feat: add "iso1" prefix to Document and Fragment structures/defines to avoid collisions if multiple codecs are used in parallel (e.g., din and iso)

git-svn-id: https://svn.code.sf.net/p/openv2g/code/trunk@115 d9f2db14-54d0-4bde-b00c-16405c910529
This commit is contained in:
daniel_peintner 2019-07-08 14:21:08 +00:00
parent 912aa5f2db
commit 7aa0d3151f
2 changed files with 120 additions and 120 deletions

View file

@ -2055,45 +2055,45 @@ struct iso1AnonType_V2G_Message {
#define EXIDocument_MgmtData_CHARACTERS_SIZE 50 + EXTRA_CHAR #define iso1EXIDocument_MgmtData_CHARACTERS_SIZE 50 + EXTRA_CHAR
#define EXIDocument_KeyName_CHARACTERS_SIZE 50 + EXTRA_CHAR #define iso1EXIDocument_KeyName_CHARACTERS_SIZE 50 + EXTRA_CHAR
#define EXIDocument_DigestValue_BYTES_SIZE 350 #define iso1EXIDocument_DigestValue_BYTES_SIZE 350
#define EXIFragment_Exponent_BYTES_SIZE 350 #define iso1EXIFragment_Exponent_BYTES_SIZE 350
#define EXIFragment_PgenCounter_BYTES_SIZE 350 #define iso1EXIFragment_PgenCounter_BYTES_SIZE 350
#define EXIFragment_SessionID_BYTES_SIZE 8 /* XML schema facet maxLength for urn:iso:15118:2:2013:MsgDataTypes,sessionIDType is 8 */ #define iso1EXIFragment_SessionID_BYTES_SIZE 8 /* XML schema facet maxLength for urn:iso:15118:2:2013:MsgDataTypes,sessionIDType is 8 */
#define EXIFragment_PGPKeyPacket_BYTES_SIZE 350 #define iso1EXIFragment_PGPKeyPacket_BYTES_SIZE 350
#define EXIFragment_Seed_BYTES_SIZE 350 #define iso1EXIFragment_Seed_BYTES_SIZE 350
#define EXIFragment_XPath_CHARACTERS_SIZE 50 + EXTRA_CHAR #define iso1EXIFragment_XPath_CHARACTERS_SIZE 50 + EXTRA_CHAR
#define EXIFragment_OEMProvisioningCert_BYTES_SIZE 800 /* XML schema facet maxLength for urn:iso:15118:2:2013:MsgDataTypes,certificateType is 800 */ #define iso1EXIFragment_OEMProvisioningCert_BYTES_SIZE 800 /* XML schema facet maxLength for urn:iso:15118:2:2013:MsgDataTypes,certificateType is 800 */
#define EXIFragment_SalesTariffDescription_CHARACTERS_SIZE 32 + EXTRA_CHAR /* XML schema facet maxLength for urn:iso:15118:2:2013:MsgDataTypes,tariffDescriptionType is 32 */ #define iso1EXIFragment_SalesTariffDescription_CHARACTERS_SIZE 32 + EXTRA_CHAR /* XML schema facet maxLength for urn:iso:15118:2:2013:MsgDataTypes,tariffDescriptionType is 32 */
#define EXIFragment_EVCCID_BYTES_SIZE 6 /* XML schema facet maxLength for urn:iso:15118:2:2013:MsgDataTypes,evccIDType is 6 */ #define iso1EXIFragment_EVCCID_BYTES_SIZE 6 /* XML schema facet maxLength for urn:iso:15118:2:2013:MsgDataTypes,evccIDType is 6 */
#define EXIFragment_MgmtData_CHARACTERS_SIZE 50 + EXTRA_CHAR #define iso1EXIFragment_MgmtData_CHARACTERS_SIZE 50 + EXTRA_CHAR
#define EXIFragment_P_BYTES_SIZE 350 #define iso1EXIFragment_P_BYTES_SIZE 350
#define EXIFragment_Q_BYTES_SIZE 350 #define iso1EXIFragment_Q_BYTES_SIZE 350
#define EXIFragment_X509SubjectName_CHARACTERS_SIZE 50 + EXTRA_CHAR #define iso1EXIFragment_X509SubjectName_CHARACTERS_SIZE 50 + EXTRA_CHAR
#define EXIFragment_G_BYTES_SIZE 350 #define iso1EXIFragment_G_BYTES_SIZE 350
#define EXIFragment_J_BYTES_SIZE 350 #define iso1EXIFragment_J_BYTES_SIZE 350
#define EXIFragment_ServiceScope_CHARACTERS_SIZE 64 + EXTRA_CHAR /* XML schema facet maxLength for urn:iso:15118:2:2013:MsgDataTypes,serviceScopeType is 64 */ #define iso1EXIFragment_ServiceScope_CHARACTERS_SIZE 64 + EXTRA_CHAR /* XML schema facet maxLength for urn:iso:15118:2:2013:MsgDataTypes,serviceScopeType is 64 */
#define EXIFragment_ServiceName_CHARACTERS_SIZE 32 + EXTRA_CHAR /* XML schema facet maxLength for urn:iso:15118:2:2013:MsgDataTypes,serviceNameType is 32 */ #define iso1EXIFragment_ServiceName_CHARACTERS_SIZE 32 + EXTRA_CHAR /* XML schema facet maxLength for urn:iso:15118:2:2013:MsgDataTypes,serviceNameType is 32 */
#define EXIFragment_X509CRL_BYTES_SIZE 350 #define iso1EXIFragment_X509CRL_BYTES_SIZE 350
#define EXIFragment_Y_BYTES_SIZE 350 #define iso1EXIFragment_Y_BYTES_SIZE 350
#define EXIFragment_DigestValue_BYTES_SIZE 350 #define iso1EXIFragment_DigestValue_BYTES_SIZE 350
#define EXIFragment_SPKISexp_BYTES_SIZE 350 #define iso1EXIFragment_SPKISexp_BYTES_SIZE 350
#define EXIFragment_stringValue_CHARACTERS_SIZE 50 + EXTRA_CHAR #define iso1EXIFragment_stringValue_CHARACTERS_SIZE 50 + EXTRA_CHAR
#define EXIFragment_PGPKeyID_BYTES_SIZE 350 #define iso1EXIFragment_PGPKeyID_BYTES_SIZE 350
#define EXIFragment_X509Certificate_BYTES_SIZE 350 #define iso1EXIFragment_X509Certificate_BYTES_SIZE 350
#define EXIFragment_FaultMsg_CHARACTERS_SIZE 64 + EXTRA_CHAR /* XML schema facet maxLength for urn:iso:15118:2:2013:MsgDataTypes,faultMsgType is 64 */ #define iso1EXIFragment_FaultMsg_CHARACTERS_SIZE 64 + EXTRA_CHAR /* XML schema facet maxLength for urn:iso:15118:2:2013:MsgDataTypes,faultMsgType is 64 */
#define EXIFragment_EVSEID_CHARACTERS_SIZE 37 + EXTRA_CHAR /* XML schema facet maxLength for urn:iso:15118:2:2013:MsgDataTypes,evseIDType is 37 */ #define iso1EXIFragment_EVSEID_CHARACTERS_SIZE 37 + EXTRA_CHAR /* XML schema facet maxLength for urn:iso:15118:2:2013:MsgDataTypes,evseIDType is 37 */
#define EXIFragment_SigMeterReading_BYTES_SIZE 64 /* XML schema facet maxLength for urn:iso:15118:2:2013:MsgDataTypes,sigMeterReadingType is 64 */ #define iso1EXIFragment_SigMeterReading_BYTES_SIZE 64 /* XML schema facet maxLength for urn:iso:15118:2:2013:MsgDataTypes,sigMeterReadingType is 64 */
#define EXIFragment_MeterID_CHARACTERS_SIZE 32 + EXTRA_CHAR /* XML schema facet maxLength for urn:iso:15118:2:2013:MsgDataTypes,meterIDType is 32 */ #define iso1EXIFragment_MeterID_CHARACTERS_SIZE 32 + EXTRA_CHAR /* XML schema facet maxLength for urn:iso:15118:2:2013:MsgDataTypes,meterIDType is 32 */
#define EXIFragment_KeyName_CHARACTERS_SIZE 50 + EXTRA_CHAR #define iso1EXIFragment_KeyName_CHARACTERS_SIZE 50 + EXTRA_CHAR
#define EXIFragment_GenChallenge_BYTES_SIZE 16 /* XML schema facet length for urn:iso:15118:2:2013:MsgDataTypes,genChallengeType is 16 */ #define iso1EXIFragment_GenChallenge_BYTES_SIZE 16 /* XML schema facet length for urn:iso:15118:2:2013:MsgDataTypes,genChallengeType is 16 */
#define EXIFragment_X509SKI_BYTES_SIZE 350 #define iso1EXIFragment_X509SKI_BYTES_SIZE 350
#define EXIFragment_Certificate_BYTES_SIZE 800 /* XML schema facet maxLength for urn:iso:15118:2:2013:MsgDataTypes,certificateType is 800 */ #define iso1EXIFragment_Certificate_BYTES_SIZE 800 /* XML schema facet maxLength for urn:iso:15118:2:2013:MsgDataTypes,certificateType is 800 */
#define EXIFragment_X509IssuerName_CHARACTERS_SIZE 50 + EXTRA_CHAR #define iso1EXIFragment_X509IssuerName_CHARACTERS_SIZE 50 + EXTRA_CHAR
#define EXIFragment_Modulus_BYTES_SIZE 350 #define iso1EXIFragment_Modulus_BYTES_SIZE 350
#define exiElementFrag_Id_CHARACTERS_SIZE 50 + EXTRA_CHAR #define iso1exiElementFrag_Id_CHARACTERS_SIZE 50 + EXTRA_CHAR
#define exiElementFrag_CHARACTERS_GENERIC_CHARACTERS_SIZE 50 + EXTRA_CHAR #define iso1exiElementFrag_CHARACTERS_GENERIC_CHARACTERS_SIZE 50 + EXTRA_CHAR
/* Global elements of EXI Document */ /* Global elements of EXI Document */
@ -2172,7 +2172,7 @@ struct iso1EXIDocument {
struct iso1TransformType Transform ; struct iso1TransformType Transform ;
struct iso1PGPDataType PGPData ; struct iso1PGPDataType PGPData ;
struct { struct {
exi_string_character_t characters[EXIDocument_MgmtData_CHARACTERS_SIZE]; exi_string_character_t characters[iso1EXIDocument_MgmtData_CHARACTERS_SIZE];
