/* * Try to allocate 'count' interrupt sources with contiguous IDT values. */ int msi_alloc(device_t dev, int count, int maxcount, int *irqs) { struct msi_intsrc *msi, *fsrc; u_int cpu; int cnt, i, *mirqs, vector; if (!msi_enabled) return (ENXIO); if (count > 1) mirqs = malloc(count * sizeof(*mirqs), M_MSI, M_WAITOK); else mirqs = NULL; again: mtx_lock(&msi_lock); /* Try to find 'count' free IRQs. */ cnt = 0; for (i = FIRST_MSI_INT; i < FIRST_MSI_INT + NUM_MSI_INTS; i++) { msi = (struct msi_intsrc *)intr_lookup_source(i); /* End of allocated sources, so break. */ if (msi == NULL) break; /* If this is a free one, save its IRQ in the array. */ if (msi->msi_dev == NULL) { irqs[cnt] = i; cnt++; if (cnt == count) break; } } /* Do we need to create some new sources? */ if (cnt < count) { /* If we would exceed the max, give up. */ if (i + (count - cnt) > FIRST_MSI_INT + NUM_MSI_INTS) { mtx_unlock(&msi_lock); free(mirqs, M_MSI); return (ENXIO); } mtx_unlock(&msi_lock); /* We need count - cnt more sources. */ while (cnt < count) { msi_create_source(); cnt++; } goto again; } /* Ok, we now have the IRQs allocated. */ KASSERT(cnt == count, ("count mismatch")); /* Allocate 'count' IDT vectors. */ cpu = intr_next_cpu(); vector = apic_alloc_vectors(cpu, irqs, count, maxcount); if (vector == 0) { mtx_unlock(&msi_lock); free(mirqs, M_MSI); return (ENOSPC); } /* Assign IDT vectors and make these messages owned by 'dev'. */ fsrc = (struct msi_intsrc *)intr_lookup_source(irqs[0]); for (i = 0; i < count; i++) { msi = (struct msi_intsrc *)intr_lookup_source(irqs[i]); msi->msi_cpu = cpu; msi->msi_dev = dev; msi->msi_vector = vector + i; if (bootverbose) printf( "msi: routing MSI IRQ %d to local APIC %u vector %u\n", msi->msi_irq, msi->msi_cpu, msi->msi_vector); msi->msi_first = fsrc; KASSERT(msi->msi_intsrc.is_handlers == 0, ("dead MSI has handlers")); } fsrc->msi_count = count; fsrc->msi_maxcount = maxcount; if (count > 1) bcopy(irqs, mirqs, count * sizeof(*mirqs)); fsrc->msi_irqs = mirqs; mtx_unlock(&msi_lock); return (0); }
int msix_alloc(device_t dev, int *irq) { struct msi_intsrc *msi; u_int cpu; int i, vector; if (!msi_enabled) return (ENXIO); again: mtx_lock(&msi_lock); /* Find a free IRQ. */ for (i = FIRST_MSI_INT; i < FIRST_MSI_INT + NUM_MSI_INTS; i++) { msi = (struct msi_intsrc *)intr_lookup_source(i); /* End of allocated sources, so break. */ if (msi == NULL) break; /* Stop at the first free source. */ if (msi->msi_dev == NULL) break; } /* Do we need to create a new source? */ if (msi == NULL) { /* If we would exceed the max, give up. */ if (i + 1 > FIRST_MSI_INT + NUM_MSI_INTS) { mtx_unlock(&msi_lock); return (ENXIO); } mtx_unlock(&msi_lock); /* Create a new source. */ msi_create_source(); goto again; } /* Allocate an IDT vector. */ cpu = intr_next_cpu(); vector = apic_alloc_vector(cpu, i); if (vector == 0) { mtx_unlock(&msi_lock); return (ENOSPC); } if (bootverbose) printf("msi: routing MSI-X IRQ %d to local APIC %u vector %u\n", msi->msi_irq, cpu, vector); /* Setup source. */ msi->msi_cpu = cpu; msi->msi_dev = dev; msi->msi_first = msi; msi->msi_vector = vector; msi->msi_msix = 1; msi->msi_count = 1; msi->msi_maxcount = 1; msi->msi_irqs = NULL; KASSERT(msi->msi_intsrc.is_handlers == 0, ("dead MSI-X has handlers")); mtx_unlock(&msi_lock); *irq = i; return (0); }
int msix_alloc(device_t dev, int *irq) { struct msi_intsrc *msi; u_int cpu; int i, vector; #ifdef ACPI_DMAR u_int cookie; int error; #endif if (!msi_enabled) { printf("%s:%d MSIX disabled - thus MSIX\n", __FILE__, __LINE__); return (ENXIO); } again: mtx_lock(&msi_lock); /* Find a free IRQ. */ for (i = FIRST_MSI_INT; i < FIRST_MSI_INT + NUM_MSI_INTS; i++) { msi = (struct msi_intsrc *)intr_lookup_source(i); /* End of allocated sources, so break. */ if (msi == NULL) break; /* Stop at the first free source. */ if (msi->msi_dev == NULL) break; } /* Do we need to create a new source? */ if (msi == NULL) { /* If we would exceed the max, give up. */ if (i + 1 > FIRST_MSI_INT + NUM_MSI_INTS) { mtx_unlock(&msi_lock); printf("%s:%d MSIX allocation failure\n", __FILE__, __LINE__); return (ENXIO); } mtx_unlock(&msi_lock); /* Create a new source. */ msi_create_source(); goto again; } /* Allocate an IDT vector. */ cpu = intr_next_cpu(); vector = apic_alloc_vector(cpu, i); if (vector == 0) { mtx_unlock(&msi_lock); return (ENOSPC); } msi->msi_dev = dev; #ifdef ACPI_DMAR mtx_unlock(&msi_lock); error = iommu_alloc_msi_intr(dev, &cookie, 1); mtx_lock(&msi_lock); if (error == EOPNOTSUPP) error = 0; if (error != 0) { msi->msi_dev = NULL; apic_free_vector(cpu, vector, i); return (error); } msi->msi_remap_cookie = cookie; #endif if (bootverbose) printf("msi: routing MSI-X IRQ %d to local APIC %u vector %u\n", msi->msi_irq, cpu, vector); /* Setup source. */ msi->msi_cpu = cpu; msi->msi_first = msi; msi->msi_vector = vector; msi->msi_msix = 1; msi->msi_count = 1; msi->msi_maxcount = 1; msi->msi_irqs = NULL; KASSERT(msi->msi_intsrc.is_handlers == 0, ("dead MSI-X has handlers")); mtx_unlock(&msi_lock); *irq = i; return (0); }