/* packet-bacapp.c * Routines for BACnet (APDU) dissection * Copyright 2001, Hartmut Mueller , FH Dortmund * Enhanced by Steve Karg, 2005, , Atlanta * Enhanced by Herbert Lischka, 2005, , Berlin * * $Id: packet-bacapp.c 27736 2009-03-16 10:14:44Z stig $ * * Wireshark - Network traffic analyzer * By Gerald Combs * Copyright 1998 Gerald Combs * * Copied from README.developer,v 1.23 * * 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, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include "packet-bacapp.h" /* some necessary forward function prototypes */ static guint fApplicationTypesEnumerated (tvbuff_t *tvb, proto_tree *tree, guint offset, const gchar *label, const value_string *vs); static const char *bacapp_unknown_service_str = "unknown service"; static const char *ASHRAE_Reserved_Fmt = "(%d) Reserved for Use by ASHRAE"; static const char *Vendor_Proprietary_Fmt = "(%d) Vendor Proprietary Value"; static const value_string BACnetTypeName[] = { {0, "Confirmed-Request "}, {1, "Unconfirmed-Request "}, {2, "SimpleACK "}, {3, "ComplexACK "}, {4, "SegmentACK "}, {5, "Error "}, {6, "Reject "}, {7, "Abort "}, {0, NULL } }; static const true_false_string segments_follow = { "Segmented Request", "Unsegmented Request" }; static const true_false_string more_follow = { "More Segments Follow", "No More Segments Follow" }; static const true_false_string segmented_accept = { "Segmented Response accepted", "Segmented Response not accepted" }; static const true_false_string BACnetTagClass = { "Context Specific Tag", "Application Tag" }; static const value_string BACnetMaxSegmentsAccepted [] = { {0,"Unspecified"}, {1,"2 segments"}, {2,"4 segments"}, {3,"8 segments"}, {4,"16 segments"}, {5,"32 segments"}, {6,"64 segments"}, {7,"Greater than 64 segments"}, {0,NULL } }; static const value_string BACnetMaxAPDULengthAccepted [] = { {0,"Up to MinimumMessageSize (50 octets)"}, {1,"Up to 128 octets"}, {2,"Up to 206 octets (fits in a LonTalk frame)"}, {3,"Up to 480 octets (fits in an ARCNET frame)"}, {4,"Up to 1024 octets"}, {5,"Up to 1476 octets (fits in an ISO 8802-3 frame)"}, {6,"reserved by ASHRAE"}, {7,"reserved by ASHRAE"}, {8,"reserved by ASHRAE"}, {9,"reserved by ASHRAE"}, {10,"reserved by ASHRAE"}, {11,"reserved by ASHRAE"}, {12,"reserved by ASHRAE"}, {13,"reserved by ASHRAE"}, {14,"reserved by ASHRAE"}, {15,"reserved by ASHRAE"}, {0,NULL} }; static const value_string BACnetRejectReason [] = { {0,"other"}, {1,"buffer-overflow"}, {2,"inconsistent-parameters"}, {3,"invalid-parameter-data-type"}, {4,"invalid-tag"}, {5,"missing-required-parameter"}, {6,"parameter-out-of-range"}, {7,"too-many-arguments"}, {8,"undefined-enumeration"}, {9,"unrecognized-service"}, {0,NULL} }; static const value_string BACnetApplicationTagNumber [] = { {0,"Null"}, {1,"Boolean"}, {2,"Unsigned Integer"}, {3,"Signed Integer (2's complement notation)"}, {4,"Real (ANSI/IEE-754 floating point)"}, {5,"Double (ANSI/IEE-754 double precision floating point)"}, {6,"Octet String"}, {7,"Character String"}, {8,"Bit String"}, {9,"Enumerated"}, {10,"Date"}, {11,"Time"}, {12,"BACnetObjectIdentifier"}, {13,"reserved by ASHRAE"}, {14,"reserved by ASHRAE"}, {15,"reserved by ASHRAE"}, {0,NULL} }; static const value_string BACnetAction [] = { {0,"direct"}, {1,"reverse"}, {0,NULL} }; static const value_string BACnetFileAccessMethod [] = { {0,"record-access"}, {1,"stream-access"}, {0,NULL} }; /* For some reason, BACnet defines the choice parameter in the file read and write services backwards from the BACnetFileAccessMethod enumeration. */ static const value_string BACnetFileAccessOption [] = { {0,"stream access"}, {1,"record access"}, {0,NULL} }; static const value_string BACnetFileStartOption [] = { {0, "File Start Position: "}, {1, "File Start Record: "}, {0, NULL} }; static const value_string BACnetFileRequestCount [] = { {0, "Requested Octet Count: "}, {1, "Requested Record Count: "}, {0, NULL} }; static const value_string BACnetFileWriteInfo [] = { {0, "File Data: "}, {1, "Record Count: "}, {0, NULL} }; static const value_string BACnetAbortReason [] = { {0,"other"}, {1,"buffer-overflow"}, {2,"invalid-apdu-in-this-state"}, {3,"preempted-by-higher-priority-task"}, {4,"segmentation-not-supported"}, {0,NULL} }; static const value_string BACnetLifeSafetyMode [] = { {0,"off"}, {1,"on"}, {2,"test"}, {3,"manned"}, {4,"unmanned"}, {5,"armed"}, {6,"disarmed"}, {7,"prearmed"}, {8,"slow"}, {9,"fast"}, {10,"disconnected"}, {11,"enabled"}, {12,"disabled"}, {13,"atomic-release-disabled"}, {14,"default"}, {0,NULL} /* Enumerated values 0-255 are reserved for definition by ASHRAE. Enumerated values 256-65535 may be used by others subject to procedures and constraints described in Clause 23. */ }; static const value_string BACnetLifeSafetyOperation [] = { {0,"none"}, {1,"silence"}, {2,"silence-audible"}, {3,"silence-visual"}, {4,"reset"}, {5,"reset-alarm"}, {6,"reset-fault"}, {7,"unsilence"}, {8,"unsilence-audible"}, {9,"unsilence-visual"}, {0,NULL} /* Enumerated values 0-63 are reserved for definition by ASHRAE. Enumerated values 64-65535 may be used by others subject to procedures and constraints described in Clause 23. */ }; static const value_string BACnetLimitEnable [] = { {0,"lowLimitEnable"}, {1,"highLimitEnable"}, {0,NULL} }; static const value_string BACnetLifeSafetyState [] = { {0,"quiet"}, {1,"pre-alarm"}, {2,"alarm"}, {3,"fault"}, {4,"fault-pre-alarm"}, {5,"fault-alarm"}, {6,"not-ready"}, {7,"active"}, {8,"tamper"}, {9,"test-alarm"}, {10,"test-active"}, {11,"test-fault"}, {12,"test-fault-alarm"}, {13,"holdup"}, {14,"duress"}, {15,"tamper-alarm"}, {16,"abnormal"}, {17,"emergency-power"}, {18,"delayed"}, {19,"blocked"}, {20,"local-alarm"}, {21,"general-alarm"}, {22,"supervisory"}, {23,"test-supervisory"}, {0,NULL} /* Enumerated values 0-255 are reserved for definition by ASHRAE. Enumerated values 256-65535 may be used by others subject to procedures and constraints described in Clause 23. */ }; static const value_string BACnetConfirmedServiceChoice [] = { {0,"acknowledgeAlarm"}, {1,"confirmedCOVNotification"}, {2,"confirmedEventNotification"}, {3,"getAlarmSummary"}, {4,"getEnrollmentSummary"}, {5,"subscribeCOV"}, {6,"atomicReadFile"}, {7,"atomicWriteFile"}, {8,"addListElement"}, {9,"removeListElement"}, {10,"createObject"}, {11,"deleteObject"}, {12,"readProperty"}, {13,"readPropertyConditional"}, {14,"readPropertyMultiple"}, {15,"writeProperty"}, {16,"writePropertyMultiple"}, {17,"deviceCommunicationControl"}, {18,"confirmedPrivateTransfer"}, {19,"confirmedTextMessage"}, {20,"reinitializeDevice"}, {21,"vtOpen"}, {22,"vtClose"}, {23,"vtData"}, {24,"authenticate"}, {25,"requestKey"}, {26,"readRange"}, {27,"lifeSafetyOperation"}, {28,"subscribeCOVProperty"}, {29,"getEventInformation"}, {30,"reserved by ASHRAE"}, {0, NULL} }; static const value_string BACnetReliability [] = { {0,"no-fault-detected"}, {1,"no-sensor"}, {2,"over-range"}, {3,"under-range"}, {4,"open-loop"}, {5,"shorted-loop"}, {6,"no-output"}, {7,"unreliable-other"}, {8,"process-error"}, {9,"multi-state-fault"}, {0,NULL} }; static const value_string BACnetUnconfirmedServiceChoice [] = { {0,"i-Am"}, {1,"i-Have"}, {2,"unconfirmedCOVNotification"}, {3,"unconfirmedEventNotification"}, {4,"unconfirmedPrivateTransfer"}, {5,"unconfirmedTextMessage"}, {6,"timeSynchronization"}, {7,"who-Has"}, {8,"who-Is"}, {9,"utcTimeSynchonization"}, {0,NULL} }; static const value_string BACnetUnconfirmedServiceRequest [] = { {0,"i-Am-Request"}, {1,"i-Have-Request"}, {2,"unconfirmedCOVNotification-Request"}, {3,"unconfirmedEventNotification-Request"}, {4,"unconfirmedPrivateTransfer-Request"}, {5,"unconfirmedTextMessage-Request"}, {6,"timeSynchronization-Request"}, {7,"who-Has-Request"}, {8,"who-Is-Request"}, {9,"utcTimeSynchonization-Request"}, {0,NULL} }; static const value_string BACnetObjectType [] = { {0,"analog-input object"}, {1,"analog-output object"}, {2,"analog-value object"}, {3,"binary-input object"}, {4,"binary-output object"}, {5,"binary-value object"}, {6,"calendar object"}, {7,"command object"}, {8,"device object"}, {9,"event-enrollment object"}, {10,"file object"}, {11,"group object"}, {12,"loop object"}, {13,"multi-state-input object"}, {14,"multi-state-output object"}, {15,"notification-class object"}, {16,"program object"}, {17,"schedule object"}, {18,"averaging object"}, {19,"multi-state-value object"}, {20,"trend-log object"}, {21,"life-safety-point object"}, {22,"life-safety-zone object"}, {23,"accumulator object"}, {24,"pulse-converter object"}, {25,"event-log object"}, {26,"global-group object"}, {27,"trend-log-multiple object"}, {28,"load-control object"}, {29,"structured-view object"}, {30,"access-door object"}, {0, NULL} /* Enumerated values 0-127 are reserved for definition by ASHRAE. Enumerated values 128-1023 may be used by others subject to the procedures and constraints described in Clause 23. */ }; static const value_string BACnetEngineeringUnits [] = { {0,"Sq Meters"}, {1,"Sq Feet"}, {2,"Milliamperes"}, {3,"Amperes"}, {4,"Ohms"}, {5,"Volts"}, {6,"Kilovolts"}, {7,"Megavolts"}, {8,"Volt Amperes"}, {9,"Kilovolt Amperes"}, {10,"Megavolt Amperes"}, {11,"Volt Amperes Reactive"}, {12,"Kilovolt Amperes Reactive"}, {13,"Megavolt Amperes Reactive"}, {14,"Degrees Phase"}, {15,"Power Factor"}, {16,"Joules"}, {17,"Kilojoules"}, {18,"Watt Hours"}, {19,"Kilowatt Hours"}, {20,"BTUs"}, {21,"Therms"}, {22,"Ton Hours"}, {23,"Joules Per Kg Dry Air"}, {24,"BTUs Per Pound Dry Air"}, {25,"Cycles Per Hour"}, {26,"Cycles Per Minute"}, {27,"Hertz"}, {28,"Grams Of Water Per Kilogram Dry Air"}, {29,"Relative Humidity"}, {30,"Millimeters"}, {31,"Meters"}, {32,"Inches"}, {33,"Feed"}, {34,"Watts Per Sq Foot"}, {35,"Watts Per Sq meter"}, {36,"Lumens"}, {37,"Lux"}, {38,"Foot Candles"}, {39,"Kilograms"}, {40,"Pounds Mass"}, {41,"Tons"}, {42,"Kgs per Second"}, {43,"Kgs Per Minute"}, {44,"Kgs Per Hour"}, {45,"Pounds Mass Per Minute"}, {46,"Pounds Mass Per Hour"}, {47,"Watt"}, {48,"Kilowatts"}, {49,"Megawatts"}, {50,"BTUs Per Hour"}, {51,"Horsepower"}, {52,"Tons Refrigeration"}, {53,"Pascals"}, {54,"Kilopascals"}, {55,"Bars"}, {56,"Pounds Force Per Square Inch"}, {57,"Centimeters Of Water"}, {58,"Inches Of Water"}, {59,"Millimeters Of Mercury"}, {60,"Centimeters Of Mercury"}, {61,"Inches Of Mercury"}, {62,"Degrees Celsius"}, {63,"Degrees Kelvin"}, {64,"Degrees Fahrenheit"}, {65,"Degree Days Celsius"}, {66,"Degree Days Fahrenheit"}, {67,"Years"}, {68,"Months"}, {69,"Weeks"}, {70,"Days"}, {71,"Hours"}, {72,"Minutes"}, {73,"Seconds"}, {74,"Meters Per Second"}, {75,"Kilometers Per Hour"}, {76,"Feed Per Second"}, {77,"Feet Per Minute"}, {78,"Miles Per Hour"}, {79,"Cubic Feet"}, {80,"Cubic Meters"}, {81,"Imperial Gallons"}, {82,"Liters"}, {83,"US Gallons"}, {84,"Cubic Feet Per Minute"}, {85,"Cubic Meters Per Second"}, {86,"Imperial Gallons Per Minute"}, {87,"Liters Per Second"}, {88,"Liters Per Minute"}, {89,"US Gallons Per Minute"}, {90,"Degrees Angular"}, {91,"Degrees Celsius Per Hour"}, {92,"Degrees Celsius Per Minute"}, {93,"Degrees Fahrenheit Per Hour"}, {94,"Degrees Fahrenheit Per Minute"}, {95,"No Units"}, {96,"Parts Per Million"}, {97,"Parts Per Billion"}, {98,"Percent"}, {99,"Pecent Per Second"}, {100,"Per Minute"}, {101,"Per Second"}, {102,"Psi Per Degree Fahrenheit"}, {103,"Radians"}, {104,"Revolutions Per Min"}, {105,"Currency1"}, {106,"Currency2"}, {107,"Currency3"}, {108,"Currency4"}, {109,"Currency5"}, {110,"Currency6"}, {111,"Currency7"}, {112,"Currency8"}, {113,"Currency9"}, {114,"Currency10"}, {115,"Sq Inches"}, {116,"Sq Centimeters"}, {117,"BTUs Per Pound"}, {118,"Centimeters"}, {119,"Pounds Mass Per Second"}, {120,"Delta Degrees Fahrenheit"}, {121,"Delta Degrees Kelvin"}, {122,"Kilohms"}, {123,"Megohms"}, {124,"Millivolts"}, {125,"Kilojoules Per Kg"}, {126,"Megajoules"}, {127,"Joules Per Degree Kelvin"}, {128,"Joules Per Kg Degree Kelvin"}, {129,"Kilohertz"}, {130,"Megahertz"}, {131,"Per Hour"}, {132,"Milliwatts"}, {133,"Hectopascals"}, {134,"Millibars"}, {135,"Cubic Meters Per Hour"}, {136,"Liters Per Hour"}, {137,"KWatt Hours Per Square Meter"}, {138,"KWatt Hours Per Square Foot"}, {139,"Megajoules Per Square Meter"}, {140,"Megajoules Per Square Foot"}, {141,"Watts Per Sq Meter Degree Kelvin"}, {142,"Cubic Feet Per Second"}, {143,"Percent Obstruction Per Foot"}, {144,"Percent Obstruction Per Meter"}, {145,"milliohms"}, {146,"megawatt-hours"}, {147,"kilo-btus"}, {148,"mega-btus"}, {149,"kilojoules-per-kilogram-dry-air"}, {150,"megajoules-per-kilogram-dry-air"}, {151,"kilojoules-per-degree-Kelvin"}, {152,"megajoules-per-degree-Kelvin"}, {153,"newton"}, {154,"grams-per-second"}, {155,"grams-per-minute"}, {156,"tons-per-hour"}, {157,"kilo-btus-per-hour"}, {158,"hundredths-seconds"}, {159,"milliseconds"}, {160,"newton-meters"}, {161,"millimeters-per-second"}, {162,"millimeters-per-minute"}, {163,"meters-per-minute"}, {164,"meters-per-hour"}, {165,"cubic-meters-per-minute"}, {166,"meters-per-second-per-second"}, {167,"amperes-per-meter"}, {168,"amperes-per-square-meter"}, {169,"ampere-square-meters"}, {170,"farads"}, {171,"henrys"}, {172,"ohm-meters"}, {173,"siemens"}, {174,"siemens-per-meter"}, {175,"teslas"}, {176,"volts-per-degree-Kelvin"}, {177,"volts-per-meter"}, {178,"webers"}, {179,"candelas"}, {180,"candelas-per-square-meter"}, {181,"degrees-Kelvin-per-hour"}, {182,"degrees-Kelvin-per-minute"}, {183,"joule-seconds"}, {184,"radians-per-second"}, {185,"square-meters-per-Newton"}, {186,"kilograms-per-cubic-meter"}, {187,"newton-seconds"}, {188,"newtons-per-meter"}, {189,"watts-per-meter-per-degree-Kelvin"}, {0,NULL} /* Enumerated values 0-255 are reserved for definition by ASHRAE. Enumerated values 256-65535 may be used by others subject to the procedures and constraints described in Clause 23. */ }; static const value_string BACnetErrorCode [] = { {0,"other"}, {1,"authentication-failed"}, {2,"configuration-in-progress"}, {3,"device-busy"}, {4,"dynamic-creation-not-supported"}, {5,"file-access-denied"}, {6,"incompatible-security-levels"}, {7,"inconsistent-parameters"}, {8,"inconsistent-selection-criterion"}, {9,"invalid-data-type"}, {10,"invalid-file-access-method"}, {11,"invalid-file-start-position"}, {12,"invalid-operator-name"}, {13,"invalid-parameter-data-type"}, {14,"invalid-time-stamp"}, {15,"key-generation-error"}, {16,"missing-required-parameter"}, {17,"no-objects-of-specified-type"}, {18,"no-space-for-object"}, {19,"no-space-to-add-list-element"}, {20,"no-space-to-write-property"}, {21,"no-vt-sessions-available"}, {22,"property-is-not-a-list"}, {23,"object-deletion-not-permitted"}, {24,"object-identifier-already-exists"}, {25,"operational-problem"}, {26,"password-failure"}, {27,"read-access-denied"}, {28,"security-not-supported"}, {29,"service-request-denied"}, {30,"timeout"}, {31,"unknown-object"}, {32,"unknown-property"}, {33,"removed enumeration"}, {34,"unknown-vt-class"}, {35,"unknown-vt-session"}, {36,"unsupported-object-type"}, {37,"value-out-of-range"}, {38,"vt-session-already-closed"}, {39,"vt-session-termination-failure"}, {40,"write-access-denied"}, {41,"character-set-not-supported"}, {42,"invalid-array-index"}, {43,"cov-subscription-failed"}, {44,"not-cov-property"}, {45,"optional-functionality-not-supported"}, {46,"invalid-configuration-data"}, {47,"datatype-not-supported"}, {48,"duplicate-name"}, {49,"duplicate-object-id"}, {50,"property-is-not-an-array"}, {73,"invalid-event-state"}, {74,"no-alarm-configured"}, {0, NULL} /* Enumerated values 0-255 are reserved for definition by ASHRAE. Enumerated values 256-65535 may be used by others subject to the procedures and constraints described in Clause 23. */ }; static const value_string BACnetPropertyIdentifier [] = { {0,"acked-transition"}, {1,"ack-required"}, {2,"action"}, {3,"action-text"}, {4,"active-text"}, {5,"active-vt-session"}, {6,"alarm-value"}, {7,"alarm-values"}, {8,"all"}, {9,"all-write-successful"}, {10,"apdu-segment-timeout"}, {11,"apdu-timeout"}, {12,"application-software-version"}, {13,"archive"}, {14,"bias"}, {15,"change-of-state-count"}, {16,"change-of-state-time"}, {17,"notification-class"}, {18,"the property in this place was deleted"}, {19,"controlled-variable-reference"}, {20,"controlled-variable-units"}, {21,"controlled-variable-value"}, {22,"cov-increment"}, {23,"datelist"}, {24,"daylights-savings-status"}, {25,"deadband"}, {26,"derivative-constant"}, {27,"derivative-constant-units"}, {28,"description"}, {29,"description-of-halt"}, {30,"device-address-binding"}, {31,"device-type"}, {32,"effective-period"}, {33,"elapsed-active-time"}, {34,"error-limit"}, {35,"event-enable"}, {36,"event-state"}, {37,"event-type"}, {38,"exception-schedule"}, {39,"fault-values"}, {40,"feedback-value"}, {41,"file-access-method"}, {42,"file-size"}, {43,"file-type"}, {44,"firmware-revision"}, {45,"high-limit"}, {46,"inactive-text"}, {47,"in-progress"}, {48,"instance-of"}, {49,"integral-constant"}, {50,"integral-constant-units"}, {51,"issue-confirmed-notifications"}, {52,"limit-enable"}, {53,"list-of-group-members"}, {54,"list-of-object-property-references"}, {55,"list-of-session-keys"}, {56,"local-date"}, {57,"local-time"}, {58,"location"}, {59,"low-limit"}, {60,"manipulated-variable-reference"}, {61,"maximum-output"}, {62,"max-apdu-length-accepted"}, {63,"max-info-frames"}, {64,"max-master"}, {65,"max-pres-value"}, {66,"minimum-off-time"}, {67,"minimum-on-time"}, {68,"minimum-output"}, {69,"min-pres-value"}, {70,"model-name"}, {71,"modification-date"}, {72,"notify-type"}, {73,"number-of-APDU-retries"}, {74,"number-of-states"}, {75,"object-identifier"}, {76,"object-list"}, {77,"object-name"}, {78,"object-property-reference"}, {79,"object-type"}, {80,"optional"}, {81,"out-of-service"}, {82,"output-units"}, {83,"event-parameters"}, {84,"polarity"}, {85,"present-value"}, {86,"priority"}, {87,"priority-array"}, {88,"priority-for-writing"}, {89,"process-identifier"}, {90,"program-change"}, {91,"program-location"}, {92,"program-state"}, {93,"proportional-constant"}, {94,"proportional-constant-units"}, {95,"protocol-conformance-class"}, {96,"protocol-object-types-supported"}, {97,"protocol-services-supported"}, {98,"protocol-version"}, {99,"read-only"}, {100,"reason-for-halt"}, {101,"recipient"}, {102,"recipient-list"}, {103,"reliability"}, {104,"relinquish-default"}, {105,"required"}, {106,"resolution"}, {107,"segmentation-supported"}, {108,"setpoint"}, {109,"setpoint-reference"}, {110,"state-text"}, {111,"status-flags"}, {112,"system-status"}, {113,"time-delay"}, {114,"time-of-active-time-reset"}, {115,"time-of-state-count-reset"}, {116,"time-synchronization-recipients"}, {117,"units"}, {118,"update-interval"}, {119,"utc-offset"}, {120,"vendor-identifier"}, {121,"vendor-name"}, {122,"vt-class-supported"}, {123,"weekly-schedule"}, {124,"attempted-samples"}, {125,"average-value"}, {126,"buffer-size"}, {127,"client-cov-increment"}, {128,"cov-resubscription-interval"}, {129,"current-notify-time"}, {130,"event-time-stamp"}, {131,"log-buffer"}, {132,"log-device-object-property"}, {133,"enable"}, /* per ANSI/ASHRAE 135-2004 addendum B */ {134,"log-interval"}, {135,"maximum-value"}, {136,"minimum-value"}, {137,"notification-threshold"}, {138,"previous-notify-time"}, {139,"protocol-revision"}, {140,"records-since-notification"}, {141,"record-count"}, {142,"start-time"}, {143,"stop-time"}, {144,"stop-when-full"}, {145,"total-record-count"}, {146,"valid-samples"}, {147,"window-interval"}, {148,"window-samples"}, {149,"maximum-value-time-stamp"}, {150,"minimum-value-time-stamp"}, {151,"variance-value"}, {152,"active-cov-subscriptions"}, {153,"backup-failure-timeout"}, {154,"configuration-files"}, {155,"database-revision"}, {156,"direct-reading"}, {157,"last-restore-time"}, {158,"maintenance-required"}, {159,"member-of"}, {160,"mode"}, {161,"operation-expected"}, {162,"setting"}, {163,"silenced"}, {164,"tracking-value"}, {165,"zone-members"}, {166,"life-safety-alarm-values"}, {167,"max-segments-accepted"}, {168,"profile-name"}, {169,"auto-slave-discovery"}, {170,"manual-slave-address-binding"}, {171,"slave-address-binding"}, {172,"slave-proxy-enable"}, {173,"last-notify-time"}, {174,"schedule-default"}, {175,"accepted-modes"}, {176,"adjust-value"}, {177,"count"}, {178,"count-before-change"}, {179,"count-change-time"}, {180,"cov-period"}, {181,"input-reference"}, {182,"limit-monitoring-interval"}, {183,"logging-device"}, {184,"logging-record"}, {185,"prescale"}, {186,"pulse-rate"}, {187,"scale"}, {188,"scale-factor"}, {189,"update-time"}, {190,"value-before-change"}, {191,"value-set"}, {192,"value-change-time"}, {193,"align-intervals"}, {194,"group-member-names"}, {195,"interval-offset"}, {196,"last-restart-reason"}, {197,"logging-type"}, {198,"member-status-flags"}, {199,"notification-period"}, {200,"previous-notify-record"}, {201,"requested-update-interval"}, {202,"restart-notification-recipients"}, {203,"time-of-device-restart"}, {204,"time-synchronization-recipients"}, {205,"trigger"}, {206,"UTC-time-synchronization-recipients"}, {207,"node-subtype"}, {208,"node-type"}, {209,"structured-object-list"}, {210,"subordinate-annotations"}, {211,"subordinate-list"}, {212,"actual-shed-level"}, {213,"duty-window"}, {214,"expected-shed-level"}, {215,"full-duty-baseline"}, {216,"node-subtype"}, {217,"node-type"}, {218,"requested-shed-level"}, {219,"shed-duration"}, {220,"shed-level-descriptions"}, {221,"shed-levels"}, {222,"state-description"}, {226,"door-alarm-state"}, {227,"door-extended-pulse-time"}, {228,"door-members"}, {229,"door-open-too-long-time"}, {230,"door-pulse-time"}, {231,"door-status"}, {232,"door-unlock-delay-time"}, {233,"lock-status"}, {234,"masked-alarm-values"}, {235,"secured-status"}, {0, NULL} /* Enumerated