FreeCalypso > hg > fc-magnetite
view cdg-hybrid/msg/sm.mdf @ 636:57e67ca2e1cb
pcmdata.c: default +CGMI to "FreeCalypso" and +CGMM to model
The present change has no effect whatsoever on Falconia-made and Openmoko-made
devices on which /pcm/CGMI and /pcm/CGMM files have been programmed in FFS
with sensible ID strings by the respective factories, but what should AT+CGMI
and AT+CGMM queries return when the device is a Huawei GTM900 or Tango modem
that has been converted to FreeCalypso with a firmware change? Before the
present change they would return compiled-in defaults of "<manufacturer>" and
"<model>", respectively; with the present change the firmware will self-identify
as "FreeCalypso GTM900-FC" or "FreeCalypso Tango" on the two respective targets.
This firmware identification will become important if someone incorporates an
FC-converted GTM900 or Tango modem into a ZeroPhone-style smartphone where some
high-level software like ofono will be talking to the modem and will need to
properly identify this modem as FreeCalypso, as opposed to some other AT command
modem flavor with different quirks.
In technical terms, the compiled-in default for the AT+CGMI query (which will
always be overridden by the /pcm/CGMI file in FFS if one is present) is now
"FreeCalypso" in all configs on all targets; the compiled-in default for the
AT+CGMM query (likewise always overridden by /pcm/CGMM if present) is
"GTM900-FC" if CONFIG_TARGET_GTM900 or "Tango" if CONFIG_TARGET_TANGO or the
original default of "<model>" otherwise.
author | Mychaela Falconia <falcon@freecalypso.org> |
---|---|
date | Sun, 19 Jan 2020 20:14:58 +0000 |
parents | e7a67accfad9 |
children |
line wrap: on
line source
;******************************************************************************** ;*** File : sm.mdf ;*** Creation : Thu Jun 19 15:32:13 CST 2008 ;*** XSLT Processor : Apache Software Foundation / http://xml.apache.org/xalan-j / supports XSLT-Ver: 1 ;*** Copyright : (c) Texas Instruments AG, Berlin Germany 2002 ;******************************************************************************** ;*** Document Type : Air Interface Message Specification ;*** Document Name : sm ;*** Document No. : 8010.605.03.005 ;*** Document Date : 2003-08-28 ;*** Document Status: BEING_PROCESSED ;*** Document Author: MVJ ;******************************************************************************** PRAGMA SRC_FILE_TIME "Wed Nov 28 10:21:12 2007" PRAGMA LAST_MODIFIED "2003-08-28" PRAGMA ID_AND_VERSION "8010.605.03.005" PRAGMA CCDNAME SM ; CCD name tag PRAGMA PREFIX M_SM ; Document prefix PRAGMA ALLWAYS_ENUM_IN_VAL_FILE YES ; Adds enumerations in the .val file. CONST SIZE_R97_QOS 3 ; Size of R97 QoS IE (V-part only) CONST SIZE_R99_QOS 11 ; Size of R99 QoS IE (V-part only) VALTAB