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407d1a5192
The PCI endpoint device such as Xilinx Alveo PCI card maps the register spaces from multiple hardware peripherals to its PCI BAR. Normally, the PCI core discovers devices and BARs using the PCI enumeration process. There is no infrastructure to discover the hardware peripherals that are present in a PCI device, and which can be accessed through the PCI BARs. Apparently, the device tree framework requires a device tree node for the PCI device. Thus, it can generate the device tree nodes for hardware peripherals underneath. Because PCI is self discoverable bus, there might not be a device tree node created for PCI devices. Furthermore, if the PCI device is hot pluggable, when it is plugged in, the device tree nodes for its parent bridges are required. Add support to generate device tree node for PCI bridges. Add an of_pci_make_dev_node() interface that can be used to create device tree node for PCI devices. Add a PCI_DYNAMIC_OF_NODES config option. When the option is turned on, the kernel will generate device tree nodes for PCI bridges unconditionally. Initially, add the basic properties for the dynamically generated device tree nodes which include #address-cells, #size-cells, device_type, compatible, ranges, reg. Acked-by: Bjorn Helgaas <bhelgaas@google.com> Signed-off-by: Lizhi Hou <lizhi.hou@amd.com> Link: https://lore.kernel.org/r/1692120000-46900-3-git-send-email-lizhi.hou@amd.com Signed-off-by: Rob Herring <robh@kernel.org>
356 lines
8.5 KiB
C
356 lines
8.5 KiB
C
// SPDX-License-Identifier: GPL-2.0+
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/*
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* Copyright (C) 2022-2023, Advanced Micro Devices, Inc.
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*/
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#include <linux/pci.h>
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#include <linux/of.h>
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#include <linux/of_irq.h>
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#include <linux/bitfield.h>
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#include <linux/bits.h>
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#include "pci.h"
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#define OF_PCI_ADDRESS_CELLS 3
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#define OF_PCI_SIZE_CELLS 2
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#define OF_PCI_MAX_INT_PIN 4
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struct of_pci_addr_pair {
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u32 phys_addr[OF_PCI_ADDRESS_CELLS];
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u32 size[OF_PCI_SIZE_CELLS];
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};
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/*
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* Each entry in the ranges table is a tuple containing the child address,
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* the parent address, and the size of the region in the child address space.
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* Thus, for PCI, in each entry parent address is an address on the primary
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* side and the child address is the corresponding address on the secondary
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* side.
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*/
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struct of_pci_range {
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u32 child_addr[OF_PCI_ADDRESS_CELLS];
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u32 parent_addr[OF_PCI_ADDRESS_CELLS];
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u32 size[OF_PCI_SIZE_CELLS];
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};
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#define OF_PCI_ADDR_SPACE_IO 0x1
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#define OF_PCI_ADDR_SPACE_MEM32 0x2
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#define OF_PCI_ADDR_SPACE_MEM64 0x3
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#define OF_PCI_ADDR_FIELD_NONRELOC BIT(31)
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#define OF_PCI_ADDR_FIELD_SS GENMASK(25, 24)
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#define OF_PCI_ADDR_FIELD_PREFETCH BIT(30)
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#define OF_PCI_ADDR_FIELD_BUS GENMASK(23, 16)
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#define OF_PCI_ADDR_FIELD_DEV GENMASK(15, 11)
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#define OF_PCI_ADDR_FIELD_FUNC GENMASK(10, 8)
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#define OF_PCI_ADDR_FIELD_REG GENMASK(7, 0)
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enum of_pci_prop_compatible {
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PROP_COMPAT_PCI_VVVV_DDDD,
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PROP_COMPAT_PCICLASS_CCSSPP,
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PROP_COMPAT_PCICLASS_CCSS,
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PROP_COMPAT_NUM,
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};
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static void of_pci_set_address(struct pci_dev *pdev, u32 *prop, u64 addr,
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u32 reg_num, u32 flags, bool reloc)
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{
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prop[0] = FIELD_PREP(OF_PCI_ADDR_FIELD_BUS, pdev->bus->number) |
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FIELD_PREP(OF_PCI_ADDR_FIELD_DEV, PCI_SLOT(pdev->devfn)) |
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FIELD_PREP(OF_PCI_ADDR_FIELD_FUNC, PCI_FUNC(pdev->devfn));
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prop[0] |= flags | reg_num;
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if (!reloc) {
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prop[0] |= OF_PCI_ADDR_FIELD_NONRELOC;
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prop[1] = upper_32_bits(addr);
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prop[2] = lower_32_bits(addr);
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}
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}
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static int of_pci_get_addr_flags(struct resource *res, u32 *flags)
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{
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u32 ss;
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if (res->flags & IORESOURCE_IO)
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ss = OF_PCI_ADDR_SPACE_IO;
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else if (res->flags & IORESOURCE_MEM_64)
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ss = OF_PCI_ADDR_SPACE_MEM64;
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else if (res->flags & IORESOURCE_MEM)
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ss = OF_PCI_ADDR_SPACE_MEM32;
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else
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return -EINVAL;
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*flags = 0;
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if (res->flags & IORESOURCE_PREFETCH)
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*flags |= OF_PCI_ADDR_FIELD_PREFETCH;
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*flags |= FIELD_PREP(OF_PCI_ADDR_FIELD_SS, ss);
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return 0;
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}
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static int of_pci_prop_bus_range(struct pci_dev *pdev,
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struct of_changeset *ocs,
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struct device_node *np)
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{
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u32 bus_range[] = { pdev->subordinate->busn_res.start,
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pdev->subordinate->busn_res.end };
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return of_changeset_add_prop_u32_array(ocs, np, "bus-range", bus_range,