values 0-511 are reserved for definition by ASHRAE. Enumerated values 512-4194303 may be used by others subject to the procedures and constraints described in Clause 23. */ }; static const value_string BACnetBinaryPV [] = { {0,"inactive"}, {1,"active"}, {0,NULL} }; #define ANSI_X34 0 #define IBM_MS_DBCS 1 #define JIS_C_6226 2 #define ISO_10646_UCS4 3 #define ISO_10646_UCS2 4 #define ISO_18859_1 5 static const value_string BACnetCharacterSet [] = { {ANSI_X34, "ANSI X3.4"}, {IBM_MS_DBCS, "IBM/Microsoft DBCS"}, {JIS_C_6226, "JIS C 6226"}, {ISO_10646_UCS4, "ISO 10646(UCS-4)"}, {ISO_10646_UCS2, "ISO 10646(UCS-2)"}, {ISO_18859_1, "ISO 18859-1"}, {0, NULL} }; static const value_string BACnetStatusFlags [] = { {0,"in-alarm"}, {1,"fault"}, {2,"overridden"}, {3,"out-of-service"}, {0,NULL} }; static const value_string BACnetMessagePriority [] = { {0,"normal"}, {1,"urgent"}, {0,NULL} }; static const value_string BACnetAcknowledgementFilter [] = { {0,"all"}, {1,"acked"}, {2,"not-acked"}, {0,NULL} }; static const value_string BACnetResultFlags [] = { {0,"firstitem"}, {1,"lastitem"}, {2,"moreitems"}, {0,NULL} }; static const value_string BACnetRelationSpecifier [] = { {0,"equal"}, {1,"not-equal"}, {2,"less-than"}, {3,"greater-than"}, {4,"less-than-or-equal"}, {5,"greater-than-or-equal"}, {0,NULL} }; static const value_string BACnetSelectionLogic [] = { {0,"and"}, {1,"or"}, {2,"all"}, {0,NULL} }; static const value_string BACnetEventStateFilter [] = { {0,"offnormal"}, {1,"fault"}, {2,"normal"}, {3,"all"}, {4,"active"}, {0,NULL} }; static const value_string BACnetEventTransitionBits [] = { {0,"to-offnormal"}, {1,"to-fault"}, {2,"to-normal"}, {0,NULL} }; static const value_string BACnetSegmentation [] = { {0,"segmented-both"}, {1,"segmented-transmit"}, {2,"segmented-receive"}, {3,"no-segmentation"}, {0,NULL} }; static const value_string BACnetSilencedState [] = { {0,"unsilenced"}, {1,"audible-silenced"}, {2,"visible-silenced"}, {3,"all-silenced"}, {0,NULL} }; static const value_string BACnetDeviceStatus [] = { {0,"operational"}, {1,"operational-read-only"}, {2,"download-required"}, {3,"download-in-progress"}, {4,"non-operational"}, {5,"backup-in-progress"}, {0,NULL} }; static const value_string BACnetEnableDisable [] = { {0,"enable"}, {1,"disable"}, {2,"disable-initiation"}, {0,NULL} }; static const value_string months [] = { {1,"January" }, {2,"February" }, {3,"March" }, {4,"April" }, {5,"May" }, {6,"June" }, {7,"July" }, {8,"August" }, {9,"September" }, {10,"October" }, {11,"November" }, {12,"December" }, {255,"any month" }, {0,NULL } }; static const value_string weekofmonth [] = { {1,"days numbered 1-7" }, {2,"days numbered 8-14" }, {3,"days numbered 15-21" }, {4,"days numbered 22-28" }, {5,"days numbered 29-31" }, {6,"last 7 days of this month" }, {255,"any week of this month" }, {0,NULL } }; /* note: notification class object recipient-list uses different day-of-week enum */ static const value_string day_of_week [] = { {1,"Monday" }, {2,"Tuesday" }, {3,"Wednesday" }, {4,"Thursday" }, {5,"Friday" }, {6,"Saturday" }, {7,"Sunday" }, {255,"any day of week" }, {0,NULL } }; static const value_string BACnetErrorClass [] = { {0,"device" }, {1,"object" }, {2,"property" }, {3,"resources" }, {4,"security" }, {5,"services" }, {6,"vt" }, {0,NULL } /* Enumerated values 0-63 are reserved for definition by ASHRAE. Enumerated values64-65535 may be used by others subject to the procedures and constraints described in Clause 23. */ }; static const value_string BACnetVTClass [] = { {0,"default-terminal" }, {1,"ansi-x3-64" }, {2,"dec-vt52" }, {3,"dec-vt100" }, {4,"dec-vt200" }, {5,"hp-700-94" }, {6,"ibm-3130" }, {0,NULL } }; static const value_string BACnetEventType [] = { {0,"change-of-bitstring" }, {1,"change-of-state" }, {2,"change-of-value" }, {3,"command-failure" }, {4,"floating-limit" }, {5,"out-of-range" }, {6,"complex-event-type" }, {7,"buffer-ready" }, {8,"change-of-life-safety" }, {9,"extended" }, {10,"buffer-ready" }, {11,"unsigned-range" }, {0,NULL } /* Enumerated values 0-63 are reserved for definition by ASHRAE. Enumerated values 64-65535 may be used by others subject to the procedures and constraints described in Clause 23. It is expected that these enumerated values will correspond to the use of the complex-event-type CHOICE [6] of the BACnetNotificationParameters production. */ }; static const value_string BACnetEventState [] = { {0,"normal" }, {1,"fault" }, {2,"offnormal" }, {3,"high-limit" }, {4,"low-limit" }, {5,"life-safety-alarm" }, {0,NULL } /* Enumerated values 0-63 are reserved for definition by ASHRAE. Enumerated values 64-65535 may be used by others subject to the procedures and constraints described in Clause 23. */ }; static const value_string BACnetLogStatus [] = { {0,"log-disabled" }, {1,"buffer-purged" }, {0,NULL } }; static const value_string BACnetMaintenance [] = { {0,"none" }, {1,"periodic-test" }, {2,"need-service-operational" }, {3,"need-service-inoperative" }, {0,NULL } }; static const value_string BACnetNotifyType [] = { {0,"alarm" }, {1,"event" }, {2,"ack-notification" }, {0,NULL } }; static const value_string BACnetServicesSupported [] = { {0,"acknowledgeAlarm"}, {1,"confirmedCOVNotification"}, {2,"confirmedEventNotification"}, {3,"getAlarmSummary"}, {4,"getEnrollmentSummary"}, {5,"subscribeCOV"}, {6,"atomicReadFile"}, {7,"atomicWriteFile"}, {8,"addListElement"}, {9,"removeListElement"}, {10,"createObject"}, {11,"deleteObject"}, {12,"readProperty"}, {13,"readPropertyConditional"}, {14,"readPropertyMultiple"}, {15,"writeProperty"}, {16,"writePropertyMultiple"}, {17,"deviceCommunicationControl"}, {18,"confirmedPrivateTransfer"}, {19,"confirmedTextMessage"}, {20,"reinitializeDevice"}, {21,"vtOpen"}, {22,"vtClose"}, {23,"vtData"}, {24,"authenticate"}, {25,"requestKey"}, {26,"i-Am"}, {27,"i-Have"}, {28,"unconfirmedCOVNotification"}, {29,"unconfirmedEventNotification"}, {30,"unconfirmedPrivateTransfer"}, {31,"unconfirmedTextMessage"}, {32,"timeSynchronization"}, {33,"who-Has"}, {34,"who-Is"}, {35,"readRange"}, {36,"utcTimeSynchronization"}, {37,"lifeSafetyOperation"}, {38,"subscribeCOVProperty"}, {39,"getEventInformation"}, {0, NULL} }; static const value_string BACnetPropertyStates [] = { {0,"boolean-value"}, {1,"binary-value"}, {2,"event-type"}, {3,"polarity"}, {4,"program-change"}, {5,"program-state"}, {6,"reason-for-halt"}, {7,"reliability"}, {8,"state"}, {9,"system-status"}, {10,"units"}, {11,"unsigned-value"}, {12,"life-safety-mode"}, {13,"life-safety-state"}, {14,"door-alarm-state"}, {0,NULL} /* Tag values 0-63 are reserved for definition by ASHRAE. Tag values of 64-254 may be used by others to accommodate vendor specific properties that have discrete or enumerated values, subject to the constraints described in Clause 23. */ }; static const value_string BACnetProgramError [] = { {0,"normal"}, {1,"load-failed"}, {2,"internal"}, {3,"program"}, {4,"other"}, {0,NULL} /* Enumerated values 0-63 are reserved for definition by ASHRAE. Enumerated values 64-65535 may be used by others subject to the procedures and constraints described in Clause 23. */ }; static const value_string BACnetProgramRequest [] = { {0,"ready"}, {1,"load"}, {2,"run"}, {3,"halt"}, {4,"restart"}, {4,"unload"}, {0,NULL} }; static const value_string BACnetProgramState [] = { {0,"idle"}, {1,"loading"}, {2,"running"}, {3,"waiting"}, {4,"halted"}, {4,"unloading"}, {0,NULL} }; static const value_string BACnetReinitializedStateOfDevice [] = { {0,"coldstart"}, {1,"warmstart"}, {2,"startbackup"}, {3,"endbackup"}, {4,"startrestore"}, {5,"endrestore"}, {6,"abortrestore"}, {0,NULL} }; static const value_string BACnetPolarity [] = { {0,"normal"}, {1,"reverse"}, {0,NULL} }; static const value_string BACnetTagNames[] = { { 5, "Extended Value" }, { 6, "Opening Tag" }, { 7, "Closing Tag" }, { 0, NULL } }; static const value_string BACnetReadRangeOptions[] = { { 3, "range byPosition" }, { 4, "range byTime" }, { 5, "range timeRange" }, { 6, "range bySequenceNumber" }, { 7, "range byTime" }, { 0, NULL } }; /* Present_Value for Load Control Object */ static const value_string BACnetShedState[] = { { 0, "shed-inactive" }, { 1, "shed-request-pending" }, { 2, "shed-compliant" }, { 3, "shed-non-compliant" }, { 0, NULL } }; static const value_string BACnetVendorIdentifiers [] = { { 0, "ASHRAE" }, { 1, "NIST" }, { 2, "The Trane Company" }, { 3, "McQuay International" }, { 4, "PolarSoft" }, { 5, "Johnson Controls, Inc." }, { 6, "American Auto-Matrix" }, { 7, "Siemens Building Technologies, Ltd., Landis & Staefa Division Europe" }, { 8, "Delta Controls" }, { 9, "Siemens Building Technologies, Inc." }, { 10, "Tour Andover Controls Corporation" }, { 11, "TAC" }, { 12, "Orion Analysis Corporation" }, { 13, "Teletrol Systems Inc." }, { 14, "Cimetrics Technology" }, { 15, "Cornell University" }, { 16, "United Technologies Carrier" }, { 17, "Honeywell Inc." }, { 18, "Alerton / Honeywell" }, { 19, "TAC AB" }, { 20, "Hewlett-Packard Company" }, { 21, "Dorsette's Inc." }, { 22, "Cerberus AG" }, { 23, "York Controls Group" }, { 24, "Automated Logic Corporation" }, { 25, "CSI Control Systems International" }, { 26, "Phoenix Controls Corporation" }, { 27, "Innovex Technologies, Inc." }, { 28, "KMC Controls, Inc." }, { 29, "Xn Technologies, Inc." }, { 30, "Hyundai Information Technology Co., Ltd." }, { 31, "Tokimec Inc." }, { 32, "Simplex" }, { 33, "North Communications Limited" }, { 34, "Notifier" }, { 35, "Reliable Controls Corporation" }, { 36, "Tridium Inc." }, { 37, "Sierra Monitor Corp." }, { 38, "Silicon Energy" }, { 39, "Kieback & Peter GmbH & Co KG" }, { 40, "Anacon Systems, Inc." }, { 41, "Systems Controls & Instruments, LLC" }, { 42, "Lithonia Lighting" }, { 43, "Micropower Manufacturing" }, { 44, "Matrix Controls" }, { 45, "METALAIRE" }, { 46, "ESS Engineering" }, { 47, "Sphere Systems Pty Ltd." }, { 48, "Walker Technologies Corporation" }, { 49, "H I Solutions, Inc." }, { 50, "MBS GmbH" }, { 51, "SAMSON AG" }, { 52, "Badger Meter Inc." }, { 53, "DAIKIN Industries Ltd." }, { 54, "NARA Controls Inc." }, { 55, "Mammoth Inc." }, { 56, "Liebert Corporation" }, { 57, "SEMCO Incorporated" }, { 58, "Air Monitor Corporation" }, { 59, "TRIATEK, Inc." }, { 60, "NexLight" }, { 61, "Multistack" }, { 62, "TSI Incorporated" }, { 63, "Weather-Rite, Inc." }, { 64, "Dunham-Bush" }, { 65, "Reliance Electric" }, { 66, "LCS Inc." }, { 67, "Regulator Australia PTY Ltd." }, { 68, "Touch-Plate Lighting Controls" }, { 69, "Amann GmbH" }, { 70, "RLE Technologies" }, { 71, "Cardkey Systems" }, { 72, "SECOM Co., Ltd." }, { 73, "ABB Gebaudetechnik AG Bereich NetServ" }, { 74, "KNX Association cvba" }, { 75, "Institute of Electrical Installation Engineers of Japan (IEIEJ)" }, { 76, "Nohmi Bosai, Ltd." }, { 77, "Carel S.p.A." }, { 78, "AirSense Technology, Inc." }, { 79, "Hochiki Corporation" }, { 80, "Fr. Sauter AG" }, { 81, "Matsushita Electric Works, Ltd." }, { 82, "Mitsubishi Electric Corporation, Inazawa Works" }, { 83, "Mitsubishi Heavy Industries, Ltd." }, { 84, "ITT Bell & Gossett" }, { 85, "Yamatake Building Systems Co., Ltd." }, { 86, "The Watt Stopper, Inc." }, { 87, "Aichi Tokei Denki Co., Ltd." }, { 88, "Activation Technologies, LLC" }, { 89, "Saia-Burgess Controls, Ltd." }, { 90, "Hitachi, Ltd." }, { 91, "Novar Corp./Trend Control Systems Ltd." }, { 92, "Mitsubishi Electric Lighting Corporation" }, { 93, "Argus Control Systems, Ltd." }, { 94, "Kyuki Corporation" }, { 95, "Richards-Zeta Building Intelligence, Inc." }, { 96, "Scientech R&D, Inc." }, { 97, "VCI Controls, Inc." }, { 98, "Toshiba Corporation" }, { 99, "Mitsubishi Electric Corporation Air Conditioning & Refrigeration Systems Works" }, { 100, "Custom Mechanical Equipment, LLC" }, { 101, "ClimateMaster" }, { 102, "ICP Panel-Tec, Inc." }, { 103, "D-Tek Controls" }, { 104, "NEC Engineering, Ltd." }, { 105, "PRIVA BV" }, { 106, "Meidensha Corporation" }, { 107, "JCI Systems Integration Services" }, { 108, "Freedom Corporation" }, { 109, "Neuberger Gebaudeautomation GmbH" }, { 110, "Sitronix" }, { 111, "Leviton Manufacturing" }, { 112, "Fujitsu Limited" }, { 113, "Emerson Network Power" }, { 114, "S. A. Armstrong, Ltd." }, { 115, "Visonet AG" }, { 116, "M&M Systems, Inc." }, { 117, "Custom Software Engineering" }, { 118, "Nittan Company, Limited" }, { 119, "Elutions Inc. (Wizcon Systems SAS)" }, { 120, "Pacom Systems Pty., Ltd." }, { 121, "Unico, Inc." }, { 122, "Ebtron, Inc." }, { 123, "Scada Engine" }, { 124, "AC Technology Corporation" }, { 125, "Eagle Technology" }, { 126, "Data Aire, Inc." }, { 127, "ABB, Inc." }, { 128, "Transbit Sp. z o. o." }, { 129, "Toshiba Carrier Corporation" }, { 130, "Shenzhen Junzhi Hi-Tech Co., Ltd." }, { 131, "Tokai Soft" }, { 132, "Lumisys" }, { 133, "Veris Industries" }, { 134, "Centaurus Prime" }, { 135, "Sand Network Systems" }, { 136, "Regulvar, Inc." }, { 137, "Fastek International, Ltd." }, { 138, "PowerCold Comfort Air Solutions, Inc." }, { 139, "I Controls" }, { 140, "Viconics Electronics, Inc." }, { 141, "Yaskawa Electric America, Inc." }, { 142, "Plueth Regelsysteme" }, { 143, "Digitale Mess- und Steuersysteme AG" }, { 144, "Fujitsu General Limited" }, { 145, "Project Engineering S.r.l." }, { 146, "Sanyo Electric Co., Ltd." }, { 147, "Integrated Information Systems, Inc." }, { 148, "Temco Controls, Ltd." }, { 149, "Airtek Technologies, Inc." }, { 150, "Advantech Corporation" }, { 151, "Titan Products, Ltd." }, { 152, "Regel Partners" }, { 153, "National Environmental Product" }, { 154, "Unitec Corporation" }, { 155, "Kanden Engineering Company" }, { 156, "Messner Gebaudetechnik GmbH" }, { 157, "Integrated.CH" }, { 158, "EH Price Limited" }, { 159, "SE-Elektronic GmbH" }, { 160, "Rockwell Automation" }, { 161, "Enflex Corp." }, { 162, "ASI Controls" }, { 163, "SysMik GmbH Dresden" }, { 164, "HSC Regelungstechnik GmbH" }, { 165, "Smart Temp Australia Pty. Ltd." }, { 166, "PCI Lighting Control Systems" }, { 167, "Duksan Mecasys Co., Ltd." }, { 168, "Fuji IT Co., Ltd." }, { 169, "Vacon Plc" }, { 170, "Leader Controls" }, { 171, "Cylon Controls, Ltd." }, { 172, "Compas" }, { 173, "Mitsubishi Electric Building Techno-Service Co., Ltd." }, { 174, "Building Control Integrators" }, { 175, "ITG Worldwide (M) Sdn Bhd" }, { 176, "Lutron Electronics Co., Inc." }, { 177, "Cooper-Atkins Corporation" }, { 178, "LOYTEC Electronics GmbH" }, { 179, "ProLon" }, { 180, "Mega Controls Limited" }, { 181, "Micro Control Systems, Inc." }, { 182, "Kiyon, Inc." }, { 183, "Dust Networks" }, { 184, "Advanced Building Automation Systems" }, { 185, "Hermos AG" }, { 186, "CEZIM" }, { 187, "Softing" }, { 188, "Lynxspring" }, { 189, "Schneider Toshiba Inverter Europe" }, { 190, "Danfoss Drives A/S" }, { 191, "Eaton Corporation" }, { 192, "Matyca S.A." }, { 193, "Botech AB" }, { 194, "Noveo, Inc." }, { 195, "AMEV" }, { 196, "Yokogawa Electric Corporation" }, { 197, "GFR Gesellschaft fur Regelungstechnik" }, { 198, "Exact Logic" }, { 199, "Mass Electronics Pty Ltd dba Innotech Control Systems Australia" }, { 200, "Kandenko Co., Ltd." }, { 201, "DTF, Daten-Technik Fries" }, { 202, "Klimasoft, Ltd." }, { 203, "Toshiba Schneider Inverter Corporation" }, { 204, "Control Applications, Ltd." }, { 205, "KDT Systems Co., Ltd." }, { 206, "Onicon Incorporated" }, { 207, "Automation Displays, Inc." }, { 208, "Control Solutions, Inc." }, { 209, "Remsdaq Limited" }, { 210, "NTT Facilities, Inc." }, { 211, "VIPA GmbH" }, { 212, "TSC21 Association of Japan" }, { 213, "BBP Energie Ltee" }, { 214, "HRW Limited" }, { 215, "Lighting Control & Design, Inc." }, { 216, "Mercy Electronic and Electrical Industries" }, { 217, "Samsung SDS Co., Ltd" }, { 218, "Impact Facility Solutions, Inc." }, { 219, "Aircuity" }, { 220, "Control Techniques, Ltd." }, { 221, "Evolve Control Systems, LLC" }, { 222, "WAGO Kontakttechnik GmbH & Co. KG" }, { 223, "Cerus Industrial" }, { 224, "Chloride Power Protection Company" }, { 225, "Computrols, Inc." }, { 226, "Phoenix Contact GmbH & Co. KG" }, { 227, "Grundfos Management A/S" }, { 228, "Ridder Drive Systems" }, { 229, "Soft Device SDN BHD" }, { 230, "Integrated Control Technology Limited" }, { 231, "AIRxpert Systems, Inc." }, { 232, "Microtrol Limited" }, { 233, "Red Lion Controls" }, { 234, "Digital Electronics Corporation" }, { 235, "Ennovatis GmbH" }, { 236, "Serotonin Software Technologies, Inc." }, { 237, "LS Industrial Systems Co., Ltd." }, { 238, "Square D Company" }, { 239, "S Squared Innovations, Inc." }, { 240, "Aricent Ltd." }, { 241, "EtherMetrics, LLC" }, { 242, "Industrial Control Communications, Inc." }, { 243, "Paragon Controls, Inc." }, { 244, "A. O. Smith Corporation" }, { 245, "Contemporary Control Systems, Inc." }, { 246, "Intesis Software SL" }, { 247, "Ingenieurgesellschaft N. Hartleb mbH" }, { 248, "Heat-Timer Corporation" }, { 249, "Ingrasys Technology, Inc." }, { 250, "Costerm Building Automation" }, { 251, "Wilo AG" }, { 252, "Embedia Technologies Corp." }, { 253, "Technilog" }, { 254, "HR Controls Ltd. & Co. KG" }, { 255, "Lennox International, Inc." }, { 256, "RK-Tec Rauchklappen-Steuerungssysteme GmbH & Co. KG" }, { 257, "Thermomax, Ltd." }, { 258, "ELCON Electronic Control, Ltd." }, { 259, "Larmia Control AB" }, { 260, "BACnet Stack at SourceForge" }, { 261, "G4S Security Services A/S" }, { 262, "Sitek S.p.A." }, { 263, "Cristal Controles" }, { 264, "Regin AB" }, { 265, "Dimension Software, Inc. " }, { 266, "SynapSense Corporation" }, { 267, "Beijing Nantree Electronic Co., Ltd." }, { 268, "Camus Hydronics Ltd." }, { 269, "Kawasaki Heavy Industries, Ltd. " }, { 270, "Critical Environment Technologies" }, { 271, "ILSHIN IBS Co., Ltd." }, { 272, "ELESTA Energy Control AG" }, { 273, "KROPMAN Installatietechniek" }, { 274, "Baldor Electric Company" }, { 275, "INGA mbH" }, { 276, "GE Consumer & Industrial" }, { 277, "Functional Devices, Inc." }, { 278, "ESAC" }, { 279, "M-System Co., Ltd." }, { 280, "Yokota Co., Ltd." }, { 281, "Hitranse Technology Co., LTD" }, { 282, "Federspiel Controls" }, { 283, "Kele, Inc." }, { 284, "Opera Electronics, Inc." }, { 285, "Gentec" }, { 286, "Embedded Science Labs, LLC" }, { 287, "Parker Hannifin Corporation" }, { 288, "MaCaPS International Limited" }, { 289, "Link4 Corporation" }, { 290, "Romutec Steuer-u. Regelsysteme GmbH" }, { 291, "Pribusin, Inc." }, { 292, "Advantage Controls" }, { 293, "Critical Room Control" }, { 294, "LEGRAND" }, { 295, "Tongdy Control Technology Co., Ltd." }, { 296, "ISSARO Integrierte Systemtechnik" }, { 297, "Pro-Dev Industries" }, { 298, "DRI-STEEM" }, { 299, "Creative Electronic GmbH" }, { 300, "Swegon AB" }, { 301, "Jan Brachacek" }, { 302, "Hitachi Appliances, Inc." }, { 303, "Real Time Automation, Inc." }, { 304, "ITEC Hankyu-Hanshin Co." }, { 305, "Cyrus E&M Engineering Co., Ltd." }, { 306, "Racine Federated, Inc." }, { 307, "Verari Systems, Inc." }, { 308, "Elesta GmbH Building Automation" }, { 309, "Securiton" }, { 310, "OSlsoft, Inc." }, { 311, "Hanazeder Electronic GmbH" }, { 312, "Honeywell Security Deutschland, Novar GmbH" }, { 313, "Siemens Energy & Automation, Inc." }, { 314, "ETM Professional Control GmbH" }, { 315, "Meitav-tec, Ltd." }, { 316, "Janitza Electronics GmbH" }, { 317, "MKS Nordhausen" }, { 318, "De Gier Drive Systems B.V." }, { 319, "Cypress Envirosystems" }, { 320, "SMARTron s.r.o." }, { 321, "Verari Systems, Inc." }, { 322, "K-W Electronic Service, Inc." }, { 323, "ALFA-SMART Energy Management" }, { 324, "Telkonet, Inc." }, { 325, "Securiton GmbH" }, { 326, "Cemtrex, Inc." }, { 327, "Performance Technologies, Inc." }, { 328, "Xtralis (Aust) Pty Ltd" }, { 329, "TROX GmbH" }, { 