428 lines
10 KiB
C
428 lines
10 KiB
C
/*
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* Copyright (c) 2006-2023, RT-Thread Development Team
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*
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* SPDX-License-Identifier: Apache-2.0
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*
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* Change Logs:
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* Date Author Notes
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* 2023-02-21 GuEe-GUI first version
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*/
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#include <rtthread.h>
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#define DBG_TAG "cpu.aa64"
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#define DBG_LVL DBG_INFO
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#include <rtdbg.h>
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#include <smp_call.h>
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#include <cpu.h>
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#include <mmu.h>
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#include <cpuport.h>
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#include <interrupt.h>
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#include <gtimer.h>
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#include <setup.h>
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#include <stdlib.h>
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#include <ioremap.h>
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#include <rtdevice.h>
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#include <gic.h>
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#include <gicv3.h>
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#include <mm_memblock.h>
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#define SIZE_KB 1024
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#define SIZE_MB (1024 * SIZE_KB)
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#define SIZE_GB (1024 * SIZE_MB)
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extern rt_ubase_t _start, _end;
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extern void _secondary_cpu_entry(void);
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extern size_t MMUTable[];
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extern void *system_vectors;
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static void *fdt_ptr = RT_NULL;
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static rt_size_t fdt_size = 0;
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static rt_uint64_t initrd_ranges[3] = { };
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#ifdef RT_USING_SMP
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extern struct cpu_ops_t cpu_psci_ops;
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extern struct cpu_ops_t cpu_spin_table_ops;
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#else
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extern int rt_hw_cpu_id(void);
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#endif
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rt_uint64_t rt_cpu_mpidr_table[] =
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{
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[RT_CPUS_NR] = 0,
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};
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static struct cpu_ops_t *cpu_ops[] =
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{
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#ifdef RT_USING_SMP
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&cpu_psci_ops,
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&cpu_spin_table_ops,
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#endif
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};
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static struct rt_ofw_node *cpu_np[RT_CPUS_NR] = { };
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void rt_hw_fdt_install_early(void *fdt)
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{
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if (fdt != RT_NULL && !fdt_check_header(fdt))
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{
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fdt_ptr = fdt;
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fdt_size = fdt_totalsize(fdt);
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}
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}
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#ifdef RT_USING_HWTIMER
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static rt_ubase_t loops_per_tick[RT_CPUS_NR];
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static rt_ubase_t cpu_get_cycles(void)
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{
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rt_ubase_t cycles;
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rt_hw_sysreg_read(cntpct_el0, cycles);
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return cycles;
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}
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static void cpu_loops_per_tick_init(void)
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{
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rt_ubase_t offset;
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volatile rt_ubase_t freq, step, cycles_end1, cycles_end2;
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volatile rt_uint32_t cycles_count1 = 0, cycles_count2 = 0;
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rt_hw_sysreg_read(cntfrq_el0, freq);
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step = freq / RT_TICK_PER_SECOND;
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cycles_end1 = cpu_get_cycles() + step;
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while (cpu_get_cycles() < cycles_end1)
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{
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__asm__ volatile ("nop");
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__asm__ volatile ("add %0, %0, #1":"=r"(cycles_count1));
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}
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cycles_end2 = cpu_get_cycles() + step;
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while (cpu_get_cycles() < cycles_end2)
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{
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__asm__ volatile ("add %0, %0, #1":"=r"(cycles_count2));
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}
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if ((rt_int32_t)(cycles_count2 - cycles_count1) > 0)
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{
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offset = cycles_count2 - cycles_count1;
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}
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else
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{
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/* Impossible, but prepared for any eventualities */
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offset = cycles_count2 / 4;
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}
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loops_per_tick[rt_hw_cpu_id()] = offset;
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}
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static void cpu_us_delay(rt_uint32_t us)
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{
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volatile rt_base_t start = cpu_get_cycles(), cycles;
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cycles = ((us * 0x10c7UL) * loops_per_tick[rt_hw_cpu_id()] * RT_TICK_PER_SECOND) >> 32;
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while ((cpu_get_cycles() - start) < cycles)
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{
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rt_hw_cpu_relax();
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}
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}
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#endif /* RT_USING_HWTIMER */
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rt_weak void rt_hw_idle_wfi(void)
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{
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__asm__ volatile ("wfi");
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}
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static void system_vectors_init(void)
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{
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rt_hw_set_current_vbar((rt_ubase_t)&system_vectors);
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}
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rt_inline void cpu_info_init(void)
