Esempio n. 1
0
uint64_t
SBValue::GetValueAsUnsigned(uint64_t fail_value)
{
    ValueLocker locker;
    lldb::ValueObjectSP value_sp(GetSP(locker));
    if (value_sp)
    {
        Scalar scalar;
        if (value_sp->ResolveValue (scalar))
            return scalar.ULongLong(fail_value);
    }
    return fail_value;
}
Esempio n. 2
0
uint64_t
SBValue::GetValueAsUnsigned(SBError& error, uint64_t fail_value)
{
    error.Clear();
    ValueLocker locker;
    lldb::ValueObjectSP value_sp(GetSP(locker));
    if (value_sp)
    {
        Scalar scalar;
        if (value_sp->ResolveValue (scalar))
            return scalar.ULongLong(fail_value);
        else
            error.SetErrorString("could not resolve value");
    }
    else
        error.SetErrorStringWithFormat ("could not get SBValue: %s", locker.GetError().AsCString());
    
    return fail_value;
}
Esempio n. 3
0
bool
CompilerType::SetValueFromScalar (const Scalar &value, Stream &strm)
{
    if (!IsValid())
        return false;

    // Aggregate types don't have scalar values
    if (!IsAggregateType ())
    {
        strm.GetFlags().Set(Stream::eBinary);
        uint64_t count = 0;
        lldb::Encoding encoding = GetEncoding (count);
        
        if (encoding == lldb::eEncodingInvalid || count != 1)
            return false;
        
        const uint64_t bit_width = GetBitSize(nullptr);
        // This function doesn't currently handle non-byte aligned assignments
        if ((bit_width % 8) != 0)
            return false;
        
        const uint64_t byte_size = (bit_width + 7 ) / 8;
        switch (encoding)
        {
            case lldb::eEncodingInvalid:
                break;
            case lldb::eEncodingVector:
                break;
            case lldb::eEncodingUint:
                switch (byte_size)
            {
                case 1: strm.PutHex8(value.UInt()); return true;
                case 2: strm.PutHex16(value.UInt()); return true;
                case 4: strm.PutHex32(value.UInt()); return true;
                case 8: strm.PutHex64(value.ULongLong()); return true;
                default:
                    break;
            }
                break;
                
            case lldb::eEncodingSint:
                switch (byte_size)
            {
                case 1: strm.PutHex8(value.SInt()); return true;
                case 2: strm.PutHex16(value.SInt()); return true;
                case 4: strm.PutHex32(value.SInt()); return true;
                case 8: strm.PutHex64(value.SLongLong()); return true;
                default:
                    break;
            }
                break;
                
            case lldb::eEncodingIEEE754:
                if (byte_size <= sizeof(long double))
                {
                    if (byte_size == sizeof(float))
                    {
                        strm.PutFloat(value.Float());
                        return true;
                    }
                    else
                        if (byte_size == sizeof(double))
                        {
                            strm.PutDouble(value.Double());
                            return true;
                        }
                        else
                            if (byte_size == sizeof(long double))
                            {
                                strm.PutDouble(value.LongDouble());
                                return true;
                            }
                }
                break;
        }
    }
    return false;
}
bool
RegisterContextMach_x86_64::WriteRegisterValue (uint32_t reg, const Scalar &value)
{
    int set = RegisterContextMach_x86_64::GetSetForNativeRegNum (reg);

    if (set == -1)
        return false;

    if (ReadRegisterSet(set, false) != KERN_SUCCESS)
        return false;

    switch (reg)
    {
    case gpr_rax:
    case gpr_rbx:
    case gpr_rcx:
    case gpr_rdx:
    case gpr_rdi:
    case gpr_rsi:
    case gpr_rbp:
    case gpr_rsp:
    case gpr_r8:
    case gpr_r9:
    case gpr_r10:
    case gpr_r11:
    case gpr_r12:
    case gpr_r13:
    case gpr_r14:
    case gpr_r15:
    case gpr_rip:
    case gpr_rflags:
    case gpr_cs:
    case gpr_fs:
    case gpr_gs:
        (&gpr.rax)[reg - gpr_rax] = value.ULongLong(0);
        break;

    case fpu_fcw:
        fpu.fcw = value.UInt(0);
        break;

    case fpu_fsw:
        fpu.fsw = value.UInt(0);
        break;

    case fpu_ftw:
        fpu.ftw = value.UInt(0);
        break;

    case fpu_fop:
        fpu.fop = value.UInt(0);
        break;

    case fpu_ip:
        fpu.ip = value.UInt(0);
        break;

    case fpu_cs:
        fpu.cs = value.UInt(0);
        break;

    case fpu_dp:
        fpu.dp = value.UInt(0);
        break;

    case fpu_ds:
        fpu.ds = value.UInt(0);
        break;

    case fpu_mxcsr:
        fpu.mxcsr = value.UInt(0);
        break;

    case fpu_mxcsrmask:
        fpu.mxcsrmask = value.UInt(0);
        break;

    case fpu_stmm0:
    case fpu_stmm1:
    case fpu_stmm2:
    case fpu_stmm3:
    case fpu_stmm4:
    case fpu_stmm5:
    case fpu_stmm6:
    case fpu_stmm7:
        // These values don't fit into scalar types, RegisterContext::ReadRegisterBytes()
        // must be used for these registers
        //::memcpy (fpu.stmm[reg - fpu_stmm0].bytes, reg_value.value.vector.uint8, 10);
        return false;

    case fpu_xmm0:
    case fpu_xmm1:
    case fpu_xmm2:
    case fpu_xmm3:
    case fpu_xmm4:
    case fpu_xmm5:
    case fpu_xmm6:
    case fpu_xmm7:
    case fpu_xmm8:
    case fpu_xmm9:
    case fpu_xmm10:
    case fpu_xmm11:
    case fpu_xmm12:
    case fpu_xmm13:
    case fpu_xmm14:
    case fpu_xmm15:
        // These values don't fit into scalar types, RegisterContext::ReadRegisterBytes()
        // must be used for these registers
        //::memcpy (fpu.xmm[reg - fpu_xmm0].bytes, reg_value.value.vector.uint8, 16);
        return false;

    case exc_trapno:
        exc.trapno = value.UInt(0);
        break;

    case exc_err:
        exc.err = value.UInt(0);
        break;

    case exc_faultvaddr:
        exc.faultvaddr = value.UInt(0);
        break;

    default:
        return false;
    }
    return WriteRegisterSet(set) == KERN_SUCCESS;
}