linux/arch/arm64/kvm/vgic-sys-reg-v3.c

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/*
* VGIC system registers handling functions for AArch64 mode
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*/
#include <linux/irqchip/arm-gic-v3.h>
#include <linux/kvm.h>
#include <linux/kvm_host.h>
#include <asm/kvm_emulate.h>
#include "vgic.h"
#include "sys_regs.h"
static bool access_gic_ctlr(struct kvm_vcpu *vcpu, struct sys_reg_params *p,
const struct sys_reg_desc *r)
{
u32 host_pri_bits, host_id_bits, host_seis, host_a3v, seis, a3v;
struct vgic_cpu *vgic_v3_cpu = &vcpu->arch.vgic_cpu;
struct vgic_vmcr vmcr;
u64 val;
vgic_get_vmcr(vcpu, &vmcr);
if (p->is_write) {
val = p->regval;
/*
* Disallow restoring VM state if not supported by this
* hardware.
*/
host_pri_bits = ((val & ICC_CTLR_EL1_PRI_BITS_MASK) >>
ICC_CTLR_EL1_PRI_BITS_SHIFT) + 1;
if (host_pri_bits > vgic_v3_cpu->num_pri_bits)
return false;
vgic_v3_cpu->num_pri_bits = host_pri_bits;
host_id_bits = (val & ICC_CTLR_EL1_ID_BITS_MASK) >>
ICC_CTLR_EL1_ID_BITS_SHIFT;
if (host_id_bits > vgic_v3_cpu->num_id_bits)
return false;
vgic_v3_cpu->num_id_bits = host_id_bits;
host_seis = ((kvm_vgic_global_state.ich_vtr_el2 &
ICH_VTR_SEIS_MASK) >> ICH_VTR_SEIS_SHIFT);
seis = (val & ICC_CTLR_EL1_SEIS_MASK) >>
ICC_CTLR_EL1_SEIS_SHIFT;
if (host_seis != seis)
return false;
host_a3v = ((kvm_vgic_global_state.ich_vtr_el2 &
ICH_VTR_A3V_MASK) >> ICH_VTR_A3V_SHIFT);
a3v = (val & ICC_CTLR_EL1_A3V_MASK) >> ICC_CTLR_EL1_A3V_SHIFT;
if (host_a3v != a3v)
return false;
/*
* Here set VMCR.CTLR in ICC_CTLR_EL1 layout.
* The vgic_set_vmcr() will convert to ICH_VMCR layout.
*/
vmcr.cbpr = (val & ICC_CTLR_EL1_CBPR_MASK) >> ICC_CTLR_EL1_CBPR_SHIFT;
vmcr.eoim = (val & ICC_CTLR_EL1_EOImode_MASK) >> ICC_CTLR_EL1_EOImode_SHIFT;
vgic_set_vmcr(vcpu, &vmcr);
} else {
val = 0;
val |= (vgic_v3_cpu->num_pri_bits - 1) <<
ICC_CTLR_EL1_PRI_BITS_SHIFT;
val |= vgic_v3_cpu->num_id_bits << ICC_CTLR_EL1_ID_BITS_SHIFT;
val |= ((kvm_vgic_global_state.ich_vtr_el2 &
ICH_VTR_SEIS_MASK) >> ICH_VTR_SEIS_SHIFT) <<
ICC_CTLR_EL1_SEIS_SHIFT;
val |= ((kvm_vgic_global_state.ich_vtr_el2 &
ICH_VTR_A3V_MASK) >> ICH_VTR_A3V_SHIFT) <<
ICC_CTLR_EL1_A3V_SHIFT;
/*
* The VMCR.CTLR value is in ICC_CTLR_EL1 layout.
* Extract it directly using ICC_CTLR_EL1 reg definitions.
