mirror of
https://github.com/AuxXxilium/linux_dsm_epyc7002.git
synced 2024-12-15 09:46:46 +07:00
1736353f17
If devm_ioremap_resource() detects an error condition in the return value through IS_ERR(), the return value should be retrieved through PTR_ERR() instead of hardcoding it. Fix the xgene_msi_probe() error return code. Signed-off-by: Fabio Estevam <festevam@gmail.com> [lorenzo.pieralisi@arm.com: rewrote commit log] Signed-off-by: Lorenzo Pieralisi <lorenzo.pieralisi@arm.com>
544 lines
14 KiB
C
544 lines
14 KiB
C
// SPDX-License-Identifier: GPL-2.0+
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/*
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* APM X-Gene MSI Driver
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*
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* Copyright (c) 2014, Applied Micro Circuits Corporation
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* Author: Tanmay Inamdar <tinamdar@apm.com>
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* Duc Dang <dhdang@apm.com>
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*/
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#include <linux/cpu.h>
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#include <linux/interrupt.h>
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#include <linux/module.h>
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#include <linux/msi.h>
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#include <linux/of_irq.h>
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#include <linux/irqchip/chained_irq.h>
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#include <linux/pci.h>
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#include <linux/platform_device.h>
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#include <linux/of_pci.h>
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#define MSI_IR0 0x000000
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#define MSI_INT0 0x800000
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#define IDX_PER_GROUP 8
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#define IRQS_PER_IDX 16
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#define NR_HW_IRQS 16
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#define NR_MSI_VEC (IDX_PER_GROUP * IRQS_PER_IDX * NR_HW_IRQS)
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struct xgene_msi_group {
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struct xgene_msi *msi;
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int gic_irq;
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u32 msi_grp;
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};
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struct xgene_msi {
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struct device_node *node;
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struct irq_domain *inner_domain;
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struct irq_domain *msi_domain;
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u64 msi_addr;
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void __iomem *msi_regs;
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unsigned long *bitmap;
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struct mutex bitmap_lock;
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struct xgene_msi_group *msi_groups;
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int num_cpus;
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};
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/* Global data */
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static struct xgene_msi xgene_msi_ctrl;
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static struct irq_chip xgene_msi_top_irq_chip = {
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.name = "X-Gene1 MSI",
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.irq_enable = pci_msi_unmask_irq,
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.irq_disable = pci_msi_mask_irq,
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.irq_mask = pci_msi_mask_irq,
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.irq_unmask = pci_msi_unmask_irq,
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};
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static struct msi_domain_info xgene_msi_domain_info = {
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.flags = (MSI_FLAG_USE_DEF_DOM_OPS | MSI_FLAG_USE_DEF_CHIP_OPS |
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MSI_FLAG_PCI_MSIX),
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.chip = &xgene_msi_top_irq_chip,
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};
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/*
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* X-Gene v1 has 16 groups of MSI termination registers MSInIRx, where
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* n is group number (0..F), x is index of registers in each group (0..7)
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* The register layout is as follows:
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* MSI0IR0 base_addr
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* MSI0IR1 base_addr + 0x10000
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* ... ...
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* MSI0IR6 base_addr + 0x60000
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* MSI0IR7 base_addr + 0x70000
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* MSI1IR0 base_addr + 0x80000
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* MSI1IR1 base_addr + 0x90000
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* ... ...
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* MSI1IR7 base_addr + 0xF0000
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* MSI2IR0 base_addr + 0x100000
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* ... ...
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* MSIFIR0 base_addr + 0x780000
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* MSIFIR1 base_addr + 0x790000
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* ... ...
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* MSIFIR7 base_addr + 0x7F0000
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* MSIINT0 base_addr + 0x800000
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* MSIINT1 base_addr + 0x810000
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* ... ...
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* MSIINTF base_addr + 0x8F0000
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*
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* Each index register supports 16 MSI vectors (0..15) to generate interrupt.
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* There are total 16 GIC IRQs assigned for these 16 groups of MSI termination
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* registers.
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*
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* Each MSI termination group has 1 MSIINTn register (n is 0..15) to indicate
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* the MSI pending status caused by 1 of its 8 index registers.
