# Copyright 2017 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. import ast import collections from io import StringIO import logging import sys import tokenize import gclient_utils from third_party import schema # TODO: Should fix these warnings. # pylint: disable=line-too-long # git_dependencies migration states. Used within the DEPS file to indicate # the current migration state. DEPS = 'DEPS' SYNC = 'SYNC' SUBMODULES = 'SUBMODULES' class ConstantString(object): def __init__(self, value): self.value = value def __format__(self, format_spec): del format_spec return self.value def __repr__(self): return "Str('" + self.value + "')" def __eq__(self, other): if isinstance(other, ConstantString): return self.value == other.value return self.value == other def __hash__(self): return self.value.__hash__() class _NodeDict(collections.abc.MutableMapping): """Dict-like type that also stores information on AST nodes and tokens.""" def __init__(self, data=None, tokens=None): self.data = collections.OrderedDict(data or []) self.tokens = tokens def __str__(self): return str({k: v[0] for k, v in self.data.items()}) def __repr__(self): return self.__str__() def __getitem__(self, key): return self.data[key][0] def __setitem__(self, key, value): self.data[key] = (value, None) def __delitem__(self, key): del self.data[key] def __iter__(self): return iter(self.data) def __len__(self): return len(self.data) def MoveTokens(self, origin, delta): if self.tokens: new_tokens = {} for pos, token in self.tokens.items(): if pos[0] >= origin: pos = (pos[0] + delta, pos[1]) token = token[:2] + (pos, ) + token[3:] new_tokens[pos] = token for value, node in self.data.values(): if node.lineno >= origin: node.lineno += delta if isinstance(value, _NodeDict): value.MoveTokens(origin, delta) def GetNode(self, key): return self.data[key][1] def SetNode(self, key, value, node): self.data[key] = (value, node) def _NodeDictSchema(dict_schema): """Validate dict_schema after converting _NodeDict to a regular dict.""" def validate(d): schema.Schema(dict_schema).validate(dict(d)) return True return validate # See https://github.com/keleshev/schema for docs how to configure schema. _GCLIENT_DEPS_SCHEMA = _NodeDictSchema({ schema.Optional(str): schema.Or( None, str, _NodeDictSchema({ # Repo and revision to check out under the path # (same as if no dict was used). 'url': schema.Or(None, str), # Optional condition string. The dep will only be processed # if the condition evaluates to True. schema.Optional('condition'): str, schema.Optional('dep_type', default='git'): str, }), # CIPD package. _NodeDictSchema({ 'packages': [_NodeDictSchema({ 'package': str, 'version': str, })], schema.Optional('condition'): str, schema.Optional('dep_type', default='cipd'): str, }), # GCS content. _NodeDictSchema({ 'bucket': str, 'objects': [ _NodeDictSchema({ 'object_name': str, 'sha256sum': str, 'size_bytes': int, 'generation': int, schema.Optional('output_file'): str, # The object will only be processed if the condition # evaluates to True. This is AND with the parent condition. schema.Optional('condition'): str, }) ], schema.Optional('condition'): str, schema.Optional('dep_type', default='gcs'): str, }), ), }) _GCLIENT_HOOKS_SCHEMA = [ _NodeDictSchema({ # Hook action: list of command-line arguments to invoke. 'action': [schema.Or(str)], # Name of the hook. Doesn't affect operation. schema.Optional('name'): str, # Hook pattern (regex). Originally intended to limit some hooks to run # only when files matching the pattern have changed. In practice, with # git, gclient runs all the hooks regardless of this field. schema.Optional('pattern'): str, # Working directory where to execute the hook. schema.Optional('cwd'): str, # Optional condition string. The hook will only be run # if the condition evaluates to True. schema.Optional('condition'): str, }) ] _GCLIENT_SCHEMA = schema.Schema( _NodeDictSchema({ # Current state of the git submodule migration. # git_dependencies = [DEPS (default) | SUBMODULES | SYNC] schema.Optional('git_dependencies'): schema.Or(DEPS, SYNC, SUBMODULES), # List of host names from which dependencies are allowed (allowlist). # NOTE: when not present, all hosts are allowed. # NOTE: scoped to current DEPS file, not recursive. schema.Optional('allowed_hosts'): [schema.Optional(str)], # Mapping from paths to repo and revision to check out under that path. # Applying this mapping to the on-disk checkout is the main purpose # of gclient, and also why the config file is called DEPS. # # The following functions are allowed: # # Var(): allows variable substitution (either from 'vars' dict below, # or command-line override) schema.Optional('deps'): _GCLIENT_DEPS_SCHEMA, # Similar to 'deps' (see above) - also keyed by OS (e.g. 