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{
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int i = 0;
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rt_uint64_t mpidr;
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struct rt_ofw_node *np;
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/* get boot cpu info */
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rt_hw_sysreg_read(mpidr_el1, mpidr);
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rt_ofw_foreach_cpu_node(np)
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{
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rt_uint64_t hwid = rt_ofw_get_cpu_hwid(np, 0);
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if ((mpidr & MPIDR_AFFINITY_MASK) != hwid)
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{
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/* Only save affinity and res make smp boot can check */
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hwid |= 1ULL << 31;
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}
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else
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{
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hwid = mpidr;
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}
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cpu_np[i] = np;
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rt_cpu_mpidr_table[i] = hwid;
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rt_ofw_data(np) = (void *)hwid;
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for (int idx = 0; idx < RT_ARRAY_SIZE(cpu_ops); ++idx)
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{
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struct cpu_ops_t *ops = cpu_ops[idx];
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if (ops->cpu_init)
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{
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ops->cpu_init(i, np);
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}
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}
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if (++i >= RT_CPUS_NR)
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{
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break;
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}
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}
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rt_hw_cpu_dcache_ops(RT_HW_CACHE_FLUSH, rt_cpu_mpidr_table, sizeof(rt_cpu_mpidr_table));
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#ifdef RT_USING_HWTIMER
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cpu_loops_per_tick_init();
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if (!rt_device_hwtimer_us_delay)
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{
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rt_device_hwtimer_us_delay = &cpu_us_delay;
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}
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#endif /* RT_USING_HWTIMER */
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}
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void rt_hw_common_setup(void)
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{
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rt_size_t kernel_start, kernel_end;
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rt_size_t heap_start, heap_end;
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rt_size_t init_page_start, init_page_end;
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rt_size_t fdt_start, fdt_end;
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rt_region_t init_page_region = { 0 };
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rt_region_t platform_mem_region = { 0 };
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static struct mem_desc platform_mem_desc;
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const rt_ubase_t pv_off = PV_OFFSET;
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system_vectors_init();
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#ifdef RT_USING_SMART
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rt_hw_mmu_map_init(&rt_kernel_space, (void*)0xfffffffff0000000, 0x10000000, MMUTable, pv_off);
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#else
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rt_hw_mmu_map_init(&rt_kernel_space, (void*)0xffffd0000000, 0x10000000, MMUTable, 0);
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#endif
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kernel_start = RT_ALIGN_DOWN((rt_size_t)rt_kmem_v2p((void *)&_start) - 64, ARCH_PAGE_SIZE);
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kernel_end = RT_ALIGN((rt_size_t)rt_kmem_v2p((void *)&_end), ARCH_PAGE_SIZE);
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heap_start = kernel_end;
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heap_end = RT_ALIGN(heap_start + ARCH_HEAP_SIZE, ARCH_PAGE_SIZE);
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init_page_start = heap_end;
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init_page_end = RT_ALIGN(init_page_start + ARCH_INIT_PAGE_SIZE, ARCH_PAGE_SIZE);
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fdt_start = init_page_end;
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fdt_end = RT_ALIGN(fdt_start + fdt_size, ARCH_PAGE_SIZE);
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platform_mem_region.start = kernel_start;
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platform_mem_region.end = fdt_end;
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rt_memblock_reserve_memory("kernel", kernel_start, kernel_end, MEMBLOCK_NONE);
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rt_memblock_reserve_memory("memheap", heap_start, heap_end, MEMBLOCK_NONE);
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rt_memblock_reserve_memory("init-page", init_page_start, init_page_end, MEMBLOCK_NONE);
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rt_memblock_reserve_memory("fdt", fdt_start, fdt_end, MEMBLOCK_NONE);
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/* To virtual address */
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fdt_ptr = (void *)(fdt_ptr - pv_off);
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#ifdef KERNEL_VADDR_START
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if ((rt_ubase_t)fdt_ptr + fdt_size - KERNEL_VADDR_START > SIZE_GB)
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{
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fdt_ptr = rt_ioremap_early(fdt_ptr + pv_off, fdt_size);
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RT_ASSERT(fdt_ptr != RT_NULL);
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}
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#endif
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rt_memmove((void *)(fdt_start - pv_off), fdt_ptr, fdt_size);
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fdt_ptr = (void *)fdt_start - pv_off;
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rt_system_heap_init((void *)(heap_start - pv_off), (void *)(heap_end - pv_off));
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init_page_region.start = init_page_start - pv_off;
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init_page_region.end = init_page_end - pv_off;
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rt_page_init(init_page_region);
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/* create MMU mapping of kernel memory */
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platform_mem_region.start = RT_ALIGN_DOWN(platform_mem_region.start, ARCH_PAGE_SIZE);
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platform_mem_region.end = RT_ALIGN(platform_mem_region.end, ARCH_PAGE_SIZE);
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platform_mem_desc.paddr_start = platform_mem_region.start;
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platform_mem_desc.vaddr_start = platform_mem_region.start - pv_off;
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platform_mem_desc.vaddr_end = platform_mem_region.end - pv_off - 1;
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platform_mem_desc.attr = NORMAL_MEM;
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rt_hw_mmu_setup(&rt_kernel_space, &platform_mem_desc, 1);
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if (rt_fdt_prefetch(fdt_ptr))
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{
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/* Platform cannot be initialized */
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RT_ASSERT(0);
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}
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rt_fdt_scan_chosen_stdout();
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rt_fdt_scan_initrd(initrd_ranges);