uint16_t charactersLen; uint16_t charactersLen;
} MgmtData ; } MgmtData ;
struct iso1SignatureMethodType SignatureMethod ; struct iso1SignatureMethodType SignatureMethod ;
@ -2181,11 +2181,11 @@ struct iso1EXIDocument {
struct iso1X509DataType X509Data ; struct iso1X509DataType X509Data ;
struct iso1SignatureValueType SignatureValue ; struct iso1SignatureValueType SignatureValue ;
struct { struct {
exi_string_character_t characters[EXIDocument_KeyName_CHARACTERS_SIZE]; exi_string_character_t characters[iso1EXIDocument_KeyName_CHARACTERS_SIZE];
uint16_t charactersLen; uint16_t charactersLen;
} KeyName ; } KeyName ;
struct { struct {
uint8_t bytes[EXIDocument_DigestValue_BYTES_SIZE]; uint8_t bytes[iso1EXIDocument_DigestValue_BYTES_SIZE];
uint16_t bytesLen; uint16_t bytesLen;
} DigestValue ; } DigestValue ;
struct iso1SignedInfoType SignedInfo ; struct iso1SignedInfoType SignedInfo ;
@ -2285,13 +2285,13 @@ struct iso1EXISchemaInformedElementFragmentGrammar {
/* 4 ATTRIBUTE[STRING]({urn:iso:15118:2:2013:MsgDataTypes}Id) */ /* 4 ATTRIBUTE[STRING]({urn:iso:15118:2:2013:MsgDataTypes}Id) */
unsigned int Id_isUsed:1; unsigned int Id_isUsed:1;
struct { struct {
exi_string_character_t characters[exiElementFrag_Id_CHARACTERS_SIZE]; exi_string_character_t characters[iso1exiElementFrag_Id_CHARACTERS_SIZE];
uint16_t charactersLen; uint16_t charactersLen;
} Id ; } Id ;
/* 247 START_ELEMENT({urn:iso:15118:2:2013:MsgBody}eMAID) */ /* 247 START_ELEMENT({urn:iso:15118:2:2013:MsgBody}eMAID) */
unsigned int CHARACTERS_GENERIC_isUsed:1; unsigned int CHARACTERS_GENERIC_isUsed:1;
struct { struct {
exi_string_character_t characters[exiElementFrag_CHARACTERS_GENERIC_CHARACTERS_SIZE]; exi_string_character_t characters[iso1exiElementFrag_CHARACTERS_GENERIC_CHARACTERS_SIZE];
uint16_t charactersLen; uint16_t charactersLen;
} CHARACTERS_GENERIC ; } CHARACTERS_GENERIC ;
@ -2335,7 +2335,7 @@ struct iso1EXIFragment {
struct iso1X509IssuerSerialType RootCertificateID ; struct iso1X509IssuerSerialType RootCertificateID ;
int64_t HMACOutputLength ; int64_t HMACOutputLength ;
struct { struct {
uint8_t bytes[EXIFragment_Exponent_BYTES_SIZE]; uint8_t bytes[iso1EXIFragment_Exponent_BYTES_SIZE];
uint16_t bytesLen; uint16_t bytesLen;
} Exponent ; } Exponent ;
struct iso1X509IssuerSerialType X509IssuerSerial ; struct iso1X509IssuerSerialType X509IssuerSerial ;
@ -2348,7 +2348,7 @@ struct iso1EXIFragment {
struct iso1PhysicalValueType EVSEMaximumCurrentLimit ; struct iso1PhysicalValueType EVSEMaximumCurrentLimit ;
struct iso1SalesTariffType SalesTariff ; struct iso1SalesTariffType SalesTariff ;
struct { struct {
uint8_t bytes[EXIFragment_PgenCounter_BYTES_SIZE]; uint8_t bytes[iso1EXIFragment_PgenCounter_BYTES_SIZE];
uint16_t bytesLen; uint16_t bytesLen;
} PgenCounter ; } PgenCounter ;
struct iso1X509DataType X509Data ; struct iso1X509DataType X509Data ;
@ -2377,23 +2377,23 @@ struct iso1EXIFragment {
struct iso1SessionStopReqType SessionStopReq ; struct iso1SessionStopReqType SessionStopReq ;
struct iso1SignaturePropertyType SignatureProperty ; struct iso1SignaturePropertyType SignatureProperty ;
struct { struct {
uint8_t bytes[EXIFragment_SessionID_BYTES_SIZE]; uint8_t bytes[iso1EXIFragment_SessionID_BYTES_SIZE];
uint16_t bytesLen; uint16_t bytesLen;
} SessionID ; } SessionID ;
struct { struct {
uint8_t bytes[EXIFragment_PGPKeyPacket_BYTES_SIZE]; uint8_t bytes[iso1EXIFragment_PGPKeyPacket_BYTES_SIZE];
uint16_t bytesLen; uint16_t bytesLen;
} PGPKeyPacket ; } PGPKeyPacket ;
struct iso1MessageHeaderType Header ; struct iso1MessageHeaderType Header ;
struct { struct {
uint8_t bytes[EXIFragment_Seed_BYTES_SIZE]; uint8_t bytes[iso1EXIFragment_Seed_BYTES_SIZE];
uint16_t bytesLen; uint16_t bytesLen;
} Seed ; } Seed ;
struct iso1RSAKeyValueType RSAKeyValue ; struct iso1RSAKeyValueType RSAKeyValue ;
int FreeService ; int FreeService ;
struct iso1PhysicalValueType EVSENominalVoltage ; struct iso1PhysicalValueType EVSENominalVoltage ;
struct { struct {
exi_string_character_t characters[EXIFragment_XPath_CHARACTERS_SIZE]; exi_string_character_t characters[iso1EXIFragment_XPath_CHARACTERS_SIZE];
uint16_t charactersLen; uint16_t charactersLen;
} XPath ; } XPath ;
struct iso1MeteringReceiptResType MeteringReceiptRes ; struct iso1MeteringReceiptResType MeteringReceiptRes ;
@ -2401,7 +2401,7 @@ struct iso1EXIFragment {
struct iso1MeteringReceiptReqType MeteringReceiptReq ; struct iso1MeteringReceiptReqType MeteringReceiptReq ;
struct iso1PreChargeResType PreChargeRes ; struct iso1PreChargeResType PreChargeRes ;
struct { struct {
uint8_t bytes[EXIFragment_OEMProvisioningCert_BYTES_SIZE]; uint8_t bytes[iso1EXIFragment_OEMProvisioningCert_BYTES_SIZE];
uint16_t bytesLen; uint16_t bytesLen;
} OEMProvisioningCert ; } OEMProvisioningCert ;
struct iso1PhysicalValueType EVEnergyCapacity ; struct iso1PhysicalValueType EVEnergyCapacity ;
@ -2412,20 +2412,20 @@ struct iso1EXIFragment {
uint16_t NotificationMaxDelay ; uint16_t NotificationMaxDelay ;
struct iso1CableCheckReqType CableCheckReq ; struct iso1CableCheckReqType CableCheckReq ;
struct { struct {
exi_string_character_t characters[EXIFragment_SalesTariffDescription_CHARACTERS_SIZE]; exi_string_character_t characters[iso1EXIFragment_SalesTariffDescription_CHARACTERS_SIZE];
uint16_t charactersLen; uint16_t charactersLen;
} SalesTariffDescription ; } SalesTariffDescription ;
int EVSEVoltageLimitAchieved ; int EVSEVoltageLimitAchieved ;
int boolValue ; int boolValue ;
struct { struct {
uint8_t bytes[EXIFragment_EVCCID_BYTES_SIZE]; uint8_t bytes[iso1EXIFragment_EVCCID_BYTES_SIZE];
uint16_t bytesLen; uint16_t bytesLen;
} EVCCID ; } EVCCID ;
struct iso1DC_EVChargeParameterType DC_EVChargeParameter ; struct iso1DC_EVChargeParameterType DC_EVChargeParameter ;
struct iso1ChargingStatusReqType ChargingStatusReq ; struct iso1ChargingStatusReqType ChargingStatusReq ;
struct iso1CableCheckResType CableCheckRes ; struct iso1CableCheckResType CableCheckRes ;
struct { struct {
exi_string_character_t characters[EXIFragment_MgmtData_CHARACTERS_SIZE]; exi_string_character_t characters[iso1EXIFragment_MgmtData_CHARACTERS_SIZE];
uint16_t charactersLen; uint16_t charactersLen;
} MgmtData ; } MgmtData ;
struct iso1MeterInfoType MeterInfo ; struct iso1MeterInfoType MeterInfo ;
@ -2435,34 +2435,34 @@ struct iso1EXIFragment {
struct iso1ManifestType Manifest ; struct iso1ManifestType Manifest ;
struct iso1PhysicalValueType EVMaximumVoltageLimit ; struct iso1PhysicalValueType EVMaximumVoltageLimit ;
struct { struct {
uint8_t bytes[EXIFragment_P_BYTES_SIZE]; uint8_t bytes[iso1EXIFragment_P_BYTES_SIZE];
uint16_t bytesLen; uint16_t bytesLen;
} P ; } P ;
struct { struct {
uint8_t bytes[EXIFragment_Q_BYTES_SIZE]; uint8_t bytes[iso1EXIFragment_Q_BYTES_SIZE];
uint16_t bytesLen; uint16_t bytesLen;
} Q ; } Q ;
struct { struct {
exi_string_character_t characters[EXIFragment_X509SubjectName_CHARACTERS_SIZE]; exi_string_character_t characters[iso1EXIFragment_X509SubjectName_CHARACTERS_SIZE];
uint16_t charactersLen; uint16_t charactersLen;
} X509SubjectName ; } X509SubjectName ;
int32_t intValue ; int32_t intValue ;
struct iso1ChargingProfileType ChargingProfile ; struct iso1ChargingProfileType ChargingProfile ;
struct { struct {
uint8_t bytes[EXIFragment_G_BYTES_SIZE]; uint8_t bytes[iso1EXIFragment_G_BYTES_SIZE];
