used in @JNIAdditionalImport. ' |
| 'Only import unqualified outer classes.' % class_name) |
| new_import = 'L%s/%s' % (JniParams._package, raw_class_name) |
| if new_import in JniParams._imports: |
| raise SyntaxError('Do not use JNIAdditionalImport on an already ' |
| 'imported class: %s' % (new_import.replace('/', '.'))) |
| JniParams._imports += [new_import] |
| |
| @staticmethod |
| def ExtractImportsAndInnerClasses(contents): |
| if not JniParams._package: |
| raise RuntimeError('SetFullyQualifiedClass must be called before ' |
| 'ExtractImportsAndInnerClasses') |
| contents = contents.replace('\n', '') |
| re_import = re.compile(r'import.*?(?P<class>\S*?);') |
| for match in re.finditer(re_import, contents): |
| JniParams._imports += ['L' + match.group('class').replace('.', '/')] |
| |
| re_inner = re.compile(r'(class|interface)\s+?(?P<name>\w+?)\W') |
| for match in re.finditer(re_inner, contents): |
| inner = match.group('name') |
| if not JniParams._fully_qualified_class.endswith(inner): |
| JniParams._inner_classes += [JniParams._fully_qualified_class + '$' + |
| inner] |
| |
| re_additional_imports = re.compile( |
| r'@JNIAdditionalImport\(\s*{?(?P<class_names>.*?)}?\s*\)') |
| for match in re.finditer(re_additional_imports, contents): |
| for class_name in match.group('class_names').split(','): |
| JniParams.AddAdditionalImport(class_name.strip()) |
| |
| @staticmethod |
| def ParseJavaPSignature(signature_line): |
| prefix = 'Signature: ' |
| index = signature_line.find(prefix) |
| if index == -1: |
| prefix = 'descriptor: ' |
| index = signature_line.index(prefix) |
| return '"%s"' % signature_line[index + len(prefix):] |
| |
| @staticmethod |
| def JavaToJni(param): |
| """Converts a java param into a JNI signature type.""" |
| pod_param_map = { |
| 'int': 'I', |
| 'boolean': 'Z', |
| 'char': 'C', |
| 'short': 'S', |
| 'long': 'J', |
| 'double': 'D', |
| 'float': 'F', |
| 'byte': 'B', |
| 'void': 'V', |
| } |
| object_param_list = [ |
| 'Ljava/lang/Boolean', |
| 'Ljava/lang/Integer', |
| 'Ljava/lang/Long', |
| 'Ljava/lang/Object', |
| 'Ljava/lang/String', |
| 'Ljava/lang/Class', |
| ] |
| |
| prefix = '' |
| # Array? |
| while param[-2:] == '[]': |
| prefix += '[' |
| param = param[:-2] |
| # Generic? |
| if '<' in param: |
| param = param[:param.index('<')] |
| if param in pod_param_map: |
| return prefix + pod_param_map[param] |
| if '/' in param: |
| # Coming from javap, use the fully qualified param directly. |
| return prefix + 'L' + JniParams.RemapClassName(param) + ';' |
| |
| for qualified_name in (object_param_list + |
| [JniParams._fully_qualified_class] + |
| JniParams._inner_classes): |
| if (qualified_name.endswith('/' + param) or |
| qualified_name.endswith('$' + param.replace('.', '$')) or |
| qualified_name == 'L' + param): |
| return prefix + JniParams.RemapClassName(qualified_name) + ';' |
| |
| # Is it from an import? (e.g. referecing Class from import pkg.Class; |
| # note that referencing an inner class Inner from import pkg.Class.Inner |
| # is not supported). |
| for qualified_name in JniParams._imports: |
| if qualified_name.endswith('/' + param): |
| # Ensure it's not an inner class. |
| components = qualified_name.split('/') |
| if len(components) > 2 and components[-2][0].isupper(): |
| raise SyntaxError('Inner class (%s) can not be imported ' |
| 'and used by JNI (%s). Please import the outer ' |
| 'class and use Outer.Inner instead.' % |
| (qualified_name, param)) |
| return prefix + JniParams.RemapClassName(qualified_name) + ';' |
| |
| # Is it an inner class from an outer class import? (e.g. referencing |
| # Class.Inner from import pkg.Class). |
| if '.' in param: |
| components = param.split('.') |
| outer = '/'.join(components[:-1]) |
| inner = components[-1] |
| for qualified_name in JniParams._imports: |
| if qualified_name.endswith('/' + outer): |
| return (prefix + JniParams.RemapClassName(qualified_name) + |
| '$' + inner + ';') |
| raise SyntaxError('Inner class (%s) can not be ' |
| 'used directly by JNI. Please import the outer ' |
| 'class, probably:\n' |
| 'import %s.%s;' % |
| (param, JniParams._package.replace('/', '.'), |
| outer.replace('/', '.'))) |
| |
| JniParams._CheckImplicitImports(param) |
| |
| # Type not found, falling back to same package as this class. |
| return (prefix + 'L' + |
| JniParams.RemapClassName(JniParams._package + '/' + param) + ';') |
| |
| @staticmethod |
| def _CheckImplicitImports(param): |
| # Ensure implicit imports, such as java.lang.*, are not being treated |
| # as being in the same package. |
| if not JniParams._implicit_imports: |
| # This file was generated from android.jar and lists |
| # all classes that are implicitly imported. |
| with file(os.path.join(os.path.dirname(sys.argv[0]), |
| 'android_jar.classes'), 'r') as f: |
| JniParams._implicit_imports = f.readlines() |
| for implicit_import in JniParams._implicit_imports: |
| implicit_import = implicit_import.strip().replace('.class', '') |
| implicit_import = implicit_import.replace('/', '.') |
| if implicit_import.endswith('.' + param): |
| raise SyntaxError('Ambiguous class (%s) can not be used directly ' |
| 'by JNI.\nPlease import it, probably:\n\n' |
| 'import %s;' % |
| (param, implicit_import)) |
| |
| |
| @staticmethod |
| def Signature(params, returns, wrap): |
| """Returns the JNI signature for the given datatypes.""" |
| items = ['('] |
| items += [JniParams.JavaToJni(param.datatype) for param in params] |
| items += [')'] |
| items += [JniParams.JavaToJni(returns)] |
| if wrap: |
| return '\n' + '\n'.join(['"' + item + '"' for item in items]) |
| else: |
| return '"' + ''.join(items) + '"' |
| |
| @staticmethod |
| def Parse(params): |
| """Parses the params into a list of Param objects.""" |
| if not params: |
| return [] |
| ret = [] |
| for p in [p.strip() for p in params.split(',')]: |
| items = p.split(' ') |
| if 'final' in items: |
| items.remove('final') |
| param = Param( |
| datatype=items[0], |
| name=(items[1] if len(items) > 1 else 'p%s' % len(ret)), |
| ) |
| ret += [param] |
| return ret |
| |
| @staticmethod |
| def RemapClassName(class_name): |
| """Remaps class names using the jarjar mapping table.""" |
