1d72b0449SAndrew Jones /* 2d72b0449SAndrew Jones * Initialize machine setup information and I/O. 3d72b0449SAndrew Jones * 4d72b0449SAndrew Jones * After running setup() unit tests may query how many cpus they have 5d72b0449SAndrew Jones * (nr_cpus), how much memory they have (PHYSICAL_END - PHYSICAL_START), 6d72b0449SAndrew Jones * may use dynamic memory allocation (malloc, etc.), printf, and exit. 7d72b0449SAndrew Jones * Finally, argc and argv are also ready to be passed to main(). 8d72b0449SAndrew Jones * 9d72b0449SAndrew Jones * Copyright (C) 2016, Red Hat Inc, Andrew Jones <drjones@redhat.com> 10d72b0449SAndrew Jones * 11d72b0449SAndrew Jones * This work is licensed under the terms of the GNU LGPL, version 2. 12d72b0449SAndrew Jones */ 13d72b0449SAndrew Jones #include <libcflat.h> 14d72b0449SAndrew Jones #include <libfdt/libfdt.h> 15d72b0449SAndrew Jones #include <devicetree.h> 16d72b0449SAndrew Jones #include <alloc.h> 17d72b0449SAndrew Jones #include <asm/setup.h> 18d72b0449SAndrew Jones #include <asm/page.h> 196842bc34SLaurent Vivier #include <asm/hcall.h> 20d72b0449SAndrew Jones 21d72b0449SAndrew Jones extern unsigned long stacktop; 22d72b0449SAndrew Jones extern void io_init(void); 23809ebcb3SAndrew Jones extern void setup_args_progname(const char *args); 24d72b0449SAndrew Jones 25d72b0449SAndrew Jones u32 cpus[NR_CPUS] = { [0 ... NR_CPUS-1] = (~0U) }; 26d72b0449SAndrew Jones int nr_cpus; 27f4d8d939SSuraj Jitindar Singh uint64_t tb_hz; 28d72b0449SAndrew Jones 29d72b0449SAndrew Jones struct mem_region mem_regions[NR_MEM_REGIONS]; 30d72b0449SAndrew Jones phys_addr_t __physical_start, __physical_end; 31d72b0449SAndrew Jones unsigned __icache_bytes, __dcache_bytes; 32d72b0449SAndrew Jones 33d72b0449SAndrew Jones struct cpu_set_params { 34d72b0449SAndrew Jones unsigned icache_bytes; 35d72b0449SAndrew Jones unsigned dcache_bytes; 36f4d8d939SSuraj Jitindar Singh uint64_t tb_hz; 37d72b0449SAndrew Jones }; 38d72b0449SAndrew Jones 396842bc34SLaurent Vivier #define EXCEPTION_STACK_SIZE (32*1024) /* 32kB */ 406842bc34SLaurent Vivier 416842bc34SLaurent Vivier static char exception_stack[NR_CPUS][EXCEPTION_STACK_SIZE]; 426842bc34SLaurent Vivier 43*7a20b74eSAndrew Jones static void cpu_set(int fdtnode, u64 regval, void *info) 44d72b0449SAndrew Jones { 45d72b0449SAndrew Jones static bool read_common_info = false; 46d72b0449SAndrew Jones struct cpu_set_params *params = info; 47d72b0449SAndrew Jones int cpu = nr_cpus++; 48d72b0449SAndrew Jones 49d72b0449SAndrew Jones if (cpu >= NR_CPUS) { 50d72b0449SAndrew Jones printf("Number cpus exceeds maximum supported (%d).