'linux'). # Also see 'target_os'. schema.Optional('deps_os'): _NodeDictSchema({ schema.Optional(str): _GCLIENT_DEPS_SCHEMA, }), # Dependency to get gclient_gn_args* settings from. This allows these # values to be set in a recursedeps file, rather than requiring that # they exist in the top-level solution. schema.Optional('gclient_gn_args_from'): str, # Path to GN args file to write selected variables. schema.Optional('gclient_gn_args_file'): str, # Subset of variables to write to the GN args file (see above). schema.Optional('gclient_gn_args'): [schema.Optional(str)], # Hooks executed after gclient sync (unless suppressed), or explicitly # on gclient hooks. See _GCLIENT_HOOKS_SCHEMA for details. # Also see 'pre_deps_hooks'. schema.Optional('hooks'): _GCLIENT_HOOKS_SCHEMA, # Similar to 'hooks', also keyed by OS. schema.Optional('hooks_os'): _NodeDictSchema({schema.Optional(str): _GCLIENT_HOOKS_SCHEMA}), # Rules which #includes are allowed in the directory. # Also see 'skip_child_includes' and 'specific_include_rules'. schema.Optional('include_rules'): [schema.Optional(str)], # Commits that add include_rules entries on the paths with this set # will require an OWNERS review from them. schema.Optional('new_usages_require_review'): bool, # Optionally discards rules from parent directories, similar to # "noparent" in OWNERS files. For example, if # //base/allocator/partition_allocator has "noparent = True" then it # will not inherit rules from //base/DEPS and //base/allocator/DEPS, # forcing each //base/allocator/partition_allocator/{foo,bar,...} to # declare all its dependencies. schema.Optional('noparent'): bool, # Hooks executed before processing DEPS. See 'hooks' for more details. schema.Optional('pre_deps_hooks'): _GCLIENT_HOOKS_SCHEMA, # Recursion limit for nested DEPS. schema.Optional('recursion'): int, # Allowlists deps for which recursion should be enabled. schema.Optional('recursedeps'): [ schema.Optional(schema.Or(str, (str, str), [str, str])), ], # Blocklists directories for checking 'include_rules'. schema.Optional('skip_child_includes'): [schema.Optional(str)], # Mapping from paths to include rules specific for that path. # See 'include_rules' for more details. schema.Optional('specific_include_rules'): _NodeDictSchema({schema.Optional(str): [str]}), # List of additional OS names to consider when selecting dependencies # from deps_os. schema.Optional('target_os'): [schema.Optional(str)], # For recursed-upon sub-dependencies, check out their own dependencies # relative to the parent's path, rather than relative to the .gclient # file. schema.Optional('use_relative_paths'): bool, # For recursed-upon sub-dependencies, run their hooks relative to the # parent's path instead of relative to the .gclient file. schema.Optional('use_relative_hooks'): bool, # Variables that can be referenced using Var() - see 'deps'. schema.Optional('vars'): _NodeDictSchema({ schema.Optional(str): schema.Or(ConstantString, str, bool), }), })) def _gclient_eval(node_or_string, filename='', vars_dict=None): """Safely evaluates a single expression. Returns the result.""" _allowed_names = {'None': None, 'True': True, 'False': False} if isinstance(node_or_string, ConstantString): return node_or_string.value if isinstance(node_or_string, str): node_or_string = ast.parse(node_or_string, filename=filename, mode='eval') if isinstance(node_or_string, ast.Expression): node_or_string = node_or_string.body def _convert(node): if isinstance(node, ast.Str): if vars_dict is None: return node.s try: return