Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Benjamin Herrenschmidt | 789 | 75.57% | 2 | 16.67% |
Cédric Le Goater | 177 | 16.95% | 7 | 58.33% |
Greg Kurz | 59 | 5.65% | 1 | 8.33% |
Paul Mackerras | 17 | 1.63% | 1 | 8.33% |
Thomas Gleixner | 2 | 0.19% | 1 | 8.33% |
Total | 1044 | 12 |
/* SPDX-License-Identifier: GPL-2.0-only */ /* * Copyright 2017 Benjamin Herrenschmidt, IBM Corporation */ #ifndef _KVM_PPC_BOOK3S_XIVE_H #define _KVM_PPC_BOOK3S_XIVE_H #ifdef CONFIG_KVM_XICS #include "book3s_xics.h" /* * The XIVE Interrupt source numbers are within the range 0 to * KVMPPC_XICS_NR_IRQS. */ #define KVMPPC_XIVE_FIRST_IRQ 0 #define KVMPPC_XIVE_NR_IRQS KVMPPC_XICS_NR_IRQS /* * State for one guest irq source. * * For each guest source we allocate a HW interrupt in the XIVE * which we use for all SW triggers. It will be unused for * pass-through but it's easier to keep around as the same * guest interrupt can alternatively be emulated or pass-through * if a physical device is hot unplugged and replaced with an * emulated one. * * This state structure is very similar to the XICS one with * additional XIVE specific tracking. */ struct kvmppc_xive_irq_state { bool valid; /* Interrupt entry is valid */ u32 number; /* Guest IRQ number */ u32 ipi_number; /* XIVE IPI HW number */ struct xive_irq_data ipi_data; /* XIVE IPI associated data */ u32 pt_number; /* XIVE Pass-through number if any */ struct xive_irq_data *pt_data; /* XIVE Pass-through associated data */ /* Targetting as set by guest */ u8 guest_priority; /* Guest set priority */ u8 saved_priority; /* Saved priority when masking */ /* Actual targetting */ u32 act_server; /* Actual server */ u8 act_priority; /* Actual priority */ /* Various state bits */ bool in_eoi; /* Synchronize with H_EOI */ bool old_p; /* P bit state when masking */ bool old_q; /* Q bit state when masking */ bool lsi; /* level-sensitive interrupt */ bool asserted; /* Only for emulated LSI: current state */ /* Saved for migration state */ bool in_queue; bool saved_p; bool saved_q; u8 saved_scan_prio; /* Xive native */ u32 eisn; /* Guest Effective IRQ number */ }; /* Select the "right" interrupt (IPI vs. passthrough) */ static inline void kvmppc_xive_select_irq(struct kvmppc_xive_irq_state *state, u32 *out_hw_irq, struct xive_irq_data **out_xd) { if (state->pt_number) { if (out_hw_irq) *out_hw_irq = state->pt_number; if (out_xd) *out_xd = state->pt_data; } else { if (out_hw_irq) *out_hw_irq = state->ipi_number; if (out_xd) *out_xd = &state->ipi_data; } } /* * This corresponds to an "ICS" in XICS terminology, we use it * as a mean to break up source information into multiple structures. */ struct kvmppc_xive_src_block { arch_spinlock_t lock; u16 id; struct kvmppc_xive_irq_state irq_state[KVMPPC_XICS_IRQ_PER_ICS]; }; struct kvmppc_xive; struct kvmppc_xive_ops { int (*reset_mapped)(struct kvm *kvm, unsigned long guest_irq); }; struct kvmppc_xive { struct kvm *kvm; struct kvm_device *dev; struct dentry *dentry; /* VP block associated with the VM */ u32 vp_base; /* Blocks of sources */ struct kvmppc_xive_src_block *src_blocks[KVMPPC_XICS_MAX_ICS_ID + 1]; u32 max_sbid; /* * For state save, we lazily scan the queues on the first interrupt * being migrated. We don't have a clean way to reset that flags * so we keep track of the number of valid sources and how many of * them were migrated so we can reset when all of them have been * processed. */ u32 src_count; u32 saved_src_count; /* * Some irqs are delayed on restore until the source is created, * keep track here of how many of them */ u32 delayed_irqs; /* Which queues (priorities) are in use by the guest */ u8 qmap; /* Queue orders */ u32 q_order; u32 q_page_order; /* Flags */ u8 single_escalation; struct kvmppc_xive_ops *ops; struct address_space *mapping; struct mutex mapping_lock; struct mutex lock; }; #define KVMPPC_XIVE_Q_COUNT 8 struct kvmppc_xive_vcpu { struct kvmppc_xive *xive; struct kvm_vcpu *vcpu; bool valid; /* Server number. This is the HW CPU ID from a guest perspective */ u32 