/* SPDX-License-Identifier: GPL-2.0-only */ /* * Copyright (c) 2023, Microsoft Corporation. */ #ifndef _MSHV_ROOT_H_ #define _MSHV_ROOT_H_ #include #include #include #include #include #include #include #include #include #include /* * Hypervisor must be between these version numbers (inclusive) * to guarantee compatibility */ #define MSHV_HV_MIN_VERSION (27744) #define MSHV_HV_MAX_VERSION (27751) static_assert(HV_HYP_PAGE_SIZE == MSHV_HV_PAGE_SIZE); #define MSHV_MAX_VPS 256 #define MSHV_PARTITIONS_HASH_BITS 9 #define MSHV_PIN_PAGES_BATCH_SIZE (0x10000000ULL / HV_HYP_PAGE_SIZE) struct mshv_vp { u32 vp_index; struct mshv_partition *vp_partition; struct mutex vp_mutex; struct hv_vp_register_page *vp_register_page; struct hv_message *vp_intercept_msg_page; void *vp_ghcb_page; struct hv_stats_page *vp_stats_pages[2]; struct { atomic64_t vp_signaled_count; struct { u64 intercept_suspend: 1; u64 root_sched_blocked: 1; /* root scheduler only */ u64 root_sched_dispatched: 1; /* root scheduler only */ u64 reserved: 61; } flags; unsigned int kicked_by_hv; wait_queue_head_t vp_suspend_queue; } run; }; #define vp_fmt(fmt) "p%lluvp%u: " fmt #define vp_devprintk(level, v, fmt, ...) \ do { \ const struct mshv_vp *__vp = (v); \ const struct mshv_partition *__pt = __vp->vp_partition; \ dev_##level(__pt->pt_module_dev, vp_fmt(fmt), __pt->pt_id, \ __vp->vp_index, ##__VA_ARGS__); \ } while (0) #define vp_emerg(v, fmt, ...) vp_devprintk(emerg, v, fmt, ##__VA_ARGS__) #define vp_crit(v, fmt, ...) vp_devprintk(crit, v, fmt, ##__VA_ARGS__) #define vp_alert(v, fmt, ...) vp_devprintk(alert, v, fmt, ##__VA_ARGS__) #define vp_err(v, fmt, ...) vp_devprintk(err, v, fmt, ##__VA_ARGS__) #define vp_warn(v, fmt, ...) vp_devprintk(warn, v, fmt, ##__VA_ARGS__) #define vp_notice(v, fmt, ...) vp_devprintk(notice, v, fmt, ##__VA_ARGS__) #define vp_info(v, fmt, ...) vp_devprintk(info, v, fmt, ##__VA_ARGS__) #define vp_dbg(v, fmt, ...) vp_devprintk(dbg, v, fmt, ##__VA_ARGS__) struct mshv_mem_region { struct hlist_node hnode; u64 nr_pages; u64 start_gfn; u64 start_uaddr; u32 hv_map_flags; struct { u64 large_pages: 1; /* 2MiB */ u64 range_pinned: 1; u64 reserved: 62; } flags; struct mshv_partition *partition; struct page *pages[]; }; struct mshv_irq_ack_notifier { struct hlist_node link; unsigned int irq_ack_gsi; void (*irq_acked)(struct mshv_irq_ack_notifier *mian); }; struct mshv_partition { struct device *pt_module_dev; struct hlist_node pt_hnode; u64 pt_id; refcount_t pt_ref_count; struct mutex pt_mutex; struct hlist_head pt_mem_regions; // not ordered u32 pt_vp_count; struct mshv_vp *pt_vp_array[MSHV_MAX_VPS]; struct mutex pt_irq_lock; struct srcu_struct pt_irq_srcu; struct hlist_head irq_ack_notifier_list; struct hlist_head pt_devices; /* * MSHV does not support more than one async hypercall in flight * for a single partition. Thus, it is okay to define per partition * async hypercall status. */ struct completion async_hypercall; u64 async_hypercall_status; spinlock_t pt_irqfds_lock; struct hlist_head pt_irqfds_list; struct mutex irqfds_resampler_lock; struct hlist_head irqfds_resampler_list; struct hlist_head ioeventfds_list; struct mshv_girq_routing_table __rcu *pt_girq_tbl; u64 isolation_type; bool