package fsp import "../../platforms/common" type FieldMacros struct {} // field - data structure for creating a new bitfield macro object // configmap : map to select the current configuration // value : the key value in the configmap // override : overrides the function to generate the current bitfield macro type field struct { configmap map[uint8]string value uint8 override func(configuration map[uint8]string, value uint8) } // generate - wrapper for generating bitfield macros string // fields : field structure func generate(fields ...*field) { macro := common.GetMacro() for _, field := range fields { if field.override != nil { // override if necessary field.override(field.configmap, field.value) continue } fieldmacro, valid := field.configmap[field.value] if valid { macro.Add(fieldmacro).Add(", ") } else { macro.Add("INVALID, ") } } } // DecodeDW0 - decode value of DW0 register func (FieldMacros) DecodeDW0() { macro := common.GetMacro() dw0 := macro.Register(common.PAD_CFG_DW0) ownershipStatus := func() uint8 { if macro.IsOwnershipDriver() { return 1 } return 0 } generate( &field { configmap : map[uint8]string{ 0: "GpioPadModeGpio", 1: "GpioPadModeNative1", 2: "GpioPadModeNative2", 3: "GpioPadModeNative3", 4: "GpioPadModeNative4", 5: "GpioPadModeNative5", }, value : dw0.GetPadMode(), }, &field { configmap : map[uint8]string { 0: "GpioHostOwnAcpi", 1: "GpioHostOwnGpio", }, value : ownershipStatus(), }, &field { configmap : map[uint8]string { 0: "GpioDirInOut", 1: "GpioDirIn", 2: "GpioDirOut", 3: "GpioDirNone", 1 << 4 | 0: "GpioDirInInvOut", 1 << 4 | 1: "GpioDirInInv", }, value : dw0.GetRxInvert() << 4 | dw0.GetGPIORxTxDisableStatus(), }, &field { configmap : map[uint8]string { 0: "GpioOutLow", 1: "GpioOutHigh", }, value : dw0.GetGPIOTXState(), }, &field { configmap : map[uint8]string { 1 << 0: "GpioIntNmi", 1 << 1: "GpioIntSmi", 1 << 2: "GpioIntSci", 1 << 3: "GpioIntApic", }, override : func(configmap map[uint8]string, value uint8) { mask := dw0.GetGPIOInputRouteIOxAPIC() << 3 | dw0.GetGPIOInputRouteSCI() << 2 | dw0.GetGPIOInputRouteSMI() << 1 | dw0.GetGPIOInputRouteNMI() if mask == 0 { macro.Add("GpioIntDis | ") return } for bit, fieldmacro := range configmap { if mask & bit != 0 { macro.Add(fieldmacro).Add(" | ") } } }, }, &field { configmap : map[uint8]string { 0: "GpioIntLevel", 1: "GpioIntEdge", 2: "GpioIntLvlEdgDis", 3: "GpioIntBothEdge", }, value : dw0.GetRXLevelEdgeConfiguration(), }, &field { configmap : map[uint8]string { 0: "GpioResetPwrGood", 1: "GpioResetDeep", 2: "GpioResetNormal", 3: "GpioResetResume", }, value : dw0.GetResetConfig(), }, ) } // DecodeDW1 - decode value of DW1 register func (FieldMacros) DecodeDW1() { macro := common.GetMacro() dw1 := macro.Register(common.PAD_CFG_DW1) generate( &field { override : func(configmap map[uint8]string, value uint8) { if dw1.GetPadTol() != 0 { macro.Add("GpioTolerance1v8 | ") } }, }, &field { configmap : map[uint8]string { 0x0: "GpioTermNone", 0x2: "GpioTermWpd5K", 0x4: "GpioTermWpd20K", 0x9: "GpioTermWpu1K", 0xa: "GpioTermWpu5K", 0xb: "GpioTermWpu2K", 0xc: "GpioTermWpu20K", 0xd: "GpioTermWpu1K2K", 0xf: "GpioTermNative", }, value : dw1.GetTermination(), }, ) } // GenerateString - generates the entire string of bitfield macros. func (bitfields FieldMacros) GenerateString() { macro := common.GetMacro() macro.Add("{ GPIO_SKL_H_").Id().Add(", { ") bitfields.DecodeDW0() bitfields.DecodeDW1() macro.Add(" GpioPadConfigLock } },") // TODO: configure GpioPadConfigLock }