/* * Copyright (C) 2005 - 2006 Tomasz Kojm * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License version 2 as * published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, * MA 02110-1301, USA. */ #if HAVE_CONFIG_H #include "clamav-config.h" #endif #include #include #include #include #include #include #ifdef HAVE_UNISTD_H #include #endif #include #include "cltypes.h" #include "elf.h" #include "clamav.h" #include "execs.h" static inline uint16_t EC16(uint16_t v, uint8_t c) { if(!c) return v; else return ((v >> 8) + (v << 8)); } static inline uint32_t EC32(uint32_t v, uint8_t c) { if(!c) return v; else return ((v >> 24) | ((v & 0x00FF0000) >> 8) | ((v & 0x0000FF00) << 8) | (v << 24)); } static uint32_t cli_rawaddr(uint32_t vaddr, struct elf_program_hdr32 *ph, uint16_t phnum, uint8_t conv, uint8_t *err) { uint16_t i, found = 0; for(i = 0; i < phnum; i++) { if(EC32(ph[i].p_vaddr, conv) <= vaddr && EC32(ph[i].p_vaddr, conv) + EC32(ph[i].p_memsz, conv) > vaddr) { found = 1; break; } } if(!found) { *err = 1; return 0; } *err = 0; return vaddr - EC32(ph[i].p_vaddr, conv) + EC32(ph[i].p_offset, conv); } int cli_scanelf(int desc, cli_ctx *ctx) { struct elf_file_hdr32 file_hdr; struct elf_section_hdr32 *section_hdr; struct elf_program_hdr32 *program_hdr; uint16_t shnum, phnum, shentsize, phentsize; uint32_t entry, fentry, shoff, phoff, i; uint8_t conv = 0, err; cli_dbgmsg("in cli_scanelf\n"); if(read(desc, &file_hdr, sizeof(file_hdr)) != sizeof(file_hdr)) { /* Not an ELF file? */ cli_dbgmsg("ELF: Can't read file header\n"); return CL_CLEAN; } if(memcmp(file_hdr.e_ident, "\x7f\x45\x4c\x46", 4)) { cli_dbgmsg("ELF: Not an ELF file\n"); return CL_CLEAN; } if(file_hdr.e_ident[4] != 1) { cli_dbgmsg("ELF: 64-bit binaries are not supported (yet)\n"); return CL_CLEAN; } if(file_hdr.e_ident[5] == 1) { #if WORDS_BIGENDIAN == 0 cli_dbgmsg("ELF: File is little-endian - conversion not required\n"); #else cli_dbgmsg("ELF: File is little-endian - data conversion enabled\n"); conv = 1; #endif } else { #if WORDS_BIGENDIAN == 0 cli_dbgmsg("ELF: File is big-endian - data conversion enabled\n"); conv = 1; #else cli_dbgmsg("ELF: File is big-endian - conversion not required\n"); #endif } switch(EC16(file_hdr.e_type, conv)) { case 0x0: /* ET_NONE */ cli_dbgmsg("ELF: File type: None\n"); break; case 0x1: /* ET_REL */ cli_dbgmsg("ELF: File type: Relocatable\n"); break; case 0x2: /* ET_EXEC */ cli_dbgmsg("ELF: File type: Executable\n"); break; case 0x3: /* ET_DYN */ cli_dbgmsg("ELF: File type: Core\n"); break; case 0x4: /* ET_CORE */ cli_dbgmsg("ELF: File type: Core\n"); break; default: cli_dbgmsg("ELF: File type: Unknown (%d)\n", EC16(file_hdr.e_type, conv)); } switch(EC16(file_hdr.e_machine, conv)) { /* Due to a huge list, we only include the most popular machines here */ case 0x0: /* EM_NONE */ cli_dbgmsg("ELF: Machine type: None\n"); break; case 0x2: /* EM_SPARC */ cli_dbgmsg("ELF: Machine type: SPARC\n"); break; case 0x3: /* EM_386 */ cli_dbgmsg("ELF: Machine type: Intel 80386\n"); break; case 0x4: /* EM_68K */ cli_dbgmsg("ELF: Machine type: Motorola 68000\n"); break; case 0x8: /* EM_MIPS */ cli_dbgmsg("ELF: Machine type: MIPS RS3000\n"); break; case 0x15: /* EM_PARISC */ cli_dbgmsg("ELF: Machine type: HPPA\n"); break; case 0x20: /* EM_PPC */ cli_dbgmsg("ELF: Machine type: PowerPC\n"); break; case 0x21: /* EM_PPC64 */ cli_dbgmsg("ELF: Machine type: PowerPC 64-bit\n"); break; case 0x22: /* EM_S390 */ cli_dbgmsg("ELF: Machine type: IBM S390\n"); break; case 0x40: /* EM_ARM */ cli_dbgmsg("ELF: Machine type: ARM\n"); break; case 0x41: /* EM_FAKE_ALPHA */ cli_dbgmsg("ELF: Machine type: Digital Alpha\n"); break; case 0x43: /* EM_SPARCV9 */ cli_dbgmsg("ELF: Machine type: SPARC v9 64-bit\n"); break; case 0x50: /* EM_IA_64 */ cli_dbgmsg("ELF: Machine type: IA64\n"); break; default: cli_dbgmsg("ELF: Machine type: Unknown (%d)\n", EC16(file_hdr.e_machine, conv)); } entry = EC32(file_hdr.e_entry, conv); /* Program headers */ phnum = EC16(file_hdr.e_phnum, conv); cli_dbgmsg("ELF: Number of program headers: %d\n", phnum); if(phnum > 128) { cli_dbgmsg("ELF: Suspicious number of program headers\n"); if(DETECT_BROKEN) { if(ctx->virname) *ctx->virname = "Broken.Executable"; return CL_VIRUS; } return CL_EFORMAT; } if(phnum && entry) { phentsize = EC16(file_hdr.e_phentsize, conv); if(phentsize != sizeof(struct elf_program_hdr32)) { cli_dbgmsg("ELF: phentsize != sizeof(struct elf_program_hdr32)\n"); if(DETECT_BROKEN) { if(ctx->virname) *ctx->virname = "Broken.Executable"; return CL_VIRUS; } return CL_EFORMAT; } phoff = EC32(file_hdr.e_phoff, conv); cli_dbgmsg("ELF: Program header table offset: %d\n", phoff); if((uint32_t) lseek(desc, phoff, SEEK_SET) != phoff) { if(DETECT_BROKEN) { if(ctx->virname) *ctx->virname = "Broken.Executable"; return CL_VIRUS; } return CL_CLEAN; } program_hdr = (struct elf_program_hdr32 *) cli_calloc(phnum, phentsize); if(!program_hdr) { cli_errmsg("ELF: Can't allocate memory for program headers\n"); return CL_EMEM; } cli_dbgmsg("------------------------------------\n"); for(i = 0; i < phnum; i++) { if(read(desc, &program_hdr[i], sizeof(struct elf_program_hdr32)) != sizeof(struct elf_program_hdr32)) { cli_dbgmsg("ELF: Can't read segment #%d\n", i); cli_dbgmsg("ELF: Possibly broken ELF file\n"); free(program_hdr); if(DETECT_BROKEN) { if(ctx->virname) *ctx->virname = "Broken.Executable"; return CL_VIRUS; } return CL_CLEAN; } cli_dbgmsg("ELF: Segment #%d\n", i); cli_dbgmsg("ELF: Segment type: 0x%x\n", EC32(program_hdr[i].p_type, conv)); cli_dbgmsg("ELF: Segment offset: 0x%x\n", EC32(program_hdr[i].p_offset, conv)); cli_dbgmsg("ELF: Segment virtual address: 0x%x\n", EC32(program_hdr[i].p_vaddr, conv)); cli_dbgmsg("ELF: Segment real size: 0x%x\n", EC32(program_hdr[i].p_filesz, conv)); cli_dbgmsg("ELF: Segment virtual size: 0x%x\n", EC32(program_hdr[i].p_memsz, conv)); cli_dbgmsg("------------------------------------\n"); } fentry = cli_rawaddr(entry, program_hdr, phnum, conv, &err); free(program_hdr); if(err) { cli_dbgmsg("ELF: Can't calculate file offset of entry point\n"); if(DETECT_BROKEN) { if(ctx->virname) *ctx->virname = "Broken.Executable"; return CL_VIRUS; } return CL_EFORMAT; } cli_dbgmsg("ELF: Entry point address: 0x%.8x\n", entry); cli_dbgmsg("ELF: Entry point offset: 0x%.8x (%d)\n", fentry, fentry); } /* Sections */ shnum = EC16(file_hdr.e_shnum, conv); cli_dbgmsg("ELF: Number of sections: %d\n", shnum); if(shnum > 256) { cli_dbgmsg("ELF: Suspicious number of sections\n"); if(DETECT_BROKEN) { if(ctx->virname) *ctx->virname = "Broken.Executable"; return CL_VIRUS; } return CL_EFORMAT; } shentsize = EC16(file_hdr.e_shentsize, conv); if(shentsize != sizeof(struct