| for old, new in JniParams._remappings: |
| if old.endswith('**') and old[:-2] in class_name: |
| return class_name.replace(old[:-2], new, 1) |
| if '*' not in old and class_name.endswith(old): |
| return class_name.replace(old, new, 1) |
| |
| return class_name |
| |
| @staticmethod |
| def SetJarJarMappings(mappings): |
| """Parse jarjar mappings from a string.""" |
| JniParams._remappings = [] |
| for line in mappings.splitlines(): |
| rule = line.split() |
| if rule[0] != 'rule': |
| continue |
| _, src, dest = rule |
| src = src.replace('.', '/') |
| dest = dest.replace('.', '/') |
| if src.endswith('**'): |
| src_real_name = src[:-2] |
| else: |
| assert not '*' in src |
| src_real_name = src |
| |
| if dest.endswith('@0'): |
| JniParams._remappings.append((src, dest[:-2] + src_real_name)) |
| elif dest.endswith('@1'): |
| assert '**' in src |
| JniParams._remappings.append((src, dest[:-2])) |
| else: |
| assert not '@' in dest |
| JniParams._remappings.append((src, dest)) |
| |
| |
| def ExtractJNINamespace(contents): |
| re_jni_namespace = re.compile('.*?@JNINamespace\("(.*?)"\)') |
| m = re.findall(re_jni_namespace, contents) |
| if not m: |
| return '' |
| return m[0] |
| |
| |
| def ExtractFullyQualifiedJavaClassName(java_file_name, contents): |
| re_package = re.compile('.*?package (.*?);') |
| matches = re.findall(re_package, contents) |
| if not matches: |
| raise SyntaxError('Unable to find "package" line in %s' % java_file_name) |
| return (matches[0].replace('.', '/') + '/' + |
| os.path.splitext(os.path.basename(java_file_name))[0]) |
| |
| |
| def ExtractNatives(contents, ptr_type): |
| """Returns a list of dict containing information about a native method.""" |
| contents = contents.replace('\n', '') |
| natives = [] |
| re_native = re.compile(r'(@NativeClassQualifiedName' |
| '\(\"(?P<native_class_name>.*?)\"\)\s+)?' |
| '(@NativeCall(\(\"(?P<java_class_name>.*?)\"\))\s+)?' |
| '(?P<qualifiers>\w+\s\w+|\w+|\s+)\s*native ' |
| '(?P<return_type>\S*) ' |
| '(?P<name>native\w+)\((?P<params>.*?)\);') |
| for match in re.finditer(re_native, contents): |
| native = NativeMethod( |
| static='static' in match.group('qualifiers'), |
| java_class_name=match.group('java_class_name'), |
| native_class_name=match.group('native_class_name'), |
| return_type=match.group('return_type'), |
| name=match.group('name').replace('native', ''), |
| params=JniParams.Parse(match.group('params')), |
| ptr_type=ptr_type) |
| natives += [native] |
| return natives |
| |
| |
| def GetStaticCastForReturnType(return_type): |
| type_map = { 'String' : 'jstring', |
| 'java/lang/String' : 'jstring', |
| 'boolean[]': 'jbooleanArray', |
| 'byte[]': 'jbyteArray', |
| 'char[]': 'jcharArray', |
| 'short[]': 'jshortArray', |
| 'int[]': 'jintArray', |
| 'long[]': 'jlongArray', |
| 'float[]': 'jfloatArray', |
| 'double[]': 'jdoubleArray' } |
| ret = type_map.get(return_type, None) |
| if ret: |
| return ret |
| if return_type.endswith('[]'): |
| return 'jobjectArray' |
| return None |
| |
| |
| def GetEnvCall(is_constructor, is_static, return_type): |
| """Maps the types availabe via env->Call__Method.""" |
| if is_constructor: |
| return 'NewObject' |
| env_call_map = {'boolean': 'Boolean', |
| 'byte': 'Byte', |
| 'char': 'Char', |
| 'short': 'Short', |
| 'int': 'Int', |
| 'long': 'Long', |
| 'float': 'Float', |
| 'void': 'Void', |
| 'double': 'Double', |
| 'Object': 'Object', |
| } |
| call = env_call_map.get(return_type, 'Object') |
| if is_static: |
| call = 'Static' + call |
| return 'Call' + call + 'Method' |
| |
| |
| def GetMangledParam(datatype): |
| """Returns a mangled identifier for the datatype.""" |
| if len(datatype) <= 2: |
| return datatype.replace('[', 'A') |
| ret = '' |
| for i in range(1, len(datatype)): |
| c = datatype[i] |
| if c == '[': |
| ret += 'A' |
| elif c.isupper() or datatype[i - 1] in ['/', 'L']: |
| ret += c.upper() |
| return ret |
| |
| |
| def GetMangledMethodName(name, params, return_type): |
| """Returns a mangled method name for the given signature. |
| |
| The returned name can be used as a C identifier and will be unique for all |
| valid overloads of the same method. |
| |
| Args: |
| name: string. |
| params: list of Param. |
| return_type: string. |
| |
| Returns: |
| A mangled name. |
| """ |
| mangled_items = [] |
| for datatype in [return_type] + [x.datatype for x in params]: |
| mangled_items += [GetMangledParam(JniParams.JavaToJni(datatype))] |
| mangled_name = name + '_'.join(mangled_items) |
| assert re.match(r'[0-9a-zA-Z_]+', mangled_name) |
| return mangled_name |
| |
| |
| def MangleCalledByNatives(called_by_natives): |
| """Mangles all the overloads from the call_by_natives list.""" |
| method_counts = collections.defaultdict( |
| lambda: collections.defaultdict(lambda: 0)) |
| for called_by_native in called_by_natives: |
| java_class_name = called_by_native.java_class_name |
| name = called_by_native.name |
| method_counts[java_class_name][name] += 1 |
| for called_by_native in called_by_natives: |
| java_class_name = called_by_native.java_class_name |
| method_name = called_by_native.name |
| method_id_var_name = method_name |
| if method_counts[java_class_name][method_name] > 1: |
| method_id_var_name = GetMangledMethodName(method_name, |
| called_by_native.params, |
| called_by_native.return_type) |
| called_by_native.method_id_var_name = method_id_var_name |
| return called_by_natives |
| |
| |
| # Regex to match the JNI return types that should be included in a |
| # ScopedJavaLocalRef. |
| RE_SCOPED_JNI_RETURN_TYPES = re.compile('jobject|jclass|jstring|.*Array') |
| |
| # Regex to match a string like "@CalledByNative public void foo(int bar)". |
| RE_CALLED_BY_NATIVE = re.compile( |
| '@CalledByNative(?P<Unchecked>(Unchecked)*?)(?:\("(?P<annotation>.*)"\))?' |
| '\s+(?P<prefix>[\w ]*?)' |
| '\s*(?P<return_type>\S+?)' |
| '\s+(?P<name>\w+)' |
| '\s*\((?P<params>[^\)]*)\)') |
| |
| |
| def ExtractCalledByNatives(contents): |
| """Parses all methods annotated with @CalledByNative. |
| |
| Args: |
| contents: the contents of the java file. |
| |
| Returns: |
| A list of dict with information about the annotated methods. |