server_num; /* * HW VP corresponding to this VCPU. This is the base of the VP * block plus the server number. */ u32 vp_id; u32 vp_chip_id; u32 vp_cam; /* IPI used for sending ... IPIs */ u32 vp_ipi; struct xive_irq_data vp_ipi_data; /* Local emulation state */ uint8_t cppr; /* guest CPPR */ uint8_t hw_cppr;/* Hardware CPPR */ uint8_t mfrr; uint8_t pending; /* Each VP has 8 queues though we only provision some */ struct xive_q queues[KVMPPC_XIVE_Q_COUNT]; u32 esc_virq[KVMPPC_XIVE_Q_COUNT]; char *esc_virq_names[KVMPPC_XIVE_Q_COUNT]; /* Stash a delayed irq on restore from migration (see set_icp) */ u32 delayed_irq; /* Stats */ u64 stat_rm_h_xirr; u64 stat_rm_h_ipoll; u64 stat_rm_h_cppr; u64 stat_rm_h_eoi; u64 stat_rm_h_ipi; u64 stat_vm_h_xirr; u64 stat_vm_h_ipoll; u64 stat_vm_h_cppr; u64 stat_vm_h_eoi; u64 stat_vm_h_ipi; }; static inline struct kvm_vcpu *kvmppc_xive_find_server(struct kvm *kvm, u32 nr) { struct kvm_vcpu *vcpu = NULL; int i; kvm_for_each_vcpu(i, vcpu, kvm) { if (vcpu->arch.xive_vcpu && nr == vcpu->arch.xive_vcpu->server_num) return vcpu; } return NULL; } static inline struct kvmppc_xive_src_block *kvmppc_xive_find_source(struct kvmppc_xive *xive, u32 irq, u16 *source) { u32 bid = irq >> KVMPPC_XICS_ICS_SHIFT; u16 src = irq & KVMPPC_XICS_SRC_MASK; if (source) *source = src; if (bid > KVMPPC_XICS_MAX_ICS_ID) return NULL; return xive->src_blocks[bid]; } static inline u32 kvmppc_xive_vp(struct kvmppc_xive *xive, u32 server) { return xive->vp_base + kvmppc_pack_vcpu_id(xive->kvm, server); } static inline bool kvmppc_xive_vp_in_use(struct kvm *kvm, u32 vp_id) { struct kvm_vcpu *vcpu = NULL; int i; kvm_for_each_vcpu(i, vcpu, kvm) { if (vcpu->arch.xive_vcpu && vp_id == vcpu->arch.xive_vcpu->vp_id) return true; } return false; } /* * Mapping between guest priorities and host priorities * is as follow. * * Guest request for 0...6 are honored. Guest request for anything * higher results in a priority of 6 being applied. * * Similar mapping is done for CPPR values */ static inline u8 xive_prio_from_guest(u8 prio) { if (prio == 0xff || prio < 6) return prio; return 6; } static inline u8 xive_prio_to_guest(u8 prio) { return prio; } static inline u32 __xive_read_eq(__be32 *qpage, u32 msk, u32 *idx, u32 *toggle) { u32 cur; if (!qpage) return 0; cur = be32_to_cpup(qpage + *idx); if ((cur >> 31) == *toggle) return 0; *idx = (*idx + 1) & msk; if (*idx == 0) (*toggle) ^= 1; return cur & 0x7fffffff; } extern unsigned long xive_rm_h_xirr(struct kvm_vcpu *vcpu); extern unsigned long xive_rm_h_ipoll(struct kvm_vcpu *vcpu, unsigned long server); extern int xive_rm_h_ipi(struct kvm_vcpu *vcpu, unsigned long server, unsigned long mfrr); extern int xive_rm_h_cppr(struct kvm_vcpu *vcpu, unsigned long cppr); extern int xive_rm_h_eoi(struct kvm_vcpu *vcpu, unsigned long xirr); extern unsigned long (*__xive_vm_h_xirr)(struct kvm_vcpu *vcpu); extern unsigned long (*__xive_vm_h_ipoll)(struct kvm_vcpu *vcpu, unsigned long server); extern int (*__xive_vm_h_ipi)(struct kvm_vcpu *vcpu, unsigned long server, unsigned long mfrr); extern int (*__xive_vm_h_cppr)(struct kvm_vcpu *vcpu, unsigned long cppr); extern int (*__xive_vm_h_eoi)(struct kvm_vcpu *vcpu, unsigned long xirr); /* * Common Xive routines for XICS-over-XIVE and XIVE native */ void kvmppc_xive_disable_vcpu_interrupts(struct kvm_vcpu *vcpu); int kvmppc_xive_debug_show_queues(struct seq_file *m, struct kvm_vcpu *vcpu); struct kvmppc_xive_src_block *kvmppc_xive_create_src_block( struct kvmppc_xive *xive, int irq); void kvmppc_xive_free_sources(struct kvmppc_xive_src_block *sb); int kvmppc_xive_select_target(struct kvm *kvm, u32 *server, u8 prio); int kvmppc_xive_attach_escalation(struct kvm_vcpu *vcpu, u8 prio, bool single_escalation); struct kvmppc_xive *kvmppc_xive_get_device(struct kvm *kvm, u32 type); void xive_cleanup_single_escalation(struct kvm_vcpu *vcpu, struct kvmppc_xive_vcpu *xc, int irq); #endif /* CONFIG_KVM_XICS */ #endif /* _KVM_PPC_BOOK3S_XICS_H */
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