elf_section_hdr32)) { cli_dbgmsg("ELF: shentsize != sizeof(struct elf_section_hdr32)\n"); if(DETECT_BROKEN) { if(ctx->virname) *ctx->virname = "Broken.Executable"; return CL_VIRUS; } return CL_EFORMAT; } shoff = EC32(file_hdr.e_shoff, conv); cli_dbgmsg("ELF: Section header table offset: %d\n", shoff); if((uint32_t) lseek(desc, shoff, SEEK_SET) != shoff) { /* Possibly broken end of file */ if(DETECT_BROKEN) { if(ctx->virname) *ctx->virname = "Broken.Executable"; return CL_VIRUS; } return CL_CLEAN; } section_hdr = (struct elf_section_hdr32 *) cli_calloc(shnum, shentsize); if(!section_hdr) { cli_errmsg("ELF: Can't allocate memory for section headers\n"); return CL_EMEM; } cli_dbgmsg("------------------------------------\n"); for(i = 0; i < shnum; i++) { if(read(desc, §ion_hdr[i], sizeof(struct elf_section_hdr32)) != sizeof(struct elf_section_hdr32)) { cli_dbgmsg("ELF: Can't read section header\n"); cli_dbgmsg("ELF: Possibly broken ELF file\n"); free(section_hdr); if(DETECT_BROKEN) { if(ctx->virname) *ctx->virname = "Broken.Executable"; return CL_VIRUS; } return CL_CLEAN; } cli_dbgmsg("ELF: Section %d\n", i); cli_dbgmsg("ELF: Section offset: %d\n", EC32(section_hdr[i].sh_offset, conv)); cli_dbgmsg("ELF: Section size: %d\n", EC32(section_hdr[i].sh_size, conv)); switch(EC32(section_hdr[i].sh_type, conv)) { case 0x6: /* SHT_DYNAMIC */ cli_dbgmsg("ELF: Section type: Dynamic linking information\n"); break; case 0xb: /* SHT_DYNSYM */ cli_dbgmsg("ELF: Section type: Symbols for dynamic linking\n"); break; case 0xf: /* SHT_FINI_ARRAY */ cli_dbgmsg("ELF: Section type: Array of pointers to termination functions\n"); break; case 0x5: /* SHT_HASH */ cli_dbgmsg("ELF: Section type: Symbol hash table\n"); break; case 0xe: /* SHT_INIT_ARRAY */ cli_dbgmsg("ELF: Section type: Array of pointers to initialization functions\n"); break; case 0x8: /* SHT_NOBITS */ cli_dbgmsg("ELF: Section type: Empty section (NOBITS)\n"); break; case 0x7: /* SHT_NOTE */ cli_dbgmsg("ELF: Section type: Note section\n"); break; case 0x0: /* SHT_NULL */ cli_dbgmsg("ELF: Section type: Null (no associated section)\n"); break; case 0x10: /* SHT_PREINIT_ARRAY */ cli_dbgmsg("ELF: Section type: Array of pointers to preinit functions\n"); break; case 0x1: /* SHT_PROGBITS */ cli_dbgmsg("ELF: Section type: Program information\n"); break; case 0x9: /* SHT_REL */ cli_dbgmsg("ELF: Section type: Relocation entries w/o explicit addends\n"); break; case 0x4: /* SHT_RELA */ cli_dbgmsg("ELF: Section type: Relocation entries with explicit addends\n"); break; case 0x3: /* SHT_STRTAB */ cli_dbgmsg("ELF: Section type: String table\n"); break; case 0x2: /* SHT_SYMTAB */ cli_dbgmsg("ELF: Section type: Symbol table\n"); break; case 0x6ffffffd: /* SHT_GNU_verdef */ cli_dbgmsg("ELF: Section type: Provided symbol versions\n"); break; case 0x6ffffffe: /* SHT_GNU_verneed */ cli_dbgmsg("ELF: Section type: Required symbol versions\n"); break; case 0x6fffffff: /* SHT_GNU_versym */ cli_dbgmsg("ELF: Section type: Symbol Version Table\n"); break; default : cli_dbgmsg("ELF: Section type: Unknown\n"); } if(EC32(section_hdr[i].sh_flags, conv) & 0x1) /* SHF_WRITE */ cli_dbgmsg("ELF: Section contains writable data\n"); if(EC32(section_hdr[i].sh_flags, conv) & 0x2) /* SHF_ALLOC */ cli_dbgmsg("ELF: Section occupies memory\n"); if(EC32(section_hdr[i].sh_flags, conv) & 