HACKING - platform/system/connectivity/shill - Gitiles

 Copyright (c) 2012 The Chromium OS Authors. All rights reserved.
 Use of this source code is governed by a BSD-style license that can be
 found in the LICENSE file.

 To keep the shill source code consistent, please follow the conventions below:

 - Use the Chromium Coding Style, as described at
   http://www.chromium.org/developers/coding-style.

   If you use Emacs, the Google C Style mode will help you with the formatting
   aspects of style. (Chromium Style generally follows Google Style). Get the
   Emacs mode at
   http://google-styleguide.googlecode.com/svn/trunk/google-c-style.el

   Note that we've deviated from the Chromium style in the following
   ways. In these cases, follow the shill style, for consistency with
   the rest of the shill code:

   - We denote pointer and reference variables by placing the '*' and '&'
     adjacent to the variable name, rather than the type. E.g.

        void *bar

     rather than

        void* bar

   - <no other deviations documented yet>

 - When working with DBus::Variant:
   - Read data via the appropriate named method, rather than depending on
     implicit conversion. E.g.,

        ::DBus::Variant var;
        int8 data = var.reader().get_byte();

     rather than

        ::DBus::Variant var;
        int8 data = var;

     RATIONALE: The explicit version is only marginally longer than the
     implicit version, and does not require the reader to understand C++
     conversion rules.

   - Where there is no named method, call the appropriate cast operator
     explicitly. E.g.

     ::DBus::Variant var;
     vector<unsigned int> data = var.operator vector<unsigned int>();

     RATIONALE: Calling the cast operator explicitly avoids conflicts with
     constructors that might also be used to make the conversion. It also
     avoids requiring that the reader understand C++ conversion rules.

   - Write data via the appropriate named method. E.g.,

        ::DBus::Variant var;
        int16_t data;
        var.writer().append_int16(data);

     rather than

        ::DBus::Variant var;
        int16_t data;
        var.writer() << data;

     RATIONALE: Similarly as for reading, the explicit version is only
     marginally longer, and does not require the reader to understand
     overload resolution.

   - Where there is no named method, write by using the stream
     insertion operator. E.g.

        ::DBus::Variant var;
        ::DBus::MessageIter writer;
        map<string, string> data;
        writer = var.writer();
        writer << data;

     RATIONALE: This case is somewhat unfortunate, because it's not as
     clear as its analogue for reading. However, the alternative is to
     duplicate the code of the stream insertion operator overloads.

     Note that the writer can't be omitted. E.g.

        ::DBus::Variant var;
        map<string, string> data;
        var.writer() << data;

     does not work. For an explanation of why the local variable
     |writer| is needed, see the comment in
     DBusAdaptor::ByteArraysToVariant.

 - When deferring work from a signal handler (e.g. a D-Bus callback) to
   the event loop, name the deferred work function by adding "Task" to
   the name of the function deferring the work. E.g.

   void Modem::Init() {
     dispatcher_->PostTask(task_factory_.NewRunnableMethod(&Modem::InitTask));
   }

   RATIONALE: The naming convention makes the relationship between the signal
   handler and the task function obvious, at-a-glance.

 - C++ exceptions are not allowed in the code. An exception to this rule is
   that try-catch blocks may be used in various D-Bus proxy classes to handle
   DBus::Error exceptions thrown by the D-Bus C++ code. C++ exceptions should
   be caught by const reference in general.

 - When adding verbose log messages for debug purposes, use the SLOG marco and
   its variants (see logging.h for details).

   - Choose the appropriate scope and verbose level for log messages. E.g.

       SLOG(WiFi, 1) << message;  // for WiFi related code

   - Before defining a new scope, check if any existing scope defined in
     scope_logger.h already fulfills the needs.

   - To add a new scope:
     1. Add a new value to the Scope enumerated type in scope_logger.h.
        Keep the values sorted as instructed in the header file.
     2. Add the corresponding scope name to the kScopeNames array in
        scope_logger.cc.
     3. Update the GetAllScopeNames test in scope_logger_unittest.cc.
	Copyright (c) 2012 The Chromium OS Authors. All rights reserved.
	Use of this source code is governed by a BSD-style license that can be
	found in the LICENSE file.