VAL_nsapi_val VAL DEF "reserved" VAL 5 NSAPI_5 "NSAPI 5" VAL 6 NSAPI_6 "NSAPI 6" VAL 7 NSAPI_7 "NSAPI 7" VAL 8 NSAPI_8 "NSAPI 8" VAL 9 NSAPI_9 "NSAPI 9" VAL 10 NSAPI_10 "NSAPI 10" VAL 11 NSAPI_11 "NSAPI 11" VAL 12 NSAPI_12 "NSAPI 12" VAL 13 NSAPI_13 "NSAPI 13" VAL 14 NSAPI_14 "NSAPI 14" VAL 15 NSAPI_15 "NSAPI 15" VALTAB VAL_delay VAL DEF "Delay class 4 (best effort)" VAL 0 DELAY_SUB "Subscribed delay class (uplink only)" VAL 0 DELAY_RES_DL "Reserved (downlink only)" VAL 1 DELAY_1 "Delay class 1" VAL 2 DELAY_2 "Delay class 2" VAL 3 DELAY_3 "Delay class 3" VAL 4 DELAY_4 "Delay class 4 (best effort)" VAL 7 DELAY_RES "Reserved" VALTAB VAL_reliability VAL DEF "Unacknowledged GTP and LLC; Acknowledged RLC, Protected data" VAL 0 RELY_SUB "Subscribed reliability class (uplink only)" VAL 0 RELY_RES_DL "Reserved (dowwnlink only)" VAL 1 RELY_1 "Acknowledged GTP, LLC, and RLC; Protected data" VAL 2 RELY_2 "Unacknowledged GTP; Acknowledged LLC and RLC, Protected data" VAL 3 RELY_3 "Unacknowledged GTP and LLC; Acknowledged RLC, Protected data" VAL 4 RELY_4 "Unacknowledged GTP, LLC, and RLC, Protected data" VAL 5 RELY_5 "Unacknowledged GTP, LLC, and RLC, Unprotected data" VAL 7 RELY_RES "Reserved" VALTAB VAL_sapi VAL DEF "reserved" VAL 0 SAPI_NONE "No SAPI assigned" VAL 3 SAPI_3 "SAPI 3" VAL 5 SAPI_5 "SAPI 5" VAL 9 SAPI_9 "SAPI 9" VAL 11 SAPI_11 "SAPI 11" VALTAB VAL_peak VAL DEF "Up to 1000 octet/s" VAL 0 PEAK_SUB "Subscribed peak throughput (uplink only)" VAL 0 PEAK_RES_DL "reserved (downlink only)" VAL 1 PEAK_1000 "Up to 1000 octet/s" VAL 2 PEAK_2000 "Up to 2000 octet/s" VAL 3 PEAK_4000 "Up to 4000 octet/s" VAL 4 PEAK_8000 "Up to 8000 octet/s" VAL 5 PEAK_16000 "Up to 16000 octet/s" VAL 6 PEAK_32000 "Up to 32000 octet/s" VAL 7 PEAK_64000 "Up to 64000 octet/s" VAL 8 PEAK_128000 "Up to 128000 octet/s" VAL 9 PEAK_256000 "Up to 256000 octet/s" VAL 15 PEAK_RES "Reserved" VALTAB VAL_precedence VAL DEF "Normal Priority" VAL 0 PRECED_SUB "Subscribed precedence (uplink only)" VAL 0 PRECED_RES_DL "Reserved (downlink only)" VAL 1 PRECED_HIGH "High priority" VAL 2 PRECED_NORM "Normal Priority" VAL 3 PRECED_LOW "Low priority" VAL 7 PRECED_RES "Reserved" VALTAB VAL_mean VAL DEF "Best effort" VAL 0 MEAN_SUB "Subscribed mean throughput (uplink only)" VAL 0 MEAN_RES_DL "reserved (downlink only)" VAL 1 MEAN_100 "100 octet/h" VAL 2 MEAN_200 "200 octet/h" VAL 3 MEAN_500 "500 octet/h" VAL 4 MEAN_1000 "1000 octet/h" VAL 5 MEAN_2000 "2000 octet/h" VAL 6 MEAN_5000 "5000 octet/h" VAL 7 MEAN_10000 "10000 octet/h" VAL 8 MEAN_20000 "20000 octet/h" VAL 9 MEAN_50000 "50000 octet/h" VAL 10 MEAN_100000 "100000 octet/h" VAL 11 MEAN_200000 "200000 octet/h" VAL 12 MEAN_500000 "500000 octet/h" VAL 13 MEAN_1000000 "1000000 octet/h" VAL 14 MEAN_2000000 "2000000 octet/h" VAL 