161491cf4SDavid Woodhouse /*
261491cf4SDavid Woodhouse * Xen HVM emulation support in KVM
361491cf4SDavid Woodhouse *
461491cf4SDavid Woodhouse * Copyright © 2019 Oracle and/or its affiliates. All rights reserved.
561491cf4SDavid Woodhouse * Copyright © 2022 Amazon.com, Inc. or its affiliates. All Rights Reserved.
661491cf4SDavid Woodhouse *
761491cf4SDavid Woodhouse * This work is licensed under the terms of the GNU GPL, version 2 or later.
861491cf4SDavid Woodhouse * See the COPYING file in the top-level directory.
961491cf4SDavid Woodhouse *
1061491cf4SDavid Woodhouse */
1161491cf4SDavid Woodhouse
1261491cf4SDavid Woodhouse #include "qemu/osdep.h"
1355a3f666SJoao Martins #include "qemu/log.h"
1479b7067dSJoao Martins #include "qemu/main-loop.h"
15cc37d98bSRichard Henderson #include "qemu/error-report.h"
16fb0fd2ceSJoao Martins #include "hw/xen/xen.h"
1761491cf4SDavid Woodhouse #include "sysemu/kvm_int.h"
1861491cf4SDavid Woodhouse #include "sysemu/kvm_xen.h"
1961491cf4SDavid Woodhouse #include "kvm/kvm_i386.h"
20bedcc139SJoao Martins #include "exec/address-spaces.h"
2161491cf4SDavid Woodhouse #include "xen-emu.h"
2255a3f666SJoao Martins #include "trace.h"
2379b7067dSJoao Martins #include "sysemu/runstate.h"
2461491cf4SDavid Woodhouse
2527d4075dSDavid Woodhouse #include "hw/pci/msi.h"
2627d4075dSDavid Woodhouse #include "hw/i386/apic-msidef.h"
278b57d5c5SDavid Woodhouse #include "hw/i386/e820_memory_layout.h"
28110a0ea5SDavid Woodhouse #include "hw/i386/kvm/xen_overlay.h"
2991cce756SDavid Woodhouse #include "hw/i386/kvm/xen_evtchn.h"
30a28b0fc0SDavid Woodhouse #include "hw/i386/kvm/xen_gnttab.h"
31a72ccc7fSDavid Woodhouse #include "hw/i386/kvm/xen_primary_console.h"
32c08f5d0eSDavid Woodhouse #include "hw/i386/kvm/xen_xenstore.h"
33110a0ea5SDavid Woodhouse
34bedcc139SJoao Martins #include "hw/xen/interface/version.h"
3579b7067dSJoao Martins #include "hw/xen/interface/sched.h"
36fb0fd2ceSJoao Martins #include "hw/xen/interface/memory.h"
37671bfdcdSJoao Martins #include "hw/xen/interface/hvm/hvm_op.h"
38105b47fdSAnkur Arora #include "hw/xen/interface/hvm/params.h"
39d70bd6a4SJoao Martins #include "hw/xen/interface/vcpu.h"
403b06f29bSJoao Martins #include "hw/xen/interface/event_channel.h"
4128b7ae94SDavid Woodhouse #include "hw/xen/interface/grant_table.h"
42fb0fd2ceSJoao Martins
43fb0fd2ceSJoao Martins #include "xen-compat.h"
44fb0fd2ceSJoao Martins
45b746a779SJoao Martins static void xen_vcpu_singleshot_timer_event(void *opaque);
46b746a779SJoao Martins static void xen_vcpu_periodic_timer_event(void *opaque);
4719c417ecSDavid Woodhouse static int vcpuop_stop_singleshot_timer(CPUState *cs);
48b746a779SJoao Martins
49fb0fd2ceSJoao Martins #ifdef TARGET_X86_64
50fb0fd2ceSJoao Martins #define hypercall_compat32(longmode) (!(longmode))
51fb0fd2ceSJoao Martins #else
52fb0fd2ceSJoao Martins #define hypercall_compat32(longmode) (false)
53fb0fd2ceSJoao Martins #endif
54bedcc139SJoao Martins
kvm_gva_to_gpa(CPUState * cs,uint64_t gva,uint64_t * gpa,size_t * len,bool is_write)55f0689302SJoao Martins static bool kvm_gva_to_gpa(CPUState *cs, uint64_t gva, uint64_t *gpa,
56f0689302SJoao Martins size_t *len, bool is_write)
57bedcc139SJoao Martins {
58bedcc139SJoao Martins struct kvm_translation tr = {
59bedcc139SJoao Martins .linear_address = gva,
60bedcc139SJoao Martins };
61bedcc139SJoao Martins
62f0689302SJoao Martins if (len) {
63f0689302SJoao Martins *len = TARGET_PAGE_SIZE - (gva & ~TARGET_PAGE_MASK);
64f0689302SJoao Martins }
65f0689302SJoao Martins
66f0689302SJoao Martins if (kvm_vcpu_ioctl(cs, KVM_TRANSLATE, &tr) || !tr.valid ||
67f0689302SJoao Martins (is_write && !tr.writeable)) {
68f0689302SJoao Martins return false;
69f0689302SJoao Martins }
70f0689302SJoao Martins *gpa = tr.physical_address;
71f0689302SJoao Martins return true;
72f0689302SJoao Martins }
73f0689302SJoao Martins
kvm_gva_rw(CPUState * cs,uint64_t gva,void * _buf,size_t sz,bool is_write)74f0689302SJoao Martins static int kvm_gva_rw(CPUState *cs, uint64_t gva, void *_buf, size_t sz,
75f0689302SJoao Martins bool is_write)
76f0689302SJoao Martins {
77f0689302SJoao Martins uint8_t *buf = (uint8_t *)_buf;
78f0689302SJoao Martins uint64_t gpa;
79f0689302SJoao Martins size_t len;
80f0689302SJoao Martins
81f0689302SJoao Martins while (sz) {
82f0689302SJoao Martins if (!kvm_gva_to_gpa(cs, gva, &gpa, &len, is_write)) {
83f0689302SJoao Martins return -EFAULT;
84f0689302SJoao Martins }
85bedcc139SJoao Martins if (len > sz) {
86bedcc139SJoao Martins len = sz;
87bedcc139SJoao Martins }
88bedcc139SJoao Martins
89f0689302SJoao Martins cpu_physical_memory_rw(gpa, buf, len, is_write);
90bedcc139SJoao Martins
91bedcc139SJoao Martins buf += len;
92bedcc139SJoao Martins sz -= len;
93bedcc139SJoao Martins gva += len;
94bedcc139SJoao Martins }
95bedcc139SJoao Martins
96bedcc139SJoao Martins return 0;
97bedcc139SJoao Martins }
98bedcc139SJoao Martins
kvm_copy_from_gva(CPUState * cs,uint64_t gva,void * buf,size_t sz)99bedcc139SJoao Martins static inline int kvm_copy_from_gva(CPUState *cs, uint64_t gva, void *buf,
100bedcc139SJoao Martins size_t sz)
101bedcc139SJoao Martins {
102bedcc139SJoao Martins return kvm_gva_rw(cs, gva, buf, sz, false);
103bedcc139SJoao Martins }
104bedcc139SJoao Martins
kvm_copy_to_gva(CPUState * cs,uint64_t gva,void * buf,size_t sz)105bedcc139SJoao Martins static inline int kvm_copy_to_gva(CPUState *cs, uint64_t gva, void *buf,
106bedcc139SJoao Martins size_t sz)
107bedcc139SJoao Martins {
108bedcc139SJoao Martins return kvm_gva_rw(cs, gva, buf, sz, true);
109bedcc139SJoao Martins }
110bedcc139SJoao Martins
kvm_xen_init(KVMState * s,uint32_t hypercall_msr)111f66b8a83SJoao Martins int kvm_xen_init(KVMState *s, uint32_t hypercall_msr)
11261491cf4SDavid Woodhouse {
11361491cf4SDavid Woodhouse const int required_caps = KVM_XEN_HVM_CONFIG_HYPERCALL_MSR |
11461491cf4SDavid Woodhouse KVM_XEN_HVM_CONFIG_INTERCEPT_HCALL | KVM_XEN_HVM_CONFIG_SHARED_INFO;
11561491cf4SDavid Woodhouse struct kvm_xen_hvm_config cfg = {
116f66b8a83SJoao Martins .msr = hypercall_msr,
11761491cf4SDavid Woodhouse .flags = KVM_XEN_HVM_CONFIG_INTERCEPT_HCALL,
11861491cf4SDavid Woodhouse };
11961491cf4SDavid Woodhouse int xen_caps, ret;
12061491cf4SDavid Woodhouse
12161491cf4SDavid Woodhouse xen_caps = kvm_check_extension(s, KVM_CAP_XEN_HVM);
12261491cf4SDavid Woodhouse if (required_caps & ~xen_caps) {
12361491cf4SDavid Woodhouse error_report("kvm: Xen HVM guest support not present or insufficient");
12461491cf4SDavid Woodhouse return -ENOSYS;
12561491cf4SDavid Woodhouse }
12661491cf4SDavid Woodhouse
12761491cf4SDavid Woodhouse if (xen_caps & KVM_XEN_HVM_CONFIG_EVTCHN_SEND) {
12861491cf4SDavid Woodhouse struct kvm_xen_hvm_attr ha = {
12961491cf4SDavid Woodhouse .type = KVM_XEN_ATTR_TYPE_XEN_VERSION,
13061491cf4SDavid Woodhouse .u.xen_version = s->xen_version,
13161491cf4SDavid Woodhouse };
13261491cf4SDavid Woodhouse (void)kvm_vm_ioctl(s, KVM_XEN_HVM_SET_ATTR, &ha);
13361491cf4SDavid Woodhouse
13461491cf4SDavid Woodhouse cfg.flags |= KVM_XEN_HVM_CONFIG_EVTCHN_SEND;
13561491cf4SDavid Woodhouse }
13661491cf4SDavid Woodhouse
13761491cf4SDavid Woodhouse ret = kvm_vm_ioctl(s, KVM_XEN_HVM_CONFIG, &cfg);
13861491cf4SDavid Woodhouse if (ret < 0) {
13961491cf4SDavid Woodhouse error_report("kvm: Failed to enable Xen HVM support: %s",
14061491cf4SDavid Woodhouse strerror(-ret));
14161491cf4SDavid Woodhouse return ret;
14261491cf4SDavid Woodhouse }
14361491cf4SDavid Woodhouse
1442aff696bSDavid Woodhouse /* If called a second time, don't repeat the rest of the setup. */
1452aff696bSDavid Woodhouse if (s->xen_caps) {
1462aff696bSDavid Woodhouse return 0;
1472aff696bSDavid Woodhouse }
1482aff696bSDavid Woodhouse
1492aff696bSDavid Woodhouse /*
1502aff696bSDavid Woodhouse * Event channel delivery via GSI/PCI_INTX needs to poll the vcpu_info
1512aff696bSDavid Woodhouse * of vCPU0 to deassert the IRQ when ->evtchn_upcall_pending is cleared.
1522aff696bSDavid Woodhouse *
1532aff696bSDavid Woodhouse * In the kernel, there's a notifier hook on the PIC/IOAPIC which allows
1542aff696bSDavid Woodhouse * such things to be polled at precisely the right time. We *could* do
1552aff696bSDavid Woodhouse * it nicely in the kernel: check vcpu_info[0]->evtchn_upcall_pending at
1562aff696bSDavid Woodhouse * the moment the IRQ is acked, and see if it should be reasserted.
1572aff696bSDavid Woodhouse *
1582aff696bSDavid Woodhouse * But the in-kernel irqchip is deprecated, so we're unlikely to add
1592aff696bSDavid Woodhouse * that support in the kernel. Insist on using the split irqchip mode
1602aff696bSDavid Woodhouse * instead.
1612aff696bSDavid Woodhouse *
1622aff696bSDavid Woodhouse * This leaves us polling for the level going low in QEMU, which lacks
1632aff696bSDavid Woodhouse * the appropriate hooks in its PIC/IOAPIC code. Even VFIO is sending a
1642aff696bSDavid Woodhouse * spurious 'ack' to an INTX IRQ every time there's any MMIO access to
1652aff696bSDavid Woodhouse * the device (for which it has to unmap the device and trap access, for
1662aff696bSDavid Woodhouse * some period after an IRQ!!). In the Xen case, we do it on exit from
1672aff696bSDavid Woodhouse * KVM_RUN, if the flag is set to say that the GSI is currently asserted.
1682aff696bSDavid Woodhouse * Which is kind of icky, but less so than the VFIO one. I may fix them
1692aff696bSDavid Woodhouse * both later...
1702aff696bSDavid Woodhouse */
1712aff696bSDavid Woodhouse if (!kvm_kernel_irqchip_split()) {
1722aff696bSDavid Woodhouse error_report("kvm: Xen support requires kernel-irqchip=split");
1732aff696bSDavid Woodhouse return -EINVAL;
1742aff696bSDavid Woodhouse }
1752aff696bSDavid Woodhouse
17661491cf4SDavid Woodhouse s->xen_caps = xen_caps;
1778b57d5c5SDavid Woodhouse
1788b57d5c5SDavid Woodhouse /* Tell fw_cfg to notify the BIOS to reserve the range. */
179*93c76555SDavid Woodhouse e820_add_entry(XEN_SPECIAL_AREA_ADDR, XEN_SPECIAL_AREA_SIZE, E820_RESERVED);
1808b57d5c5SDavid Woodhouse
181a72ccc7fSDavid Woodhouse /* The pages couldn't be overlaid until KVM was initialized */
182a72ccc7fSDavid Woodhouse xen_primary_console_reset();
183c08f5d0eSDavid Woodhouse xen_xenstore_reset();
184c08f5d0eSDavid Woodhouse
18561491cf4SDavid Woodhouse return 0;
18661491cf4SDavid Woodhouse }
18761491cf4SDavid Woodhouse
kvm_xen_init_vcpu(CPUState * cs)1885e691a95SDavid Woodhouse int kvm_xen_init_vcpu(CPUState *cs)
1895e691a95SDavid Woodhouse {
190c345104cSJoao Martins X86CPU *cpu = X86_CPU(cs);
191c345104cSJoao Martins CPUX86State *env = &cpu->env;
1925e691a95SDavid Woodhouse int err;
1935e691a95SDavid Woodhouse
1945e691a95SDavid Woodhouse /*
1955e691a95SDavid Woodhouse * The kernel needs to know the Xen/ACPI vCPU ID because that's
1965e691a95SDavid Woodhouse * what the guest uses in hypercalls such as timers. It doesn't
1975e691a95SDavid Woodhouse * match the APIC ID which is generally used for talking to the
1985e691a95SDavid Woodhouse * kernel about vCPUs. And if vCPU threads race with creating
1995e691a95SDavid Woodhouse * their KVM vCPUs out of order, it doesn't necessarily match
2005e691a95SDavid Woodhouse * with the kernel's internal vCPU indices either.