330, "Beijing Hysine Technology Co., Ltd" }, { 331, "RCK Controls, Inc." }, { 332, "ACELIA" }, { 333, "Novar/Honeywell" }, { 334, "The S4 Group, Inc." }, { 335, "Schneider Electric" }, { 336, "LHA Systems" }, { 337, "GHM engineering Group, Inc." }, { 338, "Cllimalux S.A." }, { 339, "VAISALA Oyj" }, { 340, "COMPLEX (Beijing) Technology, Co., LTD." }, { 342, "POWERPEG NSI Limited" }, { 343, "BACnet Interoperability Testing Services, Inc." }, { 344, "Teco a.s." }, { 0, NULL } }; static int proto_bacapp = -1; static int hf_bacapp_type = -1; static int hf_bacapp_pduflags = -1; static int hf_bacapp_SEG = -1; static int hf_bacapp_MOR = -1; static int hf_bacapp_SA = -1; static int hf_bacapp_response_segments = -1; static int hf_bacapp_max_adpu_size = -1; static int hf_bacapp_invoke_id = -1; static int hf_bacapp_objectType = -1; static int hf_bacapp_instanceNumber = -1; static int hf_bacapp_sequence_number = -1; static int hf_bacapp_window_size = -1; static int hf_bacapp_service = -1; static int hf_bacapp_NAK = -1; static int hf_bacapp_SRV = -1; static int hf_BACnetRejectReason = -1; static int hf_BACnetAbortReason = -1; static int hf_BACnetApplicationTagNumber = -1; static int hf_BACnetContextTagNumber = -1; static int hf_BACnetExtendedTagNumber = -1; static int hf_BACnetNamedTag = -1; static int hf_BACnetTagClass = -1; static int hf_BACnetCharacterSet = -1; static int hf_bacapp_tag = -1; static int hf_bacapp_tag_lvt = -1; static int hf_bacapp_tag_value8 = -1; static int hf_bacapp_tag_value16 = -1; static int hf_bacapp_tag_value32 = -1; static int hf_bacapp_tag_ProcessId = -1; static int hf_bacapp_tag_initiatingObjectType = -1; static int hf_bacapp_vpart = -1; static int hf_bacapp_uservice = -1; static int hf_BACnetPropertyIdentifier = -1; static int hf_BACnetVendorIdentifier = -1; static gint ett_bacapp = -1; static gint ett_bacapp_control = -1; static gint ett_bacapp_tag = -1; static gint ett_bacapp_list = -1; static gint ett_bacapp_value = -1; static dissector_handle_t data_handle; static gint32 propertyIdentifier = -1; static gint32 propertyArrayIndex = -1; static guint32 object_type = 4096; static guint8 bacapp_flags = 0; static guint8 bacapp_seq = 0; /* Used when there are ranges of reserved and proprietary enumerations */ static const char* val_to_split_str(guint32 val, guint32 split_val, const value_string *vs, const char *fmt, const char *split_fmt) { if (val < split_val) return val_to_str(val, vs, fmt); else return val_to_str(val, vs, split_fmt); } /* from clause 20.2.1.3.2 Constructed Data */ /* returns true if the extended value is used */ static gboolean tag_is_extended_value(guint8 tag) { return (tag & 0x07) == 5; } static gboolean tag_is_opening(guint8 tag) { return (tag & 0x07) == 6; } static gboolean tag_is_closing(guint8 tag) { return (tag & 0x07) == 7; } /* from clause 20.2.1.1 Class class bit shall be one for context specific tags */ /* returns true if the tag is context specific */ static gboolean tag_is_context_specific(guint8 tag) { return (tag & 0x08) != 0; } static gboolean tag_is_extended_tag_number(guint8 tag) { return ((tag & 0xF0) == 0xF0); } static guint32 object_id_type(guint32 object_identifier) { return ((object_identifier >> 22) & 0x3FF); } static guint32 object_id_instance(guint32 object_identifier) { return (object_identifier & 0x3FFFFF); } static guint fTagNo (tvbuff_t *tvb, guint offset) { return (guint)(tvb_get_guint8(tvb, offset) >> 4); } static gboolean fUnsigned32 (tvbuff_t *tvb, guint offset, guint32 lvt, guint32 *val) { gboolean valid = TRUE; switch (lvt) { case 1: *val = tvb_get_guint8(tvb, offset); break; case 2: *val = tvb_get_ntohs(tvb, offset); break; case 3: *val = tvb_get_ntoh24(tvb, offset); break; case 4: *val = tvb_get_ntohl(tvb, offset); break; default: valid = FALSE; break; } return valid; } static gboolean fUnsigned64 (tvbuff_t *tvb, guint offset, guint32 lvt, guint64 *val) { gboolean valid = FALSE; gint64 value = 0; guint8 data, i; if (lvt && (lvt <= 8)) { valid = TRUE; data = tvb_get_guint8(tvb, offset); for (i = 0; i < lvt; i++) { data = tvb_get_guint8(tvb, offset+i); value = (value << 8) + data; } *val = value; } return valid; } /* BACnet Signed Value uses 2's compliment notation, but with a twist: All signed integers shall be encoded in the smallest number of octets possible. That is, the first octet of any multi-octet encoded value shall not be X'00' if the most significant bit (bit 7) of the second octet is 0, and the first octet shall not be X'FF' if the most significant bit of the second octet is 1. ASHRAE-135-2004-20.2.5 */ static gboolean fSigned64 (tvbuff_t *tvb, guint offset, guint32 lvt, gint64 *val) { gboolean valid = FALSE; gint64 value = 0; guint8 data, i; /* we can only handle 7 bytes for a 64-bit value due to signed-ness */ if (lvt && (lvt <= 7)) { valid = TRUE; data = tvb_get_guint8(tvb, offset); if ((data & 0x80) != 0) value = (-1 << 8) | data; else value = data; for (i = 1; i < lvt; i++) { data = tvb_get_guint8(tvb, offset+i); value = (value << 8) + data; } *val = value; } return valid; } static guint fTagHeaderTree (tvbuff_t *tvb, proto_tree *tree, guint offset, guint8 *tag_no, guint8* tag_info, guint32 *lvt) { guint8 tag; guint8 value; guint tag_len = 1; guint lvt_len = 1; /* used for tree display of lvt */ guint lvt_offset; /* used for tree display of lvt */ proto_item *ti; proto_tree *subtree; lvt_offset = offset; tag = tvb_get_guint8(tvb, offset); *tag_info = 0; *lvt = tag & 0x07; /* To solve the problem of lvt values of 6/7 being indeterminate - it */ /* can mean open/close tag or length of 6/7 after the length is */ /* computed below - store whole tag info, not just context bit. */ if (tag_is_context_specific(tag)) *tag_info = tag & 0x0F; *tag_no = tag >> 4; if (tag_is_extended_tag_number(tag)) { *tag_no = tvb_get_guint8(tvb, offset + tag_len++); } if (tag_is_extended_value(tag)) { /* length is more than 4 Bytes */ lvt_offset += tag_len; value = tvb_get_guint8(tvb, lvt_offset); tag_len++; if (value == 254) { /* length is encoded with 16 Bits */ *lvt = tvb_get_ntohs(tvb, lvt_offset+1); tag_len += 2; lvt_len += 2; } else if (value == 255) { /* length is encoded with 32 Bits */ *lvt = tvb_get_ntohl(tvb, lvt_offset+1); tag_len += 4; lvt_len += 4; } else *lvt = value; } if (tree) { if (tag_is_closing(tag) || tag_is_opening(tag)) ti = proto_tree_add_text(tree, tvb, offset, tag_len, "%s: %u", val_to_str( tag & 0x07, BACnetTagNames, "Unknown (%d)"), *tag_no); else if (tag_is_context_specific(tag)) { ti = proto_tree_add_text(tree, tvb, offset, tag_len, "Context Tag: %u, Length/Value/Type: %u", *tag_no, *lvt); } else ti = proto_tree_add_text(tree, tvb, offset, tag_len, "Application Tag: %s, Length/Value/Type: %u", val_to_str(*tag_no, BACnetApplicationTagNumber, ASHRAE_Reserved_Fmt), *lvt); subtree = proto_item_add_subtree(ti, ett_bacapp_tag); /* details if needed */ proto_tree_add_item(subtree, hf_BACnetTagClass, tvb, offset, 1, FALSE); if (tag_is_extended_tag_number(tag)) { proto_tree_add_uint_format(subtree, hf_BACnetContextTagNumber, tvb, offset, 1, tag, "Extended Tag Number"); proto_tree_add_item(subtree, hf_BACnetExtendedTagNumber, tvb, offset + 1, 1, FALSE); } else { if (tag_is_context_specific(tag)) proto_tree_add_item(subtree, hf_BACnetContextTagNumber, tvb, offset, 1, FALSE); else proto_tree_add_item(subtree, hf_BACnetApplicationTagNumber, tvb, offset, 1, FALSE); } if (tag_is_closing(tag) || tag_is_opening(tag)) proto_tree_add_item(subtree, hf_BACnetNamedTag, tvb, offset, 1, FALSE); else if (tag_is_extended_value(tag)) { proto_tree_add_item(subtree, hf_BACnetNamedTag, tvb, offset, 1, FALSE); proto_tree_add_uint(subtree, hf_bacapp_tag_lvt, tvb, lvt_offset, lvt_len, *lvt); } else proto_tree_add_uint(subtree, hf_bacapp_tag_lvt, tvb, lvt_offset, lvt_len, *lvt); } return tag_len; } static guint fTagHeader (tvbuff_t *tvb, guint offset, guint8 *tag_no, guint8* tag_info, guint32 *lvt) { return fTagHeaderTree (tvb, NULL, offset, tag_no, tag_info, lvt); } static guint fNullTag (tvbuff_t *tvb, proto_tree *tree, guint offset, const gchar *label) { guint8 tag_no, tag_info; guint32 lvt; proto_item *ti; proto_tree *subtree; ti = proto_tree_add_text(tree, tvb, offset, 1, "%sNULL", label); subtree = proto_item_add_subtree(ti, ett_bacapp_tag); fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); return offset + 1; } static guint fBooleanTag (tvbuff_t *tvb, proto_tree *tree, guint offset, const gchar *label) { guint8 tag_no, tag_info; guint32 lvt = 0; guint tag_len; proto_item *ti; proto_tree *subtree; guint bool_len = 1; tag_len = fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (tag_info && lvt == 1) { lvt = tvb_get_guint8(tvb, offset+1); ++bool_len; } ti = proto_tree_add_text(tree, tvb, offset, bool_len, "%s%s", label, lvt == 0 ? "FALSE" : "TRUE"); subtree = proto_item_add_subtree(ti, ett_bacapp_tag); fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); return offset + bool_len; } static guint fUnsignedTag (tvbuff_t *tvb, proto_tree *tree, guint offset, const gchar *label) { guint64 val = 0; guint8 tag_no, tag_info; guint32 lvt; guint tag_len; proto_item *ti; proto_tree *subtree; tag_len = fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); /* only support up to an 8 byte (64-bit) integer */ if (fUnsigned64 (tvb, offset + tag_len, lvt, &val)) ti = proto_tree_add_text(tree, tvb, offset, lvt+tag_len, "%s(Unsigned) %" G_GINT64_MODIFIER "u", label, val); else ti = proto_tree_add_text(tree, tvb, offset, lvt+tag_len, "%s - %u octets (Unsigned)", label, lvt); subtree = proto_item_add_subtree(ti, ett_bacapp_tag); fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); return offset+tag_len+lvt; } /* set split_val to zero when not needed */ static guint fEnumeratedTagSplit (tvbuff_t *tvb, proto_tree *tree, guint offset, const gchar *label, const value_string *vs, guint32 split_val) { guint32 val = 0; guint8 tag_no, tag_info; guint32 lvt; guint tag_len; proto_item *ti; proto_tree *subtree; tag_len = fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); /* only support up to a 4 byte (32-bit) enumeration */ if (fUnsigned32 (tvb, offset+tag_len, lvt, &val)) { if (vs) ti = proto_tree_add_text(tree, tvb, offset, lvt+tag_len, "%s %s", label, val_to_split_str(val, split_val, vs, ASHRAE_Reserved_Fmt,Vendor_Proprietary_Fmt)); else ti =proto_tree_add_text(tree, tvb, offset, lvt+tag_len, "%s %u", label, val); } else { ti = proto_tree_add_text(tree, tvb, offset, lvt+tag_len, "%s - %u octets (enumeration)", label, lvt); } subtree = proto_item_add_subtree(ti, ett_bacapp_tag); fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); return offset+tag_len+lvt; } static guint fEnumeratedTag (tvbuff_t *tvb, proto_tree *tree, guint offset, const gchar *label, const value_string *vs) { return fEnumeratedTagSplit (tvb, tree, offset, label, vs, 0); } static guint fSignedTag (tvbuff_t *tvb, proto_tree *tree, guint offset, const gchar *label) { gint64 val = 0; guint8 tag_no, tag_info; guint32 lvt; guint tag_len; proto_item *ti; proto_tree *subtree; tag_len = fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (fSigned64 (tvb, offset + tag_len, lvt, &val)) ti = proto_tree_add_text(tree, tvb, offset, lvt+tag_len, "%s(Signed) %" G_GINT64_MODIFIER "d", label, val); else ti = proto_tree_add_text(tree, tvb, offset, lvt+tag_len, "%s - %u octets (Signed)", label, lvt); subtree = proto_item_add_subtree(ti, ett_bacapp_tag); fTagHeaderTree(tvb, subtree, offset, &tag_no, &tag_info, &lvt); return offset+tag_len+lvt; } static guint fRealTag (tvbuff_t *tvb, proto_tree *tree, guint offset, const gchar *label) { guint8 tag_no, tag_info; guint32 lvt; guint tag_len; gfloat f_val; proto_item *ti; proto_tree *subtree; tag_len = fTagHeader(tvb, offset, &tag_no, &tag_info, &lvt); f_val = tvb_get_ntohieee_float(tvb, offset+tag_len); ti = proto_tree_add_text(tree, tvb, offset, 4+tag_len, "%s%f (Real)", label, f_val); subtree = proto_item_add_subtree(ti, ett_bacapp_tag); fTagHeaderTree(tvb, subtree, offset, &tag_no, &tag_info, &lvt); return offset+tag_len+4; } static guint fDoubleTag (tvbuff_t *tvb, proto_tree *tree, guint offset, const gchar *label) { guint8 tag_no, tag_info; guint32 lvt; guint tag_len; gdouble d_val; proto_item *ti; proto_tree *subtree; tag_len = fTagHeader(tvb, offset, &tag_no, &tag_info, &lvt); d_val = tvb_get_ntohieee_double(tvb, offset+tag_len); ti = proto_tree_add_text(tree, tvb, offset, 8+tag_len, "%s%lf (Double)", label, d_val); subtree = proto_item_add_subtree(ti, ett_bacapp_tag); fTagHeaderTree(tvb, subtree, offset, &tag_no, &tag_info, &lvt); return offset+tag_len+8; } static guint fProcessId (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint32 val = 0, lvt; guint8 tag_no, tag_info; proto_item *ti; proto_tree *subtree; guint tag_len; tag_len = fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (fUnsigned32 (tvb, offset+tag_len, lvt, &val)) ti = proto_tree_add_uint(tree, hf_bacapp_tag_ProcessId, tvb, offset, lvt+tag_len, val); else ti = proto_tree_add_text(tree, tvb, offset, lvt+tag_len, "Process Identifier - %u octets (Signed)", lvt); subtree = proto_item_add_subtree(ti, ett_bacapp_tag); offset += tag_len + lvt; return offset; } static guint fTimeSpan (tvbuff_t *tvb, proto_tree *tree, guint offset, const gchar *label) { guint32 val = 0, lvt; guint8 tag_no, tag_info; proto_item *ti; proto_tree *subtree; guint tag_len; tag_len = fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (fUnsigned32 (tvb, offset+tag_len, lvt, &val)) ti = proto_tree_add_text(tree, tvb, offset, lvt+tag_len, "%s (hh.mm.ss): %d.%02d.%02d%s", label, (val / 3600), ((val % 3600) / 60), (val % 60), val == 0 ? " (indefinite)" : ""); else ti = proto_tree_add_text(tree, tvb, offset, lvt+tag_len, "%s - %u octets (Signed)", label, lvt); subtree = proto_item_add_subtree(ti, ett_bacapp_tag); fTagHeaderTree(tvb, subtree, offset, &tag_no, &tag_info, &lvt); return offset+tag_len+lvt; } static guint fWeekNDay (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint32 month, weekOfMonth, dayOfWeek; guint8 tag_no, tag_info; guint32 lvt; guint tag_len; proto_item *ti; proto_tree *subtree; tag_len = fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); month = tvb_get_guint8(tvb, offset+tag_len); weekOfMonth = tvb_get_guint8(tvb, offset+tag_len+1); dayOfWeek = tvb_get_guint8(tvb, offset+tag_len+2); ti = proto_tree_add_text(tree, tvb, offset, lvt+tag_len, "%s %s, %s", val_to_str(month, months, "month (%d) not found"), val_to_str(weekOfMonth, weekofmonth, "week of month (%d) not found"), val_to_str(dayOfWeek, day_of_week, "day of week (%d) not found")); subtree = proto_item_add_subtree(ti, ett_bacapp_tag); fTagHeaderTree(tvb, subtree, offset, &tag_no, &tag_info, &lvt); return offset+tag_len+lvt; } static guint fDate (tvbuff_t *tvb, proto_tree *tree, guint offset, const gchar *label) { guint32 year, month, day, weekday; guint8 tag_no, tag_info; guint32 lvt; guint tag_len; proto_item *ti; proto_tree *subtree; tag_len = fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); year = tvb_get_guint8(tvb, offset+tag_len); month = tvb_get_guint8(tvb, offset+tag_len+1); day = tvb_get_guint8(tvb, offset+tag_len+2); weekday = tvb_get_guint8(tvb, offset+tag_len+3); if ((year == 255) && (day == 255) && (month == 255) && (weekday == 255)) { ti = proto_tree_add_text(tree, tvb, offset, lvt+tag_len, "%sany", label); } else if (year != 255) { year += 1900; ti = proto_tree_add_text(tree, tvb, offset, lvt+tag_len, "%s%s %d, %d, (Day of Week = %s)", label, val_to_str(month, months, "month (%d) not found"), day, year, val_to_str(weekday, day_of_week, "(%d) not found")); } else { ti = proto_tree_add_text(tree, tvb, offset, lvt+tag_len, "%s%s %d, any year, (Day of Week = %s)", label, val_to_str(month, months, "month (%d) not found"), day, val_to_str(weekday, day_of_week, "(%d) not found")); } subtree = proto_item_add_subtree(ti, ett_bacapp_tag); fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); return offset+tag_len+lvt; } static guint fTime (tvbuff_t *tvb, proto_tree *tree, guint offset, const gchar *label) { guint32 hour, minute, second, msec, lvt; guint8 tag_no, tag_info; guint tag_len; proto_item *ti; proto_tree *subtree; tag_len = fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); hour = tvb_get_guint8(tvb, offset+tag_len); minute = tvb_get_guint8(tvb, offset+tag_len+1); second = tvb_get_guint8(tvb, offset+tag_len+2); msec = tvb_get_guint8(tvb, offset+tag_len+3); if ((hour == 255) && (minute == 255) && (second == 255) && (msec == 255)) ti = proto_tree_add_text(tree, tvb, offset, lvt+tag_len, "%sany", label); else ti = proto_tree_add_text(tree, tvb, offset, lvt+tag_len, "%s%d:%02d:%02d.%d %s = %02d:%02d:%02d.%d", label, hour > 12 ? hour - 12 : hour, minute, second, msec, hour >= 12 ? "P.M." : "A.M.", hour, minute, second, msec); subtree = proto_item_add_subtree(ti, ett_bacapp_tag); fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); return offset+tag_len+lvt; } static guint fDateTime (tvbuff_t *tvb, proto_tree *tree, guint offset, const gchar *label) { proto_tree *subtree = tree; proto_item *tt; if (label != NULL) { tt = proto_tree_add_text (subtree, tvb, offset, 1, "%s", label); subtree = proto_item_add_subtree(tt, ett_bacapp_value); } offset = fDate (tvb,subtree,offset,"Date: "); return fTime (tvb,subtree,offset,"Time: "); } static guint fTimeValue (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; guint8 tag_no, tag_info; guint32 lvt; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (tag_is_closing(tag_info)) { /* closing Tag, but not for me */ return offset; } offset = fTime (tvb,tree,offset,"Time: "); offset = fApplicationTypes(tvb, tree, offset, "Value: "); } return offset; } static guint fCalendaryEntry (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint8 tag_no, tag_info; guint32 lvt; switch (fTagNo(tvb, offset)) { case 0: /* Date */ offset = fDate (tvb, tree, offset, "Date: "); break; case 1: /* dateRange */ offset += fTagHeaderTree(tvb, tree, offset, &tag_no, &tag_info, &lvt); offset = fDateRange (tvb, tree, offset); offset += fTagHeaderTree(tvb, tree, offset, &tag_no, &tag_info, &lvt); break; case 2: /* BACnetWeekNDay */ offset = fWeekNDay (tvb, tree, offset); break; default: return offset; } return offset; } static guint fTimeStamp (tvbuff_t *tvb, proto_tree *tree, guint offset, const gchar *label) { guint8 tag_no = 0, tag_info = 0; guint32 lvt = 0; if (tvb_length_remaining(tvb, offset) > 0) { /* don't loop, it's a CHOICE */ switch (fTagNo(tvb, offset)) { case 0: /* time */ offset = fTime (tvb, tree, offset, label?label:"timestamp: "); break; case 1: /* sequenceNumber */ offset = fUnsignedTag (tvb, tree, offset, label?label:"sequence Number: "); break; case 2: /* dateTime */ offset += fTagHeaderTree (tvb, tree, offset, &tag_no, &tag_info, &lvt); offset = fDateTime (tvb, tree, offset, label?label:"timestamp: "); offset += fTagHeaderTree (tvb, tree, offset, &tag_no, &tag_info, &lvt); break; default: return offset; } } return offset; } #if 0 static guint fSetpointReference (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; switch (fTagNo(tvb, offset)) { case 0: /* setpointReference */ offset = fBACnetObjectPropertyReference (tvb,tree,offset); break; default: return offset; break; } } return offset; } #endif #if 0 static guint fClientCOV (tvbuff_t *tvb, proto_tree *tree, guint offset) { if (tvb_length_remaining(tvb, offset) > 0) { offset = fApplicationTypes(tvb,tree,offset, "increment: "); } return offset; } static const value_string BACnetDaysOfWeek [] = { {0,"Monday" }, {1,"Tuesday" }, {2,"Wednesday" }, {3,"Thursday" }, {4,"Friday" }, {5,"Saturday" }, {6,"Sunday" }, {0,NULL } }; static guint fDestination (tvbuff_t *tvb, proto_tree *tree, guint offset) { if (tvb_length_remaining(tvb, offset) > 0) { offset = fApplicationTypesEnumerated(tvb,tree,offset, "valid Days: ", BACnetDaysOfWeek); offset = fTime (tvb,tree,offset,"from time: "); offset = fTime (tvb,tree,offset,"to time: "); offset = fRecipient (tvb,tree,offset); offset = fProcessId (tvb,tree,offset); offset = fApplicationTypes (tvb,tree,offset, "issue confirmed notifications: "); offset = fBitStringTagVS (tvb,tree,offset, "transitions: ", BACnetEventTransitionBits); } return offset; } #endif static guint fOctetString (tvbuff_t *tvb, proto_tree *tree, guint offset, const gchar *label, guint32 lvt) { gchar *tmp; guint start = offset; guint8 tag_no, tag_info; proto_tree* subtree = tree; proto_item* ti = 0; offset += fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (lvt > 0) { tmp = tvb_bytes_to_str(tvb, offset, lvt); ti = proto_tree_add_text(tree, tvb, offset, lvt, "%s %s", label, tmp); offset += lvt; } if (ti) subtree = proto_item_add_subtree(ti, ett_bacapp_tag); fTagHeaderTree(tvb, subtree, start, &tag_no, &tag_info, &lvt); return offset; } static guint fAddress (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint8 tag_no, tag_info; guint32 lvt; guint offs; offset = fUnsignedTag (tvb, tree, offset, "network-number"); offs = fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (lvt == 0) { proto_tree_add_text(tree, tvb, offset, offs, "mac-address: broadcast"); offset += offs; } else offset = fOctetString (tvb, tree, offset, "mac-address: ", lvt); return offset; } static guint fSessionKey (tvbuff_t *tvb, proto_tree *tree, guint offset) { offset = fOctetString (tvb,tree,offset,"session key: ", 8); return fAddress (tvb,tree,offset); } static guint fObjectIdentifier (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint8 tag_no, tag_info; guint32 lvt; guint tag_length; proto_item *ti; proto_tree *subtree; guint32 object_id; tag_length = fTagHeader(tvb, offset, &tag_no, &tag_info, &lvt); object_id = tvb_get_ntohl(tvb,offset+tag_length); object_type = object_id_type(object_id); ti = proto_tree_add_text(tree, tvb, offset, tag_length + 4, "ObjectIdentifier: %s, %u", val_to_split_str(object_type, 128, BACnetObjectType, ASHRAE_Reserved_Fmt, Vendor_Proprietary_Fmt), object_id_instance(object_id)); /* here are the details of how we arrived at the above text */ subtree = proto_item_add_subtree(ti, ett_bacapp_tag); fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); offset += tag_length; proto_tree_add_item(subtree, hf_bacapp_objectType, tvb, offset, 4, FALSE); proto_tree_add_item(subtree, hf_bacapp_instanceNumber, tvb, offset, 4, FALSE); offset += 4; return offset; } static guint fRecipient (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint8 tag_no, tag_info; guint32 lvt; fTagHeader(tvb, offset, &tag_no, &tag_info, &lvt); if (tag_no < 2) { if (tag_no == 0) { /* device */ offset = fObjectIdentifier (tvb, tree, offset); } else { /* address */ offset += fTagHeaderTree (tvb, tree, offset, &tag_no, &tag_info, &lvt); offset = fAddress (tvb, tree, offset); offset += fTagHeaderTree (tvb, tree, offset, &tag_no, &tag_info, &lvt); } } return offset; } static guint fRecipientProcess (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; guint8 tag_no, tag_info; guint32 lvt; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; switch (fTagNo(tvb, offset)) { case 0: /* recipient */ offset += fTagHeaderTree (tvb, tree, offset, &tag_no, &tag_info, &lvt); offset = fRecipient (tvb, tree, offset); offset += fTagHeaderTree (tvb, tree, offset, &tag_no, &tag_info, &lvt); break; case 1: /* processId */ offset = fProcessId (tvb, tree, offset); lastoffset = offset; break; default: break; } } return offset; } static guint fAddressBinding (tvbuff_t *tvb, proto_tree *tree, guint offset) { offset = fObjectIdentifier (tvb, tree, offset); return fAddress (tvb, tree, offset); } static guint fActionCommand (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; guint8 tag_no, tag_info; guint32 lvt; proto_tree *subtree = tree; proto_item *tt; /* set the optional global properties to indicate not-used */ propertyArrayIndex = -1; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (tag_is_closing(tag_info)) { offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); subtree = tree; continue; } switch (tag_no) { case 0: /* deviceIdentifier */ offset = fObjectIdentifier (tvb, subtree, offset); break; case 1: /* objectIdentifier */ offset = fObjectIdentifier (tvb, subtree, offset); break; case 2: /* propertyIdentifier */ offset = fPropertyIdentifier (tvb, subtree, offset); break; case 3: /* propertyArrayIndex */ offset = fPropertyArrayIndex (tvb, subtree, offset); break; case 4: /* propertyValue */ if (tag_is_opening(tag_info)) { tt = proto_tree_add_text(subtree, tvb, offset, 1, "propertyValue"); subtree = proto_item_add_subtree(tt, ett_bacapp_value); offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); offset = fAbstractSyntaxNType (tvb, subtree, offset); break; } FAULT; break; case 5: /* priority */ offset = fUnsignedTag (tvb,subtree,offset,"Priority: "); break; case 6: /* postDelay */ offset = fUnsignedTag (tvb,subtree,offset,"Post Delay: "); break; case 7: /* quitOnFailure */ offset = fBooleanTag(tvb, subtree, offset, "Quit On Failure: "); break; case 8: /* writeSuccessful */ offset = fBooleanTag(tvb, subtree, offset, "Write Successful: "); break; default: return offset; } } return offset; } static guint fActionList (tvbuff_t *tvb, proto_tree *tree, guint offset) { return fActionCommand (tvb,tree,offset); } static guint fPropertyIdentifier (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint8 tag_no, tag_info; guint32 lvt; guint tag_len; proto_item *ti; proto_tree *subtree; const gchar *label = "Property Identifier"; propertyIdentifier = 0; /* global Variable */ tag_len = fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); /* can we decode this value? */ if (fUnsigned32 (tvb, offset+tag_len, lvt, (guint32 *)&propertyIdentifier)) { ti = proto_tree_add_text(tree, tvb, offset, lvt+tag_len, "%s: %s (%u)", label, val_to_split_str(propertyIdentifier, 512, BACnetPropertyIdentifier, ASHRAE_Reserved_Fmt, Vendor_Proprietary_Fmt), propertyIdentifier); } else { /* property identifiers cannot be larger than 22-bits */ return offset; } subtree = proto_item_add_subtree(ti, ett_bacapp_tag); fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); proto_tree_add_item(subtree, hf_BACnetPropertyIdentifier, tvb, offset+tag_len, lvt, FALSE); return offset+tag_len+lvt; } static guint fPropertyArrayIndex (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint8 tag_no, tag_info; guint32 lvt; guint tag_len; proto_item *ti; proto_tree *subtree; tag_len = fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (fUnsigned32 (tvb, offset + tag_len, lvt, (guint32 *)&propertyArrayIndex)) ti = proto_tree_add_text(tree, tvb, offset, lvt+tag_len, "property Array Index (Unsigned) %u", propertyArrayIndex); else ti = proto_tree_add_text(tree, tvb, offset, lvt+tag_len, "property Array Index - %u octets (Unsigned)", lvt); subtree = proto_item_add_subtree(ti, ett_bacapp_tag); fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); return offset+tag_len+lvt; } static guint fCharacterString (tvbuff_t *tvb, proto_tree *tree, guint offset, const gchar *label) { guint8 tag_no, tag_info, character_set; guint32 lvt, l; size_t inbytesleft, outbytesleft = 512; guint offs, extra = 1; guint8 *str_val; guint8 bf_arr[512], *out = &bf_arr[0]; proto_item *ti; proto_tree *subtree; guint start = offset; if (tvb_length_remaining(tvb, offset) > 0) { offs = fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); character_set = tvb_get_guint8(tvb, offset+offs); /* Account for code page if DBCS */ if (character_set == 1) { extra = 3; } offset += (offs+extra); lvt -= (extra); do { l = inbytesleft = min(lvt, 255); /* * XXX - are we guaranteed that these encoding * names correspond, on *all* platforms with * iconv(), to the encodings we want? * If not (and perhaps even if so), we should * perhaps have our own iconv() implementation, * with a different name, so that we control the * encodings it supports and the names of those * encodings. * * We should also handle that in the general * string handling code, rather than making it * specific to the BACAPP dissector, as many * other dissectors need to handle various * character encodings. */ str_val = tvb_get_ephemeral_string(tvb, offset, l); /** this decoding may be not correct for multi-byte characters, Lka */ switch (character_set) { case ANSI_X34: fConvertXXXtoUTF8(str_val, &inbytesleft, out, &outbytesleft, "ANSI_X3.4"); break; case IBM_MS_DBCS: out = str_val; break; case JIS_C_6226: out = str_val; break; case ISO_10646_UCS4: fConvertXXXtoUTF8(str_val, &inbytesleft, out, &outbytesleft, "UCS-4BE"); break; case ISO_10646_UCS2: fConvertXXXtoUTF8(str_val, &inbytesleft, out, &outbytesleft, "UCS-2BE"); break; case ISO_18859_1: fConvertXXXtoUTF8(str_val, &inbytesleft, out, &outbytesleft, "ISO8859-1"); break; default: out = str_val; break; } ti = proto_tree_add_text(tree, tvb, offset, l, "%s'%s'", label, out); lvt-=l; offset+=l; } while (lvt > 0); subtree = proto_item_add_subtree(ti, ett_bacapp_tag); fTagHeaderTree (tvb, subtree, start, &tag_no, &tag_info, &lvt); proto_tree_add_item(subtree, hf_BACnetCharacterSet, tvb, start+offs, 1, FALSE); if (character_set == 1) { proto_tree_add_text(subtree, tvb, start+offs+1, 2, "Code Page: %d", tvb_get_ntohs(tvb, start+offs+1)); } } return offset; } static guint fBitStringTagVS (tvbuff_t *tvb, proto_tree *tree, guint offset, const gchar *label, const value_string *src) { guint8 tag_no, tag_info, tmp; gint j, unused, skip; guint start = offset; guint offs; guint32 lvt, i, numberOfBytes; guint8 bf_arr[256]; proto_tree* subtree = tree; proto_item* ti = 0; offs = fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); numberOfBytes = lvt-1; /* Ignore byte for unused bit count */ offset+=offs; unused = tvb_get_guint8(tvb, offset); /* get the unused Bits */ ti = proto_tree_add_text(tree, tvb, start, offs+lvt, "%s(Bit String)", label); if (ti) { subtree = proto_item_add_subtree(ti, ett_bacapp_tag); } fTagHeaderTree(tvb, subtree, start, &tag_no, &tag_info, &lvt); proto_tree_add_text(subtree, tvb, offset, 1, "Unused bits: %u", unused); skip = 0; for (i = 0; i < numberOfBytes; i++) { tmp = tvb_get_guint8(tvb, (offset)+i+1); if (i == numberOfBytes-1) { skip = unused; } for (j = 0; j < 8-skip; j++) { if (src != NULL) { if (tmp & (1 << (7 - j))) proto_tree_add_text(subtree, tvb, offset+i+1, 1, "%s = TRUE", val_to_str((guint) (i*8 +j), src, ASHRAE_Reserved_Fmt)); else proto_tree_add_text(subtree, tvb, offset+i+1, 1, "%s = FALSE", val_to_str((guint) (i*8 +j), src, ASHRAE_Reserved_Fmt)); } else { bf_arr[min(255,(i*8)+j)] = tmp & (1 << (7 - j)) ? '1' : '0'; } } } if (src == NULL) { bf_arr[min(255,numberOfBytes*8-unused)] = 0; proto_tree_add_text(subtree, tvb, offset, lvt, "B'%s'", bf_arr); } offset+=lvt; return offset; } static guint fBitStringTag (tvbuff_t *tvb, proto_tree *tree, guint offset, const gchar *label) { return fBitStringTagVS (tvb, tree, offset, label, NULL); } /* handles generic application types, as well as enumerated and enumerations with reserved and proprietarty ranges (split) */ static guint fApplicationTypesEnumeratedSplit (tvbuff_t *tvb, proto_tree *tree, guint offset, const gchar *label, const value_string *src, guint32 split_val) { guint8 tag_no, tag_info; guint32 lvt; guint tag_len; if (tvb_length_remaining(tvb, offset) > 0) { tag_len = fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (!tag_is_context_specific(tag_info)) { switch (tag_no) { case 0: /** NULL 20.2.2 */ offset = fNullTag(tvb, tree, offset, label); break; case 1: /** BOOLEAN 20.2.3 */ offset = fBooleanTag(tvb, tree, offset, label); break; case 2: /** Unsigned Integer 20.2.4 */ offset = fUnsignedTag(tvb, tree, offset, label); break; case 3: /** Signed Integer 20.2.5 */ offset = fSignedTag(tvb, tree, offset, label); break; case 4: /** Real 20.2.6 */ offset = fRealTag(tvb, tree, offset, label); break; case 5: /** Double 20.2.7 */ offset = fDoubleTag(tvb, tree, offset, label); break; case 6: /** Octet String 20.2.8 */ offset = fOctetString (tvb, tree, offset, label, lvt); break; case 7: /** Character String 20.2.9 */ offset = fCharacterString (tvb,tree,offset,label); break; case 8: /** Bit String 20.2.10 */ offset = fBitStringTagVS (tvb, tree, offset, label, src); break; case 9: /** Enumerated 20.2.11 */ offset = fEnumeratedTagSplit (tvb, tree, offset, label, src, split_val); break; case 10: /** Date 20.2.12 */ offset = fDate (tvb, tree, offset, label); break; case 11: /** Time 20.2.13 */ offset = fTime (tvb, tree, offset, label); break; case 12: /** BACnetObjectIdentifier 20.2.14 */ offset = fObjectIdentifier (tvb, tree, offset); break; case 13: /* reserved for ASHRAE */ case 14: case 15: proto_tree_add_text(tree, tvb, offset, lvt+tag_len, "%s'reserved for ASHRAE'", label); offset+=lvt+tag_len; break; default: break; } } } return offset; } static guint fShedLevel (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; switch (fTagNo(tvb,offset)) { case 0: /* percent */ offset = fUnsignedTag (tvb, tree, offset, "shed percent: "); break; case 1: /* level */ offset = fUnsignedTag (tvb, tree, offset, "shed level: "); break; case 2: /* amount */ offset = fRealTag(tvb, tree, offset, "shed amount: "); break; default: return offset; } } return offset; } static guint fApplicationTypesEnumerated (tvbuff_t *tvb, proto_tree *tree, guint offset, const gchar *label, const value_string *vs) { return fApplicationTypesEnumeratedSplit(tvb, tree, offset, label, vs, 0); } static guint fApplicationTypes (tvbuff_t *tvb, proto_tree *tree, guint offset, const gchar *label) { return fApplicationTypesEnumeratedSplit(tvb, tree, offset, label, NULL, 0); } static guint fContextTaggedValue(tvbuff_t *tvb, proto_tree *tree, guint offset, const gchar *label) { guint8 tag_no, tag_info; guint32 lvt; guint tag_len; proto_item *ti; proto_tree *subtree; gint tvb_len; (void)label; tag_len = fTagHeader(tvb, offset, &tag_no, &tag_info, &lvt); /* cap the the suggested length in case of bad data */ tvb_len = tvb_length_remaining(tvb, offset+tag_len); if ((tvb_len >= 0) && ((guint32)tvb_len < lvt)) { lvt = tvb_len; } ti = proto_tree_add_text(tree, tvb, offset+tag_len, lvt, "Context Value (as %u DATA octets)", lvt); subtree = proto_item_add_subtree(ti, ett_bacapp_tag); fTagHeaderTree(tvb, subtree, offset, &tag_no, &tag_info, &lvt); return offset + tag_len + lvt; } static guint fAbstractSyntaxNType (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint8 tag_no, tag_info; guint32 lvt; guint lastoffset = 0, depth = 0; char ar[256]; if (propertyIdentifier >= 0) { g_snprintf (ar, sizeof(ar), "%s: ", val_to_split_str(propertyIdentifier, 512, BACnetPropertyIdentifier, ASHRAE_Reserved_Fmt, Vendor_Proprietary_Fmt)); } else { g_snprintf (ar, sizeof(ar), "Abstract Type: "); } while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (tag_is_closing(tag_info)) { /* closing tag, but not for me */ if (depth <= 0) return offset; } /* Application Tags */ switch (propertyIdentifier) { case 2: /* BACnetActionList */ offset = fActionList (tvb,tree,offset); break; case 30: /* BACnetAddressBinding */ offset = fAddressBinding (tvb,tree,offset); break; case 55: /* list-of-session-keys */ fSessionKey (tvb, tree, offset); break; case 79: /* object-type */ case 96: /* protocol-object-types-supported */ offset = fApplicationTypesEnumeratedSplit (tvb, tree, offset, ar, BACnetObjectType, 128); break; case 97: /* Protocol-Services-Supported */ offset = fApplicationTypesEnumerated (tvb, tree, offset, ar, BACnetServicesSupported); break; case 107: /* segmentation-supported */ offset = fApplicationTypesEnumerated (tvb, tree, offset, ar, BACnetSegmentation); break; case 111: /* Status-Flags */ offset = fApplicationTypesEnumerated (tvb, tree, offset, ar, BACnetStatusFlags); break; case 112: /* System-Status */ offset = fApplicationTypesEnumerated (tvb, tree, offset, ar, BACnetDeviceStatus); break; case 117: /* units */ offset = fApplicationTypesEnumerated (tvb, tree, offset, ar, BACnetEngineeringUnits); break; case 87: /* priority-array -- accessed as a BACnetARRAY */ if (propertyArrayIndex == 0) { /* BACnetARRAY index 0 refers to the length of the array, not the elements of the array */ offset = fApplicationTypes (tvb, tree, offset, ar); } else { offset = fPriorityArray (tvb, tree, offset); } break; case 38: /* exception-schedule */ if (object_type < 128) { offset = fSpecialEvent (tvb,tree,offset); } break; case 123: /* weekly-schedule -- accessed as a BACnetARRAY */ if (object_type < 128) { if (propertyArrayIndex == 0) { /* BACnetARRAY index 0 refers to the length of the array, not the elements of the array */ offset = fApplicationTypes (tvb, tree, offset, ar); } else { offset = fWeeklySchedule (tvb,tree,offset); } } break; case 159: /* member-of */ case 165: /* zone-members */ offset = fDeviceObjectReference (tvb, tree, offset); break; case 212: /* actual-shed-level */ case 214: /* expected-shed-level */ case 218: /* requested-shed-level */ offset = fShedLevel (tvb, tree, offset); break; default: if (tag_info) { if (tag_is_opening(tag_info)) { ++depth; offset += fTagHeaderTree(tvb, tree, offset, &tag_no, &tag_info, &lvt); } else if (tag_is_closing(tag_info)) { --depth; offset += fTagHeaderTree(tvb, tree, offset, &tag_no, &tag_info, &lvt); } else { offset = fContextTaggedValue(tvb, tree, offset, ar); } } else { offset = fApplicationTypes (tvb, tree, offset, ar); } break; } } return offset; } static guint fPropertyValue (tvbuff_t *tvb, proto_tree *tree, guint offset, guint8 tagoffset) { guint lastoffset = offset; proto_item *tt; proto_tree *subtree; guint8 tag_no, tag_info; guint32 lvt; offset = fPropertyReference(tvb, tree, offset, tagoffset, 0); if (offset > lastoffset) { fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (tag_no == tagoffset+2) { /* Value - might not be present in ReadAccessResult */ if (tag_is_opening(tag_info)) { tt = proto_tree_add_text(tree, tvb, offset, 1, "propertyValue"); subtree = proto_item_add_subtree(tt, ett_bacapp_value); offset += fTagHeaderTree(tvb, subtree, offset, &tag_no, &tag_info, &lvt); offset = fAbstractSyntaxNType (tvb, subtree, offset); offset += fTagHeaderTree(tvb, subtree, offset, &tag_no, &tag_info, &lvt); } } } return offset; } static guint fBACnetPropertyValue (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; guint8 tag_no, tag_info; guint32 lvt; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; offset = fPropertyValue(tvb, tree, offset, 0); if (offset > lastoffset) { /* detect optional priority by looking to see if the next tag is context tag number 3 */ fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (tag_is_context_specific(tag_info) && (tag_no == 3)) offset = fUnsignedTag (tvb,tree,offset,"Priority: "); } } return offset; } static guint fSubscribeCOVPropertyRequest(tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; guint8 tag_no, tag_info; guint32 lvt; proto_tree *subtree = tree; proto_item *tt; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (tag_is_closing(tag_info)) { offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); subtree = tree; continue; } switch (tag_no) { case 0: /* ProcessId */ offset = fUnsignedTag (tvb, tree, offset, "subscriber Process Id: "); break; case 1: /* monitored ObjectId */ offset = fObjectIdentifier (tvb, tree, offset); break; case 2: /* issueConfirmedNotifications */ offset = fBooleanTag (tvb, tree, offset, "issue Confirmed Notifications: "); break; case 3: /* life time */ offset = fTimeSpan (tvb,tree,offset,"life time"); break; case 4: /* monitoredPropertyIdentifier */ if (tag_is_opening(tag_info)) { tt = proto_tree_add_text(subtree, tvb, offset, 1, "monitoredPropertyIdentifier"); if (tt) { subtree = proto_item_add_subtree(tt, ett_bacapp_value); } offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); offset = fBACnetPropertyReference (tvb, subtree, offset, 1); break; } FAULT; break; case 5: /* covIncrement */ offset = fRealTag (tvb, tree, offset, "COV Increment: "); break; default: return offset; } } return offset; } static guint fSubscribeCOVRequest(tvbuff_t *tvb, proto_tree *tree, guint offset) { return fSubscribeCOVPropertyRequest(tvb, tree, offset); } static guint fWhoHas (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; switch (fTagNo(tvb, offset)) { case 0: /* deviceInstanceLowLimit */ offset = fUnsignedTag (tvb, tree, offset, "device Instance Low Limit: "); break; case 1: /* deviceInstanceHighLimit */ offset = fUnsignedTag (tvb, tree, offset, "device Instance High Limit: "); break; case 2: /* BACnetObjectId */ offset = fObjectIdentifier (tvb, tree, offset); break; case 3: /* messageText */ offset = fCharacterString (tvb,tree,offset, "Object Name: "); break; default: return offset; } } return offset; } static guint fDailySchedule (tvbuff_t *tvb, proto_tree *subtree, guint offset) { guint lastoffset = 0; guint8 tag_no, tag_info; guint32 lvt; fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (tag_is_opening(tag_info) && tag_no == 0) { offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); /* opening context tag 0 */ while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (tag_is_closing(tag_info)) { /* should be closing context tag 0 */ offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); return offset; } offset = fTimeValue (tvb, subtree, offset); } } else if (tag_no == 0 && lvt == 0) { /* not sure null (empty array element) is legal */ offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); } return