connection: process beacons and send connection requests
This commit is contained in:
parent
ce55b34929
commit
e66dae48a7
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@ -72,6 +72,18 @@ void connection_destroy(connection_ctx_t *ctx)
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}
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}
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void connection_setup_outgoing(connection_ctx_t *ctx)
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{
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ctx->conn_state = CONN_STATE_CONNECTING;
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}
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void connection_setup_incoming(connection_ctx_t *ctx)
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{
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ctx->conn_state = CONN_STATE_ESTABLISHED;
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}
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result_t connection_handle_packet(connection_ctx_t *ctx, const uint8_t *buf, size_t buf_len, layer2_data_packet_t *data_packet)
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result_t connection_handle_packet(connection_ctx_t *ctx, const uint8_t *buf, size_t buf_len, layer2_data_packet_t *data_packet)
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{
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{
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// check the connection state
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// check the connection state
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@ -131,6 +143,48 @@ result_t connection_handle_packet(connection_ctx_t *ctx, const uint8_t *buf, siz
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return connection_handle_packet_prechecked(ctx, &header, payload, payload_len, data_packet);
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return connection_handle_packet_prechecked(ctx, &header, payload, payload_len, data_packet);
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}
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}
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static result_t handle_conn_mgmt(
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connection_ctx_t *ctx,
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const layer2_packet_header_t *header,
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const uint8_t *payload, size_t payload_len)
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{
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(void)header;
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if(payload_len < 1) {
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LOG(LVL_ERR, "Connection management packet without any payload is invalid.");
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return ERR_INVALID_PARAM;
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}
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uint8_t packet_type = payload[0];
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if(packet_type == CONN_MGMT_TYPE_BEACON) {
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if(ctx->conn_state == CONN_STATE_CONNECTING) {
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LOG(LVL_INFO, "Received beacon; queueing connection request.");
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// enqueue a connection request packet
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layer2_packet_header_t conn_request_header;
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conn_request_header.tx_request = true;
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conn_request_header.dst_addr = ctx->peer_addr;
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conn_request_header.src_addr = ctx->my_addr;
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conn_request_header.msg_type = L2_MSG_TYPE_CONN_MGMT;
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conn_request_header.rx_seq_nr = 0;
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conn_request_header.tx_seq_nr = 0;
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// create a persistent copy of the packet data.
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uint8_t packetbuf[1];
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packetbuf[0] = CONN_MGMT_TYPE_CONNECTION_REQUEST;
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connection_enqueue_packet(ctx, &conn_request_header, packetbuf, 1);
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} else {
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LOG(LVL_WARN, "Beacons are ignored in states other than CONNECTING.");
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return ERR_INVALID_STATE;
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}
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}
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return OK;
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}
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result_t connection_handle_packet_prechecked(
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result_t connection_handle_packet_prechecked(
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connection_ctx_t *ctx,
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connection_ctx_t *ctx,
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const layer2_packet_header_t *header,
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const layer2_packet_header_t *header,
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@ -182,6 +236,8 @@ result_t connection_handle_packet_prechecked(
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return OK; // do not ACK
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return OK; // do not ACK
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case L2_MSG_TYPE_CONN_MGMT:
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case L2_MSG_TYPE_CONN_MGMT:
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return handle_conn_mgmt(ctx, header, payload, payload_len);
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case L2_MSG_TYPE_CONNECTIONLESS:
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case L2_MSG_TYPE_CONNECTIONLESS:
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LOG(LVL_WARN, "Message type %s is not implemented yet.", layer2_msg_type_to_string(header->msg_type));
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LOG(LVL_WARN, "Message type %s is not implemented yet.", layer2_msg_type_to_string(header->msg_type));
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return OK;
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return OK;
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@ -230,7 +286,39 @@ uint8_t connection_get_last_acked_seq(const connection_ctx_t *ctx)
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}
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}
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result_t connection_enqueue_packet(connection_ctx_t *ctx, uint8_t *buf, size_t buf_len)
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result_t connection_enqueue_packet(
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connection_ctx_t *ctx,
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const layer2_packet_header_t *header,
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uint8_t *payload, size_t payload_len)
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{
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if(packet_queue_get_free_space(&ctx->packet_queue) == 0) {
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return ERR_NO_MEM;
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}
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uint8_t *packetbuf = NULL;
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if(payload) {
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// create a persistent copy of the packet data.
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// TODO: possibly this copy operation can be removed by passing a malloc'd buffer in.
