/* Handler: Validation stuff: */
QValidator::State validate(QString &strInput, int& /*iPos*/) const
{
QString strStringToValidate(strInput);
strStringToValidate.remove(' ');
QString strDot("\\.");
QString strDigits("(25[0-5]|2[0-4][0-9]|1[0-9][0-9]|[1-9][0-9]?|0)");
QRegExp intRegExp(QString("^(%1?(%2(%1?(%2(%1?(%2%1?)?)?)?)?)?)?$").arg(strDigits).arg(strDot));
RTNETADDRIPV4 Network, Mask;
if (strStringToValidate == "..." || RTCidrStrToIPv4(strStringToValidate.toLatin1().constData(), &Network, &Mask) == VINF_SUCCESS)
return QValidator::Acceptable;
else if (intRegExp.indexIn(strStringToValidate) != -1)
return QValidator::Intermediate;
else
return QValidator::Invalid;
}
bool UIItemNetworkNAT::validate(UIValidationMessage &message)
{
/* Pass by default: */
bool fPass = true;
/* NAT network name validation: */
bool fNameValid = true;
if (m_data.m_strNewName.isEmpty())
{
/* Emptiness validation: */
message.second << UIGlobalSettingsNetwork::tr("No new name specified for the NAT network previously called <b>%1</b>.").arg(m_data.m_strName);
fNameValid = false;
fPass = false;
}
/* NAT network CIDR validation: */
if (m_data.m_strCIDR.isEmpty())
{
/* Emptiness validation: */
if (fNameValid)
message.second << UIGlobalSettingsNetwork::tr("No CIDR specified for the NAT network <b>%1</b>.").arg(m_data.m_strNewName);
else
message.second << UIGlobalSettingsNetwork::tr("No CIDR specified for the NAT network previously called <b>%1</b>.").arg(m_data.m_strName);
fPass = false;
}
else
{
/* Correctness validation: */
RTNETADDRIPV4 network, mask;
int rc = RTCidrStrToIPv4(m_data.m_strCIDR.toAscii().constData(), &network, &mask);
if (RT_FAILURE(rc))
{
if (fNameValid)
message.second << UIGlobalSettingsNetwork::tr("Invalid CIDR specified (<i>%1</i>) for the NAT network <b>%2</b>.")
.arg(m_data.m_strCIDR, m_data.m_strNewName);
else
message.second << UIGlobalSettingsNetwork::tr("Invalid CIDR specified (<i>%1</i>) for the NAT network previously called <b>%2</b>.")
.arg(m_data.m_strCIDR, m_data.m_strName);
fPass = false;
}
}
/* Return result: */
return fPass;
}
/**
* Value string -> Value union.
*
* @returns IPRT status code.
* @param fFlags The value flags.
* @param pszValue The value string.
* @param pValueUnion Where to return the processed value.
*/
static int rtGetOptProcessValue(uint32_t fFlags, const char *pszValue, PRTGETOPTUNION pValueUnion)
{
/*
* Transform into a option value as requested.
* If decimal conversion fails, we'll check for "0x<xdigit>" and
* try a 16 based conversion. We will not interpret any of the
* generic ints as octals.
