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https://github.com/xemu-project/xemu.git
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45a50b1668
This patch adds infrastructure to maintain memory regions which must be restored on reset. That includes roms (vga bios and option roms on pc), but is also used when loading linux kernels directly. Features: - loading files is supported. - passing blobs is supported. - target address range is supported (for optionrom area). - fixed target memory address is supported (linux kernel). New in v2: - writes to ROM are done only at initial boot. - also handle aout and uimage loaders. - drop unused fread_targphys() function. The final memory layout is created once all memory regions are registered. The option roms get addresses assigned and the registered regions are checked against overlaps. Finally all data is copyed to the guest memory. Advantages: (1) Filling memory on initial boot and on reset takes the same code path, making reset more robust. (2) The need to keep track of the option rom load address is gone. (3) Due to (2) option roms can be loaded outside pc_init(). This allows to move the pxe rom loading into the nic drivers for example. Additional bonus: There is a 'info roms' monitor command now. The patch also switches over pc.c and removes the option_rom_setup_reset() and load_option_rom() functions. Signed-off-by: Gerd Hoffmann <kraxel@redhat.com> Signed-off-by: Anthony Liguori <aliguori@us.ibm.com>
277 lines
8.2 KiB
C
277 lines
8.2 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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struct elf_sym *key = (struct elf_sym *)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 (key->st_value < sym->st_value) {
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result = -1;
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} else if (key->st_value >= 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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target_phys_addr_t 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 key;
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struct elf_sym *sym;
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key.st_value = orig_addr;
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sym = bsearch(&key, syms, s->disas_num_syms, sizeof(*syms), 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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syms = qemu_realloc(syms, nsyms * sizeof(*syms));
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qsort(syms, nsyms, sizeof(*syms), glue(symcmp, SZ));
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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 = qemu_mallocz(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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qemu_free(shdr_table);
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return 0;
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fail:
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qemu_free(syms);
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qemu_free(str);
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qemu_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, int64_t address_offset,
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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;
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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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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 = qemu_mallocz(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;
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/* XXX: avoid allocating */
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data = qemu_mallocz(mem_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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if (read(fd, data, ph->p_filesz) != ph->p_filesz)
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goto fail;
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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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addr = ph->p_paddr + address_offset;
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snprintf(label, sizeof(label), "phdr #%d: %s", i, name);
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rom_add_blob_fixed(label, data, 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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qemu_free(data);
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data = NULL;
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}
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}
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qemu_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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qemu_free(data);
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qemu_free(phdr);
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return -1;
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}
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