15e61cba0SAndrew Jones /* 25e61cba0SAndrew Jones * Initialize machine setup information and I/O. 35e61cba0SAndrew Jones * 45e61cba0SAndrew Jones * After running setup() unit tests may query how many cpus they have 55e61cba0SAndrew Jones * (nr_cpus), how much memory they have (PHYS_END - PHYS_OFFSET), may 65e61cba0SAndrew Jones * use dynamic memory allocation (malloc, etc.), printf, and exit. 75e61cba0SAndrew Jones * Finally, argc and argv are also ready to be passed to main(). 85e61cba0SAndrew Jones * 95e61cba0SAndrew Jones * Copyright (C) 2014, Red Hat Inc, Andrew Jones <drjones@redhat.com> 105e61cba0SAndrew Jones * 115e61cba0SAndrew Jones * This work is licensed under the terms of the GNU LGPL, version 2. 125e61cba0SAndrew Jones */ 138cca5668SAndrew Jones #include <libcflat.h> 148cca5668SAndrew Jones #include <libfdt/libfdt.h> 158cca5668SAndrew Jones #include <devicetree.h> 168cca5668SAndrew Jones #include <alloc.h> 17dc47ac61SPaolo Bonzini #include <alloc_phys.h> 1862bdc67fSAndrew Jones #include <alloc_page.h> 19c0edb3d2SAndrew Jones #include <vmalloc.h> 20c0edb3d2SAndrew Jones #include <auxinfo.h> 2163d5cbecSThomas Huth #include <argv.h> 22f6d10793SAndrew Jones #include <asm/thread_info.h> 238cca5668SAndrew Jones #include <asm/setup.h> 248cca5668SAndrew Jones #include <asm/page.h> 25410b3bf0SAlexandru Elisei #include <asm/processor.h> 2668ea0e0bSAndrew Jones #include <asm/smp.h> 27a4110027SAndrew Jones #include <asm/timer.h> 28bd5bd157SAndrew Jones #include <asm/psci.h> 295e61cba0SAndrew Jones 300df901e0SAndrew Jones #include "io.h" 310df901e0SAndrew Jones 325a2a7371SAndrew Jones #define MAX_DT_MEM_REGIONS 16 335a2a7371SAndrew Jones #define NR_EXTRA_MEM_REGIONS 16 345a2a7371SAndrew Jones #define NR_INITIAL_MEM_REGIONS (MAX_DT_MEM_REGIONS + NR_EXTRA_MEM_REGIONS) 35ef31e31dSAndrew Jones 36c1cd1a2bSAndrew Jones extern unsigned long etext; 375e61cba0SAndrew Jones 382c2545b0SAndrew Jones char *initrd; 392c2545b0SAndrew Jones u32 initrd_size; 402c2545b0SAndrew Jones 41da905c9dSAndrew Jones u64 cpus[NR_CPUS] = { [0 ... NR_CPUS-1] = (u64)~0 }; 425e61cba0SAndrew Jones int nr_cpus; 435e61cba0SAndrew Jones 44ef31e31dSAndrew Jones static struct mem_region __initial_mem_regions[NR_INITIAL_MEM_REGIONS + 1]; 45ef31e31dSAndrew Jones struct mem_region *mem_regions = __initial_mem_regions; 465e61cba0SAndrew Jones phys_addr_t __phys_offset, __phys_end; 475e61cba0SAndrew Jones 48d9729025SAndrew Jones int mpidr_to_cpu(uint64_t mpidr) 49d9729025SAndrew Jones { 50d9729025SAndrew Jones int i; 51d9729025SAndrew Jones 52d9729025SAndrew Jones for (i = 0; i < nr_cpus; ++i) 53d9729025SAndrew Jones if (cpus[i] == (mpidr & MPIDR_HWID_BITMASK)) 54d9729025SAndrew Jones return i; 55d9729025SAndrew Jones return -1; 56d9729025SAndrew Jones } 57d9729025SAndrew