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[/] [openrisc/] [trunk/] [rtos/] [freertos-6.1.1/] [Demo/] [lwIP_MCF5235_GCC/] [lwip/] [src/] [api/] [api_lib.c] - Rev 583
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/* * Copyright (c) 2001-2004 Swedish Institute of Computer Science. * All rights reserved. * * Redistribution and use in source and binary forms, with or without modification, * are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, * this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * 3. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT * SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT * OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY * OF SUCH DAMAGE. * * This file is part of the lwIP TCP/IP stack. * * Author: Adam Dunkels <adam@sics.se> * */ /* This is the part of the API that is linked with the application */ #include "lwip/opt.h" #include "lwip/api.h" #include "lwip/api_msg.h" #include "lwip/memp.h" struct netbuf *netbuf_new(void) { struct netbuf *buf; buf = memp_malloc(MEMP_NETBUF); if (buf != NULL) { buf->p = NULL; buf->ptr = NULL; return buf; } else { return NULL; } } void netbuf_delete(struct netbuf *buf) { if (buf != NULL) { if (buf->p != NULL) { pbuf_free(buf->p); buf->p = buf->ptr = NULL; } memp_free(MEMP_NETBUF, buf); } } void * netbuf_alloc(struct netbuf *buf, u16_t size) { /* Deallocate any previously allocated memory. */ if (buf->p != NULL) { pbuf_free(buf->p); } buf->p = pbuf_alloc(PBUF_TRANSPORT, size, PBUF_RAM); if (buf->p == NULL) { return NULL; } buf->ptr = buf->p; return buf->p->payload; } void netbuf_free(struct netbuf *buf) { if (buf->p != NULL) { pbuf_free(buf->p); } buf->p = buf->ptr = NULL; } void netbuf_ref(struct netbuf *buf, void *dataptr, u16_t size) { if (buf->p != NULL) { pbuf_free(buf->p); } buf->p = pbuf_alloc(PBUF_TRANSPORT, 0, PBUF_REF); buf->p->payload = dataptr; buf->p->len = buf->p->tot_len = size; buf->ptr = buf->p; } void netbuf_chain(struct netbuf *head, struct netbuf *tail) { pbuf_chain(head->p, tail->p); head->ptr = head->p; memp_free(MEMP_NETBUF, tail); } u16_t netbuf_len(struct netbuf *buf) { return buf->p->tot_len; } err_t netbuf_data(struct netbuf *buf, void **dataptr, u16_t *len) { if (buf->ptr == NULL) { return ERR_BUF; } *dataptr = buf->ptr->payload; *len = buf->ptr->len; return ERR_OK; } s8_t netbuf_next(struct netbuf *buf) { if (buf->ptr->next == NULL) { return -1; } buf->ptr = buf->ptr->next; if (buf->ptr->next == NULL) { return 1; } return 0; } void netbuf_first(struct netbuf *buf) { buf->ptr = buf->p; } void netbuf_copy_partial(struct netbuf *buf, void *dataptr, u16_t len, u16_t offset) { struct pbuf *p; u16_t i, left; left = 0; if(buf == NULL || dataptr == NULL) { return; } /* This implementation is bad. It should use bcopy instead. */ for(p = buf->p; left < len && p != NULL; p = p->next) { if (offset != 0 && offset >= p->len) { offset -= p->len; } else { for(i = offset; i < p->len; ++i) { ((u8_t *)dataptr)[left] = ((u8_t *)p->payload)[i]; if (++left >= len) { return; } } offset = 0; } } } void netbuf_copy(struct netbuf *buf, void *dataptr, u16_t len) { netbuf_copy_partial(buf, dataptr, len, 0); } struct ip_addr * netbuf_fromaddr(struct netbuf *buf) { return buf->fromaddr; } u16_t netbuf_fromport(struct netbuf *buf) { return buf->fromport; } struct