/* $Id$ */ /* * Copyright (c) 1999, 2000, 2004, 2005 NOVELL (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. */ #define _GNU_SOURCE /* for asprintf */ #include #include #include #include #include #include #define _(s) gettext(s) #include "parser.h" #include "libapparmor_re/apparmor_re.h" #include #include /* only for x86 at the moment */ #include #include #include #define _(s) gettext(s) #define u8 unsigned char #define u16 unsigned short #define u32 unsigned int #define BUFFERINC 65536 //#define BUFFERINC 16 #if __BYTE_ORDER == __BIG_ENDIAN # define cpu_to_le16(x) ((u16)(bswap_16 ((u16) x))) # define cpu_to_le32(x) ((u32)(bswap_32 ((u32) x))) #else # define cpu_to_le16(x) ((u16)(x)) # define cpu_to_le32(x) ((u32)(x)) #endif #define SD_CODE_SIZE (sizeof(u8)) #define SD_STR_LEN (sizeof(u16)) #define SUBDOMAIN_INTERFACE_VERSION 2 int sd_serialize_codomain(int option, struct codomain *cod); 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; default: PERROR(_("Unknown error\n")); break; } } int load_codomain(int option, struct codomain *cod) { int retval = 0; int error = 0; PDEBUG("Serializing policy for %s.\n", cod->name); retval = sd_serialize_codomain(option, cod); 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, cod->name); print_error(error); break; case OPTION_REPLACE: PERROR(_("%s: Unable to replace \"%s\". "), progname, cod->name); print_error(error); break; case OPTION_REMOVE: PERROR(_("%s: Unable to remove \"%s\". "), progname, cod->name); print_error(error); break; case OPTION_STDOUT: PERROR(_("%s: Unable to write to stdout\n"), progname); break; default: PERROR(_("%s: ASSERT: Invalid option: %d\n"), progname, option); exit(1); break; } } else { switch (option) { case OPTION_ADD: printf(_("Addition succeeded for \"%s\".\n"), cod->name); break; case OPTION_REPLACE: printf(_("Replacement succeeded for \"%s\".\n"), cod->name); break; case OPTION_REMOVE: printf(_("Removal succeeded for \"%s\".\n"), cod->name); break; case OPTION_STDOUT: 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_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_OFFSET" }; /* Currently we will just use a contiguous block of memory be we are going to just hide this for the moment. */ struct __sdserialize { void *buffer; void *pos; void *extent; }; sd_serialize *alloc_sd_serial(void) { sd_serialize *p = malloc(sizeof(sd_serialize)); if (!p) return NULL; p->buffer = malloc(BUFFERINC); if (!p->buffer) { free(p); return NULL; } p->pos = p->buffer; p->extent = p->buffer + BUFFERINC; return p; } void free_sd_serial(sd_serialize *p) { if (p) { if (p->buffer) free(p->buffer); free(p); } } /*check if something of size length is in sd_serial bounds */ static inline int sd_inbounds(sd_serialize *p, int size) { return (p->pos + size <= p->extent); } static inline void sd_inc(sd_serialize *p, int size) { if (sd_inbounds(p, size)) { p->pos += size; } else { PERROR(_("PANIC bad increment buffer %p pos %p ext %p size %d res %p\n"), p->buffer, p->pos, p->extent, size, p->pos + size); exit(-1); } } inline long sd_serial_size(sd_serialize *p) { return (p->pos - p->buffer); } /* routines for writing data to the serialization buffer */ inline int sd_prepare_write(sd_serialize *p, enum sd_code code, size_t size) { int num = (size / BUFFERINC) + 1; if (p->pos + SD_CODE_SIZE + size > p->extent) { long pos; /* try and reallocate the buffer */ void *buffer = malloc(p->extent - p->buffer + (BUFFERINC * num)); memcpy(buffer, p->buffer, p->extent - p->buffer); pos = p->pos - p->buffer; if (buffer == NULL || errno == ENOMEM) return 0; p->extent = buffer + (p->extent - p->buffer) + (BUFFERINC * num); free(p->buffer); p->buffer = buffer; p->pos = buffer + pos; } *(u8 *) (p->pos) = code; sd_inc(p, SD_CODE_SIZE); return 1; } inline int sd_write8(sd_serialize *p, u8 b) { u8 *c; if (!sd_prepare_write(p, SD_U8, sizeof(b))) return 0; c = (u8 *) p->pos; *c = b; sd_inc(p, 1); return 1; } inline int sd_write16(sd_serialize *p, u16 b) { u16 tmp; if (!sd_prepare_write(p, SD_U16, sizeof(b))) return 0; tmp = cpu_to_le16(b); memcpy(p->pos, &tmp, sizeof(tmp)); sd_inc(p, sizeof(tmp)); return 1; } inline int sd_write32(sd_serialize *p, u32 b) { u32 tmp; if (!sd_prepare_write(p, SD_U32, sizeof(b))) return 0; tmp = cpu_to_le32(b); memcpy(p->pos, &tmp, sizeof(tmp)); sd_inc(p, sizeof(tmp)); return 1; } inline int sd_write_name(sd_serialize *p, char *name) { long size = 0; PDEBUG("Writing name '%s'\n", name); if (name) { u16 tmp; size = strlen(name) + 1; if (!sd_prepare_write(p, SD_NAME, SD_STR_LEN + size)) return 0; tmp = cpu_to_le16(size); memcpy(p->pos, &tmp, sizeof(tmp)); sd_inc(p, sizeof(tmp)); memcpy(p->pos, name, size); sd_inc(p, size); } return 1; } inline int sd_write_blob(sd_serialize *p, void *b, int buf_size, char *name) { u32 tmp; if (!sd_write_name(p, name)) return 0; if (!sd_prepare_write(p, SD_BLOB, 4 + buf_size)) return 0; tmp = cpu_to_le32(buf_size); memcpy(p->pos, &tmp, sizeof(tmp)); sd_inc(p, sizeof(tmp)); memcpy(p->pos, b, buf_size); sd_inc(p, buf_size); return 1; } inline int sd_write_string(sd_serialize *p, char *b, char *name) { u16 tmp; int size; if (!sd_write_name(p, name)) return 0; size = strlen(b) + 1; if (!sd_prepare_write(p, SD_STRING, SD_STR_LEN + size)) return 0; tmp = cpu_to_le16(size); memcpy(p->pos, &tmp, sizeof(tmp)); sd_inc(p, sizeof(tmp)); memcpy(p->pos, b, size); sd_inc(p, size); return 1; } inline int sd_write_struct(sd_serialize *p, char *name) { if (!sd_write_name(p, name)) return 0; if (!sd_prepare_write(p, SD_STRUCT, 0)) return 0; return 1; } inline int sd_write_structend(sd_serialize *p) { if (!sd_prepare_write(p, SD_STRUCTEND, 0)) return 0; return 1; } inline int sd_write_list(sd_serialize *p, char *name) { if (!sd_write_name(p, name)) return 0; if (!sd_prepare_write(p, SD_LIST, 0)) return 0; return 1; } inline int sd_write_listend(sd_serialize *p) { if (!sd_prepare_write(p, SD_LISTEND, 0)) return 0; return 1; } int sd_serialize_net_entry(sd_serialize *p, struct cod_net_entry *net_entry) { if (!sd_write_struct(p, "ne")) return 0; if (!sd_write32(p, net_entry->mode)) return 0; if (!sd_write32(p, net_entry->saddr->s_addr)) return 0; if (!sd_write32(p, net_entry->smask->s_addr)) return 0; if (!sd_write16(p, net_entry->src_port[0])) return 0; if (!sd_write16(p, net_entry->src_port[1])) return 0; if (!sd_write32(p, net_entry->daddr->s_addr)) return 0; if (!sd_write32(p, net_entry->dmask->s_addr)) return 0; if (!sd_write16(p, net_entry->dst_port[0])) return 0; if (!sd_write16(p, net_entry->dst_port[1])) return 