	To keep the shill source code consistent, please follow the conventions below:

	- Use the Chromium Coding Style, as described at
	http://www.chromium.org/developers/coding-style.

	If you use Emacs, the Google C Style mode will help you with the formatting
	aspects of style. (Chromium Style generally follows Google Style). Get the
	Emacs mode at
	http://google-styleguide.googlecode.com/svn/trunk/google-c-style.el

	Note that we've deviated from the Chromium style in the following
	ways. In these cases, follow the shill style, for consistency with
	the rest of the shill code:

	- We denote pointer and reference variables by placing the '*' and '&'
	adjacent to the variable name, rather than the type. E.g.

	void *bar

	rather than

	void* bar

	- <no other deviations documented yet>

	- When working with DBus::Variant:
	- Read data via the appropriate named method, rather than depending on
	implicit conversion. E.g.,

	::DBus::Variant var;
	int8 data = var.reader().get_byte();

	rather than

	::DBus::Variant var;
	int8 data = var;

	RATIONALE: The explicit version is only marginally longer than the
	implicit version, and does not require the reader to understand C++
	conversion rules.

	- Where there is no named method, call the appropriate cast operator
	explicitly. E.g.

	::DBus::Variant var;
	vector<unsigned int> data = var.operator vector<unsigned int>();

	RATIONALE: Calling the cast operator explicitly avoids conflicts with
	constructors that might also be used to make the conversion. It also
	avoids requiring that the reader understand C++ conversion rules.

	- Write data via the appropriate named method. E.g.,

	::DBus::Variant var;
	int16_t data;
	var.writer().append_int16(data);

	rather than

	::DBus::Variant var;
	int16_t data;
	var.writer() << data;

	RATIONALE: Similarly as for reading, the explicit version is only
	marginally longer, and does not require the reader to understand
	overload resolution.

	- Where there is no named method, write by using the stream
	insertion operator. E.g.

	::DBus::Variant var;
	::DBus::MessageIter writer;
	map<string, string> data;
	writer = var.writer();
	writer << data;

	RATIONALE: This case is somewhat unfortunate, because it's not as
	clear as its analogue for reading. However, the alternative is to
	duplicate the code of the stream insertion operator overloads.

	Note that the writer can't be omitted. E.g.

	::DBus::Variant var;
	map<string, string> data;
	var.writer() << data;

	does not work. For an explanation of why the local variable
	\|writer\| is needed, see the comment in
	DBusAdaptor::ByteArraysToVariant.

	- When deferring work from a signal handler (e.g. a D-Bus callback) to
	the event loop, name the deferred work function by adding "Task" to
	the name of the function deferring the work. E.g.

	void Modem::Init() {
	dispatcher_->PostTask(task_factory_.NewRunnableMethod(&Modem::InitTask));
	}

	RATIONALE: The naming convention makes the relationship between the signal
	handler and the task function obvious, at-a-glance.

	- C++ exceptions are not allowed in the code. An exception to this rule is
	that try-catch blocks may be used in various D-Bus proxy classes to handle
	DBus::Error exceptions thrown by the D-Bus C++ code. C++ exceptions should
	be caught by const reference in general.

	- When adding verbose log messages for debug purposes, use the SLOG marco and
	its variants (see logging.h for details).

	- Choose the appropriate scope and verbose level for log messages. E.g.

	SLOG(WiFi, 1) << message; // for WiFi related code

	- Before defining a new scope, check if any existing scope defined in
	scope_logger.h already fulfills the needs.

	- To add a new scope:
	1. Add a new value to the Scope enumerated type in scope_logger.h.
	Keep the values sorted as instructed in the header file.
	2. Add the corresponding scope name to the kScopeNames array in
	scope_logger.cc.
	3. Update the GetAllScopeNames test in scope_logger_unittest.cc.