uint16_t bytesLen; uint16_t bytesLen;
} G ; } G ;
struct { struct {
uint8_t bytes[EXIFragment_J_BYTES_SIZE]; uint8_t bytes[iso1EXIFragment_J_BYTES_SIZE];
uint16_t bytesLen; uint16_t bytesLen;
} J ; } J ;
struct { struct {
exi_string_character_t characters[EXIFragment_ServiceScope_CHARACTERS_SIZE]; exi_string_character_t characters[iso1EXIFragment_ServiceScope_CHARACTERS_SIZE];
uint16_t charactersLen; uint16_t charactersLen;
} ServiceScope ; } ServiceScope ;
int ReceiptRequired ; int ReceiptRequired ;
struct { struct {
exi_string_character_t characters[EXIFragment_ServiceName_CHARACTERS_SIZE]; exi_string_character_t characters[iso1EXIFragment_ServiceName_CHARACTERS_SIZE];
uint16_t charactersLen; uint16_t charactersLen;
} ServiceName ; } ServiceName ;
int16_t MeterStatus ; int16_t MeterStatus ;
@ -2471,16 +2471,16 @@ struct iso1EXIFragment {
iso1serviceCategoryType ServiceCategory ; iso1serviceCategoryType ServiceCategory ;
struct iso1NotificationType Notification ; struct iso1NotificationType Notification ;
struct { struct {
uint8_t bytes[EXIFragment_X509CRL_BYTES_SIZE]; uint8_t bytes[iso1EXIFragment_X509CRL_BYTES_SIZE];
uint16_t bytesLen; uint16_t bytesLen;
} X509CRL ; } X509CRL ;
struct { struct {
uint8_t bytes[EXIFragment_Y_BYTES_SIZE]; uint8_t bytes[iso1EXIFragment_Y_BYTES_SIZE];
uint16_t bytesLen; uint16_t bytesLen;
} Y ; } Y ;
struct iso1PhysicalValueType EVSEPresentVoltage ; struct iso1PhysicalValueType EVSEPresentVoltage ;
struct { struct {
uint8_t bytes[EXIFragment_DigestValue_BYTES_SIZE]; uint8_t bytes[iso1EXIFragment_DigestValue_BYTES_SIZE];
uint16_t bytesLen; uint16_t bytesLen;
} DigestValue ; } DigestValue ;
struct iso1PhysicalValueType EVSEMaximumPowerLimit ; struct iso1PhysicalValueType EVSEMaximumPowerLimit ;
@ -2490,7 +2490,7 @@ struct iso1EXIFragment {
struct iso1ConsumptionCostType ConsumptionCost ; struct iso1ConsumptionCostType ConsumptionCost ;
struct iso1DigestMethodType DigestMethod ; struct iso1DigestMethodType DigestMethod ;
struct { struct {
uint8_t bytes[EXIFragment_SPKISexp_BYTES_SIZE]; uint8_t bytes[iso1EXIFragment_SPKISexp_BYTES_SIZE];
uint16_t bytesLen; uint16_t bytesLen;
} SPKISexp ; } SPKISexp ;
struct iso1SessionSetupResType SessionSetupRes ; struct iso1SessionSetupResType SessionSetupRes ;
@ -2503,14 +2503,14 @@ struct iso1EXIFragment {
struct iso1PhysicalValueType EVTargetCurrent ; struct iso1PhysicalValueType EVTargetCurrent ;
struct iso1PhysicalValueType RemainingTimeToBulkSoC ; struct iso1PhysicalValueType RemainingTimeToBulkSoC ;
struct { struct {
exi_string_character_t characters[EXIFragment_stringValue_CHARACTERS_SIZE]; exi_string_character_t characters[iso1EXIFragment_stringValue_CHARACTERS_SIZE];
uint16_t charactersLen; uint16_t charactersLen;
} stringValue ; } stringValue ;
struct iso1SessionSetupReqType SessionSetupReq ; struct iso1SessionSetupReqType SessionSetupReq ;
int8_t Multiplier ; int8_t Multiplier ;
struct iso1CertificateUpdateResType CertificateUpdateRes ; struct iso1CertificateUpdateResType CertificateUpdateRes ;
struct { struct {
uint8_t bytes[EXIFragment_PGPKeyID_BYTES_SIZE]; uint8_t bytes[iso1EXIFragment_PGPKeyID_BYTES_SIZE];
uint16_t bytesLen; uint16_t bytesLen;
} PGPKeyID ; } PGPKeyID ;
struct iso1PhysicalValueType EVTargetVoltage ; struct iso1PhysicalValueType EVTargetVoltage ;
@ -2519,7 +2519,7 @@ struct iso1EXIFragment {
struct iso1PhysicalValueType EVMaximumCurrentLimit ; struct iso1PhysicalValueType EVMaximumCurrentLimit ;
struct iso1CanonicalizationMethodType CanonicalizationMethod ; struct iso1CanonicalizationMethodType CanonicalizationMethod ;
struct { struct {
uint8_t bytes[EXIFragment_X509Certificate_BYTES_SIZE]; uint8_t bytes[iso1EXIFragment_X509Certificate_BYTES_SIZE];
uint16_t bytesLen; uint16_t bytesLen;
} X509Certificate ; } X509Certificate ;
struct iso1CertificateInstallationReqType CertificateInstallationReq ; struct iso1CertificateInstallationReqType CertificateInstallationReq ;
@ -2542,20 +2542,20 @@ struct iso1EXIFragment {
struct iso1ContractSignatureEncryptedPrivateKeyType ContractSignatureEncryptedPrivateKey ; struct iso1ContractSignatureEncryptedPrivateKeyType ContractSignatureEncryptedPrivateKey ;
struct iso1WeldingDetectionReqType WeldingDetectionReq ; struct iso1WeldingDetectionReqType WeldingDetectionReq ;
struct { struct {
exi_string_character_t characters[EXIFragment_FaultMsg_CHARACTERS_SIZE]; exi_string_character_t characters[iso1EXIFragment_FaultMsg_CHARACTERS_SIZE];
uint16_t charactersLen; uint16_t charactersLen;
} FaultMsg ; } FaultMsg ;
struct iso1WeldingDetectionResType WeldingDetectionRes ; struct iso1WeldingDetectionResType WeldingDetectionRes ;
iso1chargeProgressType ChargeProgress ; iso1chargeProgressType ChargeProgress ;
iso1paymentOptionType SelectedPaymentOption ; iso1paymentOptionType SelectedPaymentOption ;
struct { struct {
exi_string_character_t characters[EXIFragment_EVSEID_CHARACTERS_SIZE]; exi_string_character_t characters[iso1EXIFragment_EVSEID_CHARACTERS_SIZE];
uint16_t charactersLen; uint16_t charactersLen;
} EVSEID ; } EVSEID ;
struct iso1ParameterSetType ParameterSet ; struct iso1ParameterSetType ParameterSet ;
struct iso1EVSEChargeParameterType EVSEChargeParameter ; struct iso1EVSEChargeParameterType EVSEChargeParameter ;
struct { struct {
uint8_t bytes[EXIFragment_SigMeterReading_BYTES_SIZE]; uint8_t bytes[iso1EXIFragment_SigMeterReading_BYTES_SIZE];
uint16_t bytesLen; uint16_t bytesLen;
} SigMeterReading ; } SigMeterReading ;
struct iso1SignatureValueType SignatureValue ; struct iso1SignatureValueType SignatureValue ;
@ -2565,7 +2565,7 @@ struct iso1EXIFragment {
struct iso1ServiceParameterListType ServiceParameterList ; struct iso1ServiceParameterListType ServiceParameterList ;
struct iso1ListOfRootCertificateIDsType ListOfRootCertificateIDs ; struct iso1ListOfRootCertificateIDsType ListOfRootCertificateIDs ;
struct { struct {
exi_string_character_t characters[EXIFragment_MeterID_CHARACTERS_SIZE]; exi_string_character_t characters[iso1EXIFragment_MeterID_CHARACTERS_SIZE];
uint16_t charactersLen; uint16_t charactersLen;
} MeterID ; } MeterID ;
struct iso1ChargeServiceType ChargeService ; struct iso1ChargeServiceType ChargeService ;
@ -2574,7 +2574,7 @@ struct iso1EXIFragment {
struct iso1PhysicalValueType startValue ; struct iso1PhysicalValueType startValue ;
struct iso1CurrentDemandReqType CurrentDemandReq ; struct iso1CurrentDemandReqType CurrentDemandReq ;
struct { struct {
exi_string_character_t characters[EXIFragment_KeyName_CHARACTERS_SIZE]; exi_string_character_t characters[iso1EXIFragment_KeyName_CHARACTERS_SIZE];
uint16_t charactersLen; uint16_t charactersLen;
} KeyName ; } KeyName ;
struct iso1DC_EVPowerDeliveryParameterType DC_EVPowerDeliveryParameter ; struct iso1DC_EVPowerDeliveryParameterType DC_EVPowerDeliveryParameter ;
@ -2583,21 +2583,21 @@ struct iso1EXIFragment {
int16_t Value ; int16_t Value ;
struct iso1KeyInfoType KeyInfo ; struct iso1KeyInfoType KeyInfo ;
struct { struct {
uint8_t bytes[EXIFragment_GenChallenge_BYTES_SIZE]; uint8_t bytes[iso1EXIFragment_GenChallenge_BYTES_SIZE];
uint16_t bytesLen; uint16_t bytesLen;
} GenChallenge ; } GenChallenge ;
struct iso1AC_EVChargeParameterType AC_EVChargeParameter ; struct iso1AC_EVChargeParameterType AC_EVChargeParameter ;