0; if (net_entry->iface) if (!sd_write_string(p, net_entry->iface, NULL)) return 0; if (!sd_write_structend(p)) return 0; return 1; } int sd_serialize_pattern(sd_serialize *p, pcre *pat) { if (!sd_write_struct(p, "pcre")) return 0; if (!sd_write32(p, pat->size - sizeof(pcre))) return 0; if (!sd_write32(p, pat->magic_number)) return 0; if (!sd_write32(p, pat->options)) return 0; if (!sd_write16(p, pat->top_bracket)) return 0; if (!sd_write16(p, pat->top_backref)) return 0; if (!sd_write8(p, pat->first_char)) return 0; if (!sd_write8(p, pat->req_char)) return 0; if (!sd_write8(p, pat->code[0])) return 0; if (!sd_write_blob(p, &pat->code[1], pat->size - sizeof(pcre), NULL)) return 0; if (!sd_write_structend(p)) return 0; return 1; } int sd_serialize_file_entry(sd_serialize *p, struct cod_entry *file_entry) { PDEBUG("Writing file entry. name '%s'\n", file_entry->name); if (!sd_write_struct(p, "fe")) return 0; if (!sd_write_string(p, file_entry->name, NULL)) return 0; if (!sd_write32(p, file_entry->mode)) return 0; if (!sd_write32(p, file_entry->pattern_type)) return 0; if (file_entry->pattern_type == ePatternRegex) { if (!sd_write_string(p, file_entry->pat.regex, NULL)) return 0; if (!sd_serialize_pattern(p, file_entry->pat.compiled)) return 0; } if (!sd_write_structend(p)) return 0; return 1; } int sd_serialize_dfa(sd_serialize *p, void *dfa, size_t size) { /* fake up a file entry in regex entry list */ PDEBUG("Writing file entry. name '%s'\n", file_entry->name); if (!sd_write_list(p, "pgent")) return 0; if (!sd_write_struct(p, "fe")) return 0; if (!sd_write_string(p, "dfa", NULL)) return 0; /* list entry has having all perms but no exec modifiers */ if (!sd_write32(p, 0x7fffffff & ~AA_EXEC_MODIFIERS)) return 0; if (!sd_write32(p, ePatternRegex)) return 0; if (!sd_write_blob(p, dfa, size, "aadfa")) return 0; if (!sd_write_structend(p)) return 0; if (!sd_write_listend(p)) return 0; return 1; } int count_file_ents(struct cod_entry *list) { struct cod_entry *file_entry; int count = 0; for (file_entry = list; file_entry; file_entry = file_entry->next) { if (file_entry->pattern_type == ePatternBasic) { count++; } } return count; } int count_tailglob_ents(struct cod_entry *list) { struct cod_entry *file_entry; int count = 0; for (file_entry = list; file_entry; file_entry = file_entry->next) { if (file_entry->pattern_type == ePatternTailGlob) { count++; } } return count; } int count_pcre_ents(struct cod_entry *list) { struct cod_entry *file_entry; int count = 0; for (file_entry = list; file_entry; file_entry = file_entry->next) { if (file_entry->pattern_type == ePatternRegex) { count++; } } return count; } int sd_serialize_profile(sd_serialize *p, struct codomain *profile) { struct cod_entry *file_entry; struct cod_net_entry *net_entry; if (!sd_write_struct(p, "profile")) return 0; if (!sd_write_string(p, profile->name, NULL)) return 0; if (!sd_write_struct(p, "flags")) return 0; /* used to be flags.debug, but that's no longer supported */ if (!sd_write32(p, 0)) return 0; if (!sd_write32(p, profile->flags.complain)) return 0; if (!sd_write32(p, profile->flags.audit)) return 0; if (!sd_write_structend(p)) return 0; if (!sd_write32(p, profile->capabilities)) return 0; /* either have a single dfa or lists