1c681d02cSMarcin Juszkiewicz /* 2c681d02cSMarcin Juszkiewicz * Copyright (c) 2023, Linaro Limited and Contributors. All rights reserved. 3c681d02cSMarcin Juszkiewicz * 4c681d02cSMarcin Juszkiewicz * SPDX-License-Identifier: BSD-3-Clause 5c681d02cSMarcin Juszkiewicz */ 6c681d02cSMarcin Juszkiewicz 7c681d02cSMarcin Juszkiewicz #include <assert.h> 8c681d02cSMarcin Juszkiewicz 91e67b1b1SMarcin Juszkiewicz #include <common/fdt_wrappers.h> 10c681d02cSMarcin Juszkiewicz #include <common/runtime_svc.h> 11c681d02cSMarcin Juszkiewicz #include <libfdt.h> 12c681d02cSMarcin Juszkiewicz #include <smccc_helpers.h> 13c681d02cSMarcin Juszkiewicz 14c681d02cSMarcin Juszkiewicz /* default platform version is 0.0 */ 15c681d02cSMarcin Juszkiewicz static int platform_version_major; 16c681d02cSMarcin Juszkiewicz static int platform_version_minor; 17c681d02cSMarcin Juszkiewicz 18c681d02cSMarcin Juszkiewicz #define SMC_FASTCALL 0x80000000 19c681d02cSMarcin Juszkiewicz #define SMC64_FUNCTION (SMC_FASTCALL | 0x40000000) 20c681d02cSMarcin Juszkiewicz #define SIP_FUNCTION (SMC64_FUNCTION | 0x02000000) 21c681d02cSMarcin Juszkiewicz #define SIP_FUNCTION_ID(n) (SIP_FUNCTION | (n)) 22c681d02cSMarcin Juszkiewicz 23c681d02cSMarcin Juszkiewicz /* 24c681d02cSMarcin Juszkiewicz * We do not use SMCCC_ARCH_SOC_ID here because qemu_sbsa is virtual platform 25c681d02cSMarcin Juszkiewicz * which uses SoC present in QEMU. And they can change on their own while we 26c681d02cSMarcin Juszkiewicz * need version of whole 'virtual hardware platform'. 27c681d02cSMarcin Juszkiewicz */ 28c681d02cSMarcin Juszkiewicz #define SIP_SVC_VERSION SIP_FUNCTION_ID(1) 291e67b1b1SMarcin Juszkiewicz #define SIP_SVC_GET_GIC SIP_FUNCTION_ID(100) 304171e981SMarcin Juszkiewicz #define SIP_SVC_GET_GIC_ITS SIP_FUNCTION_ID(101) 3142925c15SMarcin Juszkiewicz #define SIP_SVC_GET_CPU_COUNT SIP_FUNCTION_ID(200) 3242925c15SMarcin Juszkiewicz #define SIP_SVC_GET_CPU_NODE SIP_FUNCTION_ID(201) 33*c891b4d8SXiong Yining #define SIP_SVC_GET_CPU_TOPOLOGY SIP_FUNCTION_ID(202) 348b7dd839SXiong Yining #define SIP_SVC_GET_MEMORY_NODE_COUNT SIP_FUNCTION_ID(300) 358b7dd839SXiong Yining #define SIP_SVC_GET_MEMORY_NODE SIP_FUNCTION_ID(301) 364171e981SMarcin Juszkiewicz 374171e981SMarcin Juszkiewicz static uint64_t gic_its_addr; 381e67b1b1SMarcin Juszkiewicz 3942925c15SMarcin Juszkiewicz typedef struct { 4042925c15SMarcin Juszkiewicz uint32_t nodeid; 4142925c15SMarcin Juszkiewicz uint32_t mpidr; 4242925c15SMarcin Juszkiewicz } cpu_data; 4342925c15SMarcin Juszkiewicz 448b7dd839SXiong Yining typedef struct{ 458b7dd839SXiong Yining uint32_t nodeid; 468b7dd839SXiong Yining uint64_t addr_base; 478b7dd839SXiong Yining uint64_t addr_size; 488b7dd839SXiong Yining } memory_data; 498b7dd839SXiong Yining 50*c891b4d8SXiong Yining /* 51*c891b4d8SXiong Yining * sockets: the number of sockets on sbsa-ref platform. 52*c891b4d8SXiong Yining * clusters: the number of clusters in one socket. 53*c891b4d8SXiong Yining * cores: the number of cores in one cluster. 