/* * GRUB -- GRand Unified Bootloader * Copyright (C) 2010,2011 Free Software Foundation, Inc. * * GRUB 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. * * GRUB 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 GRUB. If not, see . */ #include #include #include #include #include #include #define TCP_SYN_RETRANSMISSION_TIMEOUT GRUB_NET_INTERVAL #define TCP_SYN_RETRANSMISSION_COUNT GRUB_NET_TRIES #define TCP_RETRANSMISSION_TIMEOUT GRUB_NET_INTERVAL #define TCP_RETRANSMISSION_COUNT GRUB_NET_TRIES struct unacked { struct unacked *next; struct grub_net_buff *nb; grub_uint64_t last_try; int try_count; }; enum { TCP_FIN = 0x1, TCP_SYN = 0x2, TCP_RST = 0x4, TCP_PUSH = 0x8, TCP_ACK = 0x10, TCP_URG = 0x20, }; struct grub_net_tcp_socket { struct grub_net_tcp_socket *next; int established; int i_closed; int they_closed; int in_port; int out_port; int errors; int they_reseted; int i_reseted; grub_uint32_t my_start_seq; grub_uint32_t my_cur_seq; grub_uint32_t their_start_seq; grub_uint32_t their_cur_seq; grub_uint16_t my_window; struct unacked *unack_first; struct unacked *unack_last; grub_err_t (*recv_hook) (grub_net_tcp_socket_t sock, struct grub_net_buff *nb, void *recv); void (*error_hook) (grub_net_tcp_socket_t sock, void *recv); void (*fin_hook) (grub_net_tcp_socket_t sock, void *recv); void *hook_data; grub_net_network_level_address_t out_nla, gw; struct grub_net_network_level_interface *inf; grub_net_packets_t packs; grub_priority_queue_t pq; }; struct grub_net_tcp_listen { struct grub_net_tcp_listen *next; grub_uint16_t port; const struct grub_net_network_level_interface *inf; grub_err_t (*listen_hook) (grub_net_tcp_listen_t listen, grub_net_tcp_socket_t sock, void *data); void *hook_data; }; struct tcphdr { grub_uint16_t src; grub_uint16_t dst; grub_uint32_t seqnr; grub_uint32_t ack; grub_uint16_t flags; grub_uint16_t window; grub_uint16_t checksum; grub_uint16_t urgent; } __attribute__ ((packed)); struct tcp_pseudohdr { grub_uint32_t src; grub_uint32_t dst; grub_uint8_t zero; grub_uint8_t proto; grub_uint16_t tcp_length; } __attribute__ ((packed)); struct tcp6_pseudohdr { grub_uint64_t src[2]; grub_uint64_t dst[2]; grub_uint32_t tcp_length; grub_uint8_t zero[3]; grub_uint8_t proto; } __attribute__ ((packed)); static struct grub_net_tcp_socket *tcp_sockets; static struct grub_net_tcp_listen *tcp_listens; #define FOR_TCP_SOCKETS(var) FOR_LIST_ELEMENTS (var, tcp_sockets) #define FOR_TCP_LISTENS(var) FOR_LIST_ELEMENTS (var, tcp_listens) grub_net_tcp_listen_t grub_net_tcp_listen (grub_uint16_t port, const struct grub_net_network_level_interface *inf, grub_err_t (*listen_hook) (grub_net_tcp_listen_t listen, grub_net_tcp_socket_t sock, void *data), void *hook_data) { grub_net_tcp_listen_t ret; ret = grub_malloc (sizeof (*ret)); if (!ret) return NULL; ret->listen_hook = listen_hook; ret->hook_data = hook_data; ret->port = port; ret->inf = inf; grub_list_push (GRUB_AS_LIST_P (&tcp_listens), GRUB_AS_LIST (ret)); return ret; } void grub_net_tcp_stop_listen (grub_net_tcp_listen_t listen) { grub_list_remove (GRUB_AS_LIST_P (&tcp_listens), GRUB_AS_LIST (listen)); } static inline void tcp_socket_register (grub_net_tcp_socket_t sock) { grub_list_push (GRUB_AS_LIST_P (&tcp_sockets), GRUB_AS_LIST (sock)); } static void error (grub_net_tcp_socket_t sock) { struct unacked *unack, *next; if (sock->error_hook) sock->error_hook (sock, sock->hook_data); for (unack = sock->unack_first; unack; unack = next) { next = unack->next; grub_netbuff_free (unack->nb); grub_free (unack); } sock->unack_first = NULL; sock->unack_last = NULL; } static grub_err_t tcp_send (struct grub_net_buff *nb, grub_net_tcp_socket_t socket) { grub_err_t err; grub_uint8_t *nbd; struct unacked *unack; struct tcphdr *tcph; grub_size_t size; tcph = (struct tcphdr *) nb->data; tcph->seqnr = grub_cpu_to_be32 (socket->my_cur_seq); size = (nb->tail - nb->data - (grub_be_to_cpu16 (tcph->flags) >> 12) * 4); if (grub_be_to_cpu16 (tcph->flags) & TCP_FIN) size++; socket->my_cur_seq += size; tcph->src = grub_cpu_to_be16 (socket->in_port); tcph->dst = grub_cpu_to_be16 (socket->out_port); tcph->checksum = 0; tcph->checksum = grub_net_ip_transport_checksum (nb, GRUB_NET_IP_TCP, &socket->inf->address, &socket->out_nla); nbd = nb->data; if (size) { unack = grub_malloc (sizeof (*unack)); if (!unack) return grub_errno; unack->next = NULL; unack->nb = nb; unack->try_count = 1; unack->last_try = grub_get_time_ms (); if (!socket->unack_last) socket->unack_first = socket->unack_last = unack; else socket->unack_last->next = unack; } err = grub_net_send_ip_packet (socket->inf, &(socket->out_nla), &(socket->gw),nb, GRUB_NET_IP_TCP); if (err) return err; nb->data = nbd; if (!size) grub_netbuff_free (nb); return GRUB_ERR_NONE; } void grub_net_tcp_close (grub_net_tcp_socket_t sock, int discard_received) { struct grub_net_buff *nb_fin; struct tcphdr *tcph_fin; grub_err_t err; if (discard_received != GRUB_NET_TCP_CONTINUE_RECEIVING) { sock->recv_hook = NULL; sock->error_hook = NULL; sock->fin_hook = NULL; } if (discard_received == GRUB_NET_TCP_ABORT) sock->i_reseted = 1; if (sock->i_closed) return; sock->i_closed = 1; nb_fin = grub_netbuff_alloc (sizeof (*tcph_fin) + GRUB_NET_OUR_MAX_IP_HEADER_SIZE + GRUB_NET_MAX_LINK_HEADER_SIZE); if (!nb_fin) return; err = grub_netbuff_reserve (nb_fin, GRUB_NET_OUR_MAX_IP_HEADER_SIZE + GRUB_NET_MAX_LINK_HEADER_SIZE); if (err) { grub_netbuff_free (nb_fin); grub_dprintf ("net", "error closing socket\n"); grub_errno = GRUB_ERR_NONE; return; } err = grub_netbuff_put (nb_fin, sizeof (*tcph_fin)); if (err) { grub_netbuff_free (nb_fin); grub_dprintf ("net", "error closing socket\n"); grub_errno = GRUB_ERR_NONE; return; } tcph_fin = (void *) nb_fin->data; tcph_fin->ack = grub_cpu_to_be32 (sock->their_cur_seq); tcph_fin->flags = grub_cpu_to_be16_compile_time ((5 << 12) | TCP_FIN | TCP_ACK); tcph_fin->window = grub_cpu_to_be16_compile_time (0); tcph_fin->urgent = 0; err = tcp_send (nb_fin, sock); if (err) { grub_netbuff_free (nb_fin); grub_dprintf ("net", "error closing socket\n"); grub_errno = GRUB_ERR_NONE; } return; } static void ack_real (grub_net_tcp_socket_t sock, int res) { struct grub_net_buff *nb_ack; struct tcphdr *tcph_ack; grub_err_t err; nb_ack = grub_netbuff_alloc (sizeof (*tcph_ack) + 128); if (!nb_ack) return; err = grub_netbuff_reserve (nb_ack, 128); if (err) { grub_netbuff_free (nb_ack); grub_dprintf ("net", "error closing socket\n"); grub_errno = GRUB_ERR_NONE; return; } err = grub_netbuff_put (nb_ack, sizeof (*tcph_ack)); if (err) { grub_netbuff_free (nb_ack); grub_dprintf ("net", "error closing socket\n"); grub_errno = GRUB_ERR_NONE; return; } tcph_ack = (void *) nb_ack->data; if (res) { tcph_ack->ack = grub_cpu_to_be32_compile_time (0); tcph_ack->flags = grub_cpu_to_be16_compile_time ((5 << 12) | TCP_RST); tcph_ack->window = grub_cpu_to_be16_compile_time (0); } else { tcph_ack->ack = grub_cpu_to_be32 (sock->their_cur_seq); tcph_ack->flags = grub_cpu_to_be16_compile_time ((5 << 12) | TCP_ACK); tcph_ack->window = grub_cpu_to_be16 (sock->my_window); } tcph_ack->urgent = 0; tcph_ack->src = grub_cpu_to_be16 (sock->in_port); tcph_ack->dst = grub_cpu_to_be16 (sock->out_port); err = tcp_send (nb_ack, sock); if (err) { grub_dprintf ("net", "error acking socket\n"); grub_errno = GRUB_ERR_NONE; } } static void ack (grub_net_tcp_socket_t sock) { ack_real (sock, 0); } static void reset (grub_net_tcp_socket_t sock) { ack_real (sock, 1); } void grub_net_tcp_retransmit (void) { grub_net_tcp_socket_t sock; grub_uint64_t ctime = grub_get_time_ms (); grub_uint64_t limit_time = ctime - TCP_RETRANSMISSION_TIMEOUT; FOR_TCP_SOCKETS (sock) { struct unacked *unack; for (unack = sock->unack_first; unack; unack = unack->next) { struct tcphdr *tcph; grub_uint8_t *nbd; grub_err_t err; if (unack->last_try > limit_time) continue; if (unack->try_count > TCP_RETRANSMISSION_COUNT) { error (sock); break; } unack->try_count++; unack->last_try = ctime; nbd = unack->nb->data; tcph = (struct tcphdr *) nbd; if ((tcph->flags & grub_cpu_to_be16_compile_time (TCP_ACK)) && tcph->ack != grub_cpu_to_be32 (sock->their_cur_seq)) { tcph->checksum = 0; tcph->checksum = grub_net_ip_transport_checksum (unack->nb, GRUB_NET_IP_TCP, &sock->inf->address, &sock->out_nla); } err = grub_net_send_ip_packet (sock->inf, &(sock->out_nla), &(sock->gw), unack->nb, GRUB_NET_IP_TCP); unack->nb->data = nbd; if (err) { grub_dprintf ("net", "TCP retransmit failed: %s\n", grub_errmsg); grub_errno = GRUB_ERR_NONE; } } } } grub_uint16_t grub_net_ip_transport_checksum (struct grub_net_buff *nb, grub_uint16_t proto, const grub_net_network_level_address_t *src, const grub_net_network_level_address_t *dst) { grub_uint16_t a, b = 0; grub_uint32_t c; a = ~grub_be_to_cpu16 (grub_net_ip_chksum ((void *) nb->data, nb->tail - nb->data)); switch (dst->type) { case GRUB_NET_NETWORK_LEVEL_PROTOCOL_IPV4: { struct tcp_pseudohdr ph; ph.src = src->ipv4; ph.dst = dst->ipv4; ph.zero = 0; ph.tcp_length = grub_cpu_to_be16 (nb->tail - nb->data); ph.proto = proto; b = ~grub_be_to_cpu16 (grub_net_ip_chksum ((void *) &ph, sizeof (ph))); break; } case GRUB_NET_NETWORK_LEVEL_PROTOCOL_IPV6: { struct tcp6_pseudohdr ph; grub_memcpy (ph.src, src->ipv6, sizeof (ph.src)); grub_memcpy (ph.dst, dst->ipv6, sizeof (ph.dst)); grub_memset (ph.zero, 