blob: 151778efb48acce6084f5c520cb098a4277f55e0 [file] [log] [blame]
/* -*- Mode: C; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */
/*
* mmcli -- Control modem status & access information from the command line
*
* This program 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 2 of the License, or
* (at your option) any later version.
*
* This program 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 this program. If not, see <http://www.gnu.org/licenses/>.
*
* Copyright (C) 2018 Aleksander Morgado <aleksander@aleksander.es>
*/
#include <stdio.h>
#include <string.h>
#define _LIBMM_INSIDE_MMCLI
#include <libmm-glib.h>
#include "mm-common-helpers.h"
#include "mmcli-output.h"
/******************************************************************************/
/* List of sections (grouped fields) displayed in the human-friendly output */
typedef struct {
const gchar *name;
} SectionInfo;
static SectionInfo section_infos[] = {
[MMC_S_MODEM_GENERAL] = { "General" },
[MMC_S_MODEM_HARDWARE] = { "Hardware" },
[MMC_S_MODEM_SYSTEM] = { "System" },
[MMC_S_MODEM_NUMBERS] = { "Numbers" },
[MMC_S_MODEM_STATUS] = { "Status" },
[MMC_S_MODEM_MODES] = { "Modes" },
[MMC_S_MODEM_BANDS] = { "Bands" },
[MMC_S_MODEM_IP] = { "IP" },
[MMC_S_MODEM_CELL_INFO] = { "Cell info" },
[MMC_S_MODEM_3GPP] = { "3GPP" },
[MMC_S_MODEM_3GPP_EPS] = { "3GPP EPS" },
[MMC_S_MODEM_3GPP_5GNR] = { "3GPP 5GNR" },
[MMC_S_MODEM_3GPP_SCAN] = { "3GPP scan" },
[MMC_S_MODEM_3GPP_USSD] = { "3GPP USSD" },
[MMC_S_MODEM_3GPP_PROFILE_MANAGER] = { "3GPP profile manager" },
[MMC_S_MODEM_CDMA] = { "CDMA" },
[MMC_S_MODEM_SIM] = { "SIM" },
[MMC_S_MODEM_BEARER] = { "Bearer" },
[MMC_S_MODEM_TIME] = { "Time" },
[MMC_S_MODEM_TIMEZONE] = { "Timezone" },
[MMC_S_MODEM_MESSAGING] = { "Messaging" },
[MMC_S_MODEM_SIGNAL] = { "Signal" },
[MMC_S_MODEM_SIGNAL_CDMA1X] = { "CDMA1x" },
[MMC_S_MODEM_SIGNAL_EVDO] = { "EV-DO" },
[MMC_S_MODEM_SIGNAL_GSM] = { "GSM" },
[MMC_S_MODEM_SIGNAL_UMTS] = { "UMTS" },
[MMC_S_MODEM_SIGNAL_LTE] = { "LTE" },
[MMC_S_MODEM_SIGNAL_5G] = { "5G" },
[MMC_S_MODEM_OMA] = { "OMA" },
[MMC_S_MODEM_OMA_CURRENT] = { "Current session" },
[MMC_S_MODEM_OMA_PENDING] = { "Pending sessions" },
[MMC_S_MODEM_LOCATION] = { "Location" },
[MMC_S_MODEM_LOCATION_3GPP] = { "3GPP" },
[MMC_S_MODEM_LOCATION_GPS] = { "GPS" },
[MMC_S_MODEM_LOCATION_CDMABS] = { "CDMA BS" },
[MMC_S_MODEM_FIRMWARE] = { "Firmware" },
[MMC_S_MODEM_FIRMWARE_FASTBOOT] = { "Fastboot settings" },
[MMC_S_MODEM_VOICE] = { "Voice" },
[MMC_S_MODEM_SAR] = { "SAR" },
[MMC_S_BEARER_GENERAL] = { "General" },
[MMC_S_BEARER_STATUS] = { "Status" },
[MMC_S_BEARER_PROPERTIES] = { "Properties" },
[MMC_S_BEARER_IPV4_CONFIG] = { "IPv4 configuration" },
[MMC_S_BEARER_IPV6_CONFIG] = { "IPv6 configuration" },
[MMC_S_BEARER_STATS] = { "Statistics" },
[MMC_S_CALL_GENERAL] = { "General" },
[MMC_S_CALL_PROPERTIES] = { "Properties" },
[MMC_S_CALL_AUDIO_FORMAT] = { "Audio format" },
[MMC_S_SMS_GENERAL] = { "General" },
[MMC_S_SMS_CONTENT] = { "Content" },
[MMC_S_SMS_PROPERTIES] = { "Properties" },
[MMC_S_SIM_GENERAL] = { "General" },
[MMC_S_SIM_PROPERTIES] = { "Properties" },
};
/******************************************************************************/
/* List of fields */
typedef struct {
const gchar *key;
const gchar *name;
MmcS section;
} FieldInfo;
static FieldInfo field_infos[] = {
[MMC_F_GENERAL_DBUS_PATH] = { "modem.dbus-path", "path", MMC_S_MODEM_GENERAL, },
[MMC_F_GENERAL_DEVICE_ID] = { "modem.generic.device-identifier", "device id", MMC_S_MODEM_GENERAL, },
[MMC_F_HARDWARE_MANUFACTURER] = { "modem.generic.manufacturer", "manufacturer", MMC_S_MODEM_HARDWARE, },
[MMC_F_HARDWARE_MODEL] = { "modem.generic.model", "model", MMC_S_MODEM_HARDWARE, },
[MMC_F_HARDWARE_REVISION] = { "modem.generic.revision", "firmware revision", MMC_S_MODEM_HARDWARE, },
[MMC_F_HARDWARE_CARRIER_CONF] = { "modem.generic.carrier-configuration", "carrier config", MMC_S_MODEM_HARDWARE, },
[MMC_F_HARDWARE_CARRIER_CONF_REV] = { "modem.generic.carrier-configuration-revision", "carrier config revision", MMC_S_MODEM_HARDWARE, },
[MMC_F_HARDWARE_HW_REVISION] = { "modem.generic.hardware-revision", "h/w revision", MMC_S_MODEM_HARDWARE, },
[MMC_F_HARDWARE_SUPPORTED_CAPABILITIES] = { "modem.generic.supported-capabilities", "supported", MMC_S_MODEM_HARDWARE, },
[MMC_F_HARDWARE_CURRENT_CAPABILITIES] = { "modem.generic.current-capabilities", "current", MMC_S_MODEM_HARDWARE, },
[MMC_F_HARDWARE_EQUIPMENT_ID] = { "modem.generic.equipment-identifier", "equipment id", MMC_S_MODEM_HARDWARE, },
[MMC_F_SYSTEM_DEVICE] = { "modem.generic.device", "device", MMC_S_MODEM_SYSTEM, },
[MMC_F_SYSTEM_PHYSDEV] = { "modem.generic.physdev", "physdev", MMC_S_MODEM_SYSTEM, },
[MMC_F_SYSTEM_DRIVERS] = { "modem.generic.drivers", "drivers", MMC_S_MODEM_SYSTEM, },
[MMC_F_SYSTEM_PLUGIN] = { "modem.generic.plugin", "plugin", MMC_S_MODEM_SYSTEM, },
[MMC_F_SYSTEM_PRIMARY_PORT] = { "modem.generic.primary-port", "primary port", MMC_S_MODEM_SYSTEM, },
[MMC_F_SYSTEM_PORTS] = { "modem.generic.ports", "ports", MMC_S_MODEM_SYSTEM, },
[MMC_F_NUMBERS_OWN] = { "modem.generic.own-numbers", "own", MMC_S_MODEM_NUMBERS, },
[MMC_F_STATUS_LOCK] = { "modem.generic.unlock-required", "lock", MMC_S_MODEM_STATUS, },
[MMC_F_STATUS_UNLOCK_RETRIES] = { "modem.generic.unlock-retries", "unlock retries", MMC_S_MODEM_STATUS, },
[MMC_F_STATUS_STATE] = { "modem.generic.state", "state", MMC_S_MODEM_STATUS, },
[MMC_F_STATUS_FAILED_REASON] = { "modem.generic.state-failed-reason", "failed reason", MMC_S_MODEM_STATUS, },
[MMC_F_STATUS_POWER_STATE] = { "modem.generic.power-state", "power state", MMC_S_MODEM_STATUS, },
[MMC_F_STATUS_ACCESS_TECH] = { "modem.generic.access-technologies", "access tech", MMC_S_MODEM_STATUS, },
[MMC_F_STATUS_SIGNAL_QUALITY_VALUE] = { "modem.generic.signal-quality.value", "signal quality", MMC_S_MODEM_STATUS, },
[MMC_F_STATUS_SIGNAL_QUALITY_RECENT] = { "modem.generic.signal-quality.recent", NULL, MMC_S_UNKNOWN, },
[MMC_F_MODES_SUPPORTED] = { "modem.generic.supported-modes", "supported", MMC_S_MODEM_MODES, },
[MMC_F_MODES_CURRENT] = { "modem.generic.current-modes", "current", MMC_S_MODEM_MODES, },
[MMC_F_BANDS_SUPPORTED] = { "modem.generic.supported-bands", "supported", MMC_S_MODEM_BANDS, },
[MMC_F_BANDS_CURRENT] = { "modem.generic.current-bands", "current", MMC_S_MODEM_BANDS, },
[MMC_F_IP_SUPPORTED] = { "modem.generic.supported-ip-families", "supported", MMC_S_MODEM_IP, },
[MMC_F_CELL_INFO] = { "modem.generic.cell-info", "cells", MMC_S_MODEM_CELL_INFO, },
[MMC_F_3GPP_IMEI] = { "modem.3gpp.imei", "imei", MMC_S_MODEM_3GPP, },
[MMC_F_3GPP_ENABLED_LOCKS] = { "modem.3gpp.enabled-locks", "enabled locks", MMC_S_MODEM_3GPP, },