2015e691a95SDavid Woodhouse */
2025e691a95SDavid Woodhouse if (kvm_xen_has_cap(EVTCHN_SEND)) {
2035e691a95SDavid Woodhouse struct kvm_xen_vcpu_attr va = {
2045e691a95SDavid Woodhouse .type = KVM_XEN_VCPU_ATTR_TYPE_VCPU_ID,
2055e691a95SDavid Woodhouse .u.vcpu_id = cs->cpu_index,
2065e691a95SDavid Woodhouse };
2075e691a95SDavid Woodhouse err = kvm_vcpu_ioctl(cs, KVM_XEN_VCPU_SET_ATTR, &va);
2085e691a95SDavid Woodhouse if (err) {
2095e691a95SDavid Woodhouse error_report("kvm: Failed to set Xen vCPU ID attribute: %s",
2105e691a95SDavid Woodhouse strerror(-err));
2115e691a95SDavid Woodhouse return err;
2125e691a95SDavid Woodhouse }
2135e691a95SDavid Woodhouse }
2145e691a95SDavid Woodhouse
215c345104cSJoao Martins env->xen_vcpu_info_gpa = INVALID_GPA;
216c345104cSJoao Martins env->xen_vcpu_info_default_gpa = INVALID_GPA;
217f0689302SJoao Martins env->xen_vcpu_time_info_gpa = INVALID_GPA;
2185092db87SJoao Martins env->xen_vcpu_runstate_gpa = INVALID_GPA;
219c345104cSJoao Martins
220b746a779SJoao Martins qemu_mutex_init(&env->xen_timers_lock);
221b746a779SJoao Martins env->xen_singleshot_timer = timer_new_ns(QEMU_CLOCK_VIRTUAL,
222b746a779SJoao Martins xen_vcpu_singleshot_timer_event,
223b746a779SJoao Martins cpu);
224b746a779SJoao Martins if (!env->xen_singleshot_timer) {
225b746a779SJoao Martins return -ENOMEM;
226b746a779SJoao Martins }
227b746a779SJoao Martins env->xen_singleshot_timer->opaque = cs;
228b746a779SJoao Martins
229b746a779SJoao Martins env->xen_periodic_timer = timer_new_ns(QEMU_CLOCK_VIRTUAL,
230b746a779SJoao Martins xen_vcpu_periodic_timer_event,
231b746a779SJoao Martins cpu);
232b746a779SJoao Martins if (!env->xen_periodic_timer) {
233b746a779SJoao Martins return -ENOMEM;
234b746a779SJoao Martins }
235b746a779SJoao Martins env->xen_periodic_timer->opaque = cs;
236b746a779SJoao Martins
2375e691a95SDavid Woodhouse return 0;
2385e691a95SDavid Woodhouse }
2395e691a95SDavid Woodhouse
kvm_xen_get_caps(void)24061491cf4SDavid Woodhouse uint32_t kvm_xen_get_caps(void)
24161491cf4SDavid Woodhouse {
24261491cf4SDavid Woodhouse return kvm_state->xen_caps;
24361491cf4SDavid Woodhouse }
24455a3f666SJoao Martins
kvm_xen_hcall_xen_version(struct kvm_xen_exit * exit,X86CPU * cpu,int cmd,uint64_t arg)245bedcc139SJoao Martins static bool kvm_xen_hcall_xen_version(struct kvm_xen_exit *exit, X86CPU *cpu,
246bedcc139SJoao Martins int cmd, uint64_t arg)
247bedcc139SJoao Martins {
248bedcc139SJoao Martins int err = 0;
249bedcc139SJoao Martins
250bedcc139SJoao Martins switch (cmd) {
251bedcc139SJoao Martins case XENVER_get_features: {
252bedcc139SJoao Martins struct xen_feature_info fi;
253bedcc139SJoao Martins
254bedcc139SJoao Martins /* No need for 32/64 compat handling */
255bedcc139SJoao Martins qemu_build_assert(sizeof(fi) == 8);
256bedcc139SJoao Martins
257bedcc139SJoao Martins err = kvm_copy_from_gva(CPU(cpu), arg, &fi, sizeof(fi));
258bedcc139SJoao Martins if (err) {
259bedcc139SJoao Martins break;
260bedcc139SJoao Martins }
261bedcc139SJoao Martins
262bedcc139SJoao Martins fi.submap = 0;
263bedcc139SJoao Martins if (fi.submap_idx == 0) {
264bedcc139SJoao Martins fi.submap |= 1 << XENFEAT_writable_page_tables |
265bedcc139SJoao Martins 1 << XENFEAT_writable_descriptor_tables |
266bedcc139SJoao Martins 1 << XENFEAT_auto_translated_physmap |
267b746a779SJoao Martins 1 << XENFEAT_hvm_callback_vector |
2686096cf78SDavid Woodhouse 1 << XENFEAT_hvm_safe_pvclock |
2696096cf78SDavid Woodhouse 1 << XENFEAT_hvm_pirqs;
270bedcc139SJoao Martins }
271bedcc139SJoao Martins
272bedcc139SJoao Martins err = kvm_copy_to_gva(CPU(cpu), arg, &fi, sizeof(fi));
273bedcc139SJoao Martins break;
274bedcc139SJoao Martins }
275bedcc139SJoao Martins
276bedcc139SJoao Martins default:
277bedcc139SJoao Martins return false;
278bedcc139SJoao Martins }
279bedcc139SJoao Martins
280bedcc139SJoao Martins exit->u.hcall.result = err;
281bedcc139SJoao Martins return true;
282bedcc139SJoao Martins }
283bedcc139SJoao Martins
kvm_xen_set_vcpu_attr(CPUState * cs,uint16_t type,uint64_t gpa)284c345104cSJoao Martins static int kvm_xen_set_vcpu_attr(CPUState *cs, uint16_t type, uint64_t gpa)
285c345104cSJoao Martins {
286c345104cSJoao Martins struct kvm_xen_vcpu_attr xhsi;
287c345104cSJoao Martins
288c345104cSJoao Martins xhsi.type = type;
289c345104cSJoao Martins xhsi.u.gpa = gpa;
290c345104cSJoao Martins
291c345104cSJoao Martins trace_kvm_xen_set_vcpu_attr(cs->cpu_index, type, gpa);
292c345104cSJoao Martins
293c345104cSJoao Martins return kvm_vcpu_ioctl(cs, KVM_XEN_VCPU_SET_ATTR, &xhsi);
294c345104cSJoao Martins }
295c345104cSJoao Martins
kvm_xen_set_vcpu_callback_vector(CPUState * cs)296105b47fdSAnkur Arora static int kvm_xen_set_vcpu_callback_vector(CPUState *cs)
297105b47fdSAnkur Arora {
298105b47fdSAnkur Arora uint8_t vector = X86_CPU(cs)->env.xen_vcpu_callback_vector;
299105b47fdSAnkur Arora struct kvm_xen_vcpu_attr xva;
300105b47fdSAnkur Arora
301105b47fdSAnkur Arora xva.type = KVM_XEN_VCPU_ATTR_TYPE_UPCALL_VECTOR;
302105b47fdSAnkur Arora xva.u.vector = vector;
303105b47fdSAnkur Arora
304105b47fdSAnkur Arora trace_kvm_xen_set_vcpu_callback(cs->cpu_index, vector);
305105b47fdSAnkur Arora
306e7dbb62fSDavid Woodhouse return kvm_vcpu_ioctl(cs, KVM_XEN_VCPU_SET_ATTR, &xva);
307105b47fdSAnkur Arora }
308105b47fdSAnkur Arora
do_set_vcpu_callback_vector(CPUState * cs,run_on_cpu_data data)309105b47fdSAnkur Arora static void do_set_vcpu_callback_vector(CPUState *cs, run_on_cpu_data data)
310105b47fdSAnkur Arora {
311105b47fdSAnkur Arora X86CPU *cpu = X86_CPU(cs);
312105b47fdSAnkur Arora CPUX86State *env = &cpu->env;
313105b47fdSAnkur Arora
314105b47fdSAnkur Arora env->xen_vcpu_callback_vector = data.host_int;
315105b47fdSAnkur Arora
316105b47fdSAnkur Arora if (kvm_xen_has_cap(EVTCHN_SEND)) {
317105b47fdSAnkur Arora kvm_xen_set_vcpu_callback_vector(cs);
318105b47fdSAnkur Arora }
319105b47fdSAnkur Arora }
320105b47fdSAnkur Arora
set_vcpu_info(CPUState * cs,uint64_t gpa)32127d4075dSDavid Woodhouse static int set_vcpu_info(CPUState *cs, uint64_t gpa)
32227d4075dSDavid Woodhouse {
32327d4075dSDavid Woodhouse X86CPU *cpu = X86_CPU(cs);
32427d4075dSDavid Woodhouse CPUX86State *env = &cpu->env;
32527d4075dSDavid Woodhouse MemoryRegionSection mrs = { .mr = NULL };
32627d4075dSDavid Woodhouse void *vcpu_info_hva = NULL;
32727d4075dSDavid Woodhouse int ret;
32827d4075dSDavid Woodhouse
32927d4075dSDavid Woodhouse ret = kvm_xen_set_vcpu_attr(cs, KVM_XEN_VCPU_ATTR_TYPE_VCPU_INFO, gpa);
33027d4075dSDavid Woodhouse if (ret || gpa == INVALID_GPA) {
33127d4075dSDavid Woodhouse goto out;
33227d4075dSDavid Woodhouse }
33327d4075dSDavid Woodhouse
33427d4075dSDavid Woodhouse mrs = memory_region_find(get_system_memory(), gpa,
33527d4075dSDavid Woodhouse sizeof(struct vcpu_info));
33627d4075dSDavid Woodhouse if (mrs.mr && mrs.mr->ram_block &&
33727d4075dSDavid Woodhouse !int128_lt(mrs.size, int128_make64(sizeof(struct vcpu_info)))) {
33827d4075dSDavid Woodhouse vcpu_info_hva = qemu_map_ram_ptr(mrs.mr->ram_block,
33927d4075dSDavid Woodhouse mrs.offset_within_region);
34027d4075dSDavid Woodhouse }
34127d4075dSDavid Woodhouse if (!vcpu_info_hva) {
34227d4075dSDavid Woodhouse if (mrs.mr) {
34327d4075dSDavid Woodhouse memory_region_unref(mrs.mr);
34427d4075dSDavid Woodhouse mrs.mr = NULL;
34527d4075dSDavid Woodhouse }
34627d4075dSDavid Woodhouse ret = -EINVAL;
34727d4075dSDavid Woodhouse }
34827d4075dSDavid Woodhouse
34927d4075dSDavid Woodhouse out:
35027d4075dSDavid Woodhouse if (env->xen_vcpu_info_mr) {
35127d4075dSDavid Woodhouse memory_region_unref(env->xen_vcpu_info_mr);
35227d4075dSDavid Woodhouse }
35327d4075dSDavid Woodhouse env->xen_vcpu_info_hva = vcpu_info_hva;
35427d4075dSDavid Woodhouse env->xen_vcpu_info_mr = mrs.mr;
35527d4075dSDavid Woodhouse return ret;
35627d4075dSDavid Woodhouse }
35727d4075dSDavid Woodhouse
do_set_vcpu_info_default_gpa(CPUState * cs,run_on_cpu_data data)358c345104cSJoao Martins static void do_set_vcpu_info_default_gpa(CPUState *cs, run_on_cpu_data data)
359c345104cSJoao Martins {
360c345104cSJoao Martins X86CPU *cpu = X86_CPU(cs);
361c345104cSJoao Martins CPUX86State *env = &cpu->env;
362c345104cSJoao Martins
363c345104cSJoao Martins env->xen_vcpu_info_default_gpa = data.host_ulong;
364c345104cSJoao Martins
365c345104cSJoao Martins /* Changing the default does nothing if a vcpu_info was explicitly set. */
366c345104cSJoao Martins if (env->xen_vcpu_info_gpa == INVALID_GPA) {
36727d4075dSDavid Woodhouse set_vcpu_info(cs, env->xen_vcpu_info_default_gpa);
368c345104cSJoao Martins }
369c345104cSJoao Martins }
370c345104cSJoao Martins
do_set_vcpu_info_gpa(CPUState * cs,run_on_cpu_data data)371c345104cSJoao Martins static void do_set_vcpu_info_gpa(CPUState *cs, run_on_cpu_data data)
372c345104cSJoao Martins {
373c345104cSJoao Martins X86CPU *cpu = X86_CPU(cs);
374c345104cSJoao Martins CPUX86State *env = &cpu->env;
375c345104cSJoao Martins
376c345104cSJoao Martins env->xen_vcpu_info_gpa = data.host_ulong;
377c345104cSJoao Martins
37827d4075dSDavid Woodhouse set_vcpu_info(cs, env->xen_vcpu_info_gpa);
37927d4075dSDavid Woodhouse }
38027d4075dSDavid Woodhouse
kvm_xen_get_vcpu_info_hva(uint32_t vcpu_id)38127d4075dSDavid Woodhouse void *kvm_xen_get_vcpu_info_hva(uint32_t vcpu_id)
38227d4075dSDavid Woodhouse {
38327d4075dSDavid Woodhouse CPUState *cs = qemu_get_cpu(vcpu_id);
38427d4075dSDavid Woodhouse if (!cs) {
38527d4075dSDavid Woodhouse return NULL;
38627d4075dSDavid Woodhouse }
38727d4075dSDavid Woodhouse
38827d4075dSDavid Woodhouse return X86_CPU(cs)->env.xen_vcpu_info_hva;
38927d4075dSDavid Woodhouse }
39027d4075dSDavid Woodhouse
kvm_xen_maybe_deassert_callback(CPUState * cs)391ddf0fd9aSDavid Woodhouse void kvm_xen_maybe_deassert_callback(CPUState *cs)
392ddf0fd9aSDavid Woodhouse {
393ddf0fd9aSDavid Woodhouse CPUX86State *env = &X86_CPU(cs)->env;
394ddf0fd9aSDavid Woodhouse struct vcpu_info *vi = env->xen_vcpu_info_hva;
395ddf0fd9aSDavid Woodhouse if (!vi) {
396ddf0fd9aSDavid Woodhouse return;
397ddf0fd9aSDavid Woodhouse }
398ddf0fd9aSDavid Woodhouse
399ddf0fd9aSDavid Woodhouse /* If the evtchn_upcall_pending flag is cleared, turn the GSI off. */
400ddf0fd9aSDavid Woodhouse if (!vi->evtchn_upcall_pending) {
401195801d7SStefan Hajnoczi bql_lock();
402ddf0fd9aSDavid Woodhouse /*
403ddf0fd9aSDavid Woodhouse * Check again now we have the lock, because it may have been
404ddf0fd9aSDavid Woodhouse * asserted in the interim. And we don't want to take the lock
405ddf0fd9aSDavid Woodhouse * every time because this is a fast path.
406ddf0fd9aSDavid Woodhouse */
407ddf0fd9aSDavid Woodhouse if (!vi->evtchn_upcall_pending) {
408ddf0fd9aSDavid Woodhouse X86_CPU(cs)->env.xen_callback_asserted = false;
409ddf0fd9aSDavid Woodhouse xen_evtchn_set_callback_level(0);
410ddf0fd9aSDavid Woodhouse }
411195801d7SStefan Hajnoczi bql_unlock();
412ddf0fd9aSDavid Woodhouse }
413ddf0fd9aSDavid Woodhouse }
414ddf0fd9aSDavid Woodhouse
kvm_xen_set_callback_asserted(void)415ddf0fd9aSDavid Woodhouse void kvm_xen_set_callback_asserted(void)
416ddf0fd9aSDavid Woodhouse {
417ddf0fd9aSDavid Woodhouse CPUState *cs = qemu_get_cpu(0);
418ddf0fd9aSDavid Woodhouse
419ddf0fd9aSDavid Woodhouse if (cs) {
420ddf0fd9aSDavid Woodhouse X86_CPU(cs)->env.xen_callback_asserted = true;
421ddf0fd9aSDavid Woodhouse }
422ddf0fd9aSDavid Woodhouse }
423ddf0fd9aSDavid Woodhouse
kvm_xen_has_vcpu_callback_vector(void)42418e83f28SDavid Woodhouse bool kvm_xen_has_vcpu_callback_vector(void)
42518e83f28SDavid Woodhouse {
42618e83f28SDavid Woodhouse CPUState *cs = qemu_get_cpu(0);
42718e83f28SDavid Woodhouse
42818e83f28SDavid Woodhouse return cs && !!X86_CPU(cs)->env.xen_vcpu_callback_vector;
42918e83f28SDavid Woodhouse }
43018e83f28SDavid Woodhouse
kvm_xen_inject_vcpu_callback_vector(uint32_t vcpu_id,int type)43127d4075dSDavid Woodhouse void kvm_xen_inject_vcpu_callback_vector(uint32_t vcpu_id, int type)
43227d4075dSDavid Woodhouse {
43327d4075dSDavid Woodhouse CPUState *cs = qemu_get_cpu(vcpu_id);
43427d4075dSDavid Woodhouse uint8_t vector;
43527d4075dSDavid Woodhouse
43627d4075dSDavid Woodhouse if (!cs) {
43727d4075dSDavid Woodhouse return;
43827d4075dSDavid Woodhouse }
43927d4075dSDavid Woodhouse
44027d4075dSDavid Woodhouse vector = X86_CPU(cs)->env.xen_vcpu_callback_vector;
44127d4075dSDavid Woodhouse if (vector) {
44227d4075dSDavid Woodhouse /*
44327d4075dSDavid Woodhouse * The per-vCPU callback vector injected via lapic. Just
44427d4075dSDavid Woodhouse * deliver it as an MSI.
44527d4075dSDavid Woodhouse */
44627d4075dSDavid Woodhouse MSIMessage msg = {
447e7dbb62fSDavid Woodhouse .address = APIC_DEFAULT_ADDRESS |
448e7dbb62fSDavid Woodhouse (X86_CPU(cs)->apic_id << MSI_ADDR_DEST_ID_SHIFT),
44927d4075dSDavid Woodhouse .data = vector | (1UL << MSI_DATA_LEVEL_SHIFT),
45027d4075dSDavid Woodhouse };
45127d4075dSDavid Woodhouse kvm_irqchip_send_msi(kvm_state, msg);
45227d4075dSDavid Woodhouse return;
45327d4075dSDavid Woodhouse }
45427d4075dSDavid Woodhouse
45527d4075dSDavid Woodhouse switch (type) {
45627d4075dSDavid Woodhouse case HVM_PARAM_CALLBACK_TYPE_VECTOR:
45727d4075dSDavid Woodhouse /*
45827d4075dSDavid Woodhouse * If the evtchn_upcall_pending field in the vcpu_info is set, then
45927d4075dSDavid Woodhouse * KVM will automatically deliver the vector on entering the vCPU
46027d4075dSDavid Woodhouse * so all we have to do is kick it out.