netconn *netconn_new_with_proto_and_callback(enum netconn_type t, u16_t proto, void (*callback)(struct netconn *, enum netconn_evt, u16_t len)) { struct netconn *conn; struct api_msg *msg; conn = memp_malloc(MEMP_NETCONN); if (conn == NULL) { return NULL; } conn->err = ERR_OK; conn->type = t; conn->pcb.tcp = NULL; if ((conn->mbox = sys_mbox_new()) == SYS_MBOX_NULL) { memp_free(MEMP_NETCONN, conn); return NULL; } conn->recvmbox = SYS_MBOX_NULL; conn->acceptmbox = SYS_MBOX_NULL; conn->sem = SYS_SEM_NULL; conn->state = NETCONN_NONE; conn->socket = 0; conn->callback = callback; conn->recv_avail = 0; if((msg = memp_malloc(MEMP_API_MSG)) == NULL) { memp_free(MEMP_NETCONN, conn); return NULL; } msg->type = API_MSG_NEWCONN; msg->msg.msg.bc.port = proto; /* misusing the port field */ msg->msg.conn = conn; api_msg_post(msg); sys_mbox_fetch(conn->mbox, NULL); memp_free(MEMP_API_MSG, msg); if ( conn->err != ERR_OK ) { memp_free(MEMP_NETCONN, conn); return NULL; } return conn; } struct netconn *netconn_new(enum netconn_type t) { return netconn_new_with_proto_and_callback(t,0,NULL); } struct netconn *netconn_new_with_callback(enum netconn_type t, void (*callback)(struct netconn *, enum netconn_evt, u16_t len)) { return netconn_new_with_proto_and_callback(t,0,callback); } err_t netconn_delete(struct netconn *conn) { struct api_msg *msg; void *mem; if (conn == NULL) { return ERR_OK; } if ((msg = memp_malloc(MEMP_API_MSG)) == NULL) { return ERR_MEM; } msg->type = API_MSG_DELCONN; msg->msg.conn = conn; api_msg_post(msg); sys_mbox_fetch(conn->mbox, NULL); memp_free(MEMP_API_MSG, msg); /* Drain the recvmbox. */ if (conn->recvmbox != SYS_MBOX_NULL) { while (sys_arch_mbox_fetch(conn->recvmbox, &mem, 1) != SYS_ARCH_TIMEOUT) { if (conn->type == NETCONN_TCP) { if(mem != NULL) pbuf_free((struct pbuf *)mem); } else { netbuf_delete((struct netbuf *)mem); } } sys_mbox_free(conn->recvmbox); conn->recvmbox = SYS_MBOX_NULL; } /* Drain the acceptmbox. */ if (conn->acceptmbox != SYS_MBOX_NULL) { while (sys_arch_mbox_fetch(conn->acceptmbox, &mem, 1) != SYS_ARCH_TIMEOUT) { netconn_delete((struct netconn *)mem); } sys_mbox_free(conn->acceptmbox); conn->acceptmbox = SYS_MBOX_NULL; } sys_mbox_free(conn->mbox); conn->mbox = SYS_MBOX_NULL; if (conn->sem != SYS_SEM_NULL) { sys_sem_free(conn->sem); } /* conn->sem = SYS_SEM_NULL;*/ memp_free(MEMP_NETCONN, conn); return ERR_OK; } enum netconn_type netconn_type(struct netconn *conn) { return conn->type; } err_t netconn_peer(struct netconn *conn, struct ip_addr *addr, u16_t *port) { switch (conn->type) { case NETCONN_RAW: /* return an error as connecting is only a helper for upper layers */ return ERR_CONN; case NETCONN_UDPLITE: case NETCONN_UDPNOCHKSUM: case NETCONN_UDP: if (conn->pcb.udp == NULL || ((conn->pcb.udp->flags & UDP_FLAGS_CONNECTED) == 0)) return ERR_CONN; *addr = (conn->pcb.udp->remote_ip); *port = conn->pcb.udp->remote_port; break; case NETCONN_TCP: if (conn->pcb.tcp == NULL) return ERR_CONN; *addr = (conn->pcb.tcp->remote_ip); *port = conn->pcb.tcp->remote_port; break; } return (conn->err = ERR_OK); } err_t netconn_addr(struct netconn *conn, struct ip_addr **addr, u16_t *port) { switch (conn->type) { case NETCONN_RAW: *addr = &(conn->pcb.raw->local_ip); *port = conn->pcb.raw->protocol; break; case NETCONN_UDPLITE: case