I have trouble with using general_work
function for a block which takes a vector as an input and outputs a message.
The block is a kind of demodulator. In fact it is working great if I send some data after and after (periodically).
But I need to create only one data (frame) which has a predefined size and sent it to this block. And I want this block to handle all of the items in its buffer without waiting for more data.
As I understand, it is about the buffering and scheduler structure of GNU Radio, but, I couldn't figure it out how to provide an ability to this block to handle all the symbols of the frame that I've sent without waiting for another frame.
For example, lets say my frame has 150 symbols. The scheduler calls my general_work
function two, three, or four times (I don't know how it decides the number of calls for my general_work
).
However, it stops lets say at symbol #141, or 143. Every time I run it, it stops at different symbol number. If I send another frame, it completes to handle remaining items (symbols) in its buffer.
Does anybody know how can I tell the scheduler to not wait for another frame to complete the remaining items in its buffer from the previously sent data.
First of all, thank you for your advices. In fact, I am studying on a link layer protocol and its implementation using SDR for my graduate thesis. Because I'm not a DSP expert, I need a wifi phy layer (transceiver). So, I decided to use an OOT module, "802.11 a/g/p Transceiver" project developed by Bastian Bloessl which is available on https://github.com/bastibl/gr-ieee802-11.git. He provided an example flow-graph (wifi_loopback.crc) to simulate the transceiver. By the way, besides the transceiver (DSP stuff) itself, he also developed some part of the data link layer issues for 802.11 such as framing and error control. In the example flow-graph, the "Message Strobe" block is used as a kind of application layer for producing data periodically and send them to a block called "OFDM MAC" which has 4 message ports (app_in, app_out, phy_in, and phy_out). In this block, the raw data which is coming from the "Message Strobe" is encapsulated by adding a header and FCS information. Then, the encapsulated data is sent (phy_out) to a hierarchical block called "Wifi PHY Hier" in order to do some DSP issues such as scrambling, coding, interleaving, symbol mapping and modulation etc. In some way, the data is converted to signal and received by the same block ("Wifi PHY Hier") and the opposite process is handled such as descrambling, decoding etc. And it gives the decoded frame to "OFDM MAC" block (phy_in). If you run this flow-graph, everything is normal. I mean, the data sent by "Message Strobe" is received correctly.
However, because I am trying to implement a kind of link layer protocol, I need some feedback from destination to source such as an ACK message. So, I decided to start by implementing a simple stop&wait protocol that the source sends a message and wait for an ACK from the destination, DATA -> ACK -> DATA -> ACK... and so on. In order to do that, I create a simple source block which sends only one data and wait for an ACK message to send another data. The data I produce with my source block is the same as the data produced by "Message Strobe". When I replace the "Message Strobe" block with my source block, I realized that something is wrong because I couldn't receive my data. So, I've followed my data in order to find which step cause this situation. There is no problem with the transmission process. In the receive process, I found the problematic block which is in the "Wifi PHY Hier" block and is the last block before this hierarchical block gives its data to "OFDM MAC" block. This problematic block which is called "OFDM Decode MAC" has two ports. The output port is a message port and the input port is complex vector. So, I reviewed the code of this block, specially, the general_work() function of it. For my particular test data, in order to complete its job correctly, it should consume 177 items to produce an output to "OFDM MAC". However, it stops consuming items after 172 items are consumed. I override the forecast() method and set ninput_items_required[0] = 177. But in this case, nothing is happened, because, as I understand, the scheduler has never see 177 items in the input buffer. As you said, this is because the block ("OFDM Decode Signal") that writes into this block's input buffer produce 172 items.
I did not go deep further yet but the interesting point is when I send a second data (in the runtime) after a period, without waiting for an ACK, the remaining 5 items of the first data I've sent are consumed in some way and received correctly by the "OFDM MAC" block. And now the second data is in the same problematic situation that the previus data has experienced.. If I send third data, the second one is also received correctly. I'm really confused. How can this be ?