/* -*- Mode: C; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * qmicli -- Command line interface to control QMI devices * * 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 . * * Copyright (C) 2015 Velocloud Inc. * Copyright (C) 2012-2017 Aleksander Morgado */ #include #include #include #include #include "qmicli-helpers.h" gchar * qmicli_get_raw_data_printable (const GArray *data, gsize max_line_length, const gchar *line_prefix) { gsize i; gsize j; gsize k; gsize new_str_length; gchar *new_str; gsize prefix_len; guint n_lines; gboolean is_new_line; g_return_val_if_fail (max_line_length >= 3, NULL); if (!data) return g_strdup (""); /* Get new string length. If input string has N bytes, we need: * - 1 byte for last NUL char * - 2N bytes for hexadecimal char representation of each byte... * - N-1 bytes for the separator ':' * So... a total of (1+2N+N-1) = 3N bytes are needed... */ new_str_length = 3 * data->len; /* Effective max line length needs to be multiple of 3, we don't want to * split in half a given byte representation */ while (max_line_length % 3 != 0) max_line_length--; /* Prefix len includes the newline character plus the length of the input * prefix */ prefix_len = strlen (line_prefix) + 1; /* We don't consider the last NUL byte when counting lines to generate */ n_lines = (new_str_length - 1) / max_line_length; if ((new_str_length - 1) % max_line_length != 0) n_lines++; /* Build new str length expected when we prefix the string and we limit the * line length */ new_str_length += (n_lines * prefix_len); /* Allocate memory for new array and initialize contents to NUL */ new_str = g_malloc0 (new_str_length); /* Print hexadecimal representation of each byte... */ is_new_line = TRUE; for (i = 0, j = 0, k = 0; i < data->len; i++) { if (is_new_line) { strcpy (&new_str[j], line_prefix); j += strlen (line_prefix); is_new_line = FALSE; } /* Print character in output string... */ snprintf (&new_str[j], 3, "%02X", g_array_index (data, guint8, i)); j+=2; k+=2; if (i != (data->len - 1) ) { new_str[j] = ':'; j++; k++; } if (k % max_line_length == 0 || i == (data->len -1)) { new_str[j] = '\n'; j++; is_new_line = TRUE; } } /* Set output string */ return new_str; } gchar * qmicli_get_firmware_image_unique_id_printable (const GArray *unique_id) { gchar *unique_id_str; guint i; guint n_ascii = 0; gboolean end = FALSE; #define UNIQUE_ID_LEN 16 g_warn_if_fail (unique_id->len <= UNIQUE_ID_LEN); unique_id_str = g_malloc0 (UNIQUE_ID_LEN + 1); memcpy (unique_id_str, unique_id->data, UNIQUE_ID_LEN); /* We want an ASCII string that, if finished before the 16 bytes, * is suffixed with NUL bytes. */ for (i = 0; i < UNIQUE_ID_LEN; i++) { /* If a byte isn't ASCII, stop */ if (unique_id_str[i] & 0x80) break; /* If string isn't finished yet... */ if (!end) { /* String finished now */ if (unique_id_str[i] == '\0') end = TRUE; else n_ascii++; } else { /* String finished but we then got * another ASCII byte? not possible */ if (unique_id_str[i] != '\0') break; } } if (i == UNIQUE_ID_LEN && n_ascii > 0) return unique_id_str; #undef UNIQUE_ID_LEN g_free (unique_id_str); /* Get a raw hex string