1*10465441SEvalZero /*
2*10465441SEvalZero * Copyright (c) 2001-2004 Swedish Institute of Computer Science.
3*10465441SEvalZero * COPYRIGHT (C) 2006-2010, RT-Thread Development Team
4*10465441SEvalZero * All rights reserved.
5*10465441SEvalZero *
6*10465441SEvalZero * Redistribution and use in source and binary forms, with or without modification,
7*10465441SEvalZero * are permitted provided that the following conditions are met:
8*10465441SEvalZero *
9*10465441SEvalZero * 1. Redistributions of source code must retain the above copyright notice,
10*10465441SEvalZero * this list of conditions and the following disclaimer.
11*10465441SEvalZero * 2. Redistributions in binary form must reproduce the above copyright notice,
12*10465441SEvalZero * this list of conditions and the following disclaimer in the documentation
13*10465441SEvalZero * and/or other materials provided with the distribution.
14*10465441SEvalZero * 3. The name of the author may not be used to endorse or promote products
15*10465441SEvalZero * derived from this software without specific prior written permission.
16*10465441SEvalZero *
17*10465441SEvalZero * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED
18*10465441SEvalZero * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF
19*10465441SEvalZero * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT
20*10465441SEvalZero * SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
21*10465441SEvalZero * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT
22*10465441SEvalZero * OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
23*10465441SEvalZero * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
24*10465441SEvalZero * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING
25*10465441SEvalZero * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY
26*10465441SEvalZero * OF SUCH DAMAGE.
27*10465441SEvalZero *
28*10465441SEvalZero * This file is part of the lwIP TCP/IP stack.
29*10465441SEvalZero *
30*10465441SEvalZero * Author: Adam Dunkels <[email protected]>
31*10465441SEvalZero *
32*10465441SEvalZero * Change Logs:
33*10465441SEvalZero * Date Author Notes
34*10465441SEvalZero * 2010-07-07 Bernard fix send mail to mailbox issue.
35*10465441SEvalZero * 2011-07-30 mbbill port lwIP 1.4.0 to RT-Thread
36*10465441SEvalZero * 2012-04-10 Bernard add more compatible with RT-Thread.
37*10465441SEvalZero * 2012-11-12 Bernard The network interface can be initialized
38*10465441SEvalZero * after lwIP initialization.
39*10465441SEvalZero * 2013-02-28 aozima fixed list_tcps bug: ipaddr_ntoa isn't reentrant.
40*10465441SEvalZero */
41*10465441SEvalZero
42*10465441SEvalZero #include <rtthread.h>
43*10465441SEvalZero
44*10465441SEvalZero #include "lwip/opt.h"
45*10465441SEvalZero #include "lwip/debug.h"
46*10465441SEvalZero #include "lwip/def.h"
47*10465441SEvalZero #include "lwip/mem.h"
48*10465441SEvalZero #include "lwip/pbuf.h"
49*10465441SEvalZero #include "lwip/sys.h"
50*10465441SEvalZero #include "lwip/netif.h"
51*10465441SEvalZero #include "lwip/stats.h"
52*10465441SEvalZero #include "lwip/tcpip.h"
53*10465441SEvalZero
54*10465441SEvalZero #include "netif/etharp.h"
55*10465441SEvalZero #include "netif/ethernetif.h"
56*10465441SEvalZero #include "lwip/inet.h"
57*10465441SEvalZero
58*10465441SEvalZero #define netifapi_netif_set_link_up(n) netifapi_netif_common(n, netif_set_link_up, NULL)
59*10465441SEvalZero #define netifapi_netif_set_link_down(n) netifapi_netif_common(n, netif_set_link_down, NULL)
60*10465441SEvalZero
61*10465441SEvalZero #ifndef RT_LWIP_ETHTHREAD_PRIORITY
62*10465441SEvalZero #define RT_ETHERNETIF_THREAD_PREORITY 0x90
63*10465441SEvalZero #else
64*10465441SEvalZero #define RT_ETHERNETIF_THREAD_PREORITY RT_LWIP_ETHTHREAD_PRIORITY