54*c891b4d8SXiong Yining * threads: the number of threads in one core. 55*c891b4d8SXiong Yining */ 56*c891b4d8SXiong Yining typedef struct { 57*c891b4d8SXiong Yining uint32_t sockets; 58*c891b4d8SXiong Yining uint32_t clusters; 59*c891b4d8SXiong Yining uint32_t cores; 60*c891b4d8SXiong Yining uint32_t threads; 61*c891b4d8SXiong Yining } cpu_topology; 62*c891b4d8SXiong Yining 6342925c15SMarcin Juszkiewicz static struct { 6442925c15SMarcin Juszkiewicz uint32_t num_cpus; 658b7dd839SXiong Yining uint32_t num_memnodes; 6642925c15SMarcin Juszkiewicz cpu_data cpu[PLATFORM_CORE_COUNT]; 67*c891b4d8SXiong Yining cpu_topology cpu_topo; 688b7dd839SXiong Yining memory_data memory[PLAT_MAX_MEM_NODES]; 6942925c15SMarcin Juszkiewicz } dynamic_platform_info; 7042925c15SMarcin Juszkiewicz 711e67b1b1SMarcin Juszkiewicz void sbsa_set_gic_bases(const uintptr_t gicd_base, const uintptr_t gicr_base); 721e67b1b1SMarcin Juszkiewicz uintptr_t sbsa_get_gicd(void); 731e67b1b1SMarcin Juszkiewicz uintptr_t sbsa_get_gicr(void); 741e67b1b1SMarcin Juszkiewicz 759b076436SMarcin Juszkiewicz /* 769b076436SMarcin Juszkiewicz * QEMU provides us with minimal information about hardware platform using 779b076436SMarcin Juszkiewicz * minimalistic DeviceTree. This is not a Linux DeviceTree. It is not even 789b076436SMarcin Juszkiewicz * a firmware DeviceTree. 799b076436SMarcin Juszkiewicz * 809b076436SMarcin Juszkiewicz * It is information passed from QEMU to describe the information a hardware 819b076436SMarcin Juszkiewicz * platform would have other mechanisms to discover at runtime, that are 829b076436SMarcin Juszkiewicz * affected by the QEMU command line. 839b076436SMarcin Juszkiewicz * 849b076436SMarcin Juszkiewicz * Ultimately this device tree will be replaced by IPC calls to an emulated SCP. 859b076436SMarcin Juszkiewicz * And when we do that, we won't then have to rewrite Normal world firmware to 869b076436SMarcin Juszkiewicz * cope. 879b076436SMarcin Juszkiewicz */ 889b076436SMarcin Juszkiewicz 89*c891b4d8SXiong Yining static void read_cpu_topology_from_dt(void *dtb) 90*c891b4d8SXiong Yining { 91*c891b4d8SXiong Yining int node; 92*c891b4d8SXiong Yining uint32_t sockets = 0; 93*c891b4d8SXiong Yining uint32_t clusters = 0; 94*c891b4d8SXiong Yining uint32_t cores = 0; 95*c891b4d8SXiong Yining uint32_t threads = 0; 96*c891b4d8SXiong Yining 97*c891b4d8SXiong Yining /* 98*c891b4d8SXiong Yining * QEMU gives us this DeviceTree node when we config: 99*c891b4d8SXiong Yining * -smp 16,sockets=2,clusters=2,cores=2,threads=2 100*c891b4d8SXiong Yining * 101*c891b4d8SXiong Yining * topology { 102*c891b4d8SXiong Yining * threads = <0x02>; 103*c891b4d8SXiong Yining * cores = <0x02>; 104*c891b4d8SXiong Yining * clusters = <0x02>; 105*c891b4d8SXiong Yining * sockets = <0x02>; 106*c891b4d8SXiong Yining * }; 107*c891b4d8SXiong Yining */ 108*c891b4d8SXiong Yining 109*c891b4d8SXiong Yining node = fdt_path_offset(dtb, "/cpus/topology"); 110*c891b4d8SXiong Yining if (node > 0) { 111*c891b4d8SXiong Yining if (fdt_getprop(dtb, node, "sockets", NULL)) { 112*c891b4d8SXiong Yining fdt_read_uint32(dtb, node, "sockets", &sockets); 113*c891b4d8SXiong