Zoltan Hudak
Mbed library for ENC28J60 Ethernet modules. Full support for TCP/IP and UDP Server, Client and HTTP server (webserver). DHCP and DNS is included.
Dependents: mBuino_ENC28_MQTT Nucleo_Web_ENC28J60 Nucleo_Web_ENC28J60_ADC Serial_over_Ethernet ... more
Library for ENC28J60 Ethernet modules.
Ported to mbed from Norbert Truchsess's UIPEthernet library for Arduino. Thank you Norbert!
- Full support for persistent (streaming) TCP/IP and UDP connections Client and Server each, ARP, ICMP, DHCP and DNS.
- Works with both Mbed OS 2 and Mbed OS 5.
Usage:
- Import the library into your project.
- Add
#include "UipEthernet.h"tomain.cpp - Create one instance of the UipEthernet class initialized with the MAC address you'd like to use and SPI pins of the connected Mbed board.
Example programs:
Import programWebSwitch_ENC28J60
HTTP Server serving a simple webpage which enables to remotely turn a digital output on/off. Compile, download, run and type 'IP_address/secret/' (don't forget the last '/') into your web browser and hit ENTER.
Last commit 23 Jul 2020 by 
Zoltan Hudak
Import programHTTPServer_Echo_ENC28J60
A simple HTTP server echoing received requests. Ethernet connection is over an ENC28J60 board. Usage: Type the server's IP address into you web browser and hit <ENTER>.
Last commit 23 Jul 2020 by Zoltan Hudak
Import programTcpServer_ENC28J60
Simple TCP/IP Server using the UIPEthernet library for ENC28J60 Ethernet boards.
Last commit 23 Jul 2020 by Zoltan Hudak
Import programTcpClient_ENC28J60
Simple TCP/IP Client using the UIPEthernet library for ENC28J60 Ethernet boards.
Last commit 23 Jul 2020 by Zoltan Hudak
Import programUdpServer_ENC28J60
Simple UDP Server using the UIPEthernet library for ENC28J60 Ethernet boards.
Last commit 23 Jul 2020 by Zoltan Hudak
Import programUdpClient_ENC28J60
Simple UDP Client using the UIPEthernet library for ENC28J60 Ethernet boards.
Last commit 23 Jul 2020 by Zoltan Hudak
Import programMQTT_Hello_ENC28J60
MQTT Client example program. Ethernet connection is via an ENC28J60 module.
Last commit 23 Jul 2020 by Zoltan Hudak
utility/MemPool.cpp
- Committer:
- hudakz
- Date:
- 2020-07-23
- Revision:
- 18:8d5738a6646e
- Parent:
- 9:a156d3de5647
File content as of revision 18:8d5738a6646e:
/*
mempool.cpp - sleek implementation of a memory pool
Copyright (c) 2013 Norbert Truchsess <norbert.truchsess@t-online.de>
All rights reserved.
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
#include "MemPool.h"
#include <string.h>
#define POOLOFFSET 1
struct memblock MemPool:: blocks[MEMPOOL_NUM_MEMBLOCKS + 1];
/**
* @brief
* @note
* @param
* @retval
*/
void MemPool::init() {
memset(&blocks[0], 0, sizeof(blocks));
blocks[POOLSTART].begin = MEMPOOL_STARTADDRESS;
blocks[POOLSTART].size = 0;
blocks[POOLSTART].nextblock = NOBLOCK;
}
/**
* @brief
* @note
* @param
* @retval
*/
memhandle MemPool::allocBlock(memaddress size) {
memblock* best = NULL;
memhandle cur = POOLSTART;
memblock* block = &blocks[POOLSTART];
memaddress bestsize = MEMPOOL_SIZE + 1;
do {
memhandle next = block->nextblock;
memaddress freesize = (next == NOBLOCK ? blocks[POOLSTART].begin + MEMPOOL_SIZE : blocks[next].begin) -
block->begin -
block->size;
if (freesize == size) {
best = &blocks[cur];
goto found;
}
if (freesize > size && freesize < bestsize) {
bestsize = freesize;
best = &blocks[cur];
}
if (next == NOBLOCK) {
if (best)
goto found;
else
goto collect;
}
block = &blocks[next];
cur = next;
} while (true);
collect:
{
cur = POOLSTART;
block = &blocks[POOLSTART];
memhandle next;
while ((next = block->nextblock) != NOBLOCK) {
memaddress dest = block->begin + block->size;
memblock* nextblock = &blocks[next];
memaddress* src = &nextblock->begin;
if (dest != *src)
{
#ifdef MEMPOOL_MEMBLOCK_MV
MEMPOOL_MEMBLOCK_MV(dest, *src, nextblock->size);
#endif
*src = dest;
}
block = nextblock;
}
if (blocks[POOLSTART].begin + MEMPOOL_SIZE - block->begin - block->size >= size)
best = block;
else
goto notfound;
}
found:
{
block = &blocks[POOLOFFSET];
for (cur = POOLOFFSET; cur < MEMPOOL_NUM_MEMBLOCKS + POOLOFFSET; cur++) {
if (block->size) {
block++;
continue;
}
memaddress address = best->begin + best->size;
#ifdef MEMBLOCK_ALLOC
MEMBLOCK_ALLOC(address, size);
#endif
block->begin = address;
block->size = size;
block->nextblock = best->nextblock;
best->nextblock = cur;
return cur;
}
}
notfound:
return NOBLOCK;
}
/**
* @brief
* @note
* @param
* @retval
*/
void MemPool::freeBlock(memhandle handle) {
if (handle == NOBLOCK)
return;
memblock* b = &blocks[POOLSTART];
do {
memhandle next = b->nextblock;
if (next == handle) {
memblock* f = &blocks[next];
#ifdef MEMBLOCK_FREE
MEMBLOCK_FREE(f->begin, f->size);
#endif
b->nextblock = f->nextblock;
f->size = 0;
f->nextblock = NOBLOCK;
return;
}
if (next == NOBLOCK)
return;
b = &blocks[next];
} while (true);
}
/**
* @brief
* @note
* @param
* @retval
*/
void MemPool::resizeBlock(memhandle handle, memaddress position) {
memblock* block = &blocks[handle];
block->begin += position;
block->size -= position;
}
/**
* @brief
* @note
* @param
* @retval
*/
void MemPool::resizeBlock(memhandle handle, memaddress position, memaddress size) {
memblock* block = &blocks[handle];
block->begin += position;
block->size = size;
}
/**
* @brief
* @note
* @param
* @retval
*/
memaddress MemPool::blockSize(memhandle handle) {
return blocks[handle].size;
}