46127d4075dSDavid Woodhouse */
46227d4075dSDavid Woodhouse qemu_cpu_kick(cs);
46327d4075dSDavid Woodhouse break;
464ddf0fd9aSDavid Woodhouse
465ddf0fd9aSDavid Woodhouse case HVM_PARAM_CALLBACK_TYPE_GSI:
466ddf0fd9aSDavid Woodhouse case HVM_PARAM_CALLBACK_TYPE_PCI_INTX:
467ddf0fd9aSDavid Woodhouse if (vcpu_id == 0) {
468ddf0fd9aSDavid Woodhouse xen_evtchn_set_callback_level(1);
469ddf0fd9aSDavid Woodhouse }
470ddf0fd9aSDavid Woodhouse break;
47127d4075dSDavid Woodhouse }
472c345104cSJoao Martins }
473c345104cSJoao Martins
47419c417ecSDavid Woodhouse /* Must always be called with xen_timers_lock held */
kvm_xen_set_vcpu_timer(CPUState * cs)475c723d4c1SDavid Woodhouse static int kvm_xen_set_vcpu_timer(CPUState *cs)
476c723d4c1SDavid Woodhouse {
477c723d4c1SDavid Woodhouse X86CPU *cpu = X86_CPU(cs);
478c723d4c1SDavid Woodhouse CPUX86State *env = &cpu->env;
479c723d4c1SDavid Woodhouse
480c723d4c1SDavid Woodhouse struct kvm_xen_vcpu_attr va = {
481c723d4c1SDavid Woodhouse .type = KVM_XEN_VCPU_ATTR_TYPE_TIMER,
482c723d4c1SDavid Woodhouse .u.timer.port = env->xen_virq[VIRQ_TIMER],
483c723d4c1SDavid Woodhouse .u.timer.priority = KVM_IRQ_ROUTING_XEN_EVTCHN_PRIO_2LEVEL,
484c723d4c1SDavid Woodhouse .u.timer.expires_ns = env->xen_singleshot_timer_ns,
485c723d4c1SDavid Woodhouse };
486c723d4c1SDavid Woodhouse
487c723d4c1SDavid Woodhouse return kvm_vcpu_ioctl(cs, KVM_XEN_VCPU_SET_ATTR, &va);
488c723d4c1SDavid Woodhouse }
489c723d4c1SDavid Woodhouse
do_set_vcpu_timer_virq(CPUState * cs,run_on_cpu_data data)490c723d4c1SDavid Woodhouse static void do_set_vcpu_timer_virq(CPUState *cs, run_on_cpu_data data)
491c723d4c1SDavid Woodhouse {
49219c417ecSDavid Woodhouse QEMU_LOCK_GUARD(&X86_CPU(cs)->env.xen_timers_lock);
493c723d4c1SDavid Woodhouse kvm_xen_set_vcpu_timer(cs);
494c723d4c1SDavid Woodhouse }
495c723d4c1SDavid Woodhouse
kvm_xen_set_vcpu_virq(uint32_t vcpu_id,uint16_t virq,uint16_t port)496c723d4c1SDavid Woodhouse int kvm_xen_set_vcpu_virq(uint32_t vcpu_id, uint16_t virq, uint16_t port)
497c723d4c1SDavid Woodhouse {
498c723d4c1SDavid Woodhouse CPUState *cs = qemu_get_cpu(vcpu_id);
499c723d4c1SDavid Woodhouse
500c723d4c1SDavid Woodhouse if (!cs) {
501c723d4c1SDavid Woodhouse return -ENOENT;
502c723d4c1SDavid Woodhouse }
503c723d4c1SDavid Woodhouse
504c723d4c1SDavid Woodhouse /* cpu.h doesn't include the actual Xen header. */
505c723d4c1SDavid Woodhouse qemu_build_assert(NR_VIRQS == XEN_NR_VIRQS);
506c723d4c1SDavid Woodhouse
507c723d4c1SDavid Woodhouse if (virq >= NR_VIRQS) {
508c723d4c1SDavid Woodhouse return -EINVAL;
509c723d4c1SDavid Woodhouse }
510c723d4c1SDavid Woodhouse
511c723d4c1SDavid Woodhouse if (port && X86_CPU(cs)->env.xen_virq[virq]) {
512c723d4c1SDavid Woodhouse return -EEXIST;
513c723d4c1SDavid Woodhouse }
514c723d4c1SDavid Woodhouse
515c723d4c1SDavid Woodhouse X86_CPU(cs)->env.xen_virq[virq] = port;
516c723d4c1SDavid Woodhouse if (virq == VIRQ_TIMER && kvm_xen_has_cap(EVTCHN_SEND)) {
517c723d4c1SDavid Woodhouse async_run_on_cpu(cs, do_set_vcpu_timer_virq,
518c723d4c1SDavid Woodhouse RUN_ON_CPU_HOST_INT(port));
519c723d4c1SDavid Woodhouse }
520c723d4c1SDavid Woodhouse return 0;
521c723d4c1SDavid Woodhouse }
522c723d4c1SDavid Woodhouse
do_set_vcpu_time_info_gpa(CPUState * cs,run_on_cpu_data data)523f0689302SJoao Martins static void do_set_vcpu_time_info_gpa(CPUState *cs, run_on_cpu_data data)
524f0689302SJoao Martins {
525f0689302SJoao Martins X86CPU *cpu = X86_CPU(cs);
526f0689302SJoao Martins CPUX86State *env = &cpu->env;
527f0689302SJoao Martins
528f0689302SJoao Martins env->xen_vcpu_time_info_gpa = data.host_ulong;
529f0689302SJoao Martins
530f0689302SJoao Martins kvm_xen_set_vcpu_attr(cs, KVM_XEN_VCPU_ATTR_TYPE_VCPU_TIME_INFO,
531f0689302SJoao Martins env->xen_vcpu_time_info_gpa);
532f0689302SJoao Martins }
533f0689302SJoao Martins
do_set_vcpu_runstate_gpa(CPUState * cs,run_on_cpu_data data)5345092db87SJoao Martins static void do_set_vcpu_runstate_gpa(CPUState *cs, run_on_cpu_data data)
5355092db87SJoao Martins {
5365092db87SJoao Martins X86CPU *cpu = X86_CPU(cs);
5375092db87SJoao Martins CPUX86State *env = &cpu->env;
5385092db87SJoao Martins
5395092db87SJoao Martins env->xen_vcpu_runstate_gpa = data.host_ulong;
5405092db87SJoao Martins
5415092db87SJoao Martins kvm_xen_set_vcpu_attr(cs, KVM_XEN_VCPU_ATTR_TYPE_RUNSTATE_ADDR,
5425092db87SJoao Martins env->xen_vcpu_runstate_gpa);
5435092db87SJoao Martins }
5445092db87SJoao Martins
do_vcpu_soft_reset(CPUState * cs,run_on_cpu_data data)545c345104cSJoao Martins static void do_vcpu_soft_reset(CPUState *cs, run_on_cpu_data data)
546c345104cSJoao Martins {
547c345104cSJoao Martins X86CPU *cpu = X86_CPU(cs);
548c345104cSJoao Martins CPUX86State *env = &cpu->env;
549c345104cSJoao Martins
550c345104cSJoao Martins env->xen_vcpu_info_gpa = INVALID_GPA;
551c345104cSJoao Martins env->xen_vcpu_info_default_gpa = INVALID_GPA;
552f0689302SJoao Martins env->xen_vcpu_time_info_gpa = INVALID_GPA;
5535092db87SJoao Martins env->xen_vcpu_runstate_gpa = INVALID_GPA;
554105b47fdSAnkur Arora env->xen_vcpu_callback_vector = 0;
555c723d4c1SDavid Woodhouse memset(env->xen_virq, 0, sizeof(env->xen_virq));
556c345104cSJoao Martins
55727d4075dSDavid Woodhouse set_vcpu_info(cs, INVALID_GPA);
558f0689302SJoao Martins kvm_xen_set_vcpu_attr(cs, KVM_XEN_VCPU_ATTR_TYPE_VCPU_TIME_INFO,
559f0689302SJoao Martins INVALID_GPA);
5605092db87SJoao Martins kvm_xen_set_vcpu_attr(cs, KVM_XEN_VCPU_ATTR_TYPE_RUNSTATE_ADDR,
5615092db87SJoao Martins INVALID_GPA);
562105b47fdSAnkur Arora if (kvm_xen_has_cap(EVTCHN_SEND)) {
563105b47fdSAnkur Arora kvm_xen_set_vcpu_callback_vector(cs);
56419c417ecSDavid Woodhouse
56519c417ecSDavid Woodhouse QEMU_LOCK_GUARD(&X86_CPU(cs)->env.xen_timers_lock);
56619c417ecSDavid Woodhouse env->xen_singleshot_timer_ns = 0;
567c723d4c1SDavid Woodhouse kvm_xen_set_vcpu_timer(cs);
56819c417ecSDavid Woodhouse } else {
56919c417ecSDavid Woodhouse vcpuop_stop_singleshot_timer(cs);
57019c417ecSDavid Woodhouse };
5715092db87SJoao Martins
572c345104cSJoao Martins }
573c345104cSJoao Martins
xen_set_shared_info(uint64_t gfn)574fb0fd2ceSJoao Martins static int xen_set_shared_info(uint64_t gfn)
575fb0fd2ceSJoao Martins {
576fb0fd2ceSJoao Martins uint64_t gpa = gfn << TARGET_PAGE_BITS;
577c345104cSJoao Martins int i, err;
578fb0fd2ceSJoao Martins
57932ead8e6SStefan Hajnoczi BQL_LOCK_GUARD();
580fb0fd2ceSJoao Martins
581fb0fd2ceSJoao Martins /*
582fb0fd2ceSJoao Martins * The xen_overlay device tells KVM about it too, since it had to
583fb0fd2ceSJoao Martins * do that on migration load anyway (unless we're going to jump
584fb0fd2ceSJoao Martins * through lots of hoops to maintain the fiction that this isn't
585fb0fd2ceSJoao Martins * KVM-specific.
586fb0fd2ceSJoao Martins */
587fb0fd2ceSJoao Martins err = xen_overlay_map_shinfo_page(gpa);
588fb0fd2ceSJoao Martins if (err) {
589fb0fd2ceSJoao Martins return err;
590fb0fd2ceSJoao Martins }
591fb0fd2ceSJoao Martins
592fb0fd2ceSJoao Martins trace_kvm_xen_set_shared_info(gfn);
593fb0fd2ceSJoao Martins
594c345104cSJoao Martins for (i = 0; i < XEN_LEGACY_MAX_VCPUS; i++) {
595c345104cSJoao Martins CPUState *cpu = qemu_get_cpu(i);
596c345104cSJoao Martins if (cpu) {
597c345104cSJoao Martins async_run_on_cpu(cpu, do_set_vcpu_info_default_gpa,
598c345104cSJoao Martins RUN_ON_CPU_HOST_ULONG(gpa));
599c345104cSJoao Martins }
600c345104cSJoao Martins gpa += sizeof(vcpu_info_t);
601c345104cSJoao Martins }
602c345104cSJoao Martins
603fb0fd2ceSJoao Martins return err;
604fb0fd2ceSJoao Martins }
605fb0fd2ceSJoao Martins
add_to_physmap_one(uint32_t space,uint64_t idx,uint64_t gfn)606fb0fd2ceSJoao Martins static int add_to_physmap_one(uint32_t space, uint64_t idx, uint64_t gfn)
607fb0fd2ceSJoao Martins {
608fb0fd2ceSJoao Martins switch (space) {
609fb0fd2ceSJoao Martins case XENMAPSPACE_shared_info:
610fb0fd2ceSJoao Martins if (idx > 0) {
611fb0fd2ceSJoao Martins return -EINVAL;
612fb0fd2ceSJoao Martins }
613fb0fd2ceSJoao Martins return xen_set_shared_info(gfn);
614fb0fd2ceSJoao Martins
615fb0fd2ceSJoao Martins case XENMAPSPACE_grant_table:
616a28b0fc0SDavid Woodhouse return xen_gnttab_map_page(idx, gfn);
617a28b0fc0SDavid Woodhouse
618fb0fd2ceSJoao Martins case XENMAPSPACE_gmfn:
619fb0fd2ceSJoao Martins case XENMAPSPACE_gmfn_range:
620fb0fd2ceSJoao Martins return -ENOTSUP;
621fb0fd2ceSJoao Martins
622fb0fd2ceSJoao Martins case XENMAPSPACE_gmfn_foreign:
623fb0fd2ceSJoao Martins case XENMAPSPACE_dev_mmio:
624fb0fd2ceSJoao Martins return -EPERM;
625fb0fd2ceSJoao Martins
626fb0fd2ceSJoao Martins default:
627fb0fd2ceSJoao Martins return -EINVAL;
628fb0fd2ceSJoao Martins }
629fb0fd2ceSJoao Martins }
630fb0fd2ceSJoao Martins
do_add_to_physmap(struct kvm_xen_exit * exit,X86CPU * cpu,uint64_t arg)631fb0fd2ceSJoao Martins static int do_add_to_physmap(struct kvm_xen_exit *exit, X86CPU *cpu,
632fb0fd2ceSJoao Martins uint64_t arg)
633fb0fd2ceSJoao Martins {
634fb0fd2ceSJoao Martins struct xen_add_to_physmap xatp;
635fb0fd2ceSJoao Martins CPUState *cs = CPU(cpu);
636fb0fd2ceSJoao Martins
637fb0fd2ceSJoao Martins if (hypercall_compat32(exit->u.hcall.longmode)) {
638fb0fd2ceSJoao Martins struct compat_xen_add_to_physmap xatp32;
639fb0fd2ceSJoao Martins
640fb0fd2ceSJoao Martins qemu_build_assert(sizeof(struct compat_xen_add_to_physmap) == 16);
641fb0fd2ceSJoao Martins if (kvm_copy_from_gva(cs, arg, &xatp32, sizeof(xatp32))) {
642fb0fd2ceSJoao Martins return -EFAULT;
643fb0fd2ceSJoao Martins }
644fb0fd2ceSJoao Martins xatp.domid = xatp32.domid;
645fb0fd2ceSJoao Martins xatp.size = xatp32.size;
646fb0fd2ceSJoao Martins xatp.space = xatp32.space;
647fb0fd2ceSJoao Martins xatp.idx = xatp32.idx;
648fb0fd2ceSJoao Martins xatp.gpfn = xatp32.gpfn;
649fb0fd2ceSJoao Martins } else {
650fb0fd2ceSJoao Martins if (kvm_copy_from_gva(cs, arg, &xatp, sizeof(xatp))) {
651fb0fd2ceSJoao Martins return -EFAULT;
652fb0fd2ceSJoao Martins }
653fb0fd2ceSJoao Martins }
654fb0fd2ceSJoao Martins
655fb0fd2ceSJoao Martins if (xatp.domid != DOMID_SELF && xatp.domid != xen_domid) {
656fb0fd2ceSJoao Martins return -ESRCH;
657fb0fd2ceSJoao Martins }
658fb0fd2ceSJoao Martins
659fb0fd2ceSJoao Martins return add_to_physmap_one(xatp.space, xatp.idx, xatp.gpfn);
660fb0fd2ceSJoao Martins }
661fb0fd2ceSJoao Martins
do_add_to_physmap_batch(struct kvm_xen_exit * exit,X86CPU * cpu,uint64_t arg)662782a7960SDavid Woodhouse static int do_add_to_physmap_batch(struct kvm_xen_exit *exit, X86CPU *cpu,
663782a7960SDavid Woodhouse uint64_t arg)
664782a7960SDavid Woodhouse {
665782a7960SDavid Woodhouse struct xen_add_to_physmap_batch xatpb;
666782a7960SDavid Woodhouse unsigned long idxs_gva, gpfns_gva, errs_gva;
667782a7960SDavid Woodhouse CPUState *cs = CPU(cpu);
668782a7960SDavid Woodhouse size_t op_sz;
669782a7960SDavid Woodhouse
670782a7960SDavid Woodhouse if (hypercall_compat32(exit->u.hcall.longmode)) {
671782a7960SDavid Woodhouse struct compat_xen_add_to_physmap_batch xatpb32;
672782a7960SDavid Woodhouse
673782a7960SDavid Woodhouse qemu_build_assert(sizeof(struct compat_xen_add_to_physmap_batch) == 20);
674782a7960SDavid Woodhouse if (kvm_copy_from_gva(cs, arg, &xatpb32, sizeof(xatpb32))) {
675782a7960SDavid Woodhouse return -EFAULT;
676782a7960SDavid Woodhouse }
677782a7960SDavid Woodhouse xatpb.domid = xatpb32.domid;
678782a7960SDavid Woodhouse xatpb.space = xatpb32.space;
679782a7960SDavid Woodhouse xatpb.size = xatpb32.size;
680782a7960SDavid Woodhouse
681782a7960SDavid Woodhouse idxs_gva = xatpb32.idxs.c;
682782a7960SDavid Woodhouse gpfns_gva = xatpb32.gpfns.c;
683782a7960SDavid Woodhouse errs_gva = xatpb32.errs.c;
684782a7960SDavid Woodhouse op_sz = sizeof(uint32_t);
685782a7960SDavid Woodhouse } else {
686782a7960SDavid Woodhouse if (kvm_copy_from_gva(cs, arg, &xatpb, sizeof(xatpb))) {
687782a7960SDavid Woodhouse return -EFAULT;
688782a7960SDavid Woodhouse }
689782a7960SDavid Woodhouse op_sz = sizeof(unsigned long);
690782a7960SDavid Woodhouse idxs_gva = (unsigned long)xatpb.idxs.p;
