#ifndef SOURCE_H #define SOURCE_H #include #include #include #include #ifdef ARM_SPECIFIC_HACKS #include #endif/*ARM_SPECIFIC_HACKS*/ #include #include #include #include typedef struct source_t source_t; typedef struct { Elf_Scn *scn; GElf_Shdr shdr; Elf_Data *data; shdr_info_t *info; } section_info_t; typedef struct { GElf_Rel *rels; int num_rels; /* number of relocations that were not finished */ int rels_size; /* this is the size of rels[], NOT the number of rels! */ } unfinished_relocation_t; typedef struct { int processed; size_t idx; /* index of DT entry in the .dynamic section, if entry has a ptr value */ Elf64_Addr addr; /* if DT entry's value is an address, we save it here */ size_t sz_idx; /* index of DT entry in the .dynamic section, if entry has a size value */ Elf64_Xword size; /* if DT entry's value is a size, we save it here */ range_list_t *sections; /* list of sections corresponding to this entry */ int num_unfinished_relocs; /* this variables is populated by adjust_dynamic_segment_for() during the second pass of the prelinker */ } dt_rel_info_t; struct source_t { source_t *next; char *name; /* full path name of this executable file */ char *output; /* name of the output file or directory */ int output_is_dir; /* nonzero if output is a directory, 0 if output is a file */ /* ELF-related information: */ Elf *oldelf; Elf *elf; /* info[] is an array of structures describing the sections of the new ELF file. We populate the info[] array in clone_elf(), and use it to adjust the size of the ELF file when we modify the relocation-entry section. */ shdr_info_t *shdr_info; GElf_Ehdr old_ehdr_mem; /* store ELF header of original library */ GElf_Ehdr ehdr_mem; /* store ELF header of new library */ GElf_Phdr *phdr_info; Ebl *ebl; Elf_Data *shstrtab_data; int elf_fd; int newelf_fd; /* fd of output file, -1 if output == NULL */ struct stat elf_file_info; GElf_Ehdr elf_hdr, oldelf_hdr; size_t shstrndx; int shnum; /* number of sections */ int dry_run; /* 0 if we do not update the files, 1 (default) otherwise */ section_info_t symtab; section_info_t strtab; section_info_t dynamic; section_info_t hash; section_info_t bss; range_list_t *sorted_sections; section_info_t *relocation_sections; /* relocation sections in file */ int num_relocation_sections; /* number of relocation sections (<= relocation_sections_size) */ int relocation_sections_size; /* sice of array -- NOT number of relocs! */ /* relocation sections that contain relocations that could not be handled. This array is parallel to relocation_sections, and for each entry in that array, it contains a list of relocations that could not be handled. */ unfinished_relocation_t *unfinished; /* The sections field of these two structuer contains a list of elements of the member variable relocations. */ dt_rel_info_t rel; dt_rel_info_t jmprel; int num_syms; /* number of symbols in symbol table. This is the length of both exports[] and satisfied[] arrays. */ /* This is an array that contains one element for each library dependency listed in the executable or shared library. */ source_t **lib_deps; /* list of library dependencies */ int num_lib_deps; /* actual number of library dependencies */ int lib_deps_size; /* size of lib_deps array--NOT actual number of deps! */ /* This is zero for executables. For shared libraries, it is the address at which the library was prelinked. */ unsigned base; #ifdef SUPPORT_ANDROID_PRELINK_TAGS /* When we read in a file, if it has the prelinked tag, we set prelinked to 1 and the prelink address in the tag to prelink_base. This address must match the value of base that we choose. */ int prelinked; long prelink_base; /* valid if prelinked != 0 */ #endif/*SUPPORT_ANDROID_PRELINK_TAGS*/ }; extern void find_section(source_t *source, Elf64_Addr address, Elf_Scn **scn, GElf_Shdr *shdr, Elf_Data **data); #endif/*SOURCE_H*/