*/
switch (fFlags & ( RTGETOPT_REQ_MASK
| RTGETOPT_FLAG_HEX
| RTGETOPT_FLAG_DEC
| RTGETOPT_FLAG_OCT))
{
case RTGETOPT_REQ_STRING:
pValueUnion->psz = pszValue;
break;
case RTGETOPT_REQ_BOOL:
if ( !RTStrICmp(pszValue, "true")
|| !RTStrICmp(pszValue, "t")
|| !RTStrICmp(pszValue, "yes")
|| !RTStrICmp(pszValue, "y")
|| !RTStrICmp(pszValue, "enabled")
|| !RTStrICmp(pszValue, "enable")
|| !RTStrICmp(pszValue, "en")
|| !RTStrICmp(pszValue, "e")
|| !RTStrICmp(pszValue, "on")
|| !RTStrCmp(pszValue, "1")
)
pValueUnion->f = true;
else if ( !RTStrICmp(pszValue, "false")
|| !RTStrICmp(pszValue, "f")
|| !RTStrICmp(pszValue, "no")
|| !RTStrICmp(pszValue, "n")
|| !RTStrICmp(pszValue, "disabled")
|| !RTStrICmp(pszValue, "disable")
|| !RTStrICmp(pszValue, "dis")
|| !RTStrICmp(pszValue, "d")
|| !RTStrICmp(pszValue, "off")
|| !RTStrCmp(pszValue, "0")
)
pValueUnion->f = false;
else
{
pValueUnion->psz = pszValue;
return VERR_GETOPT_UNKNOWN_OPTION;
}
break;
case RTGETOPT_REQ_BOOL_ONOFF:
if (!RTStrICmp(pszValue, "on"))
pValueUnion->f = true;
else if (!RTStrICmp(pszValue, "off"))
pValueUnion->f = false;
else
{
pValueUnion->psz = pszValue;
return VERR_GETOPT_UNKNOWN_OPTION;
}
break;
#define MY_INT_CASE(req, type, memb, convfn) \
case req: \
{ \
type Value; \
if ( convfn(pszValue, 10, &Value) != VINF_SUCCESS \
&& ( pszValue[0] != '0' \
|| (pszValue[1] != 'x' && pszValue[1] != 'X') \
|| !RT_C_IS_XDIGIT(pszValue[2]) \
|| convfn(pszValue, 16, &Value) != VINF_SUCCESS ) ) \
return VERR_GETOPT_INVALID_ARGUMENT_FORMAT; \
pValueUnion->memb = Value; \
break; \
}
#define MY_BASE_INT_CASE(req, type, memb, convfn, base) \
case req: \
{ \
type Value; \
if (convfn(pszValue, base, &Value) != VINF_SUCCESS) \
return VERR_GETOPT_INVALID_ARGUMENT_FORMAT; \
pValueUnion->memb = Value; \
break; \
}
MY_INT_CASE(RTGETOPT_REQ_INT8, int8_t, i8, RTStrToInt8Full)
MY_INT_CASE(RTGETOPT_REQ_INT16, int16_t, i16, RTStrToInt16Full)
MY_INT_CASE(RTGETOPT_REQ_INT32, int32_t, i32, RTStrToInt32Full)
MY_INT_CASE(RTGETOPT_REQ_INT64, int64_t, i64, RTStrToInt64Full)
MY_INT_CASE(RTGETOPT_REQ_UINT8, uint8_t, u8, RTStrToUInt8Full)
MY_INT_CASE(RTGETOPT_REQ_UINT16, uint16_t, u16, RTStrToUInt16Full)
MY_INT_CASE(RTGETOPT_REQ_UINT32, uint32_t, u32, RTStrToUInt32Full)
MY_INT_CASE(RTGETOPT_REQ_UINT64, uint64_t, u64, RTStrToUInt64Full)
MY_BASE_INT_CASE(RTGETOPT_REQ_INT8 | RTGETOPT_FLAG_HEX, int8_t, i8, RTStrToInt8Full, 16)
MY_BASE_INT_CASE(RTGETOPT_REQ_INT16 | RTGETOPT_FLAG_HEX, int16_t, i16, RTStrToInt16Full, 16)
MY_BASE_INT_CASE(RTGETOPT_REQ_INT32 | RTGETOPT_FLAG_HEX, int32_t, i32, RTStrToInt32Full, 16)
MY_BASE_INT_CASE(RTGETOPT_REQ_INT64 | RTGETOPT_FLAG_HEX, int64_t, i64, RTStrToInt64Full, 16)
MY_BASE_INT_CASE(RTGETOPT_REQ_UINT8 | RTGETOPT_FLAG_HEX, uint8_t, u8, RTStrToUInt8Full, 16)