node.s.format(**vars_dict) except KeyError as e: raise KeyError( '%s was used as a variable, but was not declared in the vars dict ' '(file %r, line %s)' % (e.args[0], filename, getattr(node, 'lineno', ''))) elif isinstance(node, ast.Num): return node.n elif isinstance(node, ast.Tuple): return tuple(map(_convert, node.elts)) elif isinstance(node, ast.List): return list(map(_convert, node.elts)) elif isinstance(node, ast.Dict): node_dict = _NodeDict() for key_node, value_node in zip(node.keys, node.values): key = _convert(key_node) if key in node_dict: raise ValueError( 'duplicate key in dictionary: %s (file %r, line %s)' % (key, filename, getattr(key_node, 'lineno', ''))) node_dict.SetNode(key, _convert(value_node), value_node) return node_dict elif isinstance(node, ast.Name): if node.id not in _allowed_names: raise ValueError( 'invalid name %r (file %r, line %s)' % (node.id, filename, getattr(node, 'lineno', ''))) return _allowed_names[node.id] elif not sys.version_info[:2] < (3, 4) and isinstance( node, ast.NameConstant): # Since Python 3.4 return node.value elif isinstance(node, ast.Call): if (not isinstance(node.func, ast.Name) or (node.func.id not in ('Str', 'Var'))): raise ValueError( 'Str and Var are the only allowed functions (file %r, line %s)' % (filename, getattr(node, 'lineno', ''))) if node.keywords or getattr(node, 'starargs', None) or getattr( node, 'kwargs', None) or len(node.args) != 1: raise ValueError( '%s takes exactly one argument (file %r, line %s)' % (node.func.id, filename, getattr(node, 'lineno', ''))) if node.func.id == 'Str': if isinstance(node.args[0], ast.Str): return ConstantString(node.args[0].s) raise ValueError( 'Passed a non-string to Str() (file %r, line%s)' % (filename, getattr(node, 'lineno', ''))) arg = _convert(node.args[0]) if not isinstance(arg, str): raise ValueError( 'Var\'s argument must be a variable name (file %r, line %s)' % (filename, getattr(node, 'lineno', ''))) if vars_dict is None: return '{' + arg + '}' if arg not in vars_dict: raise KeyError( '%s was used as a variable, but was not declared in the vars dict ' '(file %r, line %s)' % (arg, filename, getattr(node, 'lineno', ''))) val = vars_dict[arg] if isinstance(val, ConstantString): val = val.value return val elif isinstance(node, ast.BinOp) and isinstance(node.op, ast.Add): return _convert(node.left) + _convert(node.right) elif isinstance(node, ast.BinOp) and isinstance(node.op, ast.Mod): return _convert(node.left) % _convert(node.right) else: raise ValueError('unexpected AST node: %s %s (file %r, line %s)' % (node, ast.dump(node), filename, getattr(node, 'lineno', ''))) return _convert(node_or_string) def Exec(content, filename='', vars_override=None, builtin_vars=None): """Safely execs a set of assignments.""" def _validate_statement(node, local_scope): if not isinstance(node, ast.Assign): raise ValueError('unexpected AST node: %s %s (file %r, line %s)' % (node, ast.dump(node), filename, getattr(node, 'lineno', ''))) if len(node.targets) != 1: raise ValueError( 'invalid assignment: use exactly one target (file %r, line %s)' % (filename, getattr(node, 'lineno', ''))) target = node.targets[0] if not isinstance(target, ast.Name): raise ValueError( 'invalid assignment: target should be a name (file %r, line %s)' % (filename, getattr(node, 'lineno', ''))) if target.id in local_scope: raise ValueError( 'invalid assignment: overrides var %r (file %r, line %s)' % (target.id, filename, getattr(node, 'lineno', ''))) node_or_string = ast.parse(content, filename=filename, mode='exec') if isinstance(node_or_string, ast.Expression): node_or_string = node_or_string.body if not isinstance(node_or_string, ast.Module): raise ValueError('unexpected AST node: %s %s (file %r, line %s)' % (node_or_string, ast.dump(node_or_string), filename, getattr(node_or_string, 'lineno', ''))) statements = {} for statement in node_or_string.body: _validate_statement(statement, statements) statements[statement.targets[0].id] = statement.value tokens = { token[2]: list(token) for token in tokenize.generate_tokens(StringIO(content).readline) } local_scope = _NodeDict({}, tokens) # Process vars first, so we can expand variables