Yining } 114*c891b4d8SXiong Yining 115*c891b4d8SXiong Yining if (fdt_getprop(dtb, node, "clusters", NULL)) { 116*c891b4d8SXiong Yining fdt_read_uint32(dtb, node, "clusters", &clusters); 117*c891b4d8SXiong Yining } 118*c891b4d8SXiong Yining 119*c891b4d8SXiong Yining if (fdt_getprop(dtb, node, "cores", NULL)) { 120*c891b4d8SXiong Yining fdt_read_uint32(dtb, node, "cores", &cores); 121*c891b4d8SXiong Yining } 122*c891b4d8SXiong Yining 123*c891b4d8SXiong Yining if (fdt_getprop(dtb, node, "threads", NULL)) { 124*c891b4d8SXiong Yining fdt_read_uint32(dtb, node, "threads", &threads); 125*c891b4d8SXiong Yining } 126*c891b4d8SXiong Yining } 127*c891b4d8SXiong Yining 128*c891b4d8SXiong Yining dynamic_platform_info.cpu_topo.sockets = sockets; 129*c891b4d8SXiong Yining dynamic_platform_info.cpu_topo.clusters = clusters; 130*c891b4d8SXiong Yining dynamic_platform_info.cpu_topo.cores = cores; 131*c891b4d8SXiong Yining dynamic_platform_info.cpu_topo.threads = threads; 132*c891b4d8SXiong Yining 133*c891b4d8SXiong Yining INFO("Cpu topology: sockets: %d, clusters: %d, cores: %d, threads: %d\n", 134*c891b4d8SXiong Yining dynamic_platform_info.cpu_topo.sockets, 135*c891b4d8SXiong Yining dynamic_platform_info.cpu_topo.clusters, 136*c891b4d8SXiong Yining dynamic_platform_info.cpu_topo.cores, 137*c891b4d8SXiong Yining dynamic_platform_info.cpu_topo.threads); 138*c891b4d8SXiong Yining } 139*c891b4d8SXiong Yining 14042925c15SMarcin Juszkiewicz void read_cpuinfo_from_dt(void *dtb) 14142925c15SMarcin Juszkiewicz { 14242925c15SMarcin Juszkiewicz int node; 14342925c15SMarcin Juszkiewicz int prev; 14442925c15SMarcin Juszkiewicz int cpu = 0; 14542925c15SMarcin Juszkiewicz uint32_t nodeid = 0; 14642925c15SMarcin Juszkiewicz uintptr_t mpidr; 14742925c15SMarcin Juszkiewicz 14842925c15SMarcin Juszkiewicz /* 14942925c15SMarcin Juszkiewicz * QEMU gives us this DeviceTree node: 15042925c15SMarcin Juszkiewicz * numa-node-id entries are only when NUMA config is used 15142925c15SMarcin Juszkiewicz * 15242925c15SMarcin Juszkiewicz * cpus { 15342925c15SMarcin Juszkiewicz * #size-cells = <0x00>; 15442925c15SMarcin Juszkiewicz * #address-cells = <0x02>; 15542925c15SMarcin Juszkiewicz * 15642925c15SMarcin Juszkiewicz * cpu@0 { 15742925c15SMarcin Juszkiewicz * numa-node-id = <0x00>; 15842925c15SMarcin Juszkiewicz * reg = <0x00 0x00>; 15942925c15SMarcin Juszkiewicz * }; 16042925c15SMarcin Juszkiewicz * 16142925c15SMarcin Juszkiewicz * cpu@1 { 16242925c15SMarcin Juszkiewicz * numa-node-id = <0x03>; 16342925c15SMarcin Juszkiewicz * reg = <0x00 0x01>; 16442925c15SMarcin Juszkiewicz * }; 16542925c15SMarcin Juszkiewicz * }; 16642925c15SMarcin Juszkiewicz */ 16742925c15SMarcin Juszkiewicz node = fdt_path_offset(dtb, "/cpus"); 16842925c15SMarcin Juszkiewicz if (node < 0) { 16942925c15SMarcin Juszkiewicz ERROR("No information about cpus in DeviceTree.