3 * Copyright (C) 2014 John Crispin <blogic@openwrt.org>
5 * This program is free software; you can redistribute it and/or modify
6 * it under the terms of the GNU General Public License version 2
7 * as published by the Free Software Foundation
9 * This program is distributed in the hope that it will be useful,
10 * but WITHOUT ANY WARRANTY; without even the implied warranty of
11 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
12 * GNU General Public License for more details.
15 #define __STDC_FORMAT_MACROS
18 #include <sys/types.h>
29 #include <libubox/utils.h>
30 #include <libubox/uloop.h>
34 #include "data/mbim-service-basic-connect.h"
39 struct mbim_handler *current_handler;
40 static uint8_t uuid_context_type_internet[16] = { 0x7E, 0x5E, 0x2A, 0x7E, 0x4E, 0x6F, 0x72, 0x72, 0x73, 0x6B, 0x65, 0x6E, 0x7E, 0x5E, 0x2A, 0x7E };
45 mbim_device_caps_response(void *buffer, int len)
47 struct mbim_basic_connect_device_caps_r *caps = (struct mbim_basic_connect_device_caps_r *) buffer;
48 char *deviceid, *firmwareinfo, *hardwareinfo;
50 if (len < sizeof(struct mbim_basic_connect_device_caps_r)) {
51 fprintf(stderr, "message not long enough\n");
55 deviceid = mbim_get_string(&caps->deviceid, buffer);
56 firmwareinfo = mbim_get_string(&caps->firmwareinfo, buffer);
57 hardwareinfo = mbim_get_string(&caps->hardwareinfo, buffer);
59 printf(" devicetype: %04X - %s\n", le32toh(caps->devicetype),
60 mbim_enum_string(mbim_device_type_values, le32toh(caps->devicetype)));
61 printf(" cellularclass: %04X\n", le32toh(caps->cellularclass));
62 printf(" voiceclass: %04X - %s\n", le32toh(caps->voiceclass),
63 mbim_enum_string(mbim_voice_class_values, le32toh(caps->voiceclass)));
64 printf(" simclass: %04X\n", le32toh(caps->simclass));
65 printf(" dataclass: %04X\n", le32toh(caps->dataclass));
66 printf(" smscaps: %04X\n", le32toh(caps->smscaps));
67 printf(" controlcaps: %04X\n", le32toh(caps->controlcaps));
68 printf(" maxsessions: %04X\n", le32toh(caps->maxsessions));
69 printf(" deviceid: %s\n", deviceid);
70 printf(" firmwareinfo: %s\n", firmwareinfo);
71 printf(" hardwareinfo: %s\n", hardwareinfo);
77 mbim_pin_state_response(void *buffer, int len)
79 struct mbim_basic_connect_pin_r *pin = (struct mbim_basic_connect_pin_r *) buffer;
81 if (len < sizeof(struct mbim_basic_connect_pin_r)) {
82 fprintf(stderr, "message not long enough\n");
86 if (le32toh(pin->pinstate) != MBIM_PIN_STATE_UNLOCKED) {
87 fprintf(stderr, "required pin: %d - %s\n",
88 le32toh(pin->pintype), mbim_enum_string(mbim_pin_type_values, le32toh(pin->pintype)));
89 fprintf(stderr, "remaining attempts: %d\n", le32toh(pin->remainingattempts));
90 return le32toh(pin->pintype);
93 fprintf(stderr, "Pin Unlocked\n");
99 mbim_registration_response(void *buffer, int len)
101 struct mbim_basic_connect_register_state_r *state = (struct mbim_basic_connect_register_state_r *) buffer;
102 char *provider_id, *provider_name, *roamingtext;
104 if (len < sizeof(struct mbim_basic_connect_register_state_r)) {
105 fprintf(stderr, "message not long enough\n");
109 provider_id = mbim_get_string(&state->providerid, buffer);
110 provider_name = mbim_get_string(&state->providername, buffer);