15 MEAN_5000000 "5000000 octet/h" VAL 16 MEAN_10000000 "10000000 octet/h" VAL 17 MEAN_20000000 "20000000 octet/h" VAL 18 MEAN_50000000 "50000000 octet/h" VAL 30 MEAN_RES "Reserved" VAL 31 MEAN_BEST "Best effort" VALTAB VAL_tc VAL 0 QOS_TC_SUB "Subscribed traffic class (uplink only)" VAL 0 QOS_TC_RES_DL "Reserved (downlink only)" VAL 1 QOS_TC_CONV "Conversational class" VAL 2 QOS_TC_STREAM "Streaming class" VAL 3 QOS_TC_INTER "Interactive class" VAL 4 QOS_TC_BG "Background class" VAL 7 QOS_TC_RES "Reserved" VALTAB VAL_order VAL 0 QOS_ORDER_SUB "Subscribed delivery order (uplink only)" VAL 0 QOS_ORDER_RES_DL "Reserved (downlink only)" VAL 1 QOS_ORDER_YES "With delivery order ('yes')" VAL 2 QOS_ORDER_NO "Without delivery order ('no')" VAL 3 QOS_ORDER_RES "Reserved" VALTAB VAL_del_err_sdu VAL 0 QOS_DEL_ERR_SUB "Subscribed delivery order (uplink only)" VAL 0 QOS_DEL_ERR_RES_DL "Reserved (downlink only)" VAL 1 QOS_DEL_ERR_NODETECT "No detect ('-')" VAL 2 QOS_DEL_ERR_YES "Erroneous SDUs are delivered ('yes')" VAL 3 QOS_DEL_ERR_NO "Erroneous SDUs are not delivered ('no')" VAL 7 QOS_DEL_ERR_RES "Reserved" VALTAB VAL_max_sdu VAL 0 QOS_MAX_SDU_SUB "Subscribed maximum SDU size" VAL 0 QOS_MAX_SDU_RES_DL "Reserved (downlink only)" VAL 151 QOS_MAX_SDU_1502 "Maximum SDU size 1502 octets" VAL 152 QOS_MAX_SDU_1510 "Maximum SDU size 1510 octets" VAL 153 QOS_MAX_SDU_1520 "Maximum SDU size 1520 octets" VAL 255 QOS_MAX_SDU_RES "Reserved" VALTAB VAL_max_br_ul VAL 0 QOS_MAX_BR_UL_SUB "Subscribed maximum uplink data rate (uplink only)" VAL 0 QOS_MAX_BR_UL_RES_DL "Reserved (downlink only)" VAL 255 QOS_MAX_BR_UL_0 "0 kbps uplink data rate" VALTAB VAL_max_br_dl VAL 0 QOS_MAX_BR_DL_SUB "Subscribed maximum downlink data rate (uplink only)" VAL 0 QOS_MAX_BR_DL_RES_DL "Reserved (downlink only)" VAL 255 QOS_MAX_BR_DL_0 "0 kbps downlink data rate" VALTAB VAL_ber VAL 0 QOS_BER_SUB "Subscribed residual BER (uplink only)" VAL 0 QOS_BER_RES_DL "Reserved (downlink only)" VAL 1 QOS_BER_5E_2 "5*10-2" VAL 2 QOS_BER_1E_2 "1*10-2" VAL 3 QOS_BER_5E_3 "5*10-3" VAL 4 QOS_BER_4E_3 "4*10-3" VAL 5 QOS_BER_1E_3 "1*10-3" VAL 6 QOS_BER_1E_4 "1*10-4" VAL 7 QOS_BER_1E_5 "1*10-5" VAL 8 QOS_BER_1E_6 "1*10-6" VAL 9 QOS_BER_6E_8 "6*10-8" VAL 15 QOS_BER_RES "Reserved" VALTAB VAL_sdu_err_ratio VAL 0 QOS_SDU_ERR_SUB "Subscribed SDU error ratio" VAL 0 QOS_SDU_ERR_RES_DL "Reserved (downlink only)" VAL 1 QOS_SDU_ERR_1E_2 "1*10-2" VAL 2 QOS_SDU_ERR_7E_3 "7*10-3" VAL 3 QOS_SDU_ERR_1E_3 "1*10-3" VAL 4 QOS_SDU_ERR_1E_4 "1*10-4" VAL 5 QOS_SDU_ERR_1E_5 "1*10-5" VAL 6 QOS_SDU_ERR_1E_6 "1*10-6" VAL 7 QOS_SDU_ERR_1E_1 "1*10-1" VAL 15 QOS_SDU_ERR_RES "Reserved" VALTAB VAL_xfer_delay VAL 0 QOS_XFER_DELAY_SUB "Subscribed transfer delay (uplink only)" VAL 0 QOS_XFER_DELAY_RES_DL "Reserved (downlink only)" VAL 63 QOS_XFER_DELAY_RES "Reserved" VALTAB VAL_handling_pri VAL 0 QOS_HANDLING_PRI_SUB "Subscribed traffic handling priority (uplink only)" VAL 0 QOS_HANDLING_PRI_RES_DL "Reserved (downlink only)" VAL 1 QOS_HANDLING_PRI_1 "Priority level 1" VAL 2 QOS_HANDLING_PRI_2 "Priority level 2" VAL 3 QOS_HANDLING_PRI_3 "Priority level 3" VALTAB VAL_guar_br_ul VAL 0 QOS_GUAR_BR_UL_SUB "Subscribed guaranteed uplink data rate (uplink only)" VAL 0 QOS_GUAR_BR_UL_RES_DL "Reserved (downlink only)" VALTAB VAL_guar_br_dl VAL 0 QOS_GUAR_BR_DL_SUB "Subscribed guaranteed downlink data rate (uplink only)" VAL 0 QOS_GUAR_BR_DL_RES_DL "Reserved (downlink only)" VALTAB VAL_pfi_val VAL 0 PFI_BEST_EFFORT "Best effort" VAL 1 PFI_SIGNALLING "Signalling" VAL 2 PFI_SMS "SMS" VALTAB VAL_pdp_type_org VAL DEF "ETSI allocated address (PPP)" VAL 0 ETSI_ORG "ETSI allocated address (PPP)" VAL 1 IETF_ORG "IETF allocated address" VAL 15 PDP_MT "Dynamic PDP addressing is applied, (uplink only)" VALTAB VAL_pdp_type_no VAL DEF "IPv4 address" VAL 0b00000001 PPP_TYPE "PDP type PPP" VAL 0b00100001 IP4_TYPE "IPv4 address" VAL 0b01010111 IP6_TYPE "IPv6 address" VALTAB VAL_radio_prio_val VAL DEF "priority level 4 (lowest)" VAL 1 RADIO_PRIO_1 "priority level 1 (highest)" VAL 2 RADIO_PRIO_2 "priority level 2" VAL 3 RADIO_PRIO_3 "priority level 3" VAL 4 RADIO_PRIO_4 "priority level 4 (lowest)" VALTAB VAL_sm_cause_val VAL DEF "Service option temporarily out of order" VAL 0b00011001 CAUSE_LLC_OR_SNDCP_FAILURE "LLC or SNDCP failure" VAL 0b00011010 CAUSE_INSUFFICIENT_RESOURCES "Insufficient resources" VAL 0b00011011 CAUSE_MISSING_OR_UNKNOWN_APN "Missing or unknown APN" VAL 0b00011100 CAUSE_UNKNOWN_PDP_ADDR_OR_TYPE "Unknown PDP address or PDP type" VAL 0b00011101 CAUSE_USER_AUTH_FAILED "User Aauthentication failed" VAL 0b00011110 CAUSE_ACTIVATE_REJECTED_BY_GGSN "Activation rejected by GGSN" VAL 0b00011111 CAUSE_ACTIVATE_REJECTED_UNSPEC "Activation rejected, unspecified" VAL 0b00100000 CAUSE_SERVICE_NOT_SUPPORTED "Service option not supported" VAL 0b00100001 CAUSE_SERVICE_NOT_SUBSCRIBED "Requested service option not subscribed" VAL 0b00100010 CAUSE_SERVICE_TEMP_OUT_OF_ORDER "Service option temporarily out of order" VAL 0b00100011 CAUSE_NSAPI_IN_USE "NSAPI already used" VAL 0b00100100 CAUSE_REGULAR_DEACTIVATION "Regular deactivation" VAL 0b00100101 CAUSE_QOS_NOT_ACCEPTED "QoS not accepted" VAL 0b00100110 CAUSE_NETWORK_FAILURE "Network failure" VAL 0b00100111 CAUSE_REACTIVATION_REQUESTED "Reactivation requested" VAL 0b00101000 CAUSE_FEATURE_NOT_SUPPORTED "Feature not supported (context activation)" VAL 0b00101001 CAUSE_SEMANTIC_TFT_ERROR "Semantic error in TFT operation" VAL 0b00101010 CAUSE_SYNTACTIC_TFT_ERROR "Syntactical error in TFT operation" VAL 0b00101011 