d60fa42e8b
The current elf loader uses too much memory. For example, I have a executable with a bss section of 400 MB and I set the ram size to 512 MB. Qemu uses about 780MB of RAM (which is fine), but there's a peak at 1.6 GB during initialization (this is not fine). This patch fixes two things: 1) do not allocate each elf program twice. 2) do not allocate memory for areas that are only zeros. For this we need a new field in Rom: "datasize" which is the size of the allocated data. If datasize is less than romsize, it means that the area from datasize to romsize is filled with zeros. Signed-off-by: Fabien Chouteau <chouteau@adacore.com> Signed-off-by: Alexander Graf <agraf@suse.de>
310 lines
9.4 KiB
C
310 lines
9.4 KiB
C
static void glue(bswap_ehdr, SZ)(struct elfhdr *ehdr)
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{
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bswap16s(&ehdr->e_type); /* Object file type */
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bswap16s(&ehdr->e_machine); /* Architecture */
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bswap32s(&ehdr->e_version); /* Object file version */
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bswapSZs(&ehdr->e_entry); /* Entry point virtual address */
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bswapSZs(&ehdr->e_phoff); /* Program header table file offset */
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bswapSZs(&ehdr->e_shoff); /* Section header table file offset */
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bswap32s(&ehdr->e_flags); /* Processor-specific flags */
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bswap16s(&ehdr->e_ehsize); /* ELF header size in bytes */
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bswap16s(&ehdr->e_phentsize); /* Program header table entry size */
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bswap16s(&ehdr->e_phnum); /* Program header table entry count */
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bswap16s(&ehdr->e_shentsize); /* Section header table entry size */
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bswap16s(&ehdr->e_shnum); /* Section header table entry count */
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bswap16s(&ehdr->e_shstrndx); /* Section header string table index */
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}
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static void glue(bswap_phdr, SZ)(struct elf_phdr *phdr)
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{
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bswap32s(&phdr->p_type); /* Segment type */
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bswapSZs(&phdr->p_offset); /* Segment file offset */
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bswapSZs(&phdr->p_vaddr); /* Segment virtual address */
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bswapSZs(&phdr->p_paddr); /* Segment physical address */
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bswapSZs(&phdr->p_filesz); /* Segment size in file */
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bswapSZs(&phdr->p_memsz); /* Segment size in memory */
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bswap32s(&phdr->p_flags); /* Segment flags */
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bswapSZs(&phdr->p_align); /* Segment alignment */
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}
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static void glue(bswap_shdr, SZ)(struct elf_shdr *shdr)
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{
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bswap32s(&shdr->sh_name);
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bswap32s(&shdr->sh_type);
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bswapSZs(&shdr->sh_flags);
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bswapSZs(&shdr->sh_addr);
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bswapSZs(&shdr->sh_offset);
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bswapSZs(&shdr->sh_size);
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bswap32s(&shdr->sh_link);
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bswap32s(&shdr->sh_info);
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bswapSZs(&shdr->sh_addralign);
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bswapSZs(&shdr->sh_entsize);
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}
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static void glue(bswap_sym, SZ)(struct elf_sym *sym)
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{
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bswap32s(&sym->st_name);
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bswapSZs(&sym->st_value);
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bswapSZs(&sym->st_size);
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bswap16s(&sym->st_shndx);
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}
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static struct elf_shdr *glue(find_section, SZ)(struct elf_shdr *shdr_table,
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int n, int type)
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{
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int i;
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for(i=0;i<n;i++) {
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if (shdr_table[i].sh_type == type)
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return shdr_table + i;
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}
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return NULL;
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}
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static int glue(symfind, SZ)(const void *s0, const void *s1)
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{
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hwaddr addr = *(hwaddr *)s0;
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struct elf_sym *sym = (struct elf_sym *)s1;
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int result = 0;
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if (addr < sym->st_value) {
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result = -1;
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} else if (addr >= sym->st_value + sym->st_size) {
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result = 1;
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}
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return result;
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}
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static const char *glue(lookup_symbol, SZ)(struct syminfo *s,
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hwaddr orig_addr)
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{
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struct elf_sym *syms = glue(s->disas_symtab.elf, SZ);
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struct elf_sym *sym;
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sym = bsearch(&orig_addr, syms, s->disas_num_syms, sizeof(*syms),
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glue(symfind, SZ));
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if (sym != NULL) {
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return s->disas_strtab + sym->st_name;
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}
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return "";
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}
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static int glue(symcmp, SZ)(const void *s0, const void *s1)