otherwise */ unique_id_str = qmicli_get_raw_data_printable (unique_id, 80, ""); unique_id_str[strlen (unique_id_str) - 1] = '\0'; /* remove EOL */ return unique_id_str; } gboolean qmicli_read_dms_uim_pin_id_from_string (const gchar *str, QmiDmsUimPinId *out) { if (!str || str[0] == '\0') { g_printerr ("error: expected 'PIN' or 'PIN2', got: none\n"); return FALSE; } if (g_str_equal (str, "PIN")) { *out = QMI_DMS_UIM_PIN_ID_PIN; return TRUE; } if (g_str_equal (str, "PIN2")) { *out = QMI_DMS_UIM_PIN_ID_PIN2; return TRUE; } g_printerr ("error: expected 'PIN' or 'PIN2', got: '%s'\n", str); return FALSE; } gboolean qmicli_read_uim_pin_id_from_string (const gchar *str, QmiUimPinId *out) { if (!str || str[0] == '\0') { g_printerr ("error: expected 'PIN1', 'PIN2' or 'UPIN', got: none\n"); return FALSE; } if (g_str_equal (str, "PIN1")) { *out = QMI_UIM_PIN_ID_PIN1; return TRUE; } if (g_str_equal (str, "PIN2")) { *out = QMI_UIM_PIN_ID_PIN2; return TRUE; } if (g_str_equal (str, "UPIN")) { *out = QMI_UIM_PIN_ID_UPIN; return TRUE; } g_printerr ("error: expected 'PIN1', 'PIN2' or 'UPIN', got: '%s'\n", str); return FALSE; } gboolean qmicli_read_operating_mode_from_string (const gchar *str, QmiDmsOperatingMode *out) { GType type; GEnumClass *enum_class; GEnumValue *enum_value; type = qmi_dms_operating_mode_get_type (); enum_class = G_ENUM_CLASS (g_type_class_ref (type)); enum_value = g_enum_get_value_by_nick (enum_class, str); if (enum_value) *out = (QmiDmsOperatingMode)enum_value->value; else g_printerr ("error: invalid operating mode value given: '%s'\n", str); g_type_class_unref (enum_class); return !!enum_value; } gboolean qmicli_read_rat_mode_pref_from_string (const gchar *str, QmiNasRatModePreference *out) { GType type; GFlagsClass *flags_class; GFlagsValue *flags_value; gboolean success = TRUE, set = FALSE; char **items, **iter; type = qmi_nas_rat_mode_preference_get_type (); flags_class = G_FLAGS_CLASS (g_type_class_ref (type)); *out = 0; items = g_strsplit_set (str, "|", 0); for (iter = items; iter && *iter && success; iter++) { if (!*iter[0]) continue; flags_value = g_flags_get_value_by_nick (flags_class, *iter); if (flags_value) { *out |= (QmiNasRatModePreference)flags_value->value; set = TRUE; } else { g_printerr ("error: invalid rat mode pref value given: '%s'\n", *iter); success = FALSE; } } if (!set) g_printerr ("error: invalid rat mode pref input given: '%s'\n", str); if (items) g_strfreev (items); g_type_class_unref (flags_class); return success && set; } gboolean qmicli_read_facility_from_string (const gchar *str, QmiDmsUimFacility *out) { GType type; GEnumClass *enum_class; GEnumValue *enum_value; type = qmi_dms_uim_facility_get_type (); enum_class = G_ENUM_CLASS (g_type_class_ref (type)); enum_value = g_enum_get_value_by_nick (enum_class, str); if (enum_value) *out = (QmiDmsUimFacility)enum_value->value; else g_printerr ("error: invalid facility value given: '%s'\n", str); g_type_class_unref (enum_class); return !!enum_value; } gboolean qmicli_read_enable_disable_from_string (const gchar *str, gboolean *out) { if (!str || str[0] == '\0') { g_printerr ("error: expected 