MY_BASE_INT_CASE(RTGETOPT_REQ_UINT16 | RTGETOPT_FLAG_HEX, uint16_t, u16, RTStrToUInt16Full, 16)
MY_BASE_INT_CASE(RTGETOPT_REQ_UINT32 | RTGETOPT_FLAG_HEX, uint32_t, u32, RTStrToUInt32Full, 16)
MY_BASE_INT_CASE(RTGETOPT_REQ_UINT64 | RTGETOPT_FLAG_HEX, uint64_t, u64, RTStrToUInt64Full, 16)
MY_BASE_INT_CASE(RTGETOPT_REQ_INT8 | RTGETOPT_FLAG_DEC, int8_t, i8, RTStrToInt8Full, 10)
MY_BASE_INT_CASE(RTGETOPT_REQ_INT16 | RTGETOPT_FLAG_DEC, int16_t, i16, RTStrToInt16Full, 10)
MY_BASE_INT_CASE(RTGETOPT_REQ_INT32 | RTGETOPT_FLAG_DEC, int32_t, i32, RTStrToInt32Full, 10)
MY_BASE_INT_CASE(RTGETOPT_REQ_INT64 | RTGETOPT_FLAG_DEC, int64_t, i64, RTStrToInt64Full, 10)
MY_BASE_INT_CASE(RTGETOPT_REQ_UINT8 | RTGETOPT_FLAG_DEC, uint8_t, u8, RTStrToUInt8Full, 10)
MY_BASE_INT_CASE(RTGETOPT_REQ_UINT16 | RTGETOPT_FLAG_DEC, uint16_t, u16, RTStrToUInt16Full, 10)
MY_BASE_INT_CASE(RTGETOPT_REQ_UINT32 | RTGETOPT_FLAG_DEC, uint32_t, u32, RTStrToUInt32Full, 10)
MY_BASE_INT_CASE(RTGETOPT_REQ_UINT64 | RTGETOPT_FLAG_DEC, uint64_t, u64, RTStrToUInt64Full, 10)
MY_BASE_INT_CASE(RTGETOPT_REQ_INT8 | RTGETOPT_FLAG_OCT, int8_t, i8, RTStrToInt8Full, 8)
MY_BASE_INT_CASE(RTGETOPT_REQ_INT16 | RTGETOPT_FLAG_OCT, int16_t, i16, RTStrToInt16Full, 8)
MY_BASE_INT_CASE(RTGETOPT_REQ_INT32 | RTGETOPT_FLAG_OCT, int32_t, i32, RTStrToInt32Full, 8)
MY_BASE_INT_CASE(RTGETOPT_REQ_INT64 | RTGETOPT_FLAG_OCT, int64_t, i64, RTStrToInt64Full, 8)
MY_BASE_INT_CASE(RTGETOPT_REQ_UINT8 | RTGETOPT_FLAG_OCT, uint8_t, u8, RTStrToUInt8Full, 8)
MY_BASE_INT_CASE(RTGETOPT_REQ_UINT16 | RTGETOPT_FLAG_OCT, uint16_t, u16, RTStrToUInt16Full, 8)
MY_BASE_INT_CASE(RTGETOPT_REQ_UINT32 | RTGETOPT_FLAG_OCT, uint32_t, u32, RTStrToUInt32Full, 8)
MY_BASE_INT_CASE(RTGETOPT_REQ_UINT64 | RTGETOPT_FLAG_OCT, uint64_t, u64, RTStrToUInt64Full, 8)
#undef MY_INT_CASE
#undef MY_BASE_INT_CASE
case RTGETOPT_REQ_IPV4ADDR:
{
RTNETADDRIPV4 Addr;
if (rtgetoptConvertIPv4Addr(pszValue, &Addr) != VINF_SUCCESS)
return VERR_GETOPT_INVALID_ARGUMENT_FORMAT;
pValueUnion->IPv4Addr = Addr;
break;
}
case RTGETOPT_REQ_IPV4CIDR:
{
RTNETADDRIPV4 network;
RTNETADDRIPV4 netmask;
if (RT_FAILURE(RTCidrStrToIPv4(pszValue, &network, &netmask)))
return VERR_GETOPT_INVALID_ARGUMENT_FORMAT;
pValueUnion->CidrIPv4.IPv4Network.u = network.u;
pValueUnion->CidrIPv4.IPv4Netmask.u = netmask.u;
break;
}
case RTGETOPT_REQ_MACADDR:
{
RTMAC Addr;
if (rtgetoptConvertMacAddr(pszValue, &Addr) != VINF_SUCCESS)
return VERR_GETOPT_INVALID_ARGUMENT_FORMAT;
pValueUnion->MacAddr = Addr;
break;
}
case RTGETOPT_REQ_UUID:
{
RTUUID Uuid;
if (RTUuidFromStr(&Uuid, pszValue) != VINF_SUCCESS)
return VERR_GETOPT_INVALID_ARGUMENT_FORMAT;
pValueUnion->Uuid = Uuid;
break;
}
default:
AssertMsgFailed(("f=%#x\n", fFlags));
return VERR_INTERNAL_ERROR;
}
return VINF_SUCCESS;
}
/**
* Value string -> Value union.