\n", 51d72b0449SAndrew Jones NR_CPUS); 52d72b0449SAndrew Jones assert(0); 53d72b0449SAndrew Jones } 54d72b0449SAndrew Jones cpus[cpu] = regval; 55d72b0449SAndrew Jones 566842bc34SLaurent Vivier /* set exception stack address for this CPU (in SPGR0) */ 576842bc34SLaurent Vivier 586842bc34SLaurent Vivier asm volatile ("mtsprg0 %[addr]" :: 596842bc34SLaurent Vivier [addr] "r" (exception_stack[cpu + 1])); 606842bc34SLaurent Vivier 61d72b0449SAndrew Jones if (!read_common_info) { 62d72b0449SAndrew Jones const struct fdt_property *prop; 63d72b0449SAndrew Jones u32 *data; 64d72b0449SAndrew Jones 65d72b0449SAndrew Jones prop = fdt_get_property(dt_fdt(), fdtnode, 66d72b0449SAndrew Jones "i-cache-line-size", NULL); 67d72b0449SAndrew Jones assert(prop != NULL); 68d72b0449SAndrew Jones data = (u32 *)prop->data; 69d72b0449SAndrew Jones params->icache_bytes = fdt32_to_cpu(*data); 70d72b0449SAndrew Jones 71d72b0449SAndrew Jones prop = fdt_get_property(dt_fdt(), fdtnode, 72d72b0449SAndrew Jones "d-cache-line-size", NULL); 73d72b0449SAndrew Jones assert(prop != NULL); 74d72b0449SAndrew Jones data = (u32 *)prop->data; 75d72b0449SAndrew Jones params->dcache_bytes = fdt32_to_cpu(*data); 76d72b0449SAndrew Jones 77f4d8d939SSuraj Jitindar Singh prop = fdt_get_property(dt_fdt(), fdtnode, 78f4d8d939SSuraj Jitindar Singh "timebase-frequency", NULL); 79f4d8d939SSuraj Jitindar Singh assert(prop != NULL); 80f4d8d939SSuraj Jitindar Singh data = (u32 *)prop->data; 81f4d8d939SSuraj Jitindar Singh params->tb_hz = fdt32_to_cpu(*data); 82f4d8d939SSuraj Jitindar Singh 83d72b0449SAndrew Jones read_common_info = true; 84d72b0449SAndrew Jones } 85d72b0449SAndrew Jones } 86d72b0449SAndrew Jones 87d72b0449SAndrew Jones static void cpu_init(void) 88d72b0449SAndrew Jones { 89d72b0449SAndrew Jones struct cpu_set_params params; 90d72b0449SAndrew Jones int ret; 91d72b0449SAndrew Jones 92d72b0449SAndrew Jones nr_cpus = 0; 93d72b0449SAndrew Jones ret = dt_for_each_cpu_node(cpu_set, ¶ms); 94d72b0449SAndrew Jones assert(ret == 0); 95d72b0449SAndrew Jones __icache_bytes = params.icache_bytes; 96d72b0449SAndrew Jones __dcache_bytes = params.dcache_bytes; 97f4d8d939SSuraj Jitindar Singh tb_hz = params.tb_hz; 986842bc34SLaurent Vivier 996842bc34SLaurent Vivier /* Interrupt Endianness */ 1006842bc34SLaurent Vivier 1016842bc34SLaurent Vivier #if __BYTE_ORDER__ == __ORDER_LITTLE_ENDIAN__ 1026842bc34SLaurent Vivier hcall(H_SET_MODE, 1, 4, 0, 0); 1036842bc34SLaurent Vivier #else 1046842bc34SLaurent Vivier hcall(H_SET_MODE, 0, 4, 0, 0); 1056842bc34SLaurent Vivier #endif 106d72b0449SAndrew Jones } 107d72b0449SAndrew Jones 108d72b0449SAndrew Jones static void mem_init(phys_addr_t freemem_start) 109d72b0449SAndrew Jones { 110d72b0449SAndrew Jones struct dt_pbus_reg regs[NR_MEM_REGIONS]; 111d72b0449SAndrew Jones struct mem_region primary, mem = { 112d72b0449SAndrew Jones .start = (phys_addr_t)-1, 113d72b0449SAndrew Jones }; 114d72b0449SAndrew Jones int nr_regs, i; 115d72b0449SAndrew Jones 116d72b0449SAndrew Jones nr_regs = dt_get_memory_params(regs, NR_MEM_REGIONS); 117d72b0449SAndrew Jones assert(nr_regs > 0); 118d72b0449SAndrew Jones 119d72b0449SAndrew Jones primary.end = 0; 120d72b0449SAndrew Jones 121d72b0449SAndrew Jones for (i = 0; i < nr_regs; ++i) { 