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ARRAY_SIZE(bus_range));
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}
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static int of_pci_prop_ranges(struct pci_dev *pdev, struct of_changeset *ocs,
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struct device_node *np)
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{
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struct of_pci_range *rp;
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struct resource *res;
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int i, j, ret;
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u32 flags, num;
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u64 val64;
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if (pci_is_bridge(pdev)) {
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num = PCI_BRIDGE_RESOURCE_NUM;
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res = &pdev->resource[PCI_BRIDGE_RESOURCES];
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} else {
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num = PCI_STD_NUM_BARS;
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res = &pdev->resource[PCI_STD_RESOURCES];
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}
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rp = kcalloc(num, sizeof(*rp), GFP_KERNEL);
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if (!rp)
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return -ENOMEM;
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for (i = 0, j = 0; j < num; j++) {
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if (!resource_size(&res[j]))
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continue;
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if (of_pci_get_addr_flags(&res[j], &flags))
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continue;
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val64 = res[j].start;
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of_pci_set_address(pdev, rp[i].parent_addr, val64, 0, flags,
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false);
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if (pci_is_bridge(pdev)) {
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memcpy(rp[i].child_addr, rp[i].parent_addr,
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sizeof(rp[i].child_addr));
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} else {
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/*
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* For endpoint device, the lower 64-bits of child
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* address is always zero.
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*/
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rp[i].child_addr[0] = j;
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}
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val64 = resource_size(&res[j]);
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rp[i].size[0] = upper_32_bits(val64);
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rp[i].size[1] = lower_32_bits(val64);
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i++;
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}
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ret = of_changeset_add_prop_u32_array(ocs, np, "ranges", (u32 *)rp,
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i * sizeof(*rp) / sizeof(u32));
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kfree(rp);
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return ret;
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}
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static int of_pci_prop_reg(struct pci_dev *pdev, struct of_changeset *ocs,
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struct device_node *np)
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{
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struct of_pci_addr_pair reg = { 0 };
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/* configuration space */
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of_pci_set_address(pdev, reg.phys_addr, 0, 0, 0, true);
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return of_changeset_add_prop_u32_array(ocs, np, "reg", (u32 *)®,
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sizeof(reg) / sizeof(u32));
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}
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static int of_pci_prop_interrupts(struct pci_dev *pdev,
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struct of_changeset *ocs,
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struct device_node *np)
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{
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int ret;
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u8 pin;
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ret = pci_read_config_byte(pdev, PCI_INTERRUPT_PIN, &pin);
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if (ret != 0)
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return ret;
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if (!pin)
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return 0;
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return of_changeset_add_prop_u32(ocs, np, "interrupts", (u32)pin);
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}
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static int of_pci_prop_intr_map(struct pci_dev *pdev, struct of_changeset *ocs,
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struct device_node *np)
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{
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struct of_phandle_args out_irq[OF_PCI_MAX_INT_PIN];
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u32 i, addr_sz[OF_PCI_MAX_INT_PIN], map_sz = 0;
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__be32 laddr[OF_PCI_ADDRESS_CELLS] = { 0 };
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u32 int_map_mask[] = { 0xffff00, 0, 0, 7 };
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struct device_node *pnode;
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struct pci_dev *child;
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u32 *int_map, *mapp;
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int ret;
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u8 pin;
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pnode = pci_device_to_OF_node(pdev->bus->self);
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if (!pnode)
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pnode = pci_bus_to_OF_node(pdev->bus);
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if (!pnode) {
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pci_err(pdev, "failed to get parent device node");
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return -EINVAL;
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}
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laddr[0] = cpu_to_be32((pdev->bus->number << 16) | (pdev->devfn << 8));
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for (pin = 1; pin <= OF_PCI_MAX_INT_PIN; pin++) {
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i = pin - 1;
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out_irq[i].np = pnode;
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out_irq[i].args_count = 1;
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out_irq[i].args[0] = pin;
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ret = of_irq_parse_raw(laddr, &out_irq[i]);
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if (ret) {
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pci_err(pdev, "parse irq %d failed, ret %d", pin, ret);
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continue;
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}
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ret = of_property_read_u32(out_irq[i].np, "#address-cells",
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&addr_sz[i]);
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if (ret)
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addr_sz[i] = 0;
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}
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list_for_each_entry(child, &pdev->subordinate->devices, bus_list) {