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*/
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/* MSInIRx read helper */
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static u32 xgene_msi_ir_read(struct xgene_msi *msi,
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u32 msi_grp, u32 msir_idx)
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{
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return readl_relaxed(msi->msi_regs + MSI_IR0 +
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(msi_grp << 19) + (msir_idx << 16));
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}
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/* MSIINTn read helper */
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static u32 xgene_msi_int_read(struct xgene_msi *msi, u32 msi_grp)
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{
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return readl_relaxed(msi->msi_regs + MSI_INT0 + (msi_grp << 16));
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}
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/*
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* With 2048 MSI vectors supported, the MSI message can be constructed using
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* following scheme:
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* - Divide into 8 256-vector groups
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* Group 0: 0-255
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* Group 1: 256-511
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* Group 2: 512-767
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* ...
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* Group 7: 1792-2047
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* - Each 256-vector group is divided into 16 16-vector groups
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* As an example: 16 16-vector groups for 256-vector group 0-255 is
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* Group 0: 0-15
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* Group 1: 16-32
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* ...
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* Group 15: 240-255
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* - The termination address of MSI vector in 256-vector group n and 16-vector
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* group x is the address of MSIxIRn
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* - The data for MSI vector in 16-vector group x is x
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*/
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static u32 hwirq_to_reg_set(unsigned long hwirq)
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{
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return (hwirq / (NR_HW_IRQS * IRQS_PER_IDX));
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}
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static u32 hwirq_to_group(unsigned long hwirq)
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{
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return (hwirq % NR_HW_IRQS);
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}
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static u32 hwirq_to_msi_data(unsigned long hwirq)
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{
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return ((hwirq / NR_HW_IRQS) % IRQS_PER_IDX);
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}
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static void xgene_compose_msi_msg(struct irq_data *data, struct msi_msg *msg)
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{
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struct xgene_msi *msi = irq_data_get_irq_chip_data(data);
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u32 reg_set = hwirq_to_reg_set(data->hwirq);
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u32 group = hwirq_to_group(data->hwirq);
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u64 target_addr = msi->msi_addr + (((8 * group) + reg_set) << 16);
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msg->address_hi = upper_32_bits(target_addr);
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msg->address_lo = lower_32_bits(target_addr);
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msg->data = hwirq_to_msi_data(data->hwirq);
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}
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/*
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* X-Gene v1 only has 16 MSI GIC IRQs for 2048 MSI vectors. To maintain
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* the expected behaviour of .set_affinity for each MSI interrupt, the 16
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* MSI GIC IRQs are statically allocated to 8 X-Gene v1 cores (2 GIC IRQs
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* for each core). The MSI vector is moved fom 1 MSI GIC IRQ to another
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* MSI GIC IRQ to steer its MSI interrupt to correct X-Gene v1 core. As a
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* consequence, the total MSI vectors that X-Gene v1 supports will be
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* reduced to 256 (2048/8) vectors.