[MMC_F_3GPP_OPERATOR_ID] = { "modem.3gpp.operator-code", "operator id", MMC_S_MODEM_3GPP, },
[MMC_F_3GPP_OPERATOR_NAME] = { "modem.3gpp.operator-name", "operator name", MMC_S_MODEM_3GPP, },
[MMC_F_3GPP_REGISTRATION] = { "modem.3gpp.registration-state", "registration", MMC_S_MODEM_3GPP, },
[MMC_F_3GPP_PACKET_SERVICE_STATE] = { "modem.3gpp.packet-service-state", "packet service state", MMC_S_MODEM_3GPP, },
[MMC_F_3GPP_PCO] = { "modem.3gpp.pco", "pco", MMC_S_MODEM_3GPP, },
[MMC_F_3GPP_EPS_UE_MODE] = { "modem.3gpp.eps.ue-mode-operation", "ue mode of operation", MMC_S_MODEM_3GPP_EPS, },
[MMC_F_3GPP_EPS_INITIAL_BEARER_PATH] = { "modem.3gpp.eps.initial-bearer.dbus-path", "initial bearer path", MMC_S_MODEM_3GPP_EPS, },
[MMC_F_3GPP_EPS_BEARER_SETTINGS_APN] = { "modem.3gpp.eps.initial-bearer.settings.apn", "initial bearer apn", MMC_S_MODEM_3GPP_EPS, },
[MMC_F_3GPP_EPS_BEARER_SETTINGS_IP_TYPE] = { "modem.3gpp.eps.initial-bearer.settings.ip-type", "initial bearer ip type", MMC_S_MODEM_3GPP_EPS, },
[MMC_F_3GPP_EPS_BEARER_SETTINGS_USER] = { "modem.3gpp.eps.initial-bearer.settings.user", "initial bearer user", MMC_S_MODEM_3GPP_EPS, },
[MMC_F_3GPP_EPS_BEARER_SETTINGS_PASSWORD] = { "modem.3gpp.eps.initial-bearer.settings.password", "initial bearer password", MMC_S_MODEM_3GPP_EPS, },
[MMC_F_3GPP_5GNR_REGISTRATION_MICO_MODE] = { "modem.3gpp.5gnr.registration-settings.mico-mode", "mico mode", MMC_S_MODEM_3GPP_5GNR, },
[MMC_F_3GPP_5GNR_REGISTRATION_DRX_CYCLE] = { "modem.3gpp.5gnr.registration-settings.drx-cycle", "drx cycle", MMC_S_MODEM_3GPP_5GNR, },
[MMC_F_3GPP_SCAN_NETWORKS] = { "modem.3gpp.scan-networks", "networks", MMC_S_MODEM_3GPP_SCAN, },
[MMC_F_3GPP_USSD_STATUS] = { "modem.3gpp.ussd.status", "status", MMC_S_MODEM_3GPP_USSD, },
[MMC_F_3GPP_USSD_NETWORK_REQUEST] = { "modem.3gpp.ussd.network-request", "network request", MMC_S_MODEM_3GPP_USSD, },
[MMC_F_3GPP_USSD_NETWORK_NOTIFICATION] = { "modem.3gpp.ussd.network-notification", "network notification", MMC_S_MODEM_3GPP_USSD, },
[MMC_F_3GPP_PROFILE_MANAGER_INDEX_FIELD] = { "modem.3gpp.profile-manager.index-field", "index field", MMC_S_MODEM_3GPP_PROFILE_MANAGER, },
[MMC_F_3GPP_PROFILE_MANAGER_LIST] = { "modem.3gpp.profile-manager.list", "list", MMC_S_MODEM_3GPP_PROFILE_MANAGER, },
[MMC_F_3GPP_PROFILE_MANAGER_SET] = { "modem.3gpp.profile-manager.set", "set", MMC_S_MODEM_3GPP_PROFILE_MANAGER, },
[MMC_F_CDMA_MEID] = { "modem.cdma.meid", "meid", MMC_S_MODEM_CDMA, },
[MMC_F_CDMA_ESN] = { "modem.cdma.esn", "esn", MMC_S_MODEM_CDMA, },
[MMC_F_CDMA_SID] = { "modem.cdma.sid", "sid", MMC_S_MODEM_CDMA, },
[MMC_F_CDMA_NID] = { "modem.cdma.nid", "nid", MMC_S_MODEM_CDMA, },
[MMC_F_CDMA_REGISTRATION_CDMA1X] = { "modem.cdma.cdma1x-registration-state", "registration cdma1x", MMC_S_MODEM_CDMA, },
[MMC_F_CDMA_REGISTRATION_EVDO] = { "modem.cdma.evdo-registration-state", "registration evdo", MMC_S_MODEM_CDMA, },
[MMC_F_CDMA_ACTIVATION] = { "modem.cdma.activation-state", "activation", MMC_S_MODEM_CDMA, },
[MMC_F_SIM_PATH] = { "modem.generic.sim", "primary sim path", MMC_S_MODEM_SIM, },
[MMC_F_SIM_PRIMARY_SLOT] = { "modem.generic.primary-sim-slot", NULL, MMC_S_MODEM_SIM, },
[MMC_F_SIM_SLOT_PATHS] = { "modem.generic.sim-slots", "sim slot paths", MMC_S_MODEM_SIM, },
[MMC_F_BEARER_PATHS] = { "modem.generic.bearers", "paths", MMC_S_MODEM_BEARER, },
[MMC_F_TIME_CURRENT] = { "modem.time.current", "current", MMC_S_MODEM_TIME, },
[MMC_F_TIMEZONE_CURRENT] = { "modem.timezone.current", "current", MMC_S_MODEM_TIMEZONE, },
[MMC_F_TIMEZONE_DST_OFFSET] = { "modem.time.dst-offset", "dst offset", MMC_S_MODEM_TIMEZONE, },
[MMC_F_TIMEZONE_LEAP_SECONDS] = { "modem.time.leap-seconds", "leap seconds", MMC_S_MODEM_TIMEZONE, },
[MMC_F_MESSAGING_SUPPORTED_STORAGES] = { "modem.messaging.supported-storages", "supported storages", MMC_S_MODEM_MESSAGING, },
[MMC_F_MESSAGING_DEFAULT_STORAGES] = { "modem.messaging.default-storages", "default storages", MMC_S_MODEM_MESSAGING, },
[MMC_F_MESSAGING_CREATED_SMS] = { "modem.messaging.created-sms", "created sms", MMC_S_MODEM_MESSAGING, },
[MMC_F_SIGNAL_REFRESH_RATE] = { "modem.signal.refresh.rate", "refresh rate", MMC_S_MODEM_SIGNAL, },
[MMC_F_SIGNAL_RSSI_THRESHOLD] = { "modem.signal.threshold.rssi", "rssi threshold", MMC_S_MODEM_SIGNAL, },
[MMC_F_SIGNAL_ERROR_RATE_THRESHOLD] = { "modem.signal.threshold.error-rate", "error rate threshold", MMC_S_MODEM_SIGNAL, },
[MMC_F_SIGNAL_CDMA1X_RSSI] = { "modem.signal.cdma1x.rssi", "rssi", MMC_S_MODEM_SIGNAL_CDMA1X, },
[MMC_F_SIGNAL_CDMA1X_ECIO] = { "modem.signal.cdma1x.ecio", "ecio", MMC_S_MODEM_SIGNAL_CDMA1X, },
[MMC_F_SIGNAL_CDMA1X_ERROR_RATE] = { "modem.signal.cdma1x.error-rate", "error rate", MMC_S_MODEM_SIGNAL_CDMA1X, },
[MMC_F_SIGNAL_EVDO_RSSI] = { "modem.signal.evdo.rssi", "rssi", MMC_S_MODEM_SIGNAL_EVDO, },
[MMC_F_SIGNAL_EVDO_ECIO] = { "modem.signal.evdo.ecio", "ecio", MMC_S_MODEM_SIGNAL_EVDO, },
[MMC_F_SIGNAL_EVDO_SINR] = { "modem.signal.evdo.sinr", "sinr", MMC_S_MODEM_SIGNAL_EVDO, },
[MMC_F_SIGNAL_EVDO_IO] = { "modem.signal.evdo.io", "io", MMC_S_MODEM_SIGNAL_EVDO, },
[MMC_F_SIGNAL_EVDO_ERROR_RATE] = { "modem.signal.evdo.error-rate", "error rate", MMC_S_MODEM_SIGNAL_EVDO, },
[MMC_F_SIGNAL_GSM_RSSI] = { "modem.signal.gsm.rssi", "rssi", MMC_S_MODEM_SIGNAL_GSM, },
[MMC_F_SIGNAL_GSM_ERROR_RATE] = { "modem.signal.gsm.error-rate", "error rate", MMC_S_MODEM_SIGNAL_GSM, },
[MMC_F_SIGNAL_UMTS_RSSI] = { "modem.signal.umts.rssi", "rssi", MMC_S_MODEM_SIGNAL_UMTS, },
[MMC_F_SIGNAL_UMTS_RSCP] = { "modem.signal.umts.rscp", "rscp", MMC_S_MODEM_SIGNAL_UMTS, },
[MMC_F_SIGNAL_UMTS_ECIO] = { "modem.signal.umts.ecio", "ecio", MMC_S_MODEM_SIGNAL_UMTS, },
[MMC_F_SIGNAL_UMTS_ERROR_RATE] = { "modem.signal.umts.error-rate", "error rate", MMC_S_MODEM_SIGNAL_UMTS, },
[MMC_F_SIGNAL_LTE_RSSI] = { "modem.signal.lte.rssi", "rssi", MMC_S_MODEM_SIGNAL_LTE, },
[MMC_F_SIGNAL_LTE_RSRQ] = { "modem.signal.lte.rsrq", "rsrq", MMC_S_MODEM_SIGNAL_LTE, },
[MMC_F_SIGNAL_LTE_RSRP] = { "modem.signal.lte.rsrp", "rsrp", MMC_S_MODEM_SIGNAL_LTE, },
[MMC_F_SIGNAL_LTE_SNR] = { "modem.signal.lte.snr", "s/n", MMC_S_MODEM_SIGNAL_LTE, },
[MMC_F_SIGNAL_LTE_ERROR_RATE] = { "modem.signal.lte.error-rate", "error rate", MMC_S_MODEM_SIGNAL_LTE, },
[MMC_F_SIGNAL_5G_RSRQ] = { "modem.signal.5g.rsrq", "rsrq", MMC_S_MODEM_SIGNAL_5G, },
[MMC_F_SIGNAL_5G_RSRP] = { "modem.signal.5g.rsrp", "rsrp", MMC_S_MODEM_SIGNAL_5G, },
[MMC_F_SIGNAL_5G_SNR] = { "modem.signal.5g.snr", "s/n", MMC_S_MODEM_SIGNAL_5G, },
[MMC_F_SIGNAL_5G_ERROR_RATE] = { "modem.signal.5g.error-rate", "error rate", MMC_S_MODEM_SIGNAL_5G, },
[MMC_F_OMA_FEATURES] = { "modem.oma.features", "features", MMC_S_MODEM_OMA, },
[MMC_F_OMA_CURRENT_TYPE] = { "modem.oma.current.type", "type", MMC_S_MODEM_OMA_CURRENT, },