*
* @returns IPRT status code.
* @param fFlags The value flags.
* @param pszValue The value string.
* @param pValueUnion Where to return the processed value.
*/
static int rtGetOptProcessValue(uint32_t fFlags, const char *pszValue, PRTGETOPTUNION pValueUnion)
{
/*
* Transform into a option value as requested.
* If decimal conversion fails, we'll check for "0x<xdigit>" and
* try a 16 based conversion. We will not interpret any of the
* generic ints as octals.
*/
uint32_t const fSwitchValue = fFlags & ( RTGETOPT_REQ_MASK
| RTGETOPT_FLAG_HEX
| RTGETOPT_FLAG_DEC
| RTGETOPT_FLAG_OCT);
switch (fSwitchValue)
{
case RTGETOPT_REQ_STRING:
pValueUnion->psz = pszValue;
break;
case RTGETOPT_REQ_BOOL:
if ( !RTStrICmp(pszValue, "true")
|| !RTStrICmp(pszValue, "t")
|| !RTStrICmp(pszValue, "yes")
|| !RTStrICmp(pszValue, "y")
|| !RTStrICmp(pszValue, "enabled")
|| !RTStrICmp(pszValue, "enable")
|| !RTStrICmp(pszValue, "en")
|| !RTStrICmp(pszValue, "e")
|| !RTStrICmp(pszValue, "on")
|| !RTStrCmp(pszValue, "1")
)
pValueUnion->f = true;
else if ( !RTStrICmp(pszValue, "false")
|| !RTStrICmp(pszValue, "f")
|| !RTStrICmp(pszValue, "no")
|| !RTStrICmp(pszValue, "n")
|| !RTStrICmp(pszValue, "disabled")
|| !RTStrICmp(pszValue, "disable")
|| !RTStrICmp(pszValue, "dis")
|| !RTStrICmp(pszValue, "d")
|| !RTStrICmp(pszValue, "off")
|| !RTStrCmp(pszValue, "0")
)
pValueUnion->f = false;
else
{
pValueUnion->psz = pszValue;
return VERR_GETOPT_UNKNOWN_OPTION;
}
break;
case RTGETOPT_REQ_BOOL_ONOFF:
if (!RTStrICmp(pszValue, "on"))
pValueUnion->f = true;
else if (!RTStrICmp(pszValue, "off"))
pValueUnion->f = false;
else
{
pValueUnion->psz = pszValue;
return VERR_GETOPT_UNKNOWN_OPTION;
}
break;
#define MY_INT_CASE(req, type, memb, convfn) \
case req: \
{ \
type Value; \
if ( convfn(pszValue, 10, &Value) != VINF_SUCCESS \
&& ( pszValue[0] != '0' \
|| (pszValue[1] != 'x' && pszValue[1] != 'X') \
|| !RT_C_IS_XDIGIT(pszValue[2]) \
|| convfn(pszValue, 16, &Value) != VINF_SUCCESS ) ) \
return VERR_GETOPT_INVALID_ARGUMENT_FORMAT; \
pValueUnion->memb = Value; \
break; \
}
#define MY_BASE_INT_CASE(req, type, memb, convfn, base) \
case req: \
{ \
type Value; \
if (convfn(pszValue, base, &Value) != VINF_SUCCESS) \
return VERR_GETOPT_INVALID_ARGUMENT_FORMAT; \