*/
val |= (vmcr.cbpr << ICC_CTLR_EL1_CBPR_SHIFT) & ICC_CTLR_EL1_CBPR_MASK;
val |= (vmcr.eoim << ICC_CTLR_EL1_EOImode_SHIFT) & ICC_CTLR_EL1_EOImode_MASK;
p->regval = val;
}
return true;
}
static bool access_gic_pmr(struct kvm_vcpu *vcpu, struct sys_reg_params *p,
const struct sys_reg_desc *r)
{
struct vgic_vmcr vmcr;
vgic_get_vmcr(vcpu, &vmcr);
if (p->is_write) {
vmcr.pmr = (p->regval & ICC_PMR_EL1_MASK) >> ICC_PMR_EL1_SHIFT;
vgic_set_vmcr(vcpu, &vmcr);
} else {
p->regval = (vmcr.pmr << ICC_PMR_EL1_SHIFT) & ICC_PMR_EL1_MASK;
}
return true;
}
static bool access_gic_bpr0(struct kvm_vcpu *vcpu, struct sys_reg_params *p,
const struct sys_reg_desc *r)
{
struct vgic_vmcr vmcr;
vgic_get_vmcr(vcpu, &vmcr);
if (p->is_write) {
vmcr.bpr = (p->regval & ICC_BPR0_EL1_MASK) >>
ICC_BPR0_EL1_SHIFT;
vgic_set_vmcr(vcpu, &vmcr);
} else {
p->regval = (vmcr.bpr << ICC_BPR0_EL1_SHIFT) &
ICC_BPR0_EL1_MASK;
}
return true;
}
static bool access_gic_bpr1(struct kvm_vcpu *vcpu, struct sys_reg_params *p,
const struct sys_reg_desc *r)
{
struct vgic_vmcr vmcr;
if (!p->is_write)
p->regval = 0;
vgic_get_vmcr(vcpu, &vmcr);
if (!vmcr.cbpr) {
if (p->is_write) {
vmcr.abpr = (p->regval & ICC_BPR1_EL1_MASK) >>
ICC_BPR1_EL1_SHIFT;
vgic_set_vmcr(vcpu, &vmcr);
} else {
p->regval = (vmcr.abpr << ICC_BPR1_EL1_SHIFT) &
ICC_BPR1_EL1_MASK;
}
} else {
if (!p->is_write)
p->regval = min((vmcr.bpr + 1), 7U);
}
return true;
}
static bool access_gic_grpen0(struct kvm_vcpu *vcpu, struct sys_reg_params *p,
const struct sys_reg_desc *r)
{
struct vgic_vmcr vmcr;
vgic_get_vmcr(vcpu, &vmcr);
if (p->is_write) {
vmcr.grpen0 = (p->regval & ICC_IGRPEN0_EL1_MASK) >>
ICC_IGRPEN0_EL1_SHIFT;
vgic_set_vmcr(vcpu, &vmcr);
} else {
p->regval = (vmcr.grpen0 << ICC_IGRPEN0_EL1_SHIFT) &
ICC_IGRPEN0_EL1_MASK;
}
return true;
}
static bool access_gic_grpen1(struct kvm_vcpu *vcpu, struct sys_reg_params *p,
const struct sys_reg_desc *r)
{
struct vgic_vmcr vmcr;
vgic_get_vmcr(vcpu, &vmcr);
if (p->is_write) {
vmcr.grpen1 = (p->regval & ICC_IGRPEN1_EL1_MASK) >>
ICC_IGRPEN1_EL1_SHIFT;
vgic_set_vmcr(vcpu, &vmcr);
} else {
p->regval = (vmcr.grpen1 << ICC_IGRPEN1_EL1_SHIFT) &
ICC_IGRPEN1_EL1_MASK;
}
return true;
}
static void vgic_v3_access_apr_reg(struct kvm_vcpu *vcpu,
struct sys_reg_params *p, u8 apr, u8 idx)
{
struct vgic_v3_cpu_if *vgicv3 = &vcpu->arch.vgic_cpu.vgic_v3;
uint32_t *ap_reg;
if (apr)
ap_reg = &vgicv3->vgic_ap1r[idx];
else
ap_reg = &vgicv3->vgic_ap0r[idx];
if (p->is_write)
*ap_reg = p->regval;
else
p->regval = *ap_reg;
}
static bool access_gic_aprn(struct kvm_vcpu *vcpu, struct sys_reg_params *p,
const struct sys_reg_desc *r, u8 apr)
{
struct vgic_cpu *vgic_v3_cpu = &vcpu->arch.vgic_cpu;
u8 idx = r->Op2 & 3;
/*
* num_pri_bits are initialized with HW supported values.
* We can rely safely on num_pri_bits even if VM has not
* restored ICC_CTLR_EL1 before restoring APnR registers.