65*10465441SEvalZero #endif
66*10465441SEvalZero
67*10465441SEvalZero #ifndef LWIP_NO_TX_THREAD
68*10465441SEvalZero /**
69*10465441SEvalZero * Tx message structure for Ethernet interface
70*10465441SEvalZero */
71*10465441SEvalZero struct eth_tx_msg
72*10465441SEvalZero {
73*10465441SEvalZero struct netif *netif;
74*10465441SEvalZero struct pbuf *buf;
75*10465441SEvalZero };
76*10465441SEvalZero
77*10465441SEvalZero static struct rt_mailbox eth_tx_thread_mb;
78*10465441SEvalZero static struct rt_thread eth_tx_thread;
79*10465441SEvalZero #ifndef RT_LWIP_ETHTHREAD_MBOX_SIZE
80*10465441SEvalZero static char eth_tx_thread_mb_pool[32 * 4];
81*10465441SEvalZero static char eth_tx_thread_stack[512];
82*10465441SEvalZero #else
83*10465441SEvalZero static char eth_tx_thread_mb_pool[RT_LWIP_ETHTHREAD_MBOX_SIZE * 4];
84*10465441SEvalZero static char eth_tx_thread_stack[RT_LWIP_ETHTHREAD_STACKSIZE];
85*10465441SEvalZero #endif
86*10465441SEvalZero #endif
87*10465441SEvalZero
88*10465441SEvalZero #ifndef LWIP_NO_RX_THREAD
89*10465441SEvalZero static struct rt_mailbox eth_rx_thread_mb;
90*10465441SEvalZero static struct rt_thread eth_rx_thread;
91*10465441SEvalZero #ifndef RT_LWIP_ETHTHREAD_MBOX_SIZE
92*10465441SEvalZero static char eth_rx_thread_mb_pool[48 * 4];
93*10465441SEvalZero static char eth_rx_thread_stack[1024];
94*10465441SEvalZero #else
95*10465441SEvalZero static char eth_rx_thread_mb_pool[RT_LWIP_ETHTHREAD_MBOX_SIZE * 4];
96*10465441SEvalZero static char eth_rx_thread_stack[RT_LWIP_ETHTHREAD_STACKSIZE];
97*10465441SEvalZero #endif
98*10465441SEvalZero #endif
99*10465441SEvalZero
ethernetif_linkoutput(struct netif * netif,struct pbuf * p)100*10465441SEvalZero static err_t ethernetif_linkoutput(struct netif *netif, struct pbuf *p)
101*10465441SEvalZero {
102*10465441SEvalZero #ifndef LWIP_NO_TX_THREAD
103*10465441SEvalZero struct eth_tx_msg msg;
104*10465441SEvalZero struct eth_device* enetif;
105*10465441SEvalZero
106*10465441SEvalZero RT_ASSERT(netif != RT_NULL);
107*10465441SEvalZero enetif = (struct eth_device*)netif->state;
108*10465441SEvalZero
109*10465441SEvalZero /* send a message to eth tx thread */
110*10465441SEvalZero msg.netif = netif;
111*10465441SEvalZero msg.buf = p;
112*10465441SEvalZero if (rt_mb_send(ð_tx_thread_mb, (rt_uint32_t) &msg) == RT_EOK)
113*10465441SEvalZero {
114*10465441SEvalZero /* waiting for ack */
115*10465441SEvalZero rt_sem_take(&(enetif->tx_ack), RT_WAITING_FOREVER);
116*10465441SEvalZero }
117*10465441SEvalZero #else
118*10465441SEvalZero struct eth_device* enetif;
119*10465441SEvalZero
120*10465441SEvalZero RT_ASSERT(netif != RT_NULL);
121*10465441SEvalZero enetif = (struct eth_device*)netif->state;
122*10465441SEvalZero
123*10465441SEvalZero if (enetif->eth_tx(&(enetif->parent), p) != RT_EOK)
124*10465441SEvalZero {
125*10465441SEvalZero return ERR_IF;
126*10465441SEvalZero }
127*10465441SEvalZero #endif
128*10465441SEvalZero return ERR_OK;
129*10465441SEvalZero }
130*10465441SEvalZero
eth_netif_device_init(struct netif * netif)131*10465441SEvalZero static err_t eth_netif_device_init(struct netif *netif)
132*10465441SEvalZero {
133*10465441SEvalZero struct eth_device *ethif;
134*10465441SEvalZero
135*10465441SEvalZero ethif = (struct eth_device*)netif->state;
136*10465441SEvalZero if (ethif != RT_NULL)
137*10465441SEvalZero {
138*10465441SEvalZero rt_device_t device;
139*10465441SEvalZero
140*10465441SEvalZero /* get device object */
141*10465441SEvalZero device = (rt_device_t) ethif;
142*10465441SEvalZero if (rt_device_init(device) != RT_EOK)
143*10465441SEvalZero {
144*10465441SEvalZero return ERR_IF;
145*10465441SEvalZero }
146*10465441SEvalZero
