LSE_PUCRS
Xbee s2b for lpc11u24
Dependencies: DigiLogger
Fork of
XBeeLib
by 
Digi International Inc.
XBee/RadioConfig.cpp
- Committer:
- spastor
- Date:
- 2015-05-08
- Revision:
- 0:fcaad0dfa051
- Child:
- 1:794d1d3e4a08
File content as of revision 0:fcaad0dfa051:
/**
* Copyright (c) 2015 Digi International Inc.,
* All rights not expressly granted are reserved.
*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this file,
* You can obtain one at http://mozilla.org/MPL/2.0/.
*
* Digi International Inc. 11001 Bren Road East, Minnetonka, MN 55343
* =======================================================================
*/
#include "XBeeLib.h"
#include "Frames/ApiFrame.h"
using namespace XBeeLib;
RadioStatus XBee::write_config(void)
{
AtCmdFrame::AtCmdResp cmdresp;
cmdresp = set_param("WR");
if (cmdresp != AtCmdFrame::AtCmdRespOk) {
return Failure;
}
return Success;
}
RadioStatus XBee::sleep_now(void)
{
AtCmdFrame::AtCmdResp cmdresp;
cmdresp = set_param("SI");
if (cmdresp != AtCmdFrame::AtCmdRespOk) {
return Failure;
}
return Success;
}
RadioStatus XBee::set_power_level(uint8_t level)
{
AtCmdFrame::AtCmdResp cmdresp;
if (level > 4) {
return Failure;
}
cmdresp = set_param("PL", level);
if (cmdresp != AtCmdFrame::AtCmdRespOk) {
return Failure;
}
return Success;
}
RadioStatus XBee::get_power_level(uint8_t * const level)
{
if (level == NULL) {
return Failure;
}
AtCmdFrame::AtCmdResp cmdresp;
uint32_t var32;
cmdresp = get_param("PL", &var32);
if (cmdresp != AtCmdFrame::AtCmdRespOk) {
return Failure;
}
*level = var32;
return Success;
}
RadioStatus XBee::get_network_address(uint16_t * const addr16)
{
if (addr16 == NULL) {
return Failure;
}
AtCmdFrame::AtCmdResp cmdresp;
uint32_t var32;
cmdresp = get_param("MY", &var32);
if (cmdresp != AtCmdFrame::AtCmdRespOk) {
return Failure;
}
*addr16 = var32;
return Success;
}
RadioStatus XBee::software_reset(void)
{
volatile uint16_t * const rst_cnt_p = &_wd_reset_cnt;
const uint16_t init_rst_cnt = *rst_cnt_p;
AtCmdFrame::AtCmdResp cmdresp;
cmdresp = set_param("FR");
if (cmdresp != AtCmdFrame::AtCmdRespOk) {
return Failure;
}
return wait_for_module_to_reset(rst_cnt_p, init_rst_cnt);
}
RadioStatus XBee::set_node_identifier(const char * const node_id)
{
if (node_id == NULL) {
return Failure;
}
AtCmdFrame::AtCmdResp cmdresp;
const size_t str_len = strlen(node_id);
if(str_len > 20 || str_len < 1) {
return Failure;
}
cmdresp = set_param("NI", (const uint8_t *)node_id, str_len);
if (cmdresp != AtCmdFrame::AtCmdRespOk) {
return Failure;
}
return Success;
}
RadioStatus XBee::get_node_identifier(char * const node_id)
{
if (node_id == NULL) {
return Failure;
}
uint16_t max_ni_length = 20;
AtCmdFrame::AtCmdResp cmdresp;
cmdresp = get_param("NI", (uint8_t *)node_id, &max_ni_length);
if (cmdresp != AtCmdFrame::AtCmdRespOk) {
return Failure;
}
node_id[max_ni_length] = '\0';
return Success;
}
uint16_t XBee::get_hw_version() const
{
return _hw_version;
}
uint16_t XBee::get_fw_version() const
{
return _fw_version;
}
void XBee::set_tx_options(uint8_t options)
{
_tx_options = options;
}
uint8_t XBee::get_tx_options() const
{
return _tx_options;
}
void XBee::set_broadcast_radius(uint8_t bc_radius)
{
_bc_radius = bc_radius;
}
uint8_t XBee::get_bc_radius() const
{
return _bc_radius;
}
RadioStatus XBee::start_node_discovery()
{
AtCmdFrame cmd_frame = AtCmdFrame("ND");
send_api_frame(&cmd_frame);
return Success;
}
void XBee::_get_remote_node_by_id(const char * const node_id, uint64_t * const addr64, uint16_t * const addr16)
{
*addr64 = ADDR64_UNASSIGNED;
*addr16 = ADDR16_UNKNOWN;
if (node_id == NULL) {
return;
}
const size_t node_id_len = strlen(node_id);
if (node_id_len == 0 || node_id_len > MAX_NI_PARAM_LEN) {
return;
}
const uint16_t old_timeout = _timeout_ms;
uint32_t nd_timeout_100msec;
const AtCmdFrame::AtCmdResp nt_resp = get_param("NT", &nd_timeout_100msec);
if (nt_resp != AtCmdFrame::AtCmdRespOk) {
_timeout_ms = 10000;
} else {
