405 lines
9.0 KiB
C
405 lines
9.0 KiB
C
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#include <stdlib.h>
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#include <minix/sysutil.h>
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#include <sys/ioc_net.h>
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#include <net/gen/in.h>
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#include <net/gen/udp.h>
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#include <net/gen/udp_io.h>
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#include <net/gen/udp_io_hdr.h>
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#include <lwip/udp.h>
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#include <lwip/ip_addr.h>
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#include <minix/netsock.h>
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#include "proto.h"
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#define UDP_BUF_SIZE (4 << 10)
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#define sock_alloc_buf(s) debug_malloc(s)
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#define sock_free_buf(x) debug_free(x)
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#if 0
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#define debug_udp_print(str, ...) printf("LWIP %s:%d : " str "\n", \
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__func__, __LINE__, ##__VA_ARGS__)
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#else
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#define debug_udp_print(...) debug_print(__VA_ARGS__)
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#endif
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struct udp_recv_data {
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ip_addr_t ip;
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u16_t port;
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struct pbuf * pbuf;
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};
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#define udp_recv_alloc() debug_malloc(sizeof(struct udp_recv_data))
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static void udp_recv_free(void * data)
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{
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if (((struct udp_recv_data *)data)->pbuf)
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pbuf_free(((struct udp_recv_data *)data)->pbuf);
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debug_free(data);
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}
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static int udp_op_open(struct socket * sock)
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{
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struct udp_pcb * pcb;
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debug_udp_print("socket num %ld", get_sock_num(sock));
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if (!(pcb = udp_new()))
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return ENOMEM;
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sock->buf = NULL;
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sock->buf_size = 0;
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sock->pcb = pcb;
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return OK;
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}
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static int udp_op_close(struct socket * sock)
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{
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debug_udp_print("socket num %ld", get_sock_num(sock));
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/* deque and free all enqueued data before closing */
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sock_dequeue_data_all(sock, udp_recv_free);
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if (sock->pcb)
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udp_remove(sock->pcb);
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assert(sock->buf == NULL);
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/* mark it as unused */
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sock->ops = NULL;
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return OK;
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}
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static int udp_do_receive(struct socket * sock,
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struct sock_req * req,
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struct udp_pcb *pcb,
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struct pbuf *pbuf,
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ip_addr_t *addr,
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u16_t port)
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{
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struct pbuf * p;
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size_t rem_len = req->size;
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unsigned int written = 0, hdr_sz = 0;
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int err;
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debug_udp_print("user buffer size : %u", rem_len);
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/* FIXME make it both a single copy */
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if (!(sock->usr_flags & NWUO_RWDATONLY)) {
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udp_io_hdr_t hdr;
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hdr.uih_src_addr = addr->addr;
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hdr.uih_src_port = htons(port);
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hdr.uih_dst_addr = pcb->local_ip.addr;
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hdr.uih_dst_port = htons(pcb->local_port);
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hdr.uih_data_len = 0;
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hdr.uih_ip_opt_len = 0;
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err = copy_to_user(req->endpt, &hdr, sizeof(hdr), req->grant,
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0);
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if (err != OK)
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return err;
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rem_len -= (hdr_sz = sizeof(hdr));
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}
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for (p = pbuf; p && rem_len; p = p->next) {
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size_t cp_len;
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cp_len = (rem_len < p->len) ? rem_len : p->len;
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err = copy_to_user(req->endpt, p->payload, cp_len, req->grant,
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hdr_sz + written);
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if (err != OK)
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return err;
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written += cp_len;
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rem_len -= cp_len;
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}
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debug_udp_print("copied %d bytes", written + hdr_sz);
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return written + hdr_sz;
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}
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static void udp_recv_callback(void *arg,
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struct udp_pcb *pcb,
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struct pbuf *pbuf,
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ip_addr_t *addr,
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u16_t port)
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{
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struct socket * sock = (struct socket *) arg;
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struct udp_recv_data * data;
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debug_udp_print("socket num : %ld addr : %x port : %d\n",
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get_sock_num(sock), (unsigned int) addr->addr, port);
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if (sock->flags & SOCK_FLG_OP_PENDING) {
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/* we are resuming a suspended operation */
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int ret;
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ret = udp_do_receive(sock, &sock->req, pcb, pbuf, addr, port);
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send_req_reply(&sock->req, ret);
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sock->flags &= ~SOCK_FLG_OP_PENDING;
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if (ret > 0) {
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pbuf_free(pbuf);
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return;
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}
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}
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/* Do not enqueue more data than allowed */
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if (sock->recv_data_size > UDP_BUF_SIZE) {
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pbuf_free(pbuf);
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return;
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}
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/*
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* nobody is waiting for the data or an error occured above, we enqueue
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* the packet
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*/
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if (!(data = udp_recv_alloc())) {
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pbuf_free(pbuf);
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return;
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}
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data->ip = *addr;
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data->port = port;
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data->pbuf = pbuf;
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if (sock_enqueue_data(sock, data, data->pbuf->tot_len) != OK) {
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udp_recv_free(data);
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return;
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}
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/*
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* We don't need to notify when somebody is already waiting, reviving
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* read operation will do the trick for us. But we must announce new
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* data available here.