147*10465441SEvalZero /* copy device flags to netif flags */
148*10465441SEvalZero netif->flags = (ethif->flags & 0xff);
149*10465441SEvalZero
150*10465441SEvalZero /* set default netif */
151*10465441SEvalZero if (netif_default == RT_NULL)
152*10465441SEvalZero netif_set_default(ethif->netif);
153*10465441SEvalZero
154*10465441SEvalZero #if LWIP_DHCP
155*10465441SEvalZero if (ethif->flags & NETIF_FLAG_DHCP)
156*10465441SEvalZero {
157*10465441SEvalZero /* if this interface uses DHCP, start the DHCP client */
158*10465441SEvalZero dhcp_start(ethif->netif);
159*10465441SEvalZero }
160*10465441SEvalZero else
161*10465441SEvalZero #endif
162*10465441SEvalZero {
163*10465441SEvalZero /* set interface up */
164*10465441SEvalZero netif_set_up(ethif->netif);
165*10465441SEvalZero }
166*10465441SEvalZero
167*10465441SEvalZero if (!(ethif->flags & ETHIF_LINK_PHYUP))
168*10465441SEvalZero {
169*10465441SEvalZero /* set link_up for this netif */
170*10465441SEvalZero netif_set_link_up(ethif->netif);
171*10465441SEvalZero }
172*10465441SEvalZero
173*10465441SEvalZero return ERR_OK;
174*10465441SEvalZero }
175*10465441SEvalZero
176*10465441SEvalZero return ERR_IF;
177*10465441SEvalZero }
178*10465441SEvalZero
179*10465441SEvalZero /* Keep old drivers compatible in RT-Thread */
eth_device_init_with_flag(struct eth_device * dev,char * name,rt_uint16_t flags)180*10465441SEvalZero rt_err_t eth_device_init_with_flag(struct eth_device *dev, char *name, rt_uint16_t flags)
181*10465441SEvalZero {
182*10465441SEvalZero struct netif* netif;
183*10465441SEvalZero
184*10465441SEvalZero netif = (struct netif*) rt_malloc (sizeof(struct netif));
185*10465441SEvalZero if (netif == RT_NULL)
186*10465441SEvalZero {
187*10465441SEvalZero rt_kprintf("malloc netif failed\n");
188*10465441SEvalZero return -RT_ERROR;
189*10465441SEvalZero }
190*10465441SEvalZero rt_memset(netif, 0, sizeof(struct netif));
191*10465441SEvalZero
192*10465441SEvalZero /* set netif */
193*10465441SEvalZero dev->netif = netif;
194*10465441SEvalZero /* device flags, which will be set to netif flags when initializing */
195*10465441SEvalZero dev->flags = flags;
196*10465441SEvalZero /* link changed status of device */
197*10465441SEvalZero dev->link_changed = 0x00;
198*10465441SEvalZero dev->parent.type = RT_Device_Class_NetIf;
199*10465441SEvalZero /* register to RT-Thread device manager */
200*10465441SEvalZero rt_device_register(&(dev->parent), name, RT_DEVICE_FLAG_RDWR);
201*10465441SEvalZero rt_sem_init(&(dev->tx_ack), name, 0, RT_IPC_FLAG_FIFO);
202*10465441SEvalZero
203*10465441SEvalZero /* set name */
204*10465441SEvalZero netif->name[0] = name[0];
205*10465441SEvalZero netif->name[1] = name[1];
206*10465441SEvalZero
207*10465441SEvalZero /* set hw address to 6 */
208*10465441SEvalZero netif->hwaddr_len = 6;
209*10465441SEvalZero /* maximum transfer unit */
210*10465441SEvalZero netif->mtu = ETHERNET_MTU;
211*10465441SEvalZero
212*10465441SEvalZero /* get hardware MAC address */
213*10465441SEvalZero rt_device_control(&(dev->parent), NIOCTL_GADDR, netif->hwaddr);
214*10465441SEvalZero
215*10465441SEvalZero /* set output */
216*10465441SEvalZero netif->output = etharp_output;
217*10465441SEvalZero netif->linkoutput = ethernetif_linkoutput;
218*10465441SEvalZero
219*10465441SEvalZero /* if tcp thread has been started up, we add this netif to the system */
220*10465441SEvalZero if (rt_thread_find("tcpip") != RT_NULL)
221*10465441SEvalZero {
222*10465441SEvalZero struct ip_addr ipaddr, netmask, gw;
223*10465441SEvalZero
224*10465441SEvalZero #if LWIP_DHCP
225*10465441SEvalZero if (dev->flags & NETIF_FLAG_DHCP)
226*10465441SEvalZero {
227*10465441SEvalZero IP4_ADDR(&ipaddr, 0, 0, 0, 0);
