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Add some initial unit tests. The unit tests themselves are inlined into the tool and can be executed by running the "test" commandlet. Example: $ python -m unittest test_fs_config_generator.Tests ............. ---------------------------------------------------------------------- Ran 13 tests in 0.004s OK Test: run the test commandlet and observe for failures. Change-Id: I1bada385fa841fd50fa958997d440f1198e15198 Signed-off-by: William Roberts <william.c.roberts@intel.com> |
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default | ||
Android.mk | ||
fs_config.c | ||
fs_config_generate.c | ||
fs_config_generator.py | ||
pylintrc | ||
README | ||
test_fs_config_generator.py |
_____ _____ _____ _____ __ __ _____ / _ \/ __\/ _ \| _ \/ \/ \/ __\ | _ <| __|| _ || | || \/ || __| \__|\_/\_____/\__|__/|_____/\__ \__/\_____/ Generating the android_filesystem_config.h To generate the android_filesystem_config.h file, one can choose from one of two methods. The first method, is to declare TARGET_ANDROID_FILESYSTEM_CONFIG_H in the device BoardConfig.mk file. This variable can only have one item in it, and it is used directly as the android_filesystem_config.h header when building fs_config_generate_$(TARGET_DEVICE) which is used to generate fs_config_files and fs_config_dirs target executable. The limitation with this, is that it can only be set once, thus if the device has a make hierarchy, then each device needs its own file, and cannot share from a common source or that common source needs to include everything from both devices. The other way is to set TARGET_FS_CONFIG_GEN, which can be a list of intermediate fs configuration files. It is a build error on any one these conditions: * Specify TARGET_FS_CONFIG_GEN and TARGET_ANDROID_FILESYSTEM_CONFIG_H * Specify TARGET_FS_CONFIG_GEN and provide $(TARGET_DEVICE_DIR)/android_filesystem_config.h The parsing of the config file follows the Python ConfigParser specification, with the sections and fields as defined below. There are two types of sections, both sections require all options to be specified. The first section type is the "caps" section. The "caps" section follows the following syntax: [path] mode: Octal file mode user: AID_<user> group: AID_<group> caps: cap* Where: [path] The filesystem path to configure. A path ending in / is considered a dir, else its a file. mode: A valid octal file mode of at least 3 digits. If 3 is specified, it is prefixed with a 0, else mode is used as is. user: Either the C define for a valid AID or the friendly name. For instance both AID_RADIO and radio are acceptable. Note custom AIDs can be defined in the AID section documented below. group: Same as user. caps: The name as declared in system/core/include/private/android_filesystem_capability.h without the leading CAP_. Mixed case is allowed. Caps can also be the raw: * binary (0b0101) * octal (0455) * int (42) * hex (0xFF) For multiple caps, just separate by whitespace. It is an error to specify multiple sections with the same [path] in different files. Note that the same file may contain sections that override the previous section in Python versions <= 3.2. In Python 3.2 it's set to strict mode. The next section type is the "AID" section, for specifying OEM specific AIDS. The AID section follows the following syntax: [AID_<name>] value: <number> Where: [AID_<name>] The <name> can contain characters in the set uppercase, numbers and underscores. value: A valid C style number string. Hex, octal, binary and decimal are supported. See "caps" above for more details on number formatting. It is an error to specify multiple sections with the same [AID_<name>]. With the same constraints as [path] described above. It is also an error to specify multiple sections with the same value option. It is also an error to specify a value that is outside of the inclusive OEM ranges: * AID_OEM_RESERVED_START(2900) - AID_OEM_RESERVED_END(2999) * AID_OEM_RESERVED_2_START(5000) - AID_OEM_RESERVED_2_END(5999) as defined by system/core/include/private/android_filesystem_config.h. Ordering within the TARGET_FS_CONFIG_GEN files is not relevant. The paths for files are sorted like so within their respective array definition: * specified path before prefix match ** ie foo before f* * lexicographical less than before other ** ie boo before foo Given these paths: paths=['ac', 'a', 'acd', 'an', 'a*', 'aa', 'ac*'] The sort order would be: paths=['a', 'aa', 'ac', 'acd', 'an', 'ac*', 'a*'] Thus the fs_config tools will match on specified paths before attempting prefix, and match on the longest matching prefix. The declared AIDS are sorted in ascending numerical order based on the option "value". The string representation of value is preserved. Both choices were made for maximum readability of the generated file and to line up files. Sync lines are placed with the source file as comments in the generated header file. For OEMs wishing to use the define AIDs in their native code, one can access the generated header file like so: 1. In your C code just #include "generated_oem_aid.h" and start using the declared identifiers. 2. In your Makefile add this static library like so: LOCAL_STATIC_LIBRARIES := liboemaids Unit Tests: From within the fs_config directory, unit tests can be executed like so: $ python -m unittest test_fs_config_generator.Tests ............. ---------------------------------------------------------------------- Ran 13 tests in 0.004s OK One could also use nose if they would like: $ nose2 To add new tests, simply add a test_<xxx> method to the test class. It will automatically get picked up and added to the test suite.