/* * Copyright (c) 2020, Arm Limited and Contributors. All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause */ #ifndef FVP_DEFS_DTSI #define FVP_DEFS_DTSI /* Set default topology values if not passed from platform's makefile */ #ifndef CLUSTER_COUNT #ifdef FVP_CLUSTER_COUNT #define CLUSTER_COUNT FVP_CLUSTER_COUNT #else #define CLUSTER_COUNT 2 #endif #endif /* CLUSTER_COUNT */ #ifndef CPUS_PER_CLUSTER #ifdef FVP_MAX_CPUS_PER_CLUSTER #define CPUS_PER_CLUSTER FVP_MAX_CPUS_PER_CLUSTER #else #define CPUS_PER_CLUSTER 4 #endif #endif /* CPUS_PER_CLUSTER */ /* Get platform's topology */ #define CPUS_COUNT (CLUSTER_COUNT * CPUS_PER_CLUSTER) #define CONCAT(x, y) x##y #define CONC(x, y) CONCAT(x, y) /* CPU's cluster */ #define CLS(n) (n / CPUS_PER_CLUSTER) /* CPU's position in cluster */ #define POS(n) (n % CPUS_PER_CLUSTER) #define ADR(n, c, p) \ CPU##n:cpu@CONC(c, CONC(p, AFF)) { #define PRE \ device_type = "cpu"; \ compatible = "arm,armv8"; #ifdef REG_32 /* 32-bit address */ #define REG(c, p) \ reg = ; #else /* 64-bit address */ #define REG(c, p) \ reg = <0x0 CONC(0x, CONC(c, CONC(p, AFF)))>; #endif /* REG_32 */ #define POST \ enable-method = "psci"; \ cpu-idle-states = <&CPU_SLEEP_0 &CLUSTER_SLEEP_0>; \ next-level-cache = <&L2_0>; \ }; #ifdef REG_32 #define CPU_0 \ CPU0:cpu@0 { \ PRE \ reg = <0x0>; \ POST #else #define CPU_0 \ CPU0:cpu@0 { \ PRE \ reg = <0x0 0x0>;\ POST #endif /* REG_32 */ /* * n - CPU number */ #define CPU(n, c, p) \ ADR(n, c, p) \ PRE \ REG(c, p) \ POST /* 2 CPUs */ #if (CPUS_COUNT > 1) #if (CLS(1) == 0) #define c1 #define p1 1 #else #define c1 10 #define p1 0 #endif #define CPU_1 CPU(1, c1, p1) /* CPU1: 0.1; 1.0 */ /* 3 CPUs */ #if (CPUS_COUNT > 2) #if (CLS(2) == 0) #define c2 #define p2 2 #elif (CLS(2) == 1) #define c2 10 #define p2 0 #else #define c2 20 #define p2 0 #endif #define CPU_2 CPU(2, c2, p2) /* CPU2: 0.2; 1.0; 2.0 */ /* 4 CPUs */ #if (CPUS_COUNT > 3) #if (CLS(3) == 0) #define c3 #elif (CLS(3) == 1) #define c3 10 #else #define c3 30 #endif #if (POS(3) == 0) #define p3 0 #elif (POS(3) == 1) #define p3 1 #else #define p3 3 #endif #define CPU_3 CPU(3, c3, p3) /* CPU3: 0.3; 1.0; 1.1; 3.0 */ /* 6 CPUs */ #if (CPUS_COUNT > 4) #if (CLS(4) == 1) #define c4 10 #else #define c4 20 #endif #if (POS(4) == 0) #define p4 0 #else #define p4 1 #endif #if (CLS(5) == 1) #define c5 10 #else #define c5 20 #endif #if (POS(5) == 1) #define p5 1 #else #define p5 2 #endif #define CPU_4 CPU(4, c4, p4) /* CPU4: 1.0; 1.1; 2.0 */ #define CPU_5 CPU(5, c5, p5) /* CPU5: 1.1; 1.2; 2.1 */ /* 8 CPUs */ #if (CPUS_COUNT > 6) #if (CLS(6) == 1) #define c6 10 #define p6 2 #elif (CLS(6) == 2) #define c6 20 #define p6 0 #else #define c6 30 #define p6 0 #endif #if (CLS(7) == 1) #define c7 10 #define p7 3 #elif (CLS(7) == 2) #define c7 20 #define p7 1 #else #define c7 30 #define