228*10465441SEvalZero IP4_ADDR(&gw, 0, 0, 0, 0);
229*10465441SEvalZero IP4_ADDR(&netmask, 0, 0, 0, 0);
230*10465441SEvalZero }
231*10465441SEvalZero else
232*10465441SEvalZero #endif
233*10465441SEvalZero {
234*10465441SEvalZero ipaddr.addr = inet_addr(RT_LWIP_IPADDR);
235*10465441SEvalZero gw.addr = inet_addr(RT_LWIP_GWADDR);
236*10465441SEvalZero netmask.addr = inet_addr(RT_LWIP_MSKADDR);
237*10465441SEvalZero }
238*10465441SEvalZero
239*10465441SEvalZero netifapi_netif_add(netif, &ipaddr, &netmask, &gw, dev, eth_netif_device_init, tcpip_input);
240*10465441SEvalZero }
241*10465441SEvalZero
242*10465441SEvalZero return RT_EOK;
243*10465441SEvalZero }
244*10465441SEvalZero
eth_device_init(struct eth_device * dev,char * name)245*10465441SEvalZero rt_err_t eth_device_init(struct eth_device * dev, char *name)
246*10465441SEvalZero {
247*10465441SEvalZero rt_uint16_t flags = NETIF_FLAG_BROADCAST | NETIF_FLAG_ETHARP;
248*10465441SEvalZero
249*10465441SEvalZero #if LWIP_DHCP
250*10465441SEvalZero /* DHCP support */
251*10465441SEvalZero flags |= NETIF_FLAG_DHCP;
252*10465441SEvalZero #endif
253*10465441SEvalZero
254*10465441SEvalZero #if LWIP_IGMP
255*10465441SEvalZero /* IGMP support */
256*10465441SEvalZero flags |= NETIF_FLAG_IGMP;
257*10465441SEvalZero #endif
258*10465441SEvalZero
259*10465441SEvalZero return eth_device_init_with_flag(dev, name, flags);
260*10465441SEvalZero }
261*10465441SEvalZero
262*10465441SEvalZero #ifndef LWIP_NO_RX_THREAD
eth_device_ready(struct eth_device * dev)263*10465441SEvalZero rt_err_t eth_device_ready(struct eth_device* dev)
264*10465441SEvalZero {
265*10465441SEvalZero if (dev->netif)
266*10465441SEvalZero /* post message to Ethernet thread */
267*10465441SEvalZero return rt_mb_send(ð_rx_thread_mb, (rt_uint32_t)dev);
268*10465441SEvalZero else
269*10465441SEvalZero return ERR_OK; /* netif is not initialized yet, just return. */
270*10465441SEvalZero }
271*10465441SEvalZero
eth_device_linkchange(struct eth_device * dev,rt_bool_t up)272*10465441SEvalZero rt_err_t eth_device_linkchange(struct eth_device* dev, rt_bool_t up)
273*10465441SEvalZero {
274*10465441SEvalZero rt_uint32_t level;
275*10465441SEvalZero
276*10465441SEvalZero RT_ASSERT(dev != RT_NULL);
277*10465441SEvalZero
278*10465441SEvalZero level = rt_hw_interrupt_disable();
279*10465441SEvalZero dev->link_changed = 0x01;
280*10465441SEvalZero if (up == RT_TRUE)
281*10465441SEvalZero dev->link_status = 0x01;
282*10465441SEvalZero else
283*10465441SEvalZero dev->link_status = 0x00;
284*10465441SEvalZero rt_hw_interrupt_enable(level);
285*10465441SEvalZero
286*10465441SEvalZero /* post message to ethernet thread */
287*10465441SEvalZero return rt_mb_send(ð_rx_thread_mb, (rt_uint32_t)dev);
288*10465441SEvalZero }
289*10465441SEvalZero #else
290*10465441SEvalZero /* NOTE: please not use it in interrupt when no RxThread exist */
eth_device_linkchange(struct eth_device * dev,rt_bool_t up)291*10465441SEvalZero rt_err_t eth_device_linkchange(struct eth_device* dev, rt_bool_t up)
292*10465441SEvalZero {
293*10465441SEvalZero if (up == RT_TRUE)
294*10465441SEvalZero netifapi_netif_set_link_up(dev->netif);
295*10465441SEvalZero else
296*10465441SEvalZero netifapi_netif_set_link_down(dev->netif);
297*10465441SEvalZero
298*10465441SEvalZero return RT_EOK;
299*10465441SEvalZero }
300*10465441SEvalZero #endif
301*10465441SEvalZero
302*10465441SEvalZero #ifndef LWIP_NO_TX_THREAD
303*10465441SEvalZero /* Ethernet Tx Thread */
eth_tx_thread_entry(void * parameter)304*10465441SEvalZero static void eth_tx_thread_entry(void* parameter)
305*10465441SEvalZero {
306*10465441SEvalZero struct eth_tx_msg* msg;
307*10465441SEvalZero
308*10465441SEvalZero while (1)
309*10465441SEvalZero {