CAUSE_UNKNOWN_LINKED_TI "Unknown PDP context (identified by linked TI)" VAL 0b00101100 CAUSE_SEMANTIC_TFT_FILTER_ERROR "Semantic error in packet filter" VAL 0b00101101 CAUSE_SYNTACTIC_TFT_FILTER_ERROR "Syntactical error in packet filter" VAL 0b00101110 CAUSE_CONTEXT_NEEDS_TFT "PDP context without TFT already activated" VAL 0b01010001 CAUSE_INVALID_TI "Invalid transaction identifier value" VAL 0b01011111 CAUSE_SEMANTIC_ERROR_IN_MSG "Semantically incorrect message" VAL 0b01100000 CAUSE_INVALID_MANDATORY_ELEMENT "Invalid mandatory information" VAL 0b01100001 CAUSE_MSG_TYPE_NOT_IMPL "Message type non-existent or not implemented" VAL 0b01100010 CAUSE_MSG_TYPE_INCOMPATIBLE_WITH_STATE "Message type not compatible with the protocol state" VAL 0b01100011 CAUSE_IE_NOT_IMPLEMENTED "Information element non-existent or not implemented" VAL 0b01100100 CAUSE_CONDITIONAL_IE_ERROR "Conditional IE error" VAL 0b01100101 CAUSE_MSG_INCOMPATIBLE_WITH_STATE "Message not compatible with the protocol state" VAL 0b01101111 CAUSE_PROTOCOL_ERROR_UNSPEC "Protocol error, unspecified" VALTAB VAL_tft_opcode VAL DEF "Reserved" VAL 0 TFT_OPCODE_SPARE "Spare" VAL 1 TFT_OPCODE_CREATE_TFT "Create new TFT" VAL 2 TFT_OPCODE_DELETE_TFT "Delete existing TFT" VAL 3 TFT_OPCODE_ADD_FILTERS "Add packet filters to existing TFT" VAL 4 TFT_OPCODE_REPLACE_FILTERS "Replace packet filters in existing TFT" VAL 5 TFT_OPCODE_DELETE_FILTERS "Delete packet filters from existing TFT" VAR nsapi_val "NSAPI value" 4 VAL @m_sm - VAL_nsapi_val@ VAR delay "delay class" 3 VAL @m_sm - VAL_delay@ VAR reliability "reliability class" 3 VAL @m_sm - VAL_reliability@ VAR msg_type "message type" 8 VAR sapi "SAPI" 4 VAL @m_sm - VAL_sapi@ VAR peak "peak throughput" 4 VAL @m_sm - VAL_peak@ VAR precedence "Precedence class" 3 VAL @m_sm - VAL_precedence@ VAR mean "Mean throughput" 5 VAL @m_sm - VAL_mean@ VAR tc "traffic class" 3 VAL @m_sm - VAL_tc@ VAR order "delivery order" 2 VAL @m_sm - VAL_order@ VAR del_err_sdu "deliver erroneous SDUs" 3 VAL @m_sm - VAL_del_err_sdu@ VAR max_sdu "maximum SDU size" 8 VAL @m_sm - VAL_max_sdu@ VAR max_br_ul "maximum uplink bit-rate" 8 VAL @m_sm - VAL_max_br_ul@ VAR max_br_dl "maximum downlink bit-rate" 8 VAL @m_sm - VAL_max_br_dl@ VAR ber "residual BER" 4 VAL @m_sm - VAL_ber@ VAR sdu_err_ratio "SDU error ratio" 4 VAL @m_sm - VAL_sdu_err_ratio@ VAR xfer_delay "transfer delay" 6 VAL @m_sm - VAL_xfer_delay@ VAR handling_pri "Traffic handling priority" 2 VAL @m_sm - VAL_handling_pri@ VAR guar_br_ul "guaranteed bit-rate uplink" 8 VAL @m_sm - VAL_guar_br_ul@ VAR guar_br_dl "guaranteed bit-rate downlink" 8 VAL @m_sm - VAL_guar_br_dl@ VAR apn_value "access point name value" 8 VAR pfi_val "packet flow identifier value" 7 VAL @m_sm - VAL_pfi_val@ VAR pdp_type_org "PDP type