lib/fconf/fconf_amu_getter.c

*54fd6939SJiyong Park/*
*54fd6939SJiyong Park * Copyright (c) 2021, Arm Limited. All rights reserved.
*54fd6939SJiyong Park *
*54fd6939SJiyong Park * SPDX-License-Identifier: BSD-3-Clause
*54fd6939SJiyong Park */
*54fd6939SJiyong Park
*54fd6939SJiyong Park#include <stddef.h>
*54fd6939SJiyong Park#include <stdint.h>
*54fd6939SJiyong Park
*54fd6939SJiyong Park#include <common/debug.h>
*54fd6939SJiyong Park#include <common/fdt_wrappers.h>
*54fd6939SJiyong Park#include <lib/fconf/fconf.h>
*54fd6939SJiyong Park#include <lib/fconf/fconf_amu_getter.h>
*54fd6939SJiyong Park#include <libfdt.h>
*54fd6939SJiyong Park
*54fd6939SJiyong Park#include <plat/common/platform.h>
*54fd6939SJiyong Park
*54fd6939SJiyong Parkstruct fconf_amu_config fconf_amu_config;
*54fd6939SJiyong Parkstatic struct amu_topology fconf_amu_topology_;
*54fd6939SJiyong Park
*54fd6939SJiyong Park/*
*54fd6939SJiyong Park * Populate the core-specific AMU structure with information retrieved from a
*54fd6939SJiyong Park * device tree.
*54fd6939SJiyong Park *
*54fd6939SJiyong Park * Returns `0` on success, or a negative integer representing an error code.
*54fd6939SJiyong Park */
*54fd6939SJiyong Parkstatic int fconf_populate_amu_cpu_amu(const void *fdt, int parent,
*54fd6939SJiyong Park				      struct amu_core *amu)
*54fd6939SJiyong Park{
*54fd6939SJiyong Park	int ret = 0;
*54fd6939SJiyong Park	int node = 0;
*54fd6939SJiyong Park
*54fd6939SJiyong Park	fdt_for_each_subnode(node, fdt, parent) {
*54fd6939SJiyong Park		const char *name;
*54fd6939SJiyong Park		const char *value;
*54fd6939SJiyong Park		int len;
*54fd6939SJiyong Park
*54fd6939SJiyong Park		uintptr_t idx = 0U;
*54fd6939SJiyong Park
*54fd6939SJiyong Park		name = fdt_get_name(fdt, node, &len);
*54fd6939SJiyong Park		if (strncmp(name, "counter@", 8) != 0) {
*54fd6939SJiyong Park			continue;
*54fd6939SJiyong Park		}
*54fd6939SJiyong Park
*54fd6939SJiyong Park		ret = fdt_get_reg_props_by_index(fdt, node, 0, &idx, NULL);
*54fd6939SJiyong Park		if (ret < 0) {
*54fd6939SJiyong Park			break;
*54fd6939SJiyong Park		}
*54fd6939SJiyong Park
*54fd6939SJiyong Park		value = fdt_getprop(fdt, node, "enable-at-el3", &len);
*54fd6939SJiyong Park		if ((value == NULL) && (len != -FDT_ERR_NOTFOUND)) {
*54fd6939SJiyong Park			break;
*54fd6939SJiyong Park		}
*54fd6939SJiyong Park
*54fd6939SJiyong Park		if (len != -FDT_ERR_NOTFOUND) {
*54fd6939SJiyong Park			amu->enable |= (1 << idx);
*54fd6939SJiyong Park		}
*54fd6939SJiyong Park	}
*54fd6939SJiyong Park
*54fd6939SJiyong Park	if ((node < 0) && (node != -FDT_ERR_NOTFOUND)) {
*54fd6939SJiyong Park		return node;
*54fd6939SJiyong Park	}
*54fd6939SJiyong Park
*54fd6939SJiyong Park	return ret;
*54fd6939SJiyong Park}
*54fd6939SJiyong Park
*54fd6939SJiyong Park/*
*54fd6939SJiyong Park * Within a `cpu` node, attempt to dereference the `amu` property, and populate
*54fd6939SJiyong Park * the AMU information for the core.
*54fd6939SJiyong Park *
*54fd6939SJiyong Park * Returns `0` on success, or a negative integer representing an error code.