310*10465441SEvalZero if (rt_mb_recv(ð_tx_thread_mb, (rt_ubase_t*)&msg, RT_WAITING_FOREVER) == RT_EOK)
311*10465441SEvalZero {
312*10465441SEvalZero struct eth_device* enetif;
313*10465441SEvalZero
314*10465441SEvalZero RT_ASSERT(msg->netif != RT_NULL);
315*10465441SEvalZero RT_ASSERT(msg->buf != RT_NULL);
316*10465441SEvalZero
317*10465441SEvalZero enetif = (struct eth_device*)msg->netif->state;
318*10465441SEvalZero if (enetif != RT_NULL)
319*10465441SEvalZero {
320*10465441SEvalZero /* call driver's interface */
321*10465441SEvalZero if (enetif->eth_tx(&(enetif->parent), msg->buf) != RT_EOK)
322*10465441SEvalZero {
323*10465441SEvalZero /* transmit eth packet failed */
324*10465441SEvalZero }
325*10465441SEvalZero }
326*10465441SEvalZero
327*10465441SEvalZero /* send ACK */
328*10465441SEvalZero rt_sem_release(&(enetif->tx_ack));
329*10465441SEvalZero }
330*10465441SEvalZero }
331*10465441SEvalZero }
332*10465441SEvalZero #endif
333*10465441SEvalZero
334*10465441SEvalZero #ifndef LWIP_NO_RX_THREAD
335*10465441SEvalZero /* Ethernet Rx Thread */
eth_rx_thread_entry(void * parameter)336*10465441SEvalZero static void eth_rx_thread_entry(void* parameter)
337*10465441SEvalZero {
338*10465441SEvalZero struct eth_device* device;
339*10465441SEvalZero
340*10465441SEvalZero while (1)
341*10465441SEvalZero {
342*10465441SEvalZero if (rt_mb_recv(ð_rx_thread_mb, (rt_ubase_t*)&device, RT_WAITING_FOREVER) == RT_EOK)
343*10465441SEvalZero {
344*10465441SEvalZero struct pbuf *p;
345*10465441SEvalZero
346*10465441SEvalZero /* check link status */
347*10465441SEvalZero if (device->link_changed)
348*10465441SEvalZero {
349*10465441SEvalZero int status;
350*10465441SEvalZero rt_uint32_t level;
351*10465441SEvalZero
352*10465441SEvalZero level = rt_hw_interrupt_disable();
353*10465441SEvalZero status = device->link_status;
354*10465441SEvalZero device->link_changed = 0x00;
355*10465441SEvalZero rt_hw_interrupt_enable(level);
356*10465441SEvalZero
357*10465441SEvalZero if (status)
358*10465441SEvalZero netifapi_netif_set_link_up(device->netif);
359*10465441SEvalZero else
360*10465441SEvalZero netifapi_netif_set_link_down(device->netif);
361*10465441SEvalZero }
362*10465441SEvalZero
363*10465441SEvalZero /* receive all of buffer */
364*10465441SEvalZero while (1)
365*10465441SEvalZero {
366*10465441SEvalZero if(device->eth_rx == RT_NULL) break;
367*10465441SEvalZero
368*10465441SEvalZero p = device->eth_rx(&(device->parent));
369*10465441SEvalZero if (p != RT_NULL)
370*10465441SEvalZero {
371*10465441SEvalZero /* notify to upper layer */
372*10465441SEvalZero if( device->netif->input(p, device->netif) != ERR_OK )
373*10465441SEvalZero {
374*10465441SEvalZero LWIP_DEBUGF(NETIF_DEBUG, ("ethernetif_input: Input error\n"));
375*10465441SEvalZero pbuf_free(p);
376*10465441SEvalZero p = NULL;
377*10465441SEvalZero }
378*10465441SEvalZero }
379*10465441SEvalZero else break;
380*10465441SEvalZero }
381*10465441SEvalZero }
382*10465441SEvalZero else
383*10465441SEvalZero {
384*10465441SEvalZero LWIP_ASSERT("Should not happen!\n",0);
385*10465441SEvalZero }
386*10465441SEvalZero }
387*10465441SEvalZero }
388*10465441SEvalZero #endif
389*10465441SEvalZero
eth_system_device_init(void)390*10465441SEvalZero int eth_system_device_init(void)
391*10465441SEvalZero {
392*10465441SEvalZero rt_err_t result = RT_EOK;
393*10465441SEvalZero
394*10465441SEvalZero /* initialize Rx thread. */
395*10465441SEvalZero #ifndef LWIP_NO_RX_THREAD
396*10465441SEvalZero /* initialize mailbox and create Ethernet Rx thread */
397*10465441SEvalZero result = rt_mb_init(ð_rx_thread_mb, "erxmb",
398*10465441SEvalZero ð_rx_thread_mb_pool[0], sizeof(eth_rx_thread_mb_pool)/4,
399*10465441SEvalZero RT_IPC_FLAG_FIFO);