of different entry types */ if (profile->dfa) { if (!sd_serialize_dfa(p, profile->dfa, profile->dfa_size)) return 0; } else { /* pcre globbing entries */ if (count_pcre_ents(profile->entries)) { if (!sd_write_list(p, "pgent")) return 0; for (file_entry = profile->entries; file_entry; file_entry = file_entry->next) { if (file_entry->pattern_type == ePatternRegex) { if (!sd_serialize_file_entry(p, file_entry)) return 0; } } if (!sd_write_listend(p)) return 0; } /* simple globbing entries */ if (count_tailglob_ents(profile->entries)) { if (!sd_write_list(p, "sgent")) return 0; for (file_entry = profile->entries; file_entry; file_entry = file_entry->next) { if (file_entry->pattern_type == ePatternTailGlob) { if (!sd_serialize_file_entry(p, file_entry)) return 0; } } if (!sd_write_listend(p)) return 0; } /* basic file entries */ if (count_file_ents(profile->entries)) { if (!sd_write_list(p, "fent")) return 0; for (file_entry = profile->entries; file_entry; file_entry = file_entry->next) { if (file_entry->pattern_type == ePatternBasic) { if (!sd_serialize_file_entry(p, file_entry)) return 0; } } if (!sd_write_listend(p)) return 0; } } if (profile->net_entries) { if (!sd_write_list(p, "net")) return 0; for (net_entry = profile->net_entries; net_entry; net_entry = net_entry->next) { if (!sd_serialize_net_entry(p, net_entry)) return 0; } if (!sd_write_listend(p)) return 0; } if (profile->hat_table) { if (!sd_write_list(p, "hats")) return 0; if (load_hats(p, profile) != 0) return 0; if (!sd_write_listend(p)) return 0; } if (!sd_write_structend(p)) return 0; return 1; } int sd_serialize_top_profile(sd_serialize *p, struct codomain *profile) { if (!sd_write_name(p, "version")) return 0; if (!sd_write32(p, SUBDOMAIN_INTERFACE_VERSION)) return 0; return sd_serialize_profile(p, profile); } int sd_serialize_codomain(int option, struct codomain *cod) { int fd; int error = 0, size, wsize; sd_serialize *work_area; char *filename = NULL; switch (option) { case OPTION_ADD: asprintf(&filename, "%s/.load", subdomainbase); fd = open(filename, O_WRONLY); break; case OPTION_REPLACE: asprintf(&filename, "%s/.replace", subdomainbase); fd = open(filename, O_WRONLY); break; case OPTION_REMOVE: asprintf(&filename, "%s/.remove", subdomainbase); fd = open(filename, O_WRONLY); break; case OPTION_STDOUT: filename = "stdout"; fd = dup(1); break; default: error = -EINVAL; goto exit; break; } if (fd < 0) { PERROR(_("Unable to open %s - %s\n"), filename, strerror(errno)); error = -errno; goto exit; } if (option != OPTION_STDOUT) free(filename); if (option == OPTION_REMOVE) { size = strlen(cod->name) + 1; wsize = write(fd, cod->name, size); if (wsize < 0) error = -errno; } else { work_area = alloc_sd_serial(); if (!work_area) { close(fd); PERROR(_("unable to create work area\n")); error = -ENOMEM; goto exit; } if (!sd_serialize_top_profile(work_area, cod)) { close(fd); free_sd_serial(work_area); PERROR(_("unable to serialize profile %s\n"), cod->name); goto exit; } size = work_area->pos - work_area->buffer; wsize = write(fd, work_area->buffer, size); if (wsize < 0) { error = -errno; } else if (wsize < size) { PERROR(_("%s: Unable to write entire profile entry\n"), progname); } free_sd_serial(work_area); } close(fd); exit: return error; }