struct iso1PMaxScheduleEntryType PMaxScheduleEntry ; struct iso1PMaxScheduleEntryType PMaxScheduleEntry ;
struct iso1ParameterType Parameter ; struct iso1ParameterType Parameter ;
struct { struct {
uint8_t bytes[EXIFragment_X509SKI_BYTES_SIZE]; uint8_t bytes[iso1EXIFragment_X509SKI_BYTES_SIZE];
uint16_t bytesLen; uint16_t bytesLen;
} X509SKI ; } X509SKI ;
struct iso1SelectedServiceType SelectedService ; struct iso1SelectedServiceType SelectedService ;
struct iso1PaymentServiceSelectionReqType PaymentServiceSelectionReq ; struct iso1PaymentServiceSelectionReqType PaymentServiceSelectionReq ;
struct iso1PaymentServiceSelectionResType PaymentServiceSelectionRes ; struct iso1PaymentServiceSelectionResType PaymentServiceSelectionRes ;
struct { struct {
uint8_t bytes[EXIFragment_Certificate_BYTES_SIZE]; uint8_t bytes[iso1EXIFragment_Certificate_BYTES_SIZE];
uint16_t bytesLen; uint16_t bytesLen;
} Certificate ; } Certificate ;
struct iso1CurrentDemandResType CurrentDemandRes ; struct iso1CurrentDemandResType CurrentDemandRes ;
@ -2606,7 +2606,7 @@ struct iso1EXIFragment {
struct iso1PMaxScheduleType PMaxSchedule ; struct iso1PMaxScheduleType PMaxSchedule ;
iso1unitSymbolType Unit ; iso1unitSymbolType Unit ;
struct { struct {
exi_string_character_t characters[EXIFragment_X509IssuerName_CHARACTERS_SIZE]; exi_string_character_t characters[iso1EXIFragment_X509IssuerName_CHARACTERS_SIZE];
uint16_t charactersLen; uint16_t charactersLen;
} X509IssuerName ; } X509IssuerName ;
struct iso1ReferenceType Reference ; struct iso1ReferenceType Reference ;
@ -2627,7 +2627,7 @@ struct iso1EXIFragment {
struct iso1ObjectType Object ; struct iso1ObjectType Object ;
struct iso1PhysicalValueType EVEnergyRequest ; struct iso1PhysicalValueType EVEnergyRequest ;
struct { struct {
uint8_t bytes[EXIFragment_Modulus_BYTES_SIZE]; uint8_t bytes[iso1EXIFragment_Modulus_BYTES_SIZE];
uint16_t bytesLen; uint16_t bytesLen;
} Modulus ; } Modulus ;
iso1chargingSessionType ChargingSession ; iso1chargingSessionType ChargingSession ;

View file

@ -16418,7 +16418,7 @@ int decode_iso1EXISchemaInformedElementFragmentGrammar(bitstream_t* stream, stru
if (errn == 0) { if (errn == 0) {
if (exiElementFrag->Id.charactersLen >= 2) { if (exiElementFrag->Id.charactersLen >= 2) {
exiElementFrag->Id.charactersLen = (uint16_t)(exiElementFrag->Id.charactersLen - 2); /* string table miss */ exiElementFrag->Id.charactersLen = (uint16_t)(exiElementFrag->Id.charactersLen - 2); /* string table miss */
errn = decodeCharacters(stream, exiElementFrag->Id.charactersLen, exiElementFrag->Id.characters, exiElementFrag_Id_CHARACTERS_SIZE); errn = decodeCharacters(stream, exiElementFrag->Id.charactersLen, exiElementFrag->Id.characters, iso1exiElementFrag_Id_CHARACTERS_SIZE);
} else { } else {
/* string table hit */ /* string table hit */
errn = EXI_ERROR_STRINGVALUES_NOT_SUPPORTED; errn = EXI_ERROR_STRINGVALUES_NOT_SUPPORTED;
@ -16436,7 +16436,7 @@ int decode_iso1EXISchemaInformedElementFragmentGrammar(bitstream_t* stream, stru
if (errn == 0) { if (errn == 0) {
if (exiElementFrag->CHARACTERS_GENERIC.charactersLen >= 2) { if (exiElementFrag->CHARACTERS_GENERIC.charactersLen >= 2) {
exiElementFrag->CHARACTERS_GENERIC.charactersLen = (uint16_t)(exiElementFrag->CHARACTERS_GENERIC.charactersLen - 2); /* string table miss */ exiElementFrag->CHARACTERS_GENERIC.charactersLen = (uint16_t)(exiElementFrag->CHARACTERS_GENERIC.charactersLen - 2); /* string table miss */
errn = decodeCharacters(stream, exiElementFrag->CHARACTERS_GENERIC.charactersLen, exiElementFrag->CHARACTERS_GENERIC.characters, exiElementFrag_CHARACTERS_GENERIC_CHARACTERS_SIZE); errn = decodeCharacters(stream, exiElementFrag->CHARACTERS_GENERIC.charactersLen, exiElementFrag->CHARACTERS_GENERIC.characters, iso1exiElementFrag_CHARACTERS_GENERIC_CHARACTERS_SIZE);
} else { } else {
/* string table hit */ /* string table hit */
errn = EXI_ERROR_STRINGVALUES_NOT_SUPPORTED; errn = EXI_ERROR_STRINGVALUES_NOT_SUPPORTED;
@ -16465,7 +16465,7 @@ int decode_iso1EXISchemaInformedElementFragmentGrammar(bitstream_t* stream, stru
if (errn == 0) { if (errn == 0) {
if (exiElementFrag->CHARACTERS_GENERIC.charactersLen >= 2) { if (exiElementFrag->CHARACTERS_GENERIC.charactersLen >= 2) {
exiElementFrag->CHARACTERS_GENERIC.charactersLen = (uint16_t)(exiElementFrag->CHARACTERS_GENERIC.charactersLen - 2); /* string table miss */ exiElementFrag->CHARACTERS_GENERIC.charactersLen = (uint16_t)(exiElementFrag->CHARACTERS_GENERIC.charactersLen - 2); /* string table miss */
errn = decodeCharacters(stream, exiElementFrag->CHARACTERS_GENERIC.charactersLen, exiElementFrag->CHARACTERS_GENERIC.characters, exiElementFrag_CHARACTERS_GENERIC_CHARACTERS_SIZE); errn = decodeCharacters(stream, exiElementFrag->CHARACTERS_GENERIC.charactersLen, exiElementFrag->CHARACTERS_GENERIC.characters, iso1exiElementFrag_CHARACTERS_GENERIC_CHARACTERS_SIZE);
} else { } else {
/* string table hit */ /* string table hit */
errn = EXI_ERROR_STRINGVALUES_NOT_SUPPORTED; errn = EXI_ERROR_STRINGVALUES_NOT_SUPPORTED;
@ -16641,7 +16641,7 @@ int decode_iso1ExiDocument(bitstream_t* stream, struct iso1EXIDocument* exiDoc)
if(eventCode == 0) { if(eventCode == 0) {
errn = decodeUnsignedInteger16(stream, &exiDoc->DigestValue.bytesLen); errn = decodeUnsignedInteger16(stream, &exiDoc->DigestValue.bytesLen);
if (errn == 0) { if (errn == 0) {
errn = (exiDoc->DigestValue.bytesLen) <= EXIDocument_DigestValue_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER; errn = (exiDoc->DigestValue.bytesLen) <= iso1EXIDocument_DigestValue_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER;
} }
if (errn == 0) { if (errn == 0) {
errn = decodeBytes(stream, exiDoc->DigestValue.bytesLen, exiDoc->DigestValue.bytes); errn = decodeBytes(stream, exiDoc->DigestValue.bytesLen, exiDoc->DigestValue.bytes);
@ -16698,7 +16698,7 @@ int decode_iso1ExiDocument(bitstream_t* stream, struct iso1EXIDocument* exiDoc)
if (errn == 0) { if (errn == 0) {
if (exiDoc->KeyName.charactersLen >= 2) { if (exiDoc->KeyName.charactersLen >= 2) {
exiDoc->KeyName.charactersLen = (uint16_t)(exiDoc->KeyName.charactersLen - 2); /* string table miss */ exiDoc->KeyName.charactersLen = (uint16_t)(exiDoc->KeyName.charactersLen - 2); /* string table miss */
errn = decodeCharacters(stream, exiDoc->KeyName.charactersLen, exiDoc->KeyName.characters, EXIDocument_KeyName_CHARACTERS_SIZE); errn = decodeCharacters(stream, exiDoc->KeyName.charactersLen, exiDoc->KeyName.characters, iso1EXIDocument_KeyName_CHARACTERS_SIZE);
} else { } else {
/* string table hit */ /* string table hit */
errn = EXI_ERROR_STRINGVALUES_NOT_SUPPORTED; errn = EXI_ERROR_STRINGVALUES_NOT_SUPPORTED;
@ -16741,7 +16741,7 @@ int decode_iso1ExiDocument(bitstream_t* stream, struct iso1EXIDocument* exiDoc)
if (errn == 0) { if (errn == 0) {
if (exiDoc->MgmtData.charactersLen >= 2) { if (exiDoc->MgmtData.charactersLen >= 2) {
exiDoc->MgmtData.charactersLen = (uint16_t)(exiDoc->MgmtData.charactersLen - 2); /* string table miss */ exiDoc->MgmtData.charactersLen = (uint16_t)(exiDoc->MgmtData.charactersLen - 2); /* string table miss */
errn = decodeCharacters(stream, exiDoc->MgmtData.charactersLen, exiDoc->MgmtData.characters, EXIDocument_MgmtData_CHARACTERS_SIZE); errn = decodeCharacters(stream, exiDoc->MgmtData.charactersLen, exiDoc->MgmtData.characters, iso1EXIDocument_MgmtData_CHARACTERS_SIZE);
