improved api and updated readme

pull/9/head
Ondřej Hruška 7 years ago
parent 4ad1f09f73
commit 95a7c89b98
Signed by: MightyPork
GPG Key ID: 2C5FD5035250423D
  1. 85
      README.md
  2. 3
      TinyFrame.c
  3. 2
      TinyFrame.h
  4. 2
      demo/hello/master.c
  5. 2
      demo/hello/slave.c

@ -10,13 +10,14 @@ UDP packets. If you find a good use for it, please let me know so I can add it h
Frames can be protected by a checksum (~XOR, CRC16 or CRC32) and contain
a unique ID field which can be used for chaining related messages. The highest bit
of the generated IDs is different for each peer to avoid collisions.
of the generated IDs is different in each peer to avoid collisions.
Peers are functionally equivalent and can send messages to each other
(the names "master" and "slave" are used only for convenience).
(the names "master" and "slave" are used only for convenience and have special meaning
in the demos).
The library lets you register listeners (callback functions) to wait for (1) any frame, (2)
a particular frame Type, or (3) a specific message ID. This lets you easily implement asynchronous
communication.
a particular frame Type, or (3) a specific message ID. This high-level API lets you
easily implement various async communication patterns.
## Frame structure
@ -50,24 +51,20 @@ DATA_CKSUM .. checksum, implemented as XOR of all preceding bytes in the message
- Both peers must include the library with the same parameters (configured at the top of the header file)
- Start by calling `TF_Init()` with `TF_MASTER` or `TF_SLAVE` as the argument
- Implement `TF_WriteImpl()` - declared at the bottom of the header file as `extern`.
This function is used by `TF_Send()` to write bytes to your UART (or other physical layer).
This function is used by `TF_Send()` and others to write bytes to your UART (or other physical layer).
Presently, always a full frame is sent to this function.
- If you wish to use `TF_PARSER_TIMEOUT_TICKS`, periodically call `TF_Tick()`. The period
determines the length of 1 tick. This is used to time-out the parser in case it gets stuck
in a bad state (such as receiving a partial frame).
- If you wish to use timeouts, periodically call `TF_Tick()`. The calling period determines
the length of 1 tick. This is used to time-out the parser in case it gets stuck
in a bad state (such as receiving a partial frame) and can also time-out ID listeners.
- Bind Type or Generic listeners using `TF_AddTypeListener()` or `TF_AddGenericListener()`.
- Send a message using `TF_Send()` or the other Send functions.
If you provide a listener callback (function pointer) to the function,
the listener will be added as an ID listener and wait for a response.
- Send a message using `TF_Send()`, `TF_Query()`, `TF_SendSimple()`, `TF_QuerySimple()`.
Query functions take a listener callback (function pointer)that will be added as
an ID listener and wait for a response.
- To reply to a message (when your listener gets called), use `TF_Respond()`
with the same frame_id as in the received message.
- Remove the ID listener using `TF_RemoveIdListener()` when it's no longer
needed. (Same for other listener types.) The slot count is limited.
- If the listener function returns `false`, some other listener will get
a chance to handle it
with the msg boject you received, replacing the `data` pointer (and `len`) with response.
- Manually reset the parser using `TF_ResetParser()`
### The concept of listeners
### Message listeners
Listeners are callback functions that are called by TinyFrame when a message which
they can handle is received.
@ -78,52 +75,14 @@ There are 3 listener types:
- Type listeners
- Generic listeners
They handle the message in this order, and if they decide not to handle it, they can return `false`
and let it be handled by some other listener, or discarded.
Listeners return an enum constant based on what should be done next - remove the listener,
keep it, renew it's timeout, or let some other listener handle the message.
### Implementing "synchronous query"
### Examples
Sometimes it's necessary to send a message and wait for a response to arrive.
You'll find various examples in the `demo/` folder. Each example has it's own Makefile,
read it to see what options are available.
One (not too pretty) way to do this is using a global variable - pseudocode:
```c
#define MSG_PING 42
static volatile bool got_response = false;
/** ID listener */
static bool onResponse(TF_ID frame_id, TF_TYPE type, const uint8_t *data, TF_LEN len)
{
// ... Do something ...
// (eg. copy data to a global variable)
got_response = true;
return true;
}
bool syncQuery(void)
{
TF_ID id;
// Send our request, and bind an ID listener
got_response = false;
TF_Send0(MSG_PING, onResponse, &id); // Send0 sends zero bytes of data, just TYPE
// the ID is now in `id` so we can remove the listener after a timeout
// Wait for the response
bool suc = true;
while (!got_response) {
//delay()
if (/*timeout*/) {
TF_RemoveIdListener(id); // free the listener slot
return false;
}
}
// ... Do something with the received data? ...
// (can be passed from the listener using a global variable)
return true;
}
```
The demos are written for Linux, using sockets and `clone()` for background processing.
They try to simulate real TinyFrame behavior in an embedded system with asynchronous
Rx and Tx. If you can't run the demos, the source files are still good as examples.

@ -721,13 +721,14 @@ bool _TF_FN TF_SendSimple(TF_TYPE type, const uint8_t *data, TF_LEN len)
}
// send without listener and struct
bool _TF_FN TF_QuerySimple(TF_TYPE type, const uint8_t *data, TF_LEN len, TF_Listener listener, TF_TICKS timeout)
bool _TF_FN TF_QuerySimple(TF_TYPE type, const uint8_t *data, TF_LEN len, TF_Listener listener, TF_TICKS timeout, void *userdata)
{
TF_Msg msg;
TF_ClearMsg(&msg);
msg.type = type;
msg.data = data;
msg.len = len;
msg.userdata = userdata;
return TF_Query(&msg, listener, timeout);
}

@ -209,7 +209,7 @@ bool TF_SendSimple(TF_TYPE type, const uint8_t *data, TF_LEN len);
/**
* Like TF_Query, but without the struct
*/
bool TF_QuerySimple(TF_TYPE type, const uint8_t *data, TF_LEN len, TF_Listener listener, TF_TICKS timeout);
bool TF_QuerySimple(TF_TYPE type, const uint8_t *data, TF_LEN len, TF_Listener listener, TF_TICKS timeout, void *userdata);
/**
* Send a frame, and optionally attach an ID listener.

@ -29,7 +29,7 @@ int main(void)
TF_SendSimple(1, (pu8)"Ahoj", 5);
TF_SendSimple(1, (pu8)"Hello", 6);
TF_QuerySimple(2, (pu8)"Query!", 6, testIdListener, 0);
TF_QuerySimple(2, (pu8)"Query!", 6, testIdListener, 0, NULL);
demo_sleep();
}

@ -21,7 +21,7 @@ TF_Result replyListener(TF_Msg *msg)
msg->len = (TF_LEN) strlen((const char *) msg->data);
TF_Respond(msg);
// unsolicted reply - will not be handled
// unsolicited reply - will not be handled by the ID listener, which is already gone
msg->data = (const uint8_t *) "SPAM";
msg->len = 5;
TF_Respond(msg);

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