\n"); 17042925c15SMarcin Juszkiewicz panic(); 17142925c15SMarcin Juszkiewicz } 17242925c15SMarcin Juszkiewicz 17342925c15SMarcin Juszkiewicz /* 17442925c15SMarcin Juszkiewicz * QEMU numbers cpus from 0 and there can be /cpus/cpu-map present so we 17542925c15SMarcin Juszkiewicz * cannot use fdt_first_subnode() here 17642925c15SMarcin Juszkiewicz */ 17742925c15SMarcin Juszkiewicz node = fdt_path_offset(dtb, "/cpus/cpu@0"); 17842925c15SMarcin Juszkiewicz 17942925c15SMarcin Juszkiewicz while (node > 0) { 18042925c15SMarcin Juszkiewicz if (fdt_getprop(dtb, node, "reg", NULL)) { 18142925c15SMarcin Juszkiewicz fdt_get_reg_props_by_index(dtb, node, 0, &mpidr, NULL); 1824fc54c99SMarcin Juszkiewicz } else { 1834fc54c99SMarcin Juszkiewicz ERROR("Incomplete information for cpu %d in DeviceTree.\n", cpu); 1844fc54c99SMarcin Juszkiewicz panic(); 18542925c15SMarcin Juszkiewicz } 18642925c15SMarcin Juszkiewicz 18742925c15SMarcin Juszkiewicz if (fdt_getprop(dtb, node, "numa-node-id", NULL)) { 18842925c15SMarcin Juszkiewicz fdt_read_uint32(dtb, node, "numa-node-id", &nodeid); 18942925c15SMarcin Juszkiewicz } 19042925c15SMarcin Juszkiewicz 19142925c15SMarcin Juszkiewicz dynamic_platform_info.cpu[cpu].nodeid = nodeid; 19242925c15SMarcin Juszkiewicz dynamic_platform_info.cpu[cpu].mpidr = mpidr; 19342925c15SMarcin Juszkiewicz 19442925c15SMarcin Juszkiewicz INFO("CPU %d: node-id: %d, mpidr: %ld\n", cpu, nodeid, mpidr); 19542925c15SMarcin Juszkiewicz 19642925c15SMarcin Juszkiewicz cpu++; 19742925c15SMarcin Juszkiewicz 19842925c15SMarcin Juszkiewicz prev = node; 19942925c15SMarcin Juszkiewicz node = fdt_next_subnode(dtb, prev); 20042925c15SMarcin Juszkiewicz } 20142925c15SMarcin Juszkiewicz 20242925c15SMarcin Juszkiewicz dynamic_platform_info.num_cpus = cpu; 20342925c15SMarcin Juszkiewicz INFO("Found %d cpus\n", dynamic_platform_info.num_cpus); 204*c891b4d8SXiong Yining 205*c891b4d8SXiong Yining read_cpu_topology_from_dt(dtb); 20642925c15SMarcin Juszkiewicz } 20742925c15SMarcin Juszkiewicz 2088b7dd839SXiong Yining void read_meminfo_from_dt(void *dtb) 2098b7dd839SXiong Yining { 2108b7dd839SXiong Yining const fdt32_t *prop; 2118b7dd839SXiong Yining const char *type; 2128b7dd839SXiong Yining int prev, node; 2138b7dd839SXiong Yining int len; 2148b7dd839SXiong Yining uint32_t nodeid = 0; 2158b7dd839SXiong Yining uint32_t memnode = 0; 2168b7dd839SXiong Yining uint32_t higher_value, lower_value; 2178b7dd839SXiong Yining uint64_t cur_base, cur_size; 2188b7dd839SXiong Yining 2198b7dd839SXiong Yining /* 2208b7dd839SXiong Yining * QEMU gives us this DeviceTree node: 2218b7dd839SXiong Yining * 2228b7dd839SXiong Yining * memory@100c0000000 { 2238b7dd839SXiong Yining * numa-node-id = <0x01>; 2248b7dd839SXiong Yining * reg = <0x100 0xc0000000 0x00 0x40000000>; 2258b7dd839SXiong Yining * device_type = "memory"; 2268b7dd839SXiong Yining * }; 2278b7dd839SXiong Yining * 2288b7dd839SXiong Yining * memory@10000000000 { 2298b7dd839SXiong Yining * numa-node-id = <0x00>; 2308b7dd839SXiong Yining * reg = <0x100 0x00 0x00 0xc0000000>; 2318b7dd839SXiong Yining * device_type = "memory"; 2328b7dd839SXiong Yining * } 2338b7dd839SXiong Yining */ 2348b7dd839SXiong Yining 2358b7dd839SXiong Yining for (prev = 0;; prev = node) { 2368b7dd839SXiong Yining node = fdt_next_node(dtb, prev, NULL); 