| TODO(bulach): return a CalledByNative object. |
| |
| Raises: |
| ParseError: if unable to parse. |
| """ |
| called_by_natives = [] |
| for match in re.finditer(RE_CALLED_BY_NATIVE, contents): |
| called_by_natives += [CalledByNative( |
| system_class=False, |
| unchecked='Unchecked' in match.group('Unchecked'), |
| static='static' in match.group('prefix'), |
| java_class_name=match.group('annotation') or '', |
| return_type=match.group('return_type'), |
| name=match.group('name'), |
| params=JniParams.Parse(match.group('params')))] |
| # Check for any @CalledByNative occurrences that weren't matched. |
| unmatched_lines = re.sub(RE_CALLED_BY_NATIVE, '', contents).split('\n') |
| for line1, line2 in zip(unmatched_lines, unmatched_lines[1:]): |
| if '@CalledByNative' in line1: |
| raise ParseError('could not parse @CalledByNative method signature', |
| line1, line2) |
| return MangleCalledByNatives(called_by_natives) |
| |
| |
| class JNIFromJavaP(object): |
| """Uses 'javap' to parse a .class file and generate the JNI header file.""" |
| |
| def __init__(self, contents, options): |
| self.contents = contents |
| self.namespace = options.namespace |
| for line in contents: |
| class_name = re.match( |
| '.*?(public).*?(class|interface) (?P<class_name>\S+?)( |\Z)', |
| line) |
| if class_name: |
| self.fully_qualified_class = class_name.group('class_name') |
| break |
| self.fully_qualified_class = self.fully_qualified_class.replace('.', '/') |
| # Java 7's javap includes type parameters in output, like HashSet<T>. Strip |
| # away the <...> and use the raw class name that Java 6 would've given us. |
| self.fully_qualified_class = self.fully_qualified_class.split('<', 1)[0] |
| JniParams.SetFullyQualifiedClass(self.fully_qualified_class) |
| self.java_class_name = self.fully_qualified_class.split('/')[-1] |
| if not self.namespace: |
| self.namespace = 'JNI_' + self.java_class_name |
| re_method = re.compile('(?P<prefix>.*?)(?P<return_type>\S+?) (?P<name>\w+?)' |
| '\((?P<params>.*?)\)') |
| self.called_by_natives = [] |
| for lineno, content in enumerate(contents[2:], 2): |
| match = re.match(re_method, content) |
| if not match: |
| continue |
| self.called_by_natives += [CalledByNative( |
| system_class=True, |
| unchecked=False, |
| static='static' in match.group('prefix'), |
| java_class_name='', |
| return_type=match.group('return_type').replace('.', '/'), |
| name=match.group('name'), |
| params=JniParams.Parse(match.group('params').replace('.', '/')), |
| signature=JniParams.ParseJavaPSignature(contents[lineno + 1]))] |
| re_constructor = re.compile('(.*?)public ' + |
| self.fully_qualified_class.replace('/', '.') + |
| '\((?P<params>.*?)\)') |
| for lineno, content in enumerate(contents[2:], 2): |
| match = re.match(re_constructor, content) |
| if not match: |
| continue |
| self.called_by_natives += [CalledByNative( |
| system_class=True, |
| unchecked=False, |
| static=False, |
| java_class_name='', |
| return_type=self.fully_qualified_class, |
| name='Constructor', |
| params=JniParams.Parse(match.group('params').replace('.', '/')), |
| signature=JniParams.ParseJavaPSignature(contents[lineno + 1]), |
| is_constructor=True)] |
| self.called_by_natives = MangleCalledByNatives(self.called_by_natives) |
| |
| self.constant_fields = [] |
| re_constant_field = re.compile('.*?public static final int (?P<name>.*?);') |
| re_constant_field_value = re.compile( |
| '.*?Constant(Value| value): int (?P<value>(-*[0-9]+)?)') |
| for lineno, content in enumerate(contents[2:], 2): |
| match = re.match(re_constant_field, content) |
| if not match: |
| continue |
| value = re.match(re_constant_field_value, contents[lineno + 2]) |
| if not value: |
| value = re.match(re_constant_field_value, contents[lineno + 3]) |
| if value: |
| self.constant_fields.append( |
| ConstantField(name=match.group('name'), |
| value=value.group('value'))) |
| |
| self.inl_header_file_generator = InlHeaderFileGenerator( |
| self.namespace, self.fully_qualified_class, [], |
| self.called_by_natives, self.constant_fields, options) |
| |
| def GetContent(self): |
| return self.inl_header_file_generator.GetContent() |
| |
| @staticmethod |
| def CreateFromClass(class_file, options): |
| class_name = os.path.splitext(os.path.basename(class_file))[0] |
| p = subprocess.Popen(args=[options.javap, '-c', '-verbose', |
| '-s', class_name], |
| cwd=os.path.dirname(class_file), |
| stdout=subprocess.PIPE, |
| stderr=subprocess.PIPE) |
| stdout, _ = p.communicate() |
| jni_from_javap = JNIFromJavaP(stdout.split('\n'), options) |
| return jni_from_javap |
| |
| |
| class JNIFromJavaSource(object): |
| """Uses the given java source file to generate the JNI header file.""" |
| |
| # Match single line comments, multiline comments, character literals, and |
| # double-quoted strings. |
| _comment_remover_regex = re.compile( |
| r'//.*?$|/\*.*?\*/|\'(?:\\.|[^\\\'])*\'|"(?:\\.|[^\\"])*"', |
| re.DOTALL | re.MULTILINE) |
| |
| def __init__(self, contents, fully_qualified_class, options): |
| contents = self._RemoveComments(contents) |
| JniParams.SetFullyQualifiedClass(fully_qualified_class) |
| JniParams.ExtractImportsAndInnerClasses(contents) |
| jni_namespace = ExtractJNINamespace(contents) or options.namespace |
| natives = ExtractNatives(contents, options.ptr_type) |
| called_by_natives = ExtractCalledByNatives(contents) |
| if len(natives) == 0 and len(called_by_natives) == 0: |
| raise SyntaxError('Unable to find any JNI methods for %s.' % |
| fully_qualified_class) |
| inl_header_file_generator = InlHeaderFileGenerator( |
| jni_namespace, fully_qualified_class, natives, called_by_natives, |
| [], options) |
| self.content = inl_header_file_generator.GetContent() |
| |
| @classmethod |
| def _RemoveComments(cls, contents): |
| # We need to support both inline and block comments, and we need to handle |
| # strings that contain '//' or '/*'. |
| # TODO(bulach): This is a bit hacky. It would be cleaner to use a real Java |
| # parser. Maybe we could ditch JNIFromJavaSource and just always use |
| # JNIFromJavaP; or maybe we could rewrite this script in Java and use APT. |
| # http://code.google.com/p/chromium/issues/detail?id=138941 |