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*/
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static int hwirq_to_cpu(unsigned long hwirq)
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{
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return (hwirq % xgene_msi_ctrl.num_cpus);
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}
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static unsigned long hwirq_to_canonical_hwirq(unsigned long hwirq)
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{
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return (hwirq - hwirq_to_cpu(hwirq));
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}
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static int xgene_msi_set_affinity(struct irq_data *irqdata,
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const struct cpumask *mask, bool force)
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{
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int target_cpu = cpumask_first(mask);
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int curr_cpu;
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curr_cpu = hwirq_to_cpu(irqdata->hwirq);
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if (curr_cpu == target_cpu)
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return IRQ_SET_MASK_OK_DONE;
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/* Update MSI number to target the new CPU */
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irqdata->hwirq = hwirq_to_canonical_hwirq(irqdata->hwirq) + target_cpu;
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return IRQ_SET_MASK_OK;
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}
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static struct irq_chip xgene_msi_bottom_irq_chip = {
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.name = "MSI",
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.irq_set_affinity = xgene_msi_set_affinity,
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.irq_compose_msi_msg = xgene_compose_msi_msg,
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};
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static int xgene_irq_domain_alloc(struct irq_domain *domain, unsigned int virq,
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unsigned int nr_irqs, void *args)
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{
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struct xgene_msi *msi = domain->host_data;
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int msi_irq;
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mutex_lock(&msi->bitmap_lock);
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msi_irq = bitmap_find_next_zero_area(msi->bitmap, NR_MSI_VEC, 0,
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msi->num_cpus, 0);
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if (msi_irq < NR_MSI_VEC)
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bitmap_set(msi->bitmap, msi_irq, msi->num_cpus);
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else
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msi_irq = -ENOSPC;
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mutex_unlock(&msi->bitmap_lock);
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if (msi_irq < 0)
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return msi_irq;
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irq_domain_set_info(domain, virq, msi_irq,
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&xgene_msi_bottom_irq_chip, domain->host_data,
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handle_simple_irq, NULL, NULL);
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return 0;
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}
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static void xgene_irq_domain_free(struct irq_domain *domain,
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unsigned int virq, unsigned int nr_irqs)
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{
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struct irq_data *d = irq_domain_get_irq_data(domain, virq);
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struct xgene_msi *msi = irq_data_get_irq_chip_data(d);
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u32 hwirq;
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mutex_lock(&msi->bitmap_lock);
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hwirq = hwirq_to_canonical_hwirq(d->hwirq);
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bitmap_clear(msi->bitmap, hwirq, msi->num_cpus);
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mutex_unlock(&msi->bitmap_lock);
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irq_domain_free_irqs_parent(domain, virq, nr_irqs);
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}
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static const struct irq_domain_ops msi_domain_ops = {
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.alloc = xgene_irq_domain_alloc,
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.free = xgene_irq_domain_free,
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};
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static int xgene_allocate_domains(struct xgene_msi *msi)
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{
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msi->inner_domain = irq_domain_add_linear(NULL, NR_MSI_VEC,
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&msi_domain_ops, msi);
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if (!msi->inner_domain)
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return -ENOMEM;
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msi->msi_domain = pci_msi_create_irq_domain(of_node_to_fwnode(msi->node),
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&xgene_msi_domain_info,
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msi->inner_domain);
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if (!msi->msi_domain) {
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irq_domain_remove(msi->inner_domain);
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return -ENOMEM;
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}
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return 0;
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}
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static void xgene_free_domains(struct xgene_msi *msi)
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{
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if (msi->msi_domain)
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irq_domain_remove(msi->msi_domain);
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if (msi->inner_domain)
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irq_domain_remove(msi->inner_domain);
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}
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static int xgene_msi_init_allocator(struct xgene_msi *xgene_msi)
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{
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int size = BITS_TO_LONGS(NR_MSI_VEC) * sizeof(long);
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xgene_msi->bitmap = kzalloc(size, GFP_KERNEL);
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if (!xgene_msi->bitmap)
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return -ENOMEM;
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mutex_init(&xgene_msi->bitmap_lock);
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xgene_msi->msi_groups = kcalloc(NR_HW_IRQS,
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sizeof(struct xgene_msi_group),
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GFP_KERNEL);
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if (!xgene_msi->msi_groups)
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return -ENOMEM;
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return 0;
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}
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static void xgene_msi_isr(struct irq_desc *desc)
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{
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struct irq_chip *chip = irq_desc_get_chip(desc);
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struct xgene_msi_group *msi_groups;
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struct xgene_msi *xgene_msi;
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unsigned int virq;
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int msir_index, msir_val, hw_irq;
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u32 intr_index, grp_select, msi_grp;
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chained_irq_enter(chip, desc);
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msi_groups = irq_desc_get_handler_data(desc);
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xgene_msi = msi_groups->msi;
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msi_grp = msi_groups->msi_grp;
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/*
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* MSIINTn (n is 0..F) indicates if there is a pending MSI interrupt
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* If bit x of this register is set (x is 0..7), one or more interupts
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* corresponding to MSInIRx is set.