400*10465441SEvalZero RT_ASSERT(result == RT_EOK);
401*10465441SEvalZero
402*10465441SEvalZero result = rt_thread_init(ð_rx_thread, "erx", eth_rx_thread_entry, RT_NULL,
403*10465441SEvalZero ð_rx_thread_stack[0], sizeof(eth_rx_thread_stack),
404*10465441SEvalZero RT_ETHERNETIF_THREAD_PREORITY, 16);
405*10465441SEvalZero RT_ASSERT(result == RT_EOK);
406*10465441SEvalZero result = rt_thread_startup(ð_rx_thread);
407*10465441SEvalZero RT_ASSERT(result == RT_EOK);
408*10465441SEvalZero #endif
409*10465441SEvalZero
410*10465441SEvalZero /* initialize Tx thread */
411*10465441SEvalZero #ifndef LWIP_NO_TX_THREAD
412*10465441SEvalZero /* initialize mailbox and create Ethernet Tx thread */
413*10465441SEvalZero result = rt_mb_init(ð_tx_thread_mb, "etxmb",
414*10465441SEvalZero ð_tx_thread_mb_pool[0], sizeof(eth_tx_thread_mb_pool)/4,
415*10465441SEvalZero RT_IPC_FLAG_FIFO);
416*10465441SEvalZero RT_ASSERT(result == RT_EOK);
417*10465441SEvalZero
418*10465441SEvalZero result = rt_thread_init(ð_tx_thread, "etx", eth_tx_thread_entry, RT_NULL,
419*10465441SEvalZero ð_tx_thread_stack[0], sizeof(eth_tx_thread_stack),
420*10465441SEvalZero RT_ETHERNETIF_THREAD_PREORITY, 16);
421*10465441SEvalZero RT_ASSERT(result == RT_EOK);
422*10465441SEvalZero
423*10465441SEvalZero result = rt_thread_startup(ð_tx_thread);
424*10465441SEvalZero RT_ASSERT(result == RT_EOK);
425*10465441SEvalZero #endif
426*10465441SEvalZero
427*10465441SEvalZero return (int)result;
428*10465441SEvalZero }
429*10465441SEvalZero INIT_PREV_EXPORT(eth_system_device_init);
430*10465441SEvalZero
431*10465441SEvalZero #ifdef RT_USING_FINSH
432*10465441SEvalZero #include <finsh.h>
set_if(char * netif_name,char * ip_addr,char * gw_addr,char * nm_addr)433*10465441SEvalZero void set_if(char* netif_name, char* ip_addr, char* gw_addr, char* nm_addr)
434*10465441SEvalZero {
435*10465441SEvalZero struct ip_addr *ip;
436*10465441SEvalZero struct ip_addr addr;
437*10465441SEvalZero struct netif * netif = netif_list;
438*10465441SEvalZero
439*10465441SEvalZero if(strlen(netif_name) > sizeof(netif->name))
440*10465441SEvalZero {
441*10465441SEvalZero rt_kprintf("network interface name too long!\r\n");
442*10465441SEvalZero return;
443*10465441SEvalZero }
444*10465441SEvalZero
445*10465441SEvalZero while(netif != RT_NULL)
446*10465441SEvalZero {
447*10465441SEvalZero if(strncmp(netif_name, netif->name, sizeof(netif->name)) == 0)
448*10465441SEvalZero break;
449*10465441SEvalZero
450*10465441SEvalZero netif = netif->next;
451*10465441SEvalZero if( netif == RT_NULL )
452*10465441SEvalZero {
453*10465441SEvalZero rt_kprintf("network interface: %s not found!\r\n", netif_name);
454*10465441SEvalZero return;
455*10465441SEvalZero }
456*10465441SEvalZero }
457*10465441SEvalZero
458*10465441SEvalZero ip = (struct ip_addr *)&addr;
459*10465441SEvalZero
460*10465441SEvalZero /* set ip address */
461*10465441SEvalZero if ((ip_addr != RT_NULL) && ipaddr_aton(ip_addr, &addr))
462*10465441SEvalZero {
463*10465441SEvalZero netif_set_ipaddr(netif, ip);
464*10465441SEvalZero }
465*10465441SEvalZero
466*10465441SEvalZero /* set gateway address */
467*10465441SEvalZero if ((gw_addr != RT_NULL) && ipaddr_aton(gw_addr, &addr))
468*10465441SEvalZero {
469*10465441SEvalZero netif_set_gw(netif, ip);
470*10465441SEvalZero }
471*10465441SEvalZero
472*10465441SEvalZero /* set netmask address */
473*10465441SEvalZero if ((nm_addr != RT_NULL) && ipaddr_aton(nm_addr, &addr))
474*10465441SEvalZero {
475*10465441SEvalZero netif_set_netmask(netif, ip);
476*10465441SEvalZero }
477*10465441SEvalZero }
478*10465441SEvalZero FINSH_FUNCTION_EXPORT(set_if, set network interface address);
479*10465441SEvalZero
480*10465441SEvalZero #if LWIP_DNS