| def replacer(match): |
| # Replace matches that are comments with nothing; return literals/strings |
| # unchanged. |
| s = match.group(0) |
| if s.startswith('/'): |
| return '' |
| else: |
| return s |
| return cls._comment_remover_regex.sub(replacer, contents) |
| |
| def GetContent(self): |
| return self.content |
| |
| @staticmethod |
| def CreateFromFile(java_file_name, options): |
| contents = file(java_file_name).read() |
| fully_qualified_class = ExtractFullyQualifiedJavaClassName(java_file_name, |
| contents) |
| return JNIFromJavaSource(contents, fully_qualified_class, options) |
| |
| |
| class InlHeaderFileGenerator(object): |
| """Generates an inline header file for JNI integration.""" |
| |
| def __init__(self, namespace, fully_qualified_class, natives, |
| called_by_natives, constant_fields, options): |
| self.namespace = namespace |
| self.fully_qualified_class = fully_qualified_class |
| self.class_name = self.fully_qualified_class.split('/')[-1] |
| self.natives = natives |
| self.called_by_natives = called_by_natives |
| self.header_guard = fully_qualified_class.replace('/', '_') + '_JNI' |
| self.constant_fields = constant_fields |
| self.options = options |
| self.init_native = self.ExtractInitNative(options) |
| |
| def ExtractInitNative(self, options): |
| for native in self.natives: |
| if options.jni_init_native_name == 'native' + native.name: |
| self.natives.remove(native) |
| return native |
| return None |
| |
| def GetContent(self): |
| """Returns the content of the JNI binding file.""" |
| template = Template("""\ |
| // Copyright 2014 The Chromium Authors. All rights reserved. |
| // Use of this source code is governed by a BSD-style license that can be |
| // found in the LICENSE file. |
| |
| |
| // This file is autogenerated by |
| // ${SCRIPT_NAME} |
| // For |
| // ${FULLY_QUALIFIED_CLASS} |
| |
| #ifndef ${HEADER_GUARD} |
| #define ${HEADER_GUARD} |
| |
| #include <jni.h> |
| |
| ${INCLUDES} |
| |
| #include "base/android/jni_int_wrapper.h" |
| |
| // Step 1: forward declarations. |
| namespace { |
| $CLASS_PATH_DEFINITIONS |
| $METHOD_ID_DEFINITIONS |
| } // namespace |
| |
| $OPEN_NAMESPACE |
| $FORWARD_DECLARATIONS |
| |
| $CONSTANT_FIELDS |
| |
| // Step 2: method stubs. |
| $METHOD_STUBS |
| |
| // Step 3: RegisterNatives. |
| $JNI_NATIVE_METHODS |
| $REGISTER_NATIVES |
| $CLOSE_NAMESPACE |
| $JNI_REGISTER_NATIVES |
| #endif // ${HEADER_GUARD} |
| """) |
| values = { |
| 'SCRIPT_NAME': self.options.script_name, |
| 'FULLY_QUALIFIED_CLASS': self.fully_qualified_class, |
| 'CLASS_PATH_DEFINITIONS': self.GetClassPathDefinitionsString(), |
| 'METHOD_ID_DEFINITIONS': self.GetMethodIDDefinitionsString(), |
| 'FORWARD_DECLARATIONS': self.GetForwardDeclarationsString(), |
| 'CONSTANT_FIELDS': self.GetConstantFieldsString(), |
| 'METHOD_STUBS': self.GetMethodStubsString(), |
| 'OPEN_NAMESPACE': self.GetOpenNamespaceString(), |
| 'JNI_NATIVE_METHODS': self.GetJNINativeMethodsString(), |
| 'REGISTER_NATIVES': self.GetRegisterNativesString(), |
| 'CLOSE_NAMESPACE': self.GetCloseNamespaceString(), |
| 'HEADER_GUARD': self.header_guard, |
| 'INCLUDES': self.GetIncludesString(), |
| 'JNI_REGISTER_NATIVES': self.GetJNIRegisterNativesString() |
| } |
| return WrapOutput(template.substitute(values)) |
| |
| def GetClassPathDefinitionsString(self): |
| ret = [] |
| ret += [self.GetClassPathDefinitions()] |
| return '\n'.join(ret) |
| |
| def GetMethodIDDefinitionsString(self): |
| """Returns the definition of method ids for the called by native methods.""" |
| if not self.options.eager_called_by_natives: |
| return '' |
| template = Template("""\ |
| jmethodID g_${JAVA_CLASS}_${METHOD_ID_VAR_NAME} = NULL;""") |
| ret = [] |
| for called_by_native in self.called_by_natives: |
| values = { |
| 'JAVA_CLASS': called_by_native.java_class_name or self.class_name, |
| 'METHOD_ID_VAR_NAME': called_by_native.method_id_var_name, |
| } |
| ret += [template.substitute(values)] |
| return '\n'.join(ret) |
| |
| def GetForwardDeclarationsString(self): |
| ret = [] |
| for native in self.natives: |
| if native.type != 'method': |
| ret += [self.GetForwardDeclaration(native)] |
| if self.options.native_exports and ret: |
| return '\nextern "C" {\n' + "\n".join(ret) + '\n}; // extern "C"' |
| return '\n'.join(ret) |
| |
| def GetConstantFieldsString(self): |
| if not self.constant_fields: |
| return '' |
| ret = ['enum Java_%s_constant_fields {' % self.class_name] |
| for c in self.constant_fields: |
| ret += [' %s = %s,' % (c.name, c.value)] |
| ret += ['};'] |
| return '\n'.join(ret) |
| |
| def GetMethodStubsString(self): |
| """Returns the code corresponding to method stubs.""" |
| ret = [] |
| for native in self.natives: |
| if native.type == 'method': |
| ret += [self.GetNativeMethodStubString(native)] |
| if self.options.eager_called_by_natives: |
| ret += self.GetEagerCalledByNativeMethodStubs() |
| else: |
| ret += self.GetLazyCalledByNativeMethodStubs() |
| |
| if self.options.native_exports and ret: |
| return '\nextern "C" {\n' + "\n".join(ret) + '\n}; // extern "C"' |
| return '\n'.join(ret) |
| |
| def GetLazyCalledByNativeMethodStubs(self): |
| return [self.GetLazyCalledByNativeMethodStub(called_by_native) |
| for called_by_native in self.called_by_natives] |
| |
| def GetEagerCalledByNativeMethodStubs(self): |
| ret = [] |
| if self.called_by_natives: |
| ret += ['namespace {'] |
| for called_by_native in self.called_by_natives: |
| ret += [self.GetEagerCalledByNativeMethodStub(called_by_native)] |
| ret += ['} // namespace'] |
| return ret |
| |
| def GetIncludesString(self): |
| if not self.options.includes: |
| return '' |
| includes = self.options.includes.split(',') |
| return '\n'.join('#include "%s"' % x for x in includes) |
| |
| def GetKMethodsString(self, clazz): |
| ret = [] |
| for native in self.natives: |
| if (native.java_class_name == clazz or |
| (not native.java_class_name and clazz == self.class_name)): |
| ret += [self.GetKMethodArrayEntry(native)] |
| return '\n'.join(ret) |
| |
| def SubstituteNativeMethods(self, template): |
| """Substitutes JAVA_CLASS and KMETHODS in the provided template.""" |
| ret = [] |
