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I found that asio's doc about synchronization by strand is obscure. It just says that in a thread pool design asio app, the handler can be run in any thread which had call io_service::run(). Using a strand to warp these handler can make their execution concurrent correctly. In its example3, all handle_read are wrap by strand, and I think the variables in Connection class such as buffer has been synchronized by strand, different thread calls handle_read will gets up-to-date data, that is OK. But what about there is a data member defined in Connection class which also accessed by a handler was not wrap by strand? I think this is a problem, isn't it?

In its doc example3, why handle_accept was not wrap by a strand? The new_connection_ is accessed by multi threads: new_connection_.reset called by thread A and server::handle_accept called by thread B. I think it needs data synchronization here or else thread B might use a out-of-date new_connection_ that its reset have not been called yet.

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2 Answers 2

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HTTP Server 3 is designed in such a way that it does not actually need a strand.

A fundamental trait of Boost.Asio is that a handler will be called at most once for a given operation. This behavior allows for the call path of asynchronous programming to be envisioned more as a call chain.

For example, examine the illustrated call chain for the server accepting connections:

server::server(...)
{
  start_accept();  --.
}                    |
    .----------------'
    |      .----------------------------------------.
    V      V                                        |
void server::start_accept()                         |
{                                                   |
  new_connection_.reset(new connection(...));       |
  acceptor_.async_accept(..., handle_accept);  --.  |
}                                                |  |
    .--------------------------------------------'  |
    |                                               |
    V                                               |
void server::handle_accept(...)                     |
{                                                   |
  if (!error)                                       |
  {                                                 |
    new_connection_->start();                       |
  }                                                 |    
  start_accept();  ---------------------------------'
}

As shown in the illustration, only a single asynchronous event chain is present. With no possibility of concurrent execution of the handlers or operations on new_connection, it is said to be running in an implicit strand. The thread in which the handler, server::handle_accept, runs is inconsequential.

The connection::handle_read call chains and more details about strands are answered in this question.

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I get 2 points: 1, A chain of handler calling is concurrent OK in asio as the doc said "implicit strand". 2, HTTP example 3's handle_read is unnecessary to wrap in strand because it makes up a chain. Am I right? –  jean Feb 8 '13 at 17:16
    
@jean: In the illustrated chain, there is a single chain of asynchronous operations associated with acceptor_. Thus, there is no possibility of concurrent execution of the handlers associated with this chain. On the other hand, these handlers may be running concurrently with the handlers of another chain, such as each connection's handle_read. And yes, the strand in handle_read is not necessary because the chain forms an implicit strand. –  Tanner Sansbury Feb 8 '13 at 18:06

I think you are somehow missing the meaning of strand. It does not synchronize data access. It syncronize handler calls. This can be understood as "all handlers wrapped by given strand will NOT be called concurrently".

So, your first questsion: if some handler is not wrapped by strand - it can be called concurrently now. So its subject to sync issues and/or RC. Note if you wrap in one place does not mean you are protected from RC; this should be done in every call. Since strand does not know what you calling from other thread unless you use .wrap

Second question: In given example start_accept setting up accept handler handle_accept, and handle_accept is setting new accept handler (via calling start_accept). So, they will not be called concurrently since you cannot create 2 or more async_accept events. Sure, if other thread call start_accept for same "Server" instance - this example can/will fail, but doing so is a clear mistake.

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I my experience, thread synchronization means both of data and code execution. Lack of any one, the synchronization will be meaningless. Because lock can achieve both of them. In example, if strand don't make data synchronization, the buffer data member will be problematic. start_accept() & handle_accept() will be executed in different threads, so why there is nothing to do with data sync with data member 'new_connection_'? –  jean Feb 8 '13 at 10:30
    
start_accept() & handle_accept() cannot be executed both. When start_accept is running, there is no active async_accept, so handle_accept cannot be called. On other side, when handle_accept is called, there is no more such handler in the io_service; it will be added at the end of handle_accept when you call async_accept(). However, there is a bug. Since new_connection_->start() is not saving new_connection_ shared_ptr, it will be rewritten in async_accept. So you right, this can fail, but in some other place(in connection class). Note this is incomplete examaple –  PSIAlt Feb 8 '13 at 10:51
    
I know they will not execute at same time by different thread. My question is when thread A call handle_accept() AFTER thread B complete start_accept() execution, how to synchronize the shared variable 'new_connection_' states. Because thread B calls 'new_connection_' reset() that will change it's state. Without any explicit sync, how those state changing can be seen by thread A? –  jean Feb 8 '13 at 13:40
    
Since start_accept() is designed to start only once from outside and many times from inside of object, new_connection_.reset() will called only when handle_accept is ready to do so; and in same thread. If some thread call start_accept() when this instance already run, its will be trouble. But doing so is user mistake. –  PSIAlt Feb 8 '13 at 14:36

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