2378b7dd839SXiong Yining if (node < 0) { 2388b7dd839SXiong Yining break; 2398b7dd839SXiong Yining } 2408b7dd839SXiong Yining 2418b7dd839SXiong Yining type = fdt_getprop(dtb, node, "device_type", &len); 2428b7dd839SXiong Yining if (type && strncmp(type, "memory", len) == 0) { 2438b7dd839SXiong Yining if (fdt_getprop(dtb, node, "numa-node-id", NULL)) { 2448b7dd839SXiong Yining fdt_read_uint32(dtb, node, "numa-node-id", &nodeid); 2458b7dd839SXiong Yining } 2468b7dd839SXiong Yining 2478b7dd839SXiong Yining dynamic_platform_info.memory[memnode].nodeid = nodeid; 2488b7dd839SXiong Yining 2498b7dd839SXiong Yining /* 2508b7dd839SXiong Yining * Get the 'reg' property of this node and 2518b7dd839SXiong Yining * assume two 8 bytes for base and size. 2528b7dd839SXiong Yining */ 2538b7dd839SXiong Yining prop = fdt_getprop(dtb, node, "reg", &len); 2548b7dd839SXiong Yining if (prop != 0 && len == (2 * sizeof(int64_t))) { 2558b7dd839SXiong Yining higher_value = fdt32_to_cpu(*prop); 2568b7dd839SXiong Yining lower_value = fdt32_to_cpu(*(prop + 1)); 2578b7dd839SXiong Yining cur_base = (uint64_t)(lower_value | ((uint64_t)higher_value) << 32); 2588b7dd839SXiong Yining 2598b7dd839SXiong Yining higher_value = fdt32_to_cpu(*(prop + 2)); 2608b7dd839SXiong Yining lower_value = fdt32_to_cpu(*(prop + 3)); 2618b7dd839SXiong Yining cur_size = (uint64_t)(lower_value | ((uint64_t)higher_value) << 32); 2628b7dd839SXiong Yining 2638b7dd839SXiong Yining dynamic_platform_info.memory[memnode].addr_base = cur_base; 2648b7dd839SXiong Yining dynamic_platform_info.memory[memnode].addr_size = cur_size; 2658b7dd839SXiong Yining 2668b7dd839SXiong Yining INFO("RAM %d: node-id: %d, address: 0x%lx - 0x%lx\n", 2678b7dd839SXiong Yining memnode, 2688b7dd839SXiong Yining dynamic_platform_info.memory[memnode].nodeid, 2698b7dd839SXiong Yining dynamic_platform_info.memory[memnode].addr_base, 2708b7dd839SXiong Yining dynamic_platform_info.memory[memnode].addr_base + 2718b7dd839SXiong Yining dynamic_platform_info.memory[memnode].addr_size - 1); 2728b7dd839SXiong Yining } 2738b7dd839SXiong Yining 2748b7dd839SXiong Yining memnode++; 2758b7dd839SXiong Yining } 2768b7dd839SXiong Yining } 2778b7dd839SXiong Yining 2788b7dd839SXiong Yining dynamic_platform_info.num_memnodes = memnode; 2798b7dd839SXiong Yining } 2808b7dd839SXiong Yining 2811e67b1b1SMarcin Juszkiewicz void read_platform_config_from_dt(void *dtb) 2821e67b1b1SMarcin Juszkiewicz { 2831e67b1b1SMarcin Juszkiewicz int node; 2841e67b1b1SMarcin Juszkiewicz const fdt64_t *data; 2851e67b1b1SMarcin Juszkiewicz int err; 2861e67b1b1SMarcin Juszkiewicz uintptr_t gicd_base; 2871e67b1b1SMarcin Juszkiewicz uintptr_t gicr_base; 2881e67b1b1SMarcin Juszkiewicz 2891e67b1b1SMarcin Juszkiewicz /* 2901e67b1b1SMarcin Juszkiewicz * QEMU gives us this DeviceTree node: 2911e67b1b1SMarcin Juszkiewicz * 2921e67b1b1SMarcin Juszkiewicz * intc { 2934171e981SMarcin Juszkiewicz * reg = < 0x00 0x40060000 0x00 0x10000 2944171e981SMarcin Juszkiewicz * 0x00 0x40080000 0x00 0x4000000>; 2954171e981SMarcin Juszkiewicz * its { 2964171e981SMarcin