Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Anup Patel | 4898 | 99.27% | 9 | 90.00% |
Yong-Xuan Wang | 36 | 0.73% | 1 | 10.00% |
Total | 4934 | 10 |
// SPDX-License-Identifier: GPL-2.0 /* * Copyright (C) 2021 Western Digital Corporation or its affiliates. * Copyright (C) 2022 Ventana Micro Systems Inc. * * Authors: * Anup Patel <apatel@ventanamicro.com> */ #include <linux/atomic.h> #include <linux/bitmap.h> #include <linux/irqchip/riscv-imsic.h> #include <linux/kvm_host.h> #include <linux/math.h> #include <linux/spinlock.h> #include <linux/swab.h> #include <kvm/iodev.h> #include <asm/csr.h> #define IMSIC_MAX_EIX (IMSIC_MAX_ID / BITS_PER_TYPE(u64)) struct imsic_mrif_eix { unsigned long eip[BITS_PER_TYPE(u64) / BITS_PER_LONG]; unsigned long eie[BITS_PER_TYPE(u64) / BITS_PER_LONG]; }; struct imsic_mrif { struct imsic_mrif_eix eix[IMSIC_MAX_EIX]; unsigned long eithreshold; unsigned long eidelivery; }; struct imsic { struct kvm_io_device iodev; u32 nr_msis; u32 nr_eix; u32 nr_hw_eix; /* * At any point in time, the register state is in * one of the following places: * * 1) Hardware: IMSIC VS-file (vsfile_cpu >= 0) * 2) Software: IMSIC SW-file (vsfile_cpu < 0) */ /* IMSIC VS-file */ rwlock_t vsfile_lock; int vsfile_cpu; int vsfile_hgei; void __iomem *vsfile_va; phys_addr_t vsfile_pa; /* IMSIC SW-file */ struct imsic_mrif *swfile; phys_addr_t swfile_pa; spinlock_t swfile_extirq_lock; }; #define imsic_vs_csr_read(__c) \ ({ \ unsigned long __r; \ csr_write(CSR_VSISELECT, __c); \ __r = csr_read(CSR_VSIREG); \ __r; \ }) #define imsic_read_switchcase(__ireg) \ case __ireg: \ return imsic_vs_csr_read(__ireg); #define imsic_read_switchcase_2(__ireg) \ imsic_read_switchcase(__ireg + 0) \ imsic_read_switchcase(__ireg + 1) #define imsic_read_switchcase_4(__ireg) \ imsic_read_switchcase_2(__ireg + 0) \ imsic_read_switchcase_2(__ireg + 2) #define imsic_read_switchcase_8(__ireg) \ imsic_read_switchcase_4(__ireg + 0) \ imsic_read_switchcase_4(__ireg + 4) #define imsic_read_switchcase_16(__ireg) \ imsic_read_switchcase_8(__ireg + 0) \ imsic_read_switchcase_8(__ireg + 8) #define imsic_read_switchcase_32(__ireg) \ imsic_read_switchcase_16(__ireg + 0) \ imsic_read_switchcase_16(__ireg + 16) #define imsic_read_switchcase_64(__ireg) \ imsic_read_switchcase_32(__ireg + 0) \ imsic_read_switchcase_32(__ireg + 32) static unsigned long imsic_eix_read(int ireg) { switch (ireg) { imsic_read_switchcase_64(IMSIC_EIP0) imsic_read_switchcase_64(IMSIC_EIE0) } return 0; } #define imsic_vs_csr_swap(__c, __v) \ ({ \ unsigned long __r; \ csr_write(CSR_VSISELECT, __c); \ __r = csr_swap(CSR_VSIREG, __v); \ __r; \ }) #define imsic_swap_switchcase(__ireg, __v) \ case __ireg: \ return imsic_vs_csr_swap(__ireg, __v); #define imsic_swap_switchcase_2(__ireg, __v) \ imsic_swap_switchcase(__ireg + 0, __v) \ imsic_swap_switchcase(__ireg + 1, __v) #define imsic_swap_switchcase_4(__ireg, __v) \ imsic_swap_switchcase_2(__ireg + 0, __v) \ imsic_swap_switchcase_2(__ireg + 2, __v) #define imsic_swap_switchcase_8(__ireg, __v) \ imsic_swap_switchcase_4(__ireg + 0, __v) \ imsic_swap_switchcase_4(__ireg + 4, __v) #define imsic_swap_switchcase_16(__ireg, __v) \ imsic_swap_switchcase_8(__ireg + 0, __v) \ imsic_swap_switchcase_8(__ireg + 8, __v) #define imsic_swap_switchcase_32(__ireg, __v) \ imsic_swap_switchcase_16(__ireg + 0, __v) \ imsic_swap_switchcase_16(__ireg + 16, __v) #define imsic_swap_switchcase_64(__ireg, __v) \ imsic_swap_switchcase_32(__ireg + 0, __v) \ imsic_swap_switchcase_32(__ireg + 32, __v) static unsigned long imsic_eix_swap(int ireg, unsigned