| all_classes = self.GetUniqueClasses(self.natives) |
| all_classes[self.class_name] = self.fully_qualified_class |
| for clazz in all_classes: |
| kmethods = self.GetKMethodsString(clazz) |
| if kmethods: |
| values = {'JAVA_CLASS': clazz, |
| 'KMETHODS': kmethods} |
| ret += [template.substitute(values)] |
| if not ret: return '' |
| return '\n' + '\n'.join(ret) |
| |
| def GetJNINativeMethodsString(self): |
| """Returns the implementation of the array of native methods.""" |
| if self.options.native_exports and not self.options.native_exports_optional: |
| return '' |
| template = Template("""\ |
| static const JNINativeMethod kMethods${JAVA_CLASS}[] = { |
| ${KMETHODS} |
| }; |
| """) |
| return self.SubstituteNativeMethods(template) |
| |
| def GetRegisterCalledByNativesImplString(self): |
| """Returns the code for registering the called by native methods.""" |
| if not self.options.eager_called_by_natives: |
| return '' |
| template = Template("""\ |
| g_${JAVA_CLASS}_${METHOD_ID_VAR_NAME} = ${GET_METHOD_ID_IMPL} |
| if (g_${JAVA_CLASS}_${METHOD_ID_VAR_NAME} == NULL) { |
| return false; |
| } |
| """) |
| ret = [] |
| for called_by_native in self.called_by_natives: |
| values = { |
| 'JAVA_CLASS': called_by_native.java_class_name or self.class_name, |
| 'METHOD_ID_VAR_NAME': called_by_native.method_id_var_name, |
| 'GET_METHOD_ID_IMPL': self.GetMethodIDImpl(called_by_native), |
| } |
| ret += [template.substitute(values)] |
| return '\n'.join(ret) |
| |
| def GetRegisterNativesString(self): |
| """Returns the code for RegisterNatives.""" |
| template = Template("""\ |
| ${REGISTER_NATIVES_SIGNATURE} { |
| ${EARLY_EXIT} |
| ${CLASSES} |
| ${NATIVES} |
| ${CALLED_BY_NATIVES} |
| return true; |
| } |
| """) |
| signature = 'static bool RegisterNativesImpl(JNIEnv* env' |
| if self.init_native: |
| signature += ', jclass clazz)' |
| else: |
| signature += ')' |
| |
| early_exit = '' |
| if self.options.native_exports_optional: |
| early_exit = """\ |
| if (base::android::IsManualJniRegistrationDisabled()) return true; |
| """ |
| |
| natives = self.GetRegisterNativesImplString() |
| called_by_natives = self.GetRegisterCalledByNativesImplString() |
| values = {'REGISTER_NATIVES_SIGNATURE': signature, |
| 'EARLY_EXIT': early_exit, |
| 'CLASSES': self.GetFindClasses(), |
| 'NATIVES': natives, |
| 'CALLED_BY_NATIVES': called_by_natives, |
| } |
| return template.substitute(values) |
| |
| def GetRegisterNativesImplString(self): |
| """Returns the shared implementation for RegisterNatives.""" |
| if self.options.native_exports and not self.options.native_exports_optional: |
| return '' |
| |
| template = Template("""\ |
| const int kMethods${JAVA_CLASS}Size = arraysize(kMethods${JAVA_CLASS}); |
| |
| if (env->RegisterNatives(${JAVA_CLASS}_clazz(env), |
| kMethods${JAVA_CLASS}, |
| kMethods${JAVA_CLASS}Size) < 0) { |
| jni_generator::HandleRegistrationError( |
| env, ${JAVA_CLASS}_clazz(env), __FILE__); |
| return false; |
| } |
| """) |
| return self.SubstituteNativeMethods(template) |
| |
| def GetJNIRegisterNativesString(self): |
| """Returns the implementation for the JNI registration of native methods.""" |
| if not self.init_native: |
| return '' |
| |
| template = Template("""\ |
| extern "C" JNIEXPORT bool JNICALL |
| Java_${FULLY_QUALIFIED_CLASS}_${INIT_NATIVE_NAME}(JNIEnv* env, jclass clazz) { |
| return ${NAMESPACE}RegisterNativesImpl(env, clazz); |
| } |
| """) |
| |
| if self.options.native_exports: |
| java_name = JniParams.RemapClassName(self.fully_qualified_class) |
| java_name = java_name.replace('_', '_1').replace('/', '_') |
| else: |
| java_name = self.fully_qualified_class.replace('/', '_') |
| |
| namespace = '' |
| if self.namespace: |
| namespace = self.namespace + '::' |
| values = {'FULLY_QUALIFIED_CLASS': java_name, |
| 'INIT_NATIVE_NAME': 'native' + self.init_native.name, |
| 'NAMESPACE': namespace, |
| 'REGISTER_NATIVES_IMPL': self.GetRegisterNativesImplString() |
| } |
| return template.substitute(values) |
| |
| def GetOpenNamespaceString(self): |
| if self.namespace: |
| all_namespaces = ['namespace %s {' % ns |
| for ns in self.namespace.split('::')] |
| return '\n'.join(all_namespaces) |
| return '' |
| |
| def GetCloseNamespaceString(self): |
| if self.namespace: |
| all_namespaces = ['} // namespace %s' % ns |
| for ns in self.namespace.split('::')] |
| all_namespaces.reverse() |
| return '\n'.join(all_namespaces) + '\n' |
| return '' |
| |
| def GetJNIFirstParam(self, native): |
| ret = [] |
| if native.type == 'method': |
| ret = ['jobject jcaller'] |
| elif native.type == 'function': |
| if native.static: |
| ret = ['jclass jcaller'] |
| else: |
| ret = ['jobject jcaller'] |
| return ret |
| |
| def GetParamsInDeclaration(self, native): |
| """Returns the params for the stub declaration. |
| |
| Args: |
| native: the native dictionary describing the method. |
| |
| Returns: |
| A string containing the params. |
| """ |
| return ',\n '.join(self.GetJNIFirstParam(native) + |
| [JavaDataTypeToC(param.datatype) + ' ' + |
| param.name |
| for param in native.params]) |
| |
| def GetCalledByNativeParamsInDeclaration(self, called_by_native): |
| return ',\n '.join([ |
| JavaDataTypeToCForCalledByNativeParam(param.datatype) + ' ' + |
| param.name |
| for param in called_by_native.params]) |
| |
| def GetStubName(self, native): |
| """Return the name of the stub function for this native method. |
| |
| Args: |
| native: the native dictionary describing the method. |
| |
| Returns: |
| A string with the stub function name. For native exports mode this is the |
| Java_* symbol name required by the JVM; otherwise it is just the name of |
| the native method itself. |
| """ |
| if self.options.native_exports: |
| template = Template("Java_${JAVA_NAME}_native${NAME}") |
| |
| java_name = JniParams.RemapClassName(self.fully_qualified_class) |
| java_name = java_name.replace('_', '_1').replace('/', '_') |
| if native.java_class_name: |
| java_name += '_00024' + native.java_class_name |
| |
| values = {'NAME': native.name, |
| 'JAVA_NAME': java_name} |
| return template.substitute(values) |
| else: |
| return native.name |
| |
| def GetForwardDeclaration(self, native): |