import_completed; bool pt_initialized; }; #define pt_fmt(fmt) "p%llu: " fmt #define pt_devprintk(level, p, fmt, ...) \ do { \ const struct mshv_partition *__pt = (p); \ dev_##level(__pt->pt_module_dev, pt_fmt(fmt), __pt->pt_id, \ ##__VA_ARGS__); \ } while (0) #define pt_emerg(p, fmt, ...) pt_devprintk(emerg, p, fmt, ##__VA_ARGS__) #define pt_crit(p, fmt, ...) pt_devprintk(crit, p, fmt, ##__VA_ARGS__) #define pt_alert(p, fmt, ...) pt_devprintk(alert, p, fmt, ##__VA_ARGS__) #define pt_err(p, fmt, ...) pt_devprintk(err, p, fmt, ##__VA_ARGS__) #define pt_warn(p, fmt, ...) pt_devprintk(warn, p, fmt, ##__VA_ARGS__) #define pt_notice(p, fmt, ...) pt_devprintk(notice, p, fmt, ##__VA_ARGS__) #define pt_info(p, fmt, ...) pt_devprintk(info, p, fmt, ##__VA_ARGS__) #define pt_dbg(p, fmt, ...) pt_devprintk(dbg, p, fmt, ##__VA_ARGS__) struct mshv_lapic_irq { u32 lapic_vector; u64 lapic_apic_id; union hv_interrupt_control lapic_control; }; #define MSHV_MAX_GUEST_IRQS 4096 /* representation of one guest irq entry, either msi or legacy */ struct mshv_guest_irq_ent { u32 girq_entry_valid; /* vfio looks at this */ u32 guest_irq_num; /* a unique number for each irq */ u32 girq_addr_lo; /* guest irq msi address info */ u32 girq_addr_hi; u32 girq_irq_data; /* idt vector in some cases */ }; struct mshv_girq_routing_table { u32 num_rt_entries; struct mshv_guest_irq_ent mshv_girq_info_tbl[]; }; struct hv_synic_pages { struct hv_message_page *synic_message_page; struct hv_synic_event_flags_page *synic_event_flags_page; struct hv_synic_event_ring_page *synic_event_ring_page; }; struct mshv_root { struct hv_synic_pages __percpu *synic_pages; spinlock_t pt_ht_lock; DECLARE_HASHTABLE(pt_htable, MSHV_PARTITIONS_HASH_BITS); }; /* * Callback for doorbell events. * NOTE: This is called in interrupt context. Callback * should defer slow and sleeping logic to later. */ typedef void (*doorbell_cb_t) (int doorbell_id, void *); /* * port table information */ struct port_table_info { struct rcu_head portbl_rcu; enum hv_port_type hv_port_type; union { struct { u64 reserved[2]; } hv_port_message; struct { u64 reserved[2]; } hv_port_event; struct { u64 reserved[2]; } hv_port_monitor; struct { doorbell_cb_t doorbell_cb; void *data; } hv_port_doorbell; }; }; int mshv_update_routing_table(struct mshv_partition *partition, const struct mshv_user_irq_entry *entries, unsigned int numents); void mshv_free_routing_table(struct mshv_partition *partition); struct mshv_guest_irq_ent mshv_ret_girq_entry(struct mshv_partition *partition, u32 irq_num); void mshv_copy_girq_info(struct mshv_guest_irq_ent *src_irq, struct mshv_lapic_irq *dest_irq); void mshv_irqfd_routing_update(struct mshv_partition *partition); void mshv_port_table_fini(void); int mshv_portid_alloc(struct port_table_info *info); int mshv_portid_lookup(int port_id, struct port_table_info *info); void mshv_portid_free(int port_id); int mshv_register_doorbell(u64 partition_id, doorbell_cb_t doorbell_cb, void *data, u64 gpa, u64 val, u64 flags); void mshv_unregister_doorbell(u64 partition_id, int doorbell_portid); void mshv_isr(void); int mshv_synic_init(unsigned int cpu); int mshv_synic_cleanup(unsigned int cpu); static inline bool mshv_partition_encrypted(struct