NETCONN_UDPNOCHKSUM: case NETCONN_UDP: *addr = &(conn->pcb.udp->local_ip); *port = conn->pcb.udp->local_port; break; case NETCONN_TCP: *addr = &(conn->pcb.tcp->local_ip); *port = conn->pcb.tcp->local_port; break; } return (conn->err = ERR_OK); } err_t netconn_bind(struct netconn *conn, struct ip_addr *addr, u16_t port) { struct api_msg *msg; if (conn == NULL) { return ERR_VAL; } if (conn->type != NETCONN_TCP && conn->recvmbox == SYS_MBOX_NULL) { if ((conn->recvmbox = sys_mbox_new()) == SYS_MBOX_NULL) { return ERR_MEM; } } if ((msg = memp_malloc(MEMP_API_MSG)) == NULL) { return (conn->err = ERR_MEM); } msg->type = API_MSG_BIND; msg->msg.conn = conn; msg->msg.msg.bc.ipaddr = addr; msg->msg.msg.bc.port = port; api_msg_post(msg); sys_mbox_fetch(conn->mbox, NULL); memp_free(MEMP_API_MSG, msg); return conn->err; } err_t netconn_connect(struct netconn *conn, struct ip_addr *addr, u16_t port) { struct api_msg *msg; if (conn == NULL) { return ERR_VAL; } if (conn->recvmbox == SYS_MBOX_NULL) { if ((conn->recvmbox = sys_mbox_new()) == SYS_MBOX_NULL) { return ERR_MEM; } } if ((msg = memp_malloc(MEMP_API_MSG)) == NULL) { return ERR_MEM; } msg->type = API_MSG_CONNECT; msg->msg.conn = conn; msg->msg.msg.bc.ipaddr = addr; msg->msg.msg.bc.port = port; api_msg_post(msg); sys_mbox_fetch(conn->mbox, NULL); memp_free(MEMP_API_MSG, msg); return conn->err; } err_t netconn_disconnect(struct netconn *conn) { struct api_msg *msg; if (conn == NULL) { return ERR_VAL; } if ((msg = memp_malloc(MEMP_API_MSG)) == NULL) { return ERR_MEM; } msg->type = API_MSG_DISCONNECT; msg->msg.conn = conn; api_msg_post(msg); sys_mbox_fetch(conn->mbox, NULL); memp_free(MEMP_API_MSG, msg); return conn->err; } err_t netconn_listen(struct netconn *conn) { struct api_msg *msg; if (conn == NULL) { return ERR_VAL; } if (conn->acceptmbox == SYS_MBOX_NULL) { conn->acceptmbox = sys_mbox_new(); if (conn->acceptmbox == SYS_MBOX_NULL) { return ERR_MEM; } } if ((msg = memp_malloc(MEMP_API_MSG)) == NULL) { return (conn->err = ERR_MEM); } msg->type = API_MSG_LISTEN; msg->msg.conn = conn; api_msg_post(msg); sys_mbox_fetch(conn->mbox, NULL); memp_free(MEMP_API_MSG, msg); return conn->err; } struct netconn * netconn_accept(struct netconn *conn) { struct netconn *newconn; if (conn == NULL) { return NULL; } sys_mbox_fetch(conn->acceptmbox, (void **)&newconn); /* Register event with callback */ if (conn->callback) (*conn->callback)(conn, NETCONN_EVT_RCVMINUS, 0); return newconn; } struct netbuf * netconn_recv(struct netconn *conn) { struct api_msg *msg; struct netbuf *buf; struct pbuf *p; u16_t len; if (conn == NULL) { return NULL; } if (conn->recvmbox == SYS_MBOX_NULL) { conn->err = ERR_CONN; return NULL; } if (conn->err != ERR_OK) { return NULL; } if (conn->type == NETCONN_TCP) { if (conn->pcb.tcp->state == LISTEN) { conn->err = ERR_CONN; return NULL; } buf = memp_malloc(MEMP_NETBUF); if (buf == NULL) { conn->err = ERR_MEM; return NULL; } sys_mbox_fetch(conn->recvmbox, (void **)&p); if (p != NULL) { len = p->tot_len; conn->recv_avail -= len; } else len = 0; /* Register event with callback */ if (conn->callback) (*conn->callback)(conn, NETCONN_EVT_RCVMINUS, len); /* If we are closed, we indicate that we no longer wish to receive data by setting conn->recvmbox to SYS_MBOX_NULL. */ if (p == NULL) { memp_free(MEMP_NETBUF, buf); sys_mbox_free(conn->recvmbox); conn->recvmbox = SYS_MBOX_NULL; return NULL; } buf->p = p; buf->ptr = p; buf->fromport = 0; buf->fromaddr = NULL; /* Let the stack know that we have taken the data. */ if ((msg = memp_malloc(MEMP_API_MSG)) == NULL) { conn->err = ERR_MEM; return buf; } msg->type = API_MSG_RECV; msg->msg.conn = conn; if (buf != NULL) { msg->msg.msg.len = buf->p->tot_len; } else { msg->msg.msg.len = 1; } api_msg_post(msg); sys_mbox_fetch(conn->mbox, NULL); memp_free(MEMP_API_MSG, msg); } else { sys_mbox_fetch(conn->recvmbox, (void **)&buf); conn->recv_avail -= buf->p->tot_len; /* Register event with callback */ if (conn->callback) (*conn->callback)(conn, NETCONN_EVT_RCVMINUS, buf->p->tot_len); } LWIP_DEBUGF(API_LIB_DEBUG, ("netconn_recv: received %p (err %d)\n", (void *)buf, conn->err)); return buf; } err_t netconn_send(struct netconn *conn, struct netbuf *buf) { struct api_msg *msg; if (conn == NULL) { return ERR_VAL; } if (conn->err != ERR_OK) { return conn->err; } if ((msg = memp_malloc(MEMP_API_MSG)) == NULL) { return (conn->err = ERR_MEM); } LWIP_DEBUGF(API_LIB_DEBUG, ("netconn_send: sending %d bytes\n", buf->p->tot_len)); msg->type = API_MSG_SEND; msg->msg.conn = conn; msg->msg.msg.p = buf->p; api_msg_post(msg); sys_mbox_fetch(conn->mbox, NULL); memp_free(MEMP_API_MSG, msg); return conn->err; } err_t netconn_write(struct netconn *conn, void *dataptr, u16_t size, u8_t copy) { struct api_msg *msg; u16_t len; if (conn == NULL) { return ERR_VAL; } if (conn->err != ERR_OK) { return conn->err; } if (conn->sem == SYS_SEM_NULL) { conn->sem = sys_sem_new(0); if (conn->sem == SYS_SEM_NULL) { return ERR_MEM; } } if ((msg = memp_malloc(MEMP_API_MSG)) == NULL) { return (conn->err = ERR_MEM); } msg->type = API_MSG_WRITE; msg->msg.conn = conn; conn->state = NETCONN_WRITE; while (conn->err == ERR_OK && size > 0) { msg->msg.msg.w.dataptr = dataptr; msg->msg.msg.w.copy = copy; if (conn->type == NETCONN_TCP) { if (tcp_sndbuf(conn->pcb.tcp) == 0) { sys_sem_wait(conn->sem); if (conn->err != ERR_OK) { goto ret; } } if (size > tcp_sndbuf(conn->pcb.tcp)) { /* We cannot send more than one send buffer's worth of data at a time. */ len = tcp_sndbuf(conn->pcb.tcp); } else { len = size; } } else { len = size; } LWIP_DEBUGF(API_LIB_DEBUG, ("netconn_write: writing %d bytes (%d)\n", len, copy)); msg->msg.msg.w.len = len; api_msg_post(msg); sys_mbox_fetch(conn->mbox, NULL); if (conn->err == ERR_OK) { dataptr = (void *)((u8_t *)dataptr + len); size -= len; } else if (conn->err == ERR_MEM) { conn->err = ERR_OK; sys_sem_wait(conn->sem); } else { goto ret; } } ret: memp_free(MEMP_API_MSG, msg); conn->state = NETCONN_NONE; if (conn->sem != SYS_SEM_NULL) { sys_sem_free(conn->sem); conn->sem = SYS_SEM_NULL; } return conn->err; } err_t netconn_close(struct netconn *conn) { struct api_msg *msg; if (conn == NULL) { return ERR_VAL; } if ((msg = memp_malloc(MEMP_API_MSG)) == NULL) { return (conn->err = ERR_MEM); } conn->state = NETCONN_CLOSE; again: msg->type = API_MSG_CLOSE; msg->msg.conn = conn; api_msg_post(msg); sys_mbox_fetch(conn->mbox, NULL); if (conn->err == ERR_MEM && conn->sem != SYS_SEM_NULL) { sys_sem_wait(conn->sem); goto again; } conn->state = NETCONN_NONE; memp_free(MEMP_API_MSG, msg); return conn->err; } err_t netconn_err(struct netconn *conn) { return conn->err; }