/* * Copyright (c) 1999, 2000, 2001, 2002, 2003, 2004, 2005, 2006, 2007 * NOVELL (All rights reserved) * * Copyright (c) 2013 * Canonical Ltd. (All rights reserved) * * This program is free software; you can redistribute it and/or * modify it under the terms of version 2 of the GNU General Public * License 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, contact Novell, Inc. */ #include #include #include #include #include #include #include #include #include #include "lib.h" #include "parser.h" #include "profile.h" #include "libapparmor_re/apparmor_re.h" #include #include #define SD_CODE_SIZE (sizeof(u8)) #define SD_STR_LEN (sizeof(u16)) int __sd_serialize_profile(int option, aa_kernel_interface *kernel_interface, Profile *prof, int cache_fd); static void print_error(int error) { switch (error) { case -ESPIPE: PERROR(_("Bad write position\n")); break; case -EPERM: PERROR(_("Permission denied\n")); break; case -ENOMEM: PERROR(_("Out of memory\n")); break; case -EFAULT: PERROR(_("Couldn't copy profile: Bad memory address\n")); break; case -EPROTO: PERROR(_("Profile doesn't conform to protocol\n")); break; case -EBADMSG: PERROR(_("Profile does not match signature\n")); break; case -EPROTONOSUPPORT: PERROR(_("Profile version not supported by Apparmor module\n")); break; case -EEXIST: PERROR(_("Profile already exists\n")); break; case -ENOENT: PERROR(_("Profile doesn't exist\n")); break; case -EACCES: PERROR(_("Permission denied; attempted to load a profile while confined?\n")); break; default: PERROR(_("Unknown error (%d): %s\n"), -error, strerror(-error)); break; } } int load_profile(int option, aa_kernel_interface *kernel_interface, Profile *prof, int cache_fd) { int retval = 0; int error = 0; PDEBUG("Serializing policy for %s.\n", prof->name); retval = __sd_serialize_profile(option, kernel_interface, prof, cache_fd); if (retval < 0) { error = retval; /* yeah, we'll just report the last error */ switch (option) { case OPTION_ADD: PERROR(_("%s: Unable to add \"%s\". "), progname, prof->name); print_error(error); break; case OPTION_REPLACE: PERROR(_("%s: Unable to replace \"%s\". "), progname, prof->name); print_error(error); break; case OPTION_REMOVE: PERROR(_("%s: Unable to remove \"%s\". "), progname, prof->name); print_error(error); break; case OPTION_STDOUT: PERROR(_("%s: Unable to write to stdout\n"), progname); break; case OPTION_OFILE: PERROR(_("%s: Unable to write to output file\n"), progname); default: PERROR(_("%s: ASSERT: Invalid option: %d\n"), progname, option); exit(1); break; } } else if (conf_verbose) { switch (option) { case OPTION_ADD: printf(_("Addition succeeded for \"%s\".\n"), prof->name); break; case OPTION_REPLACE: printf(_("Replacement succeeded for \"%s\".\n"), prof->name); break; case OPTION_REMOVE: printf(_("Removal succeeded for \"%s\".\n"), prof->name); break; case OPTION_STDOUT: case OPTION_OFILE: break; default: PERROR(_("%s: ASSERT: Invalid option: %d\n"), progname, option); exit(1); break; } } return error; } enum sd_code { SD_U8, SD_U16, SD_U32, SD_U64, SD_NAME, /* same as string except it is items name */ SD_STRING, SD_BLOB, SD_STRUCT, SD_STRUCTEND, SD_LIST, SD_LISTEND, SD_ARRAY, SD_ARRAYEND, SD_OFFSET }; const char *sd_code_names[] = { "SD_U8", "SD_U16", "SD_U32", "SD_U64", "SD_NAME", "SD_STRING", "SD_BLOB", "SD_STRUCT", "SD_STRUCTEND", "SD_LIST", "SD_LISTEND", "SD_ARRAY", "SD_ARRAYEND", "SD_OFFSET" }; static inline void sd_write8(std::ostringstream &buf, u8 b) { buf.write((const char *) &b, 1); } static inline void sd_write16(std::ostringstream &buf, u16 b) { u16 tmp; tmp = cpu_to_le16(b); buf.write((const char *) &tmp, 2); } static inline void sd_write32(std::ostringstream &buf, u32 b) { u32 tmp; tmp = cpu_to_le32(b); buf.write((const char *) &tmp, 4); } static inline void sd_write64(std::ostringstream &buf, u64 b) { u64 tmp; tmp = cpu_to_le64(b); buf.write((const char *) &tmp, 8); } static inline void sd_write_uint8(std::ostringstream &buf, u8 b) { sd_write8(buf, SD_U8); sd_write8(buf, b); } static inline void sd_write_uint16(std::ostringstream &buf, u16 