481*10465441SEvalZero #include <lwip/dns.h>
set_dns(char * dns_server)482*10465441SEvalZero void set_dns(char* dns_server)
483*10465441SEvalZero {
484*10465441SEvalZero struct ip_addr addr;
485*10465441SEvalZero
486*10465441SEvalZero if ((dns_server != RT_NULL) && ipaddr_aton(dns_server, &addr))
487*10465441SEvalZero {
488*10465441SEvalZero dns_setserver(0, &addr);
489*10465441SEvalZero }
490*10465441SEvalZero }
491*10465441SEvalZero FINSH_FUNCTION_EXPORT(set_dns, set DNS server address);
492*10465441SEvalZero #endif
493*10465441SEvalZero
list_if(void)494*10465441SEvalZero void list_if(void)
495*10465441SEvalZero {
496*10465441SEvalZero rt_ubase_t index;
497*10465441SEvalZero struct netif * netif;
498*10465441SEvalZero
499*10465441SEvalZero rt_enter_critical();
500*10465441SEvalZero
501*10465441SEvalZero netif = netif_list;
502*10465441SEvalZero
503*10465441SEvalZero while( netif != RT_NULL )
504*10465441SEvalZero {
505*10465441SEvalZero rt_kprintf("network interface: %c%c%s\n",
506*10465441SEvalZero netif->name[0],
507*10465441SEvalZero netif->name[1],
508*10465441SEvalZero (netif == netif_default)?" (Default)":"");
509*10465441SEvalZero rt_kprintf("MTU: %d\n", netif->mtu);
510*10465441SEvalZero rt_kprintf("MAC: ");
511*10465441SEvalZero for (index = 0; index < netif->hwaddr_len; index ++)
512*10465441SEvalZero rt_kprintf("%02x ", netif->hwaddr[index]);
513*10465441SEvalZero rt_kprintf("\nFLAGS:");
514*10465441SEvalZero if (netif->flags & NETIF_FLAG_UP) rt_kprintf(" UP");
515*10465441SEvalZero else rt_kprintf(" DOWN");
516*10465441SEvalZero if (netif->flags & NETIF_FLAG_LINK_UP) rt_kprintf(" LINK_UP");
517*10465441SEvalZero else rt_kprintf(" LINK_DOWN");
518*10465441SEvalZero if (netif->flags & NETIF_FLAG_DHCP) rt_kprintf(" DHCP");
519*10465441SEvalZero if (netif->flags & NETIF_FLAG_POINTTOPOINT) rt_kprintf(" PPP");
520*10465441SEvalZero if (netif->flags & NETIF_FLAG_ETHARP) rt_kprintf(" ETHARP");
521*10465441SEvalZero if (netif->flags & NETIF_FLAG_IGMP) rt_kprintf(" IGMP");
522*10465441SEvalZero rt_kprintf("\n");
523*10465441SEvalZero rt_kprintf("ip address: %s\n", ipaddr_ntoa(&(netif->ip_addr)));
524*10465441SEvalZero rt_kprintf("gw address: %s\n", ipaddr_ntoa(&(netif->gw)));
525*10465441SEvalZero rt_kprintf("net mask : %s\n", ipaddr_ntoa(&(netif->netmask)));
526*10465441SEvalZero rt_kprintf("\r\n");
527*10465441SEvalZero
528*10465441SEvalZero netif = netif->next;
529*10465441SEvalZero }
530*10465441SEvalZero
531*10465441SEvalZero #if LWIP_DNS
532*10465441SEvalZero {
533*10465441SEvalZero struct ip_addr ip_addr;
534*10465441SEvalZero
535*10465441SEvalZero for(index=0; index<DNS_MAX_SERVERS; index++)
536*10465441SEvalZero {
537*10465441SEvalZero ip_addr = dns_getserver(index);
538*10465441SEvalZero rt_kprintf("dns server #%d: %s\n", index, ipaddr_ntoa(&(ip_addr)));
539*10465441SEvalZero }
540*10465441SEvalZero }
541*10465441SEvalZero #endif /**< #if LWIP_DNS */
542*10465441SEvalZero
543*10465441SEvalZero rt_exit_critical();
544*10465441SEvalZero }
545*10465441SEvalZero FINSH_FUNCTION_EXPORT(list_if, list network interface information);
546*10465441SEvalZero
547*10465441SEvalZero #if LWIP_TCP
548*10465441SEvalZero #include <lwip/tcp.h>
549*10465441SEvalZero #include <lwip/tcp_impl.h>
550*10465441SEvalZero
list_tcps(void)551*10465441SEvalZero void list_tcps(void)
552*10465441SEvalZero {
553*10465441SEvalZero rt_uint32_t num = 0;
554*10465441SEvalZero struct tcp_pcb *pcb;
555*10465441SEvalZero char local_ip_str[16];
556*10465441SEvalZero char remote_ip_str[16];
557*10465441SEvalZero
558*10465441SEvalZero extern struct tcp_pcb *tcp_active_pcbs;
559*10465441SEvalZero extern union tcp_listen_pcbs_t tcp_listen_pcbs;
