package cnl import "strings" import "fmt" // Local packages import "../common" import "../../config" import "../../fields" import "../snr" const ( PAD_CFG_DW0_RO_FIELDS = (0x1 << 27) | (0x1 << 24) | (0x3 << 21) | (0xf << 16) | 0xfc PAD_CFG_DW1_RO_FIELDS = 0xfdffc3ff ) const ( PAD_CFG_DW0 = common.PAD_CFG_DW0 PAD_CFG_DW1 = common.PAD_CFG_DW1 MAX_DW_NUM = common.MAX_DW_NUM ) type InheritanceMacro interface { GpoMacroAdd() NativeFunctionMacroAdd() NoConnMacroAdd() } type PlatformSpecific struct { InheritanceMacro InheritanceTemplate } // RemmapRstSrc - remmap Pad Reset Source Config func (PlatformSpecific) RemmapRstSrc() { macro := common.GetMacro() if config.TemplateGet() != config.TempInteltool { // Use reset source remapping only if the input file is inteltool.log dump return } if strings.Contains(macro.PadIdGet(), "GPP_A") || strings.Contains(macro.PadIdGet(), "GPP_B") || strings.Contains(macro.PadIdGet(), "GPP_G") { // See reset map for the Cannonlake Groups the Community 0: // https://github.com/coreboot/coreboot/blob/master/src/soc/intel/cannonlake/gpio.c#L14 // remmap is not required because it is the same as common. return } dw0 := macro.Register(PAD_CFG_DW0) var remapping = map[uint8]uint32{ 0: common.RST_RSMRST << common.PadRstCfgShift, 1: common.RST_DEEP << common.PadRstCfgShift, 2: common.RST_PLTRST << common.PadRstCfgShift, } resetsrc, valid := remapping[dw0.GetResetConfig()] if valid { // dw0.SetResetConfig(resetsrc) ResetConfigFieldVal := (dw0.ValueGet() & 0x3fffffff) | remapping[dw0.GetResetConfig()] dw0.ValueSet(ResetConfigFieldVal) } else { fmt.Println("Invalid Pad Reset Config [ 0x", resetsrc ," ] for ", macro.PadIdGet()) } dw0.CntrMaskFieldsClear(common.PadRstCfgMask) } // Adds The Pad Termination (TERM) parameter from PAD_CFG_DW1 to the macro // as a new argument func (PlatformSpecific) Pull() { macro := common.GetMacro() dw1 := macro.Register(PAD_CFG_DW1) var pull = map[uint8]string{ 0x0: "NONE", 0x2: "DN_5K", 0x4: "DN_20K", 0x9: "UP_1K", 0xa: "UP_5K", 0xb: "UP_2K", 0xc: "UP_20K", 0xd: "UP_667", 0xf: "NATIVE", } str, valid := pull[dw1.GetTermination()] if !valid { str = "INVALID" fmt.Println("Error", macro.PadIdGet(), " invalid TERM value = ", int(dw1.GetTermination())) } macro.Separator().Add(str) } // Generate macro to cause peripheral IRQ when configured in GPIO input mode func ioApicRoute() bool { macro := common.GetMacro() dw0 := macro.Register(PAD_CFG_DW0) if dw0.GetGPIOInputRouteIOxAPIC() == 0 { return false } macro.Add("_APIC") // PAD_CFG_GPI_APIC(pad, pull, rst, trig, inv) macro.Add("(").Id().Pull().Rstsrc().Trig().Invert().Add("),") return true } // Generate macro to cause NMI when configured in GPIO input mode func nmiRoute() bool { macro := common.GetMacro() if macro.Register(PAD_CFG_DW0).GetGPIOInputRouteNMI() == 0 { return false } // PAD_CFG_GPI_NMI(GPIO_24, UP_20K, DEEP, LEVEL, INVERT), macro.Add("_NMI").Add("(").Id().Pull().Rstsrc().Trig().Invert().Add("),") return