691782a7960SDavid Woodhouse gpfns_gva = (unsigned long)xatpb.gpfns.p;
692782a7960SDavid Woodhouse errs_gva = (unsigned long)xatpb.errs.p;
693782a7960SDavid Woodhouse }
694782a7960SDavid Woodhouse
695782a7960SDavid Woodhouse if (xatpb.domid != DOMID_SELF && xatpb.domid != xen_domid) {
696782a7960SDavid Woodhouse return -ESRCH;
697782a7960SDavid Woodhouse }
698782a7960SDavid Woodhouse
699782a7960SDavid Woodhouse /* Explicitly invalid for the batch op. Not that we implement it anyway. */
700782a7960SDavid Woodhouse if (xatpb.space == XENMAPSPACE_gmfn_range) {
701782a7960SDavid Woodhouse return -EINVAL;
702782a7960SDavid Woodhouse }
703782a7960SDavid Woodhouse
704782a7960SDavid Woodhouse while (xatpb.size--) {
705782a7960SDavid Woodhouse unsigned long idx = 0;
706782a7960SDavid Woodhouse unsigned long gpfn = 0;
707782a7960SDavid Woodhouse int err;
708782a7960SDavid Woodhouse
709782a7960SDavid Woodhouse /* For 32-bit compat this only copies the low 32 bits of each */
710782a7960SDavid Woodhouse if (kvm_copy_from_gva(cs, idxs_gva, &idx, op_sz) ||
711782a7960SDavid Woodhouse kvm_copy_from_gva(cs, gpfns_gva, &gpfn, op_sz)) {
712782a7960SDavid Woodhouse return -EFAULT;
713782a7960SDavid Woodhouse }
714782a7960SDavid Woodhouse idxs_gva += op_sz;
715782a7960SDavid Woodhouse gpfns_gva += op_sz;
716782a7960SDavid Woodhouse
717782a7960SDavid Woodhouse err = add_to_physmap_one(xatpb.space, idx, gpfn);
718782a7960SDavid Woodhouse
719782a7960SDavid Woodhouse if (kvm_copy_to_gva(cs, errs_gva, &err, sizeof(err))) {
720782a7960SDavid Woodhouse return -EFAULT;
721782a7960SDavid Woodhouse }
722782a7960SDavid Woodhouse errs_gva += sizeof(err);
723782a7960SDavid Woodhouse }
724782a7960SDavid Woodhouse return 0;
725782a7960SDavid Woodhouse }
726782a7960SDavid Woodhouse
kvm_xen_hcall_memory_op(struct kvm_xen_exit * exit,X86CPU * cpu,int cmd,uint64_t arg)727fb0fd2ceSJoao Martins static bool kvm_xen_hcall_memory_op(struct kvm_xen_exit *exit, X86CPU *cpu,
728fb0fd2ceSJoao Martins int cmd, uint64_t arg)
729fb0fd2ceSJoao Martins {
730fb0fd2ceSJoao Martins int err;
731fb0fd2ceSJoao Martins
732fb0fd2ceSJoao Martins switch (cmd) {
733fb0fd2ceSJoao Martins case XENMEM_add_to_physmap:
734fb0fd2ceSJoao Martins err = do_add_to_physmap(exit, cpu, arg);
735fb0fd2ceSJoao Martins break;
736fb0fd2ceSJoao Martins
737782a7960SDavid Woodhouse case XENMEM_add_to_physmap_batch:
738782a7960SDavid Woodhouse err = do_add_to_physmap_batch(exit, cpu, arg);
739782a7960SDavid Woodhouse break;
740782a7960SDavid Woodhouse
741fb0fd2ceSJoao Martins default:
742fb0fd2ceSJoao Martins return false;
743fb0fd2ceSJoao Martins }
744fb0fd2ceSJoao Martins
745fb0fd2ceSJoao Martins exit->u.hcall.result = err;
746fb0fd2ceSJoao Martins return true;
747fb0fd2ceSJoao Martins }
748fb0fd2ceSJoao Martins
handle_set_param(struct kvm_xen_exit * exit,X86CPU * cpu,uint64_t arg)7495dbcd01aSAnkur Arora static bool handle_set_param(struct kvm_xen_exit *exit, X86CPU *cpu,
7505dbcd01aSAnkur Arora uint64_t arg)
7515dbcd01aSAnkur Arora {
7525dbcd01aSAnkur Arora CPUState *cs = CPU(cpu);
7535dbcd01aSAnkur Arora struct xen_hvm_param hp;
7545dbcd01aSAnkur Arora int err = 0;
7555dbcd01aSAnkur Arora
7565dbcd01aSAnkur Arora /* No need for 32/64 compat handling */
7575dbcd01aSAnkur Arora qemu_build_assert(sizeof(hp) == 16);
7585dbcd01aSAnkur Arora
7595dbcd01aSAnkur Arora if (kvm_copy_from_gva(cs, arg, &hp, sizeof(hp))) {
7605dbcd01aSAnkur Arora err = -EFAULT;
7615dbcd01aSAnkur Arora goto out;
7625dbcd01aSAnkur Arora }
7635dbcd01aSAnkur Arora
7645dbcd01aSAnkur Arora if (hp.domid != DOMID_SELF && hp.domid != xen_domid) {
7655dbcd01aSAnkur Arora err = -ESRCH;
7665dbcd01aSAnkur Arora goto out;
7675dbcd01aSAnkur Arora }
7685dbcd01aSAnkur Arora
7695dbcd01aSAnkur Arora switch (hp.index) {
77091cce756SDavid Woodhouse case HVM_PARAM_CALLBACK_IRQ:
771195801d7SStefan Hajnoczi bql_lock();
77291cce756SDavid Woodhouse err = xen_evtchn_set_callback_param(hp.value);
773195801d7SStefan Hajnoczi bql_unlock();
77491cce756SDavid Woodhouse xen_set_long_mode(exit->u.hcall.longmode);
77591cce756SDavid Woodhouse break;
7765dbcd01aSAnkur Arora default:
7775dbcd01aSAnkur Arora return false;
7785dbcd01aSAnkur Arora }
7795dbcd01aSAnkur Arora
7805dbcd01aSAnkur Arora out:
7815dbcd01aSAnkur Arora exit->u.hcall.result = err;
7825dbcd01aSAnkur Arora return true;
7835dbcd01aSAnkur Arora }
7845dbcd01aSAnkur Arora
handle_get_param(struct kvm_xen_exit * exit,X86CPU * cpu,uint64_t arg)785c6623cc3SJoao Martins static bool handle_get_param(struct kvm_xen_exit *exit, X86CPU *cpu,
786c6623cc3SJoao Martins uint64_t arg)
787c6623cc3SJoao Martins {
788c6623cc3SJoao Martins CPUState *cs = CPU(cpu);
789c6623cc3SJoao Martins struct xen_hvm_param hp;
790c6623cc3SJoao Martins int err = 0;
791c6623cc3SJoao Martins
792c6623cc3SJoao Martins /* No need for 32/64 compat handling */
793c6623cc3SJoao Martins qemu_build_assert(sizeof(hp) == 16);
794c6623cc3SJoao Martins
795c6623cc3SJoao Martins if (kvm_copy_from_gva(cs, arg, &hp, sizeof(hp))) {
796c6623cc3SJoao Martins err = -EFAULT;
797c6623cc3SJoao Martins goto out;
798c6623cc3SJoao Martins }
799c6623cc3SJoao Martins
800c6623cc3SJoao Martins if (hp.domid != DOMID_SELF && hp.domid != xen_domid) {
801c6623cc3SJoao Martins err = -ESRCH;
802c6623cc3SJoao Martins goto out;
803c6623cc3SJoao Martins }
804c6623cc3SJoao Martins
805c6623cc3SJoao Martins switch (hp.index) {
806c6623cc3SJoao Martins case HVM_PARAM_STORE_PFN:
807c6623cc3SJoao Martins hp.value = XEN_SPECIAL_PFN(XENSTORE);
808c6623cc3SJoao Martins break;
809c08f5d0eSDavid Woodhouse case HVM_PARAM_STORE_EVTCHN:
810c08f5d0eSDavid Woodhouse hp.value = xen_xenstore_get_port();
811c08f5d0eSDavid Woodhouse break;
812a72ccc7fSDavid Woodhouse case HVM_PARAM_CONSOLE_PFN:
813a72ccc7fSDavid Woodhouse hp.value = xen_primary_console_get_pfn();
814a72ccc7fSDavid Woodhouse if (!hp.value) {
815a72ccc7fSDavid Woodhouse err = -EINVAL;
816a72ccc7fSDavid Woodhouse }
817a72ccc7fSDavid Woodhouse break;
818a72ccc7fSDavid Woodhouse case HVM_PARAM_CONSOLE_EVTCHN:
819a72ccc7fSDavid Woodhouse hp.value = xen_primary_console_get_port();
820a72ccc7fSDavid Woodhouse if (!hp.value) {
821a72ccc7fSDavid Woodhouse err = -EINVAL;
822a72ccc7fSDavid Woodhouse }
823a72ccc7fSDavid Woodhouse break;
824c6623cc3SJoao Martins default:
825c6623cc3SJoao Martins return false;
826c6623cc3SJoao Martins }
827c6623cc3SJoao Martins
828a72ccc7fSDavid Woodhouse if (!err && kvm_copy_to_gva(cs, arg, &hp, sizeof(hp))) {
829c6623cc3SJoao Martins err = -EFAULT;
830c6623cc3SJoao Martins }
831c6623cc3SJoao Martins out:
832c6623cc3SJoao Martins exit->u.hcall.result = err;
833c6623cc3SJoao Martins return true;
834c6623cc3SJoao Martins }
835c6623cc3SJoao Martins
kvm_xen_hcall_evtchn_upcall_vector(struct kvm_xen_exit * exit,X86CPU * cpu,uint64_t arg)836105b47fdSAnkur Arora static int kvm_xen_hcall_evtchn_upcall_vector(struct kvm_xen_exit *exit,
837105b47fdSAnkur Arora X86CPU *cpu, uint64_t arg)
838105b47fdSAnkur Arora {
839105b47fdSAnkur Arora struct xen_hvm_evtchn_upcall_vector up;
840105b47fdSAnkur Arora CPUState *target_cs;
841105b47fdSAnkur Arora
842105b47fdSAnkur Arora /* No need for 32/64 compat handling */
843105b47fdSAnkur Arora qemu_build_assert(sizeof(up) == 8);
844105b47fdSAnkur Arora
845105b47fdSAnkur Arora if (kvm_copy_from_gva(CPU(cpu), arg, &up, sizeof(up))) {
846105b47fdSAnkur Arora return -EFAULT;
847105b47fdSAnkur Arora }
848105b47fdSAnkur Arora
849105b47fdSAnkur Arora if (up.vector < 0x10) {
850105b47fdSAnkur Arora return -EINVAL;
851105b47fdSAnkur Arora }
852105b47fdSAnkur Arora
853105b47fdSAnkur Arora target_cs = qemu_get_cpu(up.vcpu);
854105b47fdSAnkur Arora if (!target_cs) {
855105b47fdSAnkur Arora return -EINVAL;
856105b47fdSAnkur Arora }
857105b47fdSAnkur Arora
858105b47fdSAnkur Arora async_run_on_cpu(target_cs, do_set_vcpu_callback_vector,
859105b47fdSAnkur Arora RUN_ON_CPU_HOST_INT(up.vector));
860105b47fdSAnkur Arora return 0;
861105b47fdSAnkur Arora }
862105b47fdSAnkur Arora
kvm_xen_hcall_hvm_op(struct kvm_xen_exit * exit,X86CPU * cpu,int cmd,uint64_t arg)863671bfdcdSJoao Martins static bool kvm_xen_hcall_hvm_op(struct kvm_xen_exit *exit, X86CPU *cpu,
864671bfdcdSJoao Martins int cmd, uint64_t arg)
865671bfdcdSJoao Martins {
866105b47fdSAnkur Arora int ret = -ENOSYS;
867671bfdcdSJoao Martins switch (cmd) {
868105b47fdSAnkur Arora case HVMOP_set_evtchn_upcall_vector:
869e7dbb62fSDavid Woodhouse ret = kvm_xen_hcall_evtchn_upcall_vector(exit, cpu, arg);
870105b47fdSAnkur Arora break;
871105b47fdSAnkur Arora
872671bfdcdSJoao Martins case HVMOP_pagetable_dying:
873105b47fdSAnkur Arora ret = -ENOSYS;
874105b47fdSAnkur Arora break;
875671bfdcdSJoao Martins
8765dbcd01aSAnkur Arora case HVMOP_set_param:
8775dbcd01aSAnkur Arora return handle_set_param(exit, cpu, arg);
8785dbcd01aSAnkur Arora
879c6623cc3SJoao Martins case HVMOP_get_param:
880c6623cc3SJoao Martins return handle_get_param(exit, cpu, arg);
881c6623cc3SJoao Martins
882671bfdcdSJoao Martins default:
883671bfdcdSJoao Martins return false;
884671bfdcdSJoao Martins }
885105b47fdSAnkur Arora
886105b47fdSAnkur Arora exit->u.hcall.result = ret;
887105b47fdSAnkur Arora return true;
888671bfdcdSJoao Martins }
889671bfdcdSJoao Martins
vcpuop_register_vcpu_info(CPUState * cs,CPUState * target,uint64_t arg)890c345104cSJoao Martins static int vcpuop_register_vcpu_info(CPUState *cs, CPUState *target,
891c345104cSJoao Martins uint64_t arg)
892c345104cSJoao Martins {
893c345104cSJoao Martins struct vcpu_register_vcpu_info rvi;
894c345104cSJoao Martins uint64_t gpa;
895c345104cSJoao Martins
896c345104cSJoao Martins /* No need for 32/64 compat handling */
897c345104cSJoao Martins qemu_build_assert(sizeof(rvi) == 16);
898c345104cSJoao Martins qemu_build_assert(sizeof(struct vcpu_info) == 64);
899c345104cSJoao Martins
900c345104cSJoao Martins if (!target) {
901c345104cSJoao Martins return -ENOENT;
902c345104cSJoao Martins }
903c345104cSJoao Martins
904c345104cSJoao Martins if (kvm_copy_from_gva(cs, arg, &rvi, sizeof(rvi))) {
905c345104cSJoao Martins return -EFAULT;
906c345104cSJoao Martins }
907c345104cSJoao Martins
908c345104cSJoao Martins if (rvi.offset > TARGET_PAGE_SIZE - sizeof(struct vcpu_info)) {
909c345104cSJoao Martins return -EINVAL;
910c345104cSJoao Martins }
911c345104cSJoao Martins
912c345104cSJoao Martins gpa = ((rvi.mfn << TARGET_PAGE_BITS) + rvi.offset);
913c345104cSJoao Martins async_run_on_cpu(target, do_set_vcpu_info_gpa, RUN_ON_CPU_HOST_ULONG(gpa));
914c345104cSJoao Martins return 0;
915c345104cSJoao Martins }
916c345104cSJoao Martins
vcpuop_register_vcpu_time_info(CPUState * cs,CPUState * target,uint64_t arg)917f0689302SJoao Martins static int vcpuop_register_vcpu_time_info(CPUState *cs, CPUState *target,
918f0689302SJoao Martins uint64_t arg)
919f0689302SJoao Martins {
920f0689302SJoao Martins struct vcpu_register_time_memory_area tma;
921f0689302SJoao Martins uint64_t gpa;
922f0689302SJoao Martins size_t len;
923f0689302SJoao Martins
924f0689302SJoao Martins /* No need for 32/64 compat handling */
925f0689302SJoao Martins qemu_build_assert(sizeof(tma) == 8);
926f0689302SJoao Martins qemu_build_assert(sizeof(struct vcpu_time_info) == 32);
927f0689302SJoao Martins
928f0689302SJoao Martins if (!target) {
929f0689302SJoao Martins return -ENOENT;
930f0689302SJoao Martins }
931f0689302SJoao Martins
932f0689302SJoao Martins if (kvm_copy_from_gva(cs, arg, &tma, sizeof(tma))) {
933f0689302SJoao Martins return -EFAULT;
934f0689302SJoao Martins }
935f0689302SJoao Martins
936f0689302SJoao Martins /*
937f0689302SJoao Martins * Xen actually uses the GVA and does the translation through the guest
938f0689302SJoao Martins * page tables each time. But Linux/KVM uses the GPA, on the assumption
939f0689302SJoao Martins * that guests only ever use *global* addresses (kernel virtual addresses)
940f0689302SJoao Martins * for it. If Linux is changed to redo the GVA→GPA translation each time,
941f0689302SJoao Martins * it will offer a new vCPU attribute for that, and we'll use it instead.