| template_str = """ |
| static ${RETURN} ${NAME}(JNIEnv* env, ${PARAMS}); |
| """ |
| if self.options.native_exports: |
| template_str += """ |
| __attribute__((visibility("default"))) |
| ${RETURN} ${STUB_NAME}(JNIEnv* env, ${PARAMS}) { |
| return ${NAME}(${PARAMS_IN_CALL}); |
| } |
| """ |
| template = Template(template_str) |
| params_in_call = [] |
| if not self.options.pure_native_methods: |
| params_in_call = ['env', 'jcaller'] |
| params_in_call = ', '.join(params_in_call + [p.name for p in native.params]) |
| |
| values = {'RETURN': JavaDataTypeToC(native.return_type), |
| 'NAME': native.name, |
| 'PARAMS': self.GetParamsInDeclaration(native), |
| 'PARAMS_IN_CALL': params_in_call, |
| 'STUB_NAME': self.GetStubName(native)} |
| return template.substitute(values) |
| |
| def GetNativeMethodStubString(self, native): |
| """Returns stubs for native methods.""" |
| if self.options.native_exports: |
| template_str = """\ |
| __attribute__((visibility("default"))) |
| ${RETURN} ${STUB_NAME}(JNIEnv* env, |
| ${PARAMS_IN_DECLARATION}) {""" |
| else: |
| template_str = """\ |
| static ${RETURN} ${STUB_NAME}(JNIEnv* env, ${PARAMS_IN_DECLARATION}) {""" |
| template_str += """ |
| ${P0_TYPE}* native = reinterpret_cast<${P0_TYPE}*>(${PARAM0_NAME}); |
| CHECK_NATIVE_PTR(env, jcaller, native, "${NAME}"${OPTIONAL_ERROR_RETURN}); |
| return native->${NAME}(${PARAMS_IN_CALL})${POST_CALL}; |
| } |
| """ |
| |
| template = Template(template_str) |
| params = [] |
| if not self.options.pure_native_methods: |
| params = ['env', 'jcaller'] |
| params_in_call = ', '.join(params + [p.name for p in native.params[1:]]) |
| |
| return_type = JavaDataTypeToC(native.return_type) |
| optional_error_return = JavaReturnValueToC(native.return_type) |
| if optional_error_return: |
| optional_error_return = ', ' + optional_error_return |
| post_call = '' |
| if re.match(RE_SCOPED_JNI_RETURN_TYPES, return_type): |
| post_call = '.Release()' |
| |
| values = { |
| 'RETURN': return_type, |
| 'OPTIONAL_ERROR_RETURN': optional_error_return, |
| 'NAME': native.name, |
| 'PARAMS_IN_DECLARATION': self.GetParamsInDeclaration(native), |
| 'PARAM0_NAME': native.params[0].name, |
| 'P0_TYPE': native.p0_type, |
| 'PARAMS_IN_CALL': params_in_call, |
| 'POST_CALL': post_call, |
| 'STUB_NAME': self.GetStubName(native), |
| } |
| return template.substitute(values) |
| |
| def GetArgument(self, param): |
| return ('as_jint(' + param.name + ')' |
| if param.datatype == 'int' else param.name) |
| |
| def GetArgumentsInCall(self, params): |
| """Return a string of arguments to call from native into Java""" |
| return [self.GetArgument(p) for p in params] |
| |
| def GetCalledByNativeValues(self, called_by_native): |
| """Fills in necessary values for the CalledByNative methods.""" |
| java_class = called_by_native.java_class_name or self.class_name |
| if called_by_native.static or called_by_native.is_constructor: |
| first_param_in_declaration = '' |
| first_param_in_call = ('%s_clazz(env)' % java_class) |
| else: |
| first_param_in_declaration = ', jobject obj' |
| first_param_in_call = 'obj' |
| params_in_declaration = self.GetCalledByNativeParamsInDeclaration( |
| called_by_native) |
| if params_in_declaration: |
| params_in_declaration = ', ' + params_in_declaration |
| params_in_call = ', '.join(self.GetArgumentsInCall(called_by_native.params)) |
| if params_in_call: |
| params_in_call = ', ' + params_in_call |
| pre_call = '' |
| post_call = '' |
| if called_by_native.static_cast: |
| pre_call = 'static_cast<%s>(' % called_by_native.static_cast |
| post_call = ')' |
| check_exception = '' |
| if not called_by_native.unchecked: |
| check_exception = 'jni_generator::CheckException(env);' |
| return_type = JavaDataTypeToC(called_by_native.return_type) |
| optional_error_return = JavaReturnValueToC(called_by_native.return_type) |
| if optional_error_return: |
| optional_error_return = ', ' + optional_error_return |
| return_declaration = '' |
| return_clause = '' |
| if return_type != 'void': |
| pre_call = ' ' + pre_call |
| return_declaration = return_type + ' ret =' |
| if re.match(RE_SCOPED_JNI_RETURN_TYPES, return_type): |
| return_type = 'base::android::ScopedJavaLocalRef<' + return_type + '>' |
| return_clause = 'return ' + return_type + '(env, ret);' |
| else: |
| return_clause = 'return ret;' |
| return { |
| 'JAVA_CLASS': java_class, |
| 'RETURN_TYPE': return_type, |
| 'OPTIONAL_ERROR_RETURN': optional_error_return, |
| 'RETURN_DECLARATION': return_declaration, |
| 'RETURN_CLAUSE': return_clause, |
| 'FIRST_PARAM_IN_DECLARATION': first_param_in_declaration, |
| 'PARAMS_IN_DECLARATION': params_in_declaration, |
| 'PRE_CALL': pre_call, |
| 'POST_CALL': post_call, |
| 'ENV_CALL': called_by_native.env_call, |
| 'FIRST_PARAM_IN_CALL': first_param_in_call, |
| 'PARAMS_IN_CALL': params_in_call, |
| 'METHOD_ID_VAR_NAME': called_by_native.method_id_var_name, |
| 'CHECK_EXCEPTION': check_exception, |
| 'GET_METHOD_ID_IMPL': self.GetMethodIDImpl(called_by_native) |
| } |
| |
| def GetEagerCalledByNativeMethodStub(self, called_by_native): |
| """Returns the implementation of the called by native method.""" |
| template = Template(""" |
| static ${RETURN_TYPE} ${METHOD_ID_VAR_NAME}(\ |
| JNIEnv* env${FIRST_PARAM_IN_DECLARATION}${PARAMS_IN_DECLARATION}) { |
| ${RETURN_DECLARATION}${PRE_CALL}env->${ENV_CALL}(${FIRST_PARAM_IN_CALL}, |
| g_${JAVA_CLASS}_${METHOD_ID_VAR_NAME}${PARAMS_IN_CALL})${POST_CALL}; |
| ${RETURN_CLAUSE} |
| }""") |
| values = self.GetCalledByNativeValues(called_by_native) |
| return template.substitute(values) |
| |
| def GetLazyCalledByNativeMethodStub(self, called_by_native): |
| """Returns a string.""" |
| function_signature_template = Template("""\ |
| static ${RETURN_TYPE} Java_${JAVA_CLASS}_${METHOD_ID_VAR_NAME}(\ |
| JNIEnv* env${FIRST_PARAM_IN_DECLARATION}${PARAMS_IN_DECLARATION})""") |
| function_header_template = Template("""\ |
| ${FUNCTION_SIGNATURE} {""") |
| function_header_with_unused_template = Template("""\ |
| ${FUNCTION_SIGNATURE} __attribute__ ((unused)); |
| ${FUNCTION_SIGNATURE} {""") |
| template = Template(""" |
| static base::subtle::AtomicWord g_${JAVA_CLASS}_${METHOD_ID_VAR_NAME} = 0; |
