/** @file * * Copyright (c) 2011-2015, ARM Limited. All rights reserved. * * This program and the accompanying materials * are licensed and made available under the terms and conditions of the BSD License * which accompanies this distribution. The full text of the license may be found at * http://opensource.org/licenses/bsd-license.php * * THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS, * WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED. * **/ #include #include #include #include #include #include #include "GicV2/ArmGicV2Lib.h" #include "GicV3/ArmGicV3Lib.h" /** * Return the base address of the GIC redistributor for the current CPU * * @param Revision GIC Revision. The GIC redistributor might have a different * granularity following the GIC revision. * * @retval Base address of the associated GIC Redistributor */ STATIC UINTN GicGetCpuRedistributorBase ( IN UINTN GicRedistributorBase, IN ARM_GIC_ARCH_REVISION Revision ) { UINTN Index; UINTN MpId; UINTN CpuAffinity; UINTN Affinity; UINTN GicRedistributorGranularity; UINTN GicCpuRedistributorBase; MpId = ArmReadMpidr (); // Define CPU affinity as Affinity0[0:8], Affinity1[9:15], Affinity2[16:23], Affinity3[24:32] // whereas Affinity3 is defined at [32:39] in MPIDR CpuAffinity = (MpId & (ARM_CORE_AFF0 | ARM_CORE_AFF1 | ARM_CORE_AFF2)) | ((MpId & ARM_CORE_AFF3) >> 8); if (Revision == ARM_GIC_ARCH_REVISION_3) { // 2 x 64KB frame: Redistributor control frame + SGI Control & Generation frame GicRedistributorGranularity = ARM_GICR_CTLR_FRAME_SIZE + ARM_GICR_SGI_PPI_FRAME_SIZE; } else { ASSERT_EFI_ERROR (EFI_UNSUPPORTED); return 0; } GicCpuRedistributorBase = GicRedistributorBase; for (Index = 0; Index < PcdGet32 (PcdCoreCount); Index++) { Affinity = MmioRead64 (GicCpuRedistributorBase + ARM_GICR_TYPER) >> 32; if (Affinity == CpuAffinity) { return GicCpuRedistributorBase; } // Move to the next GIC Redistributor frame GicRedistributorBase += GicRedistributorGranularity; } // The Redistributor has not been found for the current CPU ASSERT_EFI_ERROR (EFI_NOT_FOUND); return 0; } UINTN EFIAPI ArmGicGetInterfaceIdentification ( IN INTN GicInterruptInterfaceBase ) { // Read the GIC Identification Register return MmioRead32 (GicInterruptInterfaceBase + ARM_GIC_ICCIIDR); } UINTN EFIAPI ArmGicGetMaxNumInterrupts ( IN INTN GicDistributorBase ) { return 32 * ((MmioRead32 (GicDistributorBase + ARM_GIC_ICDICTR) & 0x1F) + 1); } VOID EFIAPI ArmGicSendSgiTo ( IN INTN GicDistributorBase, IN INTN TargetListFilter, IN INTN CPUTargetList, IN INTN SgiId ) { MmioWrite32 (GicDistributorBase + ARM_GIC_ICDSGIR, ((TargetListFilter & 0x3) << 24) | ((CPUTargetList & 0xFF) << 16) | SgiId); } /* * Acknowledge and return the value of the Interrupt Acknowledge Register * * InterruptId is returned separately from the register value because in * the GICv2 the register value contains the CpuId and InterruptId while * in the GICv3 the register value is only the InterruptId. * * @param GicInterruptInterfaceBase Base Address of the GIC CPU Interface * @param InterruptId InterruptId read from the Interrupt Acknowledge Register * * @retval value returned by the Interrupt Acknowledge Register * */ UINTN EFIAPI ArmGicAcknowledgeInterrupt ( IN UINTN GicInterruptInterfaceBase, OUT UINTN *InterruptId ) { UINTN Value; ARM_GIC_ARCH_REVISION Revision; Revision = ArmGicGetSupportedArchRevision (); if (Revision == ARM_GIC_ARCH_REVISION_2) { Value = ArmGicV2AcknowledgeInterrupt (GicInterruptInterfaceBase); // InterruptId is required for the caller to know if a valid or spurious // interrupt has been read ASSERT (InterruptId != NULL); if (InterruptId != NULL) { *InterruptId = Value & ARM_GIC_ICCIAR_ACKINTID; } } else if (Revision == ARM_GIC_ARCH_REVISION_3) { Value = ArmGicV3AcknowledgeInterrupt (); } else { ASSERT_EFI_ERROR (EFI_UNSUPPORTED); // Report Spurious interrupt which is what the above controllers would // return if no interrupt was available Value = 1023; } return Value; } VOID EFIAPI ArmGicEndOfInterrupt ( IN