_timeout_ms = (uint16_t)nd_timeout_100msec * 100 + 1000;
}
const AtCmdFrame::AtCmdResp cmdresp = set_param("ND", (const uint8_t *)node_id, strlen(node_id));
if (cmdresp != AtCmdFrame::AtCmdRespOk) {
_timeout_ms = old_timeout;
return;
}
const int nd_start_time = _timer.read_ms();
const int nd_end_time = nd_start_time + _timeout_ms;
AtCmdFrame atnd_frame = AtCmdFrame("ND", (const uint8_t *)node_id, strlen(node_id));
send_api_frame(&atnd_frame);
ApiFrame * const resp_frame = get_this_api_frame(atnd_frame.get_frame_id(), ApiFrame::AtCmdResp);
_timeout_ms = old_timeout;
while (_timer.read_ms() < nd_end_time) {
wait_ms(10);
}
if (resp_frame == NULL) {
digi_log(LogLevelWarning, "XBeeZB::get_remote_node_by_id timeout when waiting for ATND response");
return;
}
const AtCmdFrame::AtCmdResp resp = (AtCmdFrame::AtCmdResp)resp_frame->get_data_at(ATCMD_RESP_STATUS_OFFSET);
if (resp != AtCmdFrame::AtCmdRespOk) {
digi_log(LogLevelWarning, "send_at_cmd bad response: 0x%x\r\n", resp);
_framebuf.free_frame(resp_frame);
return;
}
rmemcpy((uint8_t *)addr16, resp_frame->get_data() + ATCMD_RESP_DATA_OFFSET, sizeof *addr16);
rmemcpy((uint8_t *)addr64, resp_frame->get_data() + ATCMD_RESP_DATA_OFFSET + sizeof *addr16, sizeof *addr64);
_framebuf.free_frame(resp_frame);
return;
}
RadioStatus XBee::config_node_discovery(uint16_t timeout_ms, uint8_t options)
{
AtCmdFrame::AtCmdResp cmdresp;
cmdresp = set_param("NT", (uint8_t)(timeout_ms / 100));
if (cmdresp != AtCmdFrame::AtCmdRespOk) {
return Failure;
}
cmdresp = set_param("NO", (uint8_t)options);
if (cmdresp != AtCmdFrame::AtCmdRespOk) {
return Failure;
}
cmdresp = set_param("AC");
if (cmdresp != AtCmdFrame::AtCmdRespOk) {
return Failure;
}
return Success;
}
RadioStatus XBee::get_config_node_discovery(uint16_t * const timeout_ms, uint8_t * const options)
{
AtCmdFrame::AtCmdResp cmdresp;
uint32_t var32;
cmdresp = get_param("NT", &var32);
if (cmdresp != AtCmdFrame::AtCmdRespOk) {
return Failure;
}
*timeout_ms = var32;
cmdresp = get_param("NO", &var32);
if (cmdresp != AtCmdFrame::AtCmdRespOk) {
return Failure;
}
*options = var32;
return Success;
}
RadioStatus XBee::get_iosample(const RemoteXBee& remote, uint8_t * const io_sample, uint16_t * const len)
{
AtCmdFrame::AtCmdResp cmdresp;
*len = MAX_IO_SAMPLE_BUF_LEN;
/* Force a sample read */
cmdresp = get_param(remote, "IS", io_sample, len);
if (cmdresp != AtCmdFrame::AtCmdRespOk) {
digi_log(LogLevelError, "get_iosample error %d:\r\n", cmdresp);
return Failure;
}
return Success;
}
RadioStatus XBee::config_io_sample_destination(const RemoteXBee& remote, const RemoteXBee& destination)
{
uint32_t dh;
uint32_t dl;
if (destination.is_valid_addr64b()) {
const uint64_t dest64 = destination.get_addr64();
dh = (uint32_t)((dest64 >> 32) & 0xFFFFFFFF);
dl = (uint32_t)((dest64 & 0xFFFFFFFF));
} else if (destination.is_valid_addr16b()) {
const uint16_t destAddr16 = destination.get_addr16();
dh = 0;
dl = destAddr16;
} else {
digi_log(LogLevelError, "send_io_sample_to: Invalid destination");
return Failure;
}
AtCmdFrame::AtCmdResp cmdresp;
cmdresp = set_param(remote, "DH", dh);
if (cmdresp != AtCmdFrame::AtCmdRespOk) {
digi_log(LogLevelError, "send_io_sample_to error %d:\r\n", cmdresp);
return Failure;
}
cmdresp = set_param(remote, "DL", dl);
if (cmdresp != AtCmdFrame::AtCmdRespOk) {
digi_log(LogLevelError, "send_io_sample_to error %d:\r\n", cmdresp);
return Failure;
}
return Success;
}
RadioStatus XBee::set_io_sample_rate(const RemoteXBee& remote, const float seconds)
{
const float max_seconds = 65.535;
if (seconds > max_seconds) {
digi_log(LogLevelError, "XBee::set_io_sample_rate error seconds rate exceeds maximum %d:\r\n", max_seconds);
return Failure;
}
AtCmdFrame::AtCmdResp cmdresp;
const uint16_t milliseconds = seconds * 1000;
cmdresp = set_param(remote, "IR", milliseconds);
if (cmdresp != AtCmdFrame::AtCmdRespOk) {
digi_log(LogLevelError, "XBee::set_io_sample_rate error %d:\r\n", cmdresp);
return Failure;
}
return Success;
}