122d72b0449SAndrew Jones mem_regions[i].start = regs[i].addr; 123d72b0449SAndrew Jones mem_regions[i].end = regs[i].addr + regs[i].size; 124d72b0449SAndrew Jones 125d72b0449SAndrew Jones /* 126d72b0449SAndrew Jones * pick the region we're in for our primary region 127d72b0449SAndrew Jones */ 128d72b0449SAndrew Jones if (freemem_start >= mem_regions[i].start 129d72b0449SAndrew Jones && freemem_start < mem_regions[i].end) { 130d72b0449SAndrew Jones mem_regions[i].flags |= MR_F_PRIMARY; 131d72b0449SAndrew Jones primary = mem_regions[i]; 132d72b0449SAndrew Jones } 133d72b0449SAndrew Jones 134d72b0449SAndrew Jones /* 135d72b0449SAndrew Jones * set the lowest and highest addresses found, 136d72b0449SAndrew Jones * ignoring potential gaps 137d72b0449SAndrew Jones */ 138d72b0449SAndrew Jones if (mem_regions[i].start < mem.start) 139d72b0449SAndrew Jones mem.start = mem_regions[i].start; 140d72b0449SAndrew Jones if (mem_regions[i].end > mem.end) 141d72b0449SAndrew Jones mem.end = mem_regions[i].end; 142d72b0449SAndrew Jones } 143d72b0449SAndrew Jones assert(primary.end != 0); 144d72b0449SAndrew Jones // assert(!(mem.start & ~PHYS_MASK) && !((mem.end - 1) & ~PHYS_MASK)); 145d72b0449SAndrew Jones 146d72b0449SAndrew Jones __physical_start = mem.start; /* PHYSICAL_START */ 147d72b0449SAndrew Jones __physical_end = mem.end; /* PHYSICAL_END */ 148d72b0449SAndrew Jones 149d72b0449SAndrew Jones phys_alloc_init(freemem_start, primary.end - freemem_start); 150d72b0449SAndrew Jones phys_alloc_set_minimum_alignment(__icache_bytes > __dcache_bytes 151d72b0449SAndrew Jones ? __icache_bytes : __dcache_bytes); 152d72b0449SAndrew Jones } 153d72b0449SAndrew Jones 154d72b0449SAndrew Jones void setup(const void *fdt) 155d72b0449SAndrew Jones { 156d72b0449SAndrew Jones const char *bootargs; 157d72b0449SAndrew Jones u32 fdt_size; 158d72b0449SAndrew Jones int ret; 159d72b0449SAndrew Jones 160d72b0449SAndrew Jones /* 161d72b0449SAndrew Jones * Move the fdt to just above the stack. The free memory 162d72b0449SAndrew Jones * then starts just after the fdt. 163d72b0449SAndrew Jones */ 164d72b0449SAndrew Jones fdt_size = fdt_totalsize(fdt); 165d72b0449SAndrew Jones ret = fdt_move(fdt, &stacktop, fdt_size); 166d72b0449SAndrew Jones assert(ret == 0); 167d72b0449SAndrew Jones ret = dt_init(&stacktop); 168d72b0449SAndrew Jones assert(ret == 0); 169d72b0449SAndrew Jones 170d72b0449SAndrew Jones cpu_init(); 171d35482d5SAndrew Jones 172d35482d5SAndrew Jones /* cpu_init must be called before mem_init */ 173d72b0449SAndrew Jones mem_init(PAGE_ALIGN((unsigned long)&stacktop + fdt_size)); 174d35482d5SAndrew Jones 175d35482d5SAndrew Jones /* mem_init must be called before io_init */ 176d72b0449SAndrew Jones io_init(); 177d72b0449SAndrew Jones 178d72b0449SAndrew Jones ret = dt_get_bootargs(&bootargs); 179d72b0449SAndrew Jones assert(ret == 0); 180809ebcb3SAndrew Jones setup_args_progname(bootargs); 181d72b0449SAndrew Jones } 182