mshv_partition *partition) { return partition->isolation_type == HV_PARTITION_ISOLATION_TYPE_SNP; } struct mshv_partition *mshv_partition_get(struct mshv_partition *partition); void mshv_partition_put(struct mshv_partition *partition); struct mshv_partition *mshv_partition_find(u64 partition_id) __must_hold(RCU); /* hypercalls */ int hv_call_withdraw_memory(u64 count, int node, u64 partition_id); int hv_call_create_partition(u64 flags, struct hv_partition_creation_properties creation_properties, union hv_partition_isolation_properties isolation_properties, u64 *partition_id); int hv_call_initialize_partition(u64 partition_id); int hv_call_finalize_partition(u64 partition_id); int hv_call_delete_partition(u64 partition_id); int hv_call_map_mmio_pages(u64 partition_id, u64 gfn, u64 mmio_spa, u64 numpgs); int hv_call_map_gpa_pages(u64 partition_id, u64 gpa_target, u64 page_count, u32 flags, struct page **pages); int hv_call_unmap_gpa_pages(u64 partition_id, u64 gpa_target, u64 page_count, u32 flags); int hv_call_delete_vp(u64 partition_id, u32 vp_index); int hv_call_assert_virtual_interrupt(u64 partition_id, u32 vector, u64 dest_addr, union hv_interrupt_control control); int hv_call_clear_virtual_interrupt(u64 partition_id); int hv_call_get_gpa_access_states(u64 partition_id, u32 count, u64 gpa_base_pfn, union hv_gpa_page_access_state_flags state_flags, int *written_total, union hv_gpa_page_access_state *states); int hv_call_get_vp_state(u32 vp_index, u64 partition_id, struct hv_vp_state_data state_data, /* Choose between pages and ret_output */ u64 page_count, struct page **pages, union hv_output_get_vp_state *ret_output); int hv_call_set_vp_state(u32 vp_index, u64 partition_id, /* Choose between pages and bytes */ struct hv_vp_state_data state_data, u64 page_count, struct page **pages, u32 num_bytes, u8 *bytes); int hv_call_map_vp_state_page(u64 partition_id, u32 vp_index, u32 type, union hv_input_vtl input_vtl, struct page **state_page); int hv_call_unmap_vp_state_page(u64 partition_id, u32 vp_index, u32 type, union hv_input_vtl input_vtl); int hv_call_create_port(u64 port_partition_id, union hv_port_id port_id, u64 connection_partition_id, struct hv_port_info *port_info, u8 port_vtl, u8 min_connection_vtl, int node); int hv_call_delete_port(u64 port_partition_id, union hv_port_id port_id); int hv_call_connect_port(u64 port_partition_id, union hv_port_id port_id, u64 connection_partition_id, union hv_connection_id connection_id, struct hv_connection_info *connection_info, u8 connection_vtl, int node); int hv_call_disconnect_port(u64 connection_partition_id, union hv_connection_id connection_id); int hv_call_notify_port_ring_empty(u32 sint_index); int hv_call_map_stat_page(enum hv_stats_object_type type, const union hv_stats_object_identity *identity, void **addr); int hv_call_unmap_stat_page(enum hv_stats_object_type type, const union hv_stats_object_identity *identity); int hv_call_modify_spa_host_access(u64 partition_id, struct page **pages, u64 page_struct_count, u32 host_access, u32 flags, u8 acquire); extern struct mshv_root mshv_root; extern enum hv_scheduler_type hv_scheduler_type; extern u8 * __percpu *hv_synic_eventring_tail; #endif /* _MSHV_ROOT_H_ */