organisation" 4 VAL @m_sm - VAL_pdp_type_org@ VAR pdp_type_no "PDP type number" 8 VAL @m_sm - VAL_pdp_type_no@ VAR radio_prio_val "Radio priority value" 3 VAL @m_sm - VAL_radio_prio_val@ VAR sm_cause_val "SM cause value" 8 VAL @m_sm - VAL_sm_cause_val@ VAR add_info "adress information" 8 VAR tear_down_flag "tear down flag" 1 VAR ti_flag "TI flag" 1 VAR ti_val "Extended TI value" 3 VAR ti_ext_flag "Extended TI flag" 1 VAR ti_ext_val "Extended TI value" 7 VAR pco_value "protocol config value" 8 VAR tlv_len "TLV length information" 8 VAR tft_opcode "TFT operation code" 3 VAL @m_sm - VAL_tft_opcode@ VAR tft_filter_count "TFT filter count" 4 VAR tft_filter_id "TFT packet filter ID" 8 VAR tft_filter_prio "TFT packet filter precedence/prioroty" 8 VAR src_addr "IP address" 8 VAR addr_mask "IP address" 8 VAR tft_protocol_val "IPv4 protocol/IPv6 next header" 8 VAR low_limit "low limit" 16 VAR high_limit "high limit" 16 VAR ipsec_spi_value "IPSec SPI value" 32 VAR tos_value "type of service value" 8 VAR tos_mask "type of service mask" 8 VAR flow_label_value "IPv6 flow label" 24 COMP nsapi "network service access point identifier" { .0000 ; spare nsapi_val ; NSAPI value } COMP llc_sapi "LLC service access point identifier" { .0000 ; spare sapi ; LLC SAPI value } COMP qos_r97 "quality of service R97" { .00 ; spare delay ; delay class reliability ; reliability class peak ; peak throughput .0 ; spare precedence ; precedence class .000 ; spare mean ; mean throughput } COMP qos_r99 "quality of service R99" { tc ; traffic class order ; delivery order del_err_sdu ; delivery of erroneous SDU max_sdu ; maximum SDU size max_br_ul ; maximum uplink bit-rate max_br_dl ; maximum downlink bit-rate ber ; residual BER sdu_err_ratio ; SDU error ratio xfer_delay ; transfer delay handling_pri ; traffic handling priority guar_br_ul ; guaranteed upink bit-rate guar_br_dl ; guaranteed downlink bit-rate } COMP qos "quality of service" { NO_CODE tlv_len ; Length of IE GSM3_V qos_r97 ; QoS R97 < (tlv_len > SIZE_R99_QOS - 1) GSM3_V qos_r99 > ; QoS R99 } COMP address "packet data protocol address" { .0000 ; spare pdp_type_org ; PDP type organisation pdp_type_no ; PDP type number add_info [0..16] ; address information } COMP apn "access point name" { apn_value [3..102] ; access point name value } COMP pco "protocol information options" { pco_value [2..253] ; options } COMP radio_prio "radio priority" { .0 ; spare radio_prio_val ; radio priority value } COMP linked_ti "linked TI" { ti_flag ; TI flag ti_val ; TI value .0000 ; spare < (ti_val=7) ti_ext_flag > ; TI ext flag < (ti_val=7) ti_ext_val > ; extended TI value } COMP tear_down "tear down indicator" { .000 ; spare tear_down_flag ; TDI flag } COMP sm_cause "SM cause" { sm_cause_val ; SM cause value } COMP pfi "packet