[MMC_F_OMA_CURRENT_STATE] = { "modem.oma.current.state", "state", MMC_S_MODEM_OMA_CURRENT, },
[MMC_F_OMA_PENDING_SESSIONS] = { "modem.oma.pending-sessions", "sessions", MMC_S_MODEM_OMA_PENDING, },
[MMC_F_LOCATION_CAPABILITIES] = { "modem.location.capabilities", "capabilities", MMC_S_MODEM_LOCATION, },
[MMC_F_LOCATION_ENABLED] = { "modem.location.enabled", "enabled", MMC_S_MODEM_LOCATION, },
[MMC_F_LOCATION_SIGNALS] = { "modem.location.signals", "signals", MMC_S_MODEM_LOCATION, },
[MMC_F_LOCATION_GPS_REFRESH_RATE] = { "modem.location.gps.refresh-rate", "refresh rate", MMC_S_MODEM_LOCATION_GPS, },
[MMC_F_LOCATION_GPS_SUPL_SERVER] = { "modem.location.gps.supl-server", "a-gps supl server", MMC_S_MODEM_LOCATION_GPS, },
[MMC_F_LOCATION_GPS_ASSISTANCE] = { "modem.location.gps.assistance", "supported assistance", MMC_S_MODEM_LOCATION_GPS, },
[MMC_F_LOCATION_GPS_ASSISTANCE_SERVERS] = { "modem.location.gps.assistance-servers", "assistance servers", MMC_S_MODEM_LOCATION_GPS, },
[MMC_F_LOCATION_3GPP_MCC] = { "modem.location.3gpp.mcc", "operator mcc", MMC_S_MODEM_LOCATION_3GPP, },
[MMC_F_LOCATION_3GPP_MNC] = { "modem.location.3gpp.mnc", "operator mnc", MMC_S_MODEM_LOCATION_3GPP, },
[MMC_F_LOCATION_3GPP_LAC] = { "modem.location.3gpp.lac", "location area code", MMC_S_MODEM_LOCATION_3GPP, },
[MMC_F_LOCATION_3GPP_TAC] = { "modem.location.3gpp.tac", "tracking area code", MMC_S_MODEM_LOCATION_3GPP, },
[MMC_F_LOCATION_3GPP_CID] = { "modem.location.3gpp.cid", "cell id", MMC_S_MODEM_LOCATION_3GPP, },
[MMC_F_LOCATION_GPS_NMEA] = { "modem.location.gps.nmea", "nmea", MMC_S_MODEM_LOCATION_GPS, },
[MMC_F_LOCATION_GPS_UTC] = { "modem.location.gps.utc", "utc", MMC_S_MODEM_LOCATION_GPS, },
[MMC_F_LOCATION_GPS_LONG] = { "modem.location.gps.longitude", "longitude", MMC_S_MODEM_LOCATION_GPS, },
[MMC_F_LOCATION_GPS_LAT] = { "modem.location.gps.latitude", "latitude", MMC_S_MODEM_LOCATION_GPS, },
[MMC_F_LOCATION_GPS_ALT] = { "modem.location.gps.altitude", "altitude", MMC_S_MODEM_LOCATION_GPS, },
[MMC_F_LOCATION_CDMABS_LONG] = { "modem.location.cdma-bs.longitude", "longitude", MMC_S_MODEM_LOCATION_CDMABS, },
[MMC_F_LOCATION_CDMABS_LAT] = { "modem.location.cdma-bs.latitude", "latitude", MMC_S_MODEM_LOCATION_CDMABS, },
[MMC_F_FIRMWARE_LIST] = { "modem.firmware.list", "list", MMC_S_MODEM_FIRMWARE, },
[MMC_F_FIRMWARE_METHOD] = { "modem.firmware.method", "method", MMC_S_MODEM_FIRMWARE, },
[MMC_F_FIRMWARE_DEVICE_IDS] = { "modem.firmware.device-ids", "device ids", MMC_S_MODEM_FIRMWARE, },
[MMC_F_FIRMWARE_VERSION] = { "modem.firmware.version", "version", MMC_S_MODEM_FIRMWARE, },
[MMC_F_FIRMWARE_FASTBOOT_AT] = { "modem.firmware.fastboot.at", "at command", MMC_S_MODEM_FIRMWARE_FASTBOOT, },
[MMC_F_VOICE_EMERGENCY_ONLY] = { "modem.voice.emergency-only", "emergency only", MMC_S_MODEM_VOICE, },
[MMC_F_BEARER_GENERAL_DBUS_PATH] = { "bearer.dbus-path", "path", MMC_S_BEARER_GENERAL, },
[MMC_F_BEARER_GENERAL_TYPE] = { "bearer.type", "type", MMC_S_BEARER_GENERAL, },
[MMC_F_BEARER_STATUS_CONNECTED] = { "bearer.status.connected", "connected", MMC_S_BEARER_STATUS, },
[MMC_F_BEARER_STATUS_CONNECTION_ERROR_NAME] = { "bearer.status.connection-error.name", "connection error name", MMC_S_BEARER_STATUS, },
[MMC_F_BEARER_STATUS_CONNECTION_ERROR_MESSAGE] = { "bearer.status.connection-error.message", "connection error message", MMC_S_BEARER_STATUS, },
[MMC_F_BEARER_STATUS_SUSPENDED] = { "bearer.status.suspended", "suspended", MMC_S_BEARER_STATUS, },
[MMC_F_BEARER_STATUS_MULTIPLEXED] = { "bearer.status.multiplexed", "multiplexed", MMC_S_BEARER_STATUS, },
[MMC_F_BEARER_STATUS_INTERFACE] = { "bearer.status.interface", "interface", MMC_S_BEARER_STATUS, },
[MMC_F_BEARER_STATUS_IP_TIMEOUT] = { "bearer.status.ip-timeout", "ip timeout", MMC_S_BEARER_STATUS, },
[MMC_F_BEARER_STATUS_PROFILE_ID] = { "bearer.status.profile-id", "profile id", MMC_S_BEARER_STATUS, },
[MMC_F_BEARER_PROPERTIES_APN] = { "bearer.properties.apn", "apn", MMC_S_BEARER_PROPERTIES, },
[MMC_F_BEARER_PROPERTIES_APN_TYPE] = { "bearer.properties.apn-type", "apn type", MMC_S_BEARER_PROPERTIES, },
[MMC_F_BEARER_PROPERTIES_ROAMING] = { "bearer.properties.roaming", "roaming", MMC_S_BEARER_PROPERTIES, },
[MMC_F_BEARER_PROPERTIES_IP_TYPE] = { "bearer.properties.ip-type", "ip type", MMC_S_BEARER_PROPERTIES, },
[MMC_F_BEARER_PROPERTIES_ALLOWED_AUTH] = { "bearer.properties.allowed-auth", "allowed-auth", MMC_S_BEARER_PROPERTIES, },
[MMC_F_BEARER_PROPERTIES_USER] = { "bearer.properties.user", "user", MMC_S_BEARER_PROPERTIES, },
[MMC_F_BEARER_PROPERTIES_PASSWORD] = { "bearer.properties.password", "password", MMC_S_BEARER_PROPERTIES, },
[MMC_F_BEARER_PROPERTIES_PROFILE_ID] = { "bearer.properties.profile-id", "profile id", MMC_S_BEARER_PROPERTIES, },
[MMC_F_BEARER_PROPERTIES_NUMBER] = { "bearer.properties.number", "number", MMC_S_BEARER_PROPERTIES, },
[MMC_F_BEARER_PROPERTIES_RM_PROTOCOL] = { "bearer.properties.rm-protocol", "rm protocol", MMC_S_BEARER_PROPERTIES, },
[MMC_F_BEARER_PROPERTIES_ACCESS_TYPE_PREFERENCE] = { "bearer.properties.access-type-preference", "access type preference", MMC_S_BEARER_PROPERTIES, },
[MMC_F_BEARER_PROPERTIES_ROAMING_ALLOWANCE] = { "bearer.properties.roaming-allowance", "roaming allowance", MMC_S_BEARER_PROPERTIES, },
[MMC_F_BEARER_IPV4_CONFIG_METHOD] = { "bearer.ipv4-config.method", "method", MMC_S_BEARER_IPV4_CONFIG, },
[MMC_F_BEARER_IPV4_CONFIG_ADDRESS] = { "bearer.ipv4-config.address", "address", MMC_S_BEARER_IPV4_CONFIG, },
[MMC_F_BEARER_IPV4_CONFIG_PREFIX] = { "bearer.ipv4-config.prefix", "prefix", MMC_S_BEARER_IPV4_CONFIG, },
[MMC_F_BEARER_IPV4_CONFIG_GATEWAY] = { "bearer.ipv4-config.gateway", "gateway", MMC_S_BEARER_IPV4_CONFIG, },
[MMC_F_BEARER_IPV4_CONFIG_DNS] = { "bearer.ipv4-config.dns", "dns", MMC_S_BEARER_IPV4_CONFIG, },
[MMC_F_BEARER_IPV4_CONFIG_MTU] = { "bearer.ipv4-config.mtu", "mtu", MMC_S_BEARER_IPV4_CONFIG, },
[MMC_F_BEARER_IPV6_CONFIG_METHOD] = { "bearer.ipv6-config.method", "method", MMC_S_BEARER_IPV6_CONFIG, },
[MMC_F_BEARER_IPV6_CONFIG_ADDRESS] = { "bearer.ipv6-config.address", "address", MMC_S_BEARER_IPV6_CONFIG, },
[MMC_F_BEARER_IPV6_CONFIG_PREFIX] = { "bearer.ipv6-config.prefix", "prefix", MMC_S_BEARER_IPV6_CONFIG, },
[MMC_F_BEARER_IPV6_CONFIG_GATEWAY] = { "bearer.ipv6-config.gateway", "gateway", MMC_S_BEARER_IPV6_CONFIG, },
[MMC_F_BEARER_IPV6_CONFIG_DNS] = { "bearer.ipv6-config.dns", "dns", MMC_S_BEARER_IPV6_CONFIG, },
[MMC_F_BEARER_IPV6_CONFIG_MTU] = { "bearer.ipv6-config.mtu", "mtu", MMC_S_BEARER_IPV6_CONFIG, },
[MMC_F_BEARER_STATS_START_DATE] = { "bearer.stats.start-date", "start date", MMC_S_BEARER_STATS, },
[MMC_F_BEARER_STATS_DURATION] = { "bearer.stats.duration", "duration", MMC_S_BEARER_STATS, },