*/
switch (vgic_v3_cpu->num_pri_bits) {
case 7:
vgic_v3_access_apr_reg(vcpu, p, apr, idx);
break;
case 6:
if (idx > 1)
goto err;
vgic_v3_access_apr_reg(vcpu, p, apr, idx);
break;
default:
if (idx > 0)
goto err;
vgic_v3_access_apr_reg(vcpu, p, apr, idx);
}
return true;
err:
if (!p->is_write)
p->regval = 0;
return false;
}
static bool access_gic_ap0r(struct kvm_vcpu *vcpu, struct sys_reg_params *p,
const struct sys_reg_desc *r)
{
return access_gic_aprn(vcpu, p, r, 0);
}
static bool access_gic_ap1r(struct kvm_vcpu *vcpu, struct sys_reg_params *p,
const struct sys_reg_desc *r)
{
return access_gic_aprn(vcpu, p, r, 1);
}
static bool access_gic_sre(struct kvm_vcpu *vcpu, struct sys_reg_params *p,
const struct sys_reg_desc *r)
{
struct vgic_v3_cpu_if *vgicv3 = &vcpu->arch.vgic_cpu.vgic_v3;
/* Validate SRE bit */
if (p->is_write) {
if (!(p->regval & ICC_SRE_EL1_SRE))
return false;
} else {
p->regval = vgicv3->vgic_sre;
}
return true;
}
static const struct sys_reg_desc gic_v3_icc_reg_descs[] = {
{ SYS_DESC(SYS_ICC_PMR_EL1), access_gic_pmr },
{ SYS_DESC(SYS_ICC_BPR0_EL1), access_gic_bpr0 },
{ SYS_DESC(SYS_ICC_AP0R0_EL1), access_gic_ap0r },
{ SYS_DESC(SYS_ICC_AP0R1_EL1), access_gic_ap0r },
{ SYS_DESC(SYS_ICC_AP0R2_EL1), access_gic_ap0r },
{ SYS_DESC(SYS_ICC_AP0R3_EL1), access_gic_ap0r },
{ SYS_DESC(SYS_ICC_AP1R0_EL1), access_gic_ap1r },
{ SYS_DESC(SYS_ICC_AP1R1_EL1), access_gic_ap1r },
{ SYS_DESC(SYS_ICC_AP1R2_EL1), access_gic_ap1r },
{ SYS_DESC(SYS_ICC_AP1R3_EL1), access_gic_ap1r },
{ SYS_DESC(SYS_ICC_BPR1_EL1), access_gic_bpr1 },
{ SYS_DESC(SYS_ICC_CTLR_EL1), access_gic_ctlr },
{ SYS_DESC(SYS_ICC_SRE_EL1), access_gic_sre },
{ SYS_DESC(SYS_ICC_IGRPEN0_EL1), access_gic_grpen0 },
{ SYS_DESC(SYS_ICC_IGRPEN1_EL1), access_gic_grpen1 },
};
int vgic_v3_has_cpu_sysregs_attr(struct kvm_vcpu *vcpu, bool is_write, u64 id,
u64 *reg)
{
struct sys_reg_params params;
u64 sysreg = (id & KVM_DEV_ARM_VGIC_SYSREG_MASK) | KVM_REG_SIZE_U64;
params.regval = *reg;
params.is_write = is_write;
params.is_aarch32 = false;
params.is_32bit = false;
if (find_reg_by_id(sysreg, &params, gic_v3_icc_reg_descs,
ARRAY_SIZE(gic_v3_icc_reg_descs)))
return 0;
return -ENXIO;
}
int vgic_v3_cpu_sysregs_uaccess(struct kvm_vcpu *vcpu, bool is_write, u64 id,
u64 *reg)
{
struct sys_reg_params params;
const struct sys_reg_desc *r;
u64 sysreg = (id & KVM_DEV_ARM_VGIC_SYSREG_MASK) | KVM_REG_SIZE_U64;
if (is_write)
params.regval = *reg;
params.is_write = is_write;
params.is_aarch32 = false;
params.is_32bit = false;
r = find_reg_by_id(sysreg, &params, gic_v3_icc_reg_descs,
ARRAY_SIZE(gic_v3_icc_reg_descs));
if (!r)
return -ENXIO;
if (!r->access(vcpu, &params, r))
return -EINVAL;
if (!is_write)
*reg = params.regval;
return 0;
}