/* $NetBSD: print.c,v 1.22 2015/12/11 21:05:18 plunky Exp $ */ /*- * Copyright (c) 2009 The NetBSD Foundation, Inc. * All rights reserved. * * This code is derived from software contributed to The NetBSD Foundation * by Iain Hibbert. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE NETBSD FOUNDATION, INC. AND CONTRIBUTORS * ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED * TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR CONTRIBUTORS * BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR * CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF * SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS * INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN * CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE * POSSIBILITY OF SUCH DAMAGE. */ #include __RCSID("$NetBSD: print.c,v 1.22 2015/12/11 21:05:18 plunky Exp $"); #include #include #include #include #include #include #include #include #include #include #include "sdpquery.h" typedef struct { uint16_t id; const char * desc; void (*print)(sdp_data_t *); } attr_t; typedef struct { uint16_t class; const char * desc; attr_t * attrs; size_t nattr; } service_t; typedef struct { uint16_t base; const char * codeset; } language_t; static const char *string_uuid(uuid_t *); static const char *string_vis(const char *, size_t); static void print_hexdump(const char *, const uint8_t *, size_t); static bool print_attribute(uint16_t, sdp_data_t *, attr_t *, size_t); static bool print_universal_attribute(uint16_t, sdp_data_t *); static bool print_language_attribute(uint16_t, sdp_data_t *); static bool print_service_attribute(uint16_t, sdp_data_t *); static void print_bool(sdp_data_t *); static void print_uint8d(sdp_data_t *); static void print_uint8x(sdp_data_t *); static void print_uint16d(sdp_data_t *); static void print_uint16x(sdp_data_t *); static void print_uint32d(sdp_data_t *); static void print_uint32x(sdp_data_t *); static void print_uuid(sdp_data_t *); static void print_uuid_list(sdp_data_t *); static void print_string(sdp_data_t *); static void print_string_list(sdp_data_t *); static void print_url(sdp_data_t *); static void print_profile_version(sdp_data_t *); static void print_codeset_string(const char *, size_t, const char *); static void print_language_string(sdp_data_t *); static void print_utf8_string(sdp_data_t *); static void print_service_class_id_list(sdp_data_t *); static void print_protocol_descriptor(sdp_data_t *); static void print_protocol_descriptor_list(sdp_data_t *); static void print_language_base_attribute_id_list(sdp_data_t *); static void print_service_availability(sdp_data_t *); static void print_bluetooth_profile_descriptor_list(sdp_data_t *); static void print_additional_protocol_descriptor_lists(sdp_data_t *); static void print_sds_version_number_list(sdp_data_t *); static void print_ct_network(sdp_data_t *); static void print_asrc_features(sdp_data_t *); static void print_asink_features(sdp_data_t *); static void print_avrcp_features(sdp_data_t *); static void print_supported_data_stores(sdp_data_t *); static void print_supported_formats(sdp_data_t *); static void print_wap_addr(sdp_data_t *); static void print_wap_gateway(sdp_data_t *); static void print_wap_type(sdp_data_t *); static void print_hid_version(sdp_data_t *); static void print_hid_device_subclass(sdp_data_t *); static void print_hid_descriptor_list(sdp_data_t *); static void print_hid_langid_base_list(sdp_data_t *); static void print_security_description(sdp_data_t *); static void print_hf_features(sdp_data_t *); static void print_hfag_network(sdp_data_t *); static void print_hfag_features(sdp_data_t *); static void print_net_access_type(sdp_data_t *); static void print_pnp_source(sdp_data_t *); static void print_mas_types(sdp_data_t *); static void print_map_features(sdp_data_t *); static void print_pse_repositories(sdp_data_t *); static void print_pse_features(sdp_data_t *); static void print_hdp_features(sdp_data_t *); static void print_hdp_specification(sdp_data_t *); static void print_mcap_procedures(sdp_data_t *); static void print_character_repertoires(sdp_data_t *); static void print_bip_capabilities(sdp_data_t *); static void print_bip_features(sdp_data_t *); static void print_bip_functions(sdp_data_t *); static void print_bip_capacity(sdp_data_t *); static void print_1284id(sdp_data_t *); static void print_ctn_features(sdp_data_t *); static void print_rfcomm(sdp_data_t *); static void print_att(sdp_data_t *); static void print_bnep(sdp_data_t *); static void print_avctp(sdp_data_t *); static void print_avdtp(sdp_data_t *); static void print_l2cap(sdp_data_t *); attr_t protocol_list[] = { { 0x0001, "SDP", NULL }, { 0x0002, "UDP", NULL }, { 0x0003, "RFCOMM", print_rfcomm }, { 0x0004, "TCP", NULL }, { 0x0005, "TCS_BIN", NULL }, { 0x0006, "TCS_AT", NULL }, { 0x0007, "ATT", print_att }, { 0x0008, "OBEX", NULL }, { 0x0009, "IP", NULL }, { 0x000a, "FTP", NULL }, { 0x000c, "HTTP", NULL }, { 0x000e, "WSP", NULL }, { 0x000f, "BNEP", print_bnep }, { 0x0010, "UPNP", NULL }, { 0x0011, "HIDP", NULL }, { 0x0012, "HARDCOPY_CONTROL_CHANNEL", NULL }, { 0x0014, "HARDCOPY_DATA_CHANNEL", NULL }, { 0x0016, "HARDCOPY_NOTIFICATION", NULL }, { 0x0017, "AVCTP", print_avctp }, { 0x0019, "AVDTP", print_avdtp }, { 0x001b, "CMTP", NULL }, { 0x001d, "UDI_C_PLANE", NULL }, { 0x001e, "MCAP_CONTROL_CHANNEL", NULL }, { 0x001f, "MCAP_DATA_CHANNEL", NULL }, { 0x0100, "L2CAP", print_l2cap }, }; attr_t universal_attrs[] = { { 0x0000, "ServiceRecordHandle", print_uint32x }, { 0x0001, "ServiceClassIDList", print_service_class_id_list }, { 0x0002, "ServiceRecordState", print_uint32x }, { 0x0003, "ServiceID", print_uuid }, { 0x0004, "ProtocolDescriptorList", print_protocol_descriptor_list }, { 0x0005, "BrowseGroupList", print_uuid_list }, { 0x0006, "LanguageBaseAttributeIDList", print_language_base_attribute_id_list }, { 0x0007, "ServiceInfoTimeToLive", print_uint32d }, { 0x0008, "ServiceAvailability", print_service_availability }, { 0x0009, "BluetoothProfileDescriptorList", print_bluetooth_profile_descriptor_list }, { 0x000a, "DocumentationURL", print_url }, { 0x000b, "ClientExecutableURL", print_url }, { 0x000c, "IconURL", print_url }, { 0x000d, "AdditionalProtocolDescriptorLists", print_additional_protocol_descriptor_lists }, }; attr_t language_attrs[] = { /* Language Attribute Offsets */ { 0x0000, "ServiceName", print_language_string }, { 0x0001, "ServiceDescription", print_language_string }, { 0x0002, "ProviderName", print_language_string }, }; attr_t sds_attrs[] = { /* Service Discovery Server */ { 0x0200, "VersionNumberList", print_sds_version_number_list }, { 0x0201, "ServiceDatabaseState", print_uint32x }, }; attr_t bgd_attrs[] = { /* Browse Group Descriptor */ { 0x0200, "GroupID", print_uuid }, }; attr_t ct_attrs[] = { /* Cordless Telephony */ { 0x0301, "ExternalNetwork", print_ct_network }, }; attr_t asrc_attrs[] = { /* Audio Source */ { 0x0311, "SupportedFeatures", print_asrc_features }, }; attr_t asink_attrs[] = { /* Audio Sink */ { 0x0311, "SupportedFeatures", print_asink_features }, }; attr_t avrcp_attrs[] = { /* Audio Video Remote Control Profile */ { 0x0311, "SupportedFeatures", print_avrcp_features }, }; attr_t lan_attrs[] = { /* LAN Access Using PPP */ { 0x0200, "IPSubnet", print_string }, }; attr_t dun_attrs[] = { /* Dialup Networking */ { 0x0305, "AudioFeedbackSupport", print_bool }, }; attr_t irmc_sync_attrs[] = { /* IrMC Sync */ { 0x0301, "SupportedDataStoresList", print_supported_data_stores }, }; attr_t opush_attrs[] = { /* Object Push */ { 0x0200, "GeopL2capPSM", print_uint16x }, { 0x0303, "SupportedFormatsList", print_supported_formats }, }; attr_t ft_attrs[] = { /* File Transfer */ { 0x0200, "GeopL2capPSM", print_uint16x }, }; attr_t hset_attrs[] = { /* Headset */ { 0x0302, "RemoteAudioVolumeControl", print_bool }, }; attr_t fax_attrs[] = { /* Fax */ { 0x0302, "FAXClass1", print_bool }, { 0x0303, "FAXClass2.0", print_bool }, { 0x0304, "FAXClass2", print_bool }, { 0x0305, "AudioFeedbackSupport", print_bool }, }; attr_t wap_attrs[] = { /* WAP Bearer */ { 0x0306, "NetworkAddress", print_wap_addr }, { 0x0307, "WAPGateway", print_wap_gateway }, { 0x0308, "HomePageURL", print_url }, { 0x0309, "WAPStackType", print_wap_type }, }; attr_t panu_attrs[] = { /* Personal Area Networking User */ { 0x0200, "IpSubnet", print_string }, { 0x030a, "SecurityDescription", print_security_description }, }; attr_t nap_attrs[] = { /* Network Access Point */ { 0x0200, "IpSubnet", print_string }, { 0x030a, "SecurityDescription", print_security_description }, { 0x030b, "NetAccessType", print_net_access_type }, { 0x030c, "MaxNetAccessRate", print_uint32d }, { 0x030d, "IPv4Subnet", print_string }, { 0x030e, "IPv6Subnet", print_string }, }; attr_t gn_attrs[] = { /* Group Network */ { 0x0200, "IpSubnet", print_string }, { 0x030a, "SecurityDescription", print_security_description }, { 0x030d, "IPv4Subnet", print_string }, { 0x030e, "IPv6Subnet", print_string }, }; attr_t bp_attrs[] = { /* Basic Printing */ { 0x0350, "DocumentFormatsSupported", print_string_list }, { 0x0352, "CharacterRepertoiresSupported", print_character_repertoires }, { 0x0354, "XHTML-PrintImageFormatsSupported", print_string_list }, { 0x0356, "ColorSupported", print_bool }, { 0x0358, "1284ID", print_1284id }, { 0x035a, "PrinterName", print_utf8_string }, { 0x035c, "PrinterLocation", print_utf8_string }, { 0x035e, "DuplexSupported", print_bool }, { 0x0360, "MediaTypesSupported", print_string_list }, { 0x0362, "MaxMediaWidth", print_uint16d }, { 0x0364, "MaxMediaLength", print_uint16d }, { 0x0366, "EnhancedLayoutSupport", print_bool }, { 0x0368, "RUIFormatsSupported", print_string_list }, { 0x0370, "ReferencePrintingRUISupported", print_bool }, { 0x0372, "DirectPrintingRUISupported", print_bool }, { 0x0374, "ReferencePrintingTopURL", print_url }, { 0x0376, "DirectPrintingTopURL", print_url }, { 0x037a, "DeviceName", print_utf8_string }, }; attr_t bi_attrs[] = { /* Basic Imaging */ { 0x0200, "GeopL2capPSM", print_uint16x }, { 0x0310, "SupportedCapabilities", print_bip_capabilities }, { 0x0311, "SupportedFeatures", print_bip_features }, { 0x0312, "SupportedFunctions", print_bip_functions }, { 0x0313, "TotalImagingDataCapacity", print_bip_capacity }, }; attr_t hf_attrs[] = { /* Handsfree */ { 0x0311, "SupportedFeatures", print_hf_features }, }; attr_t hfag_attrs[] = { /* Handsfree Audio Gateway */ { 0x0301, "Network", print_hfag_network }, { 0x0311, "SupportedFeatures", print_hfag_features }, }; attr_t rui_attrs[] = { /* Reflected User Interface */ { 0x0368, "RUIFormatsSupported", print_string_list }, { 0x0378, "PrinterAdminRUITopURL", print_url }, }; attr_t hid_attrs[] = { /* Human Interface Device */ { 0x0200, "HIDDeviceReleaseNumber", print_hid_version }, { 0x0201, "HIDParserVersion", print_hid_version }, { 0x0202, "HIDDeviceSubClass", print_hid_device_subclass }, { 0x0203, "HIDCountryCode", print_uint8x }, { 0x0204, "HIDVirtualCable", print_bool }, { 0x0205, "HIDReconnectInitiate", print_bool }, { 0x0206, "HIDDescriptorList", print_hid_descriptor_list }, { 0x0207, "HIDLANGIDBaseList", print_hid_langid_base_list }, { 0x0208, "HIDSDPDisable", print_bool }, { 0x0209, "HIDBatteryPower", print_bool }, { 0x020a, "HIDRemoteWake", print_bool }, { 0x020b, "HIDProfileVersion", print_profile_version }, { 0x020c, "HIDSupervisionTimeout", print_uint16d }, { 0x020d, "HIDNormallyConnectable", print_bool }, { 0x020e, "HIDBootDevice", print_bool }, { 0x020f, "HIDHostMaxLatency", print_uint16d }, { 0x0210, "HIDHostMinTimeout", print_uint16d }, }; attr_t hcr_attrs[] = { /* Hardcopy Cable Replacement */ { 0x0300, "1284ID", print_1284id }, { 