/* SPDX-License-Identifier: GPL-2.0 */ /* * Copyright (c) 2023 MediaTek Inc. */ #ifndef __GZVM_ARCH_COMMON_H__ #define __GZVM_ARCH_COMMON_H__ #include enum { GZVM_FUNC_CREATE_VM = 0, GZVM_FUNC_DESTROY_VM = 1, GZVM_FUNC_CREATE_VCPU = 2, GZVM_FUNC_DESTROY_VCPU = 3, GZVM_FUNC_SET_MEMREGION = 4, GZVM_FUNC_RUN = 5, GZVM_FUNC_GET_ONE_REG = 8, GZVM_FUNC_SET_ONE_REG = 9, GZVM_FUNC_IRQ_LINE = 10, GZVM_FUNC_CREATE_DEVICE = 11, GZVM_FUNC_PROBE = 12, GZVM_FUNC_ENABLE_CAP = 13, GZVM_FUNC_INFORM_EXIT = 14, GZVM_FUNC_MEMREGION_PURPOSE = 15, GZVM_FUNC_SET_DTB_CONFIG = 16, GZVM_FUNC_MAP_GUEST = 17, GZVM_FUNC_MAP_GUEST_BLOCK = 18, NR_GZVM_FUNC, }; #define SMC_ENTITY_MTK 59 #define GZVM_FUNCID_START (0x1000) #define GZVM_HCALL_ID(func) \ ARM_SMCCC_CALL_VAL(ARM_SMCCC_FAST_CALL, ARM_SMCCC_SMC_32, \ SMC_ENTITY_MTK, (GZVM_FUNCID_START + (func))) #define MT_HVC_GZVM_CREATE_VM GZVM_HCALL_ID(GZVM_FUNC_CREATE_VM) #define MT_HVC_GZVM_DESTROY_VM GZVM_HCALL_ID(GZVM_FUNC_DESTROY_VM) #define MT_HVC_GZVM_CREATE_VCPU GZVM_HCALL_ID(GZVM_FUNC_CREATE_VCPU) #define MT_HVC_GZVM_DESTROY_VCPU GZVM_HCALL_ID(GZVM_FUNC_DESTROY_VCPU) #define MT_HVC_GZVM_SET_MEMREGION GZVM_HCALL_ID(GZVM_FUNC_SET_MEMREGION) #define MT_HVC_GZVM_RUN GZVM_HCALL_ID(GZVM_FUNC_RUN) #define MT_HVC_GZVM_GET_ONE_REG GZVM_HCALL_ID(GZVM_FUNC_GET_ONE_REG) #define MT_HVC_GZVM_SET_ONE_REG GZVM_HCALL_ID(GZVM_FUNC_SET_ONE_REG) #define MT_HVC_GZVM_IRQ_LINE GZVM_HCALL_ID(GZVM_FUNC_IRQ_LINE) #define MT_HVC_GZVM_CREATE_DEVICE GZVM_HCALL_ID(GZVM_FUNC_CREATE_DEVICE) #define MT_HVC_GZVM_PROBE GZVM_HCALL_ID(GZVM_FUNC_PROBE) #define MT_HVC_GZVM_ENABLE_CAP GZVM_HCALL_ID(GZVM_FUNC_ENABLE_CAP) #define MT_HVC_GZVM_INFORM_EXIT GZVM_HCALL_ID(GZVM_FUNC_INFORM_EXIT) #define MT_HVC_GZVM_MEMREGION_PURPOSE GZVM_HCALL_ID(GZVM_FUNC_MEMREGION_PURPOSE) #define MT_HVC_GZVM_SET_DTB_CONFIG GZVM_HCALL_ID(GZVM_FUNC_SET_DTB_CONFIG) #define MT_HVC_GZVM_MAP_GUEST GZVM_HCALL_ID(GZVM_FUNC_MAP_GUEST) #define MT_HVC_GZVM_MAP_GUEST_BLOCK GZVM_HCALL_ID(GZVM_FUNC_MAP_GUEST_BLOCK) #define GIC_V3_NR_LRS 16 /** * gzvm_hypcall_wrapper() - the wrapper for hvc calls * @a0-a7: arguments passed in registers 0 to 7 * @res: result values from registers 0 to 3 * * Return: The wrapper helps caller to convert geniezone errno to Linux errno. */ static inline int gzvm_hypcall_wrapper(unsigned long a0, unsigned long a1, unsigned long a2, unsigned long a3, unsigned long a4, unsigned long a5, unsigned long a6, unsigned long a7, struct arm_smccc_res *res) { arm_smccc_hvc(a0, a1, a2, a3, a4, a5, a6, a7, res); return gzvm_err_to_errno(res->a0); } static inline u16 get_vmid_from_tuple(unsigned int tuple) { return (u16)(tuple >> 16); } static inline u16 get_vcpuid_from_tuple(unsigned int tuple) { return (u16)(tuple & 0xffff); } /** * struct gzvm_vcpu_hwstate: Sync architecture state back to host for handling * @nr_lrs: The available LRs(list registers) in Soc. * @__pad: add an explicit '__u32 __pad;' in the middle to make it clear * what the actual layout is. * @lr: The array of LRs(list registers). * * - Keep the same layout of hypervisor data struct. * - Sync list registers back for acking virtual device interrupt status. */ struct gzvm_vcpu_hwstate { __le32 nr_lrs; __le32 __pad; __le64 lr[GIC_V3_NR_LRS]; }; static inline unsigned int assemble_vm_vcpu_tuple(u16 vmid, u16 vcpuid) { return ((unsigned int)vmid << 16 | vcpuid); } static inline void disassemble_vm_vcpu_tuple(unsigned int tuple, u16 *vmid, u16 *vcpuid) { *vmid = get_vmid_from_tuple(tuple); *vcpuid = get_vcpuid_from_tuple(tuple); } #endif /* __GZVM_ARCH_COMMON_H__ */