111 roamingtext = mbim_get_string(&state->roamingtext, buffer);
113 printf(" nwerror: %04X - %s\n", le32toh(state->nwerror),
114 mbim_enum_string(mbim_nw_error_values, le32toh(state->nwerror)));
115 printf(" registerstate: %04X - %s\n", le32toh(state->registerstate),
116 mbim_enum_string(mbim_register_state_values, le32toh(state->registerstate)));
117 printf(" registermode: %04X - %s\n", le32toh(state->registermode),
118 mbim_enum_string(mbim_register_mode_values, le32toh(state->registermode)));
119 printf(" availabledataclasses: %04X - %s\n", le32toh(state->availabledataclasses),
120 mbim_enum_string(mbim_data_class_values, le32toh(state->availabledataclasses)));
121 printf(" currentcellularclass: %04X - %s\n", le32toh(state->currentcellularclass),
122 mbim_enum_string(mbim_cellular_class_values, le32toh(state->currentcellularclass)));
123 printf(" provider_id: %s\n", provider_id);
124 printf(" provider_name: %s\n", provider_name);
125 printf(" roamingtext: %s\n", roamingtext);
127 if (le32toh(state->registerstate) == MBIM_REGISTER_STATE_HOME)
130 return le32toh(state->registerstate);
134 mbim_subscriber_response(void *buffer, int len)
136 struct mbim_basic_connect_subscriber_ready_status_r *state = (struct mbim_basic_connect_subscriber_ready_status_r *) buffer;
137 char *subscriberid, *simiccid;
140 if (len < sizeof(struct mbim_basic_connect_subscriber_ready_status_r)) {
141 fprintf(stderr, "message not long enough\n");
145 subscriberid = mbim_get_string(&state->subscriberid, buffer);
146 simiccid = mbim_get_string(&state->simiccid, buffer);
148 printf(" readystate: %04X - %s\n", le32toh(state->readystate),
149 mbim_enum_string(mbim_subscriber_ready_state_values, le32toh(state->readystate)));
150 printf(" simiccid: %s\n", simiccid);
151 printf(" subscriberid: %s\n", subscriberid);
152 if (le32toh(state->readyinfo) & MBIM_READY_INFO_FLAG_PROTECT_UNIQUE_ID)
153 printf(" dont display subscriberID: 1\n");
154 for (nr = 0; nr < le32toh(state->telephonenumberscount); nr++) {
155 struct mbim_string *str = (void *)&state->telephonenumbers + (nr * sizeof(struct mbim_string));
156 char *number = mbim_get_string(str, buffer);
157 printf(" number: %s\n", number);
160 if (MBIM_SUBSCRIBER_READY_STATE_INITIALIZED == le32toh(state->readystate))
163 return le32toh(state->readystate);
167 mbim_attach_response(void *buffer, int len)
169 struct mbim_basic_connect_packet_service_r *ps = (struct mbim_basic_connect_packet_service_r *) buffer;
171 if (len < sizeof(struct mbim_basic_connect_packet_service_r)) {
172 fprintf(stderr, "message not long enough\n");
176 printf(" nwerror: %04X - %s\n", le32toh(ps->nwerror),
177 mbim_enum_string(mbim_nw_error_values, le32toh(ps->nwerror)));
178 printf(" packetservicestate: %04X - %s\n", le32toh(ps->packetservicestate),
179 mbim_enum_string(mbim_packet_service_state_values, le32toh(ps->packetservicestate)));
180 printf(" uplinkspeed: %"PRIu64"\n", (uint64_t) le64toh(ps->uplinkspeed));
181 printf(" downlinkspeed: %"PRIu64"\n", (uint64_t) le64toh(ps->downlinkspeed));
183 if (MBIM_PACKET_SERVICE_STATE_ATTACHED == le32toh(ps->packetservicestate))
186 return le32toh(ps->packetservicestate);
190 mbim_connect_response(void *buffer, int len)