942f0689302SJoao Martins */
943f0689302SJoao Martins if (!kvm_gva_to_gpa(cs, tma.addr.p, &gpa, &len, false) ||
944f0689302SJoao Martins len < sizeof(struct vcpu_time_info)) {
945f0689302SJoao Martins return -EFAULT;
946f0689302SJoao Martins }
947f0689302SJoao Martins
948f0689302SJoao Martins async_run_on_cpu(target, do_set_vcpu_time_info_gpa,
949f0689302SJoao Martins RUN_ON_CPU_HOST_ULONG(gpa));
950f0689302SJoao Martins return 0;
951f0689302SJoao Martins }
952f0689302SJoao Martins
vcpuop_register_runstate_info(CPUState * cs,CPUState * target,uint64_t arg)9535092db87SJoao Martins static int vcpuop_register_runstate_info(CPUState *cs, CPUState *target,
9545092db87SJoao Martins uint64_t arg)
9555092db87SJoao Martins {
9565092db87SJoao Martins struct vcpu_register_runstate_memory_area rma;
9575092db87SJoao Martins uint64_t gpa;
9585092db87SJoao Martins size_t len;
9595092db87SJoao Martins
9605092db87SJoao Martins /* No need for 32/64 compat handling */
9615092db87SJoao Martins qemu_build_assert(sizeof(rma) == 8);
9625092db87SJoao Martins /* The runstate area actually does change size, but Linux copes. */
9635092db87SJoao Martins
9645092db87SJoao Martins if (!target) {
9655092db87SJoao Martins return -ENOENT;
9665092db87SJoao Martins }
9675092db87SJoao Martins
9685092db87SJoao Martins if (kvm_copy_from_gva(cs, arg, &rma, sizeof(rma))) {
9695092db87SJoao Martins return -EFAULT;
9705092db87SJoao Martins }
9715092db87SJoao Martins
9725092db87SJoao Martins /* As with vcpu_time_info, Xen actually uses the GVA but KVM doesn't. */
9735092db87SJoao Martins if (!kvm_gva_to_gpa(cs, rma.addr.p, &gpa, &len, false)) {
9745092db87SJoao Martins return -EFAULT;
9755092db87SJoao Martins }
9765092db87SJoao Martins
9775092db87SJoao Martins async_run_on_cpu(target, do_set_vcpu_runstate_gpa,
9785092db87SJoao Martins RUN_ON_CPU_HOST_ULONG(gpa));
9795092db87SJoao Martins return 0;
9805092db87SJoao Martins }
9815092db87SJoao Martins
kvm_get_current_ns(void)982b746a779SJoao Martins static uint64_t kvm_get_current_ns(void)
983b746a779SJoao Martins {
984b746a779SJoao Martins struct kvm_clock_data data;
985b746a779SJoao Martins int ret;
986b746a779SJoao Martins
987b746a779SJoao Martins ret = kvm_vm_ioctl(kvm_state, KVM_GET_CLOCK, &data);
988b746a779SJoao Martins if (ret < 0) {
989b746a779SJoao Martins fprintf(stderr, "KVM_GET_CLOCK failed: %s\n", strerror(ret));
990b746a779SJoao Martins abort();
991b746a779SJoao Martins }
992b746a779SJoao Martins
993b746a779SJoao Martins return data.clock;
994b746a779SJoao Martins }
995b746a779SJoao Martins
xen_vcpu_singleshot_timer_event(void * opaque)996b746a779SJoao Martins static void xen_vcpu_singleshot_timer_event(void *opaque)
997b746a779SJoao Martins {
998b746a779SJoao Martins CPUState *cpu = opaque;
999b746a779SJoao Martins CPUX86State *env = &X86_CPU(cpu)->env;
1000b746a779SJoao Martins uint16_t port = env->xen_virq[VIRQ_TIMER];
1001b746a779SJoao Martins
1002b746a779SJoao Martins if (likely(port)) {
1003b746a779SJoao Martins xen_evtchn_set_port(port);
1004b746a779SJoao Martins }
1005b746a779SJoao Martins
1006b746a779SJoao Martins qemu_mutex_lock(&env->xen_timers_lock);
1007b746a779SJoao Martins env->xen_singleshot_timer_ns = 0;
1008b746a779SJoao Martins qemu_mutex_unlock(&env->xen_timers_lock);
1009b746a779SJoao Martins }
1010b746a779SJoao Martins
xen_vcpu_periodic_timer_event(void * opaque)1011b746a779SJoao Martins static void xen_vcpu_periodic_timer_event(void *opaque)
1012b746a779SJoao Martins {
1013b746a779SJoao Martins CPUState *cpu = opaque;
1014b746a779SJoao Martins CPUX86State *env = &X86_CPU(cpu)->env;
1015b746a779SJoao Martins uint16_t port = env->xen_virq[VIRQ_TIMER];
1016b746a779SJoao Martins int64_t qemu_now;
1017b746a779SJoao Martins
1018b746a779SJoao Martins if (likely(port)) {
1019b746a779SJoao Martins xen_evtchn_set_port(port);
1020b746a779SJoao Martins }
1021b746a779SJoao Martins
1022b746a779SJoao Martins qemu_mutex_lock(&env->xen_timers_lock);
1023b746a779SJoao Martins
1024b746a779SJoao Martins qemu_now = qemu_clock_get_ns(QEMU_CLOCK_VIRTUAL);
1025b746a779SJoao Martins timer_mod_ns(env->xen_periodic_timer,
1026b746a779SJoao Martins qemu_now + env->xen_periodic_timer_period);
1027b746a779SJoao Martins
1028b746a779SJoao Martins qemu_mutex_unlock(&env->xen_timers_lock);
1029b746a779SJoao Martins }
1030b746a779SJoao Martins
do_set_periodic_timer(CPUState * target,uint64_t period_ns)1031b746a779SJoao Martins static int do_set_periodic_timer(CPUState *target, uint64_t period_ns)
1032b746a779SJoao Martins {
1033b746a779SJoao Martins CPUX86State *tenv = &X86_CPU(target)->env;
1034b746a779SJoao Martins int64_t qemu_now;
1035b746a779SJoao Martins
1036b746a779SJoao Martins timer_del(tenv->xen_periodic_timer);
1037b746a779SJoao Martins
1038b746a779SJoao Martins qemu_mutex_lock(&tenv->xen_timers_lock);
1039b746a779SJoao Martins
1040b746a779SJoao Martins qemu_now = qemu_clock_get_ns(QEMU_CLOCK_VIRTUAL);
1041b746a779SJoao Martins timer_mod_ns(tenv->xen_periodic_timer, qemu_now + period_ns);
1042b746a779SJoao Martins tenv->xen_periodic_timer_period = period_ns;
1043b746a779SJoao Martins
1044b746a779SJoao Martins qemu_mutex_unlock(&tenv->xen_timers_lock);
1045b746a779SJoao Martins return 0;
1046b746a779SJoao Martins }
1047b746a779SJoao Martins
1048b746a779SJoao Martins #define MILLISECS(_ms) ((int64_t)((_ms) * 1000000ULL))
1049b746a779SJoao Martins #define MICROSECS(_us) ((int64_t)((_us) * 1000ULL))
1050b746a779SJoao Martins #define STIME_MAX ((time_t)((int64_t)~0ull >> 1))
1051bad5cfcdSMichael Tokarev /* Chosen so (NOW() + delta) won't overflow without an uptime of 200 years */
1052b746a779SJoao Martins #define STIME_DELTA_MAX ((int64_t)((uint64_t)~0ull >> 2))
1053b746a779SJoao Martins
vcpuop_set_periodic_timer(CPUState * cs,CPUState * target,uint64_t arg)1054b746a779SJoao Martins static int vcpuop_set_periodic_timer(CPUState *cs, CPUState *target,
1055b746a779SJoao Martins uint64_t arg)
1056b746a779SJoao Martins {
1057b746a779SJoao Martins struct vcpu_set_periodic_timer spt;
1058b746a779SJoao Martins
1059b746a779SJoao Martins qemu_build_assert(sizeof(spt) == 8);
1060b746a779SJoao Martins if (kvm_copy_from_gva(cs, arg, &spt, sizeof(spt))) {
1061b746a779SJoao Martins return -EFAULT;
1062b746a779SJoao Martins }
1063b746a779SJoao Martins
1064b746a779SJoao Martins if (spt.period_ns < MILLISECS(1) || spt.period_ns > STIME_DELTA_MAX) {
1065b746a779SJoao Martins return -EINVAL;
1066b746a779SJoao Martins }
1067b746a779SJoao Martins
1068b746a779SJoao Martins return do_set_periodic_timer(target, spt.period_ns);
1069b746a779SJoao Martins }
1070b746a779SJoao Martins
vcpuop_stop_periodic_timer(CPUState * target)1071b746a779SJoao Martins static int vcpuop_stop_periodic_timer(CPUState *target)
1072b746a779SJoao Martins {
1073b746a779SJoao Martins CPUX86State *tenv = &X86_CPU(target)->env;
1074b746a779SJoao Martins
1075b746a779SJoao Martins qemu_mutex_lock(&tenv->xen_timers_lock);
1076b746a779SJoao Martins
1077b746a779SJoao Martins timer_del(tenv->xen_periodic_timer);
1078b746a779SJoao Martins tenv->xen_periodic_timer_period = 0;
1079b746a779SJoao Martins
1080b746a779SJoao Martins qemu_mutex_unlock(&tenv->xen_timers_lock);
1081b746a779SJoao Martins return 0;
1082b746a779SJoao Martins }
1083b746a779SJoao Martins
108419c417ecSDavid Woodhouse /*
108519c417ecSDavid Woodhouse * Userspace handling of timer, for older kernels.
108619c417ecSDavid Woodhouse * Must always be called with xen_timers_lock held.
108719c417ecSDavid Woodhouse */
do_set_singleshot_timer(CPUState * cs,uint64_t timeout_abs,bool linux_wa)1088b746a779SJoao Martins static int do_set_singleshot_timer(CPUState *cs, uint64_t timeout_abs,
1089547c9757SDavid Woodhouse bool linux_wa)
1090b746a779SJoao Martins {
1091b746a779SJoao Martins CPUX86State *env = &X86_CPU(cs)->env;
1092b746a779SJoao Martins int64_t now = kvm_get_current_ns();
1093b746a779SJoao Martins int64_t qemu_now = qemu_clock_get_ns(QEMU_CLOCK_VIRTUAL);
1094b746a779SJoao Martins int64_t delta = timeout_abs - now;
1095b746a779SJoao Martins
1096b746a779SJoao Martins if (linux_wa && unlikely((int64_t)timeout_abs < 0 ||
1097b746a779SJoao Martins (delta > 0 && (uint32_t)(delta >> 50) != 0))) {
1098b746a779SJoao Martins /*
1099b746a779SJoao Martins * Xen has a 'Linux workaround' in do_set_timer_op() which checks
1100b746a779SJoao Martins * for negative absolute timeout values (caused by integer
1101b746a779SJoao Martins * overflow), and for values about 13 days in the future (2^50ns)
1102b746a779SJoao Martins * which would be caused by jiffies overflow. For those cases, it
1103b746a779SJoao Martins * sets the timeout 100ms in the future (not *too* soon, since if
1104b746a779SJoao Martins * a guest really did set a long timeout on purpose we don't want
1105b746a779SJoao Martins * to keep churning CPU time by waking it up).
1106b746a779SJoao Martins */
1107b746a779SJoao Martins delta = (100 * SCALE_MS);
1108b746a779SJoao Martins timeout_abs = now + delta;
1109b746a779SJoao Martins }
1110b746a779SJoao Martins
1111b746a779SJoao Martins timer_mod_ns(env->xen_singleshot_timer, qemu_now + delta);
1112b746a779SJoao Martins env->xen_singleshot_timer_ns = now + delta;
1113b746a779SJoao Martins return 0;
1114b746a779SJoao Martins }
1115b746a779SJoao Martins
vcpuop_set_singleshot_timer(CPUState * cs,uint64_t arg)1116b746a779SJoao Martins static int vcpuop_set_singleshot_timer(CPUState *cs, uint64_t arg)
1117b746a779SJoao Martins {
1118b746a779SJoao Martins struct vcpu_set_singleshot_timer sst = { 0 };
1119b746a779SJoao Martins
1120b746a779SJoao Martins /*
1121b746a779SJoao Martins * The struct is a uint64_t followed by a uint32_t. On 32-bit that
1122b746a779SJoao Martins * makes it 12 bytes. On 64-bit it gets padded to 16. The parts
1123b746a779SJoao Martins * that get used are identical, and there's four bytes of padding
1124b746a779SJoao Martins * unused at the end. For true Xen compatibility we should attempt
1125b746a779SJoao Martins * to copy the full 16 bytes from 64-bit guests, and return -EFAULT
1126b746a779SJoao Martins * if we can't get the padding too. But that's daft. Just copy what
1127b746a779SJoao Martins * we need.
1128b746a779SJoao Martins */
1129b746a779SJoao Martins qemu_build_assert(offsetof(struct vcpu_set_singleshot_timer, flags) == 8);
1130b746a779SJoao Martins qemu_build_assert(sizeof(sst) >= 12);
1131b746a779SJoao Martins
1132b746a779SJoao Martins if (kvm_copy_from_gva(cs, arg, &sst, 12)) {
1133b746a779SJoao Martins return -EFAULT;
1134b746a779SJoao Martins }
1135b746a779SJoao Martins
113619c417ecSDavid Woodhouse QEMU_LOCK_GUARD(&X86_CPU(cs)->env.xen_timers_lock);
1137547c9757SDavid Woodhouse
1138547c9757SDavid Woodhouse /*
1139547c9757SDavid Woodhouse * We ignore the VCPU_SSHOTTMR_future flag, just as Xen now does.
1140547c9757SDavid Woodhouse * The only guest that ever used it, got it wrong.