long val) { switch (ireg) { imsic_swap_switchcase_64(IMSIC_EIP0, val) imsic_swap_switchcase_64(IMSIC_EIE0, val) } return 0; } #define imsic_vs_csr_write(__c, __v) \ do { \ csr_write(CSR_VSISELECT, __c); \ csr_write(CSR_VSIREG, __v); \ } while (0) #define imsic_write_switchcase(__ireg, __v) \ case __ireg: \ imsic_vs_csr_write(__ireg, __v); \ break; #define imsic_write_switchcase_2(__ireg, __v) \ imsic_write_switchcase(__ireg + 0, __v) \ imsic_write_switchcase(__ireg + 1, __v) #define imsic_write_switchcase_4(__ireg, __v) \ imsic_write_switchcase_2(__ireg + 0, __v) \ imsic_write_switchcase_2(__ireg + 2, __v) #define imsic_write_switchcase_8(__ireg, __v) \ imsic_write_switchcase_4(__ireg + 0, __v) \ imsic_write_switchcase_4(__ireg + 4, __v) #define imsic_write_switchcase_16(__ireg, __v) \ imsic_write_switchcase_8(__ireg + 0, __v) \ imsic_write_switchcase_8(__ireg + 8, __v) #define imsic_write_switchcase_32(__ireg, __v) \ imsic_write_switchcase_16(__ireg + 0, __v) \ imsic_write_switchcase_16(__ireg + 16, __v) #define imsic_write_switchcase_64(__ireg, __v) \ imsic_write_switchcase_32(__ireg + 0, __v) \ imsic_write_switchcase_32(__ireg + 32, __v) static void imsic_eix_write(int ireg, unsigned long val) { switch (ireg) { imsic_write_switchcase_64(IMSIC_EIP0, val) imsic_write_switchcase_64(IMSIC_EIE0, val) } } #define imsic_vs_csr_set(__c, __v) \ do { \ csr_write(CSR_VSISELECT, __c); \ csr_set(CSR_VSIREG, __v); \ } while (0) #define imsic_set_switchcase(__ireg, __v) \ case __ireg: \ imsic_vs_csr_set(__ireg, __v); \ break; #define imsic_set_switchcase_2(__ireg, __v) \ imsic_set_switchcase(__ireg + 0, __v) \ imsic_set_switchcase(__ireg + 1, __v) #define imsic_set_switchcase_4(__ireg, __v) \ imsic_set_switchcase_2(__ireg + 0, __v) \ imsic_set_switchcase_2(__ireg + 2, __v) #define imsic_set_switchcase_8(__ireg, __v) \ imsic_set_switchcase_4(__ireg + 0, __v) \ imsic_set_switchcase_4(__ireg + 4, __v) #define imsic_set_switchcase_16(__ireg, __v) \ imsic_set_switchcase_8(__ireg + 0, __v) \ imsic_set_switchcase_8(__ireg + 8, __v) #define imsic_set_switchcase_32(__ireg, __v) \ imsic_set_switchcase_16(__ireg + 0, __v) \ imsic_set_switchcase_16(__ireg + 16, __v) #define imsic_set_switchcase_64(__ireg, __v) \ imsic_set_switchcase_32(__ireg + 0, __v) \ imsic_set_switchcase_32(__ireg + 32, __v) static void imsic_eix_set(int ireg, unsigned long val) { switch (ireg) { imsic_set_switchcase_64(IMSIC_EIP0, val) imsic_set_switchcase_64(IMSIC_EIE0, val) } } static unsigned long imsic_mrif_atomic_rmw(struct imsic_mrif *mrif, unsigned long *ptr, unsigned long new_val, unsigned long wr_mask) { unsigned long old_val = 0, tmp = 0; __asm__ __volatile__ ( "0: lr.w.aq %1, %0\n" " and %2, %1, %3\n" " or %2, %2, %4\n" " sc.w.rl %2, %2, %0\n" " bnez %2, 0b" : "+A" (*ptr), "+r" (old_val), "+r" (tmp) : "r" (~wr_mask), "r" (new_val & wr_mask) : "memory"); return old_val; } static unsigned long imsic_mrif_atomic_or(struct imsic_mrif *mrif, unsigned long *ptr, unsigned long val) { return atomic_long_fetch_or(val, (atomic_long_t *)ptr); } #define imsic_mrif_atomic_write(__mrif, __ptr, __new_val) \ imsic_mrif_atomic_rmw(__mrif, __ptr, __new_val, -1UL) #define imsic_mrif_atomic_read(__mrif, __ptr) \ imsic_mrif_atomic_or(__mrif, __ptr, 0) static u32 imsic_mrif_topei(struct imsic_mrif *mrif, u32 nr_eix, u32 nr_msis) { struct imsic_mrif_eix *eix; u32 i, imin, imax, ei, max_msi; unsigned long eipend[BITS_PER_TYPE(u64) / BITS_PER_LONG]; unsigned long eithreshold = imsic_mrif_atomic_read(mrif, &mrif->eithreshold); max_msi = (eithreshold && (eithreshold <= nr_msis)) ? eithreshold : nr_msis; for (ei = 0; ei < nr_eix; ei++) { eix = &mrif->eix[ei]; eipend[0] = imsic_mrif_atomic_read(mrif, &eix->eie[0]) & imsic_mrif_atomic_read(mrif, &eix->eip[0]); #ifdef CONFIG_32BIT eipend[1] = imsic_mrif_atomic_read(mrif, &eix->eie[1]) & imsic_mrif_atomic_read(mrif, &eix->eip[1]); if (!eipend[0] && !eipend[1]) #else if (!eipend[0]) #endif continue; imin = ei * BITS_PER_TYPE(u64); imax = ((imin + BITS_PER_TYPE(u64)) < max_msi) ? imin + BITS_PER_TYPE(u64) : max_msi; for (i = (!imin) ? 