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packetbuf = malloc(payload_len);
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if(!packetbuf) {
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LOG(LVL_ERR, "malloc failed.");
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return ERR_NO_MEM;
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}
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}
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memcpy(packetbuf, payload, payload_len);
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packet_queue_add(&ctx->packet_queue, header, packetbuf, payload_len);
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LOG(LVL_INFO, "Added packet tx_seq %u to queue -> %zu entries",
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header->tx_seq_nr, packet_queue_get_used_space(&ctx->packet_queue));
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return OK;
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}
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result_t connection_enqueue_data_packet(connection_ctx_t *ctx, uint8_t *buf, size_t buf_len)
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{
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{
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// check the connection state
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// check the connection state
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switch(ctx->conn_state) {
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switch(ctx->conn_state) {
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@ -248,10 +336,6 @@ result_t connection_enqueue_packet(connection_ctx_t *ctx, uint8_t *buf, size_t b
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layer2_packet_header_t header;
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layer2_packet_header_t header;
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if(packet_queue_get_free_space(&ctx->packet_queue) == 0) {
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return ERR_NO_MEM;
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}
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header.dst_addr = ctx->peer_addr;
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header.dst_addr = ctx->peer_addr;
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header.src_addr = ctx->my_addr;
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header.src_addr = ctx->my_addr;
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header.msg_type = L2_MSG_TYPE_DATA;
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header.msg_type = L2_MSG_TYPE_DATA;
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@ -259,20 +343,7 @@ result_t connection_enqueue_packet(connection_ctx_t *ctx, uint8_t *buf, size_t b
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header.tx_request = 0;
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header.tx_request = 0;
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header.tx_seq_nr = ctx->next_seq_nr;
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header.tx_seq_nr = ctx->next_seq_nr;
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// create a persistent copy of the packet data.
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ERR_CHECK(connection_enqueue_packet(ctx, &header, buf, buf_len));
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// TODO: possibly this copy operation can be removed by passing a malloc'd buffer in.
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uint8_t *packetbuf = malloc(buf_len);
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if(!packetbuf) {
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LOG(LVL_ERR, "malloc failed.");
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return ERR_NO_MEM;
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}
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memcpy(packetbuf, buf, buf_len);
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packet_queue_add(&ctx->packet_queue, &header, packetbuf, buf_len);
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LOG(LVL_INFO, "Added packet tx_seq %u to queue -> %zu entries",
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header.tx_seq_nr, packet_queue_get_used_space(&ctx->packet_queue));
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ctx->next_seq_nr++;
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ctx->next_seq_nr++;
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ctx->next_seq_nr &= SEQ_NR_MASK;
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ctx->next_seq_nr &= SEQ_NR_MASK;
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@ -346,18 +417,13 @@ result_t connection_send_parameters(connection_ctx_t *ctx)
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header.tx_request = 1;
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header.tx_request = 1;
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size_t payload_len = 1;
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size_t payload_len = 1;
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uint8_t *payload = malloc(payload_len);
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uint8_t payload[payload_len];
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if(!payload) {
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return ERR_NO_MEM;
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}
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payload[0] = CONN_MGMT_TYPE_CONNECTION_PARAMETERS;
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payload[0] = CONN_MGMT_TYPE_CONNECTION_PARAMETERS;
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// TODO: calculate IP addresses from client’s HAM64 address
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// TODO: calculate IP addresses from client’s HAM64 address
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if (!packet_queue_add(&ctx->packet_queue, &header, payload, payload_len)) {
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ERR_CHECK(connection_enqueue_packet(ctx, &header, payload, payload_len));
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return ERR_NO_MEM;
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}
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ctx->next_seq_nr++;
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ctx->next_seq_nr++;
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ctx->next_seq_nr &= SEQ_NR_MASK;
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ctx->next_seq_nr &= SEQ_NR_MASK;
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@ -69,6 +69,20 @@ result_t connection_init(
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*/
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*/
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void connection_destroy(connection_ctx_t *ctx);
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void connection_destroy(connection_ctx_t *ctx);
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/*!\brief Set up a outgoing connection.
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*
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* This puts the connection into CONN_STATE_CONNECTING state, which causes
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* beacons to be handled.
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*/
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void connection_setup_outgoing(connection_ctx_t *ctx);
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/*!\brief Set up an incoming connection.
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*
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* As this function is intended to be called after a connection request was
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* handled, it puts the connection directly into CONN_STATE_ESTABLISHED state.
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*/
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void connection_setup_incoming(connection_ctx_t *ctx);
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/*!\brief Handle a received packet.
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/*!\brief Handle a received packet.
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*
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*
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* \param[inout] ctx The connection context.
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* \param[inout] ctx The connection context.
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@ -113,8 +127,21 @@ uint8_t connection_get_last_acked_seq(const connection_ctx_t *ctx);
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/*!\brief Enqueue a packet for transmission.
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/*!\brief Enqueue a packet for transmission.
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* \param ctx The connection context.
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* \param ctx The connection context.
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* \param header Pointer to the packet header.
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* \param payload Pointer to the payload.
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* \param payload_len Length of the payload.
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*/
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*/
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result_t connection_enqueue_packet(connection_ctx_t *ctx, uint8_t *buf, size_t buf_len);
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result_t connection_enqueue_packet(
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connection_ctx_t *ctx,
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const layer2_packet_header_t *header,
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uint8_t *payload, size_t payload_len);
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/*!\brief Enqueue a data packet for transmission.
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* \param ctx The connection context.
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* \param buf Pointer to the data buffer.
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* \param buf_len Length of the data.
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*/
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result_t connection_enqueue_data_packet(connection_ctx_t *ctx, uint8_t *buf, size_t buf_len);
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/*!\brief Check if there is free space in the TX packet queue.