192 struct mbim_basic_connect_connect_r *c = (struct mbim_basic_connect_connect_r *) buffer;
194 if (len < sizeof(struct mbim_basic_connect_connect_r)) {
195 fprintf(stderr, "message not long enough\n");
199 printf(" sessionid: %d\n", le32toh(c->sessionid));
200 printf(" activationstate: %04X - %s\n", le32toh(c->activationstate),
201 mbim_enum_string(mbim_activation_state_values, le32toh(c->activationstate)));
202 printf(" voicecallstate: %04X - %s\n", le32toh(c->voicecallstate),
203 mbim_enum_string(mbim_voice_call_state_values, le32toh(c->voicecallstate)));
204 printf(" nwerror: %04X - %s\n", le32toh(c->nwerror),
205 mbim_enum_string(mbim_nw_error_values, le32toh(c->nwerror)));
206 printf(" iptype: %04X - %s\n", le32toh(c->iptype),
207 mbim_enum_string(mbim_context_ip_type_values, le32toh(c->iptype)));
209 if (MBIM_ACTIVATION_STATE_ACTIVATED == le32toh(c->activationstate))
212 return le32toh(c->activationstate);
216 mbim_config_response(void *buffer, int len)
218 struct mbim_basic_connect_ip_configuration_r *ip = (struct mbim_basic_connect_ip_configuration_r *) buffer;
223 if (len < sizeof(struct mbim_basic_connect_ip_configuration_r)) {
224 fprintf(stderr, "message not long enough\n");
228 if (le32toh(ip->ipv4configurationavailable) & MBIM_IP_CONFIGURATION_AVAILABLE_FLAG_ADDRESS)
229 for (i = 0; i < le32toh(ip->ipv4addresscount); i++) {
230 offset = le32toh(ip->ipv4address) + (i * 4);
231 mbim_get_ipv4(buffer, out, 4 + offset);
232 printf(" ipv4address: %s/%d\n", out, mbim_get_int(buffer, offset));
234 if (le32toh(ip->ipv4configurationavailable) & MBIM_IP_CONFIGURATION_AVAILABLE_FLAG_DNS) {
235 mbim_get_ipv4(buffer, out, le32toh(ip->ipv4gateway));
236 printf(" ipv4gateway: %s\n", out);
238 if (le32toh(ip->ipv4configurationavailable) & MBIM_IP_CONFIGURATION_AVAILABLE_FLAG_MTU)
239 printf(" ipv4mtu: %d\n", le32toh(ip->ipv4mtu));
240 if (le32toh(ip->ipv4configurationavailable) & MBIM_IP_CONFIGURATION_AVAILABLE_FLAG_DNS)
241 for (i = 0; i < le32toh(ip->ipv4dnsservercount); i++) {
242 mbim_get_ipv4(buffer, out, le32toh(ip->ipv4dnsserver) + (i * 4));
243 printf(" ipv4dnsserver: %s\n", out);
246 if (le32toh(ip->ipv6configurationavailable) & MBIM_IP_CONFIGURATION_AVAILABLE_FLAG_ADDRESS)
247 for (i = 0; i < le32toh(ip->ipv6addresscount); i++) {
248 offset = le32toh(ip->ipv6address) + (i * 16);
249 mbim_get_ipv6(buffer, out, 4 + offset);
250 printf(" ipv6address: %s/%d\n", out, mbim_get_int(buffer, offset));
252 if (le32toh(ip->ipv6configurationavailable) & MBIM_IP_CONFIGURATION_AVAILABLE_FLAG_DNS) {
253 mbim_get_ipv6(buffer, out, le32toh(ip->ipv6gateway));
254 printf(" ipv6gateway: %s\n", out);
256 if (le32toh(ip->ipv6configurationavailable) & MBIM_IP_CONFIGURATION_AVAILABLE_FLAG_MTU)
257 printf(" ipv6mtu: %d\n", le32toh(ip->ipv6mtu));
258 if (le32toh(ip->ipv6configurationavailable) & MBIM_IP_CONFIGURATION_AVAILABLE_FLAG_DNS)
259 for (i = 0; i < le32toh(ip->ipv6dnsservercount); i++) {
260 mbim_get_ipv6(buffer, out, le32toh(ip->ipv6dnsserver) + (i * 16));
261 printf(" ipv6dnsserver: %s\n", out);
268 mbim_radio_response(void *buffer, int len)
270 struct mbim_basic_connect_radio_state_r *r = (struct mbim_basic_connect_radio_state_r *) buffer;