1 : imin; i < imax; i++) { if (test_bit(i - imin, eipend)) return (i << TOPEI_ID_SHIFT) | i; } } return 0; } static int imsic_mrif_isel_check(u32 nr_eix, unsigned long isel) { u32 num = 0; switch (isel) { case IMSIC_EIDELIVERY: case IMSIC_EITHRESHOLD: break; case IMSIC_EIP0 ... IMSIC_EIP63: num = isel - IMSIC_EIP0; break; case IMSIC_EIE0 ... IMSIC_EIE63: num = isel - IMSIC_EIE0; break; default: return -ENOENT; } #ifndef CONFIG_32BIT if (num & 0x1) return -EINVAL; #endif if ((num / 2) >= nr_eix) return -EINVAL; return 0; } static int imsic_mrif_rmw(struct imsic_mrif *mrif, u32 nr_eix, unsigned long isel, unsigned long *val, unsigned long new_val, unsigned long wr_mask) { bool pend; struct imsic_mrif_eix *eix; unsigned long *ei, num, old_val = 0; switch (isel) { case IMSIC_EIDELIVERY: old_val = imsic_mrif_atomic_rmw(mrif, &mrif->eidelivery, new_val, wr_mask & 0x1); break; case IMSIC_EITHRESHOLD: old_val = imsic_mrif_atomic_rmw(mrif, &mrif->eithreshold, new_val, wr_mask & (IMSIC_MAX_ID - 1)); break; case IMSIC_EIP0 ... IMSIC_EIP63: case IMSIC_EIE0 ... IMSIC_EIE63: if (isel >= IMSIC_EIP0 && isel <= IMSIC_EIP63) { pend = true; num = isel - IMSIC_EIP0; } else { pend = false; num = isel - IMSIC_EIE0; } if ((num / 2) >= nr_eix) return -EINVAL; eix = &mrif->eix[num / 2]; #ifndef CONFIG_32BIT if (num & 0x1) return -EINVAL; ei = (pend) ? &eix->eip[0] : &eix->eie[0]; #else ei = (pend) ? &eix->eip[num & 0x1] : &eix->eie[num & 0x1]; #endif /* Bit0 of EIP0 or EIE0 is read-only */ if (!num) wr_mask &= ~BIT(0); old_val = imsic_mrif_atomic_rmw(mrif, ei, new_val, wr_mask); break; default: return -ENOENT; } if (val) *val = old_val; return 0; } struct imsic_vsfile_read_data { int hgei; u32 nr_eix; bool clear; struct imsic_mrif *mrif; }; static void imsic_vsfile_local_read(void *data) { u32 i; struct imsic_mrif_eix *eix; struct imsic_vsfile_read_data *idata = data; struct imsic_mrif *mrif = idata->mrif; unsigned long new_hstatus, old_hstatus, old_vsiselect; old_vsiselect = csr_read(CSR_VSISELECT); old_hstatus = csr_read(CSR_HSTATUS); new_hstatus = old_hstatus & ~HSTATUS_VGEIN; new_hstatus |= ((unsigned long)idata->hgei) << HSTATUS_VGEIN_SHIFT; csr_write(CSR_HSTATUS, new_hstatus); /* * We don't use imsic_mrif_atomic_xyz() functions to store * values in MRIF because imsic_vsfile_read() is always called * with pointer to temporary MRIF on stack. */ if (idata->clear) { mrif->eidelivery = imsic_vs_csr_swap(IMSIC_EIDELIVERY, 0); mrif->eithreshold = imsic_vs_csr_swap(IMSIC_EITHRESHOLD, 0); for (i = 0; i < idata->nr_eix; i++) { eix = &mrif->eix[i]; eix->eip[0] = imsic_eix_swap(IMSIC_EIP0 + i * 2, 0); eix->eie[0] = imsic_eix_swap(IMSIC_EIE0 + i * 2, 0); #ifdef CONFIG_32BIT eix->eip[1] = imsic_eix_swap(IMSIC_EIP0 + i * 2 + 1, 0); eix->eie[1] = imsic_eix_swap(IMSIC_EIE0 + i * 2 + 1, 0); #endif } } else { mrif->eidelivery = imsic_vs_csr_read(IMSIC_EIDELIVERY); mrif->eithreshold = imsic_vs_csr_read(IMSIC_EITHRESHOLD); for (i = 0; i < idata->nr_eix; i++) { eix = &mrif->eix[i]; eix->eip[0] = imsic_eix_read(IMSIC_EIP0 + i * 