// SPDX-License-Identifier: GPL-2.0+ /* * (C) Copyright 2012 * Joe Hershberger, National Instruments, joe.hershberger@ni.com */ #include #include #include #include #ifdef USE_HOSTCC /* Eliminate "ANSI does not permit..." warnings */ #include #include "fw_env_private.h" #include "fw_env.h" #include #include #define env_get fw_getenv #define ARRAY_SIZE(x) (sizeof(x) / sizeof((x)[0])) #else #include #include #endif #ifdef CONFIG_NET #define ENV_FLAGS_NET_VARTYPE_REPS "im" #else #define ENV_FLAGS_NET_VARTYPE_REPS "" #endif #ifdef CONFIG_ENV_WRITEABLE_LIST #define ENV_FLAGS_WRITEABLE_VARACCESS_REPS "w" #else #define ENV_FLAGS_WRITEABLE_VARACCESS_REPS "" #endif static const char env_flags_vartype_rep[] = "sdxb" ENV_FLAGS_NET_VARTYPE_REPS; static const char env_flags_varaccess_rep[] = "aroc" ENV_FLAGS_WRITEABLE_VARACCESS_REPS; static const int env_flags_varaccess_mask[] = { 0, ENV_FLAGS_VARACCESS_PREVENT_DELETE | ENV_FLAGS_VARACCESS_PREVENT_CREATE | ENV_FLAGS_VARACCESS_PREVENT_OVERWR, ENV_FLAGS_VARACCESS_PREVENT_DELETE | ENV_FLAGS_VARACCESS_PREVENT_OVERWR, ENV_FLAGS_VARACCESS_PREVENT_DELETE | ENV_FLAGS_VARACCESS_PREVENT_NONDEF_OVERWR, #ifdef CONFIG_ENV_WRITEABLE_LIST ENV_FLAGS_VARACCESS_WRITEABLE, #endif }; #ifdef CONFIG_CMD_ENV_FLAGS static const char * const env_flags_vartype_names[] = { "string", "decimal", "hexadecimal", "boolean", #ifdef CONFIG_NET "IP address", "MAC address", #endif }; static const char * const env_flags_varaccess_names[] = { "any", "read-only", "write-once", "change-default", #ifdef CONFIG_ENV_WRITEABLE_LIST "writeable", #endif }; /* * Print the whole list of available type flags. */ void env_flags_print_vartypes(void) { enum env_flags_vartype curtype = (enum env_flags_vartype)0; while (curtype != env_flags_vartype_end) { printf("\t%c -\t%s\n", env_flags_vartype_rep[curtype], env_flags_vartype_names[curtype]); curtype++; } } /* * Print the whole list of available access flags. */ void env_flags_print_varaccess(void) { enum env_flags_varaccess curaccess = (enum env_flags_varaccess)0; while (curaccess != env_flags_varaccess_end) { printf("\t%c -\t%s\n", env_flags_varaccess_rep[curaccess], env_flags_varaccess_names[curaccess]); curaccess++; } } /* * Return the name of the type. */ const char *env_flags_get_vartype_name(enum env_flags_vartype type) { return env_flags_vartype_names[type]; } /* * Return the name of the access. */ const char *env_flags_get_varaccess_name(enum env_flags_varaccess access) { return env_flags_varaccess_names[access]; } #endif /* CONFIG_CMD_ENV_FLAGS */ /* * Parse the flags string from a .flags attribute list into the vartype enum. */ enum env_flags_vartype env_flags_parse_vartype(const char *flags) { char *type; if (strlen(flags) <= ENV_FLAGS_VARTYPE_LOC) return env_flags_vartype_string; type = strchr(env_flags_vartype_rep, flags[ENV_FLAGS_VARTYPE_LOC]); if (type != NULL) return (enum env_flags_vartype) (type - &env_flags_vartype_rep[0]); printf("## Warning: Unknown environment variable type '%c'\n", flags[ENV_FLAGS_VARTYPE_LOC]); return env_flags_vartype_string; } /* * Parse the flags string from a .flags attribute list into the varaccess enum. */ enum env_flags_varaccess env_flags_parse_varaccess(const char *flags) { enum env_flags_varaccess va_default = env_flags_varaccess_any; enum env_flags_varaccess va; char *access; if (strlen(flags) <= ENV_FLAGS_VARACCESS_LOC) return va_default; access = strchr(env_flags_varaccess_rep, flags[ENV_FLAGS_VARACCESS_LOC]); if (access != NULL) { va = (enum env_flags_varaccess) (access - &env_flags_varaccess_rep[0]); return va; } printf("## Warning: Unknown environment variable access method '%c'\n", flags[ENV_FLAGS_VARACCESS_LOC]); return va_default; } /* * Parse the binary flags from a hash table entry into the varaccess enum. */ enum env_flags_varaccess env_flags_parse_varaccess_from_binflags(int binflags) { enum env_flags_varaccess va_default = env_flags_varaccess_any; enum env_flags_varaccess va; int i; for (i = 0; i < ARRAY_SIZE(env_flags_varaccess_mask); i++) if (env_flags_varaccess_mask[i] == (binflags & ENV_FLAGS_VARACCESS_BIN_MASK)) { va = (enum env_flags_varaccess)i; return va; } printf("Warning: Non-standard access flags. (0x%x)\n", binflags & ENV_FLAGS_VARACCESS_BIN_MASK); return va_default; } static inline int is_hex_prefix(const char *value) { return value[0] == '0' && (value[1] == 'x' || value[1] == 'X'); } static void skip_num(int hex, const char *value, const char **end, int max_digits) { int i; if (hex && is_hex_prefix(value)) value += 2; for (i = max_digits; i != 0; i--) { if (hex && !isxdigit(*value)) break; if (!hex && !isdigit(*value)) break; value++; } if (end != NULL) *end = value; } #ifdef CONFIG_NET int eth_validate_ethaddr_str(const char *addr) { const char *end; const char *cur; int i; cur = addr; for (i = 0; i < 6; i++) { skip_num(1, cur, &end, 2); if (cur == end) return -1; if (cur + 2 == end && is_hex_prefix(cur)) return -1; if (i != 5 && *end != ':') return -1; if (i == 5 && *end != '\0') return -1; cur = end + 1; } return 0; } #endif /* * Based on the declared type enum, validate that the value string complies * with that format */ static int _env_flags_validate_type(const char *value, enum env_flags_vartype type) { const char *end; #ifdef CONFIG_NET const char *cur; int i; #endif switch (type) { case env_flags_vartype_string: break; case env_flags_vartype_decimal: skip_num(0, value, &end, -1); if (*end != '\0') return -1; break; case env_flags_vartype_hex: skip_num(1, value, &end, -1); if (*end != '\0') return -1; if (value + 2 == end && is_hex_prefix(value)) return -1; break; case env_flags_vartype_bool: if (value[0] != '1' && value[0] != 'y' && value[0] != 't' && value[0] != 'Y' && value[0] != 'T' && value[0] != '0' && value[0] != 'n' && value[0] != 'f' && value[0] != 'N' && value[0] != 'F') return -1; if (value[1] != '\0') return -1; break; #ifdef CONFIG_NET case env_flags_vartype_ipaddr: cur = value; for (i = 0; i < 4; i++) { skip_num(0, cur, &end, 3); if (cur == end) return -1; if (i != 3 && *end != '.') return -1; if (i == 3 && *end != '\0') return -1; cur = end + 1; } break; case env_flags_vartype_macaddr: if (eth_validate_ethaddr_str(value)) return -1; break; #endif case env_flags_vartype_end: return -1; } /* OK */ return 0; } /* * Look for flags in a provided list and failing that the static list */ static inline int env_flags_lookup(const char *flags_list, const char *name, char *flags) { int ret = 1; if (!flags) /* bad parameter */ return -1; /* try the env first */ if (flags_list) ret = env_attr_lookup(flags_list, name, flags); if (ret != 0) /* if not found in the env, look in the static list */ ret = env_attr_lookup(ENV_FLAGS_LIST_STATIC, name, flags); return ret; } #ifdef USE_HOSTCC /* Functions only used from tools/env */ /* * Look up any flags directly from the .flags variable and the static