in the rest of the DEPS # file. vars_dict = {} if 'vars' in statements: vars_statement = statements['vars'] value = _gclient_eval(vars_statement, filename) local_scope.SetNode('vars', value, vars_statement) # Update the parsed vars with the overrides, but only if they are # already present (overrides do not introduce new variables). vars_dict.update(value) if builtin_vars: vars_dict.update(builtin_vars) if vars_override: vars_dict.update( {k: v for k, v in vars_override.items() if k in vars_dict}) for name, node in statements.items(): value = _gclient_eval(node, filename, vars_dict) local_scope.SetNode(name, value, node) try: return _GCLIENT_SCHEMA.validate(local_scope) except schema.SchemaError as e: raise gclient_utils.Error(str(e)) def _StandardizeDeps(deps_dict, vars_dict): """"Standardizes the deps_dict. For each dependency: - Expands the variable in the dependency name. - Ensures the dependency is a dictionary. - Set's the 'dep_type' to be 'git' by default. """ new_deps_dict = {} for dep_name, dep_info in deps_dict.items(): dep_name = dep_name.format(**vars_dict) if not isinstance(dep_info, collections.abc.Mapping): dep_info = {'url': dep_info} dep_info.setdefault('dep_type', 'git') new_deps_dict[dep_name] = dep_info return new_deps_dict def _MergeDepsOs(deps_dict, os_deps_dict, os_name): """Merges the deps in os_deps_dict into conditional dependencies in deps_dict. The dependencies in os_deps_dict are transformed into conditional dependencies using |'checkout_' + os_name|. If the dependency is already present, the URL and revision must coincide. """ for dep_name, dep_info in os_deps_dict.items(): # Make this condition very visible, so it's not a silent failure. # It's unclear how to support None override in deps_os. if dep_info['url'] is None: logging.error('Ignoring %r:%r in %r deps_os', dep_name, dep_info, os_name) continue os_condition = 'checkout_' + (os_name if os_name != 'unix' else 'linux') UpdateCondition(dep_info, 'and', os_condition) if dep_name in deps_dict: if deps_dict[dep_name]['url'] != dep_info['url']: raise gclient_utils.Error( 'Value from deps_os (%r; %r: %r) conflicts with existing deps ' 'entry (%r).' % (os_name, dep_name, dep_info, deps_dict[dep_name])) UpdateCondition(dep_info, 'or', deps_dict[dep_name].get('condition')) deps_dict[dep_name] = dep_info def UpdateCondition(info_dict, op, new_condition): """Updates info_dict's condition with |new_condition|. An absent value is treated as implicitly True. """ curr_condition = info_dict.get('condition') # Easy case: Both are present. if curr_condition and new_condition: info_dict['condition'] = '(%s) %s (%s)' % (curr_condition, op, new_condition) # If |op| == 'and', and at least one condition is present, then use it. elif op == 'and' and (curr_condition or new_condition): info_dict['condition'] = curr_condition or new_condition # Otherwise, no condition should be set elif curr_condition: del info_dict['condition'] def Parse(content, filename, vars_override=None, builtin_vars=None): """Parses DEPS strings. Executes the Python-like string stored in content, resulting in a Python dictionary specified by the schema above. Supports syntax validation and variable expansion. Args: content: str. DEPS file stored as a string. filename: str. The name of the DEPS file, or a string describing the source of the content, e.g. '', ''. vars_override: dict, optional. A dictionary with overrides for the variables defined by the DEPS file. builtin_vars: dict, optional. A dictionary with variables that are provided by default. Returns: A Python dict with the parsed contents of the DEPS file, as specified by the schema above. """ result = Exec(content, filename, vars_override, builtin_vars) vars_dict = result.get('vars', {}) if 'deps' in result: result['deps'] = _StandardizeDeps(result['deps'], vars_dict) if 'deps_os' in result: deps = result.setdefault('deps', {}) for os_name, os_deps in result['deps_os'].items(): os_deps = _StandardizeDeps(os_deps, vars_dict) _MergeDepsOs(deps, os_deps, os_name) del result['deps_os'] if 'hooks_os' in result: hooks = result.setdefault('hooks', []) for os_name, os_hooks in result['hooks_os'].items(): for