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{
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struct elf_sym *sym0 = (struct elf_sym *)s0;
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struct elf_sym *sym1 = (struct elf_sym *)s1;
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return (sym0->st_value < sym1->st_value)
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? -1
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: ((sym0->st_value > sym1->st_value) ? 1 : 0);
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}
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static int glue(load_symbols, SZ)(struct elfhdr *ehdr, int fd, int must_swab,
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int clear_lsb)
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{
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struct elf_shdr *symtab, *strtab, *shdr_table = NULL;
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struct elf_sym *syms = NULL;
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struct syminfo *s;
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int nsyms, i;
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char *str = NULL;
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shdr_table = load_at(fd, ehdr->e_shoff,
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sizeof(struct elf_shdr) * ehdr->e_shnum);
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if (!shdr_table)
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return -1;
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if (must_swab) {
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for (i = 0; i < ehdr->e_shnum; i++) {
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glue(bswap_shdr, SZ)(shdr_table + i);
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}
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}
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symtab = glue(find_section, SZ)(shdr_table, ehdr->e_shnum, SHT_SYMTAB);
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if (!symtab)
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goto fail;
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syms = load_at(fd, symtab->sh_offset, symtab->sh_size);
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if (!syms)
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goto fail;
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nsyms = symtab->sh_size / sizeof(struct elf_sym);
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i = 0;
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while (i < nsyms) {
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if (must_swab)
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glue(bswap_sym, SZ)(&syms[i]);
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/* We are only interested in function symbols.
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Throw everything else away. */
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if (syms[i].st_shndx == SHN_UNDEF ||
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syms[i].st_shndx >= SHN_LORESERVE ||
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ELF_ST_TYPE(syms[i].st_info) != STT_FUNC) {
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nsyms--;
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if (i < nsyms) {
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syms[i] = syms[nsyms];
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}
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continue;
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}
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if (clear_lsb) {
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/* The bottom address bit marks a Thumb or MIPS16 symbol. */
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syms[i].st_value &= ~(glue(glue(Elf, SZ), _Addr))1;
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}
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i++;
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}
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if (nsyms) {
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syms = g_realloc(syms, nsyms * sizeof(*syms));
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qsort(syms, nsyms, sizeof(*syms), glue(symcmp, SZ));
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for (i = 0; i < nsyms - 1; i++) {
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if (syms[i].st_size == 0) {
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syms[i].st_size = syms[i + 1].st_value - syms[i].st_value;
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}
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}
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} else {
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g_free(syms);
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syms = NULL;
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}
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/* String table */
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if (symtab->sh_link >= ehdr->e_shnum)
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goto fail;
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strtab = &shdr_table[symtab->sh_link];
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str = load_at(fd, strtab->sh_offset, strtab->sh_size);
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if (!str)
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goto fail;
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/* Commit */
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s = g_malloc0(sizeof(*s));
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s->lookup_symbol = glue(lookup_symbol, SZ);
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glue(s->disas_symtab.elf, SZ) = syms;
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s->disas_num_syms = nsyms;
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s->disas_strtab = str;
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s->next = syminfos;
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syminfos = s;
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g_free(shdr_table);
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return 0;
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fail:
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g_free(syms);
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g_free(str);
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g_free(shdr_table);
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return -1;
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}
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static int glue(load_elf, SZ)(const char *name, int fd,
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uint64_t (*translate_fn)(void *, uint64_t),
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void *translate_opaque,
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int must_swab, uint64_t *pentry,
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uint64_t *lowaddr, uint64_t *highaddr,
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int elf_machine, int clear_lsb)
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{
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struct elfhdr ehdr;
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struct elf_phdr *phdr = NULL, *ph;
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int size, i, total_size;
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elf_word mem_size, file_size;