} else { } else {
/* string table hit */ /* string table hit */
errn = EXI_ERROR_STRINGVALUES_NOT_SUPPORTED; errn = EXI_ERROR_STRINGVALUES_NOT_SUPPORTED;
@ -17085,7 +17085,7 @@ int decode_iso1ExiFragment(bitstream_t* stream, struct iso1EXIFragment* exiFrag)
if(eventCode == 0) { if(eventCode == 0) {
errn = decodeUnsignedInteger16(stream, &exiFrag->Certificate.bytesLen); errn = decodeUnsignedInteger16(stream, &exiFrag->Certificate.bytesLen);
if (errn == 0) { if (errn == 0) {
errn = (exiFrag->Certificate.bytesLen) <= EXIFragment_Certificate_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER; errn = (exiFrag->Certificate.bytesLen) <= iso1EXIFragment_Certificate_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER;
} }
if (errn == 0) { if (errn == 0) {
errn = decodeBytes(stream, exiFrag->Certificate.bytesLen, exiFrag->Certificate.bytes); errn = decodeBytes(stream, exiFrag->Certificate.bytesLen, exiFrag->Certificate.bytes);
@ -17341,7 +17341,7 @@ int decode_iso1ExiFragment(bitstream_t* stream, struct iso1EXIFragment* exiFrag)
if(eventCode == 0) { if(eventCode == 0) {
errn = decodeUnsignedInteger16(stream, &exiFrag->DigestValue.bytesLen); errn = decodeUnsignedInteger16(stream, &exiFrag->DigestValue.bytesLen);
if (errn == 0) { if (errn == 0) {
errn = (exiFrag->DigestValue.bytesLen) <= EXIFragment_DigestValue_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER; errn = (exiFrag->DigestValue.bytesLen) <= iso1EXIFragment_DigestValue_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER;
} }
if (errn == 0) { if (errn == 0) {
errn = decodeBytes(stream, exiFrag->DigestValue.bytesLen, exiFrag->DigestValue.bytes); errn = decodeBytes(stream, exiFrag->DigestValue.bytesLen, exiFrag->DigestValue.bytes);
@ -17381,7 +17381,7 @@ int decode_iso1ExiFragment(bitstream_t* stream, struct iso1EXIFragment* exiFrag)
if(eventCode == 0) { if(eventCode == 0) {
errn = decodeUnsignedInteger16(stream, &exiFrag->EVCCID.bytesLen); errn = decodeUnsignedInteger16(stream, &exiFrag->EVCCID.bytesLen);
if (errn == 0) { if (errn == 0) {
errn = (exiFrag->EVCCID.bytesLen) <= EXIFragment_EVCCID_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER; errn = (exiFrag->EVCCID.bytesLen) <= iso1EXIFragment_EVCCID_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER;
} }
if (errn == 0) { if (errn == 0) {
errn = decodeBytes(stream, exiFrag->EVCCID.bytesLen, exiFrag->EVCCID.bytes); errn = decodeBytes(stream, exiFrag->EVCCID.bytesLen, exiFrag->EVCCID.bytes);
@ -17541,7 +17541,7 @@ int decode_iso1ExiFragment(bitstream_t* stream, struct iso1EXIFragment* exiFrag)
if (errn == 0) { if (errn == 0) {
if (exiFrag->EVSEID.charactersLen >= 2) { if (exiFrag->EVSEID.charactersLen >= 2) {
exiFrag->EVSEID.charactersLen = (uint16_t)(exiFrag->EVSEID.charactersLen - 2); /* string table miss */ exiFrag->EVSEID.charactersLen = (uint16_t)(exiFrag->EVSEID.charactersLen - 2); /* string table miss */
errn = decodeCharacters(stream, exiFrag->EVSEID.charactersLen, exiFrag->EVSEID.characters, EXIFragment_EVSEID_CHARACTERS_SIZE); errn = decodeCharacters(stream, exiFrag->EVSEID.charactersLen, exiFrag->EVSEID.characters, iso1EXIFragment_EVSEID_CHARACTERS_SIZE);
} else { } else {
/* string table hit */ /* string table hit */
errn = EXI_ERROR_STRINGVALUES_NOT_SUPPORTED; errn = EXI_ERROR_STRINGVALUES_NOT_SUPPORTED;
@ -17774,7 +17774,7 @@ int decode_iso1ExiFragment(bitstream_t* stream, struct iso1EXIFragment* exiFrag)
if(eventCode == 0) { if(eventCode == 0) {
errn = decodeUnsignedInteger16(stream, &exiFrag->Exponent.bytesLen); errn = decodeUnsignedInteger16(stream, &exiFrag->Exponent.bytesLen);
if (errn == 0) { if (errn == 0) {
errn = (exiFrag->Exponent.bytesLen) <= EXIFragment_Exponent_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER; errn = (exiFrag->Exponent.bytesLen) <= iso1EXIFragment_Exponent_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER;
} }
if (errn == 0) { if (errn == 0) {
errn = decodeBytes(stream, exiFrag->Exponent.bytesLen, exiFrag->Exponent.bytes); errn = decodeBytes(stream, exiFrag->Exponent.bytesLen, exiFrag->Exponent.bytes);
@ -17811,7 +17811,7 @@ int decode_iso1ExiFragment(bitstream_t* stream, struct iso1EXIFragment* exiFrag)
if (errn == 0) { if (errn == 0) {
if (exiFrag->FaultMsg.charactersLen >= 2) { if (exiFrag->FaultMsg.charactersLen >= 2) {
exiFrag->FaultMsg.charactersLen = (uint16_t)(exiFrag->FaultMsg.charactersLen - 2); /* string table miss */ exiFrag->FaultMsg.charactersLen = (uint16_t)(exiFrag->FaultMsg.charactersLen - 2); /* string table miss */
errn = decodeCharacters(stream, exiFrag->FaultMsg.charactersLen, exiFrag->FaultMsg.characters, EXIFragment_FaultMsg_CHARACTERS_SIZE); errn = decodeCharacters(stream, exiFrag->FaultMsg.charactersLen, exiFrag->FaultMsg.characters, iso1EXIFragment_FaultMsg_CHARACTERS_SIZE);
} else { } else {
/* string table hit */ /* string table hit */
errn = EXI_ERROR_STRINGVALUES_NOT_SUPPORTED; errn = EXI_ERROR_STRINGVALUES_NOT_SUPPORTED;
@ -17861,7 +17861,7 @@ int decode_iso1ExiFragment(bitstream_t* stream, struct iso1EXIFragment* exiFrag)
if(eventCode == 0) { if(eventCode == 0) {
errn = decodeUnsignedInteger16(stream, &exiFrag->G.bytesLen); errn = decodeUnsignedInteger16(stream, &exiFrag->G.bytesLen);
if (errn == 0) { if (errn == 0) {
errn = (exiFrag->G.bytesLen) <= EXIFragment_G_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER; errn = (exiFrag->G.bytesLen) <= iso1EXIFragment_G_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER;
} }
if (errn == 0) { if (errn == 0) {
errn = decodeBytes(stream, exiFrag->G.bytesLen, exiFrag->G.bytes); errn = decodeBytes(stream, exiFrag->G.bytesLen, exiFrag->G.bytes);
@ -17881,7 +17881,7 @@ int decode_iso1ExiFragment(bitstream_t* stream, struct iso1EXIFragment* exiFrag)
if(eventCode == 0) { if(eventCode == 0) {
errn = decodeUnsignedInteger16(stream, &exiFrag->GenChallenge.bytesLen); errn = decodeUnsignedInteger16(stream, &exiFrag->GenChallenge.bytesLen);
if (errn == 0) { if (errn == 0) {
errn = (exiFrag->GenChallenge.bytesLen) <= EXIFragment_GenChallenge_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER; errn = (exiFrag->GenChallenge.bytesLen) <= iso1EXIFragment_GenChallenge_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER;
} }
if (errn == 0) { if (errn == 0) {
errn = decodeBytes(stream, exiFrag->GenChallenge.bytesLen, exiFrag->GenChallenge.bytes); errn = decodeBytes(stream, exiFrag->GenChallenge.bytesLen, exiFrag->GenChallenge.bytes);
@ -17920,7 +17920,7 @@ int decode_iso1ExiFragment(bitstream_t* stream, struct iso1EXIFragment* exiFrag)
if(eventCode == 0) { if(eventCode == 0) {
errn = decodeUnsignedInteger16(stream, &exiFrag->J.bytesLen); errn = decodeUnsignedInteger16(stream, &exiFrag->J.bytesLen);
if (errn == 0) { if (errn == 0) {
errn = (exiFrag->J.bytesLen) <= EXIFragment_J_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER; errn = (exiFrag->J.bytesLen) <= iso1EXIFragment_J_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER;
} }
if (errn == 0) { if (errn == 0) {
errn = decodeBytes(stream, exiFrag->J.bytesLen, exiFrag->J.bytes); errn = decodeBytes(stream, exiFrag->J.bytesLen, exiFrag->J.bytes);
@ -17947,7 +17947,7 @@ int decode_iso1ExiFragment(bitstream_t* stream, struct iso1EXIFragment* exiFrag)
if (errn == 0) { if (errn == 0) {
if (exiFrag->KeyName.charactersLen >= 2) { if (exiFrag->KeyName.charactersLen >= 2) {