pValueUnion->memb = Value; \
break; \
}
MY_INT_CASE(RTGETOPT_REQ_INT8, int8_t, i8, RTStrToInt8Full)
MY_INT_CASE(RTGETOPT_REQ_INT16, int16_t, i16, RTStrToInt16Full)
MY_INT_CASE(RTGETOPT_REQ_INT32, int32_t, i32, RTStrToInt32Full)
MY_INT_CASE(RTGETOPT_REQ_INT64, int64_t, i64, RTStrToInt64Full)
MY_INT_CASE(RTGETOPT_REQ_UINT8, uint8_t, u8, RTStrToUInt8Full)
MY_INT_CASE(RTGETOPT_REQ_UINT16, uint16_t, u16, RTStrToUInt16Full)
MY_INT_CASE(RTGETOPT_REQ_UINT32, uint32_t, u32, RTStrToUInt32Full)
MY_INT_CASE(RTGETOPT_REQ_UINT64, uint64_t, u64, RTStrToUInt64Full)
MY_BASE_INT_CASE(RTGETOPT_REQ_INT8 | RTGETOPT_FLAG_HEX, int8_t, i8, RTStrToInt8Full, 16)
MY_BASE_INT_CASE(RTGETOPT_REQ_INT16 | RTGETOPT_FLAG_HEX, int16_t, i16, RTStrToInt16Full, 16)
MY_BASE_INT_CASE(RTGETOPT_REQ_INT32 | RTGETOPT_FLAG_HEX, int32_t, i32, RTStrToInt32Full, 16)
MY_BASE_INT_CASE(RTGETOPT_REQ_INT64 | RTGETOPT_FLAG_HEX, int64_t, i64, RTStrToInt64Full, 16)
MY_BASE_INT_CASE(RTGETOPT_REQ_UINT8 | RTGETOPT_FLAG_HEX, uint8_t, u8, RTStrToUInt8Full, 16)
MY_BASE_INT_CASE(RTGETOPT_REQ_UINT16 | RTGETOPT_FLAG_HEX, uint16_t, u16, RTStrToUInt16Full, 16)
MY_BASE_INT_CASE(RTGETOPT_REQ_UINT32 | RTGETOPT_FLAG_HEX, uint32_t, u32, RTStrToUInt32Full, 16)
MY_BASE_INT_CASE(RTGETOPT_REQ_UINT64 | RTGETOPT_FLAG_HEX, uint64_t, u64, RTStrToUInt64Full, 16)
MY_BASE_INT_CASE(RTGETOPT_REQ_INT8 | RTGETOPT_FLAG_DEC, int8_t, i8, RTStrToInt8Full, 10)
MY_BASE_INT_CASE(RTGETOPT_REQ_INT16 | RTGETOPT_FLAG_DEC, int16_t, i16, RTStrToInt16Full, 10)
MY_BASE_INT_CASE(RTGETOPT_REQ_INT32 | RTGETOPT_FLAG_DEC, int32_t, i32, RTStrToInt32Full, 10)
MY_BASE_INT_CASE(RTGETOPT_REQ_INT64 | RTGETOPT_FLAG_DEC, int64_t, i64, RTStrToInt64Full, 10)
MY_BASE_INT_CASE(RTGETOPT_REQ_UINT8 | RTGETOPT_FLAG_DEC, uint8_t, u8, RTStrToUInt8Full, 10)
MY_BASE_INT_CASE(RTGETOPT_REQ_UINT16 | RTGETOPT_FLAG_DEC, uint16_t, u16, RTStrToUInt16Full, 10)
MY_BASE_INT_CASE(RTGETOPT_REQ_UINT32 | RTGETOPT_FLAG_DEC, uint32_t, u32, RTStrToUInt32Full, 10)
MY_BASE_INT_CASE(RTGETOPT_REQ_UINT64 | RTGETOPT_FLAG_DEC, uint64_t, u64, RTStrToUInt64Full, 10)
MY_BASE_INT_CASE(RTGETOPT_REQ_INT8 | RTGETOPT_FLAG_OCT, int8_t, i8, RTStrToInt8Full, 8)
MY_BASE_INT_CASE(RTGETOPT_REQ_INT16 | RTGETOPT_FLAG_OCT, int16_t, i16, RTStrToInt16Full, 8)
