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/* SPDX-License-Identifier: GPL-2.0-only */
#include <assert.h>
#include <console/console.h>
#include <device/device.h>
#include <device/path.h>
#include <device/pci.h>
#include <device/pci_def.h>
#include <device/resource.h>
#include <fw_config.h>
/** Linked list of ALL devices */
DEVTREE_CONST struct device *DEVTREE_CONST all_devices = &dev_root;
/**
* Given a PCI bus and a devfn number, find the device structure.
*
* Note that this function can return the incorrect device prior
* to PCI enumeration because the secondary field of the bus object
* is 0. The failing scenario is determined by the order of the
* devices in all_devices singly-linked list as well as the time
* when this function is called (secondary reflecting topology).
*
* @param bus The bus number.
* @param devfn A device/function number.
* @return Pointer to the device structure (if found), 0 otherwise.
*/
static DEVTREE_CONST struct device *dev_find_slot(unsigned int bus,
unsigned int devfn)
{
DEVTREE_CONST struct device *dev, *result;
result = 0;
for (dev = all_devices; dev; dev = dev->next) {
if ((dev->path.type == DEVICE_PATH_PCI) &&
(dev->bus->secondary == bus) &&
(dev->path.pci.devfn == devfn)) {
result = dev;
break;
}
}
return result;
}
/**
* Given a Device Path Type, find the device structure.
*
* @param prev_match The previously matched device instance.
* @param path_type The Device Path Type.
* @return Pointer to the device structure (if found), 0 otherwise.
*/
DEVTREE_CONST struct device *dev_find_path(
DEVTREE_CONST struct device *prev_match,
enum device_path_type path_type)
{
DEVTREE_CONST struct device *dev, *result = NULL;
if (prev_match == NULL)
prev_match = all_devices;
else
prev_match = prev_match->next;
for (dev = prev_match; dev; dev = dev->next) {
if (dev->path.type == path_type) {
result = dev;
break;
}
}
return result;
}
DEVTREE_CONST struct device *dev_find_matching_device_on_bus(const struct bus *bus,
match_device_fn fn)
{
DEVTREE_CONST struct device *child = NULL;
while ((child = dev_bus_each_child(bus, child)) != NULL) {
if (fn(child))
break;
}
return child;
}
/**
* Given a device pointer, find the next PCI device.
*
* @param previous_dev A pointer to a PCI device structure.
* @return Pointer to the next device structure (if found), 0 otherwise.
*/
DEVTREE_CONST struct device *dev_find_next_pci_device(
DEVTREE_CONST struct device *previous_dev)
{
return dev_find_path(previous_dev, DEVICE_PATH_PCI);
}
static int path_eq(const struct device_path *path1,
const struct device_path *path2)
{
int equal = 0;
if (!path1 || !path2) {
assert(path1);
assert(path2);
/* Return 0 in case assert is considered non-fatal. */
return 0;
}
if (path1->type != path2->type)
return 0;
switch (path1->type) {
case DEVICE_PATH_NONE:
break;
case DEVICE_PATH_ROOT:
equal = 1;
break;
case DEVICE_PATH_PCI:
equal = (path1->pci.devfn == path2->pci.devfn);
break;
case DEVICE_PATH_PNP:
equal = (path1->pnp.port == path2->pnp.port) &&
(path1->pnp.device == path2->pnp.device);
break;
case DEVICE_PATH_I2C:
equal = (path1->i2c.device == path2->i2c.device) &&
(path1->i2c.mode_10bit == path2->i2c.mode_10bit);
break;
case DEVICE_PATH_APIC:
equal = (path1->apic.apic_id == path2->apic.apic_id);
break;
case DEVICE_PATH_DOMAIN:
equal = (path1->domain.domain == path2->domain.domain);
break;
case DEVICE_PATH_CPU_CLUSTER:
equal = (path1->cpu_cluster.cluster
== path2->cpu_cluster.cluster);
break;
case DEVICE_PATH_CPU:
equal = (path1->cpu.id == path2->cpu.id);
break;
case DEVICE_PATH_CPU_BUS:
equal = (path1->cpu_bus.id == path2->cpu_bus.id);
break;
case DEVICE_PATH_GENERIC:
equal = (path1->generic.id == path2->generic.id) &&
(path1->generic.subid == path2->generic.subid);
break;
case DEVICE_PATH_SPI:
equal = (path1->spi.cs == path2->spi.cs);
break;
case DEVICE_PATH_USB:
equal = (path1->usb.port_type == path2->usb.port_type) &&
(path1->usb.port_id == path2->usb.port_id);
break;
case DEVICE_PATH_MMIO:
equal = (path1->mmio.addr == path2->mmio.addr);
break;
case DEVICE_PATH_GPIO:
equal = (path1->gpio.id == path2->gpio.id);
break;
default:
printk(BIOS_ERR, "Unknown device type: %d\n", path1->type);
break;
}
return equal;
}
/**
* See if a device structure exists for path.
*
* @param parent The bus to find the device on.
* @param path The relative path from the bus to the appropriate device.
* @return Pointer to a device structure for the device on bus at path
* or 0/NULL if no device is found.
*/
DEVTREE_CONST struct device *find_dev_path(
const struct bus *parent, const struct device_path *path)
{
DEVTREE_CONST struct device *child;
if (!parent) {
BUG();
/* Return NULL in case asserts are considered non-fatal. */
return NULL;
}
for (child = parent->children; child; child = child->sibling) {
if (path_eq(path, &child->path))
break;
}
return child;
}
/**
* Find the device structure given an array of nested device paths,
*
* @param parent The parent bus to start the search on.
* @param nested_path An array of relative paths from the parent bus to the target device.