'disable' or 'enable', got: none\n"); return FALSE; } if (g_str_equal (str, "disable")) { *out = FALSE; return TRUE; } if (g_str_equal (str, "enable")) { *out = TRUE; return TRUE; } g_printerr ("error: expected 'disable' or 'enable', got: '%s'\n", str); return FALSE; } gboolean qmicli_read_yes_no_from_string (const gchar *str, gboolean *out) { if (!str || str[0] == '\0') { g_printerr ("error: expected 'true', 'false', 'yes' or 'no', got: none\n"); return FALSE; } if ((g_strcasecmp (str, "yes") == 0) || (g_strcasecmp (str, "true") == 0)) { *out = TRUE; return TRUE; } if ((g_strcasecmp (str, "no") == 0) || (g_strcasecmp (str, "false") == 0)) { *out = FALSE; return TRUE; } g_printerr ("error: expected 'true', 'false', 'yes' or 'no', got: %s\n", str); return FALSE; } gboolean qmicli_read_non_empty_string (const gchar *str, const gchar *description, gchar **out) { if (!str || str[0] == '\0') { g_printerr ("error: empty %s given\n", description); return FALSE; } *out = (gchar *)str; return TRUE; } gboolean qmicli_read_firmware_id_from_string (const gchar *str, QmiDmsFirmwareImageType *out_type, guint *out_index) { const gchar *index_str; if (g_str_has_prefix (str, "modem")) { *out_type = QMI_DMS_FIRMWARE_IMAGE_TYPE_MODEM; index_str = &str[5]; } else if (g_str_has_prefix (str, "pri")) { *out_type = QMI_DMS_FIRMWARE_IMAGE_TYPE_PRI; index_str = &str[3]; } else { g_printerr ("error: invalid firmware image type value given: '%s'\n", str); return FALSE; } return qmicli_read_uint_from_string (index_str, out_index); } gboolean qmicli_read_binary_array_from_string (const gchar *str, GArray **out) { gsize i, j, len; g_return_val_if_fail (out != NULL, FALSE); g_return_val_if_fail (str, FALSE); /* Length must be a multiple of 2 */ len = strlen (str); if (len & 1) return FALSE; *out = g_array_sized_new (FALSE, TRUE, sizeof (guint8), len >> 1); g_array_set_size (*out, len >> 1); for (i = 0, j = 0; i < len; i += 2, j++) { gint a, b; a = g_ascii_xdigit_value (str[i]); b = g_ascii_xdigit_value (str[i + 1]); if (a < 0 || b < 0) { g_array_unref (*out); return FALSE; } g_array_index (*out, guint8, j) = (a << 4) | b; } return TRUE; } gboolean qmicli_read_pdc_configuration_type_from_string (const gchar *str, QmiPdcConfigurationType *out) { GType type; GEnumClass *enum_class; GEnumValue *enum_value; type = qmi_pdc_configuration_type_get_type (); enum_class = G_ENUM_CLASS (g_type_class_ref (type)); enum_value = g_enum_get_value_by_nick (enum_class, str); if (enum_value) *out = (QmiPdcConfigurationType)enum_value->value; else g_printerr ("error: invalid configuration type value given: '%s'\n", str); g_type_class_unref (enum_class); return !!enum_value; } gboolean qmicli_read_radio_interface_from_string (const gchar *str, QmiNasRadioInterface *out) { GType type; GEnumClass *enum_class; GEnumValue *enum_value; type = qmi_nas_radio_interface_get_type (); enum_class = G_ENUM_CLASS (g_type_class_ref (type)); enum_value = g_enum_get_value_by_nick (enum_class, str); if (enum_value) *out = (QmiNasRadioInterface)enum_value->value; else g_printerr ("error: invalid radio interface value given: '%s'\n", str); g_type_class_unref (enum_class); return !!enum_value; } gboolean qmicli_read_net_open_flags_from_string (const gchar *str, QmiDeviceOpenFlags *out) { GType type; GFlagsClass *flags_class; GFlagsValue *flags_value; gboolean success = TRUE, set = FALSE; char **items, **iter; type = qmi_device_open_flags_get_type (); flags_class = G_FLAGS_CLASS (g_type_class_ref (type)); *out = 0; items = g_strsplit_set (str, "|", 0); for (iter = items; iter && *iter && success; iter++) { if (!