offset; } static guint fWeeklySchedule (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; guint8 tag_no, tag_info; guint32 lvt; guint i = 1; /* day of week array index */ proto_tree *subtree = tree; proto_item *tt; if (propertyArrayIndex > 0) { /* BACnetARRAY index 0 refers to the length of the array, not the elements of the array. BACnetARRAY index -1 is our internal flag that the optional index was not used. BACnetARRAY refers to this as all elements of the array. If the optional index is specified for a BACnetARRAY, then that specific array element is referenced. */ i = propertyArrayIndex; } while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (tag_is_closing(tag_info)) { return offset; /* outer encoding will print out closing tag */ } tt = proto_tree_add_text(tree, tvb, offset, 0, "%s", val_to_str(i++, day_of_week, "day of week (%d) not found")); subtree = proto_item_add_subtree(tt, ett_bacapp_value); offset = fDailySchedule (tvb,subtree,offset); } return offset; } static guint fUTCTimeSynchronizationRequest (tvbuff_t *tvb, proto_tree *tree, guint offset) { if (tvb_length_remaining(tvb, offset) <= 0) return offset; return fDateTime (tvb, tree, offset, "UTC-Time: "); } static guint fTimeSynchronizationRequest (tvbuff_t *tvb, proto_tree *tree, guint offset) { if (tvb_length_remaining(tvb, offset) <= 0) return offset; return fDateTime (tvb, tree, offset, NULL); } static guint fDateRange (tvbuff_t *tvb, proto_tree *tree, guint offset) { if (tvb_length_remaining(tvb, offset) <= 0) return offset; offset = fDate (tvb,tree,offset,"Start Date: "); return fDate (tvb, tree, offset, "End Date: "); } static guint fVendorIdentifier (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint32 val = 0; guint8 tag_no, tag_info; guint32 lvt; guint tag_len; proto_item *ti; proto_tree *subtree; const gchar *label = "Vendor ID"; tag_len = fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (fUnsigned32 (tvb, offset + tag_len, lvt, &val)) ti = proto_tree_add_text(tree, tvb, offset, lvt+tag_len, "%s: %s (%u)", label, val_to_str(val,BACnetVendorIdentifiers,"Unknown Vendor"), val); else ti = proto_tree_add_text(tree, tvb, offset, lvt+tag_len, "%s - %u octets (Unsigned)", label, lvt); subtree = proto_item_add_subtree(ti, ett_bacapp_tag); fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); proto_tree_add_item(subtree, hf_BACnetVendorIdentifier, tvb, offset+tag_len, lvt, FALSE); return offset+tag_len+lvt; } static guint fConfirmedTextMessageRequest(tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; switch (fTagNo(tvb, offset)) { case 0: /* textMessageSourceDevice */ offset = fObjectIdentifier (tvb, tree, offset); break; case 1: /* messageClass */ switch (fTagNo(tvb, offset)) { case 0: /* numeric */ offset = fUnsignedTag (tvb, tree, offset, "message Class: "); break; case 1: /* character */ offset = fCharacterString (tvb, tree, offset, "message Class: "); break; } break; case 2: /* messagePriority */ offset = fEnumeratedTag (tvb, tree, offset, "message Priority: ", BACnetMessagePriority); break; case 3: /* message */ offset = fCharacterString (tvb, tree, offset, "message: "); break; default: return offset; } } return offset; } static guint fUnconfirmedTextMessageRequest(tvbuff_t *tvb, proto_tree *tree, guint offset) { return fConfirmedTextMessageRequest(tvb, tree, offset); } static guint fConfirmedPrivateTransferRequest(tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; guint8 tag_no, tag_info; guint32 lvt; proto_tree *subtree = tree; proto_item *tt; /* exit loop if nothing happens inside */ while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { lastoffset = offset; fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (tag_is_closing(tag_info)) { if (tag_no == 2) /* Make sure it's the expected tag */ { offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); subtree = tree; continue; } else { break; /* End loop if incorrect closing tag */ } } switch (tag_no) { case 0: /* vendorID */ offset = fVendorIdentifier (tvb, subtree, offset); break; case 1: /* serviceNumber */ offset = fUnsignedTag (tvb, subtree, offset, "service Number: "); break; case 2: /*serviceParameters */ if (tag_is_opening(tag_info)) { tt = proto_tree_add_text(subtree, tvb, offset, 1, "service Parameters"); subtree = proto_item_add_subtree(tt, ett_bacapp_value); propertyIdentifier = -1; offset = fAbstractSyntaxNType (tvb, subtree, offset); break; } FAULT; break; default: return offset; } } return offset; } static guint fUnconfirmedPrivateTransferRequest(tvbuff_t *tvb, proto_tree *tree, guint offset) { return fConfirmedPrivateTransferRequest(tvb, tree, offset); } static guint fConfirmedPrivateTransferAck(tvbuff_t *tvb, proto_tree *tree, guint offset) { return fConfirmedPrivateTransferRequest(tvb, tree, offset); } static guint fLifeSafetyOperationRequest(tvbuff_t *tvb, proto_tree *tree, guint offset, const gchar *label) { guint lastoffset = 0; guint8 tag_no, tag_info; guint32 lvt; proto_tree *subtree = tree; proto_item *tt; if (label != NULL) { tt = proto_tree_add_text (subtree, tvb, offset, 1, "%s", label); subtree = proto_item_add_subtree(tt, ett_bacapp_value); } while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); switch (tag_no) { case 0: /* subscriberProcessId */ offset = fUnsignedTag (tvb, subtree, offset, "requesting Process Id: "); break; case 1: /* requestingSource */ offset = fCharacterString (tvb, tree, offset, "requesting Source: "); break; case 2: /* request */ offset = fEnumeratedTagSplit (tvb, tree, offset, "request: ", BACnetLifeSafetyOperation, 64); break; case 3: /* objectId */ offset = fObjectIdentifier (tvb, subtree, offset); break; default: return offset; } } return offset; } static guint fBACnetPropertyStates(tvbuff_t *tvb, proto_tree *tree, guint offset) { switch (fTagNo(tvb, offset)) { case 0: offset = fBooleanTag (tvb, tree, offset, "boolean-value: "); break; case 1: offset = fEnumeratedTagSplit (tvb, tree, offset, "binary-value: ", BACnetBinaryPV, 2); break; case 2: offset = fEnumeratedTagSplit (tvb, tree, offset, "event-type: ", BACnetEventType, 12); break; case 3: offset = fEnumeratedTagSplit (tvb, tree, offset, "polarity: ", BACnetPolarity, 2); break; case 4: offset = fEnumeratedTagSplit (tvb, tree, offset, "program-change: ", BACnetProgramRequest, 5); break; case 5: offset = fEnumeratedTagSplit (tvb, tree, offset, "program-state: ", BACnetProgramState, 5); break; case 6: offset = fEnumeratedTagSplit (tvb, tree, offset, "reason-for-halt: ", BACnetProgramError, 5); break; case 7: offset = fEnumeratedTagSplit (tvb, tree, offset, "reliability: ", BACnetReliability, 10); break; case 8: offset = fEnumeratedTagSplit (tvb, tree, offset, "state: ", BACnetEventState, 64); break; case 9: offset = fEnumeratedTagSplit (tvb, tree, offset, "system-status: ", BACnetDeviceStatus, 64); break; case 10: offset = fEnumeratedTagSplit (tvb, tree, offset, "units: ", BACnetEngineeringUnits, 2); break; case 11: offset = fUnsignedTag(tvb, tree, offset, "unsigned-value: "); break; case 12: offset = fEnumeratedTagSplit (tvb, tree, offset, "life-safety-mode: ", BACnetLifeSafetyMode, 64); break; case 13: offset = fEnumeratedTagSplit (tvb, tree, offset, "life-safety-state: ", BACnetLifeSafetyState, 64); break; default: break; } return offset; } /* BACnetDeviceObjectPropertyValue ::= SEQUENCE { deviceIdentifier [0] BACnetObjectIdentifier, objectIdentifier [1] BACnetObjectIdentifier, propertyIdentifier [2] BACnetPropertyIdentifier, arrayIndex [3] Unsigned OPTIONAL, value [4] ABSTRACT-SYNTAX.&Type } */ static guint fDeviceObjectPropertyValue (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; guint8 tag_no, tag_info; guint32 lvt; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { lastoffset = offset; /* check the tag. A closing tag means we are done */ fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (tag_is_closing(tag_info)) { return offset; } switch (tag_no) { case 0: /* deviceIdentifier */ offset = fObjectIdentifier (tvb, tree, offset); break; case 1: /* objectIdentifier */ offset = fObjectIdentifier (tvb, tree, offset); break; case 2: /* propertyIdentifier */ offset = fPropertyIdentifier (tvb, tree, offset); break; case 3: /* arrayIndex - OPTIONAL */ offset = fUnsignedTag (tvb, tree, offset, "arrayIndex: "); break; case 4: /* value */ offset += fTagHeaderTree(tvb, tree, offset, &tag_no, &tag_info, &lvt); offset = fAbstractSyntaxNType (tvb, tree, offset); offset += fTagHeaderTree(tvb, tree, offset, &tag_no, &tag_info, &lvt); break; default: return offset; } } return offset; } /* BACnetDeviceObjectPropertyReference ::= SEQUENCE { objectIdentifier [0] BACnetObjectIdentifier, propertyIdentifier [1] BACnetPropertyIdentifier, propertyArrayIndex [2] Unsigned OPTIONAL, -- used only with array datatype -- if omitted with an array then -- the entire array is referenced deviceIdentifier [3] BACnetObjectIdentifier OPTIONAL } */ static guint fDeviceObjectPropertyReference (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; guint8 tag_no, tag_info; guint32 lvt; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { lastoffset = offset; /* check the tag. A closing tag means we are done */ fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (tag_is_closing(tag_info)) { return offset; } switch (tag_no) { case 0: /* objectIdentifier */ offset = fObjectIdentifier (tvb, tree, offset); break; case 1: /* propertyIdentifier */ offset = fPropertyIdentifier (tvb, tree, offset); break; case 2: /* arrayIndex - OPTIONAL */ offset = fUnsignedTag (tvb, tree, offset, "arrayIndex: "); break; case 3: /* deviceIdentifier - OPTIONAL */ offset = fObjectIdentifier (tvb, tree, offset); break; default: return offset; } } return offset; } static guint fNotificationParameters (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = offset; guint8 tag_no, tag_info; guint32 lvt; proto_tree *subtree = tree; proto_item *tt; fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); tt = proto_tree_add_text(subtree, tvb, offset, 0, "notification parameters (%d) %s", tag_no, val_to_str(tag_no, BACnetEventType, "invalid type")); subtree = proto_item_add_subtree(tt, ett_bacapp_value); /* Opening tag for parameter choice */ offset += fTagHeaderTree(tvb, subtree, offset, &tag_no, &tag_info, &lvt); switch (tag_no) { case 0: /* change-of-bitstring */ while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; switch (fTagNo(tvb, offset)) { case 0: offset = fBitStringTag (tvb, subtree, offset, "referenced-bitstring: "); break; case 1: offset = fBitStringTagVS (tvb, subtree, offset, "status-flags: ", BACnetStatusFlags); break; default: break; } } break; case 1: /* change-of-state */ while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; switch (fTagNo(tvb, offset)) { case 0: offset += fTagHeaderTree(tvb, subtree, offset, &tag_no, &tag_info, &lvt); offset = fBACnetPropertyStates(tvb, subtree, offset); offset += fTagHeaderTree(tvb, subtree, offset, &tag_no, &tag_info, &lvt); break; case 1: offset = fBitStringTagVS (tvb, subtree, offset, "status-flags: ", BACnetStatusFlags); lastoffset = offset; break; default: break; } } break; case 2: /* change-of-value */ while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; switch (fTagNo(tvb, offset)) { case 0: offset += fTagHeaderTree(tvb, subtree, offset, &tag_no, &tag_info, &lvt); switch (fTagNo(tvb, offset)) { case 0: offset = fBitStringTag (tvb, subtree, offset, "changed-bits: "); break; case 1: offset = fRealTag (tvb, subtree, offset, "changed-value: "); break; default: break; } offset += fTagHeaderTree(tvb, subtree, offset, &tag_no, &tag_info, &lvt); break; case 1: offset = fBitStringTagVS (tvb, subtree, offset, "status-flags: ", BACnetStatusFlags); break; default: break; } } break; case 3: /* command-failure */ while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; switch (fTagNo(tvb, offset)) { case 0: /* "command-value: " */ /* from BACnet Table 13-3, Standard Object Property Values Returned in Notifications */ propertyIdentifier = 85; /* PRESENT_VALUE */ offset += fTagHeaderTree(tvb, subtree, offset, &tag_no, &tag_info, &lvt); offset = fAbstractSyntaxNType (tvb, subtree, offset); offset += fTagHeaderTree(tvb, subtree, offset, &tag_no, &tag_info, &lvt); break; case 1: offset = fBitStringTagVS (tvb, subtree, offset, "status-flags: ", BACnetStatusFlags); break; case 2: /* "feedback-value: " */ propertyIdentifier = 40; /* FEEDBACK_VALUE */ offset += fTagHeaderTree(tvb, subtree, offset, &tag_no, &tag_info, &lvt); offset = fAbstractSyntaxNType (tvb, subtree, offset); offset += fTagHeaderTree(tvb, subtree, offset, &tag_no, &tag_info, &lvt); break; default: break; } } break; case 4: /* floating-limit */ while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; switch (fTagNo(tvb, offset)) { case 0: offset = fRealTag (tvb, subtree, offset, "reference-value: "); break; case 1: offset = fBitStringTagVS (tvb, subtree, offset, "status-flags: ", BACnetStatusFlags); break; case 2: offset = fRealTag (tvb, subtree, offset, "setpoint-value: "); break; case 3: offset = fRealTag (tvb, subtree, offset, "error-limit: "); break; default: break; } } break; case 5: /* out-of-range */ while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; switch (fTagNo(tvb, offset)) { case 0: offset = fRealTag (tvb, subtree, offset, "exceeding-value: "); break; case 1: offset = fBitStringTagVS (tvb, subtree, offset, "status-flags: ", BACnetStatusFlags); break; case 2: offset = fRealTag (tvb, subtree, offset, "deadband: "); break; case 3: offset = fRealTag (tvb, subtree, offset, "exceeded-limit: "); break; default: break; } } break; case 6: while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; offset =fBACnetPropertyValue (tvb,subtree,offset); } break; case 7: /* buffer-ready */ while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; switch (fTagNo(tvb, offset)) { case 0: offset = fObjectIdentifier (tvb, subtree, offset); /* buffer-device */ break; case 1: offset = fObjectIdentifier (tvb, subtree, offset); /* buffer-object */ break; case 2: offset += fTagHeaderTree(tvb, subtree, offset, &tag_no, &tag_info, &lvt); offset = fDateTime (tvb, subtree, offset, "previous-notification: "); offset += fTagHeaderTree(tvb, subtree, offset, &tag_no, &tag_info, &lvt); break; case 3: offset += fTagHeaderTree(tvb, subtree, offset, &tag_no, &tag_info, &lvt); offset = fDateTime (tvb, subtree, offset, "current-notification: "); offset += fTagHeaderTree(tvb, subtree, offset, &tag_no, &tag_info, &lvt); break; default: break; } } break; case 8: /* change-of-life-safety */ while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; switch (fTagNo(tvb, offset)) { case 0: offset = fEnumeratedTagSplit (tvb, subtree, offset, "new-state: ", BACnetLifeSafetyState, 256); break; case 1: offset = fEnumeratedTagSplit (tvb, subtree, offset, "new-mode: ", BACnetLifeSafetyMode, 256); break; case 2: offset = fBitStringTagVS (tvb, subtree, offset, "status-flags: ", BACnetStatusFlags); break; case 3: offset = fEnumeratedTagSplit (tvb, subtree, offset, "operation-expected: ", BACnetLifeSafetyOperation, 64); break; default: break; } } break; case 9: /* extended */ while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { lastoffset = offset; switch (fTagNo(tvb, offset)) { case 0: offset = fVendorIdentifier (tvb, subtree, offset); break; case 1: offset = fUnsignedTag (tvb, subtree, offset, "extended-event-type: "); break; case 2: /* parameters */ offset += fTagHeaderTree(tvb, subtree, offset, &tag_no, &tag_info, &lvt); offset = fApplicationTypes(tvb, subtree, offset, "parameters: "); offset = fDeviceObjectPropertyValue(tvb, subtree, offset); offset += fTagHeaderTree(tvb, subtree, offset, &tag_no, &tag_info, &lvt); break; default: break; } } break; case 10: /* buffer ready */ while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { lastoffset = offset; switch (fTagNo(tvb, offset)) { case 0: /* buffer-property */ offset += fTagHeaderTree(tvb, subtree, offset, &tag_no, &tag_info, &lvt); offset = fDeviceObjectPropertyReference (tvb, subtree, offset); offset += fTagHeaderTree(tvb, subtree, offset, &tag_no, &tag_info, &lvt); break; case 1: offset = fUnsignedTag (tvb, subtree, offset, "previous-notification: "); break; case 2: offset = fUnsignedTag (tvb, subtree, offset, "current-notification: "); break; default: break; } } break; case 11: /* unsigned range */ while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { lastoffset = offset; switch (fTagNo(tvb, offset)) { case 0: offset = fUnsignedTag (tvb, subtree, offset, "exceeding-value: "); break; case 1: offset = fBitStringTagVS (tvb, subtree, offset, "status-flags: ", BACnetStatusFlags); break; case 2: offset = fUnsignedTag (tvb, subtree, offset, "exceeded-limit: "); break; default: break; } } break; default: break; } /* Closing tag for parameter choice */ offset += fTagHeaderTree(tvb, subtree, offset, &tag_no, &tag_info, &lvt); return offset; } #if 0 static guint fEventParameter (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; switch (fTagNo(tvb, offset)) { case 0: /* change-of-bitstring */ while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; switch (fTagNo(tvb, offset)) { case 0: offset = fTimeSpan (tvb, tree, offset, "Time Delay"); break; case 1: offset = fBitStringTag (tvb, tree, offset, "bitmask: "); break; case 2: /* SEQUENCE OF BIT STRING */ offset = fBitStringTagVS (tvb, tree, offset, "bitstring value: ", BACnetEventTransitionBits); break; default: return offset; } } break; case 1: /* change-of-state */ while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; switch (fTagNo(tvb, offset)) { case 0: offset = fTimeSpan (tvb, tree, offset, "Time Delay"); break; case 1: /* SEQUENCE OF BACnetPropertyStates */ offset = fEnumeratedTagSplit (tvb, tree, offset, "value: ", BACnetPropertyStates, 64); break; default: return offset; } } break; case 2: /* change-of-value */ while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; switch (fTagNo(tvb, offset)) { case 0: offset = fTimeSpan (tvb, tree, offset, "Time Delay"); break; case 1: /* don't loop it, it's a CHOICE */ switch (fTagNo(tvb, offset)) { case 0: offset = fBitStringTag (tvb, tree, offset, "bitmask: "); break; case 1: offset = fRealTag (tvb, tree, offset, "referenced Property Increment: "); break; default: return offset; } default: return offset; } } break; case 3: /* command-failure */ while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; switch (fTagNo(tvb, offset)) { case 0: offset = fTimeSpan (tvb, tree, offset, "Time Delay"); break; case 1: offset = fDeviceObjectPropertyReference (tvb,tree,offset); default: return offset; } } break; case 4: /* floating-limit */ while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; switch (fTagNo(tvb, offset)) { case 0: offset = fTimeSpan (tvb, tree, offset, "Time Delay"); break; case 1: offset = fDeviceObjectPropertyReference (tvb,tree,offset); break; case 2: offset = fRealTag (tvb, tree, offset, "low diff limit: "); break; case 3: offset = fRealTag (tvb, tree, offset, "high diff limit: "); break; case 4: offset = fRealTag (tvb, tree, offset, "deadband: "); break; default: return offset; } } break; case 5: /* out-of-range */ while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; switch (fTagNo(tvb, offset)) { case 0: offset = fTimeSpan (tvb, tree, offset, "Time Delay"); break; case 1: offset = fRealTag (tvb, tree, offset, "low limit: "); break; case 2: offset = fRealTag (tvb, tree, offset, "high limit: "); break; case 3: offset = fRealTag (tvb, tree, offset, "deadband: "); break; default: return offset; } } break; case 6: offset = fBACnetPropertyValue (tvb,tree,offset); break; case 7: /* buffer-ready */ while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; switch (fTagNo(tvb, offset)) { case 0: offset = fUnsignedTag (tvb,tree,offset,"notification threshold"); break; case 1: offset = fUnsignedTag (tvb,tree,offset, "previous notification count: "); break; default: return offset; } } break; case 8: /* change-of-life-safety */ while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; switch (fTagNo(tvb, offset)) { case 0: offset = fTimeSpan (tvb, tree, offset, "Time Delay"); break; case 1: offset = fEnumeratedTagSplit (tvb, tree, offset, "life safety alarm value: ", BACnetLifeSafetyState, 256); break; case 2: offset = fEnumeratedTagSplit (tvb, tree, offset, "alarm value: ", BACnetLifeSafetyState, 256); break; case 3: offset = fDeviceObjectPropertyReference (tvb, tree, offset); break; default: return offset; } } break; default: return offset; } } return offset; } static guint fLogRecord (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; guint8 tag_no, tag_info; guint32 