* @param nested_path_length Number of path elements in nested_path array.
* @return Pointer to a device structure for the device at nested path
* or 0/NULL if no device is found.
*/
DEVTREE_CONST struct device *find_dev_nested_path(
const struct bus *parent, const struct device_path nested_path[],
size_t nested_path_length)
{
DEVTREE_CONST struct device *child;
if (!parent || !nested_path || !nested_path_length)
return NULL;
child = find_dev_path(parent, nested_path);
/* Terminate recursion at end of nested path or child not found */
if (nested_path_length == 1 || !child)
return child;
return find_dev_nested_path(child->link_list, nested_path + 1, nested_path_length - 1);
}
DEVTREE_CONST struct device *pcidev_path_behind(
const struct bus *parent, pci_devfn_t devfn)
{
const struct device_path path = {
.type = DEVICE_PATH_PCI,
.pci.devfn = devfn,
};
return find_dev_path(parent, &path);
}
DEVTREE_CONST struct device *pcidev_path_on_bus(unsigned int bus, pci_devfn_t devfn)
{
DEVTREE_CONST struct bus *parent = pci_root_bus();
DEVTREE_CONST struct device *dev = parent->children;
/* FIXME: Write the loop with topology links. */
while (dev) {
if (dev->path.type != DEVICE_PATH_PCI) {
dev = dev->next;
continue;
}
if (dev->bus->secondary == bus)
return pcidev_path_behind(dev->bus, devfn);
dev = dev->next;
}
return NULL;
}
DEVTREE_CONST struct bus *pci_root_bus(void)
{
DEVTREE_CONST struct device *pci_domain;
static DEVTREE_CONST struct bus *pci_root;
if (pci_root)
return pci_root;
pci_domain = dev_find_path(NULL, DEVICE_PATH_DOMAIN);
if (!pci_domain)
return NULL;
pci_root = pci_domain->link_list;
return pci_root;
}
DEVTREE_CONST struct device *pcidev_path_on_root(pci_devfn_t devfn)
{
return pcidev_path_behind(pci_root_bus(), devfn);
}
DEVTREE_CONST struct device *pcidev_on_root(uint8_t dev, uint8_t fn)
{
return pcidev_path_on_root(PCI_DEVFN(dev, fn));
}
DEVTREE_CONST struct device *pcidev_path_behind_pci2pci_bridge(
const struct device *bridge,
pci_devfn_t devfn)
{
if (!bridge || (bridge->path.type != DEVICE_PATH_PCI)) {
BUG();
/* Return NULL in case asserts are non-fatal. */
return NULL;
}
return pcidev_path_behind(bridge->link_list, devfn);
}
DEVTREE_CONST struct device *pcidev_path_on_root_debug(pci_devfn_t devfn, const char *func)
{
DEVTREE_CONST struct device *dev = pcidev_path_on_root(devfn);
if (dev)
return dev;
devtree_bug(func, devfn);
/* FIXME: This can return wrong device. */
return dev_find_slot(0, devfn);
}
void devtree_bug(const char *func, pci_devfn_t devfn)
{
printk(BIOS_ERR, "BUG: %s requests hidden 00:%02x.%u\n", func, devfn >> 3, devfn & 7);
}
void __noreturn devtree_die(void)
{
die("DEVTREE: dev or chip_info is NULL\n");
}
/**
* Given an SMBus bus and a device number, find the device structure.
*
* @param bus The bus number.
* @param addr A device number.
* @return Pointer to the device structure (if found), 0 otherwise.
*/
DEVTREE_CONST struct device *dev_find_slot_on_smbus(unsigned int bus,
unsigned int addr)
{
DEVTREE_CONST struct device *dev, *result;
result = 0;
for (dev = all_devices; dev; dev = dev->next) {
if ((dev->path.type == DEVICE_PATH_I2C) &&
(dev->bus->secondary == bus) &&
(dev->path.i2c.device == addr)) {
result = dev;
break;
}
}
return result;
}
/**
* Given a PnP port and a device number, find the device structure.
*
* @param port The I/O port.
* @param device Logical device number.
* @return Pointer to the device structure (if found), 0 otherwise.
*/
DEVTREE_CONST struct device *dev_find_slot_pnp(u16 port, u16 device)
{
DEVTREE_CONST struct device *dev;
for (dev = all_devices; dev; dev = dev->next) {
if ((dev->path.type == DEVICE_PATH_PNP) &&
(dev->path.pnp.port == port) &&
(dev->path.pnp.device == device)) {
return dev;
}
}
return 0;
}
/**
* Given a device and previous match iterate through all the children.
*
* @param bus parent device's bus holding all the children
* @param prev_child previous child already traversed, if NULL start at
* children of parent bus.
* @return pointer to child or NULL when no more children
*/
DEVTREE_CONST struct device *dev_bus_each_child(const struct bus *parent,
DEVTREE_CONST struct device *prev_child)
{
DEVTREE_CONST struct device *dev;
if (parent == NULL)
return NULL;
if (prev_child == NULL)
dev = parent->children;
else
dev = prev_child->sibling;
return dev;
}
bool is_dev_enabled(const struct device *dev)
{
if (!dev)
return false;
/* For stages with immutable device tree, first check if device is disabled because of
fw_config probing. In these stages, dev->enabled does not reflect the true state of a
device that uses fw_config probing. */
if (DEVTREE_EARLY && !fw_config_probe_dev(dev, NULL))
return false;
return dev->enabled;
}
bool is_devfn_enabled(unsigned int devfn)
{
const struct device *dev = pcidev_path_on_root(devfn);
return is_dev_enabled(dev);
}
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