*iter[0]) continue; flags_value = g_flags_get_value_by_nick (flags_class, *iter); if (flags_value) { *out |= (QmiDeviceOpenFlags)flags_value->value; set = TRUE; } else { g_printerr ("error: invalid net open flags value given: '%s'\n", *iter); success = FALSE; } } if (!set) g_printerr ("error: invalid net open flags input given: '%s'\n", str); if (items) g_strfreev (items); if (*out & QMI_DEVICE_OPEN_FLAGS_NET_802_3 && *out & QMI_DEVICE_OPEN_FLAGS_NET_RAW_IP) { g_printerr ("error: cannot give both 802.3 and raw-IP options\n"); success = FALSE; } if (*out & QMI_DEVICE_OPEN_FLAGS_NET_QOS_HEADER && *out & QMI_DEVICE_OPEN_FLAGS_NET_NO_QOS_HEADER) { g_printerr ("error: cannot request both QoS and no-QoS headers\n"); success = FALSE; } if ((*out & (QMI_DEVICE_OPEN_FLAGS_NET_802_3 | QMI_DEVICE_OPEN_FLAGS_NET_RAW_IP)) && !(*out & (QMI_DEVICE_OPEN_FLAGS_NET_QOS_HEADER | QMI_DEVICE_OPEN_FLAGS_NET_NO_QOS_HEADER))) { g_printerr ("error: missing QoS or no-QoS header request\n"); success = FALSE; } if ((*out & (QMI_DEVICE_OPEN_FLAGS_NET_QOS_HEADER | QMI_DEVICE_OPEN_FLAGS_NET_NO_QOS_HEADER)) && !(*out & (QMI_DEVICE_OPEN_FLAGS_NET_802_3 | QMI_DEVICE_OPEN_FLAGS_NET_RAW_IP))) { g_printerr ("error: missing link protocol (802.3 or raw IP)\n"); success = FALSE; } g_type_class_unref (flags_class); return success && set; } gboolean qmicli_read_expected_data_format_from_string (const gchar *str, QmiDeviceExpectedDataFormat *out) { GType type; GEnumClass *enum_class; GEnumValue *enum_value; type = qmi_device_expected_data_format_get_type (); enum_class = G_ENUM_CLASS (g_type_class_ref (type)); enum_value = g_enum_get_value_by_nick (enum_class, str); if (enum_value) *out = (QmiDeviceExpectedDataFormat)enum_value->value; else g_printerr ("error: invalid expected data format value given: '%s'\n", str); g_type_class_unref (enum_class); return !!enum_value; } gboolean qmicli_read_link_layer_protocol_from_string (const gchar *str, QmiWdaLinkLayerProtocol *out) { GType type; GEnumClass *enum_class; GEnumValue *enum_value; type = qmi_wda_link_layer_protocol_get_type (); enum_class = G_ENUM_CLASS (g_type_class_ref (type)); enum_value = g_enum_get_value_by_nick (enum_class, str); if (enum_value) *out = (QmiWdaLinkLayerProtocol)enum_value->value; else g_printerr ("error: invalid link layer protocol value given: '%s'\n", str); g_type_class_unref (enum_class); return !!enum_value; } gboolean qmicli_read_data_aggregation_protocol_from_string (const gchar *str, QmiWdaDataAggregationProtocol *out) { GType type; GEnumClass *enum_class; GEnumValue *enum_value; type = qmi_wda_data_aggregation_protocol_get_type (); enum_class = G_ENUM_CLASS (g_type_class_ref (type)); enum_value = g_enum_get_value_by_nick (enum_class, str); if (enum_value) *out = (QmiWdaDataAggregationProtocol)enum_value->value; else g_printerr ("error: invalid data aggregation protocol value given: '%s'\n", str); g_type_class_unref (enum_class); return !!enum_value; } gboolean qmicli_read_data_endpoint_type_from_string (const gchar *str, QmiDataEndpointType *out) { GType type; GEnumClass *enum_class; GEnumValue *enum_value; type = qmi_data_endpoint_type_get_type (); enum_class = G_ENUM_CLASS (g_type_class_ref (type)); enum_value = g_enum_get_value_by_nick (enum_class, str); if (enum_value) *out = (QmiDataEndpointType)enum_value->value; else g_printerr ("error: invalid data aggregation protocol value given: '%s'\n", str); g_type_class_unref (enum_class); return !!enum_value; } gboolean qmicli_read_autoconnect_setting_from_string (const gchar *str, QmiWdsAutoconnectSetting *out) { GType type; GEnumClass *enum_class; GEnumValue *enum_value; type = qmi_wds_autoconnect_setting_get_type (); enum_class = G_ENUM_CLASS (g_type_class_ref (type)); enum_value = g_enum_get_value_by_nick (enum_class, str); if (enum_value) *out = (QmiWdsAutoconnectSetting)enum_value->value; else g_printerr ("error: invalid autoconnect setting value given: '%s'\n", str); g_type_class_unref (enum_class); return !!enum_value; } gboolean qmicli_read_autoconnect_setting_roaming_from_string (const gchar *str, QmiWdsAutoconnectSettingRoaming *out) { GType type; GEnumClass *enum_class; GEnumValue *enum_value; type = qmi_wds_autoconnect_setting_roaming_get_type (); enum_class = G_ENUM_CLASS (g_type_class_ref (type)); enum_value = g_enum_get_value_by_nick (enum_class, str); if (enum_value) *out = (QmiWdsAutoconnectSettingRoaming)enum_value->value; else g_printerr ("error: invalid autoconnect setting roaming value given: '%s'\n", str); g_type_class_unref (enum_class); return !!enum_value; } gboolean qmicli_read_authentication_from_string (const gchar *str, QmiWdsAuthentication *out) { if (g_ascii_strcasecmp (str, "PAP") == 0) *out = QMI_WDS_AUTHENTICATION_PAP; else if (g_ascii_strcasecmp (str, "CHAP") == 0) *out = QMI_WDS_AUTHENTICATION_CHAP; else if (g_ascii_strcasecmp (str, "BOTH") == 0) *out = (QMI_WDS_AUTHENTICATION_PAP | QMI_WDS_AUTHENTICATION_CHAP); else if (!str[0] || g_ascii_strcasecmp (str, "NONE") == 0) *out = QMI_WDS_AUTHENTICATION_NONE; else return FALSE; return TRUE; } gboolean qmicli_read_boot_image_download_mode_from_string (const gchar *str, QmiDmsBootImageDownloadMode *out) { GType type; GEnumClass *enum_class; GEnumValue *enum_value; type = qmi_dms_boot_image_download_mode_get_type (); enum_class = G_ENUM_CLASS (g_type_class_ref (type)); enum_value = g_enum_get_value_by_nick (enum_class, str); if (enum_value) *out = (QmiDmsBootImageDownloadMode)enum_value->value; else g_printerr ("error: invalid boot image download mode value given: '%s'\n", str); g_type_class_unref (enum_class); return !!enum_value; } gboolean qmicli_read_hp_device_mode_from_string (const gchar *str, QmiDmsHpDeviceMode *out) { GType type; GEnumClass *enum_class; GEnumValue *enum_value; type = qmi_dms_hp_device_mode_get_type (); enum_class = G_ENUM_CLASS (g_type_class_ref (type)); enum_value = g_enum_get_value_by_nick (enum_class, str); if (enum_value) *out = (QmiDmsHpDeviceMode)enum_value->value; else g_printerr ("error: invalid HP device mode value given: '%s'\n", str); g_type_class_unref (enum_class); return !!enum_value; } gboolean qmicli_read_uint_from_string (const gchar *str, guint *out) { gulong num; if (!str || !str[0]) return FALSE; for (num = 0; str[num]; num++) { if (!g_ascii_isdigit (str[num])) return FALSE; } errno = 0; num = strtoul (str, NULL, 10); if (!errno && num <= G_MAXUINT) { *out = (guint)num; return TRUE; } return FALSE; } gchar * qmicli_get_supported_messages_list (const guint8 *data, gsize len) { GString *str = NULL; if (len > 0 && data) { guint bytearray_i; for (bytearray_i = 0; bytearray_i < len; bytearray_i++) { guint bit_i; for (bit_i = 0; bit_i < 8; bit_i++) { if (data[bytearray_i] & (1 << bit_i)) { if (!str) str = g_string_new (""); g_string_append_printf (str, "\t0x%04X\n", (guint16) (bit_i + (8 * bytearray_i))); } } } } return (str ? g_string_free (str, FALSE) : g_strdup ("\tnone\n")); } /******************************************************************************/ typedef struct { guint16 min; guint16 max; const gchar *name; } EarfcnRange; /* http://niviuk.free.fr/lte_band.php */ static const EarfcnRange earfcn_ranges[] = { { 0, 599, "E-UTRA band 1: 2100" }, { 600, 1199, "E-UTRA band 2: 1900 PCS" }, { 1200, 1949, "E-UTRA band 3: 1800+" }, { 1950, 2399, "E-UTRA band 4: AWS-1" }, { 2400, 2649, "E-UTRA band 5: 850" }, { 2650, 2749, "E-UTRA band 6: UMTS only" }, { 2750, 3449, "E-UTRA band 7: 2600" }, { 3450, 3799, "E-UTRA band 8: 900" }, { 3800, 4149, "E-UTRA band 9: 1800" }, { 4150, 4749, "E-UTRA band 10: AWS-1+" }, { 4750, 4999, "E-UTRA band 11: 1500 Lower" }, { 5000, 5179, "E-UTRA band 12: 700 a" }, { 5180, 5279, "E-UTRA band 13: 700 c" }, { 5280, 5379, "E-UTRA band 14: 700 PS" }, { 5730, 5849, "E-UTRA band 17: 700 b" }, { 5850, 5999, "E-UTRA band 18: 800 Lower" }, { 6000, 6149, "E-UTRA band 19: 800 Upper" }, { 6150, 6449, "E-UTRA band 20: 800 DD" }, { 6450, 6599, "E-UTRA band 21: 1500 Upper" }, { 6600, 7399, "E-UTRA band 22: 3500" }, { 7500, 7699, "E-UTRA band 23: 2000 S-band" }, { 7700, 8039, "E-UTRA band 24: 1600 L-band" }, { 8040, 8689, "E-UTRA band 25: 1900+" }, { 8690, 9039, "E-UTRA band 26: 850+" }, { 9040, 9209, "E-UTRA band 27: 800 SMR" }, { 9210, 9659, "E-UTRA band 28: 700 APT" }, { 9660, 9769, "E-UTRA band 29: 700 d" }, { 9770, 9869, "E-UTRA band 30: 2300 WCS" }, { 9870, 9919, "E-UTRA band 31: 450" }, { 9920, 10359, "E-UTRA band 32: 1500 L-band" }, { 36000, 36199, "E-UTRA band 33: TD 1900" }, { 36200, 36349, "E-UTRA band 34: TD 2000" }, { 36350, 36949, "E-UTRA band 35: TD PCS Lower" }, { 36950, 37549, "E-UTRA band 36: TD PCS Upper" }, { 37550, 37749, "E-UTRA band 37: TD PCS Center" }, { 37750, 38249, "E-UTRA band 38: TD 2600" }, { 38250, 38649, "E-UTRA band 39: TD 1900+" }, { 38650, 39649, "E-UTRA band 40: TD 2300" }, { 39650, 41589, "E-UTRA band 41: TD 2500" }, { 41590, 43589, "E-UTRA band 42: TD 3500" }, { 43590, 45589, "E-UTRA band 43: TD 3700" }, { 