flow identifier" { .0 ; spare pfi_val ; packet flow identifier value } COMP tft_ipv4_addr_mask "IPv4 Source Address and Mask" { src_addr [4] ; source address addr_mask [4] ; address mask } COMP tft_ipv6_addr_mask "IPv6 Source Address and Mask" { src_addr [16] ; source address addr_mask [16] ; address mask } COMP tft_protocol "IPv4 Protocol / IPv6 Next Header" { tft_protocol_val ; IPv4 Protocol / IPv6 Next Header } COMP tft_dest_port_range "destination port range" { low_limit ; low limit high_limit ; high limit } TYPEDEF COMP tft_dest_port_range tft_src_port_range "source port range" COMP tft_dest_port "single destination port" { low_limit ; low limit } TYPEDEF COMP tft_dest_port tft_src_port "single source port" COMP tft_ipsec_spi "IPSec SPI" { ipsec_spi_value ; IPSec SPI value } COMP tft_tos_and_mask "Type of service/mask" { tos_value ; type of service tos_mask ; mask } COMP tft_flow_label "flow label" { flow_label_value ; flow label value } COMP tft_filter_entry "traffic flow template" { GSM3_TV tft_ipv4_addr_mask 0x10 ; IPv4 src addr/mask GSM3_TV tft_ipv6_addr_mask 0x20 ; IPv6 src addr/mask GSM3_TV tft_protocol 0x30 ; protocol/next hdr GSM3_TV tft_dest_port_range 0x40 ; destination port range GSM3_TV tft_dest_port 0x41 ; single destination port GSM3_TV tft_src_port_range 0x50 ; source port range GSM3_TV tft_src_port 0x51 ; single source port GSM3_TV tft_ipsec_spi 0x60 ; IPSec SPI GSM3_TV tft_tos_and_mask 0x70 ; Type of Service/mask GSM3_TV tft_flow_label 0x80 ; IPv6 flow label } COMP tft_filter "traffic flow template packet filter" { tft_filter_id ; packet filter identifier tft_filter_prio ; evaluation precedence GSM4_LV tft_filter_entry ; packet filters entry } COMP tft "traffic flow template" { tft_opcode ; TFT operation code .0 ; spare tft_filter_count ; packet filters count < (tft_opcode=TFT_OPCODE_DELETE_FILTERS) tft_filter_id [tft_filter_count..8] > ; packet filter identifiers < (tft_opcode=TFT_OPCODE_CREATE_TFT OR tft_opcode=TFT_OPCODE_ADD_FILTERS OR tft_opcode=TFT_OPCODE_REPLACE_FILTERS) GSM3_V tft_filter [tft_filter_count..8] > ; packet filter list } MSG activate_pdp_context_request uplink 65 ; activate PDP context request { GSM3_V msg_type ; message type GSM3_V nsapi ; requested NSAPI GSM3_V llc_sapi ; requested LLC sapi GSM4_LV qos ; requested QoS GSM4_LV address ; requested PDP address GSM4_TLV apn 0x28 ; access point name GSM4_TLV pco 0x27 ; protocol configuration options } MSG activate_pdp_context_accept downlink 66 ; activate PDP context accept { GSM3_V msg_type ; message type GSM3_V llc_sapi ; negotiated LLC SAPI GSM4_LV qos ; negotiated QoS GSM1_V radio_prio ; radio priority .0000 ; spare half octet GSM4_TLV address 0x2B ; packet data protocol address GSM4_TLV pco 0x27 ; protocol configuration options