1141547c9757SDavid Woodhouse * https://xenbits.xen.org/gitweb/?p=xen.git;a=commitdiff;h=19c6cbd909
1142547c9757SDavid Woodhouse */
1143547c9757SDavid Woodhouse return do_set_singleshot_timer(cs, sst.timeout_abs_ns, false);
1144b746a779SJoao Martins }
1145b746a779SJoao Martins
vcpuop_stop_singleshot_timer(CPUState * cs)1146b746a779SJoao Martins static int vcpuop_stop_singleshot_timer(CPUState *cs)
1147b746a779SJoao Martins {
1148b746a779SJoao Martins CPUX86State *env = &X86_CPU(cs)->env;
1149b746a779SJoao Martins
1150b746a779SJoao Martins qemu_mutex_lock(&env->xen_timers_lock);
1151b746a779SJoao Martins
1152b746a779SJoao Martins timer_del(env->xen_singleshot_timer);
1153b746a779SJoao Martins env->xen_singleshot_timer_ns = 0;
1154b746a779SJoao Martins
1155b746a779SJoao Martins qemu_mutex_unlock(&env->xen_timers_lock);
1156b746a779SJoao Martins return 0;
1157b746a779SJoao Martins }
1158b746a779SJoao Martins
kvm_xen_hcall_set_timer_op(struct kvm_xen_exit * exit,X86CPU * cpu,uint64_t timeout)1159b746a779SJoao Martins static bool kvm_xen_hcall_set_timer_op(struct kvm_xen_exit *exit, X86CPU *cpu,
1160b746a779SJoao Martins uint64_t timeout)
1161b746a779SJoao Martins {
1162b746a779SJoao Martins int err;
1163b746a779SJoao Martins
1164b746a779SJoao Martins if (unlikely(timeout == 0)) {
1165b746a779SJoao Martins err = vcpuop_stop_singleshot_timer(CPU(cpu));
1166b746a779SJoao Martins } else {
116719c417ecSDavid Woodhouse QEMU_LOCK_GUARD(&X86_CPU(cpu)->env.xen_timers_lock);
1168547c9757SDavid Woodhouse err = do_set_singleshot_timer(CPU(cpu), timeout, true);
1169b746a779SJoao Martins }
1170b746a779SJoao Martins exit->u.hcall.result = err;
1171b746a779SJoao Martins return true;
1172b746a779SJoao Martins }
1173b746a779SJoao Martins
kvm_xen_hcall_vcpu_op(struct kvm_xen_exit * exit,X86CPU * cpu,int cmd,int vcpu_id,uint64_t arg)1174d70bd6a4SJoao Martins static bool kvm_xen_hcall_vcpu_op(struct kvm_xen_exit *exit, X86CPU *cpu,
1175d70bd6a4SJoao Martins int cmd, int vcpu_id, uint64_t arg)
1176d70bd6a4SJoao Martins {
1177c345104cSJoao Martins CPUState *cs = CPU(cpu);
1178b746a779SJoao Martins CPUState *dest = cs->cpu_index == vcpu_id ? cs : qemu_get_cpu(vcpu_id);
1179d70bd6a4SJoao Martins int err;
1180d70bd6a4SJoao Martins
1181b746a779SJoao Martins if (!dest) {
1182b746a779SJoao Martins err = -ENOENT;
1183b746a779SJoao Martins goto out;
1184b746a779SJoao Martins }
1185b746a779SJoao Martins
1186d70bd6a4SJoao Martins switch (cmd) {
11875092db87SJoao Martins case VCPUOP_register_runstate_memory_area:
11885092db87SJoao Martins err = vcpuop_register_runstate_info(cs, dest, arg);
11895092db87SJoao Martins break;
1190f0689302SJoao Martins case VCPUOP_register_vcpu_time_memory_area:
1191f0689302SJoao Martins err = vcpuop_register_vcpu_time_info(cs, dest, arg);
1192f0689302SJoao Martins break;
1193d70bd6a4SJoao Martins case VCPUOP_register_vcpu_info:
1194c345104cSJoao Martins err = vcpuop_register_vcpu_info(cs, dest, arg);
1195d70bd6a4SJoao Martins break;
1196b746a779SJoao Martins case VCPUOP_set_singleshot_timer: {
1197b746a779SJoao Martins if (cs->cpu_index == vcpu_id) {
1198b746a779SJoao Martins err = vcpuop_set_singleshot_timer(dest, arg);
1199b746a779SJoao Martins } else {
1200b746a779SJoao Martins err = -EINVAL;
1201b746a779SJoao Martins }
1202b746a779SJoao Martins break;
1203b746a779SJoao Martins }
1204b746a779SJoao Martins case VCPUOP_stop_singleshot_timer:
1205b746a779SJoao Martins if (cs->cpu_index == vcpu_id) {
1206b746a779SJoao Martins err = vcpuop_stop_singleshot_timer(dest);
1207b746a779SJoao Martins } else {
1208b746a779SJoao Martins err = -EINVAL;
1209b746a779SJoao Martins }
1210b746a779SJoao Martins break;
1211b746a779SJoao Martins case VCPUOP_set_periodic_timer: {
1212b746a779SJoao Martins err = vcpuop_set_periodic_timer(cs, dest, arg);
1213b746a779SJoao Martins break;
1214b746a779SJoao Martins }
1215b746a779SJoao Martins case VCPUOP_stop_periodic_timer:
1216b746a779SJoao Martins err = vcpuop_stop_periodic_timer(dest);
1217b746a779SJoao Martins break;
1218d70bd6a4SJoao Martins
1219d70bd6a4SJoao Martins default:
1220d70bd6a4SJoao Martins return false;
1221d70bd6a4SJoao Martins }
1222d70bd6a4SJoao Martins
1223b746a779SJoao Martins out:
1224d70bd6a4SJoao Martins exit->u.hcall.result = err;
1225d70bd6a4SJoao Martins return true;
1226d70bd6a4SJoao Martins }
1227d70bd6a4SJoao Martins
kvm_xen_hcall_evtchn_op(struct kvm_xen_exit * exit,X86CPU * cpu,int cmd,uint64_t arg)12284858ba20SDavid Woodhouse static bool kvm_xen_hcall_evtchn_op(struct kvm_xen_exit *exit, X86CPU *cpu,
12293b06f29bSJoao Martins int cmd, uint64_t arg)
12303b06f29bSJoao Martins {
12314858ba20SDavid Woodhouse CPUState *cs = CPU(cpu);
12323b06f29bSJoao Martins int err = -ENOSYS;
12333b06f29bSJoao Martins
12343b06f29bSJoao Martins switch (cmd) {
12353b06f29bSJoao Martins case EVTCHNOP_init_control:
12363b06f29bSJoao Martins case EVTCHNOP_expand_array:
12373b06f29bSJoao Martins case EVTCHNOP_set_priority:
12383b06f29bSJoao Martins /* We do not support FIFO channels at this point */
12393b06f29bSJoao Martins err = -ENOSYS;
12403b06f29bSJoao Martins break;
12413b06f29bSJoao Martins
12424858ba20SDavid Woodhouse case EVTCHNOP_status: {
12434858ba20SDavid Woodhouse struct evtchn_status status;
12444858ba20SDavid Woodhouse
12454858ba20SDavid Woodhouse qemu_build_assert(sizeof(status) == 24);
12464858ba20SDavid Woodhouse if (kvm_copy_from_gva(cs, arg, &status, sizeof(status))) {
12474858ba20SDavid Woodhouse err = -EFAULT;
12484858ba20SDavid Woodhouse break;
12494858ba20SDavid Woodhouse }
12504858ba20SDavid Woodhouse
12514858ba20SDavid Woodhouse err = xen_evtchn_status_op(&status);
12524858ba20SDavid Woodhouse if (!err && kvm_copy_to_gva(cs, arg, &status, sizeof(status))) {
12534858ba20SDavid Woodhouse err = -EFAULT;
12544858ba20SDavid Woodhouse }
12554858ba20SDavid Woodhouse break;
12564858ba20SDavid Woodhouse }
125783eb5811SDavid Woodhouse case EVTCHNOP_close: {
125883eb5811SDavid Woodhouse struct evtchn_close close;
125983eb5811SDavid Woodhouse
126083eb5811SDavid Woodhouse qemu_build_assert(sizeof(close) == 4);
126183eb5811SDavid Woodhouse if (kvm_copy_from_gva(cs, arg, &close, sizeof(close))) {
126283eb5811SDavid Woodhouse err = -EFAULT;
126383eb5811SDavid Woodhouse break;
126483eb5811SDavid Woodhouse }
126583eb5811SDavid Woodhouse
126683eb5811SDavid Woodhouse err = xen_evtchn_close_op(&close);
126783eb5811SDavid Woodhouse break;
126883eb5811SDavid Woodhouse }
1269190cc3c0SDavid Woodhouse case EVTCHNOP_unmask: {
1270190cc3c0SDavid Woodhouse struct evtchn_unmask unmask;
1271190cc3c0SDavid Woodhouse
1272190cc3c0SDavid Woodhouse qemu_build_assert(sizeof(unmask) == 4);
1273190cc3c0SDavid Woodhouse if (kvm_copy_from_gva(cs, arg, &unmask, sizeof(unmask))) {
1274190cc3c0SDavid Woodhouse err = -EFAULT;
1275190cc3c0SDavid Woodhouse break;
1276190cc3c0SDavid Woodhouse }
1277190cc3c0SDavid Woodhouse
1278190cc3c0SDavid Woodhouse err = xen_evtchn_unmask_op(&unmask);
1279190cc3c0SDavid Woodhouse break;
1280190cc3c0SDavid Woodhouse }
1281c723d4c1SDavid Woodhouse case EVTCHNOP_bind_virq: {
1282c723d4c1SDavid Woodhouse struct evtchn_bind_virq virq;
1283c723d4c1SDavid Woodhouse
1284c723d4c1SDavid Woodhouse qemu_build_assert(sizeof(virq) == 12);
1285c723d4c1SDavid Woodhouse if (kvm_copy_from_gva(cs, arg, &virq, sizeof(virq))) {
1286c723d4c1SDavid Woodhouse err = -EFAULT;
1287c723d4c1SDavid Woodhouse break;
1288c723d4c1SDavid Woodhouse }
1289c723d4c1SDavid Woodhouse
1290c723d4c1SDavid Woodhouse err = xen_evtchn_bind_virq_op(&virq);
1291c723d4c1SDavid Woodhouse if (!err && kvm_copy_to_gva(cs, arg, &virq, sizeof(virq))) {
1292c723d4c1SDavid Woodhouse err = -EFAULT;
1293c723d4c1SDavid Woodhouse }
1294c723d4c1SDavid Woodhouse break;
1295c723d4c1SDavid Woodhouse }
1296aa98ee38SDavid Woodhouse case EVTCHNOP_bind_pirq: {
1297aa98ee38SDavid Woodhouse struct evtchn_bind_pirq pirq;
1298aa98ee38SDavid Woodhouse
1299aa98ee38SDavid Woodhouse qemu_build_assert(sizeof(pirq) == 12);
1300aa98ee38SDavid Woodhouse if (kvm_copy_from_gva(cs, arg, &pirq, sizeof(pirq))) {
1301aa98ee38SDavid Woodhouse err = -EFAULT;
1302aa98ee38SDavid Woodhouse break;
1303aa98ee38SDavid Woodhouse }
1304aa98ee38SDavid Woodhouse
1305aa98ee38SDavid Woodhouse err = xen_evtchn_bind_pirq_op(&pirq);
1306aa98ee38SDavid Woodhouse if (!err && kvm_copy_to_gva(cs, arg, &pirq, sizeof(pirq))) {
1307aa98ee38SDavid Woodhouse err = -EFAULT;
1308aa98ee38SDavid Woodhouse }
1309aa98ee38SDavid Woodhouse break;
1310aa98ee38SDavid Woodhouse }
1311f5417856SDavid Woodhouse case EVTCHNOP_bind_ipi: {
1312f5417856SDavid Woodhouse struct evtchn_bind_ipi ipi;
1313f5417856SDavid Woodhouse
1314f5417856SDavid Woodhouse qemu_build_assert(sizeof(ipi) == 8);
1315f5417856SDavid Woodhouse if (kvm_copy_from_gva(cs, arg, &ipi, sizeof(ipi))) {
1316f5417856SDavid Woodhouse err = -EFAULT;
1317f5417856SDavid Woodhouse break;
1318f5417856SDavid Woodhouse }
1319f5417856SDavid Woodhouse
1320f5417856SDavid Woodhouse err = xen_evtchn_bind_ipi_op(&ipi);
1321f5417856SDavid Woodhouse if (!err && kvm_copy_to_gva(cs, arg, &ipi, sizeof(ipi))) {
1322f5417856SDavid Woodhouse err = -EFAULT;
1323f5417856SDavid Woodhouse }
1324f5417856SDavid Woodhouse break;
1325f5417856SDavid Woodhouse }
1326cf7679abSDavid Woodhouse case EVTCHNOP_send: {
1327cf7679abSDavid Woodhouse struct evtchn_send send;
1328cf7679abSDavid Woodhouse
1329cf7679abSDavid Woodhouse qemu_build_assert(sizeof(send) == 4);
1330cf7679abSDavid Woodhouse if (kvm_copy_from_gva(cs, arg, &send, sizeof(send))) {
1331cf7679abSDavid Woodhouse err = -EFAULT;
1332cf7679abSDavid Woodhouse break;
1333cf7679abSDavid Woodhouse }
1334cf7679abSDavid Woodhouse
1335cf7679abSDavid Woodhouse err = xen_evtchn_send_op(&send);
1336cf7679abSDavid Woodhouse break;
1337cf7679abSDavid Woodhouse }
1338e1db61b8SDavid Woodhouse case EVTCHNOP_alloc_unbound: {
1339e1db61b8SDavid Woodhouse struct evtchn_alloc_unbound alloc;
1340e1db61b8SDavid Woodhouse
1341e1db61b8SDavid Woodhouse qemu_build_assert(sizeof(alloc) == 8);
1342e1db61b8SDavid Woodhouse if (kvm_copy_from_gva(cs, arg, &alloc, sizeof(alloc))) {
1343e1db61b8SDavid Woodhouse err = -EFAULT;
1344e1db61b8SDavid Woodhouse break;
1345e1db61b8SDavid Woodhouse }
1346e1db61b8SDavid Woodhouse
1347e1db61b8SDavid Woodhouse err = xen_evtchn_alloc_unbound_op(&alloc);
1348e1db61b8SDavid Woodhouse if (!err && kvm_copy_to_gva(cs, arg, &alloc, sizeof(alloc))) {
1349e1db61b8SDavid Woodhouse err = -EFAULT;
1350e1db61b8SDavid Woodhouse }
1351e1db61b8SDavid Woodhouse break;
1352e1db61b8SDavid Woodhouse }
135384327881SDavid Woodhouse case EVTCHNOP_bind_interdomain: {
135484327881SDavid Woodhouse struct evtchn_bind_interdomain interdomain;
135584327881SDavid Woodhouse
135684327881SDavid Woodhouse qemu_build_assert(sizeof(interdomain) == 12);
135784327881SDavid Woodhouse if (kvm_copy_from_gva(cs, arg, &interdomain, sizeof(interdomain))) {
135884327881SDavid Woodhouse err = -EFAULT;
135984327881SDavid Woodhouse break;
136084327881SDavid Woodhouse }
136184327881SDavid Woodhouse
136284327881SDavid Woodhouse err = xen_evtchn_bind_interdomain_op(&interdomain);
136384327881SDavid Woodhouse if (!err &&
136484327881SDavid Woodhouse kvm_copy_to_gva(cs, arg, &interdomain, sizeof(interdomain))) {
136584327881SDavid Woodhouse err = -EFAULT;
136684327881SDavid Woodhouse }
136784327881SDavid Woodhouse break;
136884327881SDavid Woodhouse }
136930667046SDavid Woodhouse case EVTCHNOP_bind_vcpu: {
137030667046SDavid Woodhouse struct evtchn_bind_vcpu vcpu;
137130667046SDavid Woodhouse
137230667046SDavid Woodhouse qemu_build_assert(sizeof(vcpu) == 8);
137330667046SDavid Woodhouse if (kvm_copy_from_gva(cs, arg, &vcpu, sizeof(vcpu))) {
137430667046SDavid Woodhouse err = -EFAULT;
137530667046SDavid Woodhouse break;
137630667046SDavid Woodhouse }
137730667046SDavid Woodhouse
137830667046SDavid Woodhouse err = xen_evtchn_bind_vcpu_op(&vcpu);
137930667046SDavid Woodhouse break;
138030667046SDavid Woodhouse }
1381a15b1097SDavid Woodhouse case EVTCHNOP_reset: {
1382a15b1097SDavid Woodhouse struct evtchn_reset reset;
1383a15b1097SDavid Woodhouse
1384a15b1097SDavid Woodhouse qemu_build_assert(sizeof(reset) == 2);
1385a15b1097SDavid Woodhouse if (kvm_copy_from_gva(cs, arg, &reset, sizeof(reset))) {
1386a15b1097SDavid Woodhouse err = -EFAULT;
1387a15b1097SDavid Woodhouse break;
1388a15b1097SDavid Woodhouse }
1389a15b1097SDavid Woodhouse
1390a15b1097SDavid Woodhouse err = xen_evtchn_reset_op(&reset);
1391a15b1097SDavid Woodhouse break;
1392a15b1097SDavid Woodhouse }
13933b06f29bSJoao Martins default:
13943b06f29bSJoao Martins return false;
13953b06f29bSJoao Martins }
13963b06f29bSJoao Martins
13973b06f29bSJoao Martins exit->u.hcall.result = err;
13983b06f29bSJoao Martins return true;
13993b06f29bSJoao Martins }
14003b06f29bSJoao Martins
kvm_xen_soft_reset(void)140179b7067dSJoao Martins int kvm_xen_soft_reset(void)
140279b7067dSJoao Martins {
1403c345104cSJoao Martins CPUState *cpu;
1404fb0fd2ceSJoao Martins int err;
1405fb0fd2ceSJoao Martins
1406195801d7SStefan Hajnoczi assert(bql_locked());
140779b7067dSJoao Martins
140879b7067dSJoao Martins trace_kvm_xen_soft_reset();
140979b7067dSJoao Martins
1410a15b1097SDavid Woodhouse err = xen_evtchn_soft_reset();
1411a15b1097SDavid Woodhouse if (err) {
1412a15b1097SDavid Woodhouse return err;
1413a15b1097SDavid Woodhouse }
1414a15b1097SDavid Woodhouse
141591cce756SDavid Woodhouse /*
141691cce756SDavid Woodhouse * Zero is the reset/startup state for HVM_PARAM_CALLBACK_IRQ. Strictly,
141791cce756SDavid Woodhouse * it maps to HVM_PARAM_CALLBACK_TYPE_GSI with GSI#0, but Xen refuses to
141891cce756SDavid Woodhouse * to deliver to the timer interrupt and treats that as 'disabled'.
