2 * radio.c from Access Point SNMP Utils for Linux
4 * Copyright (c) 2002 Roman Festchook <roma at polesye dot net>
6 * This program is free software; you can redistribute it and/or modify
7 * it under the terms of the GNU General Public License Version 2 from
8 * June 1991 as published by the Free Software Foundation.
10 * This program is distributed in the hope that it will be useful, but
11 * WITHOUT ANY WARRANTY; without even the implied warranty of
12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 * GNU General Public License for more details.
15 * You should have received a copy of the GNU General Public License along
16 * with this program; if not, write to the Free Software Foundation, Inc.,
17 * 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
23 #include <sys/types.h>
25 #include "ap-curses.h"
27 #define RADIO_HELP _("[key] - power level; UIOP or LR - antenna; W - write config; Q - quit to menu")
29 #define ANTENNA _("Antenna:")
30 #define ANTENNA_LEFT _("[L] Left:")
31 #define ANTENNA_RIGHT _("[R] Right:")
33 extern WINDOW *main_sub;
38 char TestModeRadioConfiguration[] =
39 { 0x2B, 0x06, 0x01, 0x04, 0x01, 0x83, 0x1A, 0x01, 0x01, 0x08, 0x08,
43 char operAntennaSettings[] =
44 { 0x2B, 0x06, 0x01, 0x04, 0x01, 0x83, 0x1A, 0x01, 0x02, 0x01, 0x0C,
48 #if defined(WORDS_BIGENDIAN)
49 struct twobytes_antenna_struct {
58 struct onebyte_antenna_struct {
63 #else /* !WORDS_BIGENDIAN */
64 struct twobytes_antenna_struct {
73 struct onebyte_antenna_struct {
78 #endif /* !WORDS_BIGENDIAN */
81 struct twobytes_antenna_struct antennas_tb;
82 unsigned short antennai;
83 struct onebyte_antenna_struct antennas_ob;
89 unsigned char power[14], m_power = 0, a[] = { 0, 0 }, m_antenna = 0;
91 int i, c = 0, antenna_vlen;
93 if (ap_type == ATMEL12350) {
94 TestModeRadioConfiguration[5] = 0xE0;
95 TestModeRadioConfiguration[6] = 0x3E;
96 operAntennaSettings[5] = 0xE0;
97 operAntennaSettings[6] = 0x3E;
100 varbinds[0].oid = TestModeRadioConfiguration;
101 varbinds[0].len_oid = sizeof(TestModeRadioConfiguration);
102 varbinds[0].value = TestModeRadioConfiguration;
103 varbinds[0].len_val = 0;
104 varbinds[0].type = NULL_VALUE;
105 varbinds[1].oid = operAntennaSettings;
106 varbinds[1].value = TestModeRadioConfiguration;
107 varbinds[1].len_oid = sizeof(operAntennaSettings);
108 varbinds[1].len_val = 0;
109 varbinds[1].type = NULL_VALUE;
111 print_help(WAIT_RET);
112 if (snmp(varbinds, 2, GET) <= 0) {
113 print_helperr(ERR_RET);
116 print_help(RADIO_HELP);
118 memcpy(power, varbinds[0].value, 14);
119 antenna_vlen = varbinds[1].len_val;
121 print_title(_("Radio Configuration"));
122 mvwaddstr(main_sub, 0, 1, _("Output RF signal power level (CR31 register values)"));
123 mvwaddstr(main_sub, 1, 1, "---------------------------------------------------");
124 mvwaddstr(main_sub, 2, 1, _("Key Channel Level"));
126 for (i = 0; i < 14; i++) {
127 sprintf(message, "[%X] %02u %3u", i + 1, i + 1, power[i]);
128 mvwaddstr(main_sub, i + 3, 1, message);
131 if (antenna_vlen == 2) {
132 memcpy(&antenna.antennai, varbinds[1].value, 2);
133 antenna.antennai = ntohs(antenna.antennai);
134 sprintf(message, "%s %s %3s, %s %3s",
136 ANTENNA_RX_LEFT, (antenna.antennas_tb.recv_left) ? ON : OFF,
137 ANTENNA_RX_RIGHT, (antenna.antennas_tb.recv_right) ? ON : OFF);
138 mvwaddstr(main_sub, 18, 1, message);
139 sprintf(message, "%s %s %3s, %s %3s",
141 ANTENNA_TX_LEFT, (antenna.antennas_tb.trans_left) ? ON : OFF,