272 if (len < sizeof(struct mbim_basic_connect_radio_state_r)) {
273 fprintf(stderr, "message not long enough\n");
276 printf(" hwradiostate: %s\n", r->hwradiostate ? "on" : "off");
277 printf(" swradiostate: %s\n", r->swradiostate ? "on" : "off");
282 mbim_device_caps_request(void)
284 mbim_setup_command_msg(basic_connect, MBIM_MESSAGE_COMMAND_TYPE_QUERY, MBIM_CMD_BASIC_CONNECT_DEVICE_CAPS, 0);
286 return mbim_send_command_msg();
290 mbim_pin_state_request(void)
292 mbim_setup_command_msg(basic_connect, MBIM_MESSAGE_COMMAND_TYPE_QUERY, MBIM_CMD_BASIC_CONNECT_PIN, 0);
294 return mbim_send_command_msg();
298 mbim_registration_request(void)
300 mbim_setup_command_msg(basic_connect, MBIM_MESSAGE_COMMAND_TYPE_QUERY, MBIM_CMD_BASIC_CONNECT_REGISTER_STATE, 0);
302 return mbim_send_command_msg();
306 mbim_subscriber_request(void)
308 mbim_setup_command_msg(basic_connect, MBIM_MESSAGE_COMMAND_TYPE_QUERY, MBIM_CMD_BASIC_CONNECT_SUBSCRIBER_READY_STATUS, 0);
310 return mbim_send_command_msg();
314 _mbim_attach_request(int action)
316 struct mbim_basic_connect_packet_service_s *ps =
317 (struct mbim_basic_connect_packet_service_s *) mbim_setup_command_msg(basic_connect,
318 MBIM_MESSAGE_COMMAND_TYPE_SET, MBIM_CMD_BASIC_CONNECT_PACKET_SERVICE,
319 sizeof(struct mbim_basic_connect_packet_service_s));
321 ps->packetserviceaction = htole32(action);
323 return mbim_send_command_msg();
327 mbim_attach_request(void)
329 return _mbim_attach_request(MBIM_PACKET_SERVICE_ACTION_ATTACH);
333 mbim_detach_request(void)
335 return _mbim_attach_request(MBIM_PACKET_SERVICE_ACTION_DETACH);
339 mbim_connect_request(void)
342 struct mbim_basic_connect_connect_s *c =
343 (struct mbim_basic_connect_connect_s *) mbim_setup_command_msg(basic_connect,
344 MBIM_MESSAGE_COMMAND_TYPE_SET, MBIM_CMD_BASIC_CONNECT_CONNECT,
345 sizeof(struct mbim_basic_connect_connect_s));
347 c->activationcommand = htole32(MBIM_ACTIVATION_COMMAND_ACTIVATE);
348 c->iptype = htole32(MBIM_CONTEXT_IP_TYPE_DEFAULT);
349 memcpy(c->contexttype, uuid_context_type_internet, 16);
351 apn = index(*_argv, ':');
357 if (!strcmp(*_argv, "ipv4"))
358 c->iptype = htole32(MBIM_CONTEXT_IP_TYPE_IPV4);
359 else if (!strcmp(*_argv, "ipv6"))
360 c->iptype = htole32(MBIM_CONTEXT_IP_TYPE_IPV6);
361 else if (!strcmp(*_argv, "ipv4v6"))
362 c->iptype = htole32(MBIM_CONTEXT_IP_TYPE_IPV4V6);
364 mbim_encode_string(&c->accessstring, apn);
367 if (!strcmp(_argv[1], "pap"))
368 c->authprotocol = htole32(MBIM_AUTH_PROTOCOL_PAP);
369 else if (!strcmp(_argv[1], "chap"))
370 c->authprotocol = htole32(MBIM_AUTH_PROTOCOL_CHAP);
371 else if (!strcmp(_argv[1], "mschapv2"))
372 c->authprotocol = htole32(MBIM_AUTH_PROTOCOL_MSCHAPV2);
374 if (c->authprotocol) {
375 mbim_encode_string(&c->username, _argv[2]);
376 mbim_encode_string(&c->password, _argv[3]);
379 return mbim_send_command_msg();
383 mbim_disconnect_request(void)
385 struct mbim_basic_connect_connect_s *c =
386 (struct mbim_basic_connect_connect_s *) mbim_setup_command_msg(basic_connect,
387 MBIM_MESSAGE_COMMAND_TYPE_SET, MBIM_CMD_BASIC_CONNECT_CONNECT,
388 sizeof(struct mbim_basic_connect_connect_s));
390 c->activationcommand = htole32(MBIM_ACTIVATION_COMMAND_DEACTIVATE);
391 memcpy(c->contexttype, uuid_context_type_internet, 16);