lvt; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; switch (fTagNo(tvb, offset)) { case 0: /* timestamp */ offset += fTagHeaderTree (tvb, tree, offset, &tag_no, &tag_info, &lvt); offset = fDateTime (tvb,tree,offset,NULL); offset += fTagHeaderTree (tvb, tree, offset, &tag_no, &tag_info, &lvt); break; case 1: /* logDatum: don't loop, it's a CHOICE */ offset += fTagHeaderTree (tvb, tree, offset, &tag_no, &tag_info, &lvt); switch (fTagNo(tvb, offset)) { case 0: /* logStatus */ offset = fEnumeratedTag (tvb, tree, offset, "log status: ", BACnetLogStatus); break; case 1: offset = fBooleanTag (tvb, tree, offset, "boolean-value: "); break; case 2: offset = fRealTag (tvb, tree, offset, "real value: "); break; case 3: offset = fUnsignedTag (tvb, tree, offset, "enum value: "); break; case 4: offset = fUnsignedTag (tvb, tree, offset, "unsigned value: "); break; case 5: offset = fSignedTag (tvb, tree, offset, "signed value: "); break; case 6: offset = fBitStringTag (tvb, tree, offset, "bitstring value: "); break; case 7: offset = fNullTag(tvb, tree, offset, "null value: "); break; case 8: offset = fError (tvb,tree,offset); break; case 9: offset = fRealTag (tvb, tree, offset, "time change: "); break; case 10: /* any Value */ offset += fTagHeaderTree (tvb, tree, offset, &tag_no, &tag_info, &lvt); offset = fAbstractSyntaxNType (tvb, tree, offset); offset += fTagHeaderTree (tvb, tree, offset, &tag_no, &tag_info, &lvt); break; default: return offset; } offset += fTagHeaderTree (tvb, tree, offset, &tag_no, &tag_info, &lvt); break; case 2: offset = fEnumeratedTag (tvb, tree, offset, "status Flags: ", BACnetStatusFlags); break; default: return offset; } } return offset; } #endif static guint fConfirmedEventNotificationRequest (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; guint8 tag_no, tag_info; guint32 lvt; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; switch (fTagNo(tvb,offset)) { case 0: /* ProcessId */ offset = fProcessId (tvb,tree,offset); break; case 1: /* initiating ObjectId */ offset = fObjectIdentifier (tvb, tree, offset); break; case 2: /* event ObjectId */ offset = fObjectIdentifier (tvb, tree, offset); break; case 3: /* time stamp */ offset += fTagHeaderTree (tvb, tree, offset, &tag_no, &tag_info, &lvt); offset = fTimeStamp (tvb, tree, offset, NULL); offset += fTagHeaderTree (tvb, tree, offset, &tag_no, &tag_info, &lvt); break; case 4: /* notificationClass */ offset = fUnsignedTag (tvb, tree, offset, "Notification Class: "); break; case 5: /* Priority */ offset = fUnsignedTag (tvb, tree, offset, "Priority: "); break; case 6: /* EventType */ offset = fEnumeratedTagSplit (tvb, tree, offset, "Event Type: ", BACnetEventType, 64); break; case 7: /* messageText */ offset = fCharacterString (tvb, tree, offset, "message Text: "); break; case 8: /* NotifyType */ offset = fEnumeratedTag (tvb, tree, offset, "Notify Type: ", BACnetNotifyType); break; case 9: /* ackRequired */ offset = fBooleanTag (tvb, tree, offset, "ack Required: "); break; case 10: /* fromState */ offset = fEnumeratedTagSplit (tvb, tree, offset, "from State: ", BACnetEventState, 64); break; case 11: /* toState */ offset = fEnumeratedTagSplit (tvb, tree, offset, "to State: ", BACnetEventState, 64); break; case 12: /* NotificationParameters */ offset += fTagHeaderTree (tvb, tree, offset, &tag_no, &tag_info, &lvt); offset = fNotificationParameters (tvb, tree, offset); offset += fTagHeaderTree (tvb, tree, offset, &tag_no, &tag_info, &lvt); break; default: break; } } return offset; } static guint fUnconfirmedEventNotificationRequest (tvbuff_t *tvb, proto_tree *tree, guint offset) { return fConfirmedEventNotificationRequest (tvb, tree, offset); } static guint fConfirmedCOVNotificationRequest (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; guint8 tag_no, tag_info; guint32 lvt; proto_tree *subtree = tree; proto_item *tt; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (tag_is_closing(tag_info)) { offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); lastoffset = offset; subtree = tree; continue; } switch (tag_no) { case 0: /* ProcessId */ offset = fProcessId (tvb,tree,offset); break; case 1: /* initiating DeviceId */ offset = fObjectIdentifier (tvb, subtree, offset); break; case 2: /* monitored ObjectId */ offset = fObjectIdentifier (tvb, subtree, offset); break; case 3: /* time remaining */ offset = fTimeSpan (tvb, tree, offset, "Time remaining"); break; case 4: /* List of Values */ if (tag_is_opening(tag_info)) { tt = proto_tree_add_text(subtree, tvb, offset, 1, "list of Values"); subtree = proto_item_add_subtree(tt, ett_bacapp_value); offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); offset = fBACnetPropertyValue (tvb, subtree, offset); break; } FAULT; break; default: return offset; } } return offset; } static guint fUnconfirmedCOVNotificationRequest (tvbuff_t *tvb, proto_tree *tree, guint offset) { return fConfirmedCOVNotificationRequest (tvb, tree, offset); } static guint fAcknowledgeAlarmRequest (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; guint8 tag_no = 0, tag_info = 0; guint32 lvt = 0; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; switch (fTagNo(tvb, offset)) { case 0: /* acknowledgingProcessId */ offset = fUnsignedTag (tvb, tree, offset, "acknowledging Process Id: "); break; case 1: /* eventObjectId */ offset = fObjectIdentifier (tvb, tree, offset); break; case 2: /* eventStateAcknowledged */ offset = fEnumeratedTagSplit (tvb, tree, offset, "event State Acknowledged: ", BACnetEventState, 64); break; case 3: /* timeStamp */ offset += fTagHeaderTree(tvb, tree, offset, &tag_no, &tag_info, &lvt); offset = fTimeStamp(tvb, tree, offset, NULL); offset += fTagHeaderTree(tvb, tree, offset, &tag_no, &tag_info, &lvt); break; case 4: /* acknowledgementSource */ offset = fCharacterString (tvb, tree, offset, "acknowledgement Source: "); break; case 5: /* timeOfAcknowledgement */ offset += fTagHeaderTree(tvb, tree, offset, &tag_no, &tag_info, &lvt); offset = fTimeStamp(tvb, tree, offset, "acknowledgement timestamp: "); offset += fTagHeaderTree(tvb, tree, offset, &tag_no, &tag_info, &lvt); break; default: return offset; } } return offset; } static guint fGetAlarmSummaryAck (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; offset = fApplicationTypes (tvb, tree, offset, "Object Identifier: "); offset = fApplicationTypesEnumeratedSplit (tvb, tree, offset, "alarm State: ", BACnetEventState, 64); offset = fApplicationTypesEnumerated (tvb, tree, offset, "acknowledged Transitions: ", BACnetEventTransitionBits); } return offset; } static guint fGetEnrollmentSummaryRequest (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; guint8 tag_no, tag_info; guint32 lvt; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; switch (fTagNo(tvb, offset)) { case 0: /* acknowledgmentFilter */ offset = fEnumeratedTag (tvb, tree, offset, "acknowledgment Filter: ", BACnetAcknowledgementFilter); break; case 1: /* eventObjectId - OPTIONAL */ offset += fTagHeaderTree (tvb, tree, offset, &tag_no, &tag_info, &lvt); offset = fRecipientProcess (tvb, tree, offset); offset += fTagHeaderTree (tvb, tree, offset, &tag_no, &tag_info, &lvt); break; case 2: /* eventStateFilter */ offset = fEnumeratedTag (tvb, tree, offset, "event State Filter: ", BACnetEventStateFilter); break; case 3: /* eventTypeFilter - OPTIONAL */ offset = fEnumeratedTag (tvb, tree, offset, "event Type Filter: ", BACnetEventType); break; case 4: /* priorityFilter */ offset += fTagHeaderTree (tvb, tree, offset, &tag_no, &tag_info, &lvt); offset = fUnsignedTag (tvb, tree, offset, "min Priority: "); offset = fUnsignedTag (tvb, tree, offset, "max Priority: "); offset += fTagHeaderTree (tvb, tree, offset, &tag_no, &tag_info, &lvt); break; case 5: /* notificationClassFilter - OPTIONAL */ offset = fUnsignedTag (tvb, tree, offset, "notification Class Filter: "); break; default: return offset; } } return offset; } static guint fGetEnrollmentSummaryAck (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; offset = fApplicationTypes (tvb, tree, offset, "Object Identifier: "); offset = fApplicationTypesEnumeratedSplit (tvb, tree, offset, "event Type: ", BACnetEventType, 64); offset = fApplicationTypesEnumerated (tvb, tree, offset, "event State: ", BACnetEventState); offset = fApplicationTypes (tvb, tree, offset, "Priority: "); offset = fApplicationTypes (tvb, tree, offset, "Notification Class: "); } return offset; } static guint fGetEventInformationRequest (tvbuff_t *tvb, proto_tree *tree, guint offset) { if (tvb_length_remaining(tvb, offset) > 0) { if (fTagNo(tvb, offset) == 0) { offset = fObjectIdentifier (tvb, tree, offset); } } return offset; } static guint flistOfEventSummaries (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; guint8 tag_no, tag_info; guint32 lvt; proto_tree* subtree = tree; proto_item* ti = 0; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); /* we are finished here if we spot a closing tag */ if (tag_is_closing(tag_info)) { break; } switch (tag_no) { case 0: /* ObjectId */ offset = fObjectIdentifier (tvb, tree, offset); break; case 1: /* eventState */ offset = fEnumeratedTag (tvb, tree, offset, "event State: ", BACnetEventState); break; case 2: /* acknowledgedTransitions */ offset = fBitStringTagVS (tvb, tree, offset, "acknowledged Transitions: ", BACnetEventTransitionBits); break; case 3: /* eventTimeStamps */ ti = proto_tree_add_text(tree, tvb, offset, lvt, "eventTimeStamps"); if (ti) { subtree = proto_item_add_subtree(ti, ett_bacapp_tag); } offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); offset = fTimeStamp (tvb, subtree, offset,"TO-OFFNORMAL timestamp: "); offset = fTimeStamp (tvb, subtree, offset,"TO-FAULT timestamp: "); offset = fTimeStamp (tvb, subtree, offset,"TO-NORMAL timestamp: "); offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); break; case 4: /* notifyType */ offset = fEnumeratedTag (tvb, tree, offset, "Notify Type: ", BACnetNotifyType); break; case 5: /* eventEnable */ offset = fBitStringTagVS (tvb, tree, offset, "event Enable: ", BACnetEventTransitionBits); break; case 6: /* eventPriorities */ ti = proto_tree_add_text(tree, tvb, offset, lvt, "eventPriorities"); if (ti) { subtree = proto_item_add_subtree(ti, ett_bacapp_tag); } offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); offset = fUnsignedTag (tvb, subtree, offset, "TO-OFFNORMAL Priority: "); offset = fUnsignedTag (tvb, subtree, offset, "TO-FAULT Priority: "); offset = fUnsignedTag (tvb, subtree, offset, "TO-NORMAL Priority: "); offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); break; default: return offset; } } return offset; } static guint fGetEventInformationACK (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; guint8 tag_no, tag_info; guint32 lvt; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; switch (fTagNo(tvb, offset)) { case 0: /* listOfEventSummaries */ offset += fTagHeaderTree (tvb, tree, offset, &tag_no, &tag_info, &lvt); offset = flistOfEventSummaries (tvb, tree, offset); offset += fTagHeaderTree (tvb, tree, offset, &tag_no, &tag_info, &lvt); break; case 1: /* moreEvents */ offset = fBooleanTag (tvb, tree, offset, "more Events: "); break; default: return offset; } } return offset; } static guint fAddListElementRequest(tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; guint8 tag_no, tag_info; guint32 lvt; proto_tree *subtree = tree; proto_item *tt; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (tag_is_closing(tag_info)) { offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); subtree = tree; continue; } switch (tag_no) { case 0: /* ObjectId */ offset = fBACnetObjectPropertyReference (tvb, subtree, offset); break; case 3: /* listOfElements */ if (tag_is_opening(tag_info)) { tt = proto_tree_add_text(subtree, tvb, offset, 1, "listOfElements"); subtree = proto_item_add_subtree(tt, ett_bacapp_value); offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); offset = fAbstractSyntaxNType (tvb, subtree, offset); break; } FAULT; break; default: return offset; } } return offset; } static guint fDeleteObjectRequest(tvbuff_t *tvb, proto_tree *tree, guint offset) { return fObjectIdentifier (tvb, tree, offset); } static guint fDeviceCommunicationControlRequest(tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; switch (fTagNo(tvb, offset)) { case 0: /* timeDuration */ offset = fUnsignedTag (tvb,tree,offset,"time Duration: "); break; case 1: /* enable-disable */ offset = fEnumeratedTag (tvb, tree, offset, "enable-disable: ", BACnetEnableDisable); break; case 2: /* password - OPTIONAL */ offset = fCharacterString (tvb, tree, offset, "Password: "); break; default: return offset; } } return offset; } static guint fReinitializeDeviceRequest(tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; switch (fTagNo(tvb, offset)) { case 0: /* reinitializedStateOfDevice */ offset = fEnumeratedTag (tvb, tree, offset, "reinitialized State Of Device: ", BACnetReinitializedStateOfDevice); break; case 1: /* password - OPTIONAL */ offset = fCharacterString (tvb, tree, offset, "Password: "); break; default: return offset; } } return offset; } static guint fVtOpenRequest(tvbuff_t *tvb, proto_tree *tree, guint offset) { offset = fApplicationTypesEnumerated (tvb, tree, offset, "vtClass: ", BACnetVTClass); return fApplicationTypes (tvb,tree,offset,"local VT Session ID: "); } static guint fVtOpenAck (tvbuff_t *tvb, proto_tree *tree, guint offset) { return fApplicationTypes (tvb,tree,offset,"remote VT Session ID: "); } static guint fVtCloseRequest (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; offset= fApplicationTypes (tvb,tree,offset,"remote VT Session ID: "); } return offset; } static guint fVtDataRequest (tvbuff_t *tvb, proto_tree *tree, guint offset) { offset= fApplicationTypes (tvb,tree,offset,"VT Session ID: "); offset = fApplicationTypes (tvb, tree, offset, "VT New Data: "); return fApplicationTypes (tvb,tree,offset,"VT Data Flag: ");; } static guint fVtDataAck (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; switch (fTagNo(tvb,offset)) { case 0: /* BOOLEAN */ offset = fBooleanTag (tvb, tree, offset, "all New Data Accepted: "); break; case 1: /* Unsigned OPTIONAL */ offset = fUnsignedTag (tvb, tree, offset, "accepted Octet Count: "); break; default: return offset; } } return offset; } static guint fAuthenticateRequest (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; switch (fTagNo(tvb,offset)) { case 0: /* Unsigned32 */ offset = fUnsignedTag (tvb, tree, offset, "pseudo Random Number: "); break; case 1: /* expected Invoke ID Unsigned8 OPTIONAL */ proto_tree_add_item(tree, hf_bacapp_invoke_id, tvb, offset++, 1, TRUE); break; case 2: /* Chararacter String OPTIONAL */ offset = fCharacterString (tvb, tree, offset, "operator Name: "); break; case 3: /* Chararacter String OPTIONAL */ offset = fCharacterString (tvb, tree, offset, "operator Password: "); break; case 4: /* Boolean OPTIONAL */ offset = fBooleanTag (tvb, tree, offset, "start Encyphered Session: "); break; default: return offset; } } return offset; } static guint fAuthenticateAck (tvbuff_t *tvb, proto_tree *tree, guint offset) { return fApplicationTypes (tvb, tree, offset, "modified Random Number: "); } static guint fRequestKeyRequest (tvbuff_t *tvb, proto_tree *tree, guint offset) { offset = fObjectIdentifier (tvb, tree, offset); /* Requesting Device Identifier */ offset = fAddress (tvb, tree, offset); offset = fObjectIdentifier (tvb, tree, offset); /* Remote Device Identifier */ return fAddress (tvb, tree, offset); } static guint fRemoveListElementRequest(tvbuff_t *tvb, proto_tree *tree, guint offset) { /* Same as AddListElement request after service choice */ return fAddListElementRequest(tvb, tree, offset); } static guint fReadPropertyRequest(tvbuff_t *tvb, proto_tree *tree, guint offset) { return fBACnetObjectPropertyReference(tvb, tree, offset); } static guint fReadPropertyAck (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; guint8 tag_no, tag_info; guint32 lvt; proto_tree *subtree = tree; proto_item *tt; /* set the optional global properties to indicate not-used */ propertyArrayIndex = -1; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (tag_is_closing(tag_info)) { offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); subtree = tree; continue; } switch (tag_no) { case 0: /* objectIdentifier */ offset = fObjectIdentifier (tvb, subtree, offset); break; case 1: /* propertyIdentifier */ offset = fPropertyIdentifier (tvb, subtree, offset); break; case 2: /* propertyArrayIndex */ offset = fPropertyArrayIndex (tvb, subtree, offset); break; case 3: /* propertyValue */ if (tag_is_opening(tag_info)) { tt = proto_tree_add_text(subtree, tvb, offset, 1, "propertyValue"); subtree = proto_item_add_subtree(tt, ett_bacapp_value); offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); offset = fAbstractSyntaxNType (tvb, subtree, offset); break; } FAULT; break; default: break; } } return offset; } static guint fWritePropertyRequest(tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; guint8 tag_no, tag_info; guint32 lvt; proto_tree *subtree = tree; proto_item *tt; /* set the optional global properties to indicate not-used */ propertyArrayIndex = -1; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (tag_is_closing(tag_info)) { offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); subtree = tree; continue; } switch (tag_no) { case 0: /* objectIdentifier */ offset = fObjectIdentifier (tvb, subtree, offset); break; case 1: /* propertyIdentifier */ offset = fPropertyIdentifier (tvb, subtree, offset); break; case 2: /* propertyArrayIndex */ offset = fPropertyArrayIndex (tvb, subtree, offset); break; case 3: /* propertyValue */ if (tag_is_opening(tag_info)) { tt = proto_tree_add_text(subtree, tvb, offset, 1, "propertyValue"); subtree = proto_item_add_subtree(tt, ett_bacapp_value); offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); offset = fAbstractSyntaxNType (tvb, subtree, offset); break; } FAULT; break; case 4: /* Priority (only used for write) */ offset = fUnsignedTag (tvb, subtree, offset, "Priority: "); break; default: return offset; } } return offset; } static guint fWriteAccessSpecification (tvbuff_t *tvb, proto_tree *subtree, guint offset) { guint lastoffset = 0; guint8 tag_no, tag_info; guint32 lvt; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (tag_is_closing(tag_info)) { offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); continue; } switch (tag_no) { case 0: /* objectIdentifier */ offset = fObjectIdentifier (tvb, subtree, offset); break; case 1: /* listOfPropertyValues */ if (tag_is_opening(tag_info)) { offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); offset = fBACnetPropertyValue (tvb, subtree, offset); break; } FAULT; break; default: return offset; } } return offset; } static guint fWritePropertyMultipleRequest(tvbuff_t *tvb, proto_tree *tree, guint offset) { if (offset >= tvb_reported_length(tvb)) return offset; return fWriteAccessSpecification (tvb, tree, offset); } static guint fPropertyReference (tvbuff_t *tvb, proto_tree *tree, guint offset, guint8 tagoffset, guint8 list) { guint lastoffset = 0; guint8 tag_no, tag_info; guint32 lvt; /* set the optional global properties to indicate not-used */ propertyArrayIndex = -1; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (tag_is_closing(tag_info)) { /* closing Tag, but not for me */ return offset; } else if (tag_is_opening(tag_info)) { /* opening Tag, but not for me */ return offset; } switch (tag_no-tagoffset) { case 0: /* PropertyIdentifier */ offset = fPropertyIdentifier (tvb, tree, offset); break; case 1: /* propertyArrayIndex */ offset = fPropertyArrayIndex (tvb, tree, offset); if (list != 0) break; /* Continue decoding if this may be a list */ default: lastoffset = offset; /* Set loop end condition */ break; } } return offset; } static guint fBACnetPropertyReference (tvbuff_t *tvb, proto_tree *tree, guint offset, guint8 list) { return fPropertyReference(tvb, tree, offset, 0, list); } static guint fBACnetObjectPropertyReference (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; switch (fTagNo(tvb,offset)) { case 0: /* ObjectIdentifier */ offset = fObjectIdentifier (tvb, tree, offset); break; case 1: /* PropertyIdentifier and propertyArrayIndex */ offset = fPropertyReference (tvb, tree, offset, 1, 0); default: lastoffset = offset; /* Set loop end condition */ break; } } return offset; } #if 0 static guint fObjectPropertyValue (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; guint8 tag_no, tag_info; guint32 lvt; proto_tree* subtree = tree; proto_item* tt; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (tag_is_closing(tag_info)) { offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); continue; } switch (tag_no) { case 0: /* ObjectIdentifier */ offset = fObjectIdentifier (tvb, subtree, offset); break; case 1: /* PropertyIdentifier */ offset = fPropertyIdentifier (tvb, subtree, offset); break; case 2: /* propertyArrayIndex */ offset = fUnsignedTag (tvb, subtree, offset, "property Array Index: "); break; case 3: /* Value */ if (tag_is_opening(tag_info)) { tt = proto_tree_add_text(subtree, tvb, offset, 1, "propertyValue"); subtree = proto_item_add_subtree(tt, ett_bacapp_value); offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); offset = fAbstractSyntaxNType (tvb, subtree, offset); break; } FAULT; break; case 4: /* Priority */ offset = fUnsignedTag (tvb, subtree, offset, "Priority: "); break; default: break; } } return offset; } #endif static guint fPriorityArray (tvbuff_t *tvb, proto_tree *tree, guint offset) { char i = 1, ar[256]; guint lastoffset = 0; if (propertyArrayIndex > 0) { /* BACnetARRAY index 0 refers to the length of the array, not the elements of the array. BACnetARRAY index -1 is our internal flag that the optional index was not used. BACnetARRAY refers to this as all elements of the array. If the optional index is specified for a BACnetARRAY, then that specific array element is referenced. */ i = propertyArrayIndex; } while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; g_snprintf (ar, sizeof(ar), "%s[%d]: ", val_to_split_str(87 , 512, BACnetPropertyIdentifier, ASHRAE_Reserved_Fmt, Vendor_Proprietary_Fmt), i++); /* DMR Should be fAbstractNSyntax, but that's where we came from! */ offset = fApplicationTypes(tvb, tree, offset, ar); /* there are only 16 priority array elements */ if (i > 16) { break; } } return offset; } static guint fDeviceObjectReference (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; switch (fTagNo(tvb,offset)) { case 0: /* deviceIdentifier - OPTIONAL */ offset = fObjectIdentifier (tvb, tree, offset); break; case 1: /* ObjectIdentifier */ offset = fObjectIdentifier (tvb, tree, offset); break; default: return offset; } } return offset; } static guint fSpecialEvent (tvbuff_t *tvb, proto_tree *subtree, guint offset) { guint8 tag_no, tag_info; guint32 lvt; guint lastoffset = 0; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (tag_is_closing(tag_info)) { continue; } switch (tag_no) { case 0: /* calendaryEntry */ if (tag_is_opening(tag_info)) { offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); offset = fCalendaryEntry (tvb, subtree, offset); offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); } break; case 1: /* calendarReference */ offset = fObjectIdentifier (tvb, subtree, offset); break; case 2: /* list of BACnetTimeValue */ if (tag_is_opening(tag_info)) { offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); offset = fTimeValue (tvb, subtree, offset); offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); break; } FAULT; break; case 3: /* eventPriority */ offset = fUnsignedTag (tvb, subtree, offset, "event priority: "); break; default: return offset; } } return offset; } static guint fSelectionCriteria (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; guint8 tag_no, tag_info; guint32 lvt; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (tag_is_closing(tag_info)) { /* stop when we hit outer closing tag */ continue; } switch (fTagNo(tvb,offset)) { case 0: /* propertyIdentifier */ offset = fPropertyIdentifier (tvb, tree, offset); break; case 1: /* propertyArrayIndex */ offset = fPropertyArrayIndex (tvb, tree, offset); break; case 2: /* relationSpecifier */ offset = fEnumeratedTag (tvb, tree, offset, "relation Specifier: ", BACnetRelationSpecifier); break; case 3: /* comparisonValue */ offset += fTagHeaderTree (tvb, tree, offset, &tag_no, &tag_info, &lvt); offset = fAbstractSyntaxNType (tvb, tree, offset); offset += fTagHeaderTree (tvb, tree, offset, &tag_no, &tag_info, &lvt); break; default: return offset; } } return offset; } static guint fObjectSelectionCriteria (tvbuff_t *tvb, proto_tree *subtree, guint offset) { guint lastoffset = 0; guint8 tag_no, tag_info; guint32 lvt; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (tag_is_closing(tag_info)) { /* stop when we hit outer closing tag */ continue; } switch (tag_no) { case 0: /* selectionLogic */ offset = fEnumeratedTag (tvb, subtree, offset, "selection Logic: ", BACnetSelectionLogic); break; case 1: /* listOfSelectionCriteria */ if (tag_is_opening(tag_info)) { offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); offset = fSelectionCriteria (tvb, subtree, offset); offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); break; } FAULT; break; default: return offset; } } return offset; } static guint fReadPropertyConditionalRequest(tvbuff_t *tvb, proto_tree *subtree, guint offset) { guint lastoffset = 0; guint8 tag_no, tag_info; guint32 lvt; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (tag_is_opening(tag_info) && tag_no < 2) { offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); switch (tag_no) { case 0: /* objectSelectionCriteria */ offset = fObjectSelectionCriteria (tvb, subtree, offset); break; case 1: /* listOfPropertyReferences */ offset = fBACnetPropertyReference (tvb, subtree, offset, 1); break; default: return offset; } offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); } } return offset; } static guint fReadAccessSpecification (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; guint8 tag_no, tag_info; guint32 lvt; proto_item *tt; proto_tree *subtree = tree; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); switch (tag_no) { case 0: /* objectIdentifier */ offset = fObjectIdentifier (tvb, subtree, offset); break; case 1: /* listOfPropertyReferences */ if (tag_is_opening(tag_info)) { tt = proto_tree_add_text(subtree, tvb, offset, 1, "listOfPropertyReferences"); subtree = proto_item_add_subtree(tt, ett_bacapp_value); offset += fTagHeaderTree(tvb, subtree, offset, &tag_no, &tag_info, &lvt); offset = fBACnetPropertyReference (tvb, subtree, offset, 1); } else if (tag_is_closing(tag_info)) { offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); subtree = tree; } else { /* error condition: let caller handle */ return offset; } break; default: return offset; } } return offset; } static guint fReadAccessResult (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; guint8 tag_no; guint8 tag_info; guint32 lvt; proto_tree *subtree = tree; proto_item *tt; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (tag_is_closing(tag_info)) { offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); if ((tag_no == 4 || tag_no == 5) && (subtree != tree)) subtree = subtree->parent; /* Value and error have extra subtree */ continue; } switch (tag_no) { case 0: /* objectSpecifier */ offset = fObjectIdentifier (tvb, subtree, offset); break; case 1: /* list of Results */ if (tag_is_opening(tag_info)) { tt = proto_tree_add_text(subtree, tvb, offset, 1, "listOfResults"); subtree = proto_item_add_subtree(tt, ett_bacapp_value); offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); break; } FAULT; break; case 2: /* propertyIdentifier */ offset = fPropertyValue(tvb, subtree, offset, 2); break; case 5: /* propertyAccessError */ if (tag_is_opening(tag_info)) { tt = proto_tree_add_text(subtree, tvb, offset, 1, "propertyAccessError"); subtree = proto_item_add_subtree(tt, ett_bacapp_value); offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); /* Error Code follows */ offset = fError(tvb, subtree, offset); break; } FAULT; break; default: return offset; } } return offset; } static guint fReadPropertyConditionalAck (tvbuff_t *tvb, proto_tree *tree, guint offset) { /* listOfReadAccessResults */ return fReadAccessResult (tvb, tree, offset); } static guint fCreateObjectRequest(tvbuff_t *tvb, proto_tree *subtree, guint offset) { guint lastoffset = 0; guint8 tag_no, tag_info; guint32 lvt; while ((tvb_length_remaining(tvb, offset) > 0) && (offset > lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (tag_no < 2) { offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); switch (tag_no) { case 0: /* objectSpecifier */ switch (fTagNo(tvb, offset)) { /* choice of objectType or objectIdentifier */ case 0: /* objectType */ offset = fEnumeratedTagSplit (tvb, subtree, offset, "Object Type: ", BACnetObjectType, 128); break; case 1: /* objectIdentifier */ offset = fObjectIdentifier (tvb, subtree, offset); break; default: break; } break; case 1: /* propertyValue */ if (tag_is_opening(tag_info)) { offset = fBACnetPropertyValue (tvb, subtree, offset); break; } FAULT; break; default: break; } offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); } } return offset; } static guint fCreateObjectAck (tvbuff_t *tvb, proto_tree *tree, guint offset) { return fObjectIdentifier (tvb, tree, offset); } static guint fReadRangeRequest (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint8 tag_no, tag_info; guint32 lvt; proto_tree *subtree = tree; proto_item *tt; offset = fBACnetObjectPropertyReference(tvb, subtree, offset); if (tvb_length_remaining(tvb, offset) > 0) { /* optional range choice */ fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (tag_is_opening(tag_info)) { tt = proto_tree_add_text(subtree, tvb, offset, 1, "%s", val_to_str(tag_no, BACnetReadRangeOptions, "unknown range option")); subtree = proto_item_add_subtree(tt, ett_bacapp_value); offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); switch (tag_no) { case 3: /* range byPosition */ case 6: /* range bySequenceNumber, 2004 spec */ offset = fApplicationTypes (tvb, subtree, offset, "reference Index: "); offset = fApplicationTypes (tvb, subtree, offset, "reference Count: "); break; case 4: /* range byTime - deprecated in 2004 */ case 7: /* 2004 spec */ offset = fDateTime(tvb, subtree, offset, "reference Date/Time: "); offset = fApplicationTypes (tvb, subtree, offset, "reference Count: "); break; case 5: /* range timeRange - deprecated in 2004 */ offset = fDateTime(tvb, subtree, offset, "beginning Time: "); offset = fDateTime(tvb, subtree, offset, "ending Time: "); break; default: break; } offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); } } return offset; } static guint fReadRangeAck (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint8 tag_no, tag_info; guint32 lvt; proto_tree *subtree = tree; proto_item *tt; /* set the optional global properties to indicate not-used */ propertyArrayIndex = -1; /* objectIdentifier, propertyIdentifier, and OPTIONAL propertyArrayIndex */ offset = fBACnetObjectPropertyReference(tvb, subtree, offset); /* resultFlags => BACnetResultFlags ::= BIT STRING */ offset = fBitStringTagVS (tvb, tree, offset, "resultFlags: ", BACnetResultFlags); /* itemCount */ offset = fUnsignedTag (tvb, subtree, offset, "item Count: "); /* itemData */ fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (tag_is_opening(tag_info)) { tt = proto_tree_add_text(subtree, tvb, offset, 1, "itemData"); subtree = proto_item_add_subtree(tt, ett_bacapp_value); offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); offset = fAbstractSyntaxNType (tvb, subtree, offset); offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); } /* firstSequenceNumber - OPTIONAL */ if (tvb_length_remaining(tvb, offset) > 0) { offset = fUnsignedTag (tvb, subtree, offset, "first Sequence Number: "); } return offset; } static guint fAccessMethod(tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; guint32 lvt; guint8 tag_no, tag_info; proto_item* tt; proto_tree* subtree = NULL; fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (tag_is_opening(tag_info)) { tt = proto_tree_add_text(tree, tvb, offset, 1, "%s", val_to_str(tag_no, BACnetFileAccessOption, "invalid access method")); subtree = proto_item_add_subtree(tt, ett_bacapp_value); offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); offset = fApplicationTypes (tvb, subtree, offset, val_to_str(tag_no, BACnetFileStartOption, "invalid option")); offset = fApplicationTypes (tvb, subtree, offset, val_to_str(tag_no, BACnetFileWriteInfo, "unknown option")); if (tag_no == 1) { while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; offset = fApplicationTypes (tvb, subtree, offset, "Record Data: "); } } if ((bacapp_flags & BACAPP_MORE_SEGMENTS) == 0) { /* More Flag is not set, so we can look for closing tag in this segment */ fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (tag_is_closing(tag_info)) { offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); } } } return offset; } static guint fAtomicReadFileRequest(tvbuff_t *tvb, proto_tree *tree, guint offset) { guint8 tag_no, tag_info; guint32 lvt; proto_tree *subtree = tree; proto_item *tt; offset = fObjectIdentifier (tvb, tree, offset); fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); if (tag_is_opening(tag_info)) { tt = proto_tree_add_text(subtree, tvb, offset, 1, "%s", val_to_str(tag_no, BACnetFileAccessOption, "unknown access method")); subtree = proto_item_add_subtree(tt, ett_bacapp_value); offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); offset = fSignedTag (tvb, subtree, offset, val_to_str(tag_no, BACnetFileStartOption, "unknown option")); offset = fUnsignedTag (tvb, subtree, offset, val_to_str(tag_no, BACnetFileRequestCount, "unknown option")); offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); } return offset; } static guint fAtomicWriteFileRequest(tvbuff_t *tvb, proto_tree *tree, guint offset) { offset = fObjectIdentifier (tvb, tree, offset); /* file Identifier */ offset = fAccessMethod(tvb, tree, offset); return offset; } static guint fAtomicWriteFileAck (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint tag_no = fTagNo(tvb, offset); return fSignedTag (tvb, tree, offset, val_to_str(tag_no, BACnetFileStartOption, "unknown option")); } static guint fAtomicReadFileAck (tvbuff_t *tvb, proto_tree *tree, guint offset) { offset = fApplicationTypes (tvb, tree, offset, "End Of File: "); offset = fAccessMethod(tvb, tree, offset); return offset; } static guint fReadPropertyMultipleRequest(tvbuff_t *tvb, proto_tree *subtree, guint offset) { return fReadAccessSpecification (tvb,subtree,offset); } static guint fReadPropertyMultipleAck (tvbuff_t *tvb, proto_tree *tree, guint offset) { return fReadAccessResult (tvb,tree,offset); } static guint fConfirmedServiceRequest (tvbuff_t *tvb, proto_tree *tree, guint offset, gint service_choice) { if (tvb_length_remaining(tvb,offset) <= 0) return offset; switch (service_choice) { case 0: /* acknowledgeAlarm */ offset = fAcknowledgeAlarmRequest (tvb, tree, offset); break; case 1: /* confirmedCOVNotification */ offset = fConfirmedCOVNotificationRequest (tvb, tree, offset); break; case 2: /* confirmedEventNotification */ offset = fConfirmedEventNotificationRequest (tvb, tree, offset); break; case 3: /* confirmedGetAlarmSummary conveys no parameters */ break; case 4: /* getEnrollmentSummaryRequest */ offset = fGetEnrollmentSummaryRequest (tvb, tree, offset); break; case 5: /* subscribeCOVRequest */ offset = fSubscribeCOVRequest(tvb, tree, offset); break; case 6: /* atomicReadFile-Request */ offset = fAtomicReadFileRequest(tvb, tree, offset); break; case 7: /* atomicWriteFile-Request */ offset = fAtomicWriteFileRequest(tvb, tree, offset); break; case 8: /* AddListElement-Request */ offset = fAddListElementRequest(tvb, tree, offset); break; case 9: /* removeListElement-Request */ offset = fRemoveListElementRequest(tvb, tree, offset); break; case 10: /* createObjectRequest */ offset = fCreateObjectRequest(tvb, tree, offset); break; case 11: /* deleteObject */ offset = fDeleteObjectRequest(tvb, tree, offset); break; case 12: offset = fReadPropertyRequest(tvb, tree, offset); break; case 13: offset = fReadPropertyConditionalRequest(tvb, tree, offset); break; case 14: offset = fReadPropertyMultipleRequest(tvb, tree, offset); break; case 15: offset = fWritePropertyRequest(tvb, tree, offset); break; case 16: offset = fWritePropertyMultipleRequest(tvb, tree, offset); break; case 17: offset = fDeviceCommunicationControlRequest(tvb, tree, offset); break; case 18: offset = fConfirmedPrivateTransferRequest(tvb, tree, offset); break; case 19: offset = fConfirmedTextMessageRequest(tvb, tree, offset); break; case 20: offset = fReinitializeDeviceRequest(tvb, tree, offset); break; case 21: offset = fVtOpenRequest(tvb, tree, offset); break; case 22: offset = fVtCloseRequest (tvb, tree, offset); break; case 23: offset = fVtDataRequest (tvb, tree, offset); break; case 24: offset = fAuthenticateRequest (tvb, tree, offset); break; case 25: offset = fRequestKeyRequest (tvb, tree, offset); break; case 26: offset = fReadRangeRequest (tvb, tree, offset); break; case 27: offset = fLifeSafetyOperationRequest(tvb, tree, offset, NULL); break; case 28: offset = fSubscribeCOVPropertyRequest(tvb, tree, offset); break; case 29: offset = fGetEventInformationRequest (tvb, tree, offset); break; default: return offset; } return offset; } static guint fConfirmedServiceAck (tvbuff_t *tvb, proto_tree *tree, guint offset, gint service_choice) { if (tvb_length_remaining(tvb,offset) <= 0) return offset; switch (service_choice) { case 3: /* confirmedEventNotificationAck */ offset = fGetAlarmSummaryAck (tvb, tree, offset); break; case 4: /* getEnrollmentSummaryAck */ offset = fGetEnrollmentSummaryAck (tvb, tree, offset); break; case 6: /* atomicReadFile */ offset = fAtomicReadFileAck (tvb, tree, offset); break; case 7: /* atomicReadFileAck */ offset = fAtomicWriteFileAck (tvb, tree, offset); break; case 10: /* createObject */ offset = fCreateObjectAck (tvb, tree, offset); break; case 12: offset = fReadPropertyAck (tvb, tree, offset); break; case 13: offset = fReadPropertyConditionalAck (tvb, tree, offset); break; case 14: offset = fReadPropertyMultipleAck (tvb, tree, offset); break; case 18: offset = fConfirmedPrivateTransferAck(tvb, tree, offset); break; case 21: offset = fVtOpenAck (tvb, tree, offset); break; case 23: offset = fVtDataAck (tvb, tree, offset); break; case 24: offset = fAuthenticateAck (tvb, tree, offset); break; case 26: offset = fReadRangeAck (tvb, tree, offset); break; case 29: offset = fGetEventInformationACK (tvb, tree, offset); break; default: return offset; } return offset; } static guint fIAmRequest (tvbuff_t *tvb, proto_tree *tree, guint offset) { /* BACnetObjectIdentifier */ offset = fApplicationTypes (tvb, tree, offset, "BACnet Object Identifier: "); /* MaxAPDULengthAccepted */ offset = fApplicationTypes (tvb, tree, offset, "Maximum ADPU Length Accepted: "); /* segmentationSupported */ offset = fApplicationTypesEnumerated (tvb, tree, offset, "Segmentation Supported: ", BACnetSegmentation); /* vendor ID */ return fVendorIdentifier (tvb, tree, offset); } static guint fIHaveRequest (tvbuff_t *tvb, proto_tree *tree, guint offset) { /* BACnetDeviceIdentifier */ offset = fApplicationTypes (tvb, tree, offset, "Device Identifier: "); /* BACnetObjectIdentifier */ offset = fApplicationTypes (tvb, tree, offset, "Object Identifier: "); /* ObjectName */ return fApplicationTypes (tvb, tree, offset, "Object Name: "); } static guint fWhoIsRequest (tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; switch (fTagNo(tvb, offset)) { case 0: /* DeviceInstanceRangeLowLimit Optional */ offset = fUnsignedTag (tvb, tree, offset, "Device Instance Range Low Limit: "); break; case 1: /* DeviceInstanceRangeHighLimit Optional but required if DeviceInstanceRangeLowLimit is there */ offset = fUnsignedTag (tvb, tree, offset, "Device Instance Range High Limit: "); break; default: return offset; } } return offset; } static guint fUnconfirmedServiceRequest (tvbuff_t *tvb, proto_tree *tree, guint offset, gint service_choice) { if (tvb_length_remaining(tvb,offset) <= 0) return offset; switch (service_choice) { case 0: /* I-Am-Request */ offset = fIAmRequest (tvb, tree, offset); break; case 1: /* i-Have Request */ offset = fIHaveRequest (tvb, tree, offset); break; case 2: /* unconfirmedCOVNotification */ offset = fUnconfirmedCOVNotificationRequest (tvb, tree, offset); break; case 3: /* unconfirmedEventNotification */ offset = fUnconfirmedEventNotificationRequest (tvb, tree, offset); break; case 4: /* unconfirmedPrivateTransfer */ offset = fUnconfirmedPrivateTransferRequest(tvb, tree, offset); break; case 5: /* unconfirmedTextMessage */ offset = fUnconfirmedTextMessageRequest(tvb, tree, offset); break; case 6: /* timeSynchronization */ offset = fTimeSynchronizationRequest (tvb, tree, offset); break; case 7: /* who-Has */ offset = fWhoHas (tvb, tree, offset); break; case 8: /* who-Is */ offset = fWhoIsRequest (tvb, tree, offset); break; case 9: /* utcTimeSynchronization */ offset = fUTCTimeSynchronizationRequest (tvb, tree, offset); break; default: break; } return offset; } static guint fStartConfirmed(tvbuff_t *tvb, proto_tree *bacapp_tree, guint offset, guint8 ack, gint *svc, proto_item **tt) { proto_item *tc; proto_tree *bacapp_tree_control; gint tmp, bacapp_type; guint extra = 2; bacapp_seq = 0; tmp = (gint) tvb_get_guint8(tvb, offset); bacapp_type = (tmp >> 4) & 0x0f; bacapp_flags = tmp & 0x0f; if (ack == 0) { extra = 3; } *svc = (gint) tvb_get_guint8(tvb, offset+extra); if (bacapp_flags & 0x08) *svc = (gint) tvb_get_guint8(tvb, offset+extra+2); proto_tree_add_item(bacapp_tree, hf_bacapp_type, tvb, offset, 1, TRUE); tc = proto_tree_add_item(bacapp_tree, hf_bacapp_pduflags, tvb, offset, 1, TRUE); bacapp_tree_control = proto_item_add_subtree(tc, ett_bacapp_control); proto_tree_add_item(bacapp_tree_control, hf_bacapp_SEG, tvb, offset, 1, TRUE); proto_tree_add_item(bacapp_tree_control, hf_bacapp_MOR, tvb, offset, 1, TRUE); if (ack == 0) /* The following are for ConfirmedRequest, not Complex ack */ { proto_tree_add_item(bacapp_tree_control, hf_bacapp_SA, tvb, offset++, 1, TRUE); proto_tree_add_item(bacapp_tree, hf_bacapp_response_segments, tvb, offset, 1, TRUE); proto_tree_add_item(bacapp_tree, hf_bacapp_max_adpu_size, tvb, offset, 1, TRUE); } offset++; proto_tree_add_item(bacapp_tree, hf_bacapp_invoke_id, tvb, offset++, 1, TRUE); if (bacapp_flags & 0x08) { bacapp_seq = tvb_get_guint8(tvb, offset); proto_tree_add_item(bacapp_tree_control, hf_bacapp_sequence_number, tvb, offset++, 1, TRUE); proto_tree_add_item(bacapp_tree_control, hf_bacapp_window_size, tvb, offset++, 1, TRUE); } *tt = proto_tree_add_item(bacapp_tree, hf_bacapp_service, tvb, offset++, 1, TRUE); return offset; } static guint fConfirmedRequestPDU(tvbuff_t *tvb, proto_tree *bacapp_tree, guint offset) { /* BACnet-Confirmed-Request */ /* ASHRAE 135-2001 20.1.2 */ gint svc; proto_item *tt = 0; offset = fStartConfirmed(tvb, bacapp_tree, offset, 0, &svc, &tt); if (bacapp_seq > 0) /* Can't handle continuation segments, so just treat as data */ { proto_tree_add_text(bacapp_tree, tvb, offset, 0, "(continuation)"); return offset; } else { /* Service Request follows... Variable Encoding 20.2ff */ return fConfirmedServiceRequest (tvb, bacapp_tree, offset, svc); } } static guint fUnconfirmedRequestPDU(tvbuff_t *tvb, proto_tree *bacapp_tree, guint offset) { /* BACnet-Unconfirmed-Request-PDU */ /* ASHRAE 135-2001 20.1.3 */ gint tmp; proto_tree_add_item(bacapp_tree, hf_bacapp_type, tvb, offset++, 1, TRUE); tmp = tvb_get_guint8(tvb, offset); proto_tree_add_item(bacapp_tree, hf_bacapp_uservice, tvb, offset++, 1, TRUE); /* Service Request follows... Variable Encoding 20.2ff */ return fUnconfirmedServiceRequest (tvb, bacapp_tree, offset, tmp); } static guint fSimpleAckPDU(tvbuff_t *tvb, proto_tree *bacapp_tree, guint offset) { /* BACnet-Simple-Ack-PDU */ /* ASHRAE 135-2001 20.1.4 */ proto_item *tc; tc = proto_tree_add_item(bacapp_tree, hf_bacapp_type, tvb, offset++, 1, TRUE); proto_tree_add_item(bacapp_tree, hf_bacapp_invoke_id, tvb, offset++, 1, TRUE); proto_tree_add_item(bacapp_tree, hf_bacapp_service, tvb, offset++, 1, TRUE); return offset; } static guint fComplexAckPDU(tvbuff_t *tvb, proto_tree *bacapp_tree, guint offset) { /* BACnet-Complex-Ack-PDU */ /* ASHRAE 135-2001 20.1.5 */ gint svc; proto_item *tt = 0; offset = fStartConfirmed(tvb, bacapp_tree, offset, 1, &svc, &tt); if (bacapp_seq > 0) /* Can't handle continuation segments, so just treat as data */ { proto_tree_add_text(bacapp_tree, tvb, offset, 0, "(continuation)"); return offset; } else { /* Service ACK follows... */ return fConfirmedServiceAck (tvb, bacapp_tree, offset, svc); } } static guint fSegmentAckPDU(tvbuff_t *tvb, proto_tree *bacapp_tree, guint offset) { /* BACnet-SegmentAck-PDU */ /* ASHRAE 135-2001 20.1.6 */ proto_item *tc; proto_tree *bacapp_tree_control; tc = proto_tree_add_item(bacapp_tree, hf_bacapp_type, tvb, offset, 1, TRUE); bacapp_tree_control = proto_item_add_subtree(tc, ett_bacapp); proto_tree_add_item(bacapp_tree, hf_bacapp_NAK, tvb, offset, 1, TRUE); proto_tree_add_item(bacapp_tree, hf_bacapp_SRV, tvb, offset++, 1, TRUE); proto_tree_add_item(bacapp_tree, hf_bacapp_invoke_id, tvb, offset++, 1, TRUE); proto_tree_add_item(bacapp_tree, hf_bacapp_sequence_number, tvb, offset++, 1, TRUE); proto_tree_add_item(bacapp_tree, hf_bacapp_window_size, tvb, offset++, 1, TRUE); return offset; } static guint fContextTaggedError(tvbuff_t *tvb, proto_tree *tree, guint offset) { guint8 tag_info = 0; guint8 parsed_tag = 0; guint32 lvt = 0; offset += fTagHeaderTree(tvb, tree, offset, &parsed_tag, &tag_info, &lvt); offset = fError(tvb, tree, offset); return offset + fTagHeaderTree(tvb, tree, offset, &parsed_tag, &tag_info, &lvt); } static guint fConfirmedPrivateTransferError(tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; guint8 tag_no = 0, tag_info = 0; guint32 lvt = 0; proto_tree *subtree = tree; proto_item *tt; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; fTagHeader (tvb, offset, &tag_no, &tag_info, &lvt); switch (tag_no) { case 0: /* errorType */ offset = fContextTaggedError(tvb, subtree, offset); break; case 1: /* vendorID */ offset = fVendorIdentifier (tvb, subtree, offset); break; case 2: /* serviceNumber */ offset = fUnsignedTag (tvb, subtree, offset, "service Number: "); break; case 3: /* errorParameters */ if (tag_is_opening(tag_info)) { tt = proto_tree_add_text(subtree, tvb, offset, 1, "error Parameters"); subtree = proto_item_add_subtree(tt, ett_bacapp_value); propertyIdentifier = -1; offset += fTagHeaderTree(tvb, subtree, offset, &tag_no, &tag_info, &lvt); offset = fAbstractSyntaxNType (tvb, subtree, offset); } else if (tag_is_closing(tag_info)) { offset += fTagHeaderTree (tvb, subtree, offset, &tag_no, &tag_info, &lvt); subtree = tree; } else { /* error condition: let caller handle */ return offset; } break; default: return offset; } } return offset; } static guint fCreateObjectError(tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; switch (fTagNo(tvb, offset)) { case 0: /* errorType */ offset = fContextTaggedError(tvb,tree,offset); break; case 1: /* firstFailedElementNumber */ offset = fUnsignedTag (tvb,tree,offset,"first failed element number: "); break; default: return offset; } } return offset; } static guint fChangeListError(tvbuff_t *tvb, proto_tree *tree, guint offset) { /* Identical to CreateObjectError */ return fCreateObjectError(tvb, tree, offset); } static guint fVTCloseError(tvbuff_t *tvb, proto_tree *tree, guint offset) { guint8 tag_no = 0, tag_info = 0; guint32 lvt = 0; if (fTagNo(tvb, offset) == 0) { /* errorType */ offset = fContextTaggedError(tvb,tree,offset); if (fTagNo(tvb, offset) == 1) { /* listOfVTSessionIdentifiers [OPTIONAL] */ offset += fTagHeaderTree(tvb, tree, offset, &tag_no, &tag_info, &lvt); offset = fVtCloseRequest (tvb, tree, offset); offset += fTagHeaderTree(tvb, tree, offset, &tag_no, &tag_info, &lvt); } } /* should report bad packet if initial tag wasn't 0 */ return offset; } static guint fWritePropertyMultipleError(tvbuff_t *tvb, proto_tree *tree, guint offset) { guint lastoffset = 0; guint8 tag_no = 0, tag_info = 0; guint32 lvt = 0; while ((tvb_length_remaining(tvb, offset) > 0)&&(offset>lastoffset)) { /* exit loop if nothing happens inside */ lastoffset = offset; switch (fTagNo(tvb, offset)) { case 0: /* errorType */ offset = fContextTaggedError(tvb,tree,offset); break; case 1: /* firstFailedWriteAttempt */ offset += fTagHeaderTree(tvb, tree, offset, &tag_no, &tag_info, &lvt); offset = fBACnetObjectPropertyReference(tvb, tree, offset); offset += fTagHeaderTree(tvb, tree, offset, &tag_no, &tag_info, &lvt); break; default: return offset; } } return offset; } static guint fError (tvbuff_t *tvb, proto_tree *tree, guint offset) { offset = fApplicationTypesEnumeratedSplit (tvb, tree, offset, "error Class: ", BACnetErrorClass, 64); return fApplicationTypesEnumeratedSplit (tvb, tree, offset, "error Code: ", BACnetErrorCode, 256); } static guint fBACnetError (tvbuff_t *tvb, proto_tree *tree, guint offset, guint service) { switch (service) { case 8: /* no break here !!!! */ case 9: offset = fChangeListError (tvb, tree, offset); break; case 10: offset = fCreateObjectError (tvb,tree,offset); break; case 16: offset = fWritePropertyMultipleError (tvb,tree,offset); break; case 18: offset = fConfirmedPrivateTransferError (tvb,tree,offset); break; case 22: offset = fVTCloseError (tvb,tree,offset); break; default: return fError (tvb, tree, offset); } return offset; } static guint fErrorPDU(tvbuff_t *tvb, proto_tree *bacapp_tree, guint offset) { /* BACnet-Error-PDU */ /* ASHRAE 135-2001 20.1.7 */ proto_item *tc, *tt; proto_tree *bacapp_tree_control; guint8 tmp; tc = proto_tree_add_item(bacapp_tree, hf_bacapp_type, tvb, offset++, 1, TRUE); bacapp_tree_control = proto_item_add_subtree(tc, ett_bacapp); proto_tree_add_item(bacapp_tree, hf_bacapp_invoke_id, tvb, offset++, 1, TRUE); tmp = tvb_get_guint8(tvb, offset); tt = proto_tree_add_item(bacapp_tree, hf_bacapp_service, tvb, offset++, 1, TRUE); /* Error Handling follows... */ return fBACnetError (tvb, bacapp_tree, offset, tmp); } static guint fRejectPDU(tvbuff_t *tvb, proto_tree *bacapp_tree, guint offset) { /* BACnet-Reject-PDU */ /* ASHRAE 135-2001 20.1.8 */ proto_item *tc; proto_tree *bacapp_tree_control; tc = proto_tree_add_item(bacapp_tree, hf_bacapp_type, tvb, offset++, 1, TRUE); bacapp_tree_control = proto_item_add_subtree(tc, ett_bacapp); proto_tree_add_item(bacapp_tree, hf_bacapp_invoke_id, tvb, offset++, 1, TRUE); proto_tree_add_item(bacapp_tree, hf_BACnetRejectReason, tvb, offset++, 1, TRUE); return offset; } static guint fAbortPDU(tvbuff_t *tvb, proto_tree *bacapp_tree, guint offset) { /* BACnet-Abort-PDU */ /* ASHRAE 135-2001 20.1.9 */ proto_item *tc; proto_tree *bacapp_tree_control; tc = proto_tree_add_item(bacapp_tree, hf_bacapp_type, tvb, offset, 1, TRUE); bacapp_tree_control = proto_item_add_subtree(tc, ett_bacapp); proto_tree_add_item(bacapp_tree, hf_bacapp_SRV, tvb, offset++, 1, TRUE); proto_tree_add_item(bacapp_tree, hf_bacapp_invoke_id, tvb, offset++, 1, TRUE); proto_tree_add_item(bacapp_tree, hf_BACnetAbortReason, tvb, offset++, 1, TRUE); return offset; } void dissect_bacapp(tvbuff_t *tvb, packet_info *pinfo, proto_tree *tree) { gint8 tmp, bacapp_type; tvbuff_t *next_tvb; guint offset = 0; guint8 bacapp_service, bacapp_reason; guint8 bacapp_invoke_id; proto_item *ti; proto_tree *bacapp_tree; if (check_col(pinfo->cinfo, COL_PROTOCOL)) col_set_str(pinfo->cinfo, COL_PROTOCOL, "BACnet-APDU"); if (check_col(pinfo->cinfo, COL_INFO)) col_set_str(pinfo->cinfo, COL_INFO, "BACnet APDU "); tmp = (gint) tvb_get_guint8(tvb, 0); bacapp_type = (tmp >> 4) & 0x0f; /* show some descriptive text in the INFO column */ if (check_col(pinfo->cinfo, COL_INFO)) { col_clear(pinfo->cinfo, COL_INFO); col_add_str(pinfo->cinfo, COL_INFO, val_to_str(bacapp_type, BACnetTypeName, "#### unknown APDU ##### ")); switch (bacapp_type) { case BACAPP_TYPE_CONFIRMED_SERVICE_REQUEST: /* segmented messages have 2 additional bytes */ if (tmp & BACAPP_SEGMENTED_REQUEST) { bacapp_invoke_id = tvb_get_guint8(tvb, offset + 4); bacapp_service = tvb_get_guint8(tvb, offset + 5); } else { bacapp_invoke_id = tvb_get_guint8(tvb, offset + 2); bacapp_service = tvb_get_guint8(tvb, offset + 3); } col_append_fstr(pinfo->cinfo, COL_INFO, "[invoke:%d]: %s", bacapp_invoke_id, val_to_str(bacapp_service, BACnetConfirmedServiceChoice, bacapp_unknown_service_str)); break; case BACAPP_TYPE_UNCONFIRMED_SERVICE_REQUEST: bacapp_service = tvb_get_guint8(tvb, offset + 1); col_append_fstr(pinfo->cinfo, COL_INFO, ": %s", val_to_str(bacapp_service, BACnetUnconfirmedServiceChoice, bacapp_unknown_service_str)); break; case BACAPP_TYPE_SIMPLE_ACK: bacapp_invoke_id = tvb_get_guint8(tvb, offset + 1); bacapp_service = tvb_get_guint8(tvb, offset + 2); col_append_fstr(pinfo->cinfo, COL_INFO, "[invoke:%d]: %s", bacapp_invoke_id, val_to_str(bacapp_service, BACnetConfirmedServiceChoice, bacapp_unknown_service_str)); break; case BACAPP_TYPE_COMPLEX_ACK: /* segmented messages have 2 additional bytes */ if (tmp & BACAPP_SEGMENTED_REQUEST) { bacapp_invoke_id = tvb_get_guint8(tvb, offset + 3); bacapp_service = tvb_get_guint8(tvb, offset + 4); } else { bacapp_invoke_id = tvb_get_guint8(tvb, offset + 1); bacapp_service = tvb_get_guint8(tvb, offset + 2); } col_append_fstr(pinfo->cinfo, COL_INFO, "[invoke:%d]: %s", bacapp_invoke_id, val_to_str(bacapp_service, BACnetConfirmedServiceChoice, bacapp_unknown_service_str)); break; case BACAPP_TYPE_SEGMENT_ACK: /* nothing more to add */ break; case BACAPP_TYPE_ERROR: bacapp_invoke_id = tvb_get_guint8(tvb, offset + 1); bacapp_service = tvb_get_guint8(tvb, offset + 2); col_append_fstr(pinfo->cinfo, COL_INFO, "[invoke:%d]: %s", bacapp_invoke_id, val_to_str(bacapp_service, BACnetConfirmedServiceChoice, bacapp_unknown_service_str)); break; case BACAPP_TYPE_REJECT: bacapp_invoke_id = tvb_get_guint8(tvb, offset + 1); bacapp_reason = tvb_get_guint8(tvb, offset + 2); col_append_fstr(pinfo->cinfo, COL_INFO, "[invoke:%d]: %s", bacapp_invoke_id, val_to_split_str(bacapp_reason, 64, BACnetRejectReason, ASHRAE_Reserved_Fmt, Vendor_Proprietary_Fmt)); break; case BACAPP_TYPE_ABORT: bacapp_invoke_id = tvb_get_guint8(tvb, offset + 1); bacapp_reason = tvb_get_guint8(tvb, offset + 2); col_append_fstr(pinfo->cinfo, COL_INFO, "[invoke:%d]: %s", bacapp_invoke_id, val_to_split_str(bacapp_reason, 64, BACnetAbortReason, ASHRAE_Reserved_Fmt, Vendor_Proprietary_Fmt)); break; /* UNKNOWN */ default: /* nothing more to add */ break; } } if (tree) { ti = proto_tree_add_item(tree, proto_bacapp, tvb, offset, -1, FALSE); bacapp_tree = proto_item_add_subtree(ti, ett_bacapp); /* ASHRAE 135-2001 20.1.1 */ switch (bacapp_type) { case BACAPP_TYPE_CONFIRMED_SERVICE_REQUEST: /* BACnet-Confirmed-Service-Request */ offset = fConfirmedRequestPDU(tvb, bacapp_tree, offset); break; case BACAPP_TYPE_UNCONFIRMED_SERVICE_REQUEST: /* BACnet-Unconfirmed-Request-PDU */ offset = fUnconfirmedRequestPDU(tvb, bacapp_tree, offset); break; case BACAPP_TYPE_SIMPLE_ACK: /* BACnet-Simple-Ack-PDU */ offset = fSimpleAckPDU(tvb, bacapp_tree, offset); break; case BACAPP_TYPE_COMPLEX_ACK: /* BACnet-Complex-Ack-PDU */ offset = fComplexAckPDU(tvb, bacapp_tree, offset); break; case BACAPP_TYPE_SEGMENT_ACK: /* BACnet-SegmentAck-PDU */ offset = fSegmentAckPDU(tvb, bacapp_tree, offset); break; case BACAPP_TYPE_ERROR: /* BACnet-Error-PDU */ offset = fErrorPDU(tvb, bacapp_tree, offset); break; case BACAPP_TYPE_REJECT: /* BACnet-Reject-PDU */ offset = fRejectPDU(tvb, bacapp_tree, offset); break; case BACAPP_TYPE_ABORT: /* BACnet-Abort-PDU */ offset = fAbortPDU(tvb, bacapp_tree, offset); break; } } next_tvb = tvb_new_subset(tvb,offset,-1,tvb_length_remaining(tvb,offset)); call_dissector(data_handle,next_tvb, pinfo, tree); } void proto_register_bacapp(void) { static hf_register_info hf[] = { { &hf_bacapp_type, { "APDU Type", "bacapp.type", FT_UINT8, BASE_DEC, VALS(BACnetTypeName), 0xf0, "APDU Type", HFILL } }, { &hf_bacapp_pduflags, { "PDU Flags", "bacapp.pduflags", FT_UINT8, BASE_HEX, NULL, 0x0f, "PDU Flags", HFILL } }, { &hf_bacapp_SEG, { "Segmented Request", "bacapp.segmented_request", FT_BOOLEAN, 8, TFS(&segments_follow), 0x08, "Segmented Request", HFILL } }, { &hf_bacapp_MOR, { "More Segments", "bacapp.more_segments", FT_BOOLEAN, 8, TFS(&more_follow), 0x04, "More Segments Follow", HFILL } }, { &hf_bacapp_SA, { "SA", "bacapp.SA", FT_BOOLEAN, 8, TFS(&segmented_accept), 0x02, "Segmented Response accepted", HFILL } }, { &hf_bacapp_max_adpu_size, { "Size of Maximum ADPU accepted", "bacapp.max_adpu_size", FT_UINT8, BASE_DEC, VALS(BACnetMaxAPDULengthAccepted), 0x0f, "Size of Maximum ADPU accepted", HFILL } }, { &hf_bacapp_response_segments, { "Max Response Segments accepted", "bacapp.response_segments", FT_UINT8, BASE_DEC, VALS(BACnetMaxSegmentsAccepted), 0x70, "Max Response Segments accepted", HFILL } }, { &hf_bacapp_objectType, { "Object Type", "bacapp.objectType", FT_UINT32, BASE_DEC, VALS(BACnetObjectType), 0xffc00000, "Object Type", HFILL } }, { &hf_bacapp_instanceNumber, { "Instance Number", "bacapp.instance_number", FT_UINT32, BASE_DEC, NULL, 0x003fffff, "Instance Number", HFILL } }, { &hf_BACnetPropertyIdentifier, { "Property Identifier", "bacapp.property_identifier", FT_UINT32, BASE_DEC, VALS(BACnetPropertyIdentifier), 0, "Property Identifier", HFILL } }, { &hf_BACnetVendorIdentifier, { "Vendor Identifier", "bacapp.vendor_identifier", FT_UINT16, BASE_DEC, VALS(BACnetVendorIdentifiers), 0, "Vendor Identifier", HFILL } }, { &hf_bacapp_invoke_id, { "Invoke ID", "bacapp.invoke_id", FT_UINT8, BASE_DEC, NULL, 0, "Invoke ID", HFILL } }, { &hf_bacapp_sequence_number, { "Sequence Number", "bacapp.sequence_number", FT_UINT8, BASE_DEC, NULL, 0, "Sequence Number", HFILL } }, { &hf_bacapp_window_size, { "Proposed Window Size", "bacapp.window_size", FT_UINT8, BASE_DEC, NULL, 0, "Proposed Window Size", HFILL } }, { &hf_bacapp_service, { "Service Choice", "bacapp.confirmed_service", FT_UINT8, BASE_DEC, VALS(BACnetConfirmedServiceChoice), 0x00, "Service Choice", HFILL } }, { &hf_bacapp_uservice, { "Unconfirmed Service Choice", "bacapp.unconfirmed_service", FT_UINT8, BASE_DEC, VALS(BACnetUnconfirmedServiceChoice), 0x00, "Unconfirmed Service Choice", HFILL } }, { &hf_bacapp_NAK, { "NAK", "bacapp.NAK", FT_BOOLEAN, 8, NULL, 0x02, "negative ACK", HFILL } }, { &hf_bacapp_SRV, { "SRV", "bacapp.SRV", FT_BOOLEAN, 8, NULL, 0x01, "Server", HFILL } }, { &hf_BACnetRejectReason, { "Reject Reason", "bacapp.reject_reason", FT_UINT8, BASE_DEC, VALS(BACnetRejectReason), 0x00, "Reject Reason", HFILL } }, { &hf_BACnetAbortReason, { "Abort Reason", "bacapp.abort_reason", FT_UINT8, BASE_DEC, VALS(BACnetAbortReason), 0x00, "Abort Reason", HFILL } }, { &hf_bacapp_vpart, { "BACnet APDU variable part:", "bacapp.variable_part", FT_NONE, 0, NULL, 0, "BACnet APDU variable part", HFILL } }, { &hf_bacapp_tag, { "BACnet Tag", "bacapp.tag", FT_BYTES, BASE_HEX, NULL, 0, "BACnet Tag", HFILL } }, { &hf_BACnetApplicationTagNumber, { "Application Tag Number", "bacapp.application_tag_number", FT_UINT8, BASE_DEC, VALS(&BACnetApplicationTagNumber), 0xF0, "Application Tag Number", HFILL } }, { &hf_BACnetContextTagNumber, { "Context Tag Number", "bacapp.context_tag_number", FT_UINT8, BASE_DEC, NULL, 0xF0, "Context Tag Number", HFILL } }, { &hf_BACnetExtendedTagNumber, { "Extended Tag Number", "bacapp.extended_tag_number", FT_UINT8, BASE_DEC, NULL, 0, "Extended Tag Number", HFILL } }, { &hf_BACnetNamedTag, { "Named Tag", "bacapp.named_tag", FT_UINT8, BASE_DEC, VALS(&BACnetTagNames), 0x07, "Named Tag", HFILL } }, { &hf_BACnetCharacterSet, { "String Character Set", "bacapp.string_character_set", FT_UINT8, BASE_DEC, VALS(&BACnetCharacterSet),0, "String Character Set", HFILL } }, { &hf_BACnetTagClass, { "Tag Class", "bacapp.tag_class", FT_BOOLEAN, 8, TFS(&BACnetTagClass), 0x08, "Tag Class", HFILL } }, { &hf_bacapp_tag_lvt, { "Length Value Type", "bacapp.LVT", FT_UINT8, BASE_DEC, NULL, 0, "Length Value Type", HFILL } }, { &hf_bacapp_tag_value8, { "Tag Value", "bacapp.tag_value8", FT_UINT8, BASE_DEC, NULL, 0, "Tag Value", HFILL } }, { &hf_bacapp_tag_value16, { "Tag Value 16-bit", "bacapp.tag_value16", FT_UINT16, BASE_DEC, NULL, 0, "Tag Value 16-bit", HFILL } }, { &hf_bacapp_tag_value32, { "Tag Value 32-bit", "bacapp.tag_value32", FT_UINT32, BASE_DEC, NULL, 0, "Tag Value 32-bit", HFILL } }, { &hf_bacapp_tag_ProcessId, { "ProcessIdentifier", "bacapp.processId", FT_UINT32, BASE_DEC, NULL, 0, "Process Identifier", HFILL } }, { &hf_bacapp_tag_initiatingObjectType, { "ObjectType", "bacapp.objectType", FT_UINT16, BASE_DEC, VALS(BACnetObjectType), 0x00, "Object Type", HFILL } } }; static gint *ett[] = { &ett_bacapp, &ett_bacapp_control, &ett_bacapp_tag, &ett_bacapp_list, &ett_bacapp_value }; proto_bacapp = proto_register_protocol("Building Automation and Control Network APDU", "BACapp", "bacapp"); proto_register_field_array(proto_bacapp, hf, array_length(hf)); proto_register_subtree_array(ett, array_length(ett)); register_dissector("bacapp", dissect_bacapp, proto_bacapp); } void proto_reg_handoff_bacapp(void) { data_handle = find_dissector("data"); } guint32 fConvertXXXtoUTF8 (gchar *in, size_t *inbytesleft, gchar *out, size_t *outbytesleft, const gchar *fromcoding) { guint32 i; GIConv icd; if ((icd = g_iconv_open ("UTF-8", fromcoding)) != (GIConv) -1) { i = g_iconv (icd, &in, inbytesleft, &out, outbytesleft); /* g_iconv incremented 'out'; now ensure it's NULL terminated */ out[0] = '\0'; g_iconv_close (icd); return i; } memcpy (out, in, *inbytesleft); out[*inbytesleft] = '\0'; *outbytesleft -= *inbytesleft; *inbytesleft = 0; return 0; }