2); eix->eie[0] = imsic_eix_read(IMSIC_EIE0 + i * 2); #ifdef CONFIG_32BIT eix->eip[1] = imsic_eix_read(IMSIC_EIP0 + i * 2 + 1); eix->eie[1] = imsic_eix_read(IMSIC_EIE0 + i * 2 + 1); #endif } } csr_write(CSR_HSTATUS, old_hstatus); csr_write(CSR_VSISELECT, old_vsiselect); } static void imsic_vsfile_read(int vsfile_hgei, int vsfile_cpu, u32 nr_eix, bool clear, struct imsic_mrif *mrif) { struct imsic_vsfile_read_data idata; /* We can only read clear if we have a IMSIC VS-file */ if (vsfile_cpu < 0 || vsfile_hgei <= 0) return; /* We can only read clear on local CPU */ idata.hgei = vsfile_hgei; idata.nr_eix = nr_eix; idata.clear = clear; idata.mrif = mrif; on_each_cpu_mask(cpumask_of(vsfile_cpu), imsic_vsfile_local_read, &idata, 1); } struct imsic_vsfile_rw_data { int hgei; int isel; bool write; unsigned long val; }; static void imsic_vsfile_local_rw(void *data) { struct imsic_vsfile_rw_data *idata = data; unsigned long new_hstatus, old_hstatus, old_vsiselect; old_vsiselect = csr_read(CSR_VSISELECT); old_hstatus = csr_read(CSR_HSTATUS); new_hstatus = old_hstatus & ~HSTATUS_VGEIN; new_hstatus |= ((unsigned long)idata->hgei) << HSTATUS_VGEIN_SHIFT; csr_write(CSR_HSTATUS, new_hstatus); switch (idata->isel) { case IMSIC_EIDELIVERY: if (idata->write) imsic_vs_csr_write(IMSIC_EIDELIVERY, idata->val); else idata->val = imsic_vs_csr_read(IMSIC_EIDELIVERY); break; case IMSIC_EITHRESHOLD: if (idata->write) imsic_vs_csr_write(IMSIC_EITHRESHOLD, idata->val); else idata->val = imsic_vs_csr_read(IMSIC_EITHRESHOLD); break; case IMSIC_EIP0 ... IMSIC_EIP63: case IMSIC_EIE0 ... IMSIC_EIE63: #ifndef CONFIG_32BIT if (idata->isel & 0x1) break; #endif if (idata->write) imsic_eix_write(idata->isel, idata->val); else idata->val = imsic_eix_read(idata->isel); break; default: break; } csr_write(CSR_HSTATUS, old_hstatus); csr_write(CSR_VSISELECT, old_vsiselect); } static int imsic_vsfile_rw(int vsfile_hgei, int vsfile_cpu, u32 nr_eix, unsigned long isel, bool write, unsigned long *val) { int rc; struct imsic_vsfile_rw_data rdata; /* We can only access register if we have a IMSIC VS-file */ if (vsfile_cpu < 0 || vsfile_hgei <= 0) return -EINVAL; /* Check IMSIC register iselect */ rc = imsic_mrif_isel_check(nr_eix, isel); if (rc) return rc; /* We can only access register on local CPU */ rdata.hgei = vsfile_hgei; rdata.isel = isel; rdata.write = write; rdata.val = (write) ? *val : 0; on_each_cpu_mask(cpumask_of(vsfile_cpu), imsic_vsfile_local_rw, &rdata, 1); if (!write) *val = rdata.val; return 0; } static void imsic_vsfile_local_clear(int vsfile_hgei, u32 nr_eix) { u32 i; unsigned long new_hstatus, old_hstatus, old_vsiselect; /* We can only zero-out if we have a IMSIC VS-file */ if (vsfile_hgei <= 0) return; old_vsiselect = csr_read(CSR_VSISELECT); old_hstatus = csr_read(CSR_HSTATUS); new_hstatus = old_hstatus & ~HSTATUS_VGEIN; new_hstatus |= ((unsigned long)vsfile_hgei) << HSTATUS_VGEIN_SHIFT; csr_write(CSR_HSTATUS, new_hstatus); imsic_vs_csr_write(IMSIC_EIDELIVERY, 0); imsic_vs_csr_write(IMSIC_EITHRESHOLD, 0); for (i = 0; i < nr_eix; i++) { imsic_eix_write(IMSIC_EIP0 + i * 2, 0); imsic_eix_write(IMSIC_EIE0 + i * 2, 0); #ifdef CONFIG_32BIT imsic_eix_write(IMSIC_EIP0 + i * 2 + 1, 0); imsic_eix_write(IMSIC_EIE0 + i * 2 + 1, 0); #endif } csr_write(CSR_HSTATUS, old_hstatus); csr_write(CSR_VSISELECT, old_vsiselect); } static void imsic_vsfile_local_update(int vsfile_hgei, u32 nr_eix, struct imsic_mrif *mrif) { u32 i; struct imsic_mrif_eix *eix; unsigned long new_hstatus, old_hstatus, old_vsiselect; /* We can only update if we have a HW IMSIC