UINTN GicInterruptInterfaceBase, IN UINTN Source ) { ARM_GIC_ARCH_REVISION Revision; Revision = ArmGicGetSupportedArchRevision (); if (Revision == ARM_GIC_ARCH_REVISION_2) { ArmGicV2EndOfInterrupt (GicInterruptInterfaceBase, Source); } else if (Revision == ARM_GIC_ARCH_REVISION_3) { ArmGicV3EndOfInterrupt (Source); } else { ASSERT_EFI_ERROR (EFI_UNSUPPORTED); } } VOID EFIAPI ArmGicEnableInterrupt ( IN UINTN GicDistributorBase, IN UINTN GicRedistributorBase, IN UINTN Source ) { UINT32 RegOffset; UINTN RegShift; ARM_GIC_ARCH_REVISION Revision; UINTN GicCpuRedistributorBase; // Calculate enable register offset and bit position RegOffset = Source / 32; RegShift = Source % 32; Revision = ArmGicGetSupportedArchRevision (); if ((Revision == ARM_GIC_ARCH_REVISION_2) || FeaturePcdGet (PcdArmGicV3WithV2Legacy)) { // Write set-enable register MmioWrite32 (GicDistributorBase + ARM_GIC_ICDISER + (4 * RegOffset), 1 << RegShift); } else { GicCpuRedistributorBase = GicGetCpuRedistributorBase (GicRedistributorBase, Revision); if (GicCpuRedistributorBase == 0) { ASSERT_EFI_ERROR (EFI_NOT_FOUND); return; } // Write set-enable register MmioWrite32 (GicCpuRedistributorBase + ARM_GICR_CTLR_FRAME_SIZE + ARM_GICR_ISENABLER + (4 * RegOffset), 1 << RegShift); } } VOID EFIAPI ArmGicDisableInterrupt ( IN UINTN GicDistributorBase, IN UINTN GicRedistributorBase, IN UINTN Source ) { UINT32 RegOffset; UINTN RegShift; ARM_GIC_ARCH_REVISION Revision; UINTN GicCpuRedistributorBase; // Calculate enable register offset and bit position RegOffset = Source / 32; RegShift = Source % 32; Revision = ArmGicGetSupportedArchRevision (); if ((Revision == ARM_GIC_ARCH_REVISION_2) || FeaturePcdGet (PcdArmGicV3WithV2Legacy)) { // Write clear-enable register MmioWrite32 (GicDistributorBase + ARM_GIC_ICDICER + (4 * RegOffset), 1 << RegShift); } else { GicCpuRedistributorBase = GicGetCpuRedistributorBase (GicRedistributorBase, Revision); if (GicCpuRedistributorBase == 0) { return; } // Write clear-enable register MmioWrite32 (GicCpuRedistributorBase + ARM_GICR_CTLR_FRAME_SIZE + ARM_GICR_ICENABLER + (4 * RegOffset), 1 << RegShift); } } BOOLEAN EFIAPI ArmGicIsInterruptEnabled ( IN UINTN GicDistributorBase, IN UINTN GicRedistributorBase, IN UINTN Source ) { UINT32 RegOffset; UINTN RegShift; ARM_GIC_ARCH_REVISION Revision; UINTN GicCpuRedistributorBase; UINT32 Interrupts; // Calculate enable register offset and bit position RegOffset = Source / 32; RegShift = Source % 32; Revision = ArmGicGetSupportedArchRevision (); if ((Revision == ARM_GIC_ARCH_REVISION_2) || FeaturePcdGet (PcdArmGicV3WithV2Legacy)) { Interrupts = ((MmioRead32 (GicDistributorBase + ARM_GIC_ICDISER + (4 * RegOffset)) & (1 << RegShift)) != 0); } else { GicCpuRedistributorBase = GicGetCpuRedistributorBase (GicRedistributorBase, Revision); if (GicCpuRedistributorBase == 0) { return 0; } // Read set-enable register Interrupts = MmioRead32 (GicCpuRedistributorBase + ARM_GICR_CTLR_FRAME_SIZE + ARM_GICR_ISENABLER + (4 * RegOffset)); } return ((Interrupts & (1 << RegShift)) != 0); } VOID EFIAPI ArmGicDisableDistributor ( IN INTN GicDistributorBase ) { // Disable Gic Distributor MmioWrite32 (GicDistributorBase + ARM_GIC_ICDDCR, 0x0); } VOID EFIAPI ArmGicEnableInterruptInterface ( IN INTN GicInterruptInterfaceBase ) { ARM_GIC_ARCH_REVISION Revision; Revision = ArmGicGetSupportedArchRevision (); if (Revision == ARM_GIC_ARCH_REVISION_2) { ArmGicV2EnableInterruptInterface (GicInterruptInterfaceBase); } else if (Revision == ARM_GIC_ARCH_REVISION_3) { ArmGicV3EnableInterruptInterface (); } else { ASSERT_EFI_ERROR (EFI_UNSUPPORTED); } } VOID EFIAPI ArmGicDisableInterruptInterface ( IN INTN GicInterruptInterfaceBase ) { ARM_GIC_ARCH_REVISION Revision; Revision = ArmGicGetSupportedArchRevision (); if (Revision == ARM_GIC_ARCH_REVISION_2) { ArmGicV2DisableInterruptInterface (GicInterruptInterfaceBase); } else if (Revision == ARM_GIC_ARCH_REVISION_3) { ArmGicV3DisableInterruptInterface (); } else { ASSERT_EFI_ERROR (EFI_UNSUPPORTED); } }