0x0302, "DeviceName", print_utf8_string }, { 0x0304, "FriendlyName", print_utf8_string }, { 0x0306, "DeviceLocation", print_utf8_string }, }; attr_t mps_attrs[] = { /* Multi-Profile Specification */ { 0x0200, "SingleDeviceSupportedScenarios", NULL }, { 0x0201, "MultiDeviceSupportedScenarios", NULL }, { 0x0202, "SupportedProfileAndProtocolDependencies", print_uint16x }, }; attr_t cas_attrs[] = { /* Calendar, Tasks & Notes Access */ { 0x0315, "InstanceID", print_uint8d }, { 0x0317, "SupportedFeatures", print_ctn_features }, }; attr_t cns_attrs[] = { /* Calendar, Tasks & Notes Notification */ { 0x0317, "SupportedFeatures", print_ctn_features }, }; attr_t pnp_attrs[] = { /* Device ID */ { 0x0200, "SpecificationID", print_profile_version }, { 0x0201, "VendorID", print_uint16x }, { 0x0202, "ProductID", print_uint16x }, { 0x0203, "Version", print_hid_version }, { 0x0204, "PrimaryRecord", print_bool }, { 0x0205, "VendorIDSource", print_pnp_source }, }; attr_t mas_attrs[] = { /* Message Access Server */ { 0x0200, "GeopL2capPSM", print_uint16x }, { 0x0315, "InstanceID", print_uint8d }, { 0x0316, "SupportedMessageTypes", print_mas_types }, { 0x0317, "SupportedFeatures", print_map_features }, }; attr_t mns_attrs[] = { /* Message Notification Server */ { 0x0200, "GeopL2capPSM", print_uint16x }, { 0x0317, "SupportedFeatures", print_map_features }, }; attr_t gnss_attrs[] = { /* Global Navigation Satellite System Server */ { 0x0200, "SupportedFeatures", print_uint16x }, }; attr_t pse_attrs[] = { /* Phonebook Access Server */ { 0x0200, "GeopL2capPSM", print_uint16x }, { 0x0314, "SupportedRepositories", print_pse_repositories }, { 0x0317, "SupportedFeatures", print_pse_features }, }; attr_t hdp_attrs[] = { /* Health Device Profile */ { 0x0200, "SupportedFeaturesList", print_hdp_features }, { 0x0301, "DataExchangeSpecification", print_hdp_specification }, { 0x0302, "MCAPSupportedProcedures", print_mcap_procedures }, }; #define A(a) a, __arraycount(a) service_t service_list[] = { { 0x1000, "Service Discovery Server", A(sds_attrs) }, { 0x1001, "Browse Group Descriptor", A(bgd_attrs) }, { 0x1002, "Public Browse Root", NULL, 0 }, { 0x1101, "Serial Port", NULL, 0 }, { 0x1102, "LAN Access Using PPP", A(lan_attrs) }, { 0x1103, "Dialup Networking", A(dun_attrs) }, { 0x1104, "IrMC Sync", A(irmc_sync_attrs) }, { 0x1105, "Object Push", A(opush_attrs) }, { 0x1106, "File Transfer", A(ft_attrs) }, { 0x1107, "IrMC Sync Command", NULL, 0 }, { 0x1108, "Headset", A(hset_attrs) }, { 0x1109, "Cordless Telephony", A(ct_attrs) }, { 0x110a, "Audio Source", A(asrc_attrs) }, { 0x110b, "Audio Sink", A(asink_attrs) }, { 0x110c, "A/V Remote Control Target", A(avrcp_attrs) }, { 0x110d, "Advanced Audio Distribution", NULL, 0 }, { 0x110e, "A/V Remote Control", A(avrcp_attrs) }, { 0x110f, "Video Conferencing", NULL, 0 }, { 0x1110, "Intercom", NULL, 0 }, { 0x1111, "Fax", A(fax_attrs) }, { 0x1112, "Headset Audio Gateway", NULL, 0 }, { 0x1113, "WAP", A(wap_attrs) }, { 0x1114, "WAP Client", NULL, 0 }, { 0x1115, "Personal Area Networking User", A(panu_attrs) }, { 0x1116, "Network Access Point", A(nap_attrs) }, { 0x1117, "Group Network", A(gn_attrs) }, { 0x1118, "Direct Printing", A(bp_attrs) }, { 0x1119, "Reference Printing", A(bp_attrs) }, { 0x111a, "Imaging", NULL, 0 }, { 0x111b, "Imaging Responder", A(bi_attrs) }, { 0x111c, "Imaging Automatic Archive", A(bi_attrs) }, { 0x111d, "Imaging Referenced Objects", A(bi_attrs) }, { 0x111e, "Handsfree", A(hf_attrs) }, { 0x111f, "Handsfree Audio Gateway", A(hfag_attrs) }, { 0x1120, "Direct Printing Reference Objects", NULL, 0 }, { 0x1121, "Reflected User Interface", A(rui_attrs) }, { 0x1122, "Basic Printing", NULL, 0 }, { 0x1123, "Printing Status", A(bp_attrs) }, { 0x1124, "Human Interface Device", A(hid_attrs) }, { 0x1125, "Hardcopy Cable Replacement", NULL, 0 }, { 0x1126, "Hardcopy Cable Replacement Print", A(hcr_attrs) }, { 0x1127, "Hardcopy Cable Replacement Scan", A(hcr_attrs) }, { 0x1128, "Common ISDN Access", NULL, 0 }, { 0x1129, "Video Conferencing GW", NULL, 0 }, { 0x112a, "UDI MT", NULL, 0 }, { 0x112b, "UDI TA", NULL, 0 }, { 0x112c, "Audio/Video", NULL, 0 }, { 0x112d, "SIM Access", NULL, 0 }, { 0x112e, "Phonebook Access Client", NULL, 0 }, { 0x112f, "Phonebook Access Server", A(pse_attrs) }, { 0x1130, "Phonebook Access", NULL, 0 }, { 0x1131, "Headset HS", NULL, 0 }, { 0x1132, "Message Access Server", A(mas_attrs) }, { 0x1133, "Message Notification Server", A(mns_attrs) }, { 0x1134, "Message Access Profile", NULL, 0 }, { 0x1135, "Global Navigation Satellite System Profile", NULL, 0 }, { 0x1136, "Global Navigation Satellite System Server", A(gnss_attrs) }, { 0x1137, "3D Display", NULL, 0 }, { 0x1138, "3D Glasses", NULL, 0 }, { 0x1139, "3D Synchronization", NULL, 0 }, { 0x113a, "Multi-Profile Specification Profile",NULL, 0 }, { 0x113b, "Multi-Profile Specification Server", A(mps_attrs) }, { 0x113c, "Calendar, Tasks & Notes Access", A(cas_attrs) }, { 0x113d, "Calendar, Tasks & Notes Notification",A(cns_attrs) }, { 0x113e, "Calendar, Tasks & Notes Profile", NULL, 0 }, { 0x1200, "PNP Information", A(pnp_attrs) }, { 0x1201, "Generic Networking", NULL, 0 }, { 0x1202, "Generic File Transfer", NULL, 0 }, { 0x1203, "Generic Audio", NULL, 0 }, { 0x1204, "Generic Telephony", NULL, 0 }, { 0x1205, "UPNP", NULL, 0 }, { 0x1206, "UPNP IP", NULL, 0 }, { 0x1300, "UPNP IP PAN", NULL, 0 }, { 0x1301, "UPNP IP LAP", NULL, 0 }, { 0x1302, "UPNP IP L2CAP", NULL, 0 }, { 0x1303, "Video Source", NULL, 0 }, { 0x1304, "Video Sink", NULL, 0 }, { 0x1305, "Video Distribution", NULL, 0 }, { 0x1400, "HDP", NULL, 0 }, { 0x1401, "HDP Source", A(hdp_attrs) }, { 0x1402, "HDP Sink", A(hdp_attrs) }, { 0x1800, "Generic Access Profile", NULL, 0 }, { 0x1801, "Generic Attribute Server", NULL, 0 }, }; #undef A /* extracted Service Class ID List */ #define MAX_SERVICES 16 static size_t