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/*!\brief Check if there is free space in the TX packet queue.
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* \param ctx The connection context.
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* \param ctx The connection context.
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@ -213,7 +213,7 @@ result_t connection_list_enqueue_packet(connection_list_t *list, uint8_t *data,
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return ERR_INVALID_ADDRESS;
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return ERR_INVALID_ADDRESS;
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}
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}
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return connection_enqueue_packet(&ptr->connection, data, data_len);
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return connection_enqueue_data_packet(&ptr->connection, data, data_len);
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}
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}
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@ -122,6 +122,71 @@ void rx_data_to_tun(const layer2_data_packet_t *data_packet)
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}
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}
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result_t connect_to_digipeater(connection_ctx_t *conn)
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{
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while(conn->conn_state != CONN_STATE_ESTABLISHED) {
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uint8_t packetbuf[65536];
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LOG(LVL_INFO, "Waiting for packets from digipeater (conn. state: %d)", conn->conn_state);
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// note: recv() is blocking here
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int ret = recv(m_bcast_sock, packetbuf, sizeof(packetbuf), 0);
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if(ret < 0) {
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LOG(LVL_ERR, "recv: %s", strerror(errno));
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return ERR_SYSCALL;
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} else if(ret == 0) {
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LOG(LVL_ERR, "recv() returned zero.");
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return ERR_SYSCALL;
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}
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layer2_data_packet_t data_packet;
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result_t err_code = connection_handle_packet(conn, packetbuf, ret, &data_packet);
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switch(err_code) {
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case OK:
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break; // state machine advanced and there are probably packets to send
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case ERR_INTEGRITY:
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case ERR_INVALID_STATE:
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continue; // retry with the next packet
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default:
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LOG(LVL_ERR, "connection_handle_packet() returned %d.", err_code);
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return err_code;
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}
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LOG(LVL_INFO, "Packet processed successfully (new conn. state: %d); Transmitting response (if any).", conn->conn_state);
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// send any packets in the queue
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while(connection_can_transmit(conn)) {
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uint8_t packet_buf[2048];
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size_t packet_size;
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bool end_burst;
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packet_size = connection_encode_next_packet(conn,
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packet_buf, sizeof(packet_buf), &end_burst);
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if(packet_size == 0) {
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// no more packets available
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LOG(LVL_DEBUG, "Ending burst due to empty packet queue.");
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break;
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}
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LOG(LVL_DEBUG, "Adding packet with %d bytes to burst.", packet_size);
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RESULT_CHECK(transmit(packet_buf, packet_size));
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if(end_burst) {
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LOG(LVL_DEBUG, "Ending burst on request.");
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break;
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}
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}
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}
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return OK;
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}
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void conn_evt_cb(struct connection_ctx_s *conn, connection_evt_t evt, void *user_ctx)
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void conn_evt_cb(struct connection_ctx_s *conn, connection_evt_t evt, void *user_ctx)
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{
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{
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(void)conn;
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(void)conn;
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@ -151,14 +216,6 @@ int main(void)
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return 1;
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return 1;
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}
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}
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ham64_t my_address, peer_address;
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ham64_encode(MY_CALL, &my_address);
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ham64_encode(PEER_CALL, &peer_address);
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RESULT_CHECK(connection_init(&l2conn, &my_address, &peer_address));
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// force connection into the established state
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l2conn.conn_state = CONN_STATE_ESTABLISHED;
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// ** Set up signal handling
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// ** Set up signal handling
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struct sigaction term_action = {0};
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struct sigaction term_action = {0};
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@ -219,8 +276,14 @@ int main(void)
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size_t total_bytes = 0;
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size_t total_bytes = 0;
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uint64_t next_stats_print_time = old + HRTIME_MS(500);
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uint64_t next_stats_print_time = old + HRTIME_MS(500);
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// TODO: wait for beacon
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ham64_t my_address, peer_address;
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// TODO: send connection request
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ham64_encode(MY_CALL, &my_address);
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ham64_encode(PEER_CALL, &peer_address);
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RESULT_CHECK(connection_init(&l2conn, &my_address, &peer_address));
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connection_setup_outgoing(&l2conn);
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RESULT_CHECK(connect_to_digipeater(&l2conn));
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while(m_running) {
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while(m_running) {
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connection_evt_t evt;
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connection_evt_t evt;
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@ -256,7 +319,7 @@ int main(void)
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LOG(LVL_DUMP, "TUN Flags: 0x%04x", *(uint16_t*)packetbuf);
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LOG(LVL_DUMP, "TUN Flags: 0x%04x", *(uint16_t*)packetbuf);
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LOG(LVL_DUMP, "TUN Proto: 0x%04x", *((uint16_t*)packetbuf + 1));
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LOG(LVL_DUMP, "TUN Proto: 0x%04x", *((uint16_t*)packetbuf + 1));
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RESULT_CHECK(connection_enqueue_packet(&l2conn, packetbuf, ret));
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RESULT_CHECK(connection_enqueue_data_packet(&l2conn, packetbuf, ret));
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}
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}
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}
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}
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