Juszkiewicz * reg = <0x00 0x44081000 0x00 0x20000>; 2974171e981SMarcin Juszkiewicz * }; 2984171e981SMarcin Juszkiewicz * }; 2991e67b1b1SMarcin Juszkiewicz */ 3001e67b1b1SMarcin Juszkiewicz node = fdt_path_offset(dtb, "/intc"); 3011e67b1b1SMarcin Juszkiewicz if (node < 0) { 3021e67b1b1SMarcin Juszkiewicz return; 3031e67b1b1SMarcin Juszkiewicz } 3041e67b1b1SMarcin Juszkiewicz 3051e67b1b1SMarcin Juszkiewicz data = fdt_getprop(dtb, node, "reg", NULL); 3061e67b1b1SMarcin Juszkiewicz if (data == NULL) { 3071e67b1b1SMarcin Juszkiewicz return; 3081e67b1b1SMarcin Juszkiewicz } 3091e67b1b1SMarcin Juszkiewicz 3101e67b1b1SMarcin Juszkiewicz err = fdt_get_reg_props_by_index(dtb, node, 0, &gicd_base, NULL); 3111e67b1b1SMarcin Juszkiewicz if (err < 0) { 3121e67b1b1SMarcin Juszkiewicz ERROR("Failed to read GICD reg property of GIC node\n"); 3131e67b1b1SMarcin Juszkiewicz return; 3141e67b1b1SMarcin Juszkiewicz } 3151e67b1b1SMarcin Juszkiewicz INFO("GICD base = 0x%lx\n", gicd_base); 3161e67b1b1SMarcin Juszkiewicz 3171e67b1b1SMarcin Juszkiewicz err = fdt_get_reg_props_by_index(dtb, node, 1, &gicr_base, NULL); 3181e67b1b1SMarcin Juszkiewicz if (err < 0) { 3191e67b1b1SMarcin Juszkiewicz ERROR("Failed to read GICR reg property of GIC node\n"); 3201e67b1b1SMarcin Juszkiewicz return; 3211e67b1b1SMarcin Juszkiewicz } 3221e67b1b1SMarcin Juszkiewicz INFO("GICR base = 0x%lx\n", gicr_base); 3231e67b1b1SMarcin Juszkiewicz 3241e67b1b1SMarcin Juszkiewicz sbsa_set_gic_bases(gicd_base, gicr_base); 3254171e981SMarcin Juszkiewicz 3264171e981SMarcin Juszkiewicz node = fdt_path_offset(dtb, "/intc/its"); 3274171e981SMarcin Juszkiewicz if (node < 0) { 3284171e981SMarcin Juszkiewicz return; 3294171e981SMarcin Juszkiewicz } 3304171e981SMarcin Juszkiewicz 3314171e981SMarcin Juszkiewicz err = fdt_get_reg_props_by_index(dtb, node, 0, &gic_its_addr, NULL); 3324171e981SMarcin Juszkiewicz if (err < 0) { 3334171e981SMarcin Juszkiewicz ERROR("Failed to read GICI reg property of GIC node\n"); 3344171e981SMarcin Juszkiewicz return; 3354171e981SMarcin Juszkiewicz } 3364171e981SMarcin Juszkiewicz INFO("GICI base = 0x%lx\n", gic_its_addr); 3371e67b1b1SMarcin Juszkiewicz } 3381e67b1b1SMarcin Juszkiewicz 339c681d02cSMarcin Juszkiewicz void read_platform_version(void *dtb) 340c681d02cSMarcin Juszkiewicz { 341c681d02cSMarcin Juszkiewicz int node; 342c681d02cSMarcin Juszkiewicz 343c681d02cSMarcin Juszkiewicz node = fdt_path_offset(dtb, "/"); 344c681d02cSMarcin Juszkiewicz if (node >= 0) { 345c681d02cSMarcin Juszkiewicz platform_version_major = fdt32_ld(fdt_getprop(dtb, node, 346c681d02cSMarcin Juszkiewicz "machine-version-major", NULL)); 347c681d02cSMarcin Juszkiewicz platform_version_minor = fdt32_ld(fdt_getprop(dtb, node, 348c681d02cSMarcin Juszkiewicz "machine-version-minor", NULL)); 349c681d02cSMarcin Juszkiewicz } 350c681d02cSMarcin Juszkiewicz } 351c681d02cSMarcin Juszkiewicz 352c681d02cSMarcin Juszkiewicz void sip_svc_init(void) 353c681d02cSMarcin Juszkiewicz { 354c681d02cSMarcin Juszkiewicz /* Read DeviceTree data before MMU is enabled */ 355c681d02cSMarcin Juszkiewicz 