// SPDX-License-Identifier: GPL-2.0+ /* * Copyright (C) 2017 Andes Technology * Chih-Mao Chen * * Statically process runtime relocations on RISC-V ELF images * so that it can be directly executed when loaded at LMA * without fixup. Both RV32 and RV64 are supported. */ #define CONCAT_IMPL(x, y) x##y #define CONCAT(x, y) CONCAT_IMPL(x, y) #define CONCAT3(x, y, z) CONCAT(CONCAT(x, y), z) #define prelink_bonn CONCAT3(prelink_, PRELINK_BYTEORDER, PRELINK_INC_BITS) #define uintnn_t CONCAT3(uint, PRELINK_INC_BITS, _t) #define get_offset_bonn CONCAT3(get_offset_, PRELINK_BYTEORDER, PRELINK_INC_BITS) #define Elf_Ehdr CONCAT3(Elf, PRELINK_INC_BITS, _Ehdr) #define Elf_Phdr CONCAT3(Elf, PRELINK_INC_BITS, _Phdr) #define Elf_Rela CONCAT3(Elf, PRELINK_INC_BITS, _Rela) #define Elf_Sym CONCAT3(Elf, PRELINK_INC_BITS, _Sym) #define Elf_Dyn CONCAT3(Elf, PRELINK_INC_BITS, _Dyn) #define Elf_Addr CONCAT3(Elf, PRELINK_INC_BITS, _Addr) #define ELF_R_TYPE CONCAT3(ELF, PRELINK_INC_BITS, _R_TYPE) #define ELF_R_SYM CONCAT3(ELF, PRELINK_INC_BITS, _R_SYM) #define target16_to_cpu CONCAT(PRELINK_BYTEORDER, 16_to_cpu) #define target32_to_cpu CONCAT(PRELINK_BYTEORDER, 32_to_cpu) #define target64_to_cpu CONCAT(PRELINK_BYTEORDER, 64_to_cpu) #define targetnn_to_cpu CONCAT3(PRELINK_BYTEORDER, PRELINK_INC_BITS, _to_cpu) #define cpu_to_target32 CONCAT3(cpu_to_, PRELINK_BYTEORDER, 32) #define cpu_to_target64 CONCAT3(cpu_to_, PRELINK_BYTEORDER, 64) static void* get_offset_bonn (void* data, Elf_Phdr* phdrs, size_t phnum, Elf_Addr addr) { Elf_Phdr *p; for (p = phdrs; p < phdrs + phnum; ++p) if (targetnn_to_cpu(p->p_vaddr) <= addr && targetnn_to_cpu(p->p_vaddr) + targetnn_to_cpu(p->p_memsz) > addr) return data + targetnn_to_cpu(p->p_offset) + (addr - targetnn_to_cpu(p->p_vaddr)); return NULL; } static void prelink_bonn(void *data) { Elf_Ehdr *ehdr = data; Elf_Phdr *p; Elf_Dyn *dyn; Elf_Rela *r; if (target16_to_cpu(ehdr->e_machine) != EM_RISCV) die("Machine type is not RISC-V"); Elf_Phdr *phdrs = data + targetnn_to_cpu(ehdr->e_phoff); Elf_Dyn *dyns = NULL; for (p = phdrs; p < phdrs + target16_to_cpu(ehdr->e_phnum); ++p) { if (target32_to_cpu(p->p_type) == PT_DYNAMIC) { dyns = data + targetnn_to_cpu(p->p_offset); break; } } if (dyns == NULL) die("No dynamic section found"); Elf_Rela *rela_dyn = NULL; size_t rela_count = 0; Elf_Sym *dynsym = NULL; for (dyn = dyns;; ++dyn) { if (targetnn_to_cpu(dyn->d_tag) == DT_NULL) break; else if (targetnn_to_cpu(dyn->d_tag) == DT_RELA) rela_dyn = get_offset_bonn(data, phdrs, target16_to_cpu(ehdr->e_phnum), + targetnn_to_cpu(dyn->d_un.d_ptr)); else if (targetnn_to_cpu(dyn->d_tag) == DT_RELASZ) rela_count = targetnn_to_cpu(dyn->d_un.d_val) / sizeof(Elf_Rela); else if (targetnn_to_cpu(dyn->d_tag) == DT_SYMTAB) dynsym = get_offset_bonn(data, phdrs, target16_to_cpu(ehdr->e_phnum), + targetnn_to_cpu(dyn->d_un.d_ptr)); } if (rela_dyn == NULL) die("No .rela.dyn found"); if (dynsym == NULL) die("No .dynsym found"); for (r = rela_dyn; r < rela_dyn + rela_count; ++r) { void* buf = get_offset_bonn(data, phdrs, target16_to_cpu(ehdr->e_phnum), targetnn_to_cpu(r->r_offset)); if (buf == NULL) continue; if (ELF_R_TYPE(targetnn_to_cpu(r->r_info)) == R_RISCV_RELATIVE) *((uintnn_t*) buf) = r->r_addend; else if (ELF_R_TYPE(targetnn_to_cpu(r->r_info)) == R_RISCV_32) *((uint32_t*) buf) = cpu_to_target32(targetnn_to_cpu(dynsym[ELF_R_SYM(targetnn_to_cpu(r->r_info))].st_value) + targetnn_to_cpu(r->r_addend)); else if (ELF_R_TYPE(targetnn_to_cpu(r->r_info)) == R_RISCV_64) *((uint64_t*) buf) = cpu_to_target64(targetnn_to_cpu(dynsym[ELF_R_SYM(targetnn_to_cpu(r->r_info))].st_value) + targetnn_to_cpu(r->r_addend)); } } #undef prelink_bonn #undef uintnn_t #undef get_offset_bonn #undef Elf_Ehdr #undef Elf_Phdr #undef Elf_Rela #undef Elf_Sym #undef Elf_Dyn #undef Elf_Addr #undef ELF_R_TYPE #undef ELF_R_SYM #undef target16_to_cpu #undef target32_to_cpu #undef target64_to_cpu #undef targetnn_to_cpu #undef cpu_to_target32 #undef cpu_to_target64 #undef CONCAT_IMPL #undef CONCAT #undef CONCAT3