I have made for beaglebone a socket application, based on enet_echo (which is a part of starterware of TI). I have modified this code such, that in the main loop I do not do anything else, than periodically polling tcp_sndbuf to see the available transmit buffer, and then I send large chunk of data (40KiB) using combination of tcp_write and tcp_output. And this I try to do at maximum speed to see what I can get as throughout. As I do that from main(), during tcp_write and tcp_output I have to stop ethernet IRQs (SYS_INT_3PGSWTXINT0 and SYS_INT_3PGSWRXINT0) otherwise the lwip just gets crazy. This is probably because TI uses IRQ driven TCPIP handling.
This approach works, but it is deadly slow. When running wireshark on this, I can identify two troubles:
1) 'when eventually' the lwip starts to send data, it only sends it at speed roughly 1.5MiB (out of 100MiB). Looking at packets they look really nice. No broken transitions, nicely using full MTU (except of the last one from the block of course). The transfer speed of 1.5MiB I consider extremely slow providing that CPU is quite powerful (running @ 720MHz) and has nothing else to do than this...
2) when the long packet is sent, the LWIP basically 'hangs' or 'does nothing' during period of at least 700ms. When doing time-sequence graph, there are nicely visible ~700ms gaps, when ethernet is not used at all, and where it should definitely send the data.
My questions are following:
- What the LWIP does in these 700ms of doing nothing? why the data come out only at so precise interval?
- Is there any timer or something, which drives this timeout or it is due to some internal lwip processes?
- for what is SYS_INT_3PGSWTXINT0 and SYS_INT_3PGSWRXINT0? Manual says RX_PULSE and TX_PULSE. But those two seem to come at as well at the rate of ~1second...
- is there any way how to convert the interrupt-driven TX/RX to main loop, so I can poll the TCPIP at my own rate?