0x4) /* SHF_EXECINSTR */ cli_dbgmsg("ELF: Section contains executable code\n"); cli_dbgmsg("------------------------------------\n"); } free(section_hdr); return CL_CLEAN; } int cli_elfheader(int desc, struct cli_exe_info *elfinfo) { struct elf_file_hdr32 file_hdr; struct elf_section_hdr32 *section_hdr; struct elf_program_hdr32 *program_hdr; uint16_t shnum, phnum, shentsize, phentsize, i; uint32_t entry, fentry = 0, shoff, phoff; uint8_t conv = 0, err; cli_dbgmsg("in cli_elfheader\n"); if(read(desc, &file_hdr, sizeof(file_hdr)) != sizeof(file_hdr)) { /* Not an ELF file? */ cli_dbgmsg("ELF: Can't read file header\n"); return -1; } if(memcmp(file_hdr.e_ident, "\x7f\x45\x4c\x46", 4)) { cli_dbgmsg("ELF: Not an ELF file\n"); return -1; } if(file_hdr.e_ident[4] != 1) { cli_dbgmsg("ELF: 64-bit binaries are not supported (yet)\n"); return -1; } if(file_hdr.e_ident[5] == 1) { #if WORDS_BIGENDIAN == 1 conv = 1; #endif } else { #if WORDS_BIGENDIAN == 0 conv = 1; #endif } phnum = EC16(file_hdr.e_phnum, conv); if(phnum > 128) { cli_dbgmsg("ELF: Suspicious number of program headers\n"); return -1; } entry = EC32(file_hdr.e_entry, conv); if(phnum && entry) { phentsize = EC16(file_hdr.e_phentsize, conv); if(phentsize != sizeof(struct elf_program_hdr32)) { cli_dbgmsg("ELF: phentsize != sizeof(struct elf_program_hdr32)\n"); return -1; } phoff = EC32(file_hdr.e_phoff, conv); if((uint32_t) lseek(desc, phoff, SEEK_SET) != phoff) { return -1; } program_hdr = (struct elf_program_hdr32 *) cli_calloc(phnum, phentsize); if(!program_hdr) { cli_errmsg("ELF: Can't allocate memory for program headers\n"); return -1; } for(i = 0; i < phnum; i++) { if(read(desc, &program_hdr[i], sizeof(struct elf_program_hdr32)) != sizeof(struct elf_program_hdr32)) { cli_dbgmsg("ELF: Can't read segment #%d\n", i); free(program_hdr); return -1; } } fentry = cli_rawaddr(entry, program_hdr, phnum, conv, &err); free(program_hdr); if(err) { cli_dbgmsg("ELF: Can't calculate file offset of entry point\n"); return -1; } } elfinfo->ep = fentry; shnum = EC16(file_hdr.e_shnum, conv); if(shnum > 256) { cli_dbgmsg("ELF: Suspicious number of sections\n"); return -1; } elfinfo->nsections = shnum; shentsize = EC16(file_hdr.e_shentsize, conv); if(shentsize != sizeof(struct elf_section_hdr32)) { cli_dbgmsg("ELF: shentsize != sizeof(struct elf_section_hdr32)\n"); return -1; } shoff = EC32(file_hdr.e_shoff, conv); if((uint32_t) lseek(desc, shoff, SEEK_SET) != shoff) { /* Possibly broken end of file */ return -1; } elfinfo->section = (struct cli_exe_section *) cli_calloc(elfinfo->nsections, sizeof(struct cli_exe_section)); if(!elfinfo->section) { cli_dbgmsg("ELF: Can't allocate memory for section headers\n"); return -1; } section_hdr = (struct elf_section_hdr32 *) cli_calloc(shnum, shentsize); if(!section_hdr) { cli_errmsg("ELF: Can't allocate memory for section headers\n"); free(elfinfo->section); elfinfo->section = NULL; return -1; } for(i = 0; i < shnum; i++) { if(read(desc, §ion_hdr[i], sizeof(struct elf_section_hdr32)) != sizeof(struct elf_section_hdr32)) { free(section_hdr); free(elfinfo->section); elfinfo->section = NULL; return -1; } elfinfo->section[i].rva = EC32(section_hdr[i].sh_addr, conv); elfinfo->section[i].raw = EC32(section_hdr[i].sh_offset, conv); elfinfo->section[i].rsz = EC32(section_hdr[i].sh_size, conv); } free(section_hdr); return 0; }