exiFrag->KeyName.charactersLen = (uint16_t)(exiFrag->KeyName.charactersLen - 2); /* string table miss */ exiFrag->KeyName.charactersLen = (uint16_t)(exiFrag->KeyName.charactersLen - 2); /* string table miss */
errn = decodeCharacters(stream, exiFrag->KeyName.charactersLen, exiFrag->KeyName.characters, EXIFragment_KeyName_CHARACTERS_SIZE); errn = decodeCharacters(stream, exiFrag->KeyName.charactersLen, exiFrag->KeyName.characters, iso1EXIFragment_KeyName_CHARACTERS_SIZE);
} else { } else {
/* string table hit */ /* string table hit */
errn = EXI_ERROR_STRINGVALUES_NOT_SUPPORTED; errn = EXI_ERROR_STRINGVALUES_NOT_SUPPORTED;
@ -17999,7 +17999,7 @@ int decode_iso1ExiFragment(bitstream_t* stream, struct iso1EXIFragment* exiFrag)
if (errn == 0) { if (errn == 0) {
if (exiFrag->MeterID.charactersLen >= 2) { if (exiFrag->MeterID.charactersLen >= 2) {
exiFrag->MeterID.charactersLen = (uint16_t)(exiFrag->MeterID.charactersLen - 2); /* string table miss */ exiFrag->MeterID.charactersLen = (uint16_t)(exiFrag->MeterID.charactersLen - 2); /* string table miss */
errn = decodeCharacters(stream, exiFrag->MeterID.charactersLen, exiFrag->MeterID.characters, EXIFragment_MeterID_CHARACTERS_SIZE); errn = decodeCharacters(stream, exiFrag->MeterID.charactersLen, exiFrag->MeterID.characters, iso1EXIFragment_MeterID_CHARACTERS_SIZE);
} else { } else {
/* string table hit */ /* string table hit */
errn = EXI_ERROR_STRINGVALUES_NOT_SUPPORTED; errn = EXI_ERROR_STRINGVALUES_NOT_SUPPORTED;
@ -18065,7 +18065,7 @@ int decode_iso1ExiFragment(bitstream_t* stream, struct iso1EXIFragment* exiFrag)
if (errn == 0) { if (errn == 0) {
if (exiFrag->MgmtData.charactersLen >= 2) { if (exiFrag->MgmtData.charactersLen >= 2) {
exiFrag->MgmtData.charactersLen = (uint16_t)(exiFrag->MgmtData.charactersLen - 2); /* string table miss */ exiFrag->MgmtData.charactersLen = (uint16_t)(exiFrag->MgmtData.charactersLen - 2); /* string table miss */
errn = decodeCharacters(stream, exiFrag->MgmtData.charactersLen, exiFrag->MgmtData.characters, EXIFragment_MgmtData_CHARACTERS_SIZE); errn = decodeCharacters(stream, exiFrag->MgmtData.charactersLen, exiFrag->MgmtData.characters, iso1EXIFragment_MgmtData_CHARACTERS_SIZE);
} else { } else {
/* string table hit */ /* string table hit */
errn = EXI_ERROR_STRINGVALUES_NOT_SUPPORTED; errn = EXI_ERROR_STRINGVALUES_NOT_SUPPORTED;
@ -18086,7 +18086,7 @@ int decode_iso1ExiFragment(bitstream_t* stream, struct iso1EXIFragment* exiFrag)
if(eventCode == 0) { if(eventCode == 0) {
errn = decodeUnsignedInteger16(stream, &exiFrag->Modulus.bytesLen); errn = decodeUnsignedInteger16(stream, &exiFrag->Modulus.bytesLen);
if (errn == 0) { if (errn == 0) {
errn = (exiFrag->Modulus.bytesLen) <= EXIFragment_Modulus_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER; errn = (exiFrag->Modulus.bytesLen) <= iso1EXIFragment_Modulus_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER;
} }
if (errn == 0) { if (errn == 0) {
errn = decodeBytes(stream, exiFrag->Modulus.bytesLen, exiFrag->Modulus.bytes); errn = decodeBytes(stream, exiFrag->Modulus.bytesLen, exiFrag->Modulus.bytes);
@ -18155,7 +18155,7 @@ int decode_iso1ExiFragment(bitstream_t* stream, struct iso1EXIFragment* exiFrag)
if(eventCode == 0) { if(eventCode == 0) {
errn = decodeUnsignedInteger16(stream, &exiFrag->OEMProvisioningCert.bytesLen); errn = decodeUnsignedInteger16(stream, &exiFrag->OEMProvisioningCert.bytesLen);
if (errn == 0) { if (errn == 0) {
errn = (exiFrag->OEMProvisioningCert.bytesLen) <= EXIFragment_OEMProvisioningCert_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER; errn = (exiFrag->OEMProvisioningCert.bytesLen) <= iso1EXIFragment_OEMProvisioningCert_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER;
} }
if (errn == 0) { if (errn == 0) {
errn = decodeBytes(stream, exiFrag->OEMProvisioningCert.bytesLen, exiFrag->OEMProvisioningCert.bytes); errn = decodeBytes(stream, exiFrag->OEMProvisioningCert.bytesLen, exiFrag->OEMProvisioningCert.bytes);
@ -18180,7 +18180,7 @@ int decode_iso1ExiFragment(bitstream_t* stream, struct iso1EXIFragment* exiFrag)
if(eventCode == 0) { if(eventCode == 0) {
errn = decodeUnsignedInteger16(stream, &exiFrag->P.bytesLen); errn = decodeUnsignedInteger16(stream, &exiFrag->P.bytesLen);
if (errn == 0) { if (errn == 0) {
errn = (exiFrag->P.bytesLen) <= EXIFragment_P_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER; errn = (exiFrag->P.bytesLen) <= iso1EXIFragment_P_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER;
} }
if (errn == 0) { if (errn == 0) {
errn = decodeBytes(stream, exiFrag->P.bytesLen, exiFrag->P.bytes); errn = decodeBytes(stream, exiFrag->P.bytesLen, exiFrag->P.bytes);
@ -18205,7 +18205,7 @@ int decode_iso1ExiFragment(bitstream_t* stream, struct iso1EXIFragment* exiFrag)
if(eventCode == 0) { if(eventCode == 0) {
errn = decodeUnsignedInteger16(stream, &exiFrag->PGPKeyID.bytesLen); errn = decodeUnsignedInteger16(stream, &exiFrag->PGPKeyID.bytesLen);
if (errn == 0) { if (errn == 0) {
errn = (exiFrag->PGPKeyID.bytesLen) <= EXIFragment_PGPKeyID_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER; errn = (exiFrag->PGPKeyID.bytesLen) <= iso1EXIFragment_PGPKeyID_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER;
} }
if (errn == 0) { if (errn == 0) {
errn = decodeBytes(stream, exiFrag->PGPKeyID.bytesLen, exiFrag->PGPKeyID.bytes); errn = decodeBytes(stream, exiFrag->PGPKeyID.bytesLen, exiFrag->PGPKeyID.bytes);
@ -18225,7 +18225,7 @@ int decode_iso1ExiFragment(bitstream_t* stream, struct iso1EXIFragment* exiFrag)
if(eventCode == 0) { if(eventCode == 0) {
errn = decodeUnsignedInteger16(stream, &exiFrag->PGPKeyPacket.bytesLen); errn = decodeUnsignedInteger16(stream, &exiFrag->PGPKeyPacket.bytesLen);
if (errn == 0) { if (errn == 0) {
errn = (exiFrag->PGPKeyPacket.bytesLen) <= EXIFragment_PGPKeyPacket_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER; errn = (exiFrag->PGPKeyPacket.bytesLen) <= iso1EXIFragment_PGPKeyPacket_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER;
} }
if (errn == 0) { if (errn == 0) {
errn = decodeBytes(stream, exiFrag->PGPKeyPacket.bytesLen, exiFrag->PGPKeyPacket.bytes); errn = decodeBytes(stream, exiFrag->PGPKeyPacket.bytesLen, exiFrag->PGPKeyPacket.bytes);
@ -18324,7 +18324,7 @@ int decode_iso1ExiFragment(bitstream_t* stream, struct iso1EXIFragment* exiFrag)
if(eventCode == 0) { if(eventCode == 0) {
errn = decodeUnsignedInteger16(stream, &exiFrag->PgenCounter.bytesLen); errn = decodeUnsignedInteger16(stream, &exiFrag->PgenCounter.bytesLen);
if (errn == 0) { if (errn == 0) {
errn = (exiFrag->PgenCounter.bytesLen) <= EXIFragment_PgenCounter_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER; errn = (exiFrag->PgenCounter.bytesLen) <= iso1EXIFragment_PgenCounter_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER;
} }
if (errn == 0) { if (errn == 0) {
errn = decodeBytes(stream, exiFrag->PgenCounter.bytesLen, exiFrag->PgenCounter.bytes); errn = decodeBytes(stream, exiFrag->PgenCounter.bytesLen, exiFrag->PgenCounter.bytes);
@ -18369,7 +18369,7 @@ int decode_iso1ExiFragment(bitstream_t* stream, struct iso1EXIFragment* exiFrag)
if(eventCode == 0) { if(eventCode == 0) {
errn = decodeUnsignedInteger16(stream, &exiFrag->Q.bytesLen); errn = decodeUnsignedInteger16(stream, &exiFrag->Q.bytesLen);
if (errn == 0) { if (errn == 0) {