| ${FUNCTION_HEADER} |
| /* Must call RegisterNativesImpl() */ |
| CHECK_CLAZZ(env, ${FIRST_PARAM_IN_CALL}, |
| ${JAVA_CLASS}_clazz(env)${OPTIONAL_ERROR_RETURN}); |
| jmethodID method_id = |
| ${GET_METHOD_ID_IMPL} |
| ${RETURN_DECLARATION} |
| ${PRE_CALL}env->${ENV_CALL}(${FIRST_PARAM_IN_CALL}, |
| method_id${PARAMS_IN_CALL})${POST_CALL}; |
| ${CHECK_EXCEPTION} |
| ${RETURN_CLAUSE} |
| }""") |
| values = self.GetCalledByNativeValues(called_by_native) |
| values['FUNCTION_SIGNATURE'] = ( |
| function_signature_template.substitute(values)) |
| if called_by_native.system_class: |
| values['FUNCTION_HEADER'] = ( |
| function_header_with_unused_template.substitute(values)) |
| else: |
| values['FUNCTION_HEADER'] = function_header_template.substitute(values) |
| return template.substitute(values) |
| |
| def GetKMethodArrayEntry(self, native): |
| template = Template(' { "native${NAME}", ${JNI_SIGNATURE}, ' + |
| 'reinterpret_cast<void*>(${STUB_NAME}) },') |
| values = {'NAME': native.name, |
| 'JNI_SIGNATURE': JniParams.Signature(native.params, |
| native.return_type, |
| True), |
| 'STUB_NAME': self.GetStubName(native)} |
| return template.substitute(values) |
| |
| def GetUniqueClasses(self, origin): |
| ret = {self.class_name: self.fully_qualified_class} |
| for entry in origin: |
| class_name = self.class_name |
| jni_class_path = self.fully_qualified_class |
| if entry.java_class_name: |
| class_name = entry.java_class_name |
| jni_class_path = self.fully_qualified_class + '$' + class_name |
| ret[class_name] = jni_class_path |
| return ret |
| |
| def GetClassPathDefinitions(self): |
| """Returns the ClassPath constants.""" |
| ret = [] |
| template = Template("""\ |
| const char k${JAVA_CLASS}ClassPath[] = "${JNI_CLASS_PATH}";""") |
| native_classes = self.GetUniqueClasses(self.natives) |
| called_by_native_classes = self.GetUniqueClasses(self.called_by_natives) |
| if self.options.native_exports: |
| all_classes = called_by_native_classes |
| else: |
| all_classes = native_classes |
| all_classes.update(called_by_native_classes) |
| |
| for clazz in all_classes: |
| values = { |
| 'JAVA_CLASS': clazz, |
| 'JNI_CLASS_PATH': JniParams.RemapClassName(all_classes[clazz]), |
| } |
| ret += [template.substitute(values)] |
| ret += '' |
| |
| class_getter_methods = [] |
| if self.options.native_exports: |
| template = Template("""\ |
| // Leaking this jclass as we cannot use LazyInstance from some threads. |
| base::subtle::AtomicWord g_${JAVA_CLASS}_clazz __attribute__((unused)) = 0; |
| #define ${JAVA_CLASS}_clazz(env) \ |
| base::android::LazyGetClass(env, k${JAVA_CLASS}ClassPath, \ |
| &g_${JAVA_CLASS}_clazz)""") |
| else: |
| template = Template("""\ |
| // Leaking this jclass as we cannot use LazyInstance from some threads. |
| jclass g_${JAVA_CLASS}_clazz = NULL; |
| #define ${JAVA_CLASS}_clazz(env) g_${JAVA_CLASS}_clazz""") |
| |
| for clazz in called_by_native_classes: |
| values = { |
| 'JAVA_CLASS': clazz, |
| } |
| ret += [template.substitute(values)] |
| |
| return '\n'.join(ret) |
| |
| def GetFindClasses(self): |
| """Returns the imlementation of FindClass for all known classes.""" |
| if self.init_native: |
| if self.options.native_exports: |
| template = Template("""\ |
| base::subtle::Release_Store(&g_${JAVA_CLASS}_clazz, |
| static_cast<base::subtle::AtomicWord>(env->NewWeakGlobalRef(clazz));""") |
| else: |
| template = Template("""\ |
| g_${JAVA_CLASS}_clazz = static_cast<jclass>(env->NewWeakGlobalRef(clazz));""") |
| else: |
| if self.options.native_exports: |
| return '\n' |
| template = Template("""\ |
| g_${JAVA_CLASS}_clazz = reinterpret_cast<jclass>(env->NewGlobalRef( |
| base::android::GetClass(env, k${JAVA_CLASS}ClassPath).obj()));""") |
| ret = [] |
| for clazz in self.GetUniqueClasses(self.called_by_natives): |
| values = {'JAVA_CLASS': clazz} |
| ret += [template.substitute(values)] |
| return '\n'.join(ret) |
| |
| def GetMethodIDImpl(self, called_by_native): |
| """Returns the implementation of GetMethodID.""" |
| if self.options.eager_called_by_natives: |
| template = Template("""\ |
| env->Get${STATIC_METHOD_PART}MethodID( |
| ${JAVA_CLASS}_clazz(env), |
| "${JNI_NAME}", ${JNI_SIGNATURE});""") |
| else: |
| template = Template("""\ |
| base::android::MethodID::LazyGet< |
| base::android::MethodID::TYPE_${STATIC}>( |
| env, ${JAVA_CLASS}_clazz(env), |
| "${JNI_NAME}", |
| ${JNI_SIGNATURE}, |
| &g_${JAVA_CLASS}_${METHOD_ID_VAR_NAME}); |
| """) |
| jni_name = called_by_native.name |
| jni_return_type = called_by_native.return_type |
| if called_by_native.is_constructor: |
| jni_name = '<init>' |
| jni_return_type = 'void' |
| if called_by_native.signature: |
| signature = called_by_native.signature |
| else: |
| signature = JniParams.Signature(called_by_native.params, |
| jni_return_type, |
| True) |
| values = { |
| 'JAVA_CLASS': called_by_native.java_class_name or self.class_name, |
| 'JNI_NAME': jni_name, |
| 'METHOD_ID_VAR_NAME': called_by_native.method_id_var_name, |
| 'STATIC': 'STATIC' if called_by_native.static else 'INSTANCE', |
| 'STATIC_METHOD_PART': 'Static' if called_by_native.static else '', |
| 'JNI_SIGNATURE': signature, |
| } |
| return template.substitute(values) |
| |
| |
| def WrapOutput(output): |
| ret = [] |
| for line in output.splitlines(): |
| # Do not wrap lines under 80 characters or preprocessor directives. |
| if len(line) < 80 or line.lstrip()[:1] == '#': |
| stripped = line.rstrip() |
| if len(ret) == 0 or len(ret[-1]) or len(stripped): |
| ret.append(stripped) |
| else: |
| first_line_indent = ' ' * (len(line) - len(line.lstrip())) |
| subsequent_indent = first_line_indent + ' ' * 4 |
| if line.startswith('//'): |
| subsequent_indent = '//' + subsequent_indent |
| wrapper = textwrap.TextWrapper(width=80, |
| subsequent_indent=subsequent_indent, |
| break_long_words=False) |
| ret += [wrapped.rstrip() for wrapped in wrapper.wrap(line)] |
| ret += [''] |
| return '\n'.join(ret) |
| |
| |
| def ExtractJarInputFile(jar_file, input_file, out_dir): |
| """Extracts input file from jar and returns the filename. |
| |
| The input file is extracted to the same directory that the generated jni |