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*/
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if (sock_select_read_set(sock))
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sock_select_notify(sock);
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}
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static int udp_op_read(struct socket * sock, struct sock_req * req, int blk)
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{
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debug_udp_print("socket num %ld", get_sock_num(sock));
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if (sock->recv_head) {
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/* data available receive immeditely */
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struct udp_recv_data * data;
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int ret;
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data = (struct udp_recv_data *) sock->recv_head->data;
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ret = udp_do_receive(sock, req, (struct udp_pcb *) sock->pcb,
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data->pbuf, &data->ip, data->port);
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if (ret > 0) {
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sock_dequeue_data(sock);
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sock->recv_data_size -= data->pbuf->tot_len;
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udp_recv_free(data);
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}
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return ret;
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} else if (!blk)
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return EAGAIN;
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else {
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/* store the message so we know how to reply */
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sock->req = *req;
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/* operation is being processes */
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sock->flags |= SOCK_FLG_OP_PENDING;
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debug_udp_print("no data to read, suspending\n");
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return EDONTREPLY;
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}
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}
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static int udp_op_send(struct socket * sock,
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struct pbuf * pbuf,
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size_t size)
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{
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int err;
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debug_udp_print("pbuf len %d\n", pbuf->len);
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if ((err = udp_send(sock->pcb, pbuf)) == ERR_OK)
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return size;
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else {
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debug_udp_print("udp_send failed %d", err);
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return EIO;
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}
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}
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static int udp_op_sendto(struct socket * sock, struct pbuf * pbuf, size_t size)
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{
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int err;
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udp_io_hdr_t hdr;
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hdr = *(udp_io_hdr_t *) pbuf->payload;
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pbuf_header(pbuf, -(s16_t)sizeof(udp_io_hdr_t));
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debug_udp_print("data len %d pbuf len %d\n",
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hdr.uih_data_len, pbuf->len);
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if ((err = udp_sendto(sock->pcb, pbuf, (ip_addr_t *) &hdr.uih_dst_addr,
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ntohs(hdr.uih_dst_port))) == ERR_OK)
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return size;
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else {
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debug_udp_print("udp_sendto failed %d", err);
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return EIO;
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}
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}
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static int udp_op_write(struct socket * sock, struct sock_req * req,
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__unused int blk)
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{
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int ret;
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struct pbuf * pbuf;
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debug_udp_print("socket num %ld data size %u",
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get_sock_num(sock), req->size);
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pbuf = pbuf_alloc(PBUF_TRANSPORT, req->size, PBUF_POOL);
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if (!pbuf)
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return ENOMEM;
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if ((ret = copy_from_user(req->endpt, pbuf->payload, req->size,
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req->grant, 0)) != OK) {
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pbuf_free(pbuf);
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return ret;
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}
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if (sock->usr_flags & NWUO_RWDATONLY)
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ret = udp_op_send(sock, pbuf, req->size);
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else
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ret = udp_op_sendto(sock, pbuf, req->size);
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if (pbuf_free(pbuf) == 0) {
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panic("We cannot buffer udp packets yet!");
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}
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return ret;
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}
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static int udp_set_opt(struct socket * sock, endpoint_t endpt,
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cp_grant_id_t grant)
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{
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int err;
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nwio_udpopt_t udpopt;
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struct udp_pcb * pcb = (struct udp_pcb *) sock->pcb;
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ip_addr_t loc_ip = ip_addr_any;
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assert(pcb);