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*/
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grp_select = xgene_msi_int_read(xgene_msi, msi_grp);
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while (grp_select) {
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msir_index = ffs(grp_select) - 1;
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/*
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* Calculate MSInIRx address to read to check for interrupts
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* (refer to termination address and data assignment
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* described in xgene_compose_msi_msg() )
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*/
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msir_val = xgene_msi_ir_read(xgene_msi, msi_grp, msir_index);
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while (msir_val) {
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intr_index = ffs(msir_val) - 1;
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/*
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* Calculate MSI vector number (refer to the termination
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* address and data assignment described in
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* xgene_compose_msi_msg function)
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*/
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hw_irq = (((msir_index * IRQS_PER_IDX) + intr_index) *
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NR_HW_IRQS) + msi_grp;
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/*
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* As we have multiple hw_irq that maps to single MSI,
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* always look up the virq using the hw_irq as seen from
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* CPU0
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*/
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hw_irq = hwirq_to_canonical_hwirq(hw_irq);
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virq = irq_find_mapping(xgene_msi->inner_domain, hw_irq);
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WARN_ON(!virq);
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if (virq != 0)
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generic_handle_irq(virq);
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msir_val &= ~(1 << intr_index);
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}
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grp_select &= ~(1 << msir_index);
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if (!grp_select) {
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/*
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* We handled all interrupts happened in this group,
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* resample this group MSI_INTx register in case
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* something else has been made pending in the meantime
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*/
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grp_select = xgene_msi_int_read(xgene_msi, msi_grp);
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}
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}
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chained_irq_exit(chip, desc);
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}
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static enum cpuhp_state pci_xgene_online;
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static int xgene_msi_remove(struct platform_device *pdev)
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{
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struct xgene_msi *msi = platform_get_drvdata(pdev);
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if (pci_xgene_online)
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cpuhp_remove_state(pci_xgene_online);
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cpuhp_remove_state(CPUHP_PCI_XGENE_DEAD);
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kfree(msi->msi_groups);
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kfree(msi->bitmap);
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msi->bitmap = NULL;
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xgene_free_domains(msi);
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return 0;
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}
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static int xgene_msi_hwirq_alloc(unsigned int cpu)
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{
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struct xgene_msi *msi = &xgene_msi_ctrl;
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struct xgene_msi_group *msi_group;
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cpumask_var_t mask;
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int i;
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int err;
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for (i = cpu; i < NR_HW_IRQS; i += msi->num_cpus) {
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msi_group = &msi->msi_groups[i];
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if (!msi_group->gic_irq)
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continue;
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irq_set_chained_handler(msi_group->gic_irq,
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xgene_msi_isr);
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err = irq_set_handler_data(msi_group->gic_irq, msi_group);
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if (err) {
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pr_err("failed to register GIC IRQ handler\n");
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return -EINVAL;
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}
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/*
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* Statically allocate MSI GIC IRQs to each CPU core.
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* With 8-core X-Gene v1, 2 MSI GIC IRQs are allocated
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* to each core.
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*/
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if (alloc_cpumask_var(&mask, GFP_KERNEL)) {
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cpumask_clear(mask);
