Apps&Extensions for supervised users: Add Extension::WAS_INSTALLED_BY_CUSTODIAN flag...
[chromium-blink-merge.git] / tools / isolate_driver.py
blob192de2cb837d9530d655a03303a73d1ccf9e8286
1 #!/usr/bin/env python
2 # Copyright 2014 The Chromium Authors. All rights reserved.
3 # Use of this source code is governed by a BSD-style license that can be
4 # found in the LICENSE file.
6 """Adaptor script called through build/isolate.gypi.
8 Creates a wrapping .isolate which 'includes' the original one, that can be
9 consumed by tools/swarming_client/isolate.py. Path variables are determined
10 based on the current working directory. The relative_cwd in the .isolated file
11 is determined based on the .isolate file that declare the 'command' variable to
12 be used so the wrapping .isolate doesn't affect this value.
14 This script loads build.ninja and processes it to determine all the executables
15 referenced by the isolated target. It adds them in the wrapping .isolate file.
17 WARNING: The target to use for build.ninja analysis is the base name of the
18 .isolate file plus '_run'. For example, 'foo_test.isolate' would have the target
19 'foo_test_run' analysed.
20 """
22 import StringIO
23 import glob
24 import logging
25 import os
26 import posixpath
27 import subprocess
28 import sys
29 import time
31 TOOLS_DIR = os.path.dirname(os.path.abspath(__file__))
32 SWARMING_CLIENT_DIR = os.path.join(TOOLS_DIR, 'swarming_client')
33 SRC_DIR = os.path.dirname(TOOLS_DIR)
35 sys.path.insert(0, SWARMING_CLIENT_DIR)
37 import isolate_format
40 def load_ninja_recursively(build_dir, ninja_path, build_steps):
41 """Crudely extracts all the subninja and build referenced in ninja_path.
43 In particular, it ignores rule and variable declarations. The goal is to be
44 performant (well, as much as python can be performant) which is currently in
45 the <200ms range for a complete chromium tree. As such the code is laid out
46 for performance instead of readability.
47 """
48 logging.debug('Loading %s', ninja_path)
49 try:
50 with open(os.path.join(build_dir, ninja_path), 'rb') as f:
51 line = None
52 merge_line = ''
53 subninja = []
54 for line in f:
55 line = line.rstrip()
56 if not line:
57 continue
59 if line[-1] == '$':
60 # The next line needs to be merged in.
61 merge_line += line[:-1]
62 continue
64 if merge_line:
65 line = merge_line + line
66 merge_line = ''
68 statement = line[:line.find(' ')]
69 if statement == 'build':
70 # Save the dependency list as a raw string. Only the lines needed will
71 # be processed with raw_build_to_deps(). This saves a good 70ms of
72 # processing time.
73 build_target, dependencies = line[6:].split(': ', 1)
74 # Interestingly, trying to be smart and only saving the build steps
75 # with the intended extensions ('', '.stamp', '.so') slows down
76 # parsing even if 90% of the build rules can be skipped.
77 # On Windows, a single step may generate two target, so split items
78 # accordingly. It has only been seen for .exe/.exe.pdb combos.
79 for i in build_target.strip().split():
80 build_steps[i] = dependencies
81 elif statement == 'subninja':
82 subninja.append(line[9:])
83 except IOError:
84 print >> sys.stderr, 'Failed to open %s' % ninja_path
85 raise
87 total = 1
88 for rel_path in subninja:
89 try:
90 # Load each of the files referenced.
91 # TODO(maruel): Skip the files known to not be needed. It saves an aweful
92 # lot of processing time.
93 total += load_ninja_recursively(build_dir, rel_path, build_steps)
94 except IOError:
95 print >> sys.stderr, '... as referenced by %s' % ninja_path
96 raise
97 return total
100 def load_ninja(build_dir):
101 """Loads the tree of .ninja files in build_dir."""
102 build_steps = {}
103 total = load_ninja_recursively(build_dir, 'build.ninja', build_steps)
104 logging.info('Loaded %d ninja files, %d build steps', total, len(build_steps))
105 return build_steps
108 def using_blacklist(item):
109 """Returns True if an item should be analyzed.
111 Ignores many rules that are assumed to not depend on a dynamic library. If
112 the assumption doesn't hold true anymore for a file format, remove it from
113 this list. This is simply an optimization.
115 IGNORED = (
116 '.a', '.cc', '.css', '.def', '.frag', '.h', '.html', '.js', '.json',
117 '.manifest', '.o', '.obj', '.pak', '.png', '.pdb', '.strings', '.test',
118 '.txt', '.vert',
120 # ninja files use native path format.
121 ext = os.path.splitext(item)[1]
122 if ext in IGNORED:
123 return False
124 # Special case Windows, keep .dll.lib but discard .lib.
125 if item.endswith('.dll.lib'):
126 return True
127 if ext == '.lib':
128 return False
129 return item not in ('', '|', '||')
132 def raw_build_to_deps(item):
133 """Converts a raw ninja build statement into the list of interesting
134 dependencies.
136 # TODO(maruel): Use a whitelist instead? .stamp, .so.TOC, .dylib.TOC,
137 # .dll.lib, .exe and empty.
138 # The first item is the build rule, e.g. 'link', 'cxx', 'phony', etc.