errn = (exiFrag->Q.bytesLen) <= EXIFragment_Q_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER; errn = (exiFrag->Q.bytesLen) <= iso1EXIFragment_Q_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER;
} }
if (errn == 0) { if (errn == 0) {
errn = decodeBytes(stream, exiFrag->Q.bytesLen, exiFrag->Q.bytes); errn = decodeBytes(stream, exiFrag->Q.bytesLen, exiFrag->Q.bytes);
@ -18551,7 +18551,7 @@ int decode_iso1ExiFragment(bitstream_t* stream, struct iso1EXIFragment* exiFrag)
if(eventCode == 0) { if(eventCode == 0) {
errn = decodeUnsignedInteger16(stream, &exiFrag->SPKISexp.bytesLen); errn = decodeUnsignedInteger16(stream, &exiFrag->SPKISexp.bytesLen);
if (errn == 0) { if (errn == 0) {
errn = (exiFrag->SPKISexp.bytesLen) <= EXIFragment_SPKISexp_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER; errn = (exiFrag->SPKISexp.bytesLen) <= iso1EXIFragment_SPKISexp_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER;
} }
if (errn == 0) { if (errn == 0) {
errn = decodeBytes(stream, exiFrag->SPKISexp.bytesLen, exiFrag->SPKISexp.bytes); errn = decodeBytes(stream, exiFrag->SPKISexp.bytesLen, exiFrag->SPKISexp.bytes);
@ -18578,7 +18578,7 @@ int decode_iso1ExiFragment(bitstream_t* stream, struct iso1EXIFragment* exiFrag)
if (errn == 0) { if (errn == 0) {
if (exiFrag->SalesTariffDescription.charactersLen >= 2) { if (exiFrag->SalesTariffDescription.charactersLen >= 2) {
exiFrag->SalesTariffDescription.charactersLen = (uint16_t)(exiFrag->SalesTariffDescription.charactersLen - 2); /* string table miss */ exiFrag->SalesTariffDescription.charactersLen = (uint16_t)(exiFrag->SalesTariffDescription.charactersLen - 2); /* string table miss */
errn = decodeCharacters(stream, exiFrag->SalesTariffDescription.charactersLen, exiFrag->SalesTariffDescription.characters, EXIFragment_SalesTariffDescription_CHARACTERS_SIZE); errn = decodeCharacters(stream, exiFrag->SalesTariffDescription.charactersLen, exiFrag->SalesTariffDescription.characters, iso1EXIFragment_SalesTariffDescription_CHARACTERS_SIZE);
} else { } else {
/* string table hit */ /* string table hit */
errn = EXI_ERROR_STRINGVALUES_NOT_SUPPORTED; errn = EXI_ERROR_STRINGVALUES_NOT_SUPPORTED;
@ -18619,7 +18619,7 @@ int decode_iso1ExiFragment(bitstream_t* stream, struct iso1EXIFragment* exiFrag)
if(eventCode == 0) { if(eventCode == 0) {
errn = decodeUnsignedInteger16(stream, &exiFrag->Seed.bytesLen); errn = decodeUnsignedInteger16(stream, &exiFrag->Seed.bytesLen);
if (errn == 0) { if (errn == 0) {
errn = (exiFrag->Seed.bytesLen) <= EXIFragment_Seed_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER; errn = (exiFrag->Seed.bytesLen) <= iso1EXIFragment_Seed_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER;
} }
if (errn == 0) { if (errn == 0) {
errn = decodeBytes(stream, exiFrag->Seed.bytesLen, exiFrag->Seed.bytes); errn = decodeBytes(stream, exiFrag->Seed.bytesLen, exiFrag->Seed.bytes);
@ -18754,7 +18754,7 @@ int decode_iso1ExiFragment(bitstream_t* stream, struct iso1EXIFragment* exiFrag)
if (errn == 0) { if (errn == 0) {
if (exiFrag->ServiceName.charactersLen >= 2) { if (exiFrag->ServiceName.charactersLen >= 2) {
exiFrag->ServiceName.charactersLen = (uint16_t)(exiFrag->ServiceName.charactersLen - 2); /* string table miss */ exiFrag->ServiceName.charactersLen = (uint16_t)(exiFrag->ServiceName.charactersLen - 2); /* string table miss */
errn = decodeCharacters(stream, exiFrag->ServiceName.charactersLen, exiFrag->ServiceName.characters, EXIFragment_ServiceName_CHARACTERS_SIZE); errn = decodeCharacters(stream, exiFrag->ServiceName.charactersLen, exiFrag->ServiceName.characters, iso1EXIFragment_ServiceName_CHARACTERS_SIZE);
} else { } else {
/* string table hit */ /* string table hit */
errn = EXI_ERROR_STRINGVALUES_NOT_SUPPORTED; errn = EXI_ERROR_STRINGVALUES_NOT_SUPPORTED;
@ -18782,7 +18782,7 @@ int decode_iso1ExiFragment(bitstream_t* stream, struct iso1EXIFragment* exiFrag)
if (errn == 0) { if (errn == 0) {
if (exiFrag->ServiceScope.charactersLen >= 2) { if (exiFrag->ServiceScope.charactersLen >= 2) {
exiFrag->ServiceScope.charactersLen = (uint16_t)(exiFrag->ServiceScope.charactersLen - 2); /* string table miss */ exiFrag->ServiceScope.charactersLen = (uint16_t)(exiFrag->ServiceScope.charactersLen - 2); /* string table miss */
errn = decodeCharacters(stream, exiFrag->ServiceScope.charactersLen, exiFrag->ServiceScope.characters, EXIFragment_ServiceScope_CHARACTERS_SIZE); errn = decodeCharacters(stream, exiFrag->ServiceScope.charactersLen, exiFrag->ServiceScope.characters, iso1EXIFragment_ServiceScope_CHARACTERS_SIZE);
} else { } else {
/* string table hit */ /* string table hit */
errn = EXI_ERROR_STRINGVALUES_NOT_SUPPORTED; errn = EXI_ERROR_STRINGVALUES_NOT_SUPPORTED;
@ -18805,7 +18805,7 @@ int decode_iso1ExiFragment(bitstream_t* stream, struct iso1EXIFragment* exiFrag)
if (errn == 0) { if (errn == 0) {
if (exiFrag->ServiceScope.charactersLen >= 2) { if (exiFrag->ServiceScope.charactersLen >= 2) {
exiFrag->ServiceScope.charactersLen = (uint16_t)(exiFrag->ServiceScope.charactersLen - 2); /* string table miss */ exiFrag->ServiceScope.charactersLen = (uint16_t)(exiFrag->ServiceScope.charactersLen - 2); /* string table miss */
errn = decodeCharacters(stream, exiFrag->ServiceScope.charactersLen, exiFrag->ServiceScope.characters, EXIFragment_ServiceScope_CHARACTERS_SIZE); errn = decodeCharacters(stream, exiFrag->ServiceScope.charactersLen, exiFrag->ServiceScope.characters, iso1EXIFragment_ServiceScope_CHARACTERS_SIZE);
} else { } else {
/* string table hit */ /* string table hit */
errn = EXI_ERROR_STRINGVALUES_NOT_SUPPORTED; errn = EXI_ERROR_STRINGVALUES_NOT_SUPPORTED;
@ -18826,7 +18826,7 @@ int decode_iso1ExiFragment(bitstream_t* stream, struct iso1EXIFragment* exiFrag)
if(eventCode == 0) { if(eventCode == 0) {
errn = decodeUnsignedInteger16(stream, &exiFrag->SessionID.bytesLen); errn = decodeUnsignedInteger16(stream, &exiFrag->SessionID.bytesLen);
if (errn == 0) { if (errn == 0) {
errn = (exiFrag->SessionID.bytesLen) <= EXIFragment_SessionID_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER; errn = (exiFrag->SessionID.bytesLen) <= iso1EXIFragment_SessionID_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER;
} }
if (errn == 0) { if (errn == 0) {
errn = decodeBytes(stream, exiFrag->SessionID.bytesLen, exiFrag->SessionID.bytes); errn = decodeBytes(stream, exiFrag->SessionID.bytesLen, exiFrag->SessionID.bytes);
@ -18846,7 +18846,7 @@ int decode_iso1ExiFragment(bitstream_t* stream, struct iso1EXIFragment* exiFrag)
if(eventCode == 0) { if(eventCode == 0) {
errn = decodeUnsignedInteger16(stream, &exiFrag->SessionID.bytesLen); errn = decodeUnsignedInteger16(stream, &exiFrag->SessionID.bytesLen);
if (errn == 0) { if (errn == 0) {
errn = (exiFrag->SessionID.bytesLen) <= EXIFragment_SessionID_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER; errn = (exiFrag->SessionID.bytesLen) <= iso1EXIFragment_SessionID_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER;
} }
if (errn == 0) { if (errn == 0) {
errn = decodeBytes(stream, exiFrag->SessionID.bytesLen, exiFrag->SessionID.bytes); errn = decodeBytes(stream, exiFrag->SessionID.bytesLen, exiFrag->SessionID.bytes);
@ -18886,7 +18886,7 @@ int decode_iso1ExiFragment(bitstream_t* stream, struct iso1EXIFragment* exiFrag)
if(eventCode == 0) { if(eventCode == 0) {