MY_BASE_INT_CASE(RTGETOPT_REQ_INT32 | RTGETOPT_FLAG_OCT, int32_t, i32, RTStrToInt32Full, 8)
MY_BASE_INT_CASE(RTGETOPT_REQ_INT64 | RTGETOPT_FLAG_OCT, int64_t, i64, RTStrToInt64Full, 8)
MY_BASE_INT_CASE(RTGETOPT_REQ_UINT8 | RTGETOPT_FLAG_OCT, uint8_t, u8, RTStrToUInt8Full, 8)
MY_BASE_INT_CASE(RTGETOPT_REQ_UINT16 | RTGETOPT_FLAG_OCT, uint16_t, u16, RTStrToUInt16Full, 8)
MY_BASE_INT_CASE(RTGETOPT_REQ_UINT32 | RTGETOPT_FLAG_OCT, uint32_t, u32, RTStrToUInt32Full, 8)
MY_BASE_INT_CASE(RTGETOPT_REQ_UINT64 | RTGETOPT_FLAG_OCT, uint64_t, u64, RTStrToUInt64Full, 8)
#undef MY_INT_CASE
#undef MY_BASE_INT_CASE
case RTGETOPT_REQ_IPV4ADDR:
{
RTNETADDRIPV4 Addr;
if (rtgetoptConvertIPv4Addr(pszValue, &Addr) != VINF_SUCCESS)
return VERR_GETOPT_INVALID_ARGUMENT_FORMAT;
pValueUnion->IPv4Addr = Addr;
break;
}
case RTGETOPT_REQ_IPV4CIDR:
{
RTNETADDRIPV4 network;
RTNETADDRIPV4 netmask;
if (RT_FAILURE(RTCidrStrToIPv4(pszValue, &network, &netmask)))
return VERR_GETOPT_INVALID_ARGUMENT_FORMAT;
pValueUnion->CidrIPv4.IPv4Network.u = network.u;
pValueUnion->CidrIPv4.IPv4Netmask.u = netmask.u;
break;
}
case RTGETOPT_REQ_MACADDR:
{
RTMAC Addr;
if (rtgetoptConvertMacAddr(pszValue, &Addr) != VINF_SUCCESS)
return VERR_GETOPT_INVALID_ARGUMENT_FORMAT;
pValueUnion->MacAddr = Addr;
break;
}
case RTGETOPT_REQ_UUID:
{
RTUUID Uuid;
if (RTUuidFromStr(&Uuid, pszValue) != VINF_SUCCESS)
return VERR_GETOPT_INVALID_ARGUMENT_FORMAT;
pValueUnion->Uuid = Uuid;
break;
}
#define MY_INT_PAIR_CASE(a_fReqValue, a_fReqValueOptional, a_Type, a_MemberPrefix, a_fnConv, a_ConvBase, a_DefaultValue) \
case a_fReqValue: \
case a_fReqValueOptional: \
{ \
/* First value: */ \
a_Type Value1; \
char *pszNext = NULL; \
unsigned uBase = pszValue[0] == '0' \
&& (pszValue[1] == 'x' || pszValue[1] == 'X') \
&& RT_C_IS_XDIGIT(pszValue[2]) \
? 16 : a_ConvBase; \
int rc = a_fnConv(pszValue, &pszNext, uBase, &Value1); \
if (rc == VINF_SUCCESS || rc == VWRN_TRAILING_CHARS || rc == VWRN_TRAILING_SPACES) \
{ \
/* The second value, could be optional: */ \
a_Type Value2 = a_DefaultValue; \
pszValue = pszNext;\
if (pszValue) \
{ \
while (RT_C_IS_BLANK(*pszValue)) \
pszValue++; \
if (*pszValue == ':' || *pszValue == '/' || *pszValue == '|') \
do pszValue++; \