true } // Generate macro to cause SCI when configured in GPIO input mode func sciRoute() bool { macro := common.GetMacro() dw0 := macro.Register(PAD_CFG_DW0) if dw0.GetGPIOInputRouteSCI() == 0 { return false } // PAD_CFG_GPI_SCI(pad, pull, rst, trig, inv) macro.Add("_SCI").Add("(").Id().Pull().Rstsrc().Trig().Invert().Add("),") return true } // Generate macro to cause SMI when configured in GPIO input mode func smiRoute() bool { macro := common.GetMacro() dw0 := macro.Register(PAD_CFG_DW0) if dw0.GetGPIOInputRouteSMI() == 0 { return false } // PAD_CFG_GPI_SMI(pad, pull, rst, trig, inv) macro.Add("_SMI").Add("(").Id().Pull().Rstsrc().Trig().Invert().Add("),") return true } // Adds PAD_CFG_GPI macro with arguments func (PlatformSpecific) GpiMacroAdd() { macro := common.GetMacro() var ids []string macro.Set("PAD_CFG_GPI") for routeid, isRoute := range map[string]func() (bool) { "IOAPIC": ioApicRoute, "SCI": sciRoute, "SMI": smiRoute, "NMI": nmiRoute, } { if isRoute() { ids = append(ids, routeid) } } switch argc := len(ids); argc { case 0: // e.g. PAD_CFG_GPI_TRIG_OWN(pad, pull, rst, trig, own) macro.Add("_TRIG_OWN").Add("(").Id().Pull().Rstsrc().Trig().Own().Add("),") case 1: // GPI with IRQ route if config.AreFieldsIgnored() { // Set Host Software Ownership to ACPI mode macro.SetPadOwnership(common.PAD_OWN_ACPI) } case 2: // PAD_CFG_GPI_DUAL_ROUTE(pad, pull, rst, trig, inv, route1, route2) macro.Set("PAD_CFG_GPI_DUAL_ROUTE(").Id().Pull().Rstsrc().Trig().Invert() macro.Add(", " + ids[0] + ", " + ids[1] + "),") if config.AreFieldsIgnored() { // Set Host Software Ownership to ACPI mode macro.SetPadOwnership(common.PAD_OWN_ACPI) } default: // Clear the control mask so that the check fails and "Advanced" macro is // generated macro.Register(PAD_CFG_DW0).CntrMaskFieldsClear(common.AllFields) } } // Adds PAD_CFG_GPO macro with arguments func (platform PlatformSpecific) GpoMacroAdd() { platform.InheritanceMacro.GpoMacroAdd() } // Adds PAD_CFG_NF macro with arguments func (platform PlatformSpecific) NativeFunctionMacroAdd() { platform.InheritanceMacro.NativeFunctionMacroAdd() } // Adds PAD_NC macro func (platform PlatformSpecific) NoConnMacroAdd() { platform.InheritanceMacro.NoConnMacroAdd() } // GenMacro - generate pad macro // dw0 : DW0 config register value // dw1 : DW1 config register value // return: string of macro // error func (PlatformSpecific) GenMacro(id string, dw0 uint32, dw1 uint32, ownership uint8) string { macro := common.GetInstanceMacro(PlatformSpecific{InheritanceMacro : snr.PlatformSpecific{}}, fields.InterfaceGet()) macro.Clear() macro.Register(PAD_CFG_DW0).CntrMaskFieldsClear(common.AllFields) macro.Register(PAD_CFG_DW0).CntrMaskFieldsClear(common.AllFields) macro.PadIdSet(id).SetPadOwnership(ownership) macro.Register(PAD_CFG_DW0).ValueSet(dw0).ReadOnlyFieldsSet(PAD_CFG_DW0_RO_FIELDS) macro.Register(PAD_CFG_DW1).ValueSet(dw1).ReadOnlyFieldsSet(PAD_CFG_DW1_RO_FIELDS) return macro.Generate() }