/* * Copyright (c) 2019 Intel Corporation * * SPDX-License-Identifier: Apache-2.0 */ #include #include #include #ifdef CONFIG_ACPI #include #endif #ifdef CONFIG_PCIE_MSI #include #include #include #endif /* PCI Express Extended Configuration Mechanism (MMIO) */ #ifdef CONFIG_PCIE_MMIO_CFG #define MAX_PCI_BUS_SEGMENTS 4 static struct { uint32_t start_bus; uint32_t n_buses; uint8_t *mmio; } bus_segs[MAX_PCI_BUS_SEGMENTS]; static bool do_pcie_mmio_cfg; static void pcie_mm_init(void) { #ifdef CONFIG_ACPI struct acpi_mcfg *m = z_acpi_find_table(ACPI_MCFG_SIGNATURE); if (m != NULL) { int n = (m->sdt.length - sizeof(*m)) / sizeof(m->pci_segs[0]); for (int i = 0; i < n && i < MAX_PCI_BUS_SEGMENTS; i++) { size_t size; uintptr_t phys_addr; bus_segs[i].start_bus = m->pci_segs[i].start_bus; bus_segs[i].n_buses = 1 + m->pci_segs[i].end_bus - m->pci_segs[i].start_bus; phys_addr = m->pci_segs[i].base_addr; /* 32 devices & 8 functions per bus, 4k per device */ size = bus_segs[i].n_buses * (32 * 8 * 4096); device_map((mm_reg_t *)&bus_segs[i].mmio, phys_addr, size, K_MEM_CACHE_NONE); } do_pcie_mmio_cfg = true; } #endif } static inline void pcie_mm_conf(pcie_bdf_t bdf, unsigned int reg, bool write, uint32_t *data) { for (int i = 0; i < ARRAY_SIZE(bus_segs); i++) { int off = PCIE_BDF_TO_BUS(bdf) - bus_segs[i].start_bus; if (off >= 0 && off < bus_segs[i].n_buses) { bdf = PCIE_BDF(off, PCIE_BDF_TO_DEV(bdf), PCIE_BDF_TO_FUNC(bdf)); volatile uint32_t *regs = (void *)&bus_segs[i].mmio[bdf << 4]; if (write) { regs[reg] = *data; } else { *data = regs[reg]; } } } } #endif /* CONFIG_PCIE_MMIO_CFG */ /* Traditional Configuration Mechanism */ #define PCIE_X86_CAP 0xCF8U /* Configuration Address Port */ #define PCIE_X86_CAP_BDF_MASK 0x00FFFF00U /* b/d/f bits */ #define PCIE_X86_CAP_EN 0x80000000U /* enable bit */ #define PCIE_X86_CAP_WORD_MASK 0x3FU /* 6-bit word index .. */ #define PCIE_X86_CAP_WORD_SHIFT 2U /* .. is in CAP[7:2] */ #define PCIE_X86_CDP 0xCFCU /* Configuration Data Port */ /* * Helper function for exported configuration functions. Configuration access * ain't atomic, so spinlock to keep drivers from clobbering each other. */ static inline void pcie_io_conf(pcie_bdf_t bdf, unsigned int reg, bool write, uint32_t *data) { static struct k_spinlock lock; k_spinlock_key_t k; bdf &= PCIE_X86_CAP_BDF_MASK; bdf |= PCIE_X86_CAP_EN; bdf |= (reg & PCIE_X86_CAP_WORD_MASK) << PCIE_X86_CAP_WORD_SHIFT; k = k_spin_lock(&lock); sys_out32(bdf, PCIE_X86_CAP); if (write) { sys_out32(*data, PCIE_X86_CDP); } else { *data = sys_in32(PCIE_X86_CDP); } sys_out32(0U, PCIE_X86_CAP); k_spin_unlock(&lock, k); } static inline void pcie_conf(pcie_bdf_t bdf, unsigned int reg, bool write, uint32_t *data) { #ifdef CONFIG_PCIE_MMIO_CFG if (bus_segs[0].mmio == NULL) { pcie_mm_init(); } if (do_pcie_mmio_cfg) { pcie_mm_conf(bdf, reg, write, data); } else #endif { pcie_io_conf(bdf, reg, write, data); } } /* these functions are explained in include/drivers/pcie/pcie.h */ uint32_t pcie_conf_read(pcie_bdf_t bdf, unsigned int reg) { uint32_t data = 0; pcie_conf(bdf, reg, false, &data); return