while (RT_C_IS_BLANK(*pszValue)); \
if (pszValue != pszNext) \
{ \
uBase = pszValue[0] == '0' \
&& (pszValue[1] == 'x' || pszValue[1] == 'X') \
&& RT_C_IS_XDIGIT(pszValue[2]) \
? 16 : a_ConvBase; \
rc = a_fnConv(pszValue, &pszNext, uBase, &Value2); \
if (rc == VINF_SUCCESS) \
{ /* likely */ } \
else \
{ RTAssertMsg2("z rc=%Rrc: '%s' '%s' uBase=%d\n", rc, pszValue, pszNext, uBase); return VERR_GETOPT_INVALID_ARGUMENT_FORMAT; } \
} \
else if (fSwitchValue != (a_fReqValueOptional)) \
{ RTAssertMsg2("x\n"); return VERR_GETOPT_INVALID_ARGUMENT_FORMAT; } \
} \
else if (fSwitchValue != (a_fReqValueOptional)) \
{ RTAssertMsg2("y\n"); return VERR_GETOPT_INVALID_ARGUMENT_FORMAT; } \
pValueUnion->a_MemberPrefix##Second = Value2; \
pValueUnion->a_MemberPrefix##First = Value1; \
break; \
} \
return VERR_GETOPT_INVALID_ARGUMENT_FORMAT; \
}
MY_INT_PAIR_CASE(RTGETOPT_REQ_UINT32_PAIR, RTGETOPT_REQ_UINT32_OPTIONAL_PAIR,
uint32_t, PairU32.u, RTStrToUInt32Ex, 10, UINT32_MAX)
MY_INT_PAIR_CASE(RTGETOPT_REQ_UINT32_PAIR | RTGETOPT_FLAG_DEC, RTGETOPT_REQ_UINT32_OPTIONAL_PAIR | RTGETOPT_FLAG_DEC,
uint32_t, PairU32.u, RTStrToUInt32Ex, 10, UINT32_MAX)
MY_INT_PAIR_CASE(RTGETOPT_REQ_UINT32_PAIR | RTGETOPT_FLAG_HEX, RTGETOPT_REQ_UINT32_OPTIONAL_PAIR | RTGETOPT_FLAG_HEX,
uint32_t, PairU32.u, RTStrToUInt32Ex, 16, UINT32_MAX)
MY_INT_PAIR_CASE(RTGETOPT_REQ_UINT32_PAIR | RTGETOPT_FLAG_OCT, RTGETOPT_REQ_UINT32_OPTIONAL_PAIR | RTGETOPT_FLAG_OCT,
uint32_t, PairU32.u, RTStrToUInt32Ex, 8, UINT32_MAX)
MY_INT_PAIR_CASE(RTGETOPT_REQ_UINT64_PAIR, RTGETOPT_REQ_UINT64_OPTIONAL_PAIR,
uint64_t, PairU64.u, RTStrToUInt64Ex, 10, UINT64_MAX)
MY_INT_PAIR_CASE(RTGETOPT_REQ_UINT64_PAIR | RTGETOPT_FLAG_DEC, RTGETOPT_REQ_UINT64_OPTIONAL_PAIR | RTGETOPT_FLAG_DEC,
uint64_t, PairU64.u, RTStrToUInt64Ex, 10, UINT64_MAX)
MY_INT_PAIR_CASE(RTGETOPT_REQ_UINT64_PAIR | RTGETOPT_FLAG_HEX, RTGETOPT_REQ_UINT64_OPTIONAL_PAIR | RTGETOPT_FLAG_HEX,
uint64_t, PairU64.u, RTStrToUInt64Ex, 16, UINT64_MAX)
MY_INT_PAIR_CASE(RTGETOPT_REQ_UINT64_PAIR | RTGETOPT_FLAG_OCT, RTGETOPT_REQ_UINT64_OPTIONAL_PAIR | RTGETOPT_FLAG_OCT,
uint64_t, PairU64.u, RTStrToUInt64Ex, 8, UINT64_MAX)
default:
AssertMsgFailed(("f=%#x\n", fFlags));
return VERR_INTERNAL_ERROR;
}
return VINF_SUCCESS;
}