hook in os_hooks: UpdateCondition(hook, 'and', 'checkout_' + os_name) hooks.extend(os_hooks) del result['hooks_os'] return result def EvaluateCondition(condition, variables, referenced_variables=None): """Safely evaluates a boolean condition. Returns the result.""" if not referenced_variables: referenced_variables = set() _allowed_names = {'None': None, 'True': True, 'False': False} main_node = ast.parse(condition, mode='eval') if isinstance(main_node, ast.Expression): main_node = main_node.body def _convert(node, allow_tuple=False): if isinstance(node, ast.Str): return node.s if isinstance(node, ast.Tuple) and allow_tuple: return tuple(map(_convert, node.elts)) if isinstance(node, ast.Name): if node.id in referenced_variables: raise ValueError('invalid cyclic reference to %r (inside %r)' % (node.id, condition)) if node.id in _allowed_names: return _allowed_names[node.id] if node.id in variables: value = variables[node.id] # Allow using "native" types, without wrapping everything in # strings. Note that schema constraints still apply to # variables. if not isinstance(value, str): return value # Recursively evaluate the variable reference. return EvaluateCondition(variables[node.id], variables, referenced_variables.union([node.id])) # Implicitly convert unrecognized names to strings. # If we want to change this, we'll need to explicitly distinguish # between arguments for GN to be passed verbatim, and ones to # be evaluated. return node.id if not sys.version_info[:2] < (3, 4) and isinstance( node, ast.NameConstant): # Since Python 3.4 return node.value if isinstance(node, ast.BoolOp) and isinstance(node.op, ast.Or): bool_values = [] for value in node.values: bool_values.append(_convert(value)) if not isinstance(bool_values[-1], bool): raise ValueError('invalid "or" operand %r (inside %r)' % (bool_values[-1], condition)) return any(bool_values) if isinstance(node, ast.BoolOp) and isinstance(node.op, ast.And): bool_values = [] for value in node.values: bool_values.append(_convert(value)) if not isinstance(bool_values[-1], bool): raise ValueError('invalid "and" operand %r (inside %r)' % (bool_values[-1], condition)) return all(bool_values) if isinstance(node, ast.UnaryOp) and isinstance(node.op, ast.Not): value = _convert(node.operand) if not isinstance(value, bool): raise ValueError('invalid "not" operand %r (inside %r)' % (value, condition)) return not value if isinstance(node, ast.Compare): if len(node.ops) != 1: raise ValueError( 'invalid compare: exactly 1 operator required (inside %r)' % (condition)) if len(node.comparators) != 1: raise ValueError( 'invalid compare: exactly 1 comparator required (inside %r)' % (condition)) left = _convert(node.left) right = _convert(node.comparators[0], allow_tuple=isinstance(node.ops[0], ast.In)) if isinstance(node.ops[0], ast.Eq): return left == right if isinstance(node.ops[0], ast.NotEq): return left != right if isinstance(node.ops[0], ast.In): return left in right raise ValueError('unexpected operator: %s %s (inside %r)' % (node.ops[0], ast.dump(node), condition)) raise ValueError('unexpected AST node: %s %s (inside %r)' % (node, ast.dump(node), condition)) return _convert(main_node) def RenderDEPSFile(gclient_dict): contents = sorted(gclient_dict.tokens.values(), key=lambda token: token[2]) return tokenize.untokenize(contents) def _UpdateAstString(tokens, node, value): if isinstance(node, ast.Call): node = node.args[0] position = node.lineno, node.col_offset quote_char = '' if isinstance(node, ast.Str): quote_char = tokens[position][1][0] value = value.encode('unicode_escape').decode('utf-8') tokens[position][1] = quote_char + value + quote_char node.s = value def _ShiftLinesInTokens(tokens, delta, start): new_tokens = {} for token in tokens.values(): if token[2][0] >= start: token[2] = token[2][0] + delta, token[2][1] token[3] = token[3][0] + delta, token[3][1] new_tokens[token[2]] = token return new_tokens def AddVar(gclient_dict, var_name, value): if not isinstance(gclient_dict, _NodeDict) or gclient_dict.tokens is None: raise ValueError( "Can't use SetVar for the given gclient dict. It contains no " "formatting information.") if 