context */ if (vsfile_hgei <= 0) return; /* * We don't use imsic_mrif_atomic_xyz() functions to read values * from MRIF in this function because it is always called with * pointer to temporary MRIF on stack. */ old_vsiselect = csr_read(CSR_VSISELECT); old_hstatus = csr_read(CSR_HSTATUS); new_hstatus = old_hstatus & ~HSTATUS_VGEIN; new_hstatus |= ((unsigned long)vsfile_hgei) << HSTATUS_VGEIN_SHIFT; csr_write(CSR_HSTATUS, new_hstatus); for (i = 0; i < nr_eix; i++) { eix = &mrif->eix[i]; imsic_eix_set(IMSIC_EIP0 + i * 2, eix->eip[0]); imsic_eix_set(IMSIC_EIE0 + i * 2, eix->eie[0]); #ifdef CONFIG_32BIT imsic_eix_set(IMSIC_EIP0 + i * 2 + 1, eix->eip[1]); imsic_eix_set(IMSIC_EIE0 + i * 2 + 1, eix->eie[1]); #endif } imsic_vs_csr_write(IMSIC_EITHRESHOLD, mrif->eithreshold); imsic_vs_csr_write(IMSIC_EIDELIVERY, mrif->eidelivery); csr_write(CSR_HSTATUS, old_hstatus); csr_write(CSR_VSISELECT, old_vsiselect); } static void imsic_vsfile_cleanup(struct imsic *imsic) { int old_vsfile_hgei, old_vsfile_cpu; unsigned long flags; /* * We don't use imsic_mrif_atomic_xyz() functions to clear the * SW-file in this function because it is always called when the * VCPU is being destroyed. */ write_lock_irqsave(&imsic->vsfile_lock, flags); old_vsfile_hgei = imsic->vsfile_hgei; old_vsfile_cpu = imsic->vsfile_cpu; imsic->vsfile_cpu = imsic->vsfile_hgei = -1; imsic->vsfile_va = NULL; imsic->vsfile_pa = 0; write_unlock_irqrestore(&imsic->vsfile_lock, flags); memset(imsic->swfile, 0, sizeof(*imsic->swfile)); if (old_vsfile_cpu >= 0) kvm_riscv_aia_free_hgei(old_vsfile_cpu, old_vsfile_hgei); } static void imsic_swfile_extirq_update(struct kvm_vcpu *vcpu) { struct imsic *imsic = vcpu->arch.aia_context.imsic_state; struct imsic_mrif *mrif = imsic->swfile; unsigned long flags; /* * The critical section is necessary during external interrupt * updates to avoid the risk of losing interrupts due to potential * interruptions between reading topei and updating pending status. */ spin_lock_irqsave(&imsic->swfile_extirq_lock, flags); if (imsic_mrif_atomic_read(mrif, &mrif->eidelivery) && imsic_mrif_topei(mrif, imsic->nr_eix, imsic->nr_msis)) kvm_riscv_vcpu_set_interrupt(vcpu, IRQ_VS_EXT); else kvm_riscv_vcpu_unset_interrupt(vcpu, IRQ_VS_EXT); spin_unlock_irqrestore(&imsic->swfile_extirq_lock, flags); } static void imsic_swfile_read(struct kvm_vcpu *vcpu, bool clear, struct imsic_mrif *mrif) { struct imsic *imsic = vcpu->arch.aia_context.imsic_state; /* * We don't use imsic_mrif_atomic_xyz() functions to read and * write SW-file and MRIF in this function because it is always * called when VCPU is not using SW-file and the MRIF points to * a temporary MRIF on stack. */ memcpy(mrif, imsic->swfile, sizeof(*mrif)); if (clear) { memset(imsic->swfile, 0, sizeof(*imsic->swfile)); kvm_riscv_vcpu_unset_interrupt(vcpu, IRQ_VS_EXT); } } static void imsic_swfile_update(struct kvm_vcpu *vcpu, struct imsic_mrif *mrif) { u32 i; struct imsic_mrif_eix *seix, *eix; struct imsic *imsic = vcpu->arch.aia_context.imsic_state; struct imsic_mrif *smrif = imsic->swfile; imsic_mrif_atomic_write(smrif, &smrif->eidelivery, mrif->eidelivery); imsic_mrif_atomic_write(smrif, &smrif->eithreshold, mrif->eithreshold); for (i = 0; i < imsic->nr_eix; i++) { seix = &smrif->eix[i]; eix = &mrif->eix[i]; imsic_mrif_atomic_or(smrif, &seix->eip[0], eix->eip[0]); imsic_mrif_atomic_or(smrif, &seix->eie[0], eix->eie[0]); #ifdef CONFIG_32BIT imsic_mrif_atomic_or(smrif, &seix->eip[1], eix->eip[1]); imsic_mrif_atomic_or(smrif, &seix->eie[1], eix->eie[1]); #endif } imsic_swfile_extirq_update(vcpu); } void