[MMC_F_BEARER_STATS_UPLINK_SPEED] = { "bearer.stats.uplink-speed", "uplink-speed", MMC_S_BEARER_STATS, },
[MMC_F_BEARER_STATS_DOWNLINK_SPEED] = { "bearer.stats.downlink-speed", "downlink-speed", MMC_S_BEARER_STATS, },
[MMC_F_BEARER_STATS_BYTES_RX] = { "bearer.stats.bytes-rx", "bytes rx", MMC_S_BEARER_STATS, },
[MMC_F_BEARER_STATS_BYTES_TX] = { "bearer.stats.bytes-tx", "bytes tx", MMC_S_BEARER_STATS, },
[MMC_F_BEARER_STATS_ATTEMPTS] = { "bearer.stats.attempts", "attempts", MMC_S_BEARER_STATS, },
[MMC_F_BEARER_STATS_FAILED_ATTEMPTS] = { "bearer.stats.failed-attempts", "attempts", MMC_S_BEARER_STATS, },
[MMC_F_BEARER_STATS_TOTAL_DURATION] = { "bearer.stats.total-duration", "total-duration", MMC_S_BEARER_STATS, },
[MMC_F_BEARER_STATS_TOTAL_BYTES_RX] = { "bearer.stats.total-bytes-rx", "total-bytes rx", MMC_S_BEARER_STATS, },
[MMC_F_BEARER_STATS_TOTAL_BYTES_TX] = { "bearer.stats.total-bytes-tx", "total-bytes tx", MMC_S_BEARER_STATS, },
[MMC_F_CALL_GENERAL_DBUS_PATH] = { "call.dbus-path", "path", MMC_S_CALL_GENERAL, },
[MMC_F_CALL_PROPERTIES_NUMBER] = { "call.properties.number", "number", MMC_S_CALL_PROPERTIES, },
[MMC_F_CALL_PROPERTIES_DIRECTION] = { "call.properties.direction", "direction", MMC_S_CALL_PROPERTIES, },
[MMC_F_CALL_PROPERTIES_MULTIPARTY] = { "call.properties.multiparty", "multiparty", MMC_S_CALL_PROPERTIES, },
[MMC_F_CALL_PROPERTIES_STATE] = { "call.properties.state", "state", MMC_S_CALL_PROPERTIES, },
[MMC_F_CALL_PROPERTIES_STATE_REASON] = { "call.properties.state-reason", "state reason", MMC_S_CALL_PROPERTIES, },
[MMC_F_CALL_PROPERTIES_AUDIO_PORT] = { "call.properties.audio-port", "audio port", MMC_S_CALL_PROPERTIES, },
[MMC_F_CALL_AUDIO_FORMAT_ENCODING] = { "call.audio-format.encoding", "encoding", MMC_S_CALL_AUDIO_FORMAT, },
[MMC_F_CALL_AUDIO_FORMAT_RESOLUTION] = { "call.audio-format.resolution", "resolution", MMC_S_CALL_AUDIO_FORMAT, },
[MMC_F_CALL_AUDIO_FORMAT_RATE] = { "call.audio-format.rate", "rate", MMC_S_CALL_AUDIO_FORMAT, },
[MMC_F_SMS_GENERAL_DBUS_PATH] = { "sms.dbus-path", "path", MMC_S_SMS_GENERAL, },
[MMC_F_SMS_CONTENT_NUMBER] = { "sms.content.number", "number", MMC_S_SMS_CONTENT, },
[MMC_F_SMS_CONTENT_TEXT] = { "sms.content.text", "text", MMC_S_SMS_CONTENT, },
[MMC_F_SMS_CONTENT_DATA] = { "sms.content.data", "data", MMC_S_SMS_CONTENT, },
[MMC_F_SMS_PROPERTIES_PDU_TYPE] = { "sms.properties.pdu-type", "pdu type", MMC_S_SMS_PROPERTIES, },
[MMC_F_SMS_PROPERTIES_STATE] = { "sms.properties.state", "state", MMC_S_SMS_PROPERTIES, },
[MMC_F_SMS_PROPERTIES_VALIDITY] = { "sms.properties.validity", "validity", MMC_S_SMS_PROPERTIES, },
[MMC_F_SMS_PROPERTIES_STORAGE] = { "sms.properties.storage", "storage", MMC_S_SMS_PROPERTIES, },
[MMC_F_SMS_PROPERTIES_SMSC] = { "sms.properties.smsc", "smsc", MMC_S_SMS_PROPERTIES, },
[MMC_F_SMS_PROPERTIES_CLASS] = { "sms.properties.class", "class", MMC_S_SMS_PROPERTIES, },
[MMC_F_SMS_PROPERTIES_TELESERVICE_ID] = { "sms.properties.teleservice-id", "teleservice id", MMC_S_SMS_PROPERTIES, },
[MMC_F_SMS_PROPERTIES_SERVICE_CATEGORY] = { "sms.properties.service-category", "service category", MMC_S_SMS_PROPERTIES, },
[MMC_F_SMS_PROPERTIES_DELIVERY_REPORT] = { "sms.properties.delivery-report", "delivery report", MMC_S_SMS_PROPERTIES, },
[MMC_F_SMS_PROPERTIES_MSG_REFERENCE] = { "sms.properties.message-reference", "message reference", MMC_S_SMS_PROPERTIES, },
[MMC_F_SMS_PROPERTIES_TIMESTAMP] = { "sms.properties.timestamp", "timestamp", MMC_S_SMS_PROPERTIES, },
[MMC_F_SMS_PROPERTIES_DELIVERY_STATE] = { "sms.properties.delivery-state", "delivery state", MMC_S_SMS_PROPERTIES, },
[MMC_F_SMS_PROPERTIES_DISCH_TIMESTAMP] = { "sms.properties.discharge-timestamp", "discharge timestamp", MMC_S_SMS_PROPERTIES, },
[MMC_F_SIM_GENERAL_DBUS_PATH] = { "sim.dbus-path", "path", MMC_S_SIM_GENERAL, },
[MMC_F_SIM_PROPERTIES_ACTIVE] = { "sim.properties.active", "active", MMC_S_SIM_PROPERTIES, },
[MMC_F_SIM_PROPERTIES_IMSI] = { "sim.properties.imsi", "imsi", MMC_S_SIM_PROPERTIES, },
[MMC_F_SIM_PROPERTIES_ICCID] = { "sim.properties.iccid", "iccid", MMC_S_SIM_PROPERTIES, },
[MMC_F_SIM_PROPERTIES_EID] = { "sim.properties.eid", "eid", MMC_S_SIM_PROPERTIES, },
[MMC_F_SIM_PROPERTIES_GID1] = { "sim.properties.gid1", "gid1", MMC_S_SIM_PROPERTIES, },
[MMC_F_SIM_PROPERTIES_GID2] = { "sim.properties.gid2", "gid2", MMC_S_SIM_PROPERTIES, },
[MMC_F_SIM_PROPERTIES_OPERATOR_ID] = { "sim.properties.operator-code", "operator id", MMC_S_SIM_PROPERTIES, },
[MMC_F_SIM_PROPERTIES_OPERATOR_NAME] = { "sim.properties.operator-name", "operator name", MMC_S_SIM_PROPERTIES, },
[MMC_F_SIM_PROPERTIES_EMERGENCY_NUMBERS] = { "sim.properties.emergency-numbers", "emergency numbers", MMC_S_SIM_PROPERTIES, },
[MMC_F_SIM_PROPERTIES_PREFERRED_NETWORKS] = { "sim.properties.preferred-networks", "preferred networks", MMC_S_SIM_PROPERTIES, },
[MMC_F_SIM_PROPERTIES_SIM_TYPE] = { "sim.properties.sim-type", "type", MMC_S_SIM_PROPERTIES, },
[MMC_F_SIM_PROPERTIES_ESIM_STATUS] = { "sim.properties.esim-status", "esim status", MMC_S_SIM_PROPERTIES, },
[MMC_F_SIM_PROPERTIES_REMOVABILITY] = { "sim.properties.removability", "removability", MMC_S_SIM_PROPERTIES, },
[MMC_F_SAR_STATE] = { "modem.sar.state", "enabled", MMC_S_MODEM_SAR, },
[MMC_F_SAR_POWER_LEVEL] = { "modem.sar.power-level", "power level", MMC_S_MODEM_SAR, },
[MMC_F_MODEM_LIST_DBUS_PATH] = { "modem-list", "modems", MMC_S_UNKNOWN, },
[MMC_F_SMS_LIST_DBUS_PATH] = { "modem.messaging.sms", "sms messages", MMC_S_UNKNOWN, },
[MMC_F_CALL_LIST_DBUS_PATH] = { "modem.voice.call", "calls", MMC_S_UNKNOWN, },
};
/******************************************************************************/
/* Output type selection */
static MmcOutputType selected_type = MMC_OUTPUT_TYPE_NONE;
void
mmcli_output_set (MmcOutputType type)
{
selected_type = type;
}
MmcOutputType
mmcli_output_get (void)
{
return selected_type;
}
/******************************************************************************/
/* Generic output management */
typedef enum {
VALUE_TYPE_SINGLE,
VALUE_TYPE_MULTIPLE,
VALUE_TYPE_LISTITEM,
} ValueType;
typedef struct {
MmcF field;
ValueType type;
} OutputItem;
typedef struct {
OutputItem base;
gchar *value;
} OutputItemSingle;
typedef struct {
OutputItem base;
gchar **values;
gboolean multiline;
gboolean is_object;
} OutputItemMultiple;
typedef struct {
OutputItem base;
gchar *prefix;
gchar *value;
gchar *extra;
} OutputItemListitem;
static GList *output_items;
static void
output_item_free (OutputItem *item)
{
switch (item->type) {
case VALUE_TYPE_SINGLE:
g_free (((OutputItemSingle *)item)->value);
g_slice_free (OutputItemSingle, (OutputItemSingle *)item);
break;
case VALUE_TYPE_MULTIPLE:
g_strfreev (((OutputItemMultiple *)item)->values);