nservices; static uint16_t service_class[MAX_SERVICES]; /* extracted Language Base Attribute ID List */ #define MAX_LANGUAGES 16 static int nlanguages; static language_t language[MAX_LANGUAGES]; static int current; static bool sdp_get_uint8(sdp_data_t *d, uint8_t *vp) { uintmax_t v; if (sdp_data_type(d) != SDP_DATA_UINT8 || !sdp_get_uint(d, &v)) return false; *vp = (uint8_t)v; return true; } static bool sdp_get_uint16(sdp_data_t *d, uint16_t *vp) { uintmax_t v; if (sdp_data_type(d) != SDP_DATA_UINT16 || !sdp_get_uint(d, &v)) return false; *vp = (uint16_t)v; return true; } static bool sdp_get_uint32(sdp_data_t *d, uint32_t *vp) { uintmax_t v; if (sdp_data_type(d) != SDP_DATA_UINT32 || !sdp_get_uint(d, &v)) return false; *vp = (uint32_t)v; return true; } static bool sdp_get_uint64(sdp_data_t *d, uint64_t *vp) { uintmax_t v; if (sdp_data_type(d) != SDP_DATA_UINT64 || !sdp_get_uint(d, &v)) return false; *vp = (uint64_t)v; return true; } void print_record(sdp_data_t *rec) { sdp_data_t value; uint16_t id; nservices = 0; nlanguages = 0; current = -1; while (sdp_get_attr(rec, &id, &value)) { if (Xflag) { printf("AttributeID 0x%04x:\n", id); print_hexdump(" ", value.next, (size_t)(value.end - value.next)); } else if (Rflag) { printf("AttributeID 0x%04x:\n", id); sdp_data_print(&value, 4); } else if (print_universal_attribute(id, &value) || print_language_attribute(id, &value) || print_service_attribute(id, &value)) { if (value.next != value.end) printf(" [additional data ignored]\n"); } else { printf("AttributeID 0x%04x:\n", id); sdp_data_print(&value, 4); } } } static const char * string_uuid(uuid_t *uuid) { static char buf[64]; const char *desc; uuid_t u; size_t i; u = *uuid; u.time_low = 0; if (!uuid_equal(&u, &BLUETOOTH_BASE_UUID, NULL)) { snprintf(buf, sizeof(buf), "%08x-%04x-%04x-%02x%02x-%02x%02x%02x%02x%02x%02x", uuid->time_low, uuid->time_mid, uuid->time_hi_and_version, uuid->clock_seq_hi_and_reserved, uuid->clock_seq_low, uuid->node[0], uuid->node[1], uuid->node[2], uuid->node[3], uuid->node[4], uuid->node[5]); return buf; } desc = NULL; for (i = 0; i < __arraycount(service_list); i++) { if (uuid->time_low == service_list[i].class) { desc = service_list[i].desc; break; } } for (i = 0; i < __arraycount(protocol_list); i++) { if (uuid->time_low == protocol_list[i].id) { desc = protocol_list[i].desc; break; } } if (!Nflag && desc) { snprintf(buf, sizeof(buf), "%s", desc); return buf; } snprintf(buf, sizeof(buf), "%s%s(0x%*.*x)", (desc == NULL ? "" : desc), (desc == NULL ? "" : " "), (uuid->time_low > UINT16_MAX ? 8 : 4), (uuid->time_low > UINT16_MAX ? 8 : 4), uuid->time_low); return buf; } static const char * string_vis(const char *src, size_t len) { static char buf[50]; char *dst = buf; int style; buf[0] = '\0'; style = VIS_CSTYLE | VIS_NL; while (len > 0 && (dst + 5) < (buf + sizeof(buf))) { dst = vis(dst, src[0], style, (len > 1 ? src[1] : 0)); src++; len--; } return buf; } static void print_hexdump(const char *title, const uint8_t *data, size_t len) { int n, i; i = 0; n = printf("%s", title); while (len-- > 0) { if (++i > 8) { printf("\n%*s", n, ""); i = 1; } printf(" 0x%02x", *data++); } printf("\n"); } static bool print_attribute(uint16_t id, sdp_data_t *value, attr_t *attr, size_t count) { size_t i; for (i = 0; i < count; i++) { if (id == attr[i].id) { printf("%s", attr[i].desc); if (Nflag) { printf(" ("); if (current != -1) printf("0x%04x + ", language[current].base); printf("0x%04x)", id); } printf(": "); if (attr[i].print == NULL) { printf("\n"); sdp_data_print(value, 4); value->next = value->end; } else { (attr[i].print)(value); } return true; } } return false; } static bool print_universal_attribute(uint16_t id, sdp_data_t *value) { return print_attribute(id, value, universal_attrs, __arraycount(universal_attrs)); } static bool print_language_attribute(uint16_t id, sdp_data_t *value) { bool done = false; for (current = 0; current < nlanguages && !done; current++) done = print_attribute(id - language[current].base, value, language_attrs, __arraycount(language_attrs)); current = -1; return done; } static bool print_service_attribute(uint16_t id, sdp_data_t *value) { size_t i, j; for (i = 0; i < nservices; i++) { for (j = 0; j < __arraycount(service_list); j++) { if (service_class[i] == service_list[j].class && print_attribute(id, value, service_list[j].attrs, service_list[j].nattr)) return true; } } return false; } static void print_bool(sdp_data_t *data) { bool v; if (!sdp_get_bool(data, &v)) return; printf("%s\n", (v ? "true" : "false")); } static void print_uint8d(sdp_data_t *data) { uint8_t v; if (!sdp_get_uint8(data, &v)) return; printf("%d\n", v); } static void print_uint8x(sdp_data_t *data) { uint8_t v; if (!sdp_get_uint8(data, &v)) return; printf("0x%02x\n", v); } static void print_uint16d(sdp_data_t *data) { uint16_t v; if (!sdp_get_uint16(data, &v)) return; printf("%d\n", v); } static void print_uint16x(sdp_data_t *data) { uint16_t v; if (!sdp_get_uint16(data, &v)) return; printf("0x%04x\n", v); } static void print_uint32x(sdp_data_t *data) { uint32_t v; if (!sdp_get_uint32(data, &v)) return; printf("0x%08x\n", v); } static void print_uint32d(sdp_data_t *data) { uint32_t v; if (!sdp_get_uint32(data, &v)) return; printf("%d\n", v); } static void print_uuid(sdp_data_t *data) { uuid_t uuid; if (!sdp_get_uuid(data, &uuid)) return; printf("%s\n", string_uuid(&uuid)); } static void print_uuid_list(sdp_data_t *data) { sdp_data_t seq; uuid_t uuid; if (!sdp_get_seq(data, &seq)) return; printf("\n"); while (sdp_get_uuid(&seq, &uuid)) printf(" %s\n", string_uuid(&uuid)); if (seq.next != seq.end) printf(" [additional data]\n"); } static void print_string(sdp_data_t *data) { char *str; size_t len; if (!sdp_get_str(data, &str, &len)) return; printf("\"%s\"\n", string_vis(str, len)); } static void print_string_list(sdp_data_t *data) { char *str, *ep; size_t len, l; if (!sdp_get_str(data, &str, &len)) return; printf("\n"); while (len > 0) { ep = memchr(str, (int)',', len); if (ep == NULL) { l = len; len = 0; } else { l = (size_t)(ep - str); len -= l + 1; ep++; } printf(" %s\n", string_vis(str, l)); str = ep; } } static void print_url(sdp_data_t *data) { char *url; size_t len; if (!sdp_get_url(data, &url, &len)) return; printf("\"%s\"\n", string_vis(url, len)); } static void print_profile_version(sdp_data_t *data) { uint16_t v; if (!sdp_get_uint16(data, &v)) return; printf("v%d.