kvm_riscv_vcpu_aia_imsic_release(struct kvm_vcpu *vcpu) { unsigned long flags; struct imsic_mrif tmrif; int old_vsfile_hgei, old_vsfile_cpu; struct imsic *imsic = vcpu->arch.aia_context.imsic_state; /* Read and clear IMSIC VS-file details */ write_lock_irqsave(&imsic->vsfile_lock, flags); old_vsfile_hgei = imsic->vsfile_hgei; old_vsfile_cpu = imsic->vsfile_cpu; imsic->vsfile_cpu = imsic->vsfile_hgei = -1; imsic->vsfile_va = NULL; imsic->vsfile_pa = 0; write_unlock_irqrestore(&imsic->vsfile_lock, flags); /* Do nothing, if no IMSIC VS-file to release */ if (old_vsfile_cpu < 0) return; /* * At this point, all interrupt producers are still using * the old IMSIC VS-file so we first re-direct all interrupt * producers. */ /* Purge the G-stage mapping */ kvm_riscv_gstage_iounmap(vcpu->kvm, vcpu->arch.aia_context.imsic_addr, IMSIC_MMIO_PAGE_SZ); /* TODO: Purge the IOMMU mapping ??? */ /* * At this point, all interrupt producers have been re-directed * to somewhere else so we move register state from the old IMSIC * VS-file to the IMSIC SW-file. */ /* Read and clear register state from old IMSIC VS-file */ memset(&tmrif, 0, sizeof(tmrif)); imsic_vsfile_read(old_vsfile_hgei, old_vsfile_cpu, imsic->nr_hw_eix, true, &tmrif); /* Update register state in IMSIC SW-file */ imsic_swfile_update(vcpu, &tmrif); /* Free-up old IMSIC VS-file */ kvm_riscv_aia_free_hgei(old_vsfile_cpu, old_vsfile_hgei); } int kvm_riscv_vcpu_aia_imsic_update(struct kvm_vcpu *vcpu) { unsigned long flags; phys_addr_t new_vsfile_pa; struct imsic_mrif tmrif; void __iomem *new_vsfile_va; struct kvm *kvm = vcpu->kvm; struct kvm_run *run = vcpu->run; struct kvm_vcpu_aia *vaia = &vcpu->arch.aia_context; struct imsic *imsic = vaia->imsic_state; int ret = 0, new_vsfile_hgei = -1, old_vsfile_hgei, old_vsfile_cpu; /* Do nothing for emulation mode */ if (kvm->arch.aia.mode == KVM_DEV_RISCV_AIA_MODE_EMUL) return 1; /* Read old IMSIC VS-file details */ read_lock_irqsave(&imsic->vsfile_lock, flags); old_vsfile_hgei = imsic->vsfile_hgei; old_vsfile_cpu = imsic->vsfile_cpu; read_unlock_irqrestore(&imsic->vsfile_lock, flags); /* Do nothing if we are continuing on same CPU */ if (old_vsfile_cpu == vcpu->cpu) return 1; /* Allocate new IMSIC VS-file */ ret = kvm_riscv_aia_alloc_hgei(vcpu->cpu, vcpu, &new_vsfile_va, &new_vsfile_pa); if (ret <= 0) { /* For HW acceleration mode, we can't continue */ if (kvm->arch.aia.mode == KVM_DEV_RISCV_AIA_MODE_HWACCEL) { run->fail_entry.hardware_entry_failure_reason = CSR_HSTATUS; run->fail_entry.cpu = vcpu->cpu; run->exit_reason = KVM_EXIT_FAIL_ENTRY; return 0; } /* Release old IMSIC VS-file */ if (old_vsfile_cpu >= 0) kvm_riscv_vcpu_aia_imsic_release(vcpu); /* For automatic mode, we continue */ goto done; } new_vsfile_hgei = ret; /* * At this point, all interrupt producers are still using * to the old IMSIC VS-file so we first move all interrupt * producers to the new IMSIC VS-file. */ /* Zero-out new IMSIC VS-file */ imsic_vsfile_local_clear(new_vsfile_hgei, imsic->nr_hw_eix); /* Update G-stage mapping for the new IMSIC VS-file */ ret = kvm_riscv_gstage_ioremap(kvm, vcpu->arch.aia_context.imsic_addr, new_vsfile_pa, IMSIC_MMIO_PAGE_SZ, true, true); if (ret) goto fail_free_vsfile_hgei; /* TODO: Update the IOMMU mapping ??? */ /* Update new IMSIC VS-file details in IMSIC context */ write_lock_irqsave(&imsic->vsfile_lock, flags); imsic->vsfile_hgei = new_vsfile_hgei; imsic->vsfile_cpu = vcpu->cpu; imsic->vsfile_va = new_vsfile_va; imsic->vsfile_pa = new_vsfile_pa; write_unlock_irqrestore(&imsic->vsfile_lock, flags); /* * At