139 return filter(using_blacklist, item.split(' ')[1:])
142 def collect_deps(target, build_steps, dependencies_added, rules_seen):
143 """Recursively adds all the interesting dependencies for |target|
144 into |dependencies_added|.
146 if rules_seen is None:
147 rules_seen = set()
148 if target in rules_seen:
149 # TODO(maruel): Figure out how it happens.
150 logging.warning('Circular dependency for %s!', target)
151 return
152 rules_seen.add(target)
153 try:
154 dependencies = raw_build_to_deps(build_steps[target])
155 except KeyError:
156 logging.info('Failed to find a build step to generate: %s', target)
157 return
158 logging.debug('collect_deps(%s) -> %s', target, dependencies)
159 for dependency in dependencies:
160 dependencies_added.add(dependency)
161 collect_deps(dependency, build_steps, dependencies_added, rules_seen)
164 def post_process_deps(build_dir, dependencies):
165 """Processes the dependency list with OS specific rules."""
166 def filter_item(i):
167 if i.endswith('.so.TOC'):
168 # Remove only the suffix .TOC, not the .so!
169 return i[:-4]
170 if i.endswith('.dylib.TOC'):
171 # Remove only the suffix .TOC, not the .dylib!
172 return i[:-4]
173 if i.endswith('.dll.lib'):
174 # Remove only the suffix .lib, not the .dll!
175 return i[:-4]
176 return i
178 # Check for execute access. This gets rid of all the phony rules.
179 return [
180 i for i in map(filter_item, dependencies)
181 if os.access(os.path.join(build_dir, i), os.X_OK)
185 def create_wrapper(args, isolate_index, isolated_index):
186 """Creates a wrapper .isolate that add dynamic libs.
188 The original .isolate is not modified.
190 cwd = os.getcwd()
191 isolate = args[isolate_index]
192 # The code assumes the .isolate file is always specified path-less in cwd. Fix
193 # if this assumption doesn't hold true.
194 assert os.path.basename(isolate) == isolate, isolate
196 # This will look like ../out/Debug. This is based against cwd. Note that this
197 # must equal the value provided as PRODUCT_DIR.
198 build_dir = os.path.dirname(args[isolated_index])
200 # This will look like chrome/unit_tests.isolate. It is based against SRC_DIR.
201 # It's used to calculate temp_isolate.
202 src_isolate = os.path.relpath(os.path.join(cwd, isolate), SRC_DIR)
204 # The wrapping .isolate. This will look like
205 # ../out/Debug/gen/chrome/unit_tests.isolate.
206 temp_isolate = os.path.join(build_dir, 'gen', src_isolate)
207 temp_isolate_dir = os.path.dirname(temp_isolate)
209 # Relative path between the new and old .isolate file.
210 isolate_relpath = os.path.relpath(
211 '.', temp_isolate_dir).replace(os.path.sep, '/')
213 # It's a big assumption here that the name of the isolate file matches the
214 # primary target '_run'. Fix accordingly if this doesn't hold true, e.g.
215 # complain to maruel@.
216 target = isolate[:-len('.isolate')] + '_run'
217 build_steps = load_ninja(build_dir)
218 binary_deps = set()
219 collect_deps(target, build_steps, binary_deps, None)
220 binary_deps = post_process_deps(build_dir, binary_deps)
221 logging.debug(
222 'Binary dependencies:%s', ''.join('\n ' + i for i in binary_deps))
224 # Now do actual wrapping .isolate.
225 isolate_dict = {
226 'includes': [
227 posixpath.join(isolate_relpath, isolate),
229 'variables': {
230 # Will look like ['<(PRODUCT_DIR)/lib/flibuser_prefs.so'].
231 isolate_format.KEY_TRACKED: sorted(
232 '<(PRODUCT_DIR)/%s' % i.replace(os.path.sep, '/')
233 for i in binary_deps),
236 if not os.path.isdir(temp_isolate_dir):
237 os.makedirs(temp_isolate_dir)
238 comment = (
239 '# Warning: this file was AUTOGENERATED.\n'
240 '# DO NO EDIT.\n')
241 out = StringIO.StringIO()
242 isolate_format.print_all(comment, isolate_dict, out)
243 isolate_content = out.getvalue()
244 with open(temp_isolate, 'wb') as f:
245 f.write(isolate_content)
246 logging.info('Added %d dynamic libs', len(binary_deps))
247 logging.debug('%s', isolate_content)
248 args[isolate_index] = temp_isolate
251 def main():
252 logging.basicConfig(level=logging.ERROR, format='%(levelname)7s %(message)s')
253 args = sys.argv[1:]
254 isolate = None
255 isolated = None
256 is_component = False
257 for i, arg in enumerate(args):
258 if arg == '--isolate':
259 isolate = i + 1
260 if arg == '--isolated':
261 isolated = i + 1
262 if arg == 'component=shared_library':
263 is_component = True
264 if isolate is None or isolated is None:
265 print >> sys.stderr, 'Internal failure'
266 return 1
268 if is_component:
269 create_wrapper(args, isolate, isolated)
271 swarming_client = os.path.join(SRC_DIR, 'tools', 'swarming_client')
272 sys.stdout.flush()
273 result = subprocess.call(
274 [sys.executable, os.path.join(swarming_client, 'isolate.py')] + args)
275 return result
278 if __name__ == '__main__':
279 sys.exit(main())