%d\n", (v >> 8), (v & 0xff)); } static void print_codeset_string(const char *src, size_t srclen, const char *codeset) { char buf[50], *dst; iconv_t ih; size_t dstlen; dst = buf; dstlen = sizeof(buf); ih = iconv_open(nl_langinfo(CODESET), codeset); if (ih == (iconv_t)-1) { printf("Can't convert %s string\n", codeset); return; } (void)iconv(ih, &src, &srclen, &dst, &dstlen); iconv_close(ih); printf("\"%.*s%s\n", (int)(sizeof(buf) - dstlen), buf, (srclen > 0 ? " ..." : "\"")); } /* * This should only be called through print_language_attribute() which * sets codeset of the string to be printed. */ static void print_language_string(sdp_data_t *data) { char *str; size_t len; if (!sdp_get_str(data, &str, &len)) return; print_codeset_string(str, len, language[current].codeset); } static void print_utf8_string(sdp_data_t *data) { char *str; size_t len; if (!sdp_get_str(data, &str, &len)) return; print_codeset_string(str, len, "UTF-8"); } static void print_service_class_id_list(sdp_data_t *data) { sdp_data_t seq; uuid_t uuid; if (!sdp_get_seq(data, &seq)) return; printf("\n"); while (sdp_get_uuid(&seq, &uuid)) { printf(" %s\n", string_uuid(&uuid)); if (nservices < MAX_SERVICES) { service_class[nservices] = uuid.time_low; uuid.time_low = 0; if (uuid_equal(&uuid, &BLUETOOTH_BASE_UUID, NULL)) nservices++; } } if (seq.next != seq.end) printf(" [additional data]\n"); } static void print_protocol_descriptor(sdp_data_t *data) { uuid_t u0, uuid; size_t i; if (!sdp_get_uuid(data, &uuid)) return; u0 = uuid; u0.time_low = 0; if (uuid_equal(&u0, &BLUETOOTH_BASE_UUID, NULL)) { for (i = 0; i < __arraycount(protocol_list); i++) { if (uuid.time_low == protocol_list[i].id) { printf(" %s", protocol_list[i].desc); if (Nflag) printf(" (0x%04x)", protocol_list[i].id); if (protocol_list[i].print) (protocol_list[i].print)(data); if (data->next != data->end) printf(" [additional data]"); printf("\n"); return; } } } printf(" %s\n", string_uuid(&uuid)); sdp_data_print(data, 4); data->next = data->end; } static void print_protocol_descriptor_list(sdp_data_t *data) { sdp_data_t seq, proto; printf("\n"); sdp_get_alt(data, data); /* strip [optional] alt header */ while (sdp_get_seq(data, &seq)) { while (sdp_get_seq(&seq, &proto)) print_protocol_descriptor(&proto); if (seq.next != seq.end) printf(" [additional protocol data]\n"); } if (data->next != data->end) printf(" [additional data]\n"); } static void print_language_base_attribute_id_list(sdp_data_t *data) { sdp_data_t list; uint16_t v; const char *codeset; char lang[2]; if (!sdp_get_seq(data, &list)) return; printf("\n"); while (list.next < list.end) { /* * ISO-639-1 natural language values are published at * http://www.loc.gov/standards/iso639-2/php/code-list.php */ if (!sdp_get_uint16(&list, &v)) break; be16enc(lang, v); if (!islower((int)lang[0]) || !islower((int)lang[1])) break; /* * MIBenum values are published at * http://www.iana.org/assignments/character-sets */ if (!sdp_get_uint16(&list, &v)) break; switch(v) { case 3: codeset = "US-ASCII"; break; case 4: codeset = "ISO-8859-1"; break; case 5: codeset = "ISO-8859-2"; break; case 106: codeset = "UTF-8"; break; case 1013: codeset = "UTF-16BE"; break; case 1014: codeset = "UTF-16LE"; break; default: codeset = "Unknown"; break; } if (!sdp_get_uint16(&list, &v)) break; printf(" %.2s.%s base 0x%04x\n", lang, codeset, v); if (nlanguages < MAX_LANGUAGES) { language[nlanguages].base = v; language[nlanguages].codeset = codeset; nlanguages++; } } if (list.next != list.end) printf(" [additional data]\n"); } static void print_service_availability(sdp_data_t *data) { uint8_t v; if (!sdp_get_uint8(data, &v)) return; printf("%d/%d\n", v, UINT8_MAX); } static void print_bluetooth_profile_descriptor_list(sdp_data_t *data) { sdp_data_t seq, profile; uuid_t uuid; uint16_t v; if (!sdp_get_seq(data, &seq)) return; printf("\n"); while (seq.next < seq.end) { if (!sdp_get_seq(&seq, &profile) || !sdp_get_uuid(&profile, &uuid) || !sdp_get_uint16(&profile, &v)) break; printf(" %s, v%d.%d", string_uuid(&uuid), (v >> 8), (v & 0xff)); if (profile.next != profile.end) printf(" [additional profile data]"); printf("\n"); } if (seq.next != seq.end) printf(" [additional data]\n"); } static void print_additional_protocol_descriptor_lists(sdp_data_t *data) { sdp_data_t seq, stack, proto; printf("\n"); sdp_get_seq(data, &seq); while (sdp_get_seq(&seq, &stack)) while (sdp_get_seq(&stack, &proto)) print_protocol_descriptor(&proto); if (seq.next != seq.end) printf(" [additional data]\n"); } static void print_sds_version_number_list(sdp_data_t *data) { sdp_data_t list; const char *sep; uint16_t v; if (!sdp_get_seq(data, &list)) return; sep = ""; while (sdp_get_uint16(&list, &v)) { printf("%sv%d.