142 ANTENNA_TX_RIGHT, (antenna.antennas_tb.trans_right) ? ON : OFF);
143 mvwaddstr(main_sub, 19, 1, message);
144 } else { /* antenna_vlen == 1 */
145 antenna.antennac = *varbinds[1].value;
146 sprintf(message, "%s %s %3s, %s %3s",
148 ANTENNA_LEFT, (antenna.antennas_ob.left) ? ON : OFF,
149 ANTENNA_RIGHT, (antenna.antennas_ob.right) ? ON : OFF);
150 mvwaddstr(main_sub, 18, 1, message);
178 i = strtol(a, NULL, 16);
179 get_value(message, i + 2, 14, 4, INT_STRING, 0, 255, RADIO_HELP);
180 c = atoi(message) & 0xFF;
186 if (antenna_vlen == 1)
188 i = strlen(ANTENNA_RX) + 1 +
189 strlen(ANTENNA_RX_LEFT) + 6 +
190 strlen(ANTENNA_RX_RIGHT) + 2;
191 m_antenna = on_off(18, i);
192 antenna.antennas_tb.recv_right = (m_antenna == 2) ? 0 : 1;
193 sprintf(message, "%3s", (antenna.antennas_tb.recv_right) ? ON : OFF);
194 print_menusel(18, i, NULL, message);
198 if (antenna_vlen == 1)
200 i = strlen(ANTENNA_RX) + 1 +
201 strlen(ANTENNA_RX_LEFT) + 2;
202 m_antenna = on_off(18, i);
203 antenna.antennas_tb.recv_left = (m_antenna == 2) ? 0 : 1;
204 sprintf(message, "%3s", (antenna.antennas_tb.recv_left) ? ON : OFF);
205 print_menusel(18, i, NULL, message);
209 if (antenna_vlen == 1)
211 i = strlen(ANTENNA_TX) + 1 +
212 strlen(ANTENNA_TX_LEFT) + 6 +
213 strlen(ANTENNA_TX_RIGHT) + 2;
214 m_antenna = on_off(19, i);
215 antenna.antennas_tb.trans_right = (m_antenna == 2) ? 0 : 1;
216 sprintf(message, "%3s", (antenna.antennas_tb.trans_right) ? ON : OFF);
217 print_menusel(19, i, NULL, message);
221 if (antenna_vlen == 1)
223 i = strlen(ANTENNA_TX) + 1 +
224 strlen(ANTENNA_TX_LEFT) + 2;
225 m_antenna = on_off(19, i);
226 antenna.antennas_tb.trans_left = (m_antenna == 2) ? 0 : 1;
227 sprintf(message, "%3s", (antenna.antennas_tb.trans_left) ? ON : OFF);
228 print_menusel(19, i, NULL, message);
232 if (antenna_vlen == 2)
234 i = strlen(ANTENNA) + 1 +
235 strlen(ANTENNA_LEFT) + 6 +
236 strlen(ANTENNA_RIGHT) + 2;
237 m_antenna = on_off(18, i);
238 antenna.antennas_ob.right = (m_antenna == 2) ? 0 : 1;
239 sprintf(message, "%3s", (antenna.antennas_ob.right) ? ON : OFF);
240 print_menusel(18, i, NULL, message);
244 if (antenna_vlen == 2)
246 i = strlen(ANTENNA) + 1 +
247 strlen(ANTENNA_LEFT) + 2;
248 m_antenna = on_off(18, i);
249 antenna.antennas_ob.left = (m_antenna == 2) ? 0 : 1;
250 sprintf(message, "%3s", (antenna.antennas_ob.left) ? ON : OFF);
251 print_menusel(18, i, NULL, message);
260 varbinds[i].oid = TestModeRadioConfiguration;
261 varbinds[i].len_oid = sizeof(TestModeRadioConfiguration);
262 varbinds[i].value = power;
263 varbinds[i].len_val = 14;
264 varbinds[i].type = STRING_VALUE;
269 if ( (antenna_vlen == 1 &&
270 (antenna.antennas_ob.left == 0 &&
271 antenna.antennas_ob.right == 0))
273 (antenna_vlen == 2 &&
274 ( (antenna.antennas_tb.trans_left == 0 &&
275 antenna.antennas_tb.trans_right == 0) ||
276 (antenna.antennas_tb.recv_left == 0 &&
277 antenna.antennas_tb.recv_right == 0))) ) {
280 ("You can't disable both antennas; unable to save antenna-config. Press any key."));
284 varbinds[i].oid = operAntennaSettings;
285 varbinds[i].len_oid = sizeof(operAntennaSettings);
286 if (antenna_vlen == 2) {
287 unsigned short antenna_hw = htons(antenna.antennai);
289 varbinds[i].value = (char *) &antenna_hw;
290 } else /* antenna_vlen == 1 */
291 varbinds[i].value = &antenna.antennac;
292 varbinds[i].type = INT_VALUE;
293 varbinds[i].len_val = antenna_vlen;
298 print_help(WAIT_SET);
299 if (snmp(varbinds, i, SET) <= 0) {
300 print_helperr(ERR_SET);