| headers will be placed in. This is passed as an argument to script. |
| |
| Args: |
| jar_file: the jar file containing the input files to extract. |
| input_files: the list of files to extract from the jar file. |
| out_dir: the name of the directories to extract to. |
| |
| Returns: |
| the name of extracted input file. |
| """ |
| jar_file = zipfile.ZipFile(jar_file) |
| |
| out_dir = os.path.join(out_dir, os.path.dirname(input_file)) |
| try: |
| os.makedirs(out_dir) |
| except OSError as e: |
| if e.errno != errno.EEXIST: |
| raise |
| extracted_file_name = os.path.join(out_dir, os.path.basename(input_file)) |
| with open(extracted_file_name, 'w') as outfile: |
| outfile.write(jar_file.read(input_file)) |
| |
| return extracted_file_name |
| |
| |
| def GenerateJNIHeader(input_file, output_file, options): |
| try: |
| if os.path.splitext(input_file)[1] == '.class': |
| jni_from_javap = JNIFromJavaP.CreateFromClass(input_file, options) |
| content = jni_from_javap.GetContent() |
| else: |
| jni_from_java_source = JNIFromJavaSource.CreateFromFile( |
| input_file, options) |
| content = jni_from_java_source.GetContent() |
| except ParseError, e: |
| print e |
| sys.exit(1) |
| if output_file: |
| if not os.path.exists(os.path.dirname(os.path.abspath(output_file))): |
| os.makedirs(os.path.dirname(os.path.abspath(output_file))) |
| if options.optimize_generation and os.path.exists(output_file): |
| with file(output_file, 'r') as f: |
| existing_content = f.read() |
| if existing_content == content: |
| return |
| with file(output_file, 'w') as f: |
| f.write(content) |
| else: |
| print content |
| |
| |
| def GetScriptName(): |
| script_components = os.path.abspath(sys.argv[0]).split(os.path.sep) |
| base_index = 0 |
| for idx, value in enumerate(script_components): |
| if value == 'base' or value == 'third_party': |
| base_index = idx |
| break |
| return os.sep.join(script_components[base_index:]) |
| |
| |
| def main(argv): |
| usage = """usage: %prog [OPTIONS] |
| This script will parse the given java source code extracting the native |
| declarations and print the header file to stdout (or a file). |
| See SampleForTests.java for more details. |
| """ |
| option_parser = optparse.OptionParser(usage=usage) |
| build_utils.AddDepfileOption(option_parser) |
| |
| option_parser.add_option('-j', '--jar_file', dest='jar_file', |
| help='Extract the list of input files from' |
| ' a specified jar file.' |
| ' Uses javap to extract the methods from a' |
| ' pre-compiled class. --input should point' |
| ' to pre-compiled Java .class files.') |
| option_parser.add_option('-n', dest='namespace', |
| help='Uses as a namespace in the generated header ' |
| 'instead of the javap class name, or when there is ' |
| 'no JNINamespace annotation in the java source.') |
| option_parser.add_option('--input_file', |
| help='Single input file name. The output file name ' |
| 'will be derived from it. Must be used with ' |
| '--output_dir.') |
| option_parser.add_option('--output_dir', |
| help='The output directory. Must be used with ' |
| '--input') |
| option_parser.add_option('--optimize_generation', type="int", |
| default=0, help='Whether we should optimize JNI ' |
| 'generation by not regenerating files if they have ' |
| 'not changed.') |
| option_parser.add_option('--jarjar', |
| help='Path to optional jarjar rules file.') |
| option_parser.add_option('--script_name', default=GetScriptName(), |
| help='The name of this script in the generated ' |
| 'header.') |
| option_parser.add_option('--includes', |
| help='The comma-separated list of header files to ' |
| 'include in the generated header.') |
| option_parser.add_option('--pure_native_methods', |
| action='store_true', dest='pure_native_methods', |
| help='When true, the native methods will be called ' |
| 'without any JNI-specific arguments.') |
| option_parser.add_option('--ptr_type', default='int', |
| type='choice', choices=['int', 'long'], |
| help='The type used to represent native pointers in ' |
| 'Java code. For 32-bit, use int; ' |
| 'for 64-bit, use long.') |
| option_parser.add_option('--jni_init_native_name', default='', |
| help='The name of the JNI registration method that ' |
| 'is used to initialize all native methods. If a ' |
| 'method with this name is not present in the Java ' |
| 'source file, setting this option is a no-op. When ' |
| 'a method with this name is found however, the ' |
| 'naming convention Java_<packageName>_<className> ' |
| 'will limit the initialization to only the ' |
| 'top-level class.') |
| option_parser.add_option('--eager_called_by_natives', |
| action='store_true', dest='eager_called_by_natives', |
| help='When true, the called-by-native methods will ' |
| 'be initialized in a non-atomic way.') |
| option_parser.add_option('--cpp', default='cpp', |
| help='The path to cpp command.') |
| option_parser.add_option('--javap', default='javap', |
| help='The path to javap command.') |
| option_parser.add_option('--native_exports', action='store_true', |
| help='Native method registration through .so ' |
| 'exports.') |
| option_parser.add_option('--native_exports_optional', action='store_true', |
| help='Support both explicit and native method' |
| 'registration.') |
| options, args = option_parser.parse_args(argv) |
| if options.native_exports_optional: |
| options.native_exports = True |
| if options.jar_file: |
| input_file = ExtractJarInputFile(options.jar_file, options.input_file, |
| options.output_dir) |
| elif options.input_file: |
| input_file = options.input_file |
| else: |
| option_parser.print_help() |
| print '\nError: Must specify --jar_file or --input_file.' |
| return 1 |
| output_file = None |
| if options.output_dir: |
| root_name = os.path.splitext(os.path.basename(input_file))[0] |
| output_file = os.path.join(options.output_dir, root_name) + '_jni.h' |
| if options.jarjar: |
| with open(options.jarjar) as f: |
| JniParams.SetJarJarMappings(f.read()) |
| GenerateJNIHeader(input_file, output_file, options) |
| |
| if options.depfile: |
| build_utils.WriteDepfile( |
| options.depfile, |
| build_utils.GetPythonDependencies()) |
| |
| |
| if __name__ == '__main__': |
| sys.exit(main(sys.argv)) |