%d", sep, (v >> 8), (v & 0xff)); sep = ", "; } if (list.next != list.end) printf(" [additional data]"); printf("\n"); } static void print_ct_network(sdp_data_t *data) { uint8_t v; if (!sdp_get_uint8(data, &v)) return; switch (v) { case 0x01: printf("PSTN"); break; case 0x02: printf("ISDN"); break; case 0x03: printf("GSM"); break; case 0x04: printf("CDMA"); break; case 0x05: printf("Analogue Cellular"); break; case 0x06: printf("Packet Switched"); break; case 0x07: printf("Other"); break; default: printf("0x%02x", v); break; } printf("\n"); } static void print_asrc_features(sdp_data_t *data) { uint16_t v; if (!sdp_get_uint16(data, &v)) return; if (Nflag) printf("(0x%04x)", v); printf("\n"); if (v & (1<<0)) printf(" Player\n"); if (v & (1<<1)) printf(" Microphone\n"); if (v & (1<<2)) printf(" Tuner\n"); if (v & (1<<3)) printf(" Mixer\n"); } static void print_asink_features(sdp_data_t *data) { uint16_t v; if (!sdp_get_uint16(data, &v)) return; if (Nflag) printf("(0x%04x)", v); printf("\n"); if (v & (1<<0)) printf(" Headphone\n"); if (v & (1<<1)) printf(" Speaker\n"); if (v & (1<<2)) printf(" Recorder\n"); if (v & (1<<3)) printf(" Amplifier\n"); } static void print_avrcp_features(sdp_data_t *data) { uint16_t v; if (!sdp_get_uint16(data, &v)) return; if (Nflag) printf("(0x%04x)", v); printf("\n"); if (v & (1<<0)) printf(" Category 1\n"); if (v & (1<<1)) printf(" Category 2\n"); if (v & (1<<2)) printf(" Category 3\n"); if (v & (1<<3)) printf(" Category 4\n"); } static void print_supported_data_stores(sdp_data_t *data) { sdp_data_t list; const char *sep; uint8_t v; if (!sdp_get_seq(data, &list)) return; sep = "\n "; while (sdp_get_uint8(&list, &v)) { printf("%s", sep); sep = ", "; switch(v) { case 0x01: printf("Phonebook"); break; case 0x03: printf("Calendar"); break; case 0x05: printf("Notes"); break; case 0x06: printf("Messages"); break; default: printf("0x%02x", v); break; } } if (list.next != list.end) printf(" [additional data]"); printf("\n"); } static void print_supported_formats(sdp_data_t *data) { sdp_data_t list; const char *sep; uint8_t v; if (!sdp_get_seq(data, &list)) return; sep = "\n "; while (sdp_get_uint8(&list, &v)) { printf("%s", sep); sep = ", "; switch(v) { case 0x01: printf("vCard 2.1"); break; case 0x02: printf("vCard 3.0"); break; case 0x03: printf("vCal 1.0"); break; case 0x04: printf("iCal 2.0"); break; case 0x05: printf("vNote"); break; case 0x06: printf("vMessage"); break; case 0xff: printf("Any"); break; default: printf("0x%02x", v); break; } } if (list.next != list.end) printf(" [additional data]"); printf("\n"); } static void print_wap_addr(sdp_data_t *data) { uint32_t v; if (!sdp_get_uint32(data, &v)) return; printf("%d.%d.%d.%d\n", ((v & 0xff000000) >> 24), ((v & 0x00ff0000) >> 16), ((v & 0x0000ff00) >> 8), (v & 0x000000ff)); } static void print_wap_gateway(sdp_data_t *data) { uint8_t v; if (!sdp_get_uint8(data, &v)) return; switch(v) { case 0x01: printf("Origin Server\n"); break; case 0x02: printf("Proxy\n"); break; default: printf("0x%02x\n", v); break; } } static void print_wap_type(sdp_data_t *data) { uint8_t v; if (!sdp_get_uint8(data, &v)) return; switch(v) { case 0x01: printf("Connectionless\n"); break; case 0x02: printf("Connection Oriented\n");break; case 0x03: printf("Both\n"); break; default: printf("0x%02x\n", v); break; } } static void print_hid_version(sdp_data_t *data) { uint16_t v; if (!sdp_get_uint16(data, &v)) return; printf("v%d.%d.%d\n", ((v & 0xff00) >> 8), ((v & 0x00f0) >> 4), (v & 0x000f)); } static void print_hid_device_subclass(sdp_data_t *data) { uint8_t v; if (!sdp_get_uint8(data, &v)) return; switch ((v & 0x3c) >> 2) { case 1: printf("Joystick"); break; case 2: printf("Gamepad"); break; case 3: printf("Remote Control"); break; case 4: printf("Sensing Device"); break; case 5: printf("Digitiser Tablet"); break; case 6: printf("Card Reader"); break; default: printf("Peripheral"); break; } if (v & 0x40) printf(" "); if (v & 0x80) printf(" "); printf("\n"); } static void print_hid_descriptor_list(sdp_data_t *data) { sdp_data_t list, seq; uint8_t type; const char *name; char *str; size_t len; if (!sdp_get_seq(data, &list)) return; printf("\n"); while (list.next < list.end) { if (!sdp_get_seq(&list, &seq) || !sdp_get_uint8(&seq, &type) || !sdp_get_str(&seq, &str, &len)) return; switch (type) { case 0x22: name = "Report"; break; case 0x23: name = "Physical Descriptor"; break; default: name = ""; break; } printf(" Type 0x%02x: %s\n", type, name); print_hexdump(" Data", (uint8_t *)str, len); if (seq.next != seq.end) printf(" [additional data]\n"); } } static void print_hid_langid_base_list(sdp_data_t *data) { sdp_data_t list, seq; uint16_t lang, base; if (!sdp_get_seq(data, &list)) return; while (list.next < list.end) { if (!sdp_get_seq(&list, &seq) || !sdp_get_uint16(&seq, &lang) || !sdp_get_uint16(&seq, &base)) return; printf("\n "); /* * The language is encoded according to the * "Universal Serial Bus Language Identifiers (LANGIDs)" * specification. It does not seem worth listing them all * here, but feel free to add if you notice any being used. */ switch (lang) { case 0x0409: printf("English (US)"); break; case 0x0809: printf("English (UK)"); break; default: printf("0x%04x", lang); break; } printf(" base 0x%04x%s\n", base, (seq.next == seq.end ? "" : " [additional data]")); } } static void print_security_description(sdp_data_t *data) { uint16_t v; if (!sdp_get_uint16(data, &v)) return; switch (v) { case 0x0000: printf("None"); break; case 0x0001: printf("Service-level Security"); break; case 0x0002: printf("802.1x Security"); break; default: printf("0x%04x", v); break; } printf("\n"); } static void print_hf_features(sdp_data_t *data) { uint16_t v; if (!sdp_get_uint16(data, &v)) return; if (Nflag) printf("(0x%04x)", v); printf("\n"); if (v & (1<<0)) printf(" Echo Cancellation/Noise Reduction\n"); if (v & (1<<1)) printf(" Call Waiting\n"); if (v & (1<<2)) printf(" Caller Line Identification\n"); if (v & (1<<3)) printf(" Voice Recognition\n"); if (v & (1<<4)) printf(" Volume Control\n"); } static void print_hfag_network(sdp_data_t *data) { uint8_t v; if (!sdp_get_uint8(data, &v)) return; switch (v) { case 0x01: printf("Ability to reject a call"); break; case 0x02: printf("No ability to reject a call"); break; default: printf("0x%02x", v); break; } printf("\n"); } static void print_hfag_features(sdp_data_t *data) { uint16_t v; if (!sdp_get_uint16(data, &v)) return; if (Nflag) printf("(0x%04x)", v); printf("\n"); if (v & (1<<0)) printf(" 3 Way Calling\n"); if (v & (1<<1)) printf(" Echo Cancellation/Noise Reduction\n"); if (v & (1<<2)) printf(" Voice Recognition\n"); if (v & (1<<3)) printf(" In-band Ring Tone\n"); if (v & (1<<4)) printf(" Voice Tags\n"); } static void print_net_access_type(sdp_data_t *data) { uint16_t v; if (!sdp_get_uint16(data, &v)) return; switch(v) { case 0x0000: printf("PSTN"); break; case 0x0001: printf("ISDN"); break; case 0x0002: printf("DSL"); break; case 0x0003: printf("Cable Modem"); break; case 0x0004: printf("10Mb Ethernet"); break; case 0x0005: printf("100Mb Ethernet"); break; case 0x0006: printf("4Mb Token Ring"); break; case 0x0007: printf("16Mb Token Ring"); break; case 0x0008: printf("100Mb Token Ring"); break; case 0x0009: printf("FDDI"); break; case 0x000a: printf("GSM"); break; case 0x000b: printf("CDMA"); break; case 0x000c: printf("GPRS"); break; case 0x000d: printf("3G Cellular"); break; case 0xfffe: printf("other"); break; default: printf("0x%04x", v); break; } printf("\n"); } static void print_pnp_source(sdp_data_t *data) { uint16_t v; if (!sdp_get_uint16(data, &v)) return; switch (v) { case 0x0001: printf("Bluetooth SIG"); break; case 0x0002: printf("USB Implementers Forum"); break; default: printf("0x%04x", v); break; } printf("\n"); } static void print_mas_types(sdp_data_t *data) { uint8_t v; if (!sdp_get_uint8(data, &v)) return; if (Nflag) printf("(0x%02x)", v); printf("\n"); if (v & (1<<0)) printf(" EMAIL\n"); if (v & (1<<1)) printf(" SMS_GSM\n"); if (v & (1<<2)) printf(" SMS_CDMA\n"); if (v & (1<<3)) printf(" MMS\n"); } static void print_map_features(sdp_data_t *data) { uint32_t v; if (!sdp_get_uint32(data, &v)) return; if (Nflag) printf("(0x%08x)", v); printf("\n"); if (v & (1<<0)) printf(" Notification Registration\n"); if (v & (1<<1)) printf(" Notification\n"); if (v & (1<<2)) printf(" Browsing\n"); if (v & (1<<3)) printf(" Uploading\n"); if (v & (1<<4)) printf(" Delete\n"); if (v & (1<<5)) printf(" Instance Information\n"); if (v & (1<<6)) printf(" Extended Event Report 1.1\n"); } static void print_pse_repositories(sdp_data_t *data) { uint8_t v; if (!sdp_get_uint8(data, &v)) return; if (Nflag) printf("(0x%02x)", v); printf("\n"); if (v & (1<<0)) printf(" Local Phonebook\n"); if (v & (1<<1)) printf(" SIM Card\n"); if (v & (1<<2)) printf(" Speed Dial\n"); if (v & (1<<3)) printf(" Favorites\n"); } static void print_pse_features(sdp_data_t *data) { uint32_t v; if (!sdp_get_uint32(data, &v)) return; if (Nflag) printf("(0x%08x)", v); printf("\n"); if (v & (1<<0)) printf(" Download\n"); if (v & (1<<1)) printf(" Browsing\n"); if (v & (1<<2)) printf(" Database Identifier\n"); if (v & (1<<3)) printf(" Folder Version Counters\n"); if (v & (1<<4)) printf(" vCard Selecting\n"); if (v & (1<<5)) printf(" Enhanced Missed Calls\n"); if (v & (1<<6)) printf(" X-BT-UCI vCard Property\n"); if (v & (1<<7)) printf(" X-BT-UID vCard Property\n"); if (v & (1<<8)) printf(" Contact Referencing\n"); if (v & (1<<9)) printf(" Default Contact Image Format\n"); } static void print_hdp_features(sdp_data_t *data) { sdp_data_t seq, feature; char *str; size_t len; uint16_t type; uint8_t id, role; if (!sdp_get_seq(data, &seq)) return; printf("\n"); while (sdp_get_seq(&seq, &feature)) { if (!sdp_get_uint8(&feature, &id) || !sdp_get_uint16(&feature, &type) || !sdp_get_uint8(&feature, &role)) break; printf(" # %d: ", id); switch(type) { case 0x1004: printf("Pulse Oximeter"); break; case 0x1006: printf("Basic ECG"); break; case 0x1007: printf("Blood Pressure Monitor"); break; case 0x1008: printf("Body Thermometer"); break; case 0x100F: printf("Body Weight Scale"); break; case 0x1011: printf("Glucose Meter"); break; case 0x1012: printf("International Normalized Ratio Monitor"); break; case 0x1014: printf("Body Composition Analyzer"); break; case 0x1015: printf("Peak Flow Monitor"); break; case 0x1029: printf("Cardiovascular Fitness and Activity Monitor"); break; case 0x1068: printf("Step Counter"); break; case 0x102A: printf("Strength Fitness Equipment"); break; case 0x1047: printf("Independent Living Activity Hub"); break; case 0x1075: printf("Fall Sensor"); break; case 0x1076: printf("Personal Emergency Response Sensor"); break; case 0x1077: printf("Smoke Sensor"); break; case 0x1078: printf("Carbon Monoxide Sensor"); break; case 0x1079: printf("Water Sensor"); break; case 0x107A: printf("Gas Sensor"); break; case 0x107B: printf("Motion Sensor"); break; case 0x107C: printf("Property Exit Sensor"); break; case 0x107D: printf("Enuresis Sensor"); break; case 0x107E: printf("Contact Closure Sensor"); break; case 0x107F: printf("Usage Sensor"); break; case 0x1080: printf("Switch Sensor"); break; case 0x1081: printf("Medication Dosing Sensor"); break; case 0x1082: printf("Temperature Sensor"); break; case 0x1048: printf("Medication monitor"); break; default: printf("Type 0x%04x", type); break; } switch(role) { case 0x00: printf(" [Source]"); break; case 0x01: printf(" [Sink]"); break; default: printf(" [Role 0x%02x]", role); break; } printf("\n"); if (sdp_get_str(&feature, &str, &len)) { int n; /* This optional human-readable description should * be in the primary language encoding, which ought * to have a base of 0x0100 or if there isn't one, * use the first encoding listed */ for (n = 0; n < nlanguages; n++) { if (language[n].base == 0x0100) break; } printf(" # %d: ", id); if (n < nlanguages) print_codeset_string(str, len, language[n].codeset); else if (n > 0) print_codeset_string(str, len, language[0].codeset); else printf("%s", string_vis(str, len)); printf("\n"); } if (feature.next != feature.end) printf(" [additional data in feature]\n"); } if (seq.next != seq.end) printf(" [additional data]\n"); } static void