356c681d02cSMarcin Juszkiewicz void *dtb = (void *)(uintptr_t)ARM_PRELOADED_DTB_BASE; 357c681d02cSMarcin Juszkiewicz int err; 358c681d02cSMarcin Juszkiewicz 359c681d02cSMarcin Juszkiewicz err = fdt_open_into(dtb, dtb, PLAT_QEMU_DT_MAX_SIZE); 360c681d02cSMarcin Juszkiewicz if (err < 0) { 361c681d02cSMarcin Juszkiewicz ERROR("Invalid Device Tree at %p: error %d\n", dtb, err); 362c681d02cSMarcin Juszkiewicz return; 363c681d02cSMarcin Juszkiewicz } 364c681d02cSMarcin Juszkiewicz 365c681d02cSMarcin Juszkiewicz err = fdt_check_header(dtb); 366c681d02cSMarcin Juszkiewicz if (err < 0) { 367c681d02cSMarcin Juszkiewicz ERROR("Invalid DTB file passed\n"); 368c681d02cSMarcin Juszkiewicz return; 369c681d02cSMarcin Juszkiewicz } 370c681d02cSMarcin Juszkiewicz 371c681d02cSMarcin Juszkiewicz read_platform_version(dtb); 372c681d02cSMarcin Juszkiewicz INFO("Platform version: %d.%d\n", platform_version_major, platform_version_minor); 3731e67b1b1SMarcin Juszkiewicz 3741e67b1b1SMarcin Juszkiewicz read_platform_config_from_dt(dtb); 37542925c15SMarcin Juszkiewicz read_cpuinfo_from_dt(dtb); 3768b7dd839SXiong Yining read_meminfo_from_dt(dtb); 377c681d02cSMarcin Juszkiewicz } 378c681d02cSMarcin Juszkiewicz 379c681d02cSMarcin Juszkiewicz /* 380c681d02cSMarcin Juszkiewicz * This function is responsible for handling all SiP calls from the NS world 381c681d02cSMarcin Juszkiewicz */ 382c681d02cSMarcin Juszkiewicz uintptr_t sbsa_sip_smc_handler(uint32_t smc_fid, 383c681d02cSMarcin Juszkiewicz u_register_t x1, 384c681d02cSMarcin Juszkiewicz u_register_t x2, 385c681d02cSMarcin Juszkiewicz u_register_t x3, 386c681d02cSMarcin Juszkiewicz u_register_t x4, 387c681d02cSMarcin Juszkiewicz void *cookie, 388c681d02cSMarcin Juszkiewicz void *handle, 389c681d02cSMarcin Juszkiewicz u_register_t flags) 390c681d02cSMarcin Juszkiewicz { 391c681d02cSMarcin Juszkiewicz uint32_t ns; 39242925c15SMarcin Juszkiewicz uint64_t index; 393c681d02cSMarcin Juszkiewicz 394c681d02cSMarcin Juszkiewicz /* Determine which security state this SMC originated from */ 395c681d02cSMarcin Juszkiewicz ns = is_caller_non_secure(flags); 396c681d02cSMarcin Juszkiewicz if (!ns) { 397c681d02cSMarcin Juszkiewicz ERROR("%s: wrong world SMC (0x%x)\n", __func__, smc_fid); 398c681d02cSMarcin Juszkiewicz SMC_RET1(handle, SMC_UNK); 399c681d02cSMarcin Juszkiewicz } 400c681d02cSMarcin Juszkiewicz 401c681d02cSMarcin Juszkiewicz switch (smc_fid) { 402c681d02cSMarcin Juszkiewicz case SIP_SVC_VERSION: 403c681d02cSMarcin Juszkiewicz INFO("Platform version requested\n"); 404c681d02cSMarcin Juszkiewicz SMC_RET3(handle, NULL, platform_version_major, platform_version_minor); 405c681d02cSMarcin Juszkiewicz 4061e67b1b1SMarcin Juszkiewicz case SIP_SVC_GET_GIC: 4071e67b1b1SMarcin Juszkiewicz SMC_RET3(handle, NULL, sbsa_get_gicd(), sbsa_get_gicr()); 4081e67b1b1SMarcin Juszkiewicz 4094171e981SMarcin Juszkiewicz case SIP_SVC_GET_GIC_ITS: 4104171e981SMarcin Juszkiewicz SMC_RET2(handle, NULL, gic_its_addr); 4114171e981SMarcin Juszkiewicz 41242925c15SMarcin Juszkiewicz case SIP_SVC_GET_CPU_COUNT: 41342925c15SMarcin