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err = copy_from_user(endpt, &udpopt, sizeof(udpopt), grant, 0);
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if (err != OK)
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return err;
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debug_udp_print("udpopt.nwuo_flags = 0x%lx", udpopt.nwuo_flags);
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debug_udp_print("udpopt.nwuo_remaddr = 0x%x",
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(unsigned int) udpopt.nwuo_remaddr);
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debug_udp_print("udpopt.nwuo_remport = 0x%x",
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ntohs(udpopt.nwuo_remport));
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debug_udp_print("udpopt.nwuo_locaddr = 0x%x",
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(unsigned int) udpopt.nwuo_locaddr);
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debug_udp_print("udpopt.nwuo_locport = 0x%x",
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ntohs(udpopt.nwuo_locport));
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sock->usr_flags = udpopt.nwuo_flags;
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/*
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* We will only get data from userspace and the remote address
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* and port are being set which means that from now on we must
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* know where to send data. Thus we should interpret this as
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* connect() call
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*/
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if (sock->usr_flags & NWUO_RWDATONLY &&
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sock->usr_flags & NWUO_RP_SET &&
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sock->usr_flags & NWUO_RA_SET)
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udp_connect(pcb, (ip_addr_t *) &udpopt.nwuo_remaddr,
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ntohs(udpopt.nwuo_remport));
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/* Setting local address means binding */
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if (sock->usr_flags & NWUO_LP_SET)
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udp_bind(pcb, &loc_ip, ntohs(udpopt.nwuo_locport));
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/* We can only bind to random local port */
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if (sock->usr_flags & NWUO_LP_SEL)
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udp_bind(pcb, &loc_ip, 0);
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/* register a receive hook */
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udp_recv((struct udp_pcb *) sock->pcb, udp_recv_callback, sock);
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return OK;
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}
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static int udp_get_opt(struct socket * sock, endpoint_t endpt,
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cp_grant_id_t grant)
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{
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nwio_udpopt_t udpopt;
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struct udp_pcb * pcb = (struct udp_pcb *) sock->pcb;
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assert(pcb);
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udpopt.nwuo_locaddr = pcb->local_ip.addr;
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udpopt.nwuo_locport = htons(pcb->local_port);
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udpopt.nwuo_remaddr = pcb->remote_ip.addr;
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udpopt.nwuo_remport = htons(pcb->remote_port);
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udpopt.nwuo_flags = sock->usr_flags;
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debug_udp_print("udpopt.nwuo_flags = 0x%lx", udpopt.nwuo_flags);
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debug_udp_print("udpopt.nwuo_remaddr = 0x%x",
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(unsigned int) udpopt.nwuo_remaddr);
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debug_udp_print("udpopt.nwuo_remport = 0x%x",
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ntohs(udpopt.nwuo_remport));
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debug_udp_print("udpopt.nwuo_locaddr = 0x%x",
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(unsigned int) udpopt.nwuo_locaddr);
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debug_udp_print("udpopt.nwuo_locport = 0x%x",
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ntohs(udpopt.nwuo_locport));
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return copy_to_user(endpt, &udpopt, sizeof(udpopt), grant, 0);
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}
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static int udp_op_ioctl(struct socket * sock, struct sock_req * req,
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__unused int blk)
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{
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int r;
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debug_udp_print("socket num %ld req %c %ld %ld",
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get_sock_num(sock),
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(unsigned char) (req->req >> 8),
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req->req & 0xff, _MINIX_IOCTL_SIZE(req->req));
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switch (req->req) {
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case NWIOSUDPOPT:
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r = udp_set_opt(sock, req->endpt, req->grant);
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break;
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case NWIOGUDPOPT:
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r = udp_get_opt(sock, req->endpt, req->grant);
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break;
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default:
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r = ENOTTY;
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}
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return r;
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}
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struct sock_ops sock_udp_ops = {
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.open = udp_op_open,
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.close = udp_op_close,
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.read = udp_op_read,
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.write = udp_op_write,
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.ioctl = udp_op_ioctl,
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.select = generic_op_select,
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.select_reply = generic_op_select_reply
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};
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