data; } void pcie_conf_write(pcie_bdf_t bdf, unsigned int reg, uint32_t data) { pcie_conf(bdf, reg, true, &data); } #ifdef CONFIG_PCIE_MSI #ifdef CONFIG_INTEL_VTD_ICTL #include static const struct device *vtd; static bool get_vtd(void) { if (vtd != NULL) { return true; } #define DT_DRV_COMPAT intel_vt_d vtd = device_get_binding(DT_INST_LABEL(0)); #undef DT_DRV_COMPAT return vtd == NULL ? false : true; } #endif /* CONFIG_INTEL_VTD_ICTL */ /* these functions are explained in include/drivers/pcie/msi.h */ uint32_t pcie_msi_map(unsigned int irq, msi_vector_t *vector) { uint32_t map; ARG_UNUSED(irq); #if defined(CONFIG_INTEL_VTD_ICTL) #if !defined(CONFIG_PCIE_MSI_X) if (vector != NULL) { map = vtd_remap_msi(vtd, vector); } else #else if (vector != NULL && !vector->msix) { map = vtd_remap_msi(vtd, vector); } else #endif #endif { map = 0xFEE00000U; /* standard delivery to BSP local APIC */ } return map; } uint16_t pcie_msi_mdr(unsigned int irq, msi_vector_t *vector) { #ifdef CONFIG_PCIE_MSI_X if ((vector != NULL) && (vector->msix)) { return 0x4000U | vector->arch.vector; } #endif if (vector == NULL) { /* edge triggered */ return 0x4000U | Z_IRQ_TO_INTERRUPT_VECTOR(irq); } /* VT-D requires it to be 0, so let's return 0 by default */ return 0; } #if defined(CONFIG_INTEL_VTD_ICTL) || defined(CONFIG_PCIE_MSI_X) static inline uint32_t _read_pcie_irq_data(pcie_bdf_t bdf) { uint32_t data; data = pcie_conf_read(bdf, PCIE_CONF_INTR); pcie_conf_write(bdf, PCIE_CONF_INTR, data | PCIE_CONF_INTR_IRQ_NONE); return data; } static inline void _write_pcie_irq_data(pcie_bdf_t bdf, uint32_t data) { pcie_conf_write(bdf, PCIE_CONF_INTR, data); } uint8_t arch_pcie_msi_vectors_allocate(unsigned int priority, msi_vector_t *vectors, uint8_t n_vector) { if (n_vector > 1) { int prev_vector = -1; int i; #ifdef CONFIG_INTEL_VTD_ICTL #ifdef CONFIG_PCIE_MSI_X if (!vectors[0].msix) #endif { int irte; if (!get_vtd()) { return 0; } irte = vtd_allocate_entries(vtd, n_vector); if (irte < 0) { return 0; } for (i = irte; i < (irte + n_vector); i++) { vectors[i].arch.irte = i; vectors[i].arch.remap = true; } } #endif /* CONFIG_INTEL_VTD_ICTL */ for (i = 0; i < n_vector; i++) { uint32_t data; data = _read_pcie_irq_data(vectors[i].bdf); vectors[i].arch.irq = pcie_alloc_irq(vectors[i].bdf); _write_pcie_irq_data(vectors[i].bdf, data); vectors[i].arch.vector = z_x86_allocate_vector(priority, prev_vector); if (vectors[i].arch.vector < 0) { return 0; } prev_vector = vectors[i].arch.vector; } } else { vectors[0].arch.vector = z_x86_allocate_vector(priority, -1); } return n_vector; } bool arch_pcie_msi_vector_connect(msi_vector_t *vector, void (*routine)(const void *parameter), const void *parameter, uint32_t flags) { #ifdef CONFIG_INTEL_VTD_ICTL if (vector->arch.remap) { if (!get_vtd()) { return false; } vtd_remap(vtd, vector); } #endif /* CONFIG_INTEL_VTD_ICTL */ z_x86_irq_connect_on_vector(vector->arch.irq, vector->arch.vector, routine, parameter, flags); return true; } #endif /* CONFIG_INTEL_VTD_ICTL || CONFIG_PCIE_MSI_X */ #endif /* CONFIG_PCIE_MSI */