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cpumask_set_cpu(cpu, mask);
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err = irq_set_affinity(msi_group->gic_irq, mask);
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if (err)
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pr_err("failed to set affinity for GIC IRQ");
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free_cpumask_var(mask);
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} else {
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pr_err("failed to alloc CPU mask for affinity\n");
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err = -EINVAL;
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}
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if (err) {
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irq_set_chained_handler_and_data(msi_group->gic_irq,
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NULL, NULL);
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return err;
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}
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}
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return 0;
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}
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static int xgene_msi_hwirq_free(unsigned int cpu)
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{
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struct xgene_msi *msi = &xgene_msi_ctrl;
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struct xgene_msi_group *msi_group;
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int i;
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for (i = cpu; i < NR_HW_IRQS; i += msi->num_cpus) {
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msi_group = &msi->msi_groups[i];
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if (!msi_group->gic_irq)
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continue;
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irq_set_chained_handler_and_data(msi_group->gic_irq, NULL,
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NULL);
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}
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return 0;
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}
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static const struct of_device_id xgene_msi_match_table[] = {
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{.compatible = "apm,xgene1-msi"},
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{},
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};
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static int xgene_msi_probe(struct platform_device *pdev)
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{
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struct resource *res;
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int rc, irq_index;
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struct xgene_msi *xgene_msi;
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int virt_msir;
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u32 msi_val, msi_idx;
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xgene_msi = &xgene_msi_ctrl;
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platform_set_drvdata(pdev, xgene_msi);
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res = platform_get_resource(pdev, IORESOURCE_MEM, 0);
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xgene_msi->msi_regs = devm_ioremap_resource(&pdev->dev, res);
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if (IS_ERR(xgene_msi->msi_regs)) {
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dev_err(&pdev->dev, "no reg space\n");
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rc = PTR_ERR(xgene_msi->msi_regs);
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goto error;
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}
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xgene_msi->msi_addr = res->start;
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xgene_msi->node = pdev->dev.of_node;
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xgene_msi->num_cpus = num_possible_cpus();
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rc = xgene_msi_init_allocator(xgene_msi);
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if (rc) {
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dev_err(&pdev->dev, "Error allocating MSI bitmap\n");
|
|
goto error;
|
|
}
|
|
|
|
rc = xgene_allocate_domains(xgene_msi);
|
|
if (rc) {
|
|
dev_err(&pdev->dev, "Failed to allocate MSI domain\n");
|
|
goto error;
|
|
}
|
|
|
|
for (irq_index = 0; irq_index < NR_HW_IRQS; irq_index++) {
|
|
virt_msir = platform_get_irq(pdev, irq_index);
|
|
if (virt_msir < 0) {
|
|
dev_err(&pdev->dev, "Cannot translate IRQ index %d\n",
|
|
irq_index);
|
|
rc = virt_msir;
|
|
goto error;
|
|
}
|
|
xgene_msi->msi_groups[irq_index].gic_irq = virt_msir;
|
|
xgene_msi->msi_groups[irq_index].msi_grp = irq_index;
|
|
xgene_msi->msi_groups[irq_index].msi = xgene_msi;
|
|
}
|
|
|
|
/*
|
|
* MSInIRx registers are read-to-clear; before registering
|
|
* interrupt handlers, read all of them to clear spurious
|
|
* interrupts that may occur before the driver is probed.
|
|
*/
|
|
for (irq_index = 0; irq_index < NR_HW_IRQS; irq_index++) {
|
|
for (msi_idx = 0; msi_idx < IDX_PER_GROUP; msi_idx++)
|
|
msi_val = xgene_msi_ir_read(xgene_msi, irq_index,
|
|
msi_idx);
|
|
/* Read MSIINTn to confirm */
|
|
msi_val = xgene_msi_int_read(xgene_msi, irq_index);
|
|
if (msi_val) {
|
|
dev_err(&pdev->dev, "Failed to clear spurious IRQ\n");
|
|
rc = -EINVAL;
|
|
goto error;
|
|
}
|
|
}
|
|
|
|
rc = cpuhp_setup_state(CPUHP_AP_ONLINE_DYN, "pci/xgene:online",
|
|
xgene_msi_hwirq_alloc, NULL);
|
|
if (rc < 0)
|
|
goto err_cpuhp;
|
|
pci_xgene_online = rc;
|
|
rc = cpuhp_setup_state(CPUHP_PCI_XGENE_DEAD, "pci/xgene:dead", NULL,
|
|
xgene_msi_hwirq_free);
|
|
if (rc)
|
|
goto err_cpuhp;
|
|
|
|
dev_info(&pdev->dev, "APM X-Gene PCIe MSI driver loaded\n");
|
|
|
|
return 0;
|
|
|
|
err_cpuhp:
|
|
dev_err(&pdev->dev, "failed to add CPU MSI notifier\n");
|
|
error:
|
|
xgene_msi_remove(pdev);
|
|
return rc;
|
|
}
|
|
|
|
static struct platform_driver xgene_msi_driver = {
|
|
.driver = {
|
|
.name = "xgene-msi",
|
|
.of_match_table = xgene_msi_match_table,
|
|
},
|
|
.probe = xgene_msi_probe,
|
|
.remove = xgene_msi_remove,
|
|
};
|
|
|
|
static int __init xgene_pcie_msi_init(void)
|
|
{
|
|
return platform_driver_register(&xgene_msi_driver);
|
|
}
|
|
subsys_initcall(xgene_pcie_msi_init);
|