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rt_fdt_scan_memory();
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rt_memblock_setup_memory_environment();
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rt_fdt_earlycon_kick(FDT_EARLYCON_KICK_UPDATE);
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rt_fdt_unflatten();
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cpu_info_init();
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#ifdef RT_USING_PIC
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rt_pic_init();
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rt_pic_irq_init();
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#else
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/* initialize hardware interrupt */
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rt_hw_interrupt_init();
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/* initialize uart */
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rt_hw_uart_init();
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#endif
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#ifndef RT_HWTIMER_ARM_ARCH
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/* initialize timer for os tick */
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rt_hw_gtimer_init();
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#endif /* !RT_HWTIMER_ARM_ARCH */
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#ifdef RT_USING_COMPONENTS_INIT
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rt_components_board_init();
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#endif
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#if defined(RT_USING_CONSOLE) && defined(RT_USING_DEVICE)
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rt_ofw_console_setup();
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#endif
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rt_thread_idle_sethook(rt_hw_idle_wfi);
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#ifdef RT_USING_SMP
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rt_smp_call_init();
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/* Install the IPI handle */
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rt_hw_ipi_handler_install(RT_SCHEDULE_IPI, rt_scheduler_ipi_handler);
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rt_hw_ipi_handler_install(RT_STOP_IPI, rt_scheduler_ipi_handler);
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rt_hw_ipi_handler_install(RT_SMP_CALL_IPI, rt_smp_call_ipi_handler);
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rt_hw_interrupt_umask(RT_SCHEDULE_IPI);
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rt_hw_interrupt_umask(RT_STOP_IPI);
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rt_hw_interrupt_umask(RT_SMP_CALL_IPI);
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#endif
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}
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#ifdef RT_USING_SMP
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rt_weak void rt_hw_secondary_cpu_up(void)
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{
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int cpu_id = rt_hw_cpu_id();
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rt_uint64_t entry = (rt_uint64_t)rt_kmem_v2p(_secondary_cpu_entry);
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if (!entry)
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{
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LOG_E("Failed to translate '_secondary_cpu_entry' to physical address");
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RT_ASSERT(0);
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}
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/* Maybe we are no in the first cpu */
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for (int i = 0; i < RT_ARRAY_SIZE(cpu_np); ++i)
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{
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int err;
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const char *enable_method;
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if (!cpu_np[i] || i == cpu_id)
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{
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continue;
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}
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err = rt_ofw_prop_read_string(cpu_np[i], "enable-method", &enable_method);
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for (int idx = 0; !err && idx < RT_ARRAY_SIZE(cpu_ops); ++idx)
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{
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struct cpu_ops_t *ops = cpu_ops[idx];
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if (ops->method && !rt_strcmp(ops->method, enable_method) && ops->cpu_boot)
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{
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err = ops->cpu_boot(i, entry);
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break;
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}
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}
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if (err)
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{
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LOG_W("Call cpu %d on %s", i, "failed");
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}
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}
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}
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rt_weak void rt_hw_secondary_cpu_bsp_start(void)
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{
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int cpu_id = rt_hw_cpu_id();
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system_vectors_init();
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rt_hw_spin_lock(&_cpus_lock);
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/* Save all mpidr */
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rt_hw_sysreg_read(mpidr_el1, rt_cpu_mpidr_table[cpu_id]);
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rt_hw_mmu_ktbl_set((unsigned long)MMUTable);
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#ifdef RT_USING_PIC
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rt_pic_irq_init();
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#else
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/* initialize vector table */
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rt_hw_vector_init();
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arm_gic_cpu_init(0, 0);
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#ifdef BSP_USING_GICV3
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arm_gic_redist_init(0, 0);
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#endif /* BSP_USING_GICV3 */
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#endif
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#ifndef RT_HWTIMER_ARM_ARCH
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/* initialize timer for os tick */
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rt_hw_gtimer_local_enable();
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#endif /* !RT_HWTIMER_ARM_ARCH */
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rt_dm_secondary_cpu_init();
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rt_hw_interrupt_umask(RT_SCHEDULE_IPI);
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rt_hw_interrupt_umask(RT_STOP_IPI);
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rt_hw_interrupt_umask(RT_SMP_CALL_IPI);
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LOG_I("Call cpu %d on %s", cpu_id, "success");
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#ifdef RT_USING_HWTIMER
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if (rt_device_hwtimer_us_delay == &cpu_us_delay)
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{
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cpu_loops_per_tick_init();
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}
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#endif
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rt_system_scheduler_start();
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}
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rt_weak void rt_hw_secondary_cpu_idle_exec(void)
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{
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rt_hw_wfe();
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}
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#endif
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void rt_hw_console_output(const char *str)
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{
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rt_fdt_earlycon_output(str);
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}
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