Juszkiewicz SMC_RET2(handle, NULL, dynamic_platform_info.num_cpus); 41442925c15SMarcin Juszkiewicz 41542925c15SMarcin Juszkiewicz case SIP_SVC_GET_CPU_NODE: 41642925c15SMarcin Juszkiewicz index = x1; 41742925c15SMarcin Juszkiewicz if (index < PLATFORM_CORE_COUNT) { 41842925c15SMarcin Juszkiewicz SMC_RET3(handle, NULL, 41942925c15SMarcin Juszkiewicz dynamic_platform_info.cpu[index].nodeid, 42042925c15SMarcin Juszkiewicz dynamic_platform_info.cpu[index].mpidr); 42142925c15SMarcin Juszkiewicz } else { 42242925c15SMarcin Juszkiewicz SMC_RET1(handle, SMC_ARCH_CALL_INVAL_PARAM); 42342925c15SMarcin Juszkiewicz } 42442925c15SMarcin Juszkiewicz 425*c891b4d8SXiong Yining case SIP_SVC_GET_CPU_TOPOLOGY: 426*c891b4d8SXiong Yining if (dynamic_platform_info.cpu_topo.cores > 0) { 427*c891b4d8SXiong Yining SMC_RET5(handle, NULL, 428*c891b4d8SXiong Yining dynamic_platform_info.cpu_topo.sockets, 429*c891b4d8SXiong Yining dynamic_platform_info.cpu_topo.clusters, 430*c891b4d8SXiong Yining dynamic_platform_info.cpu_topo.cores, 431*c891b4d8SXiong Yining dynamic_platform_info.cpu_topo.threads); 432*c891b4d8SXiong Yining } else { 433*c891b4d8SXiong Yining /* we do not know topology so we report SMC as unknown */ 434*c891b4d8SXiong Yining SMC_RET1(handle, SMC_UNK); 435*c891b4d8SXiong Yining } 436*c891b4d8SXiong Yining 4378b7dd839SXiong Yining case SIP_SVC_GET_MEMORY_NODE_COUNT: 4388b7dd839SXiong Yining SMC_RET2(handle, NULL, dynamic_platform_info.num_memnodes); 4398b7dd839SXiong Yining 4408b7dd839SXiong Yining case SIP_SVC_GET_MEMORY_NODE: 4418b7dd839SXiong Yining index = x1; 4428b7dd839SXiong Yining if (index < PLAT_MAX_MEM_NODES) { 4438b7dd839SXiong Yining SMC_RET4(handle, NULL, 4448b7dd839SXiong Yining dynamic_platform_info.memory[index].nodeid, 4458b7dd839SXiong Yining dynamic_platform_info.memory[index].addr_base, 4468b7dd839SXiong Yining dynamic_platform_info.memory[index].addr_size); 4478b7dd839SXiong Yining } else { 4488b7dd839SXiong Yining SMC_RET1(handle, SMC_ARCH_CALL_INVAL_PARAM); 4498b7dd839SXiong Yining } 4508b7dd839SXiong Yining 451c681d02cSMarcin Juszkiewicz default: 452c681d02cSMarcin Juszkiewicz ERROR("%s: unhandled SMC (0x%x) (function id: %d)\n", __func__, smc_fid, 453c681d02cSMarcin Juszkiewicz smc_fid - SIP_FUNCTION); 454c681d02cSMarcin Juszkiewicz SMC_RET1(handle, SMC_UNK); 455c681d02cSMarcin Juszkiewicz } 456c681d02cSMarcin Juszkiewicz } 457c681d02cSMarcin Juszkiewicz 458c681d02cSMarcin Juszkiewicz int sbsa_sip_smc_setup(void) 459c681d02cSMarcin Juszkiewicz { 460c681d02cSMarcin Juszkiewicz return 0; 461c681d02cSMarcin Juszkiewicz } 462c681d02cSMarcin Juszkiewicz 463c681d02cSMarcin Juszkiewicz /* Define a runtime service descriptor for fast SMC calls */ 464c681d02cSMarcin Juszkiewicz DECLARE_RT_SVC( 465c681d02cSMarcin Juszkiewicz sbsa_sip_svc, 466c681d02cSMarcin Juszkiewicz OEN_SIP_START, 467c681d02cSMarcin Juszkiewicz OEN_SIP_END, 468c681d02cSMarcin Juszkiewicz SMC_TYPE_FAST, 469c681d02cSMarcin Juszkiewicz sbsa_sip_smc_setup, 470c681d02cSMarcin Juszkiewicz sbsa_sip_smc_handler 471c681d02cSMarcin Juszkiewicz ); 472