g_slice_free (OutputItemMultiple, (OutputItemMultiple *)item);
break;
case VALUE_TYPE_LISTITEM:
g_free (((OutputItemListitem *)item)->prefix);
g_free (((OutputItemListitem *)item)->value);
g_free (((OutputItemListitem *)item)->extra);
g_slice_free (OutputItemListitem, (OutputItemListitem *)item);
break;
default:
g_assert_not_reached ();
}
}
static gboolean
filter_out_value (const gchar *value)
{
return (!g_strcmp0 (value, "unknown") || !g_strcmp0 (value, "none"));
}
static void
output_item_new_take_single (MmcF field,
gchar *value)
{
OutputItemSingle *item;
item = g_slice_new0 (OutputItemSingle);
item->base.field = field;
item->base.type = VALUE_TYPE_SINGLE;
if (filter_out_value (value))
g_free (value);
else
item->value = value;
output_items = g_list_prepend (output_items, item);
}
static void
output_item_new_take_multiple (MmcF field,
gchar **values,
gboolean multiline,
gboolean is_object)
{
OutputItemMultiple *item;
item = g_slice_new0 (OutputItemMultiple);
item->base.field = field;
item->base.type = VALUE_TYPE_MULTIPLE;
item->multiline = multiline;
item->is_object = is_object;
if (values && (g_strv_length (values) == 1) && filter_out_value (values[0]))
g_strfreev (values);
else
item->values = values;
output_items = g_list_prepend (output_items, item);
}
static void
output_item_new_take_listitem (MmcF field,
gchar *prefix,
gchar *value,
gchar *extra)
{
OutputItemListitem *item;
item = g_slice_new0 (OutputItemListitem);
item->base.field = field;
item->base.type = VALUE_TYPE_LISTITEM;
item->prefix = prefix;
item->value = value;
item->extra = extra;
output_items = g_list_prepend (output_items, item);
}
void
mmcli_output_string_list (MmcF field,
const gchar *str)
{
gchar **split;
split = str ? g_strsplit (str, ",", -1) : NULL;
if (split) {
guint i;
for (i = 0; split[i]; i++)
g_strstrip (split[i]);
}
output_item_new_take_multiple (field, split, FALSE, FALSE);
}
void
mmcli_output_string_list_take (MmcF field,
gchar *str)
{
mmcli_output_string_list (field, str);
g_free (str);
}
void
mmcli_output_string_multiline (MmcF field,
const gchar *str)
{
gchar **split;
split = str ? g_strsplit (str, "\n", -1) : NULL;
if (split) {
guint i;
for (i = 0; split[i]; i++)
g_strstrip (split[i]);
}
output_item_new_take_multiple (field, split, TRUE, FALSE);
}
void
mmcli_output_string_multiline_take (MmcF field,
gchar *str)
{
mmcli_output_string_multiline (field, str);
g_free (str);
}
void
mmcli_output_string_array (MmcF field,
const gchar **strv,
gboolean multiline)
{
output_item_new_take_multiple (field, g_strdupv ((gchar **)strv), multiline, FALSE);
}
void
mmcli_output_string_array_take (MmcF field,
gchar **strv,
gboolean multiline)
{
output_item_new_take_multiple (field, strv, multiline, FALSE);
}
void
mmcli_output_string_array_multiline_take (MmcF field,
gchar **strv)
{
gchar **merged;
GPtrArray *pointers;
merged = NULL;
if (strv) {
guint i;
pointers = g_ptr_array_new ();
for (i = 0; strv[i]; i++) {
gchar **split;
split = strv[i] ? g_strsplit (strv[i], "\n", -1) : NULL;
if (split) {
guint n;
for (n = 0; split[n]; n++) {
if (split[n][0]) {
g_strstrip (split[n]);
g_ptr_array_add (pointers, g_strdup (split[n]));
}
}
g_strfreev (split);
}
}
g_strfreev (strv);
g_ptr_array_add (pointers, NULL);
merged = (gchar **)g_ptr_array_free (pointers, FALSE);
}
output_item_new_take_multiple (field, merged, TRUE, FALSE);
}
void
mmcli_output_string (MmcF field,
const gchar *str)
{
output_item_new_take_single (field, g_strdup (str));
}
void
mmcli_output_string_take (MmcF field,
gchar *str)
{
output_item_new_take_single (field, str);
}
void
mmcli_output_string_take_typed (MmcF field,
gchar *value,
const gchar *type)
{
if (value && selected_type == MMC_OUTPUT_TYPE_HUMAN) {
gchar *aux;
aux = g_strdup_printf ("%s %s", value, type);
g_free (value);
output_item_new_take_single (field, aux);
return;
}
output_item_new_take_single (field, value);
}
void
mmcli_output_listitem (MmcF field,
const gchar *prefix,
const gchar *value,
const gchar *extra)
{
output_item_new_take_listitem (field, g_strdup (prefix), g_strdup (value), g_strdup (extra));
}
/******************************************************************************/
/* (Custom) Signal quality output */
void
mmcli_output_signal_quality (MMModemState state,
guint value,
gboolean recent)
{
/* Merge value and recent flag in a single item in human output */
if (selected_type == MMC_OUTPUT_TYPE_HUMAN) {
if (state >= MM_MODEM_STATE_ENABLED)
output_item_new_take_single (MMC_F_STATUS_SIGNAL_QUALITY_VALUE,
g_strdup_printf ("%u%% (%s)", value, recent ? "recent" : "cached"));
else
output_item_new_take_single (MMC_F_STATUS_SIGNAL_QUALITY_VALUE, NULL);
return;
}
output_item_new_take_single (MMC_F_STATUS_SIGNAL_QUALITY_VALUE,
g_strdup_printf ("%u", value));
output_item_new_take_single (MMC_F_STATUS_SIGNAL_QUALITY_RECENT,
g_strdup_printf ("%s", recent ? "yes" : "no"));
}
/******************************************************************************/
/* (Custom) Bearer start date output */
void
mmcli_output_start_date (guint64 value)
{
/* Merge value and recent flag in a single item in human output */
if (selected_type == MMC_OUTPUT_TYPE_HUMAN) {
output_item_new_take_single (MMC_F_BEARER_STATS_START_DATE, mm_new_iso8601_time_from_unix_time (value, NULL));
return;
}
output_item_new_take_single (MMC_F_BEARER_STATS_START_DATE,
g_strdup_printf ("%" G_GUINT64_FORMAT, value));
}
/******************************************************************************/
/* (Custom) State output */
void
mmcli_output_state (MMModemState state,
MMModemStateFailedReason reason)
{
#define KNRM "\x1B[0m"
#define KRED "\x1B[31m"
#define KGRN "\x1B[32m"
#define KYEL "\x1B[33m"
if (selected_type == MMC_OUTPUT_TYPE_HUMAN) {
if (state == MM_MODEM_STATE_FAILED)
output_item_new_take_single (MMC_F_STATUS_STATE, g_strdup_printf (KRED "%s" KNRM, mm_modem_state_get_string (state)));
else if (state == MM_MODEM_STATE_CONNECTED)
output_item_new_take_single (MMC_F_STATUS_STATE, g_strdup_printf (KGRN "%s" KNRM, mm_modem_state_get_string (state)));
else if (state == MM_MODEM_STATE_CONNECTING)
output_item_new_take_single (MMC_F_STATUS_STATE, g_strdup_printf (KYEL "%s" KNRM, mm_modem_state_get_string (state)));
else
output_item_new_take_single (MMC_F_STATUS_STATE, g_strdup (mm_modem_state_get_string (state))) ;
if (state == MM_MODEM_STATE_FAILED)
output_item_new_take_single (MMC_F_STATUS_FAILED_REASON,
g_strdup_printf (KRED "%s" KNRM, mm_modem_state_failed_reason_get_string (reason)));
return;
}
output_item_new_take_single (MMC_F_STATUS_STATE, g_strdup (mm_modem_state_get_string (state)));
output_item_new_take_single (MMC_F_STATUS_FAILED_REASON,
(state == MM_MODEM_STATE_FAILED) ?