GSM4_TLV pfi 0x34 ; packet flow identifier } MSG activate_pdp_context_reject downlink 67 ; activate PDP context reject { GSM3_V msg_type ; message type GSM3_V sm_cause ; SM cause GSM4_TLV pco 0x27 ; protocol configuration options } MSG activate_secondary_pdp_context_request uplink 77 ; activate secondary PDP context request { GSM3_V msg_type ; message type GSM3_V nsapi ; requested NSAPI GSM3_V llc_sapi ; requested LLC sapi GSM4_LV qos ; requested QoS GSM4_LV linked_ti ; linked TI GSM4_TLV tft 0x36 ; traffic flow template } MSG activate_secondary_pdp_context_accept downlink 78 ; activate secondary PDP context accept { GSM3_V msg_type ; message type GSM3_V llc_sapi ; negotiated LLC SAPI GSM4_LV qos ; negotiated QoS GSM1_V radio_prio ; radio priority .0000 ; spare half octet GSM4_TLV pfi 0x34 ; packet flow identifier } MSG activate_secondary_pdp_context_reject downlink 79 ; activate secondary PDP context reject { GSM3_V msg_type ; message type GSM3_V sm_cause ; SM cause } MSG request_pdp_context_activation downlink 68 ; request PDP context activation { GSM3_V msg_type ; message type GSM4_LV address ; offered PDP address GSM4_TLV apn 0x28 ; access point name } MSG request_pdp_context_activation_reject uplink 69 ; request PDP context activation reject { GSM3_V msg_type ; message type GSM3_V sm_cause ; SM cause } MSG D_modify_pdp_context_request downlink 72 ; Modify PDP context request { GSM3_V msg_type ; message type GSM1_V radio_prio ; radio priority .0000 ; spare half octet GSM3_V llc_sapi ; requested LLC sapi GSM4_LV qos ; new QoS GSM4_TLV address 0x2b ; PDP address GSM4_TLV pfi 0x34 ; packet flow identifier } MSG U_modify_pdp_context_request uplink 74 ; Modify PDP context request (MO) { GSM3_V msg_type ; message type GSM3_TV llc_sapi 0x32 ; requested LLC sapi GSM4_TLV qos 0x30 ; requested QoS GSM4_TLV tft 0x31 ; new traffic flow template } MSG U_modify_pdp_context_accept uplink 73 ; Modify PDP context accept { GSM3_V msg_type ; Message type } MSG D_modify_pdp_context_accept downlink 75 ; Modify PDP context accept (MO) { GSM3_V msg_type ; message type GSM4_TLV qos 0x30 ; negotiated QoS GSM3_TV llc_sapi 0x32 ; negotiated LLC SAPI GSM1_TV radio_prio 0x8 ; radio priority GSM4_TLV pfi 0x34 ; packet flow identifier } MSG modify_pdp_context_reject downlink 76 ; modify PDP context reject { GSM3_V msg_type ; message type GSM3_V sm_cause ; SM cause } MSG deactivate_pdp_context_request both 70 ; deactivate PDP context request { GSM3_V msg_type ; Message type GSM3_V sm_cause ; SM cause GSM1_TV tear_down 0x9 ; Tear down indicator } MSG deactivate_pdp_context_accept both 71 ; deactivate PDP context accept { GSM3_V msg_type ; message type } MSG sm_status both 85 ; SM status { GSM3_V msg_type ; message type GSM3_V sm_cause ; SM cause }