560*10465441SEvalZero extern struct tcp_pcb *tcp_tw_pcbs;
561*10465441SEvalZero extern const char *tcp_state_str[];
562*10465441SEvalZero
563*10465441SEvalZero rt_enter_critical();
564*10465441SEvalZero rt_kprintf("Active PCB states:\n");
565*10465441SEvalZero for(pcb = tcp_active_pcbs; pcb != NULL; pcb = pcb->next)
566*10465441SEvalZero {
567*10465441SEvalZero strcpy(local_ip_str, ipaddr_ntoa(&(pcb->local_ip)));
568*10465441SEvalZero strcpy(remote_ip_str, ipaddr_ntoa(&(pcb->remote_ip)));
569*10465441SEvalZero
570*10465441SEvalZero rt_kprintf("#%d %s:%d <==> %s:%d snd_nxt 0x%08X rcv_nxt 0x%08X ",
571*10465441SEvalZero num++,
572*10465441SEvalZero local_ip_str,
573*10465441SEvalZero pcb->local_port,
574*10465441SEvalZero remote_ip_str,
575*10465441SEvalZero pcb->remote_port,
576*10465441SEvalZero pcb->snd_nxt,
577*10465441SEvalZero pcb->rcv_nxt);
578*10465441SEvalZero rt_kprintf("state: %s\n", tcp_state_str[pcb->state]);
579*10465441SEvalZero }
580*10465441SEvalZero
581*10465441SEvalZero rt_kprintf("Listen PCB states:\n");
582*10465441SEvalZero num = 0;
583*10465441SEvalZero for(pcb = (struct tcp_pcb *)tcp_listen_pcbs.pcbs; pcb != NULL; pcb = pcb->next)
584*10465441SEvalZero {
585*10465441SEvalZero rt_kprintf("#%d local port %d ", num++, pcb->local_port);
586*10465441SEvalZero rt_kprintf("state: %s\n", tcp_state_str[pcb->state]);
587*10465441SEvalZero }
588*10465441SEvalZero
589*10465441SEvalZero rt_kprintf("TIME-WAIT PCB states:\n");
590*10465441SEvalZero num = 0;
591*10465441SEvalZero for(pcb = tcp_tw_pcbs; pcb != NULL; pcb = pcb->next)
592*10465441SEvalZero {
593*10465441SEvalZero strcpy(local_ip_str, ipaddr_ntoa(&(pcb->local_ip)));
594*10465441SEvalZero strcpy(remote_ip_str, ipaddr_ntoa(&(pcb->remote_ip)));
595*10465441SEvalZero
596*10465441SEvalZero rt_kprintf("#%d %s:%d <==> %s:%d snd_nxt 0x%08X rcv_nxt 0x%08X ",
597*10465441SEvalZero num++,
598*10465441SEvalZero local_ip_str,
599*10465441SEvalZero pcb->local_port,
600*10465441SEvalZero remote_ip_str,
601*10465441SEvalZero pcb->remote_port,
602*10465441SEvalZero pcb->snd_nxt,
603*10465441SEvalZero pcb->rcv_nxt);
604*10465441SEvalZero rt_kprintf("state: %s\n", tcp_state_str[pcb->state]);
605*10465441SEvalZero }
606*10465441SEvalZero rt_exit_critical();
607*10465441SEvalZero }
608*10465441SEvalZero FINSH_FUNCTION_EXPORT(list_tcps, list all of tcp connections);
609*10465441SEvalZero #endif
610*10465441SEvalZero
611*10465441SEvalZero #if LWIP_UDP
612*10465441SEvalZero #include "lwip/udp.h"
list_udps(void)613*10465441SEvalZero void list_udps(void)
614*10465441SEvalZero {
615*10465441SEvalZero struct udp_pcb *pcb;
616*10465441SEvalZero rt_uint32_t num = 0;
617*10465441SEvalZero char local_ip_str[16];
618*10465441SEvalZero char remote_ip_str[16];
619*10465441SEvalZero
620*10465441SEvalZero rt_enter_critical();
621*10465441SEvalZero rt_kprintf("Active UDP PCB states:\n");
622*10465441SEvalZero for (pcb = udp_pcbs; pcb != NULL; pcb = pcb->next)
623*10465441SEvalZero {
624*10465441SEvalZero strcpy(local_ip_str, ipaddr_ntoa(&(pcb->local_ip)));
625*10465441SEvalZero strcpy(remote_ip_str, ipaddr_ntoa(&(pcb->remote_ip)));
626*10465441SEvalZero
627*10465441SEvalZero rt_kprintf("#%d %d %s:%d <==> %s:%d \n",
628*10465441SEvalZero num, (int)pcb->flags,
629*10465441SEvalZero local_ip_str,
630*10465441SEvalZero pcb->local_port,
631*10465441SEvalZero remote_ip_str,
632*10465441SEvalZero pcb->remote_port);
633*10465441SEvalZero
634*10465441SEvalZero num++;
635*10465441SEvalZero }
636*10465441SEvalZero rt_exit_critical();
637*10465441SEvalZero }
638*10465441SEvalZero FINSH_FUNCTION_EXPORT(list_udps, list all of udp connections);
639*10465441SEvalZero #endif /* LWIP_UDP */
640*10465441SEvalZero
641*10465441SEvalZero #endif
642