Jones 58*3d29f825SNikos Nikoleris static void cpu_set_fdt(int fdtnode __unused, u64 regval, void *info __unused) 595e61cba0SAndrew Jones { 6068ea0e0bSAndrew Jones int cpu = nr_cpus++; 6162de081aSAndrew Jones 623a9d03a4SAndrew Jones assert_msg(cpu < NR_CPUS, "Number cpus exceeds maximum supported (%d).", NR_CPUS); 633a9d03a4SAndrew Jones 6468ea0e0bSAndrew Jones cpus[cpu] = regval; 6568ea0e0bSAndrew Jones set_cpu_present(cpu, true); 665e61cba0SAndrew Jones } 675e61cba0SAndrew Jones 68*3d29f825SNikos Nikoleris #ifdef CONFIG_EFI 69*3d29f825SNikos Nikoleris 70*3d29f825SNikos Nikoleris #include <acpi.h> 71*3d29f825SNikos Nikoleris 72*3d29f825SNikos Nikoleris static int cpu_set_acpi(struct acpi_subtable_header *header) 73*3d29f825SNikos Nikoleris { 74*3d29f825SNikos Nikoleris int cpu = nr_cpus++; 75*3d29f825SNikos Nikoleris struct acpi_madt_generic_interrupt *gicc = (void *)header; 76*3d29f825SNikos Nikoleris 77*3d29f825SNikos Nikoleris assert_msg(cpu < NR_CPUS, "Number cpus exceeds maximum supported (%d).", NR_CPUS); 78*3d29f825SNikos Nikoleris 79*3d29f825SNikos Nikoleris cpus[cpu] = gicc->arm_mpidr; 80*3d29f825SNikos Nikoleris set_cpu_present(cpu, true); 81*3d29f825SNikos Nikoleris 82*3d29f825SNikos Nikoleris return 0; 83*3d29f825SNikos Nikoleris } 84*3d29f825SNikos Nikoleris 85*3d29f825SNikos Nikoleris static void cpu_init_acpi(void) 86*3d29f825SNikos Nikoleris { 87*3d29f825SNikos Nikoleris acpi_table_parse_madt(ACPI_MADT_TYPE_GENERIC_INTERRUPT, cpu_set_acpi); 88*3d29f825SNikos Nikoleris } 89*3d29f825SNikos Nikoleris 90*3d29f825SNikos Nikoleris #else 91*3d29f825SNikos Nikoleris 92*3d29f825SNikos Nikoleris static void cpu_init_acpi(void) 93*3d29f825SNikos Nikoleris { 94*3d29f825SNikos Nikoleris assert_msg(false, "ACPI not available"); 95*3d29f825SNikos Nikoleris } 96*3d29f825SNikos Nikoleris 97*3d29f825SNikos Nikoleris #endif 98*3d29f825SNikos Nikoleris 995e61cba0SAndrew Jones static void cpu_init(void) 1005e61cba0SAndrew Jones { 10118ab6cadSAndrew Jones int ret; 10218ab6cadSAndrew Jones 1035e61cba0SAndrew Jones nr_cpus = 0; 104*3d29f825SNikos Nikoleris if (dt_available()) { 105*3d29f825SNikos Nikoleris ret = dt_for_each_cpu_node(cpu_set_fdt, NULL); 10618ab6cadSAndrew Jones assert(ret == 0); 107*3d29f825SNikos Nikoleris } else { 108*3d29f825SNikos Nikoleris cpu_init_acpi(); 109*3d29f825SNikos Nikoleris } 110*3d29f825SNikos Nikoleris 11168ea0e0bSAndrew Jones set_cpu_online(0, true); 1125e61cba0SAndrew Jones } 1135e61cba0SAndrew Jones 1145a2a7371SAndrew Jones static void mem_region_add(struct mem_region *r) 1155a2a7371SAndrew Jones { 1165a2a7371SAndrew Jones struct mem_region *r_next = mem_regions; 1175a2a7371SAndrew Jones int i = 0; 1185a2a7371SAndrew Jones 1195a2a7371SAndrew Jones for (; r_next->end; ++r_next, ++i) 