*54fd6939SJiyong Park */
*54fd6939SJiyong Parkstatic int fconf_populate_amu_cpu(const void *fdt, int node, uintptr_t mpidr)
*54fd6939SJiyong Park{
*54fd6939SJiyong Park	int ret;
*54fd6939SJiyong Park	int idx;
*54fd6939SJiyong Park
*54fd6939SJiyong Park	uint32_t amu_phandle;
*54fd6939SJiyong Park	struct amu_core *amu;
*54fd6939SJiyong Park
*54fd6939SJiyong Park	ret = fdt_read_uint32(fdt, node, "amu", &amu_phandle);
*54fd6939SJiyong Park	if (ret < 0) {
*54fd6939SJiyong Park		if (ret == -FDT_ERR_NOTFOUND) {
*54fd6939SJiyong Park			ret = 0;
*54fd6939SJiyong Park		}
*54fd6939SJiyong Park
*54fd6939SJiyong Park		return ret;
*54fd6939SJiyong Park	}
*54fd6939SJiyong Park
*54fd6939SJiyong Park	node = fdt_node_offset_by_phandle(fdt, amu_phandle);
*54fd6939SJiyong Park	if (node < 0) {
*54fd6939SJiyong Park		return node;
*54fd6939SJiyong Park	}
*54fd6939SJiyong Park
*54fd6939SJiyong Park	idx = plat_core_pos_by_mpidr(mpidr);
*54fd6939SJiyong Park	if (idx < 0) {
*54fd6939SJiyong Park		return -FDT_ERR_BADVALUE;
*54fd6939SJiyong Park	}
*54fd6939SJiyong Park
*54fd6939SJiyong Park	amu = &fconf_amu_topology_.cores[idx];
*54fd6939SJiyong Park
*54fd6939SJiyong Park	return fconf_populate_amu_cpu_amu(fdt, node, amu);
*54fd6939SJiyong Park}
*54fd6939SJiyong Park
*54fd6939SJiyong Park/*
*54fd6939SJiyong Park * Populates the global `amu_topology` structure based on what's described by
*54fd6939SJiyong Park * the hardware configuration device tree blob.
*54fd6939SJiyong Park *
*54fd6939SJiyong Park * The device tree is expected to provide an `amu` property for each `cpu` node,
*54fd6939SJiyong Park * like so:
*54fd6939SJiyong Park *
*54fd6939SJiyong Park *     cpu@0 {
*54fd6939SJiyong Park *         amu = <&cpu0_amu>;
*54fd6939SJiyong Park *     };
*54fd6939SJiyong Park *
*54fd6939SJiyong Park *     amus {
*54fd6939SJiyong Park *         cpu0_amu: amu-0 {
*54fd6939SJiyong Park *             counters {
*54fd6939SJiyong Park *                 #address-cells = <2>;
*54fd6939SJiyong Park *                 #size-cells = <0>;
*54fd6939SJiyong Park *
*54fd6939SJiyong Park *                 counter@x,y {
*54fd6939SJiyong Park *                     reg = <x y>; // Group x, counter y
*54fd6939SJiyong Park *                 };
*54fd6939SJiyong Park *             };
*54fd6939SJiyong Park *         };
*54fd6939SJiyong Park *     };
*54fd6939SJiyong Park */
*54fd6939SJiyong Parkstatic int fconf_populate_amu(uintptr_t config)
*54fd6939SJiyong Park{
*54fd6939SJiyong Park	int ret = fdtw_for_each_cpu(
*54fd6939SJiyong Park		(const void *)config, fconf_populate_amu_cpu);
*54fd6939SJiyong Park	if (ret == 0) {
*54fd6939SJiyong Park		fconf_amu_config.topology = &fconf_amu_topology_;
*54fd6939SJiyong Park	} else {
*54fd6939SJiyong Park		ERROR("FCONF: failed to parse AMU information: %d\n", ret);
*54fd6939SJiyong Park	}
*54fd6939SJiyong Park
*54fd6939SJiyong Park	return ret;
*54fd6939SJiyong Park}
*54fd6939SJiyong Park
*54fd6939SJiyong ParkFCONF_REGISTER_POPULATOR(HW_CONFIG, amu, fconf_populate_amu);