/* * Copyright (C) 2018 Intel Corporation. All rights reserved. * * SPDX-License-Identifier: BSD-3-Clause */ #include #include #include #include #include #include #include static uint64_t trampoline_start16_paddr; /* * Because trampoline code is relocated in different way, if HV code * accesses trampoline using relative addressing, it needs to take * out the HV relocation delta * * This function is valid if: * - The hpa of HV code is always higher than trampoline code * - The HV code is always relocated to higher address, compared * with CONFIG_HV_RAM_START */ static uint64_t trampoline_relo_addr(const void *addr) { return (uint64_t)addr - get_hv_image_delta(); } uint64_t read_trampoline_sym(const void *sym) { uint64_t *hva = (uint64_t *)(hpa2hva(trampoline_start16_paddr) + trampoline_relo_addr(sym)); return *hva; } void write_trampoline_sym(const void *sym, uint64_t val) { uint64_t *hva = (uint64_t *)(hpa2hva(trampoline_start16_paddr) + trampoline_relo_addr(sym)); *hva = val; clflush(hva); } void write_trampoline_stack_sym(uint16_t pcpu_id) { uint64_t *hva, stack_sym_addr; hva = (uint64_t *)(hpa2hva(trampoline_start16_paddr) + trampoline_relo_addr(secondary_cpu_stack)); stack_sym_addr = (uint64_t)&per_cpu(stack, pcpu_id)[CONFIG_STACK_SIZE - 1]; stack_sym_addr &= ~(CPU_STACK_ALIGN - 1UL); *hva = stack_sym_addr; clflush(hva); } uint64_t get_trampoline_start16_paddr(void) { return trampoline_start16_paddr; } static void update_trampoline_code_refs(uint64_t dest_pa) { void *ptr; uint64_t val; int32_t i; /* * calculate the fixup CS:IP according to fixup target address * dynamically. * * trampoline code starts in real mode, * so the target addres is HPA */ val = dest_pa + trampoline_relo_addr(&trampoline_fixup_target); ptr = hpa2hva(dest_pa + trampoline_relo_addr(&trampoline_fixup_cs)); *(uint16_t *)(ptr) = (uint16_t)((val >> 4U) & 0xFFFFU); ptr = hpa2hva(dest_pa + trampoline_relo_addr(&trampoline_fixup_ip)); *(uint16_t *)(ptr) = (uint16_t)(val & 0xfU); /* Update temporary page tables */ ptr = hpa2hva(dest_pa + trampoline_relo_addr(&cpu_boot_page_tables_ptr)); *(uint32_t *)(ptr) += (uint32_t)dest_pa; ptr = hpa2hva(dest_pa + trampoline_relo_addr(&cpu_boot_page_tables_start)); *(uint64_t *)(ptr) += dest_pa; ptr = hpa2hva(dest_pa + trampoline_relo_addr(&trampoline_pdpt_addr)); for (i = 0; i < 4; i++) { *(uint64_t *)(ptr + sizeof(uint64_t) * i) += dest_pa; } /* update the gdt base pointer with relocated offset */ ptr = hpa2hva(dest_pa + trampoline_relo_addr(&trampoline_gdt_ptr)); *(uint64_t *)(ptr + 2) += dest_pa; /* update trampoline jump pointer with relocated offset */ ptr = hpa2hva(dest_pa + trampoline_relo_addr(&trampoline_start64_fixup)); *(uint32_t *)ptr += (uint32_t)dest_pa; /* update trampoline's main entry pointer */ ptr = hpa2hva(dest_pa + trampoline_relo_addr(main_entry)); *(uint64_t *)ptr += get_hv_image_delta(); } uint64_t prepare_trampoline(void) { uint64_t size, dest_pa; size = (uint64_t)(&ld_trampoline_end - &ld_trampoline_start); dest_pa = e820_alloc_memory(CONFIG_LOW_RAM_SIZE, MEM_1M); pr_dbg("trampoline code: %lx size %x", dest_pa, size); /* Copy segment for AP initialization code below 1MB */ (void)memcpy_s(hpa2hva(dest_pa), (size_t)size, &ld_trampoline_load, (size_t)size); update_trampoline_code_refs(dest_pa); cpu_memory_barrier(); flush_cache_range(hpa2hva(dest_pa), size); trampoline_start16_paddr = dest_pa; return dest_pa; }