0, sizeof (ph.zero)); ph.tcp_length = grub_cpu_to_be32 (nb->tail - nb->data); ph.proto = proto; b = ~grub_be_to_cpu16 (grub_net_ip_chksum ((void *) &ph, sizeof (ph))); break; } case GRUB_NET_NETWORK_LEVEL_PROTOCOL_DHCP_RECV: b = 0; break; } c = (grub_uint32_t) a + (grub_uint32_t) b; if (c >= 0xffff) c -= 0xffff; return grub_cpu_to_be16 (~c); } /* FIXME: overflow. */ static int cmp (const void *a__, const void *b__) { struct grub_net_buff *a_ = *(struct grub_net_buff **) a__; struct grub_net_buff *b_ = *(struct grub_net_buff **) b__; struct tcphdr *a = (struct tcphdr *) a_->data; struct tcphdr *b = (struct tcphdr *) b_->data; /* We want the first elements to be on top. */ if (grub_be_to_cpu32 (a->seqnr) < grub_be_to_cpu32 (b->seqnr)) return +1; if (grub_be_to_cpu32 (a->seqnr) > grub_be_to_cpu32 (b->seqnr)) return -1; return 0; } static void destroy_pq (grub_net_tcp_socket_t sock) { struct grub_net_buff **nb_p; while ((nb_p = grub_priority_queue_top (sock->pq))) { grub_netbuff_free (*nb_p); grub_priority_queue_pop (sock->pq); } grub_priority_queue_destroy (sock->pq); } grub_err_t grub_net_tcp_accept (grub_net_tcp_socket_t sock, grub_err_t (*recv_hook) (grub_net_tcp_socket_t sock, struct grub_net_buff *nb, void *data), void (*error_hook) (grub_net_tcp_socket_t sock, void *data), void (*fin_hook) (grub_net_tcp_socket_t sock, void *data), void *hook_data) { struct grub_net_buff *nb_ack; struct tcphdr *tcph; grub_err_t err; sock->recv_hook = recv_hook; sock->error_hook = error_hook; sock->fin_hook = fin_hook; sock->hook_data = hook_data; nb_ack = grub_netbuff_alloc (sizeof (*tcph) + GRUB_NET_OUR_MAX_IP_HEADER_SIZE + GRUB_NET_MAX_LINK_HEADER_SIZE); if (!nb_ack) return grub_errno; err = grub_netbuff_reserve (nb_ack, GRUB_NET_OUR_MAX_IP_HEADER_SIZE + GRUB_NET_MAX_LINK_HEADER_SIZE); if (err) { grub_netbuff_free (nb_ack); return err; } err = grub_netbuff_put (nb_ack, sizeof (*tcph)); if (err) { grub_netbuff_free (nb_ack); return err; } tcph = (void *) nb_ack->data; tcph->ack = grub_cpu_to_be32 (sock->their_cur_seq); tcph->flags = grub_cpu_to_be16_compile_time ((5 << 12) | TCP_SYN | TCP_ACK); tcph->window = grub_cpu_to_be16 (sock->my_window); tcph->urgent = 0; sock->established = 1; tcp_socket_register (sock); err = tcp_send (nb_ack, sock); if (err) return err; sock->my_cur_seq++; return GRUB_ERR_NONE; } grub_net_tcp_socket_t grub_net_tcp_open (char *server, grub_uint16_t out_port, grub_err_t (*recv_hook) (grub_net_tcp_socket_t sock, struct grub_net_buff *nb, void *data), void (*error_hook) (grub_net_tcp_socket_t sock, void *data), void (*fin_hook) (grub_net_tcp_socket_t sock, void *data), void *hook_data) { grub_err_t err; grub_net_network_level_address_t addr; struct grub_net_network_level_interface *inf; grub_net_network_level_address_t gateway; grub_net_tcp_socket_t socket; static grub_uint16_t in_port = 21550; struct grub_net_buff *nb; struct tcphdr *tcph; int i; grub_uint8_t *nbd; err = grub_net_resolve_address (server, &addr); if (err) return NULL; if (addr.type != GRUB_NET_NETWORK_LEVEL_PROTOCOL_IPV4 && addr.type != GRUB_NET_NETWORK_LEVEL_PROTOCOL_IPV6) { grub_error (GRUB_ERR_BAD_ARGUMENT, "not an IP address"); return NULL; } err = grub_net_route_address (addr, &gateway, &inf); if (err) return NULL; socket = grub_zalloc (sizeof (*socket)); if (socket == NULL) return NULL; socket->out_port = out_port; socket->inf = inf; socket->out_nla = addr; socket->gw = gateway; socket->in_port = in_port++; socket->recv_hook = recv_hook; socket->error_hook = error_hook; socket->fin_hook = fin_hook; socket->hook_data = hook_data; nb = grub_netbuff_alloc (sizeof (*tcph) + 128); if (!nb) return NULL; err = grub_netbuff_reserve (nb, 128); if (err) { grub_netbuff_free (nb); return NULL; } err = grub_netbuff_put (nb, sizeof (*tcph)); if (err) { grub_netbuff_free (nb); return NULL; } socket->pq = grub_priority_queue_new (sizeof (struct grub_net_buff *), cmp); if (!socket->pq) { grub_netbuff_free (nb); return NULL; } tcph = (void *) nb->data; socket->my_start_seq = grub_get_time_ms (); socket->my_cur_seq = socket->my_start_seq + 1; socket->my_window = 8192; tcph->seqnr = grub_cpu_to_be32 (socket->my_start_seq); tcph->ack = grub_cpu_to_be32_compile_time (0); tcph->flags = grub_cpu_to_be16_compile_time ((5 << 12) | TCP_SYN); tcph->window = grub_cpu_to_be16 (socket->my_window); tcph->urgent = 0; tcph->src = grub_cpu_to_be16 (socket->in_port); tcph->dst = grub_cpu_to_be16 (socket->out_port); tcph->checksum = 0; tcph->checksum = grub_net_ip_transport_checksum (nb, GRUB_NET_IP_TCP, &socket->inf->address, &socket->out_nla); tcp_socket_register (socket); nbd = nb->data; for (i = 0; i < TCP_SYN_RETRANSMISSION_COUNT; i++) { int j; nb->data = nbd; err = grub_net_send_ip_packet (socket->inf, &(socket->out_nla), &(socket->gw), nb, GRUB_NET_IP_TCP); if (err) { grub_list_remove (GRUB_AS_LIST_P (&tcp_sockets), GRUB_AS_LIST (socket)); grub_free (socket); grub_netbuff_free (nb); return NULL; } for (j = 0; (j < TCP_SYN_RETRANSMISSION_TIMEOUT / 50 && !socket->established); j++) grub_net_poll_cards (50); if (socket->established) break; } if (!socket->established) { grub_list_remove (GRUB_AS_LIST_P (&tcp_sockets), GRUB_AS_LIST (socket)); if (socket->they_reseted) grub_error (GRUB_ERR_NET_PORT_CLOSED, "port closed"); else grub_error (GRUB_ERR_NET_NO_ANSWER, "no answer"); grub_netbuff_free (nb); destroy_pq (socket); grub_free (socket); return NULL; } grub_netbuff_free (nb); return socket; } grub_err_t grub_net_send_tcp_packet (const grub_net_tcp_socket_t socket, struct grub_net_buff *nb, int push) { struct tcphdr *tcph; grub_err_t err; grub_ssize_t fraglen; COMPILE_TIME_ASSERT (sizeof (struct tcphdr) == GRUB_NET_TCP_HEADER_SIZE); if (socket->out_nla.type == GRUB_NET_NETWORK_LEVEL_PROTOCOL_IPV4) fraglen = (socket->inf->card->mtu - GRUB_NET_OUR_IPV4_HEADER_SIZE - sizeof (*tcph)); else fraglen = 1280 - GRUB_NET_OUR_IPV6_HEADER_SIZE; while (nb->tail - nb->data > fraglen) { struct grub_net_buff *nb2; nb2 = grub_netbuff_alloc (fraglen + sizeof (*tcph) + GRUB_NET_OUR_MAX_IP_HEADER_SIZE + GRUB_NET_MAX_LINK_HEADER_SIZE); if (!nb2) return grub_errno; err = grub_netbuff_reserve (nb2, GRUB_NET_MAX_LINK_HEADER_SIZE + GRUB_NET_OUR_MAX_IP_HEADER_SIZE); if (err) return err; err = grub_netbuff_put (nb2, sizeof (*tcph)); if (err) return err; tcph = (struct tcphdr *) nb2->data; tcph->ack = grub_cpu_to_be32 (socket->their_cur_seq); tcph->flags = grub_cpu_to_be16_compile_time ((5 << 12) | TCP_ACK); tcph->window = grub_cpu_to_be16 (socket->my_window); tcph->urgent = 0; err = grub_netbuff_put (nb2, fraglen); if (err) return err; grub_memcpy (tcph + 1, nb->data, fraglen); err = grub_netbuff_pull (nb, fraglen); if (err) return err; err = tcp_send (nb2, socket); if (err) return err; } err = grub_netbuff_push (nb, sizeof (*tcph)); if (err) return err; tcph = (struct tcphdr *) nb->data; tcph->ack = grub_cpu_to_be32 (socket->their_cur_seq); tcph->flags = (grub_cpu_to_be16_compile_time ((5 << 12) | TCP_ACK) | (push ? grub_cpu_to_be16_compile_time (TCP_PUSH) : 0)); tcph->window = grub_cpu_to_be16 (socket->my_window); tcph->urgent = 0; return tcp_send (nb, socket); } grub_err_t grub_net_recv_tcp_packet (struct grub_net_buff *nb, struct grub_net_network_level_interface *inf, const grub_net_network_level_address_t *source) { struct tcphdr *tcph; grub_net_tcp_socket_t sock; grub_err_t err; /* Ignore broadcast. */ if (!inf) { grub_netbuff_free (nb); return GRUB_ERR_NONE; } tcph = (struct tcphdr *) nb->data; if ((grub_be_to_cpu16 (tcph->flags) >> 12) < 5) { grub_dprintf ("net", "TCP header too short: %u\n", grub_be_to_cpu16 (tcph->flags) >> 12); grub_netbuff_free (nb); return GRUB_ERR_NONE; } if (nb->tail - nb->data < (grub_ssize_t) ((grub_be_to_cpu16 (tcph->flags) >> 12) * sizeof (grub_uint32_t))) { grub_dprintf ("net", "TCP packet too short: %" PRIuGRUB_SIZE "\n", nb->tail - nb->data); grub_netbuff_free (nb); return GRUB_ERR_NONE; } FOR_TCP_SOCKETS (sock) { if (!(grub_be_to_cpu16 (tcph->dst) == sock->in_port && grub_be_to_cpu16 (tcph->src) == sock->out_port && inf == sock->inf && grub_net_addr_cmp (source, &sock->out_nla) == 0)) continue; if (tcph->checksum) { grub_uint16_t chk, expected; chk = tcph->checksum; tcph->checksum = 0; expected = grub_net_ip_transport_checksum (nb, GRUB_NET_IP_TCP, &sock->out_nla, &sock->inf->address); if (expected != chk) { grub_dprintf ("net", "Invalid TCP checksum. " "Expected %x, got %x\n", grub_be_to_cpu16 (expected), grub_be_to_cpu16 (chk)); grub_netbuff_free (nb); return GRUB_ERR_NONE; } tcph->checksum = chk; } if ((grub_be_to_cpu16 (tcph->flags) & TCP_SYN) && (grub_be_to_cpu16 (tcph->flags) & TCP_ACK) && !sock->established) { sock->their_start_seq = grub_be_to_cpu32 (tcph->seqnr); sock->their_cur_seq = sock->their_start_seq + 1; sock->established = 1; } if (grub_be_to_cpu16 (tcph->flags) & TCP_RST) { sock->they_reseted = 1; error (sock); grub_netbuff_free (nb); return GRUB_ERR_NONE; } if (grub_be_to_cpu16 (tcph->flags) & TCP_ACK) { struct unacked *unack, *next; grub_uint32_t acked = grub_be_to_cpu32 (tcph->ack); for (unack = sock->unack_first; unack; unack = next) { grub_uint32_t seqnr; struct tcphdr *unack_tcph; next = unack->next; seqnr = grub_be_to_cpu32 (((struct tcphdr *) unack->nb->data) ->seqnr); unack_tcph = (struct tcphdr *) unack->nb->data; seqnr += (unack->nb->tail - unack->nb->data - (grub_be_to_cpu16 (unack_tcph->flags) >> 12) * 4); if (grub_be_to_cpu16 (unack_tcph->flags) & TCP_FIN) seqnr++; if (seqnr > acked) break; grub_netbuff_free (unack->nb); grub_free (unack); } sock->unack_first = unack; if (!sock->unack_first) sock->unack_last = NULL; } if (grub_be_to_cpu32 (tcph->seqnr) < sock->their_cur_seq) { ack (sock); grub_netbuff_free (nb); return GRUB_ERR_NONE; } if (sock->i_reseted && (nb->tail - nb->data - (grub_be_to_cpu16 (tcph->flags) >> 12) * sizeof (grub_uint32_t)) > 0) { reset (sock); } err = grub_priority_queue_push (sock->pq, &nb); if (err) { grub_netbuff_free (nb); return err; } { struct grub_net_buff **nb_top_p, *nb_top; int do_ack = 0; int just_closed = 0; while (1) { nb_top_p = grub_priority_queue_top (sock->pq); if (!nb_top_p) return GRUB_ERR_NONE; nb_top = *nb_top_p; tcph = (struct tcphdr *) nb_top->data; if (grub_be_to_cpu32 (tcph->seqnr) >= sock->their_cur_seq) break; grub_netbuff_free (nb_top); grub_priority_queue_pop (sock->pq); } if (grub_be_to_cpu32 (tcph->seqnr) != sock->their_cur_seq) return GRUB_ERR_NONE; while (1) { nb_top_p = grub_priority_queue_top (sock->pq); if (!nb_top_p) break; nb_top = *nb_top_p; tcph = (struct tcphdr *) nb_top->data; if (grub_be_to_cpu32 (tcph->seqnr) != sock->their_cur_seq) break; grub_priority_queue_pop (sock->pq); err = grub_netbuff_pull (nb_top, (grub_be_to_cpu16 (tcph->flags) >> 12) * sizeof (grub_uint32_t)); if (err) { grub_netbuff_free (nb_top); return err; } sock->their_cur_seq += (nb_top->tail - nb_top->data); if (grub_be_to_cpu16 (tcph->flags) & TCP_FIN) { sock->they_closed = 1; just_closed = 1; sock->their_cur_seq++; do_ack = 1; } /* If there is data, puts packet in socket list. */ if ((nb_top->tail - nb_top->data) > 0) { grub_net_put_packet (&sock->packs, nb_top); do_ack = 1; } else grub_netbuff_free (nb); } if (do_ack) ack (sock); while (sock->packs.first) { nb = sock->packs.first->nb; if (sock->recv_hook) sock->recv_hook (sock, sock->packs.first->nb, sock->hook_data); else grub_netbuff_free (nb); grub_net_remove_packet (sock->packs.first); } if (sock->fin_hook && just_closed) sock->fin_hook (sock, sock->hook_data); } return GRUB_ERR_NONE; } if (grub_be_to_cpu16 (tcph->flags) & TCP_SYN) { grub_net_tcp_listen_t listen; FOR_TCP_LISTENS (listen) { if (!(grub_be_to_cpu16 (tcph->dst) == listen->port && (inf == listen->inf || listen->inf == NULL))) continue; sock = grub_zalloc (sizeof (*sock)); if (sock == NULL) return grub_errno; sock->out_port = grub_be_to_cpu16 (tcph->src); sock->in_port = grub_be_to_cpu16 (tcph->dst); sock->inf = inf; sock->out_nla = *source; sock->their_start_seq = grub_be_to_cpu32 (tcph->seqnr); sock->their_cur_seq = sock->their_start_seq + 1; sock->my_cur_seq = sock->my_start_seq = grub_get_time_ms (); sock->my_window = 8192; sock->pq = grub_priority_queue_new (sizeof (struct grub_net_buff *), cmp); if (!sock->pq) { grub_netbuff_free (nb); return grub_errno; } err = listen->listen_hook (listen, sock, listen->hook_data); grub_netbuff_free (nb); return err; } } grub_netbuff_free (nb); return GRUB_ERR_NONE; }