g_strdup (mm_modem_state_failed_reason_get_string (reason)) :
NULL);
}
/******************************************************************************/
/* (Custom) SIM slots output */
void
mmcli_output_sim_slots (gchar **sim_slot_paths,
guint primary_sim_slot)
{
guint i;
if (selected_type != MMC_OUTPUT_TYPE_HUMAN || !sim_slot_paths) {
mmcli_output_string_take (MMC_F_SIM_PRIMARY_SLOT, primary_sim_slot ? g_strdup_printf ("%u", primary_sim_slot) : NULL);
mmcli_output_string_array_take (MMC_F_SIM_SLOT_PATHS, sim_slot_paths ? sim_slot_paths : NULL, TRUE);
return;
}
/* Include SIM slot number in each item */
for (i = 0; sim_slot_paths[i]; i++) {
gchar *aux;
guint slot_number = i + 1;
aux = g_strdup_printf ("slot %u: %s%s",
slot_number,
g_str_equal (sim_slot_paths[i], "/") ? "none" : sim_slot_paths[i],
(primary_sim_slot == slot_number) ? " (active)" : "");
g_free (sim_slot_paths[i]);
sim_slot_paths[i] = aux;
}
mmcli_output_string_array_take (MMC_F_SIM_SLOT_PATHS, sim_slot_paths, TRUE);
}
/******************************************************************************/
/* (Custom) Network scan output */
static gchar *json_strescape (const gchar *str);
static gchar *
build_network_info (MMModem3gppNetwork *network)
{
const gchar *operator_code;
const gchar *operator_name;
gchar *access_technologies;
const gchar *availability;
gchar *out;
operator_code = mm_modem_3gpp_network_get_operator_code (network);
operator_name = mm_modem_3gpp_network_get_operator_long (network);
if (!operator_name)
operator_name = mm_modem_3gpp_network_get_operator_short (network);
access_technologies = mm_modem_access_technology_build_string_from_mask (mm_modem_3gpp_network_get_access_technology (network));
availability = mm_modem_3gpp_network_availability_get_string (mm_modem_3gpp_network_get_availability (network));
if (selected_type == MMC_OUTPUT_TYPE_HUMAN) {
out = g_strdup_printf ("%s - %s (%s, %s)",
operator_code ? operator_code : "code n/a",
operator_name ? operator_name : "name n/a",
access_technologies,
availability);
} else if (selected_type == MMC_OUTPUT_TYPE_JSON) {
GString *str;
gchar *escape;
str = g_string_new (NULL);
g_string_append_printf (str, "{");
escape = json_strescape (operator_code);
g_string_append_printf (str, "\"operator-code\":\"%s\"", escape ? escape: "--");
g_free (escape);
g_string_append_printf (str, ",");
escape = json_strescape (operator_name);
g_string_append_printf (str, "\"operator-name\":\"%s\"", escape ? escape: "--");
g_free (escape);
g_string_append_printf (str, ",");
escape = json_strescape (access_technologies);
g_string_append_printf (str, "\"access-technologies\":\"%s\"", escape);
g_free (escape);
g_string_append_printf (str, ",");
escape = json_strescape (availability);
g_string_append_printf (str, "\"availability\":\"%s\"", escape);
g_free (escape);
g_string_append_printf (str, "}");
out = g_string_free (str, FALSE);
} else {
out = g_strdup_printf ("operator-code: %s, operator-name: %s, access-technologies: %s, availability: %s",
operator_code ? operator_code : "--",
operator_name ? operator_name : "--",
access_technologies,
availability);
}
g_free (access_technologies);
return out;
}
void
mmcli_output_scan_networks (GList *network_list)
{
gchar **networks = NULL;
if (network_list) {
GPtrArray *aux;
GList *l;
aux = g_ptr_array_new ();
for (l = network_list; l; l = g_list_next (l))
g_ptr_array_add (aux, build_network_info ((MMModem3gppNetwork *)(l->data)));
g_ptr_array_add (aux, NULL);
networks = (gchar **) g_ptr_array_free (aux, FALSE);
}
/* When printing human result, we want to show some result even if no networks
* are found, so we force a explicit string result. */
if (selected_type == MMC_OUTPUT_TYPE_HUMAN && !networks)
output_item_new_take_single (MMC_F_3GPP_SCAN_NETWORKS, g_strdup ("n/a"));
else
output_item_new_take_multiple (MMC_F_3GPP_SCAN_NETWORKS, networks, TRUE, TRUE);
}
/******************************************************************************/
/* (Custom) Firmware list output */
static void
build_firmware_info_human (GPtrArray *array,
MMFirmwareProperties *props,
gboolean selected)
{
g_ptr_array_add (array, g_strdup (mm_firmware_properties_get_unique_id (props)));
g_ptr_array_add (array, g_strdup_printf (" current: %s", selected ? "yes" : "no"));
if (mm_firmware_properties_get_image_type (props) == MM_FIRMWARE_IMAGE_TYPE_GOBI) {
const gchar *aux;
if ((aux = mm_firmware_properties_get_gobi_pri_version (props)) != NULL)
g_ptr_array_add (array, g_strdup_printf (" gobi pri version: %s", aux));
if ((aux = mm_firmware_properties_get_gobi_pri_info (props)) != NULL)
g_ptr_array_add (array, g_strdup_printf (" gobi pri info: %s", aux));
if ((aux = mm_firmware_properties_get_gobi_boot_version (props)) != NULL)
g_ptr_array_add (array, g_strdup_printf (" gobi boot version: %s", aux));
if ((aux = mm_firmware_properties_get_gobi_pri_unique_id (props)) != NULL)
g_ptr_array_add (array, g_strdup_printf (" gobi pri unique id: %s", aux));
if ((aux = mm_firmware_properties_get_gobi_modem_unique_id (props)) != NULL)
g_ptr_array_add (array, g_strdup_printf (" gobi modem unique id: %s", aux));
}
}
static void
build_firmware_info_keyvalue (GPtrArray *array,
MMFirmwareProperties *props,
gboolean selected)
{
GString *str;
str = g_string_new ("");
g_string_append_printf (str, "unique-id: %s", mm_firmware_properties_get_unique_id (props));
g_string_append_printf (str, ", current: %s", selected ? "yes" : "no");
if (mm_firmware_properties_get_image_type (props) == MM_FIRMWARE_IMAGE_TYPE_GOBI) {
const gchar *aux;
if ((aux = mm_firmware_properties_get_gobi_pri_version (props)) != NULL)
g_string_append_printf (str, ", gobi-pri-version: %s", aux);
if ((aux = mm_firmware_properties_get_gobi_pri_info (props)) != NULL)
g_string_append_printf (str, ", gobi-pri-info: %s", aux);
if ((aux = mm_firmware_properties_get_gobi_boot_version (props)) != NULL)
g_string_append_printf (str, ", gobi-boot-version: %s", aux);
if ((aux = mm_firmware_properties_get_gobi_pri_unique_id (props)) != NULL)
g_string_append_printf (str, ", gobi-pri-unique id: %s", aux);
if ((aux = mm_firmware_properties_get_gobi_modem_unique_id (props)) != NULL)
g_string_append_printf (str, ", gobi-modem-unique id: %s", aux);
}
g_ptr_array_add (array, g_string_free (str, FALSE));
}
void
mmcli_output_firmware_list (GList *firmware_list,
MMFirmwareProperties *selected)
{
gchar **firmwares = NULL;
if (firmware_list) {
GPtrArray *aux;
GList *l;
aux = g_ptr_array_new ();
for (l = firmware_list; l; l = g_list_next (l)) {
MMFirmwareProperties *props = (MMFirmwareProperties *)(l->data);
gboolean current_selected;
current_selected = (selected &&
g_str_equal (mm_firmware_properties_get_unique_id (props),
mm_firmware_properties_get_unique_id (selected)));
if (selected_type == MMC_OUTPUT_TYPE_HUMAN)
build_firmware_info_human (aux, props, current_selected);
else
build_firmware_info_keyvalue (aux, props, current_selected);
}
g_ptr_array_add (aux, NULL);
firmwares = (gchar **) g_ptr_array_free (aux, FALSE);
}
/* When printing human result, we want to show some result even if no firmwares
* are found, so we force a explicit string result. */
if (selected_type == MMC_OUTPUT_TYPE_HUMAN && !firmwares)
output_item_new_take_single (MMC_F_FIRMWARE_LIST, g_strdup ("n/a"));
else
output_item_new_take_multiple (MMC_F_FIRMWARE_LIST, firmwares, TRUE, FALSE);
}
/******************************************************************************/
/* (Custom) PCO list output */
void
mmcli_output_pco_list (GList *pco_list)
{
GPtrArray *aux;
GList *l;
if (!pco_list) {
output_item_new_take_single (MMC_F_3GPP_PCO, NULL);
return;
}
aux = g_ptr_array_new ();
for (l = pco_list; l; l = g_list_next (l)) {
MMPco *pco;
gchar *pco_data_hex;
const guint8 *pco_data;
gsize pco_data_size;
pco = MM_PCO (l->data);
pco_data = mm_pco_get_data (pco, &pco_data_size);
pco_data_hex = (pco_data ? mm_utils_bin2hexstr (pco_data, pco_data_size) : NULL);
if (selected_type == MMC_OUTPUT_TYPE_HUMAN)
g_ptr_array_add (aux, g_strdup_printf ("%u: (%s) '%s'",
mm_pco_get_session_id (pco),
mm_pco_is_complete (pco) ? "complete" : "partial",
pco_data_hex ? pco_data_hex : ""));
else
g_ptr_array_add (aux, g_strdup_printf ("session-id: %u, complete: %s, data: %s",
mm_pco_get_session_id (pco),
mm_pco_is_complete (pco) ? "yes" : "no",
pco_data_hex ? pco_data_hex : ""));
g_free (pco_data_hex);
}
g_ptr_array_add (aux, NULL);
output_item_new_take_multiple (MMC_F_3GPP_PCO, (gchar **) g_ptr_array_free (aux, FALSE), TRUE, FALSE);
}
/******************************************************************************/
/* (Custom) Preferred networks output */
void
mmcli_output_preferred_networks (GList *preferred_nets_list)
{
if (preferred_nets_list) {
GPtrArray *aux;
aux = g_ptr_array_new ();
for (;preferred_nets_list; preferred_nets_list = g_list_next (preferred_nets_list)) {
const MMSimPreferredNetwork *preferred_net;
gchar *access_technologies;
gchar *out;
const gchar *operator_code;
preferred_net = (const MMSimPreferredNetwork *)preferred_nets_list->data;