45590, 46589, "E-UTRA band 44: TD 700" }, }; const char * qmicli_earfcn_to_eutra_band_string (guint16 earfcn) { guint i; for (i = 0; i < G_N_ELEMENTS (earfcn_ranges); i++) { if (earfcn <= earfcn_ranges[i].max && earfcn >= earfcn_ranges[i].min) return earfcn_ranges[i].name; } return "unknown"; } /* Expecting input as: * key1=string,key2=true,key3=false... * Strings may also be passed enclosed between double or single quotes, like: * key1="this is a string", key2='and so is this' * * Based on libmbim's mbimcli_parse_key_value_string(). */ gboolean qmicli_parse_key_value_string (const gchar *str, GError **error, QmiParseKeyValueForeachFn callback, gpointer user_data) { GError *inner_error = NULL; gchar *dupstr, *p, *key, *key_end, *value, *value_end, quote; g_return_val_if_fail (callback != NULL, FALSE); g_return_val_if_fail (str != NULL, FALSE); /* Allow empty strings, we'll just return with success */ while (g_ascii_isspace (*str)) str++; if (!str[0]) return TRUE; dupstr = g_strdup (str); p = dupstr; while (TRUE) { gboolean keep_iteration = FALSE; /* Skip leading spaces */ while (g_ascii_isspace (*p)) p++; /* Key start */ key = p; if (!g_ascii_isalnum (*key)) { inner_error = g_error_new (QMI_CORE_ERROR, QMI_CORE_ERROR_FAILED, "Key must start with alpha/num, starts with '%c'", *key); break; } /* Key end */ while (g_ascii_isalnum (*p) || (*p == '-') || (*p == '_')) p++; key_end = p; if (key_end == key) { inner_error = g_error_new (QMI_CORE_ERROR, QMI_CORE_ERROR_FAILED, "Couldn't find a proper key"); break; } /* Skip whitespaces, if any */ while (g_ascii_isspace (*p)) p++; /* Equal sign must be here */ if (*p != '=') { inner_error = g_error_new (QMI_CORE_ERROR, QMI_CORE_ERROR_FAILED, "Couldn't find equal sign separator"); break; } /* Skip the equal */ p++; /* Skip whitespaces, if any */ while (g_ascii_isspace (*p)) p++; /* Do we have a quote-enclosed string? */ if (*p == '\"' || *p == '\'') { quote = *p; /* Skip the quote */ p++; /* Value start */ value = p; /* Find the closing quote */ p = strchr (p, quote); if (!p) { inner_error = g_error_new (QMI_CORE_ERROR, QMI_CORE_ERROR_FAILED, "Unmatched quotes in string value"); break; } /* Value end */ value_end = p; /* Skip the quote */ p++; } else { /* Value start */ value = p; /* Value end */ while ((*p != ',') && (*p != '\0') && !g_ascii_isspace (*p)) p++; value_end = p; } /* Note that we allow value == value_end here */ /* Skip whitespaces, if any */ while (g_ascii_isspace (*p)) p++; /* If a comma is found, we should keep the iteration */ if (*p == ',') { /* skip the comma */ p++; keep_iteration = TRUE; } /* Got key and value, prepare them and run the callback */ *value_end = '\0'; *key_end = '\0'; if (!callback (key, value, &inner_error, user_data)) { /* We were told to abort */ break; } g_assert (!inner_error); if (keep_iteration) continue; /* Check if no more key/value pairs expected */ if (*p == '\0') break; inner_error = g_error_new (QMI_CORE_ERROR, QMI_CORE_ERROR_FAILED, "Unexpected content (%s) after value", p); break; } g_free (dupstr); if (inner_error) { g_propagate_error (error, inner_error); return FALSE; } return TRUE; }