'vars' not in gclient_dict: raise KeyError("vars dict is not defined.") if var_name in gclient_dict['vars']: raise ValueError( "%s has already been declared in the vars dict. Consider using SetVar " "instead." % var_name) if not gclient_dict['vars']: raise ValueError('vars dict is empty. This is not yet supported.') # We will attempt to add the var right after 'vars = {'. node = gclient_dict.GetNode('vars') if node is None: raise ValueError("The vars dict has no formatting information." % var_name) line = node.lineno + 1 # We will try to match the new var's indentation to the next variable. col = node.keys[0].col_offset # We use a minimal Python dictionary, so that ast can parse it. var_content = '{\n%s"%s": "%s",\n}\n' % (' ' * col, var_name, value) var_ast = ast.parse(var_content).body[0].value # Set the ast nodes for the key and value. vars_node = gclient_dict.GetNode('vars') var_name_node = var_ast.keys[0] var_name_node.lineno += line - 2 vars_node.keys.insert(0, var_name_node) value_node = var_ast.values[0] value_node.lineno += line - 2 vars_node.values.insert(0, value_node) # Update the tokens. var_tokens = list(tokenize.generate_tokens(StringIO(var_content).readline)) var_tokens = { token[2]: list(token) # Ignore the tokens corresponding to braces and new lines. for token in var_tokens[2:-3] } gclient_dict.tokens = _ShiftLinesInTokens(gclient_dict.tokens, 1, line) gclient_dict.tokens.update(_ShiftLinesInTokens(var_tokens, line - 2, 0)) def SetVar(gclient_dict, var_name, value): if not isinstance(gclient_dict, _NodeDict) or gclient_dict.tokens is None: raise ValueError( "Can't use SetVar for the given gclient dict. It contains no " "formatting information.") tokens = gclient_dict.tokens if 'vars' not in gclient_dict: raise KeyError("vars dict is not defined.") if var_name not in gclient_dict['vars']: raise ValueError( "%s has not been declared in the vars dict. Consider using AddVar " "instead." % var_name) node = gclient_dict['vars'].GetNode(var_name) if node is None: raise ValueError( "The vars entry for %s has no formatting information." % var_name) _UpdateAstString(tokens, node, value) gclient_dict['vars'].SetNode(var_name, value, node) def _GetVarName(node): if isinstance(node, ast.Call): return node.args[0].s if node.s.endswith('}'): last_brace = node.s.rfind('{') return node.s[last_brace + 1:-1] return None def SetGCS(gclient_dict, dep_name, new_objects): if not isinstance(gclient_dict, _NodeDict) or gclient_dict.tokens is None: raise ValueError( "Can't use SetGCS for the given gclient dict. It contains no " "formatting information.") tokens = gclient_dict.tokens if 'deps' not in gclient_dict or dep_name not in gclient_dict['deps']: raise KeyError("Could not find any dependency called %s." % dep_name) node = gclient_dict['deps'][dep_name] objects_node = node.GetNode('objects') if len(objects_node.elts) != len(new_objects): raise ValueError("Number of revision objects must match the current " "number of objects.") # Allow only `keys_to_update` to be updated. keys_to_update = ('object_name', 'sha256sum', 'size_bytes', 'generation') for index, object_node in enumerate(objects_node.elts): for key, value in zip(object_node.keys, object_node.values): if key.s not in keys_to_update: continue _UpdateAstString(tokens, value, new_objects[index][key.s]) node.SetNode('objects', new_objects, objects_node) def SetCIPD(gclient_dict, dep_name, package_name, new_version): if not isinstance(gclient_dict, _NodeDict) or gclient_dict.tokens is None: raise ValueError( "Can't use SetCIPD for the given gclient dict. It contains no " "formatting information.") tokens = gclient_dict.tokens if 'deps' not in gclient_dict or dep_name not in gclient_dict['deps']: raise KeyError("Could not find any dependency called %s." % dep_name) # Find the package with the given name packages = [ package for package in gclient_dict['deps'][dep_name]['packages'] if package['package'] == package_name ] if len(packages) != 1: raise ValueError( "There must be exactly one package with the given name (%s), " "%s were found." % (package_name, len(packages))) # TODO(ehmaldonado): Support Var in package's version. node = packages[0].GetNode('version') if node is None: raise ValueError( "The deps entry for %s:%s has no formatting information." % (dep_name, package_name)) if not isinstance(node, ast.Call) and not isinstance(node, ast.Str): raise ValueError( "Unsupported dependency revision format. Please file a bug to the " "Infra>SDK component in crbug.com") var_name = _GetVarName(node) if var_name is not None: SetVar(gclient_dict, var_name, new_version) else: _UpdateAstString(tokens, node, new_version) packages[0].SetNode('version', new_version, node) def SetRevision(gclient_dict, dep_name, new_revision): def _UpdateRevision(dep_dict, dep_key, new_revision): dep_node = dep_dict.GetNode(dep_key) if dep_node is None: raise ValueError( "The deps entry for %s has no formatting information." % dep_name) node = dep_node if isinstance(node, ast.BinOp): node = node.right if isinstance(node, ast.Str): token = _gclient_eval(tokens[node.lineno, node.col_offset][1]) if token != node.s: raise ValueError( 'Can\'t update value for %s. Multiline strings and implicitly ' 'concatenated strings are not supported.\n' 'Consider reformatting the DEPS file.' % dep_key) if not isinstance(node, ast.Call) and not isinstance(node, ast.Str): raise ValueError( "Unsupported dependency revision format. Please file a bug to the " "Infra>SDK component in crbug.com") var_name = _GetVarName(node) if var_name is not None: SetVar(gclient_dict, var_name, new_revision) else: if '@' in node.s: # '@' is part of the last string, which we want to modify. # Discard whatever was after the '@' and put the new revision in # its place. new_revision = node.s.split('@')[0] + '@' + new_revision elif '@' not in dep_dict[dep_key]: # '@' is not part of the URL at all. This mean the dependency is # unpinned and we should pin it. new_revision = node.s + '@' + new_revision _UpdateAstString(tokens, node, new_revision) dep_dict.SetNode(dep_key, new_revision, node) if not isinstance(gclient_dict, _NodeDict) or gclient_dict.tokens is None: raise ValueError( "Can't use SetRevision for the given gclient dict. It contains no " "formatting information.") tokens = gclient_dict.tokens if 'deps' not in gclient_dict or dep_name not in gclient_dict['deps']: raise KeyError("Could not find any dependency called %s." % dep_name) if isinstance(gclient_dict['deps'][dep_name], _NodeDict): _UpdateRevision(gclient_dict['deps'][dep_name], 'url', new_revision) else: _UpdateRevision(gclient_dict['deps'], dep_name, new_revision) def GetVar(gclient_dict, var_name): if 'vars' not in gclient_dict or var_name not in gclient_dict['vars']: raise KeyError("Could not find any variable called %s." % var_name) val = gclient_dict['vars'][var_name] if isinstance(val, ConstantString): return val.value return val def GetCIPD(gclient_dict, dep_name, package_name): if 'deps' not in gclient_dict or dep_name not in gclient_dict['deps']: raise KeyError("Could not find any dependency called %s." % dep_name) # Find the package with the given name packages = [ package for package in gclient_dict['deps'][dep_name]['packages'] if package['package'] == package_name ] if len(packages) != 1: raise ValueError( "There must be exactly one package with the given name (%s), " "%s were found." % (package_name, len(packages))) return packages[0]['version'] def GetRevision(gclient_dict, dep_name): if 'deps' not in gclient_dict or dep_name not in gclient_dict['deps']: suggestions = [] if 'deps' in gclient_dict: for key in gclient_dict['deps']: if dep_name in key: suggestions.append(key) if suggestions: raise KeyError( "Could not find any dependency called %s. Did you mean %s" % (dep_name, ' or '.join(suggestions))) raise KeyError("Could not find any dependency called %s." % dep_name) dep = gclient_dict['deps'][dep_name] if dep is None: return None if isinstance(dep, str): _, _, revision = dep.partition('@') return revision or None if isinstance(dep, collections.abc.Mapping) and 'url' in dep: _, _, revision = dep['url'].partition('@') return revision or None if isinstance(gclient_dict, _NodeDict) and 'objects' in dep: return dep['objects'] raise ValueError('%s is not a valid git or gcs dependency.' % dep_name)