operator_code = mm_sim_preferred_network_get_operator_code (preferred_net);
access_technologies = mm_modem_access_technology_build_string_from_mask (mm_sim_preferred_network_get_access_technology (preferred_net));
if (selected_type == MMC_OUTPUT_TYPE_HUMAN)
out = g_strdup_printf ("%s (%s)",
operator_code,
access_technologies);
else
out = g_strdup_printf ("operator-code: %s, access-technologies: %s",
operator_code,
access_technologies);
g_ptr_array_add (aux, out);
g_free (access_technologies);
}
g_ptr_array_add (aux, NULL);
mmcli_output_string_array_take (MMC_F_SIM_PROPERTIES_PREFERRED_NETWORKS, (gchar **) g_ptr_array_free (aux, FALSE), TRUE);
}
}
/******************************************************************************/
/* (Custom) Profile list output */
static void
build_profile_human (GPtrArray *array,
MM3gppProfile *profile)
{
g_autoptr(GPtrArray) profile_print = NULL;
guint i;
profile_print = mm_3gpp_profile_print (profile, TRUE);
mm_common_str_array_human_keys (profile_print);
for (i = 0; i < profile_print->len; i++) {
/* First string is profile id always, all the remaining ones will be
* indented some whitespaces right */
g_ptr_array_add (array, g_strdup_printf ("%s%s",
i == 0 ? "" : " ",
(const gchar *)g_ptr_array_index (profile_print, i)));
}
}
static void
build_profile_keyvalue (GPtrArray *array,
MM3gppProfile *profile)
{
g_autoptr(GPtrArray) profile_print = NULL;
guint i;
GString *str;
str = g_string_new ("");
profile_print = mm_3gpp_profile_print (profile, TRUE);
for (i = 0; i < profile_print->len; i++) {
g_string_append_printf (str, "%s%s",
i == 0 ? "" : ", ",
(const gchar *)g_ptr_array_index (profile_print, i));
}
g_ptr_array_add (array, g_string_free (str, FALSE));
}
static void
output_profile_list (MmcF field,
GList *profile_list)
{
gchar **profiles = NULL;
if (profile_list) {
GPtrArray *aux;
GList *l;
aux = g_ptr_array_new ();
for (l = profile_list; l; l = g_list_next (l)) {
MM3gppProfile *profile = (MM3gppProfile *)(l->data);
if (selected_type == MMC_OUTPUT_TYPE_HUMAN)
build_profile_human (aux, profile);
else
build_profile_keyvalue (aux, profile);
}
g_ptr_array_add (aux, NULL);
profiles = (gchar **) g_ptr_array_free (aux, FALSE);
}
/* When printing human result, we want to show some result even if no profiles
* are found, so we force a explicit string result. */
if (selected_type == MMC_OUTPUT_TYPE_HUMAN && !profiles)
output_item_new_take_single (field, g_strdup ("n/a"));
else
output_item_new_take_multiple (field, profiles, TRUE, FALSE);
}
void
mmcli_output_profile_list (GList *profile_list)
{
output_profile_list (MMC_F_3GPP_PROFILE_MANAGER_LIST, profile_list);
}
void
mmcli_output_profile_set (MM3gppProfile *profile)
{
GList *profile_list = NULL;
profile_list = g_list_append (profile_list, profile);
output_profile_list (MMC_F_3GPP_PROFILE_MANAGER_SET, profile_list);
g_list_free (profile_list);
}
/******************************************************************************/
/* (Custom) Cell info output */
void
mmcli_output_cell_info (GList *cell_info_list)
{
gchar **cell_infos = NULL;
if (cell_info_list) {
GPtrArray *aux;
GList *l;
aux = g_ptr_array_new ();
for (l = cell_info_list; l; l = g_list_next (l))
g_ptr_array_add (aux, mm_cell_info_build_string (MM_CELL_INFO (l->data)));
g_ptr_array_add (aux, NULL);
cell_infos = (gchar **) g_ptr_array_free (aux, FALSE);
}
/* When printing human result, we want to show some result even if no networks
* are found, so we force a explicit string result. */
if (selected_type == MMC_OUTPUT_TYPE_HUMAN && !cell_infos)
output_item_new_take_single (MMC_F_CELL_INFO, g_strdup ("n/a"));
else
output_item_new_take_multiple (MMC_F_CELL_INFO, cell_infos, TRUE, FALSE);
}
/******************************************************************************/
/* Human-friendly output */
#define HUMAN_MAX_VALUE_LENGTH 60
static gint
list_sort_human (const OutputItem *item_a,
const OutputItem *item_b)
{
if (field_infos[item_a->field].section < field_infos[item_b->field].section)
return -1;
if (field_infos[item_a->field].section > field_infos[item_b->field].section)
return 1;
return item_a->field - item_b->field;
}
static void
dump_output_human (void)
{
GList *l;
MmcS current_section = MMC_S_UNKNOWN;
guint longest_section_name = 0;
guint longest_field_name = 0;
output_items = g_list_sort (output_items, (GCompareFunc) list_sort_human);
/* First pass to process */
for (l = output_items; l; l = g_list_next (l)) {
OutputItem *item_l;
guint aux;
gboolean ignore = FALSE;
item_l = (OutputItem *)(l->data);
/* Post-process values */
if (item_l->type == VALUE_TYPE_SINGLE) {
OutputItemSingle *single = (OutputItemSingle *)item_l;
if (!single->value)
ignore = TRUE;
} else if (item_l->type == VALUE_TYPE_MULTIPLE) {
OutputItemMultiple *multiple = (OutputItemMultiple *)item_l;
if (!multiple->values)
ignore = TRUE;
}
/* Compute max lengths */
if (!ignore) {
aux = strlen (section_infos[field_infos[item_l->field].section].name);
if (aux > longest_section_name)
longest_section_name = aux;
aux = strlen (field_infos[item_l->field].name);
if (aux > longest_field_name)
longest_field_name = aux;
}
}
/* Second pass to print */
for (l = output_items; l; l = g_list_next (l)) {
OutputItem *item_l;
OutputItemSingle *single = NULL;
OutputItemMultiple *multiple = NULL;
item_l = (OutputItem *)(l->data);
if (item_l->type == VALUE_TYPE_SINGLE)
single = (OutputItemSingle *)item_l;
else if (item_l->type == VALUE_TYPE_MULTIPLE)
multiple = (OutputItemMultiple *)item_l;
else
g_assert_not_reached ();
/* Ignore items without a value set */
if ((single && (!single->value || !single->value[0])) ||
(multiple && (!multiple->values || !g_strv_length (multiple->values))))
continue;
/* Section change? */
if (field_infos[item_l->field].section != current_section) {
current_section = field_infos[item_l->field].section;
g_print (" %.*s\n",
longest_section_name + longest_field_name + 4,
"------------------------------------------------------------");
g_print (" %-*.*s | ",
longest_section_name,
longest_section_name,
section_infos[field_infos[item_l->field].section].name);
} else
g_print (" %*.*s | ",
longest_section_name,
longest_section_name,
"");
g_print ("%*.*s: ",
longest_field_name, longest_field_name, field_infos[item_l->field].name);
if (single) {
gchar **split_lines;
guint i;
split_lines = g_strsplit (single->value, "\n", -1);
for (i = 0; split_lines[i]; i++) {
if (i != 0) {
g_print (" %*.*s | %*.*s ",
longest_section_name, longest_section_name, "",
longest_field_name, longest_field_name, "");
}
g_print ("%s\n", split_lines[i]);
}
g_strfreev (split_lines);
} else if (multiple) {
guint line_length = 0;
guint n, i;
n = multiple->values ? g_strv_length (multiple->values) : 0;
for (i = 0; i < n; i++) {
const gchar *value;
guint value_length;
value = multiple->values[i];
value_length = strlen (value) + ((i < (n - 1)) ? 2 : 0);
if ((multiple->multiline && i != 0) || ((line_length + value_length) > HUMAN_MAX_VALUE_LENGTH)) {
line_length = 0;
g_print ("\n"
" %*.*s | %*.*s ",
longest_section_name, longest_section_name, "",
longest_field_name, longest_field_name, "");
} else
line_length += value_length;
g_print ("%s%s", value, (!multiple->multiline && i < (n - 1)) ? ", " : "");
}
g_print ("\n");
}
}
}
static void
dump_output_list_human (MmcF field)
{
GList *l;
guint n;
g_assert (field != MMC_F_UNKNOWN);
/* First pass to process */
for (n = 0, l = output_items; l; l = g_list_next (l), n++) {
OutputItem *item_l;
OutputItemListitem *listitem;
item_l = (OutputItem *)(l->data);
g_assert (item_l->type == VALUE_TYPE_LISTITEM);
listitem = (OutputItemListitem *)item_l;
g_assert (listitem->value);
/* All items must be of same type */
g_assert_cmpint (item_l->field, ==, field);
}
/* Second pass to print */
if (n == 0) {
g_print ("No %s were found\n", field_infos[field].name);
return;
}
for (l = output_items; l; l = g_list_next (l)) {
OutputItemListitem *listitem;
listitem = (OutputItemListitem *)(l->data);
g_print ("%s%s %s\n", listitem->prefix, listitem->value, listitem->extra);
}
}
/******************************************************************************/
/* Key-value output */
#define KEY_ARRAY_LENGTH_SUFFIX ".length"
#define KEY_ARRAY_VALUE_SUFFIX ".value"
static gint
list_sort_keyvalue (const OutputItem *item_a,
const OutputItem *item_b)
{
return item_a->field - item_b->field;
}
static void
dump_output_keyvalue (void)
{
GList *l;
guint longest_field_key = 0;
output_items = g_list_sort (output_items, (GCompareFunc) list_sort_keyvalue);
/* First pass to process */
for (l = output_items; l; l = g_list_next (l)) {
OutputItem *item_l;
OutputItemMultiple *multiple = NULL;
guint key_length;
item_l = (OutputItem *)(l->data);
if (item_l->type == VALUE_TYPE_MULTIPLE)
multiple = (OutputItemMultiple *)item_l;
key_length = strlen (field_infos[item_l->field].key);
/* when printing array contents, each item is given with an index,
* e.g.: something.value[1]
* The max length of the field will need to consider the array length
* in order to accommodate the length of the index.