list * and convert them to the vartype enum. */ enum env_flags_vartype env_flags_get_type(const char *name) { const char *flags_list = env_get(ENV_FLAGS_VAR); char flags[ENV_FLAGS_ATTR_MAX_LEN + 1]; if (env_flags_lookup(flags_list, name, flags)) return env_flags_vartype_string; if (strlen(flags) <= ENV_FLAGS_VARTYPE_LOC) return env_flags_vartype_string; return env_flags_parse_vartype(flags); } /* * Look up the access of a variable directly from the .flags var. */ enum env_flags_varaccess env_flags_get_varaccess(const char *name) { const char *flags_list = env_get(ENV_FLAGS_VAR); enum env_flags_varaccess va_default = env_flags_varaccess_any; char flags[ENV_FLAGS_ATTR_MAX_LEN + 1]; if (env_flags_lookup(flags_list, name, flags)) return va_default; if (strlen(flags) <= ENV_FLAGS_VARACCESS_LOC) return va_default; return env_flags_parse_varaccess(flags); } /* * Validate that the proposed new value for "name" is valid according to the * defined flags for that variable, if any. */ int env_flags_validate_type(const char *name, const char *value) { enum env_flags_vartype type; if (value == NULL) return 0; type = env_flags_get_type(name); if (_env_flags_validate_type(value, type) < 0) { printf("## Error: flags type check failure for " "\"%s\" <= \"%s\" (type: %c)\n", name, value, env_flags_vartype_rep[type]); return -1; } return 0; } /* * Validate that the proposed access to variable "name" is valid according to * the defined flags for that variable, if any. */ int env_flags_validate_varaccess(const char *name, int check_mask) { enum env_flags_varaccess access; int access_mask; access = env_flags_get_varaccess(name); access_mask = env_flags_varaccess_mask[access]; return (check_mask & access_mask) != 0; } /* * Validate the parameters to "env set" directly */ int env_flags_validate_env_set_params(char *name, char * const val[], int count) { if ((count >= 1) && val[0] != NULL) { enum env_flags_vartype type = env_flags_get_type(name); /* * we don't currently check types that need more than * one argument */ if (type != env_flags_vartype_string && count > 1) { printf("## Error: too many parameters for setting \"%s\"\n", name); return -1; } return env_flags_validate_type(name, val[0]); } /* ok */ return 0; } #else /* !USE_HOSTCC - Functions only used from lib/hashtable.c */ /* * Parse the flag charachters from the .flags attribute list into the binary * form to be stored in the environment entry->flags field. */ static int env_parse_flags_to_bin(const char *flags) { int binflags; binflags = env_flags_parse_vartype(flags) & ENV_FLAGS_VARTYPE_BIN_MASK; binflags |= env_flags_varaccess_mask[env_flags_parse_varaccess(flags)]; return binflags; } static int first_call = 1; static const char *flags_list; /* * Look for possible flags for a newly added variable * This is called specifically when the variable did not exist in the hash * previously, so the blanket update did not find this variable. */ void env_flags_init(struct env_entry *var_entry) { const char *var_name = var_entry->key; char flags[ENV_FLAGS_ATTR_MAX_LEN + 1] = ""; int ret = 1; if (first_call) { #ifdef CONFIG_ENV_WRITEABLE_LIST flags_list = ENV_FLAGS_LIST_STATIC; #else flags_list = env_get(ENV_FLAGS_VAR); #endif first_call = 0; } /* look in the ".flags" and static for a reference to this variable */ ret = env_flags_lookup(flags_list, var_name, flags); /* if any flags were found, set the binary form to the entry */ if (!ret && strlen(flags)) var_entry->flags = env_parse_flags_to_bin(flags); } /* * Called on each existing env var prior to the blanket update since removing * a flag in the flag list should remove its flags. */ static int clear_flags(struct env_entry *entry) { entry->flags = 0; return 0; } /* * Call for each element in the list that defines flags for a variable */ static int set_flags(const char *name, const char *value, void *priv) { struct env_entry e, *ep; e.key = name; e.data = NULL; hsearch_r(e, ENV_FIND, &ep, &env_htab, 0); /* does the env variable actually exist? */ if (ep != NULL) { /* the flag list is empty, so clear the flags */ if (value == NULL || strlen(value) == 0) ep->flags = 0; else /* assign the requested flags */ ep->flags = env_parse_flags_to_bin(value); } return 0; } static int on_flags(const char *name, const char *value, enum env_op op, int flags) { /* remove all flags */ hwalk_r(&env_htab, clear_flags); /* configure any static flags */ env_attr_walk(ENV_FLAGS_LIST_STATIC, set_flags, NULL); /* configure any dynamic flags */ env_attr_walk(value, set_flags, NULL); return 0; } U_BOOT_ENV_CALLBACK(flags, on_flags); /* * Perform consistency checking before creating, overwriting, or deleting an * environment variable. Called as a callback function by hsearch_r() and * hdelete_r(). Returns 0 in case of success, 1 in case of failure. * When (flag & H_FORCE) is set, do not print out any error message and force * overwriting of write-once variables. */ int env_flags_validate(const struct env_entry *item, const char *newval, enum env_op op, int flag) { const char *name; const char *oldval = NULL; if (op != env_op_create) oldval = item->data; name = item->key; /* Default value for NULL to protect string-manipulating functions */ newval = newval ? : ""; /* validate the value to match the variable type */ if (op != env_op_delete) { enum env_flags_vartype type = (enum env_flags_vartype) (ENV_FLAGS_VARTYPE_BIN_MASK & item->flags); if (_env_flags_validate_type(newval, type) < 0) { printf("## Error: flags type check failure for " "\"%s\" <= \"%s\" (type: %c)\n", name, newval, env_flags_vartype_rep[type]); return -1; } } /* check for access permission */ #ifdef CONFIG_ENV_WRITEABLE_LIST if (flag & H_DEFAULT) return 0; /* Default env is always OK */ /* * External writeable variables can be overwritten by external env, * anything else can not be overwritten by external env. */ if ((flag & H_EXTERNAL) && !(item->flags & ENV_FLAGS_VARACCESS_WRITEABLE)) return 1; #endif if (flag & H_FORCE) { #ifdef CONFIG_ENV_ACCESS_IGNORE_FORCE printf("## Error: Can't force access to \"%s\"\n", name); #else return 0; #endif } switch (op) { case env_op_delete: if (item->flags & ENV_FLAGS_VARACCESS_PREVENT_DELETE) { printf("## Error: Can't delete \"%s\"\n", name); return 1; } break; case env_op_overwrite: if (item->flags & ENV_FLAGS_VARACCESS_PREVENT_OVERWR) { printf("## Error: Can't overwrite \"%s\"\n", name); return 1; } else if (item->flags & ENV_FLAGS_VARACCESS_PREVENT_NONDEF_OVERWR) { const char *defval = env_get_default(name); if (defval == NULL) defval = ""; printf("oldval: %s defval: %s\n", oldval, defval); if (strcmp(oldval, defval) != 0) { printf("## Error: Can't overwrite \"%s\"\n", name); return 1; } } break; case env_op_create: if (item->flags & ENV_FLAGS_VARACCESS_PREVENT_CREATE) { printf("## Error: Can't create \"%s\"\n", name); return 1; } break; } return 0; } #endif