1205a2a7371SAndrew Jones ; 1215a2a7371SAndrew Jones assert(i < NR_INITIAL_MEM_REGIONS); 1225a2a7371SAndrew Jones 1235a2a7371SAndrew Jones *r_next = *r; 1245a2a7371SAndrew Jones } 1255a2a7371SAndrew Jones 1265a2a7371SAndrew Jones static void mem_regions_add_dt_regions(void) 1275a2a7371SAndrew Jones { 1285a2a7371SAndrew Jones struct dt_pbus_reg regs[MAX_DT_MEM_REGIONS]; 1295a2a7371SAndrew Jones int nr_regs, i; 1305a2a7371SAndrew Jones 1315a2a7371SAndrew Jones nr_regs = dt_get_memory_params(regs, MAX_DT_MEM_REGIONS); 1325a2a7371SAndrew Jones assert(nr_regs > 0); 1335a2a7371SAndrew Jones 1345a2a7371SAndrew Jones for (i = 0; i < nr_regs; ++i) { 1355a2a7371SAndrew Jones mem_region_add(&(struct mem_region){ 1365a2a7371SAndrew Jones .start = regs[i].addr, 1375a2a7371SAndrew Jones .end = regs[i].addr + regs[i].size, 1385a2a7371SAndrew Jones }); 1395a2a7371SAndrew Jones } 1405a2a7371SAndrew Jones } 1415a2a7371SAndrew Jones 1425a2a7371SAndrew Jones struct mem_region *mem_region_find(phys_addr_t paddr) 143ef31e31dSAndrew Jones { 144ef31e31dSAndrew Jones struct mem_region *r; 145ef31e31dSAndrew Jones 1465a2a7371SAndrew Jones for (r = mem_regions; r->end; ++r) 147ef31e31dSAndrew Jones if (paddr >= r->start && paddr < r->end) 1485a2a7371SAndrew Jones return r; 1495a2a7371SAndrew Jones return NULL; 150ef31e31dSAndrew Jones } 151ef31e31dSAndrew Jones 1525a2a7371SAndrew Jones unsigned int mem_region_get_flags(phys_addr_t paddr) 1535a2a7371SAndrew Jones { 1545a2a7371SAndrew Jones struct mem_region *r = mem_region_find(paddr); 1555a2a7371SAndrew Jones return r ? r->flags : MR_F_UNKNOWN; 156ef31e31dSAndrew Jones } 157ef31e31dSAndrew Jones 1585a2a7371SAndrew Jones static void mem_regions_add_assumed(void) 1595e61cba0SAndrew Jones { 160c1cd1a2bSAndrew Jones phys_addr_t code_end = (phys_addr_t)(unsigned long)&etext; 1615a2a7371SAndrew Jones struct mem_region *r; 1625a2a7371SAndrew Jones 1635a2a7371SAndrew Jones r = mem_region_find(code_end - 1); 1645a2a7371SAndrew Jones assert(r); 1655a2a7371SAndrew Jones 1665a2a7371SAndrew Jones /* Split the region with the code into two regions; code and data */ 1675a2a7371SAndrew Jones mem_region_add(&(struct mem_region){ 1685a2a7371SAndrew Jones .start = code_end, 1695a2a7371SAndrew Jones .end = r->end, 1705a2a7371SAndrew Jones }); 1715a2a7371SAndrew Jones *r = (struct mem_region){ 1725a2a7371SAndrew Jones .start = r->start, 1735a2a7371SAndrew Jones .end = code_end, 1745a2a7371SAndrew Jones .flags = MR_F_CODE, 17562de081aSAndrew Jones }; 1765e61cba0SAndrew Jones 177ef31e31dSAndrew Jones /* 178ef31e31dSAndrew Jones * mach-virt I/O regions: 179ef31e31dSAndrew Jones * - The first 1G (arm/arm64) 180ef31e31dSAndrew Jones * - 512M at 256G (arm64, arm uses highmem=off) 181ef31e31dSAndrew Jones * - 512G at 512G (arm64, arm