141991cce756SDavid Woodhouse */
142091cce756SDavid Woodhouse err = xen_evtchn_set_callback_param(0);
142191cce756SDavid Woodhouse if (err) {
142291cce756SDavid Woodhouse return err;
142391cce756SDavid Woodhouse }
142491cce756SDavid Woodhouse
1425c345104cSJoao Martins CPU_FOREACH(cpu) {
1426c345104cSJoao Martins async_run_on_cpu(cpu, do_vcpu_soft_reset, RUN_ON_CPU_NULL);
1427c345104cSJoao Martins }
1428c345104cSJoao Martins
1429fb0fd2ceSJoao Martins err = xen_overlay_map_shinfo_page(INVALID_GFN);
1430fb0fd2ceSJoao Martins if (err) {
1431fb0fd2ceSJoao Martins return err;
1432fb0fd2ceSJoao Martins }
1433fb0fd2ceSJoao Martins
1434de26b261SDavid Woodhouse err = xen_gnttab_reset();
1435de26b261SDavid Woodhouse if (err) {
1436de26b261SDavid Woodhouse return err;
1437de26b261SDavid Woodhouse }
1438de26b261SDavid Woodhouse
1439a72ccc7fSDavid Woodhouse err = xen_primary_console_reset();
1440a72ccc7fSDavid Woodhouse if (err) {
1441a72ccc7fSDavid Woodhouse return err;
1442a72ccc7fSDavid Woodhouse }
1443a72ccc7fSDavid Woodhouse
1444c08f5d0eSDavid Woodhouse err = xen_xenstore_reset();
1445c08f5d0eSDavid Woodhouse if (err) {
1446c08f5d0eSDavid Woodhouse return err;
1447c08f5d0eSDavid Woodhouse }
1448c08f5d0eSDavid Woodhouse
144979b7067dSJoao Martins return 0;
145079b7067dSJoao Martins }
145179b7067dSJoao Martins
schedop_shutdown(CPUState * cs,uint64_t arg)145279b7067dSJoao Martins static int schedop_shutdown(CPUState *cs, uint64_t arg)
145379b7067dSJoao Martins {
145479b7067dSJoao Martins struct sched_shutdown shutdown;
145579b7067dSJoao Martins int ret = 0;
145679b7067dSJoao Martins
145779b7067dSJoao Martins /* No need for 32/64 compat handling */
145879b7067dSJoao Martins qemu_build_assert(sizeof(shutdown) == 4);
145979b7067dSJoao Martins
146079b7067dSJoao Martins if (kvm_copy_from_gva(cs, arg, &shutdown, sizeof(shutdown))) {
146179b7067dSJoao Martins return -EFAULT;
146279b7067dSJoao Martins }
146379b7067dSJoao Martins
146479b7067dSJoao Martins switch (shutdown.reason) {
146579b7067dSJoao Martins case SHUTDOWN_crash:
146679b7067dSJoao Martins cpu_dump_state(cs, stderr, CPU_DUMP_CODE);
146779b7067dSJoao Martins qemu_system_guest_panicked(NULL);
146879b7067dSJoao Martins break;
146979b7067dSJoao Martins
147079b7067dSJoao Martins case SHUTDOWN_reboot:
147179b7067dSJoao Martins qemu_system_reset_request(SHUTDOWN_CAUSE_GUEST_RESET);
147279b7067dSJoao Martins break;
147379b7067dSJoao Martins
147479b7067dSJoao Martins case SHUTDOWN_poweroff:
147579b7067dSJoao Martins qemu_system_shutdown_request(SHUTDOWN_CAUSE_GUEST_SHUTDOWN);
147679b7067dSJoao Martins break;
147779b7067dSJoao Martins
147879b7067dSJoao Martins case SHUTDOWN_soft_reset:
1479195801d7SStefan Hajnoczi bql_lock();
148079b7067dSJoao Martins ret = kvm_xen_soft_reset();
1481195801d7SStefan Hajnoczi bql_unlock();
148279b7067dSJoao Martins break;
148379b7067dSJoao Martins
148479b7067dSJoao Martins default:
148579b7067dSJoao Martins ret = -EINVAL;
148679b7067dSJoao Martins break;
148779b7067dSJoao Martins }
148879b7067dSJoao Martins
148979b7067dSJoao Martins return ret;
149079b7067dSJoao Martins }
149179b7067dSJoao Martins
kvm_xen_hcall_sched_op(struct kvm_xen_exit * exit,X86CPU * cpu,int cmd,uint64_t arg)149279b7067dSJoao Martins static bool kvm_xen_hcall_sched_op(struct kvm_xen_exit *exit, X86CPU *cpu,
149379b7067dSJoao Martins int cmd, uint64_t arg)
149479b7067dSJoao Martins {
149579b7067dSJoao Martins CPUState *cs = CPU(cpu);
149679b7067dSJoao Martins int err = -ENOSYS;
149779b7067dSJoao Martins
149879b7067dSJoao Martins switch (cmd) {
149979b7067dSJoao Martins case SCHEDOP_shutdown:
150079b7067dSJoao Martins err = schedop_shutdown(cs, arg);
150179b7067dSJoao Martins break;
150279b7067dSJoao Martins
1503c789b9efSDavid Woodhouse case SCHEDOP_poll:
1504c789b9efSDavid Woodhouse /*
1505c789b9efSDavid Woodhouse * Linux will panic if this doesn't work. Just yield; it's not
1506c789b9efSDavid Woodhouse * worth overthinking it because with event channel handling
1507c789b9efSDavid Woodhouse * in KVM, the kernel will intercept this and it will never
1508c789b9efSDavid Woodhouse * reach QEMU anyway. The semantics of the hypercall explicltly
1509c789b9efSDavid Woodhouse * permit spurious wakeups.
1510c789b9efSDavid Woodhouse */
1511c789b9efSDavid Woodhouse case SCHEDOP_yield:
1512c789b9efSDavid Woodhouse sched_yield();
1513c789b9efSDavid Woodhouse err = 0;
1514c789b9efSDavid Woodhouse break;
1515c789b9efSDavid Woodhouse
151679b7067dSJoao Martins default:
151779b7067dSJoao Martins return false;
151879b7067dSJoao Martins }
151979b7067dSJoao Martins
152079b7067dSJoao Martins exit->u.hcall.result = err;
152179b7067dSJoao Martins return true;
152279b7067dSJoao Martins }
152379b7067dSJoao Martins
kvm_xen_hcall_gnttab_op(struct kvm_xen_exit * exit,X86CPU * cpu,int cmd,uint64_t arg,int count)152428b7ae94SDavid Woodhouse static bool kvm_xen_hcall_gnttab_op(struct kvm_xen_exit *exit, X86CPU *cpu,
152528b7ae94SDavid Woodhouse int cmd, uint64_t arg, int count)
152628b7ae94SDavid Woodhouse {
152728b7ae94SDavid Woodhouse CPUState *cs = CPU(cpu);
152828b7ae94SDavid Woodhouse int err;
152928b7ae94SDavid Woodhouse
153028b7ae94SDavid Woodhouse switch (cmd) {
153128b7ae94SDavid Woodhouse case GNTTABOP_set_version: {
153228b7ae94SDavid Woodhouse struct gnttab_set_version set;
153328b7ae94SDavid Woodhouse
153428b7ae94SDavid Woodhouse qemu_build_assert(sizeof(set) == 4);
153528b7ae94SDavid Woodhouse if (kvm_copy_from_gva(cs, arg, &set, sizeof(set))) {
153628b7ae94SDavid Woodhouse err = -EFAULT;
153728b7ae94SDavid Woodhouse break;
153828b7ae94SDavid Woodhouse }
153928b7ae94SDavid Woodhouse
154028b7ae94SDavid Woodhouse err = xen_gnttab_set_version_op(&set);
154128b7ae94SDavid Woodhouse if (!err && kvm_copy_to_gva(cs, arg, &set, sizeof(set))) {
154228b7ae94SDavid Woodhouse err = -EFAULT;
154328b7ae94SDavid Woodhouse }
154428b7ae94SDavid Woodhouse break;
154528b7ae94SDavid Woodhouse }
154628b7ae94SDavid Woodhouse case GNTTABOP_get_version: {
154728b7ae94SDavid Woodhouse struct gnttab_get_version get;
154828b7ae94SDavid Woodhouse
154928b7ae94SDavid Woodhouse qemu_build_assert(sizeof(get) == 8);
155028b7ae94SDavid Woodhouse if (kvm_copy_from_gva(cs, arg, &get, sizeof(get))) {
155128b7ae94SDavid Woodhouse err = -EFAULT;
155228b7ae94SDavid Woodhouse break;
155328b7ae94SDavid Woodhouse }
155428b7ae94SDavid Woodhouse
155528b7ae94SDavid Woodhouse err = xen_gnttab_get_version_op(&get);
155628b7ae94SDavid Woodhouse if (!err && kvm_copy_to_gva(cs, arg, &get, sizeof(get))) {
155728b7ae94SDavid Woodhouse err = -EFAULT;
155828b7ae94SDavid Woodhouse }
155928b7ae94SDavid Woodhouse break;
156028b7ae94SDavid Woodhouse }
1561b46f9745SDavid Woodhouse case GNTTABOP_query_size: {
1562b46f9745SDavid Woodhouse struct gnttab_query_size size;
1563b46f9745SDavid Woodhouse
1564b46f9745SDavid Woodhouse qemu_build_assert(sizeof(size) == 16);
1565b46f9745SDavid Woodhouse if (kvm_copy_from_gva(cs, arg, &size, sizeof(size))) {
1566b46f9745SDavid Woodhouse err = -EFAULT;
1567b46f9745SDavid Woodhouse break;
1568b46f9745SDavid Woodhouse }
1569b46f9745SDavid Woodhouse
1570b46f9745SDavid Woodhouse err = xen_gnttab_query_size_op(&size);
1571b46f9745SDavid Woodhouse if (!err && kvm_copy_to_gva(cs, arg, &size, sizeof(size))) {
1572b46f9745SDavid Woodhouse err = -EFAULT;
1573b46f9745SDavid Woodhouse }
1574b46f9745SDavid Woodhouse break;
1575b46f9745SDavid Woodhouse }
157628b7ae94SDavid Woodhouse case GNTTABOP_setup_table:
157728b7ae94SDavid Woodhouse case GNTTABOP_copy:
157828b7ae94SDavid Woodhouse case GNTTABOP_map_grant_ref:
157928b7ae94SDavid Woodhouse case GNTTABOP_unmap_grant_ref:
158028b7ae94SDavid Woodhouse case GNTTABOP_swap_grant_ref:
158128b7ae94SDavid Woodhouse return false;
158228b7ae94SDavid Woodhouse
158328b7ae94SDavid Woodhouse default:
158428b7ae94SDavid Woodhouse /* Xen explicitly returns -ENOSYS to HVM guests for all others */
158528b7ae94SDavid Woodhouse err = -ENOSYS;
158628b7ae94SDavid Woodhouse break;
158728b7ae94SDavid Woodhouse }
158828b7ae94SDavid Woodhouse
158928b7ae94SDavid Woodhouse exit->u.hcall.result = err;
159028b7ae94SDavid Woodhouse return true;
159128b7ae94SDavid Woodhouse }
159228b7ae94SDavid Woodhouse
kvm_xen_hcall_physdev_op(struct kvm_xen_exit * exit,X86CPU * cpu,int cmd,uint64_t arg)1593799c2354SDavid Woodhouse static bool kvm_xen_hcall_physdev_op(struct kvm_xen_exit *exit, X86CPU *cpu,
1594799c2354SDavid Woodhouse int cmd, uint64_t arg)
1595799c2354SDavid Woodhouse {
1596799c2354SDavid Woodhouse CPUState *cs = CPU(cpu);
1597799c2354SDavid Woodhouse int err;
1598799c2354SDavid Woodhouse
1599799c2354SDavid Woodhouse switch (cmd) {
1600799c2354SDavid Woodhouse case PHYSDEVOP_map_pirq: {
1601799c2354SDavid Woodhouse struct physdev_map_pirq map;
1602799c2354SDavid Woodhouse
1603799c2354SDavid Woodhouse if (hypercall_compat32(exit->u.hcall.longmode)) {
1604799c2354SDavid Woodhouse struct compat_physdev_map_pirq *map32 = (void *)↦
1605799c2354SDavid Woodhouse
1606799c2354SDavid Woodhouse if (kvm_copy_from_gva(cs, arg, map32, sizeof(*map32))) {
1607799c2354SDavid Woodhouse return -EFAULT;
1608799c2354SDavid Woodhouse }
1609799c2354SDavid Woodhouse
1610799c2354SDavid Woodhouse /*
1611799c2354SDavid Woodhouse * The only thing that's different is the alignment of the
1612799c2354SDavid Woodhouse * uint64_t table_base at the end, which gets padding to make
1613799c2354SDavid Woodhouse * it 64-bit aligned in the 64-bit version.
1614799c2354SDavid Woodhouse */
1615799c2354SDavid Woodhouse qemu_build_assert(sizeof(*map32) == 36);
1616799c2354SDavid Woodhouse qemu_build_assert(offsetof(struct physdev_map_pirq, entry_nr) ==
1617799c2354SDavid Woodhouse offsetof(struct compat_physdev_map_pirq, entry_nr));
1618799c2354SDavid Woodhouse memmove(&map.table_base, &map32->table_base, sizeof(map.table_base));
1619799c2354SDavid Woodhouse } else {
1620799c2354SDavid Woodhouse if (kvm_copy_from_gva(cs, arg, &map, sizeof(map))) {
1621799c2354SDavid Woodhouse err = -EFAULT;
1622799c2354SDavid Woodhouse break;
1623799c2354SDavid Woodhouse }
1624799c2354SDavid Woodhouse }
1625799c2354SDavid Woodhouse err = xen_physdev_map_pirq(&map);
1626799c2354SDavid Woodhouse /*
1627799c2354SDavid Woodhouse * Since table_base is an IN parameter and won't be changed, just
1628799c2354SDavid Woodhouse * copy the size of the compat structure back to the guest.