this point, all interrupt producers have been moved * to the new IMSIC VS-file so we move register state from * the old IMSIC VS/SW-file to the new IMSIC VS-file. */ memset(&tmrif, 0, sizeof(tmrif)); if (old_vsfile_cpu >= 0) { /* Read and clear register state from old IMSIC VS-file */ imsic_vsfile_read(old_vsfile_hgei, old_vsfile_cpu, imsic->nr_hw_eix, true, &tmrif); /* Free-up old IMSIC VS-file */ kvm_riscv_aia_free_hgei(old_vsfile_cpu, old_vsfile_hgei); } else { /* Read and clear register state from IMSIC SW-file */ imsic_swfile_read(vcpu, true, &tmrif); } /* Restore register state in the new IMSIC VS-file */ imsic_vsfile_local_update(new_vsfile_hgei, imsic->nr_hw_eix, &tmrif); done: /* Set VCPU HSTATUS.VGEIN to new IMSIC VS-file */ vcpu->arch.guest_context.hstatus &= ~HSTATUS_VGEIN; if (new_vsfile_hgei > 0) vcpu->arch.guest_context.hstatus |= ((unsigned long)new_vsfile_hgei) << HSTATUS_VGEIN_SHIFT; /* Continue run-loop */ return 1; fail_free_vsfile_hgei: kvm_riscv_aia_free_hgei(vcpu->cpu, new_vsfile_hgei); return ret; } int kvm_riscv_vcpu_aia_imsic_rmw(struct kvm_vcpu *vcpu, unsigned long isel, unsigned long *val, unsigned long new_val, unsigned long wr_mask) { u32 topei; struct imsic_mrif_eix *eix; int r, rc = KVM_INSN_CONTINUE_NEXT_SEPC; struct imsic *imsic = vcpu->arch.aia_context.imsic_state; if (isel == KVM_RISCV_AIA_IMSIC_TOPEI) { /* Read pending and enabled interrupt with highest priority */ topei = imsic_mrif_topei(imsic->swfile, imsic->nr_eix, imsic->nr_msis); if (val) *val = topei; /* Writes ignore value and clear top pending interrupt */ if (topei && wr_mask) { topei >>= TOPEI_ID_SHIFT; if (topei) { eix = &imsic->swfile->eix[topei / BITS_PER_TYPE(u64)]; clear_bit(topei & (BITS_PER_TYPE(u64) - 1), eix->eip); } } } else { r = imsic_mrif_rmw(imsic->swfile, imsic->nr_eix, isel, val, new_val, wr_mask); /* Forward unknown IMSIC register to user-space */ if (r) rc = (r == -ENOENT) ? 0 : KVM_INSN_ILLEGAL_TRAP; } if (wr_mask) imsic_swfile_extirq_update(vcpu); return rc; } int kvm_riscv_aia_imsic_rw_attr(struct kvm *kvm, unsigned long type, bool write, unsigned long *val) { u32 isel, vcpu_id; unsigned long flags; struct imsic *imsic; struct kvm_vcpu *vcpu; int rc, vsfile_hgei, vsfile_cpu; if (!kvm_riscv_aia_initialized(kvm)) return -ENODEV; vcpu_id = KVM_DEV_RISCV_AIA_IMSIC_GET_VCPU(type); vcpu = kvm_get_vcpu_by_id(kvm, vcpu_id); if (!vcpu) return -ENODEV; isel = KVM_DEV_RISCV_AIA_IMSIC_GET_ISEL(type); imsic = vcpu->arch.aia_context.imsic_state; read_lock_irqsave(&imsic->vsfile_lock, flags); rc = 0; vsfile_hgei = imsic->vsfile_hgei; vsfile_cpu = imsic->vsfile_cpu; if (vsfile_cpu < 0) { if (write) { rc = imsic_mrif_rmw(imsic->swfile, imsic->nr_eix, isel, NULL, *val, -1UL); imsic_swfile_extirq_update(vcpu); } else rc = imsic_mrif_rmw(imsic->swfile, imsic->nr_eix, isel, val, 0, 0); } read_unlock_irqrestore(&imsic->vsfile_lock, flags); if (!rc && vsfile_cpu >= 0) rc = imsic_vsfile_rw(vsfile_hgei, vsfile_cpu, imsic->nr_eix, isel, write, val); return rc; } int kvm_riscv_aia_imsic_has_attr(struct kvm *kvm, unsigned long type) { u32 isel, vcpu_id; struct imsic *imsic; struct kvm_vcpu *vcpu; if (!kvm_riscv_aia_initialized(kvm)) return -ENODEV; vcpu_id = KVM_DEV_RISCV_AIA_IMSIC_GET_VCPU(type); vcpu = kvm_get_vcpu_by_id(kvm, vcpu_id); if (!vcpu) return -ENODEV; isel = KVM_DEV_RISCV_AIA_IMSIC_GET_ISEL(type); imsic = vcpu->arch.aia_context.imsic_state; return imsic_mrif_isel_check(imsic->nr_eix, isel); } void kvm_riscv_vcpu_aia_imsic_reset(struct kvm_vcpu *vcpu) { struct imsic *imsic = vcpu->arch.aia_context.imsic_state; if (!imsic) return; kvm_riscv_vcpu_aia_imsic_release(vcpu); memset(imsic->swfile, 0, sizeof(*imsic->swfile)); } int kvm_riscv_vcpu_aia_imsic_inject(struct kvm_vcpu *vcpu, u32 guest_index, u32 offset, u32 iid) { unsigned long flags; struct imsic_mrif_eix *eix; struct imsic *imsic = vcpu->arch.aia_context.imsic_state; /* We only emulate one IMSIC MMIO page for each Guest VCPU */ if (!imsic || !iid || guest_index || (offset != IMSIC_MMIO_SETIPNUM_LE && offset != IMSIC_MMIO_SETIPNUM_BE)) return -ENODEV; iid = (offset == IMSIC_MMIO_SETIPNUM_BE) ? __swab32(iid) : iid; if (imsic->nr_msis <= iid) return -EINVAL; read_lock_irqsave(&imsic->vsfile_lock, flags); if (imsic->vsfile_cpu >= 0) { writel(iid, imsic->vsfile_va + IMSIC_MMIO_SETIPNUM_LE); kvm_vcpu_kick(vcpu); } else { eix = &imsic->swfile->eix[iid / BITS_PER_TYPE(u64)]; set_bit(iid & (BITS_PER_TYPE(u64) - 1), eix->eip); imsic_swfile_extirq_update(vcpu); } read_unlock_irqrestore(&imsic->vsfile_lock, flags); return 0; } static int imsic_mmio_read(struct kvm_vcpu *vcpu, struct kvm_io_device *dev, gpa_t addr, int len, void *val) { if (len != 4 || (addr & 0x3) != 0) return -EOPNOTSUPP; *((u32 *)val) = 0; return 0; } static int imsic_mmio_write(struct kvm_vcpu *vcpu, struct kvm_io_device *dev, gpa_t addr, int len, const void *val) { struct kvm_msi msi = { 0 }; if (len != 4 || (addr & 0x3) != 0) return -EOPNOTSUPP; msi.address_hi = addr >> 32; msi.address_lo = (u32)addr; msi.data = *((const u32 *)val); kvm_riscv_aia_inject_msi(vcpu->kvm, &msi); return 0; }; static struct kvm_io_device_ops imsic_iodoev_ops = { .read = imsic_mmio_read, .write = imsic_mmio_write, }; int kvm_riscv_vcpu_aia_imsic_init(struct kvm_vcpu *vcpu) { int ret = 0; struct imsic *imsic; struct page *swfile_page; struct kvm *kvm = vcpu->kvm; /* Fail if we have zero IDs */ if (!kvm->arch.aia.nr_ids) return -EINVAL; /* Allocate IMSIC context */ imsic = kzalloc(sizeof(*imsic), GFP_KERNEL); if (!imsic) return -ENOMEM; vcpu->arch.aia_context.imsic_state = imsic; /* Setup IMSIC context */ imsic->nr_msis = kvm->arch.aia.nr_ids + 1; rwlock_init(&imsic->vsfile_lock); imsic->nr_eix = BITS_TO_U64(imsic->nr_msis); imsic->nr_hw_eix = BITS_TO_U64(kvm_riscv_aia_max_ids); imsic->vsfile_hgei = imsic->vsfile_cpu = -1; /* Setup IMSIC SW-file */ swfile_page = alloc_pages(GFP_KERNEL | __GFP_ZERO, get_order(sizeof(*imsic->swfile))); if (!swfile_page) { ret = -ENOMEM; goto fail_free_imsic; } imsic->swfile = page_to_virt(swfile_page); imsic->swfile_pa = page_to_phys(swfile_page); spin_lock_init(&imsic->swfile_extirq_lock); /* Setup IO device */ kvm_iodevice_init(&imsic->iodev, &imsic_iodoev_ops); mutex_lock(&kvm->slots_lock); ret = kvm_io_bus_register_dev(kvm, KVM_MMIO_BUS, vcpu->arch.aia_context.imsic_addr, KVM_DEV_RISCV_IMSIC_SIZE, &imsic->iodev); mutex_unlock(&kvm->slots_lock); if (ret) goto fail_free_swfile; return 0; fail_free_swfile: free_pages((unsigned long)imsic->swfile, get_order(sizeof(*imsic->swfile))); fail_free_imsic: vcpu->arch.aia_context.imsic_state = NULL; kfree(imsic); return ret; } void kvm_riscv_vcpu_aia_imsic_cleanup(struct kvm_vcpu *vcpu) { struct kvm *kvm = vcpu->kvm; struct imsic *imsic = vcpu->arch.aia_context.imsic_state; if (!imsic) return; imsic_vsfile_cleanup(imsic); mutex_lock(&kvm->slots_lock); kvm_io_bus_unregister_dev(kvm, KVM_MMIO_BUS, &imsic->iodev); mutex_unlock(&kvm->slots_lock); free_pages((unsigned long)imsic->swfile, get_order(sizeof(*imsic->swfile))); vcpu->arch.aia_context.imsic_state = NULL; kfree(imsic); }
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