p7 1 #endif #define CPU_6 CPU(6, c6, p6) /* CPU6: 1.2; 2.0; 3.0 */ #define CPU_7 CPU(7, c7, p7) /* CPU7: 1.3; 2.1; 3.1 */ /* 9 CPUs */ #if (CPUS_COUNT > 8) #if (POS(8) == 0) #define p8 0 #else #define p8 2 #endif #define CPU_8 CPU(8, 20, p8) /* CPU8: 2.0; 2.2 */ /* 12 CPUs */ #if (CPUS_COUNT > 9) #if (CLS(9) == 2) #define c9 20 #define p9 1 #else #define c9 30 #define p9 0 #endif #if (CLS(10) == 2) #define c10 20 #define p10 2 #else #define c10 30 #define p10 1 #endif #if (CLS(11) == 2) #define c11 20 #define p11 3 #else #define c11 30 #define p11 2 #endif #define CPU_9 CPU(9, c9, p9) /* CPU9: 2.1; 3.0 */ #define CPU_10 CPU(10, c10, p10) /* CPU10: 2.2; 3.1 */ #define CPU_11 CPU(11, c11, p11) /* CPU11: 2.3; 3.2 */ /* 16 CPUs */ #if (CPUS_COUNT > 12) #define CPU_12 CPU(12, 30, 0) /* CPU12: 3.0 */ #define CPU_13 CPU(13, 30, 1) /* CPU13: 3.1 */ #define CPU_14 CPU(14, 30, 2) /* CPU14: 3.2 */ #define CPU_15 CPU(15, 30, 3) /* CPU15: 3.3 */ #endif /* > 12 */ #endif /* > 9 */ #endif /* > 8 */ #endif /* > 6 */ #endif /* > 4 */ #endif /* > 3 */ #endif /* > 2 */ #endif /* > 1 */ #if (CPUS_COUNT == 1) #define CPUS \ CPU_0 #elif (CPUS_COUNT == 2) #define CPUS \ CPU_0 \ CPU_1 #elif (CPUS_COUNT == 3) #define CPUS \ CPU_0 \ CPU_1 \ CPU_2 #elif (CPUS_COUNT == 4) #define CPUS \ CPU_0 \ CPU_1 \ CPU_2 \ CPU_3 #elif (CPUS_COUNT == 6) #define CPUS \ CPU_0 \ CPU_1 \ CPU_2 \ CPU_3 \ CPU_4 \ CPU_5 #elif (CPUS_COUNT == 8) #define CPUS \ CPU_0 \ CPU_1 \ CPU_2 \ CPU_3 \ CPU_4 \ CPU_5 \ CPU_6 \ CPU_7 #elif (CPUS_COUNT == 9) #define CPUS \ CPU_0 \ CPU_1 \ CPU_2 \ CPU_3 \ CPU_4 \ CPU_5 \ CPU_6 \ CPU_7 \ CPU_8 #elif (CPUS_COUNT == 12) #define CPUS \ CPU_0 \ CPU_1 \ CPU_2 \ CPU_3 \ CPU_4 \ CPU_5 \ CPU_6 \ CPU_7 \ CPU_8 \ CPU_9 \ CPU_10 \ CPU_11 #else #define CPUS \ CPU_0 \ CPU_1 \ CPU_2 \ CPU_3 \ CPU_4 \ CPU_5 \ CPU_6 \ CPU_7 \ CPU_8 \ CPU_9 \ CPU_10 \ CPU_11 \ CPU_12 \ CPU_13 \ CPU_14 \ CPU_15 #endif /* CPUS_COUNT */ #define CORE(n) \ core##n { \ cpu = <&CONC(CPU, __COUNTER__)>; \ }; /* Max 4 CPUs per cluster */ #if (CPUS_PER_CLUSTER == 1) #define CLUSTER(n) \ cluster##n { \ CORE(0) \ }; #elif (CPUS_PER_CLUSTER == 2) #define CLUSTER(n) \ cluster##n { \ CORE(0) \ CORE(1) \ }; #elif (CPUS_PER_CLUSTER == 3) #define CLUSTER(n) \ cluster##n { \ CORE(0) \ CORE(1) \ CORE(2) \ }; #else #define CLUSTER(n) \ cluster##n { \ CORE(0) \ CORE(1) \ CORE(2) \ CORE(3) \ }; #endif /* CPUS_PER_CLUSTER */ /* Max 4 clusters */ #if (CLUSTER_COUNT == 1) #define CPU_MAP \ cpu-map { \ CLUSTER(0) \ }; #elif (CLUSTER_COUNT == 2) #define CPU_MAP \ cpu-map { \ CLUSTER(0) \ CLUSTER(1) \ }; #elif (CLUSTER_COUNT == 3) #define CPU_MAP \ cpu-map { \ CLUSTER(0) \ CLUSTER(1) \ CLUSTER(2) \ }; #else #define CPU_MAP \ cpu-map { \ CLUSTER(0) \ CLUSTER(1) \ CLUSTER(2) \ CLUSTER(3) \ }; #endif /* CLUSTER_COUNT */ #endif /* FVP_DEFS_DTSI */