395 return mbim_send_command_msg();
399 mbim_pin_sanitize(char *pin)
403 while (*pin && !isdigit(*pin))
408 while (*pin && isdigit(*pin))
417 mbim_pin_unlock_request(void)
419 struct mbim_basic_connect_pin_s *p =
420 (struct mbim_basic_connect_pin_s *) mbim_setup_command_msg(basic_connect,
421 MBIM_MESSAGE_COMMAND_TYPE_SET, MBIM_CMD_BASIC_CONNECT_PIN,
422 sizeof(struct mbim_basic_connect_pin_s));
423 char *pin = mbim_pin_sanitize(_argv[0]);
425 if (!pin || !strlen(pin)) {
426 fprintf(stderr, "failed to sanitize the pincode\n");
430 p->pintype = htole32(MBIM_PIN_TYPE_PIN1);
431 p->pinoperation = htole32(MBIM_PIN_OPERATION_ENTER);
432 mbim_encode_string(&p->pin, _argv[0]);
434 return mbim_send_command_msg();
438 mbim_config_request(void)
440 mbim_setup_command_msg(basic_connect,
441 MBIM_MESSAGE_COMMAND_TYPE_QUERY, MBIM_CMD_BASIC_CONNECT_IP_CONFIGURATION,
442 sizeof(struct mbim_basic_connect_ip_configuration_q));
444 return mbim_send_command_msg();
448 mbim_radio_request(void)
451 struct mbim_basic_connect_radio_state_s *rs =
452 (struct mbim_basic_connect_radio_state_s *) mbim_setup_command_msg(basic_connect,
453 MBIM_MESSAGE_COMMAND_TYPE_SET, MBIM_CMD_BASIC_CONNECT_RADIO_STATE,
454 sizeof(struct mbim_basic_connect_radio_state_r));
456 if (!strcmp(_argv[0], "off"))
457 rs->radiostate = htole32(MBIM_RADIO_SWITCH_STATE_OFF);
459 rs->radiostate = htole32(MBIM_RADIO_SWITCH_STATE_ON);
461 mbim_setup_command_msg(basic_connect,
462 MBIM_MESSAGE_COMMAND_TYPE_QUERY, MBIM_CMD_BASIC_CONNECT_RADIO_STATE,
463 sizeof(struct mbim_basic_connect_radio_state_r));
465 return mbim_send_command_msg();
468 static struct mbim_handler handlers[] = {
469 { "caps", 0, mbim_device_caps_request, mbim_device_caps_response },
470 { "pinstate", 0, mbim_pin_state_request, mbim_pin_state_response },
471 { "unlock", 1, mbim_pin_unlock_request, mbim_pin_state_response },
472 { "registration", 0, mbim_registration_request, mbim_registration_response },
473 { "subscriber", 0, mbim_subscriber_request, mbim_subscriber_response },
474 { "attach", 0, mbim_attach_request, mbim_attach_response },
475 { "detach", 0, mbim_detach_request, mbim_attach_response },
476 { "connect", 0, mbim_connect_request, mbim_connect_response },
477 { "disconnect", 0, mbim_disconnect_request, mbim_connect_response },
478 { "config", 0, mbim_config_request, mbim_config_response },
479 { "radio", 0, mbim_radio_request, mbim_radio_response },
485 fprintf(stderr, "Usage: umbim <caps|pinstate|unlock|registration|subscriber|attach|detach|connect|disconnect|config|radio> [options]\n"
487 " -d <device> the device (/dev/cdc-wdmX)\n"
488 " -t <transaction> the transaction id\n"
495 main(int argc, char **argv)
497 char *cmd, *device = NULL;
498 int no_open = 0, ch, i;
500 while ((ch = getopt(argc, argv, "nvd:t:")) != -1) {
513 transaction_id = atoi(optarg);
520 if (!device || optind == argc)
526 _argc = argc - optind;
527 _argv = &argv[optind];
529 for (i = 0; i < ARRAY_SIZE(handlers); i++)
530 if (!strcmp(cmd, handlers[i].name))
531 current_handler = &handlers[i];
533 if (!current_handler || (optind + current_handler->argc > argc))
540 mbim_send_open_msg();
541 else if (current_handler->request() < 0)