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for (pin = 1; pin <= OF_PCI_MAX_INT_PIN; pin++) {
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i = pci_swizzle_interrupt_pin(child, pin) - 1;
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map_sz += 5 + addr_sz[i] + out_irq[i].args_count;
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}
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}
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int_map = kcalloc(map_sz, sizeof(u32), GFP_KERNEL);
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mapp = int_map;
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list_for_each_entry(child, &pdev->subordinate->devices, bus_list) {
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for (pin = 1; pin <= OF_PCI_MAX_INT_PIN; pin++) {
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*mapp = (child->bus->number << 16) |
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(child->devfn << 8);
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mapp += OF_PCI_ADDRESS_CELLS;
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*mapp = pin;
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mapp++;
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i = pci_swizzle_interrupt_pin(child, pin) - 1;
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*mapp = out_irq[i].np->phandle;
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mapp++;
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if (addr_sz[i]) {
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ret = of_property_read_u32_array(out_irq[i].np,
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"reg", mapp,
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addr_sz[i]);
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if (ret)
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goto failed;
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}
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mapp += addr_sz[i];
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memcpy(mapp, out_irq[i].args,
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out_irq[i].args_count * sizeof(u32));
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mapp += out_irq[i].args_count;
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}
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}
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ret = of_changeset_add_prop_u32_array(ocs, np, "interrupt-map", int_map,
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map_sz);
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if (ret)
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goto failed;
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ret = of_changeset_add_prop_u32(ocs, np, "#interrupt-cells", 1);
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if (ret)
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goto failed;
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ret = of_changeset_add_prop_u32_array(ocs, np, "interrupt-map-mask",
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int_map_mask,
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ARRAY_SIZE(int_map_mask));
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if (ret)
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goto failed;
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kfree(int_map);
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return 0;
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failed:
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kfree(int_map);
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return ret;
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}
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static int of_pci_prop_compatible(struct pci_dev *pdev,
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struct of_changeset *ocs,
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struct device_node *np)
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{
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const char *compat_strs[PROP_COMPAT_NUM] = { 0 };
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int i, ret;
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compat_strs[PROP_COMPAT_PCI_VVVV_DDDD] =
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kasprintf(GFP_KERNEL, "pci%x,%x", pdev->vendor, pdev->device);
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compat_strs[PROP_COMPAT_PCICLASS_CCSSPP] =
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kasprintf(GFP_KERNEL, "pciclass,%06x", pdev->class);
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compat_strs[PROP_COMPAT_PCICLASS_CCSS] =
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kasprintf(GFP_KERNEL, "pciclass,%04x", pdev->class >> 8);
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ret = of_changeset_add_prop_string_array(ocs, np, "compatible",
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compat_strs, PROP_COMPAT_NUM);
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for (i = 0; i < PROP_COMPAT_NUM; i++)
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kfree(compat_strs[i]);
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return ret;
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}
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int of_pci_add_properties(struct pci_dev *pdev, struct of_changeset *ocs,
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struct device_node *np)
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{
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int ret;
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/*
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* The added properties will be released when the
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* changeset is destroyed.
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*/
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if (pci_is_bridge(pdev)) {
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ret = of_changeset_add_prop_string(ocs, np, "device_type",
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"pci");
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if (ret)
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return ret;
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ret = of_pci_prop_bus_range(pdev, ocs, np);
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if (ret)
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return ret;
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ret = of_pci_prop_intr_map(pdev, ocs, np);
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if (ret)
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return ret;
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}
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ret = of_pci_prop_ranges(pdev, ocs, np);
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if (ret)
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return ret;
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ret = of_changeset_add_prop_u32(ocs, np, "#address-cells",
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OF_PCI_ADDRESS_CELLS);
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if (ret)
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return ret;
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ret = of_changeset_add_prop_u32(ocs, np, "#size-cells",
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OF_PCI_SIZE_CELLS);
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if (ret)
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return ret;
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ret = of_pci_prop_reg(pdev, ocs, np);
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if (ret)
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return ret;
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ret = of_pci_prop_compatible(pdev, ocs, np);
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if (ret)
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return ret;
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ret = of_pci_prop_interrupts(pdev, ocs, np);
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if (ret)
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return ret;
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return 0;
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}
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