/* magiskpolicy.c - Main function for policy patching * * Includes all the parsing logic for the policy statements */ #include #include #include "sepolicy.h" #include "vector.h" #include "magiskpolicy.h" #include "magisk.h" #include "flags.h" static int syntax_err = 0; static char err_msg[ARG_MAX]; static void statements() { fprintf(stderr, "One policy statement should be treated as one parameter;\n" "this means a full policy statement should be enclosed in quotes;\n" "multiple policy statements can be provided in a single command\n" "\n" "The statements has a format of \" [args...]\"\n" "Use '*' in args to represent every possible match.\n" "Collections wrapped in curly brackets can also be used as args.\n" "\n" "Supported policy statements:\n" "\n" "Type 1:\n" "\" source-class target-class permission-class permission\"\n" "Action: allow, deny, auditallow, auditdeny\n" "\n" "Type 2:\n" "\" source-class target-class permission-class ioctl range\"\n" "Action: allowxperm, auditallowxperm, dontauditxperm\n" "\n" "Type 3:\n" "\" class\"\n" "Action: create, permissive, enforcing\n" "\n" "Type 4:\n" "\"attradd class attribute\"\n" "\n" "Type 5:\n" "\"typetrans source-class target-class permission-class default-class (optional: object-name)\"\n" "\n" "Notes:\n" "- typetrans does not support the all match '*' syntax\n" "- permission-class cannot be collections\n" "- source-class and target-class can also be attributes\n" "\n" "Example: allow { source1 source2 } { target1 target2 } permission-class *\n" "Will be expanded to:\n" "\n" "allow source1 target1 permission-class { all-permissions }\n" "allow source1 target2 permission-class { all-permissions }\n" "allow source2 target1 permission-class { all-permissions }\n" "allow source2 target2 permission-class { all-permissions }\n" "\n" ); } static void usage(char *arg0) { fprintf(stderr, "MagiskPolicy v" xstr(MAGISK_VERSION) "(" xstr(MAGISK_VER_CODE) ") (by topjohnwu)\n\n" "Usage: %s [--options...] [policy statements...]\n" "\n" "Options:\n" " --live directly apply sepolicy live\n" " --magisk inject built-in rules for a minimal\n" " Magisk selinux environment\n" " --load FILE load policies from FILE\n" " --compile-split compile and load split cil policies\n" " from system and vendor just like init\n" " --save FILE save policies to FILE\n" "\n" "If neither --load or --compile-split is specified, it will load\n" "from current live policies (" SELINUX_POLICY ")\n" "\n" , arg0); statements(); exit(1); } // Pattern 1: action { source } { target } class { permission } static int parse_pattern_1(int action, char* statement) { int state = 0, in_bracket = 0; char *tok, *class, *saveptr; struct vector source, target, permission; vec_init(&source); vec_init(&target); vec_init(&permission); tok = strtok_r(statement, " ", &saveptr); while (tok != NULL) { if (tok[0] == '{') { if (in_bracket || state == 2) return 1; in_bracket = 1; if (tok[1]) { ++tok; continue; } } else if (tok[strlen(tok) - 1] == '}') { if (!in_bracket || state == 2) return 1; in_bracket = 0; if (strlen(tok) - 1) { tok[strlen(tok) - 1] = '\0'; continue; } } else { if (tok[0] == '*') tok = ALL; struct vector *vec; switch (state) { case 0: vec = &source; break; case 1: vec = ⌖ break; case 2: vec = NULL; class = tok; break; case 3: vec = &permission; break; default: return 1; } vec_push_back(vec, tok); } if (!in_bracket) ++state; tok = strtok_r(NULL, " ", &saveptr); } if (state != 4) return 1; for(int i = 0; i < source.size; ++i) for (int j = 0; j < target.size; ++j) for (int k = 0; k < permission.size; ++k) { int (*action_func)(char*, char*, char*, char*); char *action_str; switch (action) { case 0: action_func = sepol_allow; action_str = "allow"; break; case 1: action_func = sepol_deny; action_str = "deny"; break; case 2: action_func = sepol_auditallow; action_str = "auditallow"; break; case 3: action_func = sepol_auditdeny; action_str = "auditdeny"; break; default: return 1; } if (action_func(source.data[i], target.data[j], class, permission.data[k])) fprintf(stderr, "Error in: %s %s %s %s %s\n", action_str, (char *) source.data[i], (char *) target.data[j], class, (char *) permission.data[k]); } vec_destroy(&source); vec_destroy(&target); vec_destroy(&permission); return 0; } // Pattern 2: action { class } { attribute } static int parse_pattern_2(int action, char* statement) { int state = 0, in_bracket = 0; char *tok, *saveptr; struct vector class, attribute; vec_init(&class); vec_init(&attribute); tok = strtok_r(statement, " ", &saveptr); while (tok != NULL) { if (tok[0] == '{') { if (in_bracket) return 1; in_bracket = 1; if (tok[1]) { ++tok; continue; } } else if (tok[strlen(tok) - 1] == '}') { if (!in_bracket) return 1; in_bracket = 0; if (strlen(tok) - 1) { tok[strlen(tok) - 1] = '\0'; continue; } } else { if (tok[0] == '*') tok = ALL; struct vector *vec; switch (state) { case 0: vec = &class; break; case 1: vec = &attribute; break; default: return 1; } vec_push_back(vec, tok); } if (!in_bracket) ++state; tok = strtok_r(NULL, " ", &saveptr); } if (state != 2) return 1; for(int i = 0; i < class.size; ++i) for (int j = 0; j < attribute.size; ++j) { int (*action_func)(char*, char*); char *action_str; switch (action) { case 0: action_func = sepol_attradd; action_str = "attradd"; break; default: return 1; } if (action_func(class.data[i], attribute.data[j])) fprintf(stderr, "Error in: %s %s %s\n", action_str, (char *) class.data[i], (char *) attribute.data[j]); } vec_destroy(&class); vec_destroy(&attribute); return 0; } // Pattern 3: action { type } static int parse_pattern_3(int action, char* statement) { char *tok, *saveptr; struct vector classes; vec_init(&classes); tok = strtok_r(statement, " {}", &saveptr); while (tok != NULL) { if (tok[0] == '*') tok = ALL; vec_push_back(&classes, tok); tok = strtok_r(NULL, " {}", &saveptr); } for (int i = 0; i < classes.size; ++i) { int (*action_func)(char*); char *action_str; switch (action) { case 0: action_func = sepol_create; action_str = "create"; break; case 1: action_func = sepol_permissive; action_str = "permissive"; break; case 2: action_func = sepol_enforce; action_str = "enforce"; break; } if (action_func(classes.data[i])) fprintf(stderr, "Error in: %s %s\n", action_str, (char *) classes.data[i]); } vec_destroy(&classes); return 0; } // Pattern 4: action source target class default (filename) static int parse_pattern_4(int action, char* statement) { int state = 0; char *tok, *saveptr; char *source, *target, *class, *def, *filename = NULL; tok = strtok_r(statement, " ", &saveptr); while (tok != NULL) { switch(state) { case 0: source = tok; break; case 1: target = tok; break; case 2: class = tok; break; case 3: def = tok; break; case 4: filename = tok; break; default: return 1; } tok = strtok_r(NULL, " ", &saveptr); ++state; } if (state < 4) return 1; if (sepol_typetrans(source, target, class, def, filename)) fprintf(stderr, "Error in: typetrans %s %s %s %s %s\n", source, target, class, def, filename ? filename : ""); return 0; } // Pattern 5: action { source } { target } { class } ioctl range static int parse_pattern_5(int action, char* statement) { int state = 0, in_bracket = 0; char *tok, *range, *saveptr; struct vector source, target, class; vec_init(&source); vec_init(&target); vec_init(&class); tok = strtok_r(statement, " ", &saveptr); while (tok != NULL) { if (tok[0] == '{') { if (in_bracket || state == 3 || state == 4) return 1; in_bracket = 1; if (tok[1]) { ++tok; continue; } } else if (tok[strlen(tok) - 1] == '}') { if (!in_bracket || state == 3 || state == 4) return 1; in_bracket = 0; if (strlen(tok) - 1) { tok[strlen(tok) - 1] = '\0'; continue; } } else { if (tok[0] == '*') tok = ALL; struct vector *vec; switch (state) { case 0: vec = &source; break; case 1: vec = ⌖ break; case 2: vec = &class; break; case 3: // Should always be ioctl vec = NULL; break; case 4: vec = NULL; range = tok; break; default: return 1; } vec_push_back(vec, tok); } if (!in_bracket) ++state; tok = strtok_r(NULL, " ", &saveptr); } if (state != 5) return 1; for(int i = 0; i < source.size; ++i) for (int j = 0; j < target.size; ++j) for (int k = 0; k < class.size; ++k) { int (*action_func)(char*, char*, char*, char*); char *action_str; switch (action) { case 0: action_func = sepol_allowxperm; action_str = "allowxperm"; break; case 1: action_func = sepol_auditallowxperm; action_str = "auditallowxperm"; break; case 2: action_func = sepol_dontauditxperm; action_str = "dontauditxperm"; break; default: return 1; } if (action_func(source.data[i], target.data[j], class.data[k], range)) fprintf(stderr, "Error in: %s %s %s %s %s\n", action_str, (char *) source.data[i], (char *) target.data[j], (char *) class.data[k], range); } vec_destroy(&source); vec_destroy(&target); vec_destroy(&class); return 0; } static void syntax_error_msg() { fprintf(stderr, "Syntax error in \"%s\"\n", err_msg); syntax_err = 1; } int magiskpolicy_main(int argc, char *argv[]) { char *outfile = NULL, *tok, *saveptr; int magisk = 0; struct vector rules; vec_init(&rules); if (argc < 2) usage(argv[0]); for (int i = 1; i < argc; ++i) { if (argv[i][0] == '-' && argv[i][1] == '-') { if (strcmp(argv[i] + 2, "live") == 0) outfile = SELINUX_LOAD; else if (strcmp(argv[i] + 2, "magisk") == 0) magisk = 1; else if (strcmp(argv[i] + 2, "load") == 0) { if (i + 1 >= argc) usage(argv[0]); if (load_policydb(argv[i + 1])) { fprintf(stderr, "Cannot load policy from %s\n", argv[i + 1]); return 1; } ++i; } else if (strcmp(argv[i] + 2, "compile-split") == 0) { if (compile_split_cil()) { fprintf(stderr, "Cannot compile split cil\n"); return 1; } } else if (strcmp(argv[i] + 2, "save") == 0) { if (i + 1 >= argc) usage(argv[0]); outfile = argv[i + 1]; ++i; } else { usage(argv[0]); } } else { vec_push_back(&rules, argv[i]); } } // Use current policy if nothing is loaded if(policydb == NULL && load_policydb(SELINUX_POLICY)) { fprintf(stderr, "Cannot load policy from " SELINUX_POLICY "\n"); return 1; } if (magisk) sepol_magisk_rules(); for (int i = 0; i < rules.size; ++i) { // Since strtok will modify the origin string, copy the policy for error messages strcpy(err_msg, rules.data[i]); tok = strtok_r(rules.data[i], " ", &saveptr); if (strcmp(tok, "allow") == 0) { if (parse_pattern_1(0, rules.data[i] + strlen(tok) + 1)) syntax_error_msg(); } else if (strcmp(tok, "deny") == 0) { if (parse_pattern_1(1, rules.data[i] + strlen(tok) + 1)) syntax_error_msg(); } else if (strcmp(tok, "auditallow") == 0) { if (parse_pattern_1(2, rules.data[i] + strlen(tok) + 1)) syntax_error_msg(); } else if (strcmp(tok, "auditdeny") == 0) { if (parse_pattern_1(3, rules.data[i] + strlen(tok) + 1)) syntax_error_msg(); } else if (strcmp(tok, "attradd") == 0) { if (parse_pattern_2(0, rules.data[i] + strlen(tok) + 1)) syntax_error_msg(); } else if (strcmp(tok, "create") == 0) { if (parse_pattern_3(0, rules.data[i] + strlen(tok) + 1)) syntax_error_msg(); } else if (strcmp(tok, "permissive") == 0) { if (parse_pattern_3(1, rules.data[i] + strlen(tok) + 1)) syntax_error_msg(); } else if (strcmp(tok, "enforce") == 0) { if (parse_pattern_3(2, rules.data[i] + strlen(tok) + 1)) syntax_error_msg(); } else if (strcmp(tok, "typetrans") == 0) { if (parse_pattern_4(0, rules.data[i] + strlen(tok) + 1)) syntax_error_msg(); } else if (strcmp(tok, "allowxperm") == 0) { if (parse_pattern_5(0, rules.data[i] + strlen(tok) + 1)) syntax_error_msg(); } else if (strcmp(tok, "auditallowxperm") == 0) { if (parse_pattern_5(1, rules.data[i] + strlen(tok) + 1)) syntax_error_msg(); } else if (strcmp(tok, "dontauditxperm") == 0) { if (parse_pattern_5(2, rules.data[i] + strlen(tok) + 1)) syntax_error_msg(); } else { syntax_error_msg(); } } if (syntax_err) statements(); vec_destroy(&rules); if (outfile && dump_policydb(outfile)) { fprintf(stderr, "Cannot dump policy to %s\n", outfile); return 1; } destroy_policydb(); return 0; }