*/
if (multiple) {
guint n;
n = multiple->values ? g_strv_length (multiple->values) : 0;
if (n > 0) {
guint aux = n;
key_length += ((strlen (KEY_ARRAY_VALUE_SUFFIX)) + 3);
while ((aux /= 10) > 0)
key_length++;
}
}
if (key_length > longest_field_key)
longest_field_key = key_length;
}
/* Second pass to print */
for (l = output_items; l; l = g_list_next (l)) {
OutputItem *item_l;
OutputItemSingle *single = NULL;
OutputItemMultiple *multiple = NULL;
item_l = (OutputItem *)(l->data);
if (item_l->type == VALUE_TYPE_SINGLE)
single = (OutputItemSingle *)item_l;
else if (item_l->type == VALUE_TYPE_MULTIPLE)
multiple = (OutputItemMultiple *)item_l;
else
g_assert_not_reached ();
if (single) {
gchar *escaped = NULL;
if (single->value)
escaped = g_strescape (single->value, NULL);
g_print ("%-*.*s : %s\n",
longest_field_key, longest_field_key, field_infos[item_l->field].key,
escaped ? escaped : "--");
g_free (escaped);
} else if (multiple) {
guint n;
n = multiple->values ? g_strv_length (multiple->values) : 0;
if (n > 0) {
guint i;
gchar *new_key;
new_key = g_strdup_printf ("%s" KEY_ARRAY_LENGTH_SUFFIX, field_infos[item_l->field].key);
g_print ("%-*.*s : %u\n", longest_field_key, longest_field_key, new_key, n);
g_free (new_key);
for (i = 0; i < n; i++) {
gchar *escaped = NULL;
/* Printed indices start at 1 */
new_key = g_strdup_printf ("%s" KEY_ARRAY_VALUE_SUFFIX "[%u]", field_infos[item_l->field].key, i + 1);
escaped = g_strescape (multiple->values[i], NULL);
g_print ("%-*.*s : %s\n", longest_field_key, longest_field_key, new_key, escaped);
g_free (escaped);
g_free (new_key);
}
} else
g_print ("%-*.*s : --\n",
longest_field_key, longest_field_key, field_infos[item_l->field].key);
}
}
}
static void
dump_output_list_keyvalue (MmcF field)
{
GList *l;
guint key_length;
guint n;
gchar *new_key;
g_assert (field != MMC_F_UNKNOWN);
key_length = strlen (field_infos[field].key);
/* First pass to process */
for (n = 0, l = output_items; l; l = g_list_next (l), n++) {
OutputItem *item_l;
OutputItemListitem *listitem;
item_l = (OutputItem *)(l->data);
g_assert (item_l->type == VALUE_TYPE_LISTITEM);
listitem = (OutputItemListitem *)item_l;
g_assert (listitem->value);
/* All items must be of same type */
g_assert_cmpint (item_l->field, ==, field);
}
if (n > 0) {
guint aux = n;
key_length += ((strlen (KEY_ARRAY_VALUE_SUFFIX)) + 3);
while ((aux /= 10) > 0)
key_length++;
}
new_key = g_strdup_printf ("%s" KEY_ARRAY_LENGTH_SUFFIX, field_infos[field].key);
g_print ("%-*.*s : %u\n", key_length, key_length, new_key, n);
g_free (new_key);
/* Second pass to print */
for (n = 0, l = output_items; l; l = g_list_next (l), n++) {
OutputItemListitem *listitem;
listitem = (OutputItemListitem *)(l->data);
new_key = g_strdup_printf ("%s" KEY_ARRAY_VALUE_SUFFIX "[%u]", field_infos[field].key, n + 1);
g_print ("%-*.*s : %s\n",
key_length, key_length, new_key,
listitem->value);
g_free (new_key);
}
}
/******************************************************************************/
/* JSON-friendly output */
static gchar *
json_strescape (const gchar *str)
{
const gchar *p;
const gchar *end;
GString *output;
gsize len;
len = strlen (str);
end = str + len;
output = g_string_sized_new (len);
for (p = str; p < end; p++) {
if (*p == '\\' || *p == '"') {
g_string_append_c (output, '\\');
g_string_append_c (output, *p);
} else if ((*p > 0 && *p < 0x1f) || *p == 0x7f) {
switch (*p) {
case '\b':
g_string_append (output, "\\b");
break;
case '\f':
g_string_append (output, "\\f");
break;
case '\n':
g_string_append (output, "\\n");
break;
case '\r':
g_string_append (output, "\\r");
break;
case '\t':
g_string_append (output, "\\t");
break;
default:
g_string_append_printf (output, "\\u00%02x", (guint)*p);
break;
}
} else
g_string_append_c (output, *p);
}
return g_string_free (output, FALSE);
}
static gint
list_sort_by_keys (const OutputItem *item_a,
const OutputItem *item_b)
{
return g_strcmp0 (field_infos[item_a->field].key, field_infos[item_b->field].key);
}
static void
dump_output_json (void)
{
GList *l;
MmcF current_field = MMC_F_UNKNOWN;
gchar **current_path = NULL;
guint cur_dlen = 0;
output_items = g_list_sort (output_items, (GCompareFunc) list_sort_by_keys);
g_print ("{");
for (l = output_items; l; l = g_list_next (l)) {
OutputItem *item_l = (OutputItem *)(l->data);
if (current_field != item_l->field) {
guint new_dlen;
guint iter = 0;
gchar **new_path;
new_path = g_strsplit (field_infos[item_l->field].key, ".", -1);
new_dlen = g_strv_length (new_path) - 1;
if (current_path) {
guint min_dlen;
min_dlen = MIN (cur_dlen, new_dlen);
while (iter < min_dlen && g_strcmp0 (current_path[iter], new_path[iter]) == 0)
iter++;
g_strfreev (current_path);
if (iter < min_dlen || new_dlen < cur_dlen)
for (min_dlen = iter; min_dlen < cur_dlen; min_dlen++)
g_print ("}");
g_print (",");
}
while (iter < new_dlen)
g_print ("\"%s\":{", new_path[iter++]);
cur_dlen = new_dlen;
current_path = new_path;
current_field = item_l->field;
} else {
g_print (",");
}
if (item_l->type == VALUE_TYPE_SINGLE) {
OutputItemSingle *single = (OutputItemSingle *) item_l;
gchar *escaped = NULL;
if (single->value)
escaped = json_strescape (single->value);
g_print ("\"%s\":\"%s\"", current_path[cur_dlen], escaped ? escaped : "--");
g_free (escaped);
} else if (item_l->type == VALUE_TYPE_MULTIPLE) {
OutputItemMultiple *multiple = (OutputItemMultiple *) item_l;
guint i, n;
n = multiple->values ? g_strv_length (multiple->values) : 0;
g_print ("\"%s\":[", current_path[cur_dlen]);
for (i = 0; i < n; i++) {
if (multiple->is_object) {
g_print ("%s", multiple->values[i]);
} else {
gchar *escaped;
escaped = json_strescape (multiple->values[i]);
g_print ("\"%s\"", escaped);
g_free (escaped);
}
if (i < n - 1)
g_print (",");
}
g_print ("]");
} else
g_assert_not_reached ();
}
while (cur_dlen--)
g_print ("}");
g_print ("}\n");
g_strfreev (current_path);
}
static void
dump_output_list_json (MmcF field)
{
GList *l;
g_assert (field != MMC_F_UNKNOWN);
g_print ("{\"%s\":[", field_infos[field].key);
for (l = output_items; l; l = g_list_next (l)) {
OutputItem *item_l;
OutputItemListitem *listitem;
item_l = (OutputItem *)(l->data);
g_assert (item_l->type == VALUE_TYPE_LISTITEM);
listitem = (OutputItemListitem *)item_l;
g_assert (listitem->value);
/* All items must be of same type */
g_assert_cmpint (item_l->field, ==, field);
g_print ("\"%s\"", listitem->value);
if (g_list_next (l))
g_print (",");
}
g_print ("]}\n");
}
/******************************************************************************/
/* Dump output */
void
mmcli_output_dump (void)
{
switch (selected_type) {
case MMC_OUTPUT_TYPE_NONE:
break;
case MMC_OUTPUT_TYPE_HUMAN:
dump_output_human ();
break;
case MMC_OUTPUT_TYPE_KEYVALUE:
dump_output_keyvalue ();
break;
case MMC_OUTPUT_TYPE_JSON:
dump_output_json ();
break;
default:
g_assert_not_reached ();
}
g_list_free_full (output_items, (GDestroyNotify) output_item_free);
output_items = NULL;
fflush (stdout);
}
void
mmcli_output_list_dump (MmcF field)
{
switch (selected_type) {
case MMC_OUTPUT_TYPE_NONE:
break;
case MMC_OUTPUT_TYPE_HUMAN:
dump_output_list_human (field);
break;
case MMC_OUTPUT_TYPE_KEYVALUE:
dump_output_list_keyvalue (field);
break;
case MMC_OUTPUT_TYPE_JSON:
dump_output_list_json (field);
break;
default:
g_assert_not_reached ();
}
g_list_free_full (output_items, (GDestroyNotify) output_item_free);
output_items = NULL;
fflush (stdout);
}