b) { sd_write8(buf, SD_U16); sd_write16(buf, b); } static inline void sd_write_uint32(std::ostringstream &buf, u32 b) { sd_write8(buf, SD_U32); sd_write32(buf, b); } static inline void sd_write_uint64(std::ostringstream &buf, u64 b) { sd_write8(buf, SD_U64); sd_write64(buf, b); } static inline void sd_write_name(std::ostringstream &buf, const char *name) { PDEBUG("Writing name '%s'\n", name); if (name) { sd_write8(buf, SD_NAME); sd_write16(buf, strlen(name) + 1); buf.write(name, strlen(name) + 1); } } static inline void sd_write_blob(std::ostringstream &buf, void *b, int buf_size, char *name) { sd_write_name(buf, name); sd_write8(buf, SD_BLOB); sd_write32(buf, buf_size); buf.write((const char *) b, buf_size); } static char zeros[64]; #define align64(X) (((X) + (typeof(X)) 7) & ~((typeof(X)) 7)) static inline void sd_write_aligned_blob(std::ostringstream &buf, void *b, int b_size, const char *name) { sd_write_name(buf, name); /* pad calculation MUST come after name is written */ size_t pad = align64(buf.tellp() + ((std::streamoff) 5l)) - (buf.tellp() + ((std::streamoff) 5l)); sd_write8(buf, SD_BLOB); sd_write32(buf, b_size + pad); buf.write(zeros, pad); buf.write((const char *) b, b_size); } static void sd_write_strn(std::ostringstream &buf, const char *b, int size, const char *name) { sd_write_name(buf, name); sd_write8(buf, SD_STRING); sd_write16(buf, size); buf.write(b, size); } static inline void sd_write_string(std::ostringstream &buf, const char *b, const char *name) { sd_write_strn(buf, b, strlen(b) + 1, name); } static inline void sd_write_struct(std::ostringstream &buf, const char *name) { sd_write_name(buf, name); sd_write8(buf, SD_STRUCT); } static inline void sd_write_structend(std::ostringstream &buf) { sd_write8(buf, SD_STRUCTEND); } static inline void sd_write_array(std::ostringstream &buf, const char *name, int size) { sd_write_name(buf, name); sd_write8(buf, SD_ARRAY); sd_write16(buf, size); } static inline void sd_write_arrayend(std::ostringstream &buf) { sd_write8(buf, SD_ARRAYEND); } static inline void sd_write_list(std::ostringstream &buf, const char *name) { sd_write_name(buf, name); sd_write8(buf, SD_LIST); } static inline void sd_write_listend(std::ostringstream &buf) { sd_write8(buf, SD_LISTEND); } void sd_serialize_dfa(std::ostringstream &buf, void *dfa, size_t size) { if (dfa) sd_write_aligned_blob(buf, dfa, size, "aadfa"); } void sd_serialize_rlimits(std::ostringstream &buf, struct aa_rlimits *limits) { if (!limits->specified) return; sd_write_struct(buf, "rlimits"); sd_write_uint32(buf, limits->specified); sd_write_array(buf, NULL, RLIM_NLIMITS); for (int i = 0; i < RLIM_NLIMITS; i++) { sd_write_uint64(buf, limits->limits[i]); } sd_write_arrayend(buf); sd_write_structend(buf); } void sd_serialize_xtable(std::ostringstream &buf, char **table) { int count; if (!table[4]) return; sd_write_struct(buf, "xtable"); count = 0; for (int i = 4; i < AA_EXEC_COUNT; i++) { if (table[i]) count++; } sd_write_array(buf, NULL, count); for (int i = 4; i < count + 4; i++) { int len = strlen(table[i]) + 1; /* if its a namespace make sure the second : is overwritten * with 0, so that the namespace and name are \0 seperated */ if (*table[i] == ':') { char *tmp = table[i] + 1; strsep(&tmp, ":"); } sd_write_strn(buf, table[i], len, NULL); } sd_write_arrayend(buf); sd_write_structend(buf); } void sd_serialize_profile(std::ostringstream &buf, Profile *profile, int flattened) { uint64_t allowed_caps; sd_write_struct(buf, "profile"); if (flattened) { assert(profile->parent); sd_write_string(buf, profile->get_name(false).c_str(), NULL); } else { sd_write_string(buf, profile->name, NULL); } /* only emit this if current kernel at least supports "create" */ if (perms_create) { if (profile->xmatch) { sd_serialize_dfa(buf, profile->xmatch, profile->xmatch_size); sd_write_uint32(buf, profile->xmatch_len); } } sd_write_struct(buf, "flags"); /* used to be flags.debug, but that's no longer supported */ sd_write_uint32(buf, profile->flags.hat); sd_write_uint32(buf, profile->flags.complain); sd_write_uint32(buf, profile->flags.audit); sd_write_structend(buf); if (profile->flags.path) { int flags = 0; if (profile->flags.path & PATH_CHROOT_REL) flags |= 0x8; if (profile->flags.path & PATH_MEDIATE_DELETED) flags |= 0x10000; if (profile->flags.path & PATH_ATTACH) flags |= 0x4; if (profile->flags.path & PATH_CHROOT_NSATTACH) flags |= 0x10; sd_write_name(buf, "path_flags"); sd_write_uint32(buf, flags); } #define low_caps(X) ((u32) ((X) & 0xffffffff)) #define high_caps(X) ((u32) (((X) >> 32) & 0xffffffff)) allowed_caps = (profile->caps.allow) & ~profile->caps.deny; sd_write_uint32(buf, low_caps(allowed_caps)); sd_write_uint32(buf, low_caps(allowed_caps & profile->caps.audit)); sd_write_uint32(buf, low_caps(profile->caps.deny & profile->caps.quiet)); sd_write_uint32(buf, 0); sd_write_struct(buf, "caps64"); sd_write_uint32(buf, high_caps(allowed_caps)); sd_write_uint32(buf, high_caps(allowed_caps & profile->caps.audit)); sd_write_uint32(buf, high_caps(profile->caps.deny & profile->caps.quiet)); sd_write_uint32(buf, 0); sd_write_structend(buf); sd_serialize_rlimits(buf, &profile->rlimits); if (profile->net.allow && kernel_supports_network) { size_t i; sd_write_array(buf, "net_allowed_af", get_af_max()); for (i = 0; i < get_af_max(); i++) { u16 allowed = profile->net.allow[i] & ~profile->net.deny[i]; sd_write_uint16(buf, allowed); sd_write_uint16(buf, allowed & profile->net.audit[i]); sd_write_uint16(buf, profile->net.deny[i] & profile->net.quiet[i]); } sd_write_arrayend(buf); } else if (profile->net.allow && (warnflags & WARN_RULE_NOT_ENFORCED)) pwarn(_("profile %s network rules not enforced\n"), profile->name); if (profile->policy.dfa) { sd_write_struct(buf, "policydb"); sd_serialize_dfa(buf, profile->policy.dfa, profile->policy.size); sd_write_structend(buf); } /* either have a single dfa or lists of different entry types */ sd_serialize_dfa(buf, profile->dfa.dfa, profile->dfa.size); sd_serialize_xtable(buf, profile->exec_table); sd_write_structend(buf); } void sd_serialize_top_profile(std::ostringstream &buf, Profile *profile) { uint32_t version; version = ENCODE_VERSION(force_complain, policy_version, parser_abi_version, kernel_abi_version); sd_write_name(buf, "version"); sd_write_uint32(buf, version); if (profile->ns) { sd_write_string(buf, profile->ns, "namespace"); } sd_serialize_profile(buf, profile, profile->parent ? 1 : 0); } int __sd_serialize_profile(int option, aa_kernel_interface *kernel_interface, Profile *prof, int cache_fd) { autoclose int fd = -1; int error, size, wsize; std::ostringstream work_area; switch (option) { case OPTION_ADD: case OPTION_REPLACE: case OPTION_REMOVE: break; case OPTION_STDOUT: fd = dup(1); if (fd < 0) { error = -errno; PERROR(_("Unable to open stdout - %s\n"), strerror(errno)); goto exit; } break; case OPTION_OFILE: fd = dup(fileno(ofile)); if (fd < 0) { error = -errno; PERROR(_("Unable to open output file - %s\n"), strerror(errno)); goto exit; } break; default: error = -EINVAL; goto exit; break; } error = 0; if (option == OPTION_REMOVE) { if (kernel_load) { if (aa_kernel_interface_remove_policy(kernel_interface, prof->fqname().c_str()) == -1) error = -errno; } } else { std::string tmp; sd_serialize_top_profile(work_area, prof); tmp = work_area.str(); size = (long) work_area.tellp(); if (kernel_load) { if (option == OPTION_ADD && aa_kernel_interface_load_policy(kernel_interface, tmp.c_str(), size) == -1) { error = -errno; } else if (option == OPTION_REPLACE && aa_kernel_interface_replace_policy(kernel_interface, tmp.c_str(), size) == -1) { error = -errno; } } else if ((option == OPTION_STDOUT || option == OPTION_OFILE) && aa_kernel_interface_write_policy(fd, tmp.c_str(), size) == -1) { error = -errno; } if (cache_fd != -1) { wsize = write(cache_fd, tmp.c_str(), size); if (wsize < 0) { error = -errno; } else if (wsize < size) { PERROR(_("%s: Unable to write entire profile entry to cache\n"), progname); error = -EIO; } } } if (!prof->hat_table.empty() && option != OPTION_REMOVE) { if (load_flattened_hats(prof, option, kernel_interface, cache_fd) == 0) return 0; } exit: return error; }