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uint64_t addr, low = (uint64_t)-1, high = 0;
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uint8_t *data = NULL;
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char label[128];
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if (read(fd, &ehdr, sizeof(ehdr)) != sizeof(ehdr))
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goto fail;
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if (must_swab) {
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glue(bswap_ehdr, SZ)(&ehdr);
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}
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switch (elf_machine) {
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case EM_PPC64:
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if (EM_PPC64 != ehdr.e_machine)
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if (EM_PPC != ehdr.e_machine)
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goto fail;
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break;
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case EM_X86_64:
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if (EM_X86_64 != ehdr.e_machine)
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if (EM_386 != ehdr.e_machine)
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goto fail;
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break;
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case EM_MICROBLAZE:
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if (EM_MICROBLAZE != ehdr.e_machine)
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if (EM_MICROBLAZE_OLD != ehdr.e_machine)
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goto fail;
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break;
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default:
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if (elf_machine != ehdr.e_machine)
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goto fail;
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}
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if (pentry)
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*pentry = (uint64_t)(elf_sword)ehdr.e_entry;
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glue(load_symbols, SZ)(&ehdr, fd, must_swab, clear_lsb);
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size = ehdr.e_phnum * sizeof(phdr[0]);
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lseek(fd, ehdr.e_phoff, SEEK_SET);
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phdr = g_malloc0(size);
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if (!phdr)
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goto fail;
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if (read(fd, phdr, size) != size)
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goto fail;
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if (must_swab) {
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for(i = 0; i < ehdr.e_phnum; i++) {
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ph = &phdr[i];
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glue(bswap_phdr, SZ)(ph);
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}
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}
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total_size = 0;
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for(i = 0; i < ehdr.e_phnum; i++) {
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ph = &phdr[i];
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if (ph->p_type == PT_LOAD) {
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mem_size = ph->p_memsz; /* Size of the ROM */
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file_size = ph->p_filesz; /* Size of the allocated data */
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data = g_malloc0(file_size);
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if (ph->p_filesz > 0) {
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if (lseek(fd, ph->p_offset, SEEK_SET) < 0) {
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goto fail;
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}
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if (read(fd, data, file_size) != file_size) {
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goto fail;
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}
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}
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/* address_offset is hack for kernel images that are
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linked at the wrong physical address. */
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if (translate_fn) {
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addr = translate_fn(translate_opaque, ph->p_paddr);
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} else {
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addr = ph->p_paddr;
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}
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/* the entry pointer in the ELF header is a virtual
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* address, if the text segments paddr and vaddr differ
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* we need to adjust the entry */
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if (pentry && !translate_fn &&
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ph->p_vaddr != ph->p_paddr &&
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ehdr.e_entry >= ph->p_vaddr &&
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ehdr.e_entry < ph->p_vaddr + ph->p_filesz &&
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ph->p_flags & PF_X) {
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*pentry = ehdr.e_entry - ph->p_vaddr + ph->p_paddr;
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}
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snprintf(label, sizeof(label), "phdr #%d: %s", i, name);
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/* rom_add_elf_program() seize the ownership of 'data' */
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rom_add_elf_program(label, data, file_size, mem_size, addr);
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total_size += mem_size;
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if (addr < low)
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low = addr;
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if ((addr + mem_size) > high)
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high = addr + mem_size;
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data = NULL;
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}
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}
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g_free(phdr);
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if (lowaddr)
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*lowaddr = (uint64_t)(elf_sword)low;
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if (highaddr)
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*highaddr = (uint64_t)(elf_sword)high;
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return total_size;
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fail:
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g_free(data);
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g_free(phdr);
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return -1;
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}
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