print_hdp_specification(sdp_data_t *data) { uint8_t v; if (!sdp_get_uint8(data, &v)) return; switch(v) { case 0x01: printf("ISO/IEEE 11073-20601\n"); break; default: printf("0x%02x\n", v); break; } } static void print_mcap_procedures(sdp_data_t *data) { uint8_t v; if (!sdp_get_uint8(data, &v)) return; if (Nflag) printf("(0x%02x)", v); printf("\n"); if (v & (1<<1)) printf(" Reconnect Initiation\n"); if (v & (1<<2)) printf(" Reconnect Acceptance\n"); if (v & (1<<3)) printf(" Clock Synchronization Protocol\n"); if (v & (1<<4)) printf(" Sync-Master Role\n"); } static void print_character_repertoires(sdp_data_t *data) { uintmax_t v; /* * we have no uint128 type so use uintmax as only * only 17-bits are currently defined, and if the * value is out of bounds it will be printed anyway */ if (sdp_data_type(data) != SDP_DATA_UINT128 || !sdp_get_uint(data, &v)) return; if (Nflag) printf("(0x%016jx)", v); printf("\n"); if (v & (1<< 0)) printf(" ISO-8859-1\n"); if (v & (1<< 1)) printf(" ISO-8859-2\n"); if (v & (1<< 2)) printf(" ISO-8859-3\n"); if (v & (1<< 3)) printf(" ISO-8859-4\n"); if (v & (1<< 4)) printf(" ISO-8859-5\n"); if (v & (1<< 5)) printf(" ISO-8859-6\n"); if (v & (1<< 6)) printf(" ISO-8859-7\n"); if (v & (1<< 7)) printf(" ISO-8859-8\n"); if (v & (1<< 8)) printf(" ISO-8859-9\n"); if (v & (1<< 9)) printf(" ISO-8859-10\n"); if (v & (1<<10)) printf(" ISO-8859-13\n"); if (v & (1<<11)) printf(" ISO-8859-14\n"); if (v & (1<<12)) printf(" ISO-8859-15\n"); if (v & (1<<13)) printf(" GB18030\n"); if (v & (1<<14)) printf(" JIS X0208-1990, JIS X0201-1976\n"); if (v & (1<<15)) printf(" KSC 5601-1992\n"); if (v & (1<<16)) printf(" Big5\n"); if (v & (1<<17)) printf(" TIS-620\n"); } static void print_bip_capabilities(sdp_data_t *data) { uint8_t v; if (!sdp_get_uint8(data, &v)) return; if (Nflag) printf("(0x%02x)", v); printf("\n"); if (v & (1<< 0)) printf(" Generic imaging\n"); if (v & (1<< 1)) printf(" Capturing\n"); if (v & (1<< 2)) printf(" Printing\n"); if (v & (1<< 3)) printf(" Displaying\n"); } static void print_bip_features(sdp_data_t *data) { uint16_t v; if (!sdp_get_uint16(data, &v)) return; if (Nflag) printf("(0x%04x)", v); printf("\n"); if (v & (1<<0)) printf(" ImagePush\n"); if (v & (1<<1)) printf(" ImagePush-Store\n"); if (v & (1<<2)) printf(" ImagePush-Print\n"); if (v & (1<<3)) printf(" ImagePush-Display\n"); if (v & (1<<4)) printf(" ImagePull\n"); if (v & (1<<5)) printf(" AdvancedImagePrinting\n"); if (v & (1<<6)) printf(" AutomaticArchive\n"); if (v & (1<<7)) printf(" RemoteCamera\n"); if (v & (1<<8)) printf(" RemoteDisplay\n"); } static void print_bip_functions(sdp_data_t *data) { uint32_t v; if (!sdp_get_uint32(data, &v)) return; if (Nflag) printf("(0x%08x)", v); printf("\n"); if (v & (1<< 0)) printf(" GetCapabilities\n"); if (v & (1<< 1)) printf(" PutImage\n"); if (v & (1<< 2)) printf(" PutLinkedAttachment\n"); if (v & (1<< 3)) printf(" PutLinkedThumbnail\n"); if (v & (1<< 4)) printf(" RemoteDisplay\n"); if (v & (1<< 5)) printf(" GetImagesList\n"); if (v & (1<< 6)) printf(" GetImageProperties\n"); if (v & (1<< 7)) printf(" GetImage\n"); if (v & (1<< 8)) printf(" GetLinkedThumbnail\n"); if (v & (1<< 9)) printf(" GetLinkedAttachment\n"); if (v & (1<<10)) printf(" DeleteImage\n"); if (v & (1<<11)) printf(" StartPrint\n"); if (v & (1<<12)) printf(" GetPartialImage\n"); if (v & (1<<13)) printf(" StartArchive\n"); if (v & (1<<14)) printf(" GetMonitoringImage\n"); if (v & (1<<16)) printf(" GetStatus\n"); } static void print_bip_capacity(sdp_data_t *data) { char buf[9]; uint64_t v; if (!sdp_get_uint64(data, &v)) return; if (v > INT64_MAX) { printf("more than "); v = INT64_MAX; } (void)humanize_number(buf, sizeof(buf), (int64_t)v, "bytes", HN_AUTOSCALE, HN_NOSPACE); printf("%s\n", buf); } static void print_1284id(sdp_data_t *data) { char *str, *ep; size_t len, l; if (!sdp_get_str(data, &str, &len)) return; if (len < 2 || len != be16dec(str)) { printf("[invalid IEEE 1284 Device ID]\n"); return; } str += 2; len -= 2; printf("\n"); while (len > 0) { ep = memchr(str, (int)';', len); if (ep == NULL) { printf("[invalid IEEE 1284 Device ID]\n"); return; } l = (size_t)(ep - str + 1); printf(" %s\n", string_vis(str, l)); str += l; len -= l; } } static void print_ctn_features(sdp_data_t *data) { uint32_t v; if (!sdp_get_uint32(data, &v)) return; if (Nflag) printf("(0x%08x)", v); printf("\n"); if (v & (1<<0)) printf(" Account Management\n"); if (v & (1<<1)) printf(" Notification\n"); if (v & (1<<2)) printf(" Browsing\n"); if (v & (1<<3)) printf(" Downloading\n"); if (v & (1<<4)) printf(" Uploading\n"); if (v & (1<<5)) printf(" Delete\n"); if (v & (1<<6)) printf(" Forward\n"); } static void print_rfcomm(sdp_data_t *data) { uint8_t v; if (sdp_get_uint8(data, &v)) printf(" (channel %d)", v); } static void print_att(sdp_data_t *data) { uint16_t s, e; if (sdp_get_uint16(data, &s) && sdp_get_uint16(data, &e)) printf(" (0x%04x .. 0x%04x)", s, e); } static void print_bnep(sdp_data_t *data) { sdp_data_t seq; uint16_t v; const char *sep; if (!sdp_get_uint16(data, &v) || !sdp_get_seq(data, &seq)) return; printf(" (v%d.%d", (v >> 8), (v & 0xff)); sep = "; "; while (sdp_get_uint16(&seq, &v)) { printf("%s", sep); sep = ", "; switch (v) { case 0x0800: printf("IPv4"); break; case 0x0806: printf("ARP"); break; case 0x8100: printf("802.1Q"); break; case 0x86dd: printf("IPv6"); break; default: printf("0x%04x", v); break; } } printf(")"); if (seq.next != seq.end) printf(" [additional data]"); } static void print_avctp(sdp_data_t *data) { uint16_t v; if (sdp_get_uint16(data, &v)) printf(" (v%d.%d)", (v >> 8), (v & 0xff)); } static void print_avdtp(sdp_data_t *data) { uint16_t v; if (sdp_get_uint16(data, &v)) printf(" (v%d.%d)", (v >> 8), (v & 0xff)); } static void print_l2cap(sdp_data_t *data) { uint16_t v; if (sdp_get_uint16(data, &v)) printf(" (PSM 0x%04x)", v); }