errn = decodeUnsignedInteger16(stream, &exiFrag->SigMeterReading.bytesLen); errn = decodeUnsignedInteger16(stream, &exiFrag->SigMeterReading.bytesLen);
if (errn == 0) { if (errn == 0) {
errn = (exiFrag->SigMeterReading.bytesLen) <= EXIFragment_SigMeterReading_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER; errn = (exiFrag->SigMeterReading.bytesLen) <= iso1EXIFragment_SigMeterReading_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER;
} }
if (errn == 0) { if (errn == 0) {
errn = decodeBytes(stream, exiFrag->SigMeterReading.bytesLen, exiFrag->SigMeterReading.bytes); errn = decodeBytes(stream, exiFrag->SigMeterReading.bytesLen, exiFrag->SigMeterReading.bytes);
@ -19019,7 +19019,7 @@ int decode_iso1ExiFragment(bitstream_t* stream, struct iso1EXIFragment* exiFrag)
if(eventCode == 0) { if(eventCode == 0) {
errn = decodeUnsignedInteger16(stream, &exiFrag->X509CRL.bytesLen); errn = decodeUnsignedInteger16(stream, &exiFrag->X509CRL.bytesLen);
if (errn == 0) { if (errn == 0) {
errn = (exiFrag->X509CRL.bytesLen) <= EXIFragment_X509CRL_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER; errn = (exiFrag->X509CRL.bytesLen) <= iso1EXIFragment_X509CRL_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER;
} }
if (errn == 0) { if (errn == 0) {
errn = decodeBytes(stream, exiFrag->X509CRL.bytesLen, exiFrag->X509CRL.bytes); errn = decodeBytes(stream, exiFrag->X509CRL.bytesLen, exiFrag->X509CRL.bytes);
@ -19039,7 +19039,7 @@ int decode_iso1ExiFragment(bitstream_t* stream, struct iso1EXIFragment* exiFrag)
if(eventCode == 0) { if(eventCode == 0) {
errn = decodeUnsignedInteger16(stream, &exiFrag->X509Certificate.bytesLen); errn = decodeUnsignedInteger16(stream, &exiFrag->X509Certificate.bytesLen);
if (errn == 0) { if (errn == 0) {
errn = (exiFrag->X509Certificate.bytesLen) <= EXIFragment_X509Certificate_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER; errn = (exiFrag->X509Certificate.bytesLen) <= iso1EXIFragment_X509Certificate_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER;
} }
if (errn == 0) { if (errn == 0) {
errn = decodeBytes(stream, exiFrag->X509Certificate.bytesLen, exiFrag->X509Certificate.bytes); errn = decodeBytes(stream, exiFrag->X509Certificate.bytesLen, exiFrag->X509Certificate.bytes);
@ -19066,7 +19066,7 @@ int decode_iso1ExiFragment(bitstream_t* stream, struct iso1EXIFragment* exiFrag)
if (errn == 0) { if (errn == 0) {
if (exiFrag->X509IssuerName.charactersLen >= 2) { if (exiFrag->X509IssuerName.charactersLen >= 2) {
exiFrag->X509IssuerName.charactersLen = (uint16_t)(exiFrag->X509IssuerName.charactersLen - 2); /* string table miss */ exiFrag->X509IssuerName.charactersLen = (uint16_t)(exiFrag->X509IssuerName.charactersLen - 2); /* string table miss */
errn = decodeCharacters(stream, exiFrag->X509IssuerName.charactersLen, exiFrag->X509IssuerName.characters, EXIFragment_X509IssuerName_CHARACTERS_SIZE); errn = decodeCharacters(stream, exiFrag->X509IssuerName.charactersLen, exiFrag->X509IssuerName.characters, iso1EXIFragment_X509IssuerName_CHARACTERS_SIZE);
} else { } else {
/* string table hit */ /* string table hit */
errn = EXI_ERROR_STRINGVALUES_NOT_SUPPORTED; errn = EXI_ERROR_STRINGVALUES_NOT_SUPPORTED;
@ -19092,7 +19092,7 @@ int decode_iso1ExiFragment(bitstream_t* stream, struct iso1EXIFragment* exiFrag)
if(eventCode == 0) { if(eventCode == 0) {
errn = decodeUnsignedInteger16(stream, &exiFrag->X509SKI.bytesLen); errn = decodeUnsignedInteger16(stream, &exiFrag->X509SKI.bytesLen);
if (errn == 0) { if (errn == 0) {
errn = (exiFrag->X509SKI.bytesLen) <= EXIFragment_X509SKI_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER; errn = (exiFrag->X509SKI.bytesLen) <= iso1EXIFragment_X509SKI_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER;
} }
if (errn == 0) { if (errn == 0) {
errn = decodeBytes(stream, exiFrag->X509SKI.bytesLen, exiFrag->X509SKI.bytes); errn = decodeBytes(stream, exiFrag->X509SKI.bytesLen, exiFrag->X509SKI.bytes);
@ -19128,7 +19128,7 @@ int decode_iso1ExiFragment(bitstream_t* stream, struct iso1EXIFragment* exiFrag)
if (errn == 0) { if (errn == 0) {
if (exiFrag->X509SubjectName.charactersLen >= 2) { if (exiFrag->X509SubjectName.charactersLen >= 2) {
exiFrag->X509SubjectName.charactersLen = (uint16_t)(exiFrag->X509SubjectName.charactersLen - 2); /* string table miss */ exiFrag->X509SubjectName.charactersLen = (uint16_t)(exiFrag->X509SubjectName.charactersLen - 2); /* string table miss */
errn = decodeCharacters(stream, exiFrag->X509SubjectName.charactersLen, exiFrag->X509SubjectName.characters, EXIFragment_X509SubjectName_CHARACTERS_SIZE); errn = decodeCharacters(stream, exiFrag->X509SubjectName.charactersLen, exiFrag->X509SubjectName.characters, iso1EXIFragment_X509SubjectName_CHARACTERS_SIZE);
} else { } else {
/* string table hit */ /* string table hit */
errn = EXI_ERROR_STRINGVALUES_NOT_SUPPORTED; errn = EXI_ERROR_STRINGVALUES_NOT_SUPPORTED;
@ -19151,7 +19151,7 @@ int decode_iso1ExiFragment(bitstream_t* stream, struct iso1EXIFragment* exiFrag)
if (errn == 0) { if (errn == 0) {
if (exiFrag->XPath.charactersLen >= 2) { if (exiFrag->XPath.charactersLen >= 2) {
exiFrag->XPath.charactersLen = (uint16_t)(exiFrag->XPath.charactersLen - 2); /* string table miss */ exiFrag->XPath.charactersLen = (uint16_t)(exiFrag->XPath.charactersLen - 2); /* string table miss */
errn = decodeCharacters(stream, exiFrag->XPath.charactersLen, exiFrag->XPath.characters, EXIFragment_XPath_CHARACTERS_SIZE); errn = decodeCharacters(stream, exiFrag->XPath.charactersLen, exiFrag->XPath.characters, iso1EXIFragment_XPath_CHARACTERS_SIZE);
} else { } else {
/* string table hit */ /* string table hit */
errn = EXI_ERROR_STRINGVALUES_NOT_SUPPORTED; errn = EXI_ERROR_STRINGVALUES_NOT_SUPPORTED;
@ -19172,7 +19172,7 @@ int decode_iso1ExiFragment(bitstream_t* stream, struct iso1EXIFragment* exiFrag)
if(eventCode == 0) { if(eventCode == 0) {
errn = decodeUnsignedInteger16(stream, &exiFrag->Y.bytesLen); errn = decodeUnsignedInteger16(stream, &exiFrag->Y.bytesLen);
if (errn == 0) { if (errn == 0) {
errn = (exiFrag->Y.bytesLen) <= EXIFragment_Y_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER; errn = (exiFrag->Y.bytesLen) <= iso1EXIFragment_Y_BYTES_SIZE ? 0 : EXI_ERROR_OUT_OF_BYTE_BUFFER;
} }
if (errn == 0) { if (errn == 0) {
errn = decodeBytes(stream, exiFrag->Y.bytesLen, exiFrag->Y.bytes); errn = decodeBytes(stream, exiFrag->Y.bytesLen, exiFrag->Y.bytes);
@ -19338,7 +19338,7 @@ int decode_iso1ExiFragment(bitstream_t* stream, struct iso1EXIFragment* exiFrag)
if (errn == 0) { if (errn == 0) {
if (exiFrag->stringValue.charactersLen >= 2) { if (exiFrag->stringValue.charactersLen >= 2) {
exiFrag->stringValue.charactersLen = (uint16_t)(exiFrag->stringValue.charactersLen - 2); /* string table miss */ exiFrag->stringValue.charactersLen = (uint16_t)(exiFrag->stringValue.charactersLen - 2); /* string table miss */
errn = decodeCharacters(stream, exiFrag->stringValue.charactersLen, exiFrag->stringValue.characters, EXIFragment_stringValue_CHARACTERS_SIZE); errn = decodeCharacters(stream, exiFrag->stringValue.charactersLen, exiFrag->stringValue.characters, iso1EXIFragment_stringValue_CHARACTERS_SIZE);
} else { } else {
/* string table hit */ /* string table hit */
errn = EXI_ERROR_STRINGVALUES_NOT_SUPPORTED; errn = EXI_ERROR_STRINGVALUES_NOT_SUPPORTED;