uses highmem=off) 182ef31e31dSAndrew Jones */ 1835a2a7371SAndrew Jones mem_region_add(&(struct mem_region){ 0, (1ul << 30), MR_F_IO }); 184ef31e31dSAndrew Jones #ifdef __aarch64__ 1855a2a7371SAndrew Jones mem_region_add(&(struct mem_region){ (1ul << 38), (1ul << 38) | (1ul << 29), MR_F_IO }); 1865a2a7371SAndrew Jones mem_region_add(&(struct mem_region){ (1ul << 39), (1ul << 40), MR_F_IO }); 187ef31e31dSAndrew Jones #endif 18862de081aSAndrew Jones } 1895e61cba0SAndrew Jones 1905a2a7371SAndrew Jones static void mem_init(phys_addr_t freemem_start) 1915a2a7371SAndrew Jones { 1925a2a7371SAndrew Jones phys_addr_t base, top; 1935a2a7371SAndrew Jones struct mem_region *freemem, *r, mem = { 1945a2a7371SAndrew Jones .start = (phys_addr_t)-1, 1955a2a7371SAndrew Jones }; 1965a2a7371SAndrew Jones 1975a2a7371SAndrew Jones freemem = mem_region_find(freemem_start); 1985a2a7371SAndrew Jones assert(freemem && !(freemem->flags & (MR_F_IO | MR_F_CODE))); 1995a2a7371SAndrew Jones 2005a2a7371SAndrew Jones for (r = mem_regions; r->end; ++r) { 2015a2a7371SAndrew Jones if (!(r->flags & MR_F_IO)) { 202ef31e31dSAndrew Jones if (r->start < mem.start) 203ef31e31dSAndrew Jones mem.start = r->start; 204ef31e31dSAndrew Jones if (r->end > mem.end) 205ef31e31dSAndrew Jones mem.end = r->end; 20662de081aSAndrew Jones } 2075a2a7371SAndrew Jones } 2085a2a7371SAndrew Jones assert(mem.end && !(mem.start & ~PHYS_MASK)); 2095a2a7371SAndrew Jones mem.end &= PHYS_MASK; 21062de081aSAndrew Jones 2115a2a7371SAndrew Jones /* Check for holes */ 2125a2a7371SAndrew Jones r = mem_region_find(mem.start); 2135a2a7371SAndrew Jones while (r && r->end != mem.end) 2145a2a7371SAndrew Jones r = mem_region_find(r->end); 2155a2a7371SAndrew Jones assert(r); 21662de081aSAndrew Jones 2175a2a7371SAndrew Jones /* Ensure our selected freemem range is somewhere in our full range */ 2185a2a7371SAndrew Jones assert(freemem_start >= mem.start && freemem->end <= mem.end); 219c1cd1a2bSAndrew Jones 2205a2a7371SAndrew Jones __phys_offset = mem.start; /* PHYS_OFFSET */ 2215a2a7371SAndrew Jones __phys_end = mem.end; /* PHYS_END */ 2225a2a7371SAndrew Jones 2235a2a7371SAndrew Jones phys_alloc_init(freemem_start, freemem->end - freemem_start); 2245e61cba0SAndrew Jones phys_alloc_set_minimum_alignment(SMP_CACHE_BYTES); 225153d1936SAndrew Jones 22662bdc67fSAndrew Jones phys_alloc_get_unused(&base, &top); 22762bdc67fSAndrew Jones base = PAGE_ALIGN(base); 22862bdc67fSAndrew Jones top = top & PAGE_MASK; 22962bdc67fSAndrew Jones assert(sizeof(long) == 8 || !