1629799c2354SDavid Woodhouse */
1630799c2354SDavid Woodhouse if (!err && kvm_copy_to_gva(cs, arg, &map,
1631799c2354SDavid Woodhouse sizeof(struct compat_physdev_map_pirq))) {
1632799c2354SDavid Woodhouse err = -EFAULT;
1633799c2354SDavid Woodhouse }
1634799c2354SDavid Woodhouse break;
1635799c2354SDavid Woodhouse }
1636799c2354SDavid Woodhouse case PHYSDEVOP_unmap_pirq: {
1637799c2354SDavid Woodhouse struct physdev_unmap_pirq unmap;
1638799c2354SDavid Woodhouse
1639799c2354SDavid Woodhouse qemu_build_assert(sizeof(unmap) == 8);
1640799c2354SDavid Woodhouse if (kvm_copy_from_gva(cs, arg, &unmap, sizeof(unmap))) {
1641799c2354SDavid Woodhouse err = -EFAULT;
1642799c2354SDavid Woodhouse break;
1643799c2354SDavid Woodhouse }
1644799c2354SDavid Woodhouse
1645799c2354SDavid Woodhouse err = xen_physdev_unmap_pirq(&unmap);
1646799c2354SDavid Woodhouse if (!err && kvm_copy_to_gva(cs, arg, &unmap, sizeof(unmap))) {
1647799c2354SDavid Woodhouse err = -EFAULT;
1648799c2354SDavid Woodhouse }
1649799c2354SDavid Woodhouse break;
1650799c2354SDavid Woodhouse }
1651799c2354SDavid Woodhouse case PHYSDEVOP_eoi: {
1652799c2354SDavid Woodhouse struct physdev_eoi eoi;
1653799c2354SDavid Woodhouse
1654799c2354SDavid Woodhouse qemu_build_assert(sizeof(eoi) == 4);
1655799c2354SDavid Woodhouse if (kvm_copy_from_gva(cs, arg, &eoi, sizeof(eoi))) {
1656799c2354SDavid Woodhouse err = -EFAULT;
1657799c2354SDavid Woodhouse break;
1658799c2354SDavid Woodhouse }
1659799c2354SDavid Woodhouse
1660799c2354SDavid Woodhouse err = xen_physdev_eoi_pirq(&eoi);
1661799c2354SDavid Woodhouse if (!err && kvm_copy_to_gva(cs, arg, &eoi, sizeof(eoi))) {
1662799c2354SDavid Woodhouse err = -EFAULT;
1663799c2354SDavid Woodhouse }
1664799c2354SDavid Woodhouse break;
1665799c2354SDavid Woodhouse }
1666799c2354SDavid Woodhouse case PHYSDEVOP_irq_status_query: {
1667799c2354SDavid Woodhouse struct physdev_irq_status_query query;
1668799c2354SDavid Woodhouse
1669799c2354SDavid Woodhouse qemu_build_assert(sizeof(query) == 8);
1670799c2354SDavid Woodhouse if (kvm_copy_from_gva(cs, arg, &query, sizeof(query))) {
1671799c2354SDavid Woodhouse err = -EFAULT;
1672799c2354SDavid Woodhouse break;
1673799c2354SDavid Woodhouse }
1674799c2354SDavid Woodhouse
1675799c2354SDavid Woodhouse err = xen_physdev_query_pirq(&query);
1676799c2354SDavid Woodhouse if (!err && kvm_copy_to_gva(cs, arg, &query, sizeof(query))) {
1677799c2354SDavid Woodhouse err = -EFAULT;
1678799c2354SDavid Woodhouse }
1679799c2354SDavid Woodhouse break;
1680799c2354SDavid Woodhouse }
1681799c2354SDavid Woodhouse case PHYSDEVOP_get_free_pirq: {
1682799c2354SDavid Woodhouse struct physdev_get_free_pirq get;
1683799c2354SDavid Woodhouse
1684799c2354SDavid Woodhouse qemu_build_assert(sizeof(get) == 8);
1685799c2354SDavid Woodhouse if (kvm_copy_from_gva(cs, arg, &get, sizeof(get))) {
1686799c2354SDavid Woodhouse err = -EFAULT;
1687799c2354SDavid Woodhouse break;
1688799c2354SDavid Woodhouse }
1689799c2354SDavid Woodhouse
1690799c2354SDavid Woodhouse err = xen_physdev_get_free_pirq(&get);
1691799c2354SDavid Woodhouse if (!err && kvm_copy_to_gva(cs, arg, &get, sizeof(get))) {
1692799c2354SDavid Woodhouse err = -EFAULT;
1693799c2354SDavid Woodhouse }
1694799c2354SDavid Woodhouse break;
1695799c2354SDavid Woodhouse }
1696799c2354SDavid Woodhouse case PHYSDEVOP_pirq_eoi_gmfn_v2: /* FreeBSD 13 makes this hypercall */
1697799c2354SDavid Woodhouse err = -ENOSYS;
1698799c2354SDavid Woodhouse break;
1699799c2354SDavid Woodhouse
1700799c2354SDavid Woodhouse default:
1701799c2354SDavid Woodhouse return false;
1702799c2354SDavid Woodhouse }
1703799c2354SDavid Woodhouse
1704799c2354SDavid Woodhouse exit->u.hcall.result = err;
1705799c2354SDavid Woodhouse return true;
1706799c2354SDavid Woodhouse }
1707799c2354SDavid Woodhouse
do_kvm_xen_handle_exit(X86CPU * cpu,struct kvm_xen_exit * exit)170855a3f666SJoao Martins static bool do_kvm_xen_handle_exit(X86CPU *cpu, struct kvm_xen_exit *exit)
170955a3f666SJoao Martins {
171055a3f666SJoao Martins uint16_t code = exit->u.hcall.input;
171155a3f666SJoao Martins
171255a3f666SJoao Martins if (exit->u.hcall.cpl > 0) {
171355a3f666SJoao Martins exit->u.hcall.result = -EPERM;
171455a3f666SJoao Martins return true;
171555a3f666SJoao Martins }
171655a3f666SJoao Martins
171755a3f666SJoao Martins switch (code) {
1718b746a779SJoao Martins case __HYPERVISOR_set_timer_op:
1719b746a779SJoao Martins if (exit->u.hcall.longmode) {
1720b746a779SJoao Martins return kvm_xen_hcall_set_timer_op(exit, cpu,
1721b746a779SJoao Martins exit->u.hcall.params[0]);
1722b746a779SJoao Martins } else {
1723b746a779SJoao Martins /* In 32-bit mode, the 64-bit timer value is in two args. */
1724b746a779SJoao Martins uint64_t val = ((uint64_t)exit->u.hcall.params[1]) << 32 |
1725b746a779SJoao Martins (uint32_t)exit->u.hcall.params[0];
1726b746a779SJoao Martins return kvm_xen_hcall_set_timer_op(exit, cpu, val);
1727b746a779SJoao Martins }
172828b7ae94SDavid Woodhouse case __HYPERVISOR_grant_table_op:
172928b7ae94SDavid Woodhouse return kvm_xen_hcall_gnttab_op(exit, cpu, exit->u.hcall.params[0],
173028b7ae94SDavid Woodhouse exit->u.hcall.params[1],
173128b7ae94SDavid Woodhouse exit->u.hcall.params[2]);
173279b7067dSJoao Martins case __HYPERVISOR_sched_op:
173379b7067dSJoao Martins return kvm_xen_hcall_sched_op(exit, cpu, exit->u.hcall.params[0],
173479b7067dSJoao Martins exit->u.hcall.params[1]);
17353b06f29bSJoao Martins case __HYPERVISOR_event_channel_op:
17364858ba20SDavid Woodhouse return kvm_xen_hcall_evtchn_op(exit, cpu, exit->u.hcall.params[0],
17373b06f29bSJoao Martins exit->u.hcall.params[1]);
1738d70bd6a4SJoao Martins case __HYPERVISOR_vcpu_op:
1739d70bd6a4SJoao Martins return kvm_xen_hcall_vcpu_op(exit, cpu,
1740d70bd6a4SJoao Martins exit->u.hcall.params[0],
1741d70bd6a4SJoao Martins exit->u.hcall.params[1],
1742d70bd6a4SJoao Martins exit->u.hcall.params[2]);
1743671bfdcdSJoao Martins case __HYPERVISOR_hvm_op:
1744671bfdcdSJoao Martins return kvm_xen_hcall_hvm_op(exit, cpu, exit->u.hcall.params[0],
1745671bfdcdSJoao Martins exit->u.hcall.params[1]);
1746fb0fd2ceSJoao Martins case __HYPERVISOR_memory_op:
1747fb0fd2ceSJoao Martins return kvm_xen_hcall_memory_op(exit, cpu, exit->u.hcall.params[0],
1748fb0fd2ceSJoao Martins exit->u.hcall.params[1]);
1749799c2354SDavid Woodhouse case __HYPERVISOR_physdev_op:
1750799c2354SDavid Woodhouse return kvm_xen_hcall_physdev_op(exit, cpu, exit->u.hcall.params[0],
1751799c2354SDavid Woodhouse exit->u.hcall.params[1]);
1752bedcc139SJoao Martins case __HYPERVISOR_xen_version:
1753bedcc139SJoao Martins return kvm_xen_hcall_xen_version(exit, cpu, exit->u.hcall.params[0],
1754bedcc139SJoao Martins exit->u.hcall.params[1]);
175555a3f666SJoao Martins default:
175655a3f666SJoao Martins return false;
175755a3f666SJoao Martins }
175855a3f666SJoao Martins }
175955a3f666SJoao Martins
kvm_xen_handle_exit(X86CPU * cpu,struct kvm_xen_exit * exit)176055a3f666SJoao Martins int kvm_xen_handle_exit(X86CPU *cpu, struct kvm_xen_exit *exit)
176155a3f666SJoao Martins {
176255a3f666SJoao Martins if (exit->type != KVM_EXIT_XEN_HCALL) {
176355a3f666SJoao Martins return -1;
176455a3f666SJoao Martins }
176555a3f666SJoao Martins
1766110a0ea5SDavid Woodhouse /*
1767110a0ea5SDavid Woodhouse * The kernel latches the guest 32/64 mode when the MSR is used to fill
1768110a0ea5SDavid Woodhouse * the hypercall page. So if we see a hypercall in a mode that doesn't
1769110a0ea5SDavid Woodhouse * match our own idea of the guest mode, fetch the kernel's idea of the
1770110a0ea5SDavid Woodhouse * "long mode" to remain in sync.
1771110a0ea5SDavid Woodhouse */
1772110a0ea5SDavid Woodhouse if (exit->u.hcall.longmode != xen_is_long_mode()) {
1773110a0ea5SDavid Woodhouse xen_sync_long_mode();
1774110a0ea5SDavid Woodhouse }
1775110a0ea5SDavid Woodhouse
177655a3f666SJoao Martins if (!do_kvm_xen_handle_exit(cpu, exit)) {
177755a3f666SJoao Martins /*
177855a3f666SJoao Martins * Some hypercalls will be deliberately "implemented" by returning
177955a3f666SJoao Martins * -ENOSYS. This case is for hypercalls which are unexpected.
178055a3f666SJoao Martins */
178155a3f666SJoao Martins exit->u.hcall.result = -ENOSYS;
178255a3f666SJoao Martins qemu_log_mask(LOG_UNIMP, "Unimplemented Xen hypercall %"
178355a3f666SJoao Martins PRId64 " (0x%" PRIx64 " 0x%" PRIx64 " 0x%" PRIx64 ")\n",
178455a3f666SJoao Martins (uint64_t)exit->u.hcall.input,
178555a3f666SJoao Martins (uint64_t)exit->u.hcall.params[0],
178655a3f666SJoao Martins (uint64_t)exit->u.hcall.params[1],
178755a3f666SJoao Martins (uint64_t)exit->u.hcall.params[2]);
178855a3f666SJoao Martins }
178955a3f666SJoao Martins
179055a3f666SJoao Martins trace_kvm_xen_hypercall(CPU(cpu)->cpu_index, exit->u.hcall.cpl,
179155a3f666SJoao Martins exit->u.hcall.input, exit->u.hcall.params[0],
179255a3f666SJoao Martins exit->u.hcall.params[1], exit->u.hcall.params[2],
179355a3f666SJoao Martins exit->u.hcall.result);
179455a3f666SJoao Martins return 0;
179555a3f666SJoao Martins }
1796c345104cSJoao Martins
kvm_xen_get_gnttab_max_frames(void)17976f43f2eeSDavid Woodhouse uint16_t kvm_xen_get_gnttab_max_frames(void)
17986f43f2eeSDavid Woodhouse {
17996f43f2eeSDavid Woodhouse KVMState *s = KVM_STATE(current_accel());
18006f43f2eeSDavid Woodhouse return s->xen_gnttab_max_frames;
18016f43f2eeSDavid Woodhouse }
18026f43f2eeSDavid Woodhouse
kvm_xen_get_evtchn_max_pirq(void)1803e16aff4cSDavid Woodhouse uint16_t kvm_xen_get_evtchn_max_pirq(void)
1804e16aff4cSDavid Woodhouse {
1805e16aff4cSDavid Woodhouse KVMState *s = KVM_STATE(current_accel());
1806e16aff4cSDavid Woodhouse return s->xen_evtchn_max_pirq;
1807e16aff4cSDavid Woodhouse }
1808e16aff4cSDavid Woodhouse
kvm_put_xen_state(CPUState * cs)1809c345104cSJoao Martins int kvm_put_xen_state(CPUState *cs)
1810c345104cSJoao Martins {
1811c345104cSJoao Martins X86CPU *cpu = X86_CPU(cs);
1812c345104cSJoao Martins CPUX86State *env = &cpu->env;
1813c345104cSJoao Martins uint64_t gpa;
1814c345104cSJoao Martins int ret;
1815c345104cSJoao Martins
1816c345104cSJoao Martins gpa = env->xen_vcpu_info_gpa;
1817c345104cSJoao Martins if (gpa == INVALID_GPA) {
1818c345104cSJoao Martins gpa = env->xen_vcpu_info_default_gpa;
1819c345104cSJoao Martins }
1820c345104cSJoao Martins
1821c345104cSJoao Martins if (gpa != INVALID_GPA) {
182227d4075dSDavid Woodhouse ret = set_vcpu_info(cs, gpa);
1823c345104cSJoao Martins if (ret < 0) {
1824c345104cSJoao Martins return ret;
1825c345104cSJoao Martins }
1826c345104cSJoao Martins }
1827c345104cSJoao Martins
1828f0689302SJoao Martins gpa = env->xen_vcpu_time_info_gpa;
1829f0689302SJoao Martins if (gpa != INVALID_GPA) {
1830f0689302SJoao Martins ret = kvm_xen_set_vcpu_attr(cs, KVM_XEN_VCPU_ATTR_TYPE_VCPU_TIME_INFO,
1831f0689302SJoao Martins gpa);
1832f0689302SJoao Martins if (ret < 0) {
1833f0689302SJoao Martins return ret;
1834f0689302SJoao Martins }
1835f0689302SJoao Martins }
1836f0689302SJoao Martins
18375092db87SJoao Martins gpa = env->xen_vcpu_runstate_gpa;
18385092db87SJoao Martins if (gpa != INVALID_GPA) {
18395092db87SJoao Martins ret = kvm_xen_set_vcpu_attr(cs, KVM_XEN_VCPU_ATTR_TYPE_RUNSTATE_ADDR,
18405092db87SJoao Martins gpa);
18415092db87SJoao Martins if (ret < 0) {
18425092db87SJoao Martins return ret;
18435092db87SJoao Martins }
18445092db87SJoao Martins }
18455092db87SJoao Martins
1846b746a779SJoao Martins if (env->xen_periodic_timer_period) {
1847b746a779SJoao Martins ret = do_set_periodic_timer(cs, env->xen_periodic_timer_period);
1848b746a779SJoao Martins if (ret < 0) {
1849b746a779SJoao Martins return ret;
1850b746a779SJoao Martins }
1851b746a779SJoao Martins }
1852b746a779SJoao Martins
1853105b47fdSAnkur Arora if (!kvm_xen_has_cap(EVTCHN_SEND)) {
1854b746a779SJoao Martins /*
1855b746a779SJoao Martins * If the kernel has EVTCHN_SEND support then it handles timers too,
1856b746a779SJoao Martins * so the timer will be restored by kvm_xen_set_vcpu_timer() below.
1857b746a779SJoao Martins */
185819c417ecSDavid Woodhouse QEMU_LOCK_GUARD(&env->xen_timers_lock);
1859b746a779SJoao Martins if (env->xen_singleshot_timer_ns) {
1860b746a779SJoao Martins ret = do_set_singleshot_timer(cs, env->xen_singleshot_timer_ns,
1861547c9757SDavid Woodhouse false);
1862b746a779SJoao Martins if (ret < 0) {
1863b746a779SJoao Martins return ret;
1864b746a779SJoao Martins }
1865b746a779SJoao Martins }
1866105b47fdSAnkur Arora return 0;
1867105b47fdSAnkur Arora }
1868105b47fdSAnkur Arora
1869105b47fdSAnkur Arora if (env->xen_vcpu_callback_vector) {
1870105b47fdSAnkur Arora ret = kvm_xen_set_vcpu_callback_vector(cs);
1871105b47fdSAnkur Arora if (ret < 0) {
1872105b47fdSAnkur Arora return ret;
1873105b47fdSAnkur Arora }
1874105b47fdSAnkur Arora }
1875105b47fdSAnkur Arora
1876c723d4c1SDavid Woodhouse if (env->xen_virq[VIRQ_TIMER]) {
187719c417ecSDavid Woodhouse do_set_vcpu_timer_virq(cs,
187819c417ecSDavid Woodhouse RUN_ON_CPU_HOST_INT(env->xen_virq[VIRQ_TIMER]));
1879c723d4c1SDavid Woodhouse }
1880c345104cSJoao Martins return 0;
1881c345104cSJoao Martins }
1882c345104cSJoao Martins
kvm_get_xen_state(CPUState * cs)1883c345104cSJoao Martins int kvm_get_xen_state(CPUState *cs)
1884c345104cSJoao Martins {
1885c345104cSJoao Martins X86CPU *cpu = X86_CPU(cs);
1886c345104cSJoao Martins CPUX86State *env = &cpu->env;
1887c345104cSJoao Martins uint64_t gpa;
1888c723d4c1SDavid Woodhouse int ret;
1889c345104cSJoao Martins
1890c345104cSJoao Martins /*
1891c345104cSJoao Martins * The kernel does not mark vcpu_info as dirty when it delivers interrupts
1892c345104cSJoao Martins * to it. It's up to userspace to *assume* that any page shared thus is
1893c345104cSJoao Martins * always considered dirty. The shared_info page is different since it's
1894c345104cSJoao Martins * an overlay and migrated separately anyway.
1895c345104cSJoao Martins */
1896c345104cSJoao Martins gpa = env->xen_vcpu_info_gpa;
1897c345104cSJoao Martins if (gpa == INVALID_GPA) {
1898c345104cSJoao Martins gpa = env->xen_vcpu_info_default_gpa;
1899c345104cSJoao Martins }
1900c345104cSJoao Martins if (gpa != INVALID_GPA) {
1901c345104cSJoao Martins MemoryRegionSection mrs = memory_region_find(get_system_memory(),
1902c345104cSJoao Martins gpa,
1903c345104cSJoao Martins sizeof(struct vcpu_info));
1904c345104cSJoao Martins if (mrs.mr &&
1905c345104cSJoao Martins !int128_lt(mrs.size, int128_make64(sizeof(struct vcpu_info)))) {
1906c345104cSJoao Martins memory_region_set_dirty(mrs.mr, mrs.offset_within_region,
1907c345104cSJoao Martins sizeof(struct vcpu_info));
1908c345104cSJoao Martins }
1909c345104cSJoao Martins }
1910c345104cSJoao Martins
1911c723d4c1SDavid Woodhouse if (!kvm_xen_has_cap(EVTCHN_SEND)) {
1912c723d4c1SDavid Woodhouse return 0;
1913c723d4c1SDavid Woodhouse }
1914c723d4c1SDavid Woodhouse
1915c723d4c1SDavid Woodhouse /*
1916c723d4c1SDavid Woodhouse * If the kernel is accelerating timers, read out the current value of the
1917c723d4c1SDavid Woodhouse * singleshot timer deadline.
1918c723d4c1SDavid Woodhouse */
1919c723d4c1SDavid Woodhouse if (env->xen_virq[VIRQ_TIMER]) {
1920c723d4c1SDavid Woodhouse struct kvm_xen_vcpu_attr va = {
1921c723d4c1SDavid Woodhouse .type = KVM_XEN_VCPU_ATTR_TYPE_TIMER,
1922c723d4c1SDavid Woodhouse };
1923c723d4c1SDavid Woodhouse ret = kvm_vcpu_ioctl(cs, KVM_XEN_VCPU_GET_ATTR, &va);
1924c723d4c1SDavid Woodhouse if (ret < 0) {
1925c723d4c1SDavid Woodhouse return ret;
1926c723d4c1SDavid Woodhouse }
192719c417ecSDavid Woodhouse
192819c417ecSDavid Woodhouse /*
192919c417ecSDavid Woodhouse * This locking is fairly pointless, and is here to appease Coverity.
193019c417ecSDavid Woodhouse * There is an unavoidable race condition if a different vCPU sets a
193119c417ecSDavid Woodhouse * timer for this vCPU after the value has been read out. But that's
193219c417ecSDavid Woodhouse * OK in practice because *all* the vCPUs need to be stopped before
193319c417ecSDavid Woodhouse * we set about migrating their state.
193419c417ecSDavid Woodhouse */
193519c417ecSDavid Woodhouse QEMU_LOCK_GUARD(&X86_CPU(cs)->env.xen_timers_lock);
1936c723d4c1SDavid Woodhouse env->xen_singleshot_timer_ns = va.u.timer.expires_ns;
1937c723d4c1SDavid Woodhouse }
1938c723d4c1SDavid Woodhouse
1939c345104cSJoao Martins return 0;
1940c345104cSJoao Martins }
1941