(base >> 32)); 23062bdc67fSAndrew Jones if (sizeof(long) != 8 && (top >> 32) != 0) 23162bdc67fSAndrew Jones top = ((uint64_t)1 << 32); 2328131e91aSClaudio Imbrenda page_alloc_init_area(0, base >> PAGE_SHIFT, top >> PAGE_SHIFT); 23362bdc67fSAndrew Jones page_alloc_ops_enable(); 2345e61cba0SAndrew Jones } 2355e61cba0SAndrew Jones 2365a2a7371SAndrew Jones void setup(const void *fdt, phys_addr_t freemem_start) 2375e61cba0SAndrew Jones { 2385a2a7371SAndrew Jones void *freemem; 2392c2545b0SAndrew Jones const char *bootargs, *tmp; 2405e61cba0SAndrew Jones u32 fdt_size; 24118ab6cadSAndrew Jones int ret; 2425e61cba0SAndrew Jones 2435a2a7371SAndrew Jones assert(sizeof(long) == 8 || freemem_start < (3ul << 30)); 2445a2a7371SAndrew Jones freemem = (void *)(unsigned long)freemem_start; 2455a2a7371SAndrew Jones 2465a2a7371SAndrew Jones /* Move the FDT to the base of free memory */ 2475e61cba0SAndrew Jones fdt_size = fdt_totalsize(fdt); 2483a98026dSAndrew Jones ret = fdt_move(fdt, freemem, fdt_size); 24918ab6cadSAndrew Jones assert(ret == 0); 2503a98026dSAndrew Jones ret = dt_init(freemem); 25118ab6cadSAndrew Jones assert(ret == 0); 2523a98026dSAndrew Jones freemem += fdt_size; 2535e61cba0SAndrew Jones 2545a2a7371SAndrew Jones /* Move the initrd to the top of the FDT */ 2552c2545b0SAndrew Jones ret = dt_get_initrd(&tmp, &initrd_size); 2562c2545b0SAndrew Jones assert(ret == 0 || ret == -FDT_ERR_NOTFOUND); 2572c2545b0SAndrew Jones if (ret == 0) { 2582c2545b0SAndrew Jones initrd = freemem; 2592c2545b0SAndrew Jones memmove(initrd, tmp, initrd_size); 2602c2545b0SAndrew Jones freemem += initrd_size; 2612c2545b0SAndrew Jones } 2622c2545b0SAndrew Jones 2635a2a7371SAndrew Jones mem_regions_add_dt_regions(); 2645a2a7371SAndrew Jones mem_regions_add_assumed(); 26562bdc67fSAndrew Jones mem_init(PAGE_ALIGN((unsigned long)freemem)); 2665a2a7371SAndrew Jones 267bd5bd157SAndrew Jones psci_set_conduit(); 2685e61cba0SAndrew Jones cpu_init(); 2695e61cba0SAndrew Jones 2704f58b399SAndrew Jones /* cpu_init must be called before thread_info_init */ 271f6d10793SAndrew Jones thread_info_init(current_thread_info(), 0); 272f6d10793SAndrew Jones 2734f58b399SAndrew Jones /* mem_init must be called before io_init */ 2744f58b399SAndrew Jones io_init(); 2754f58b399SAndrew Jones 276a4110027SAndrew Jones timer_save_state(); 277a4110027SAndrew Jones 27818ab6cadSAndrew Jones ret = dt_get_bootargs(&bootargs); 279d81b83fdSAndrew Jones assert(ret == 0 || ret == -FDT_ERR_NOTFOUND); 280809ebcb3SAndrew Jones setup_args_progname(bootargs); 2814968651eSAndrew Jones 2824968651eSAndrew Jones if (initrd) { 2834968651eSAndrew Jones /* environ is currently the only file in the initrd */ 2844968651eSAndrew Jones char *env = malloc(initrd_size); 2854968651eSAndrew Jones memcpy(env, initrd, initrd_size); 2864968651eSAndrew Jones setup_env(env, initrd_size); 2874968651eSAndrew Jones } 288c0edb3d2SAndrew Jones 289c0edb3d2SAndrew Jones if (!(auxinfo.flags & AUXINFO_MMU_OFF)) 290c0edb3d2SAndrew Jones setup_vm(); 2915e61cba0SAndrew Jones } 292