/*- * SPDX-License-Identifier: BSD-2-Clause * * Copyright (c) 2007-2009 Sean C. Farley * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer, * without modification, immediately at the beginning of the file. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include #include "namespace.h" #include #include #include #include #include #include #include #include "un-namespace.h" #include "libc_private.h" static const char CorruptEnvFindMsg[] = "environment corrupt; unable to find "; static const char CorruptEnvValueMsg[] = "environment corrupt; missing value for "; /* * Standard environ. environ variable is exposed to entire process. * * origEnviron: Upon cleanup on unloading of library or failure, this * allows environ to return to as it was before. * environSize: Number of variables environ can hold. Can only * increase. * intEnviron: Internally-built environ. Exposed via environ during * (re)builds of the environment. */ static char **origEnviron; static char **intEnviron = NULL; static int environSize = 0; /* * Array of environment variables built from environ. Each element records: * name: Pointer to name=value string * name length: Length of name not counting '=' character * value: Pointer to value within same string as name * value size: Size (not length) of space for value not counting the * nul character * active state: true/false value to signify whether variable is active. * Useful since multiple variables with the same name can * co-exist. At most, one variable can be active at any * one time. * putenv: Created from putenv() call. This memory must not be * reused. */ static struct envVars { size_t nameLen; size_t valueSize; char *name; char *value; bool active; bool putenv; } *envVars = NULL; /* * Environment array information. * * envActive: Number of active variables in array. * envVarsSize: Size of array. * envVarsTotal: Number of total variables in array (active or not). */ static int envActive = 0; static int envVarsSize = 0; static int envVarsTotal = 0; /* Deinitialization of new environment. */ static void __attribute__ ((destructor)) __clean_env_destructor(void); /* * A simple version of warnx() to avoid the bloat of including stdio in static * binaries. */ static void __env_warnx(const char *msg, const char *name, size_t nameLen) { static const char nl[] = "\n"; static const char progSep[] = ": "; _write(STDERR_FILENO, _getprogname(), strlen(_getprogname())); _write(STDERR_FILENO, progSep, sizeof(progSep) - 1); _write(STDERR_FILENO, msg, strlen(msg)); _write(STDERR_FILENO, name, nameLen); _write(STDERR_FILENO, nl, sizeof(nl) - 1); return; } /* * Inline strlen() for performance. Also, perform check for an equals sign. * Cheaper here than performing a strchr() later. */ static inline size_t __strleneq(const char *str) { const char *s; for (s = str; *s != '\0'; ++s) if (*s == '=') return (0); return (s - str); } /* * Comparison of an environment name=value to a name. */ static inline bool strncmpeq(const char *nameValue, const char *name, size_t nameLen) { if (strncmp(nameValue, name, nameLen) == 0 && nameValue[nameLen] == '=') return (true); return (false); } /* * Using environment, returns pointer to value associated with name, if any, * else NULL. If the onlyActive flag is set to true, only variables that are * active are returned else all are. */ static inline char * __findenv(const char *name, size_t nameLen, int *envNdx, bool onlyActive) { int ndx; /* * Find environment variable from end of array (more likely to be * active). A variable created by putenv is always active, or it is not * tracked in the array. */ for (ndx = *envNdx; ndx >= 0; ndx--) if (envVars[ndx].putenv) { if (strncmpeq(envVars[ndx].name, name, nameLen)) { *envNdx = ndx; return (envVars[ndx].name + nameLen + sizeof ("=") - 1); } } else if ((!onlyActive || envVars[ndx].active) && (envVars[ndx].nameLen == nameLen && strncmpeq(envVars[ndx].name, name, nameLen))) { *envNdx = ndx; return (envVars[ndx].value); } return (NULL); } /* * Using environ, returns pointer to value associated with name, if any, else * NULL. Used on the original environ passed into the program. */ static char * __findenv_environ(const char *name, size_t nameLen) { int envNdx; /* Find variable within environ. */ for (envNdx = 0; environ[envNdx] != NULL; envNdx++) if (strncmpeq(environ[envNdx], name, nameLen)) return (&(environ[envNdx][nameLen + sizeof("=") - 1])); return (NULL); } /* * Remove variable added by putenv() from variable tracking array. */ static void __remove_putenv(int envNdx) { envVarsTotal--; if (envVarsTotal > envNdx) memmove(&(envVars[envNdx]), &(envVars[envNdx + 1]), (envVarsTotal - envNdx) * sizeof (*envVars)); memset(&(envVars[envVarsTotal]), 0, sizeof (*envVars)); return; } /* * Deallocate the environment built from environ as well as environ then set * both to NULL. Eases debugging of memory leaks. */ static void __clean_env(bool freeVars) { int envNdx; /* Deallocate environment and environ if created by *env(). */ if (envVars != NULL) { for (envNdx = envVarsTotal - 1; envNdx >= 0; envNdx--) /* Free variables or deactivate them. */ if (envVars[envNdx].putenv) { if (!freeVars) __remove_putenv(envNdx); } else { if (freeVars) free(envVars[envNdx].name); else envVars[envNdx].active = false; } if (freeVars) { free(envVars); envVars = NULL; } else envActive = 0; /* Restore original environ if it has not updated by program. */ if (origEnviron != NULL) { if (environ == intEnviron) environ = origEnviron; free(intEnviron); intEnviron = NULL; environSize = 0; } } return; } /* * Using the environment, rebuild the environ array for use by other C library * calls that depend upon it. */ static int __rebuild_environ(int newEnvironSize) { char **tmpEnviron; int envNdx; int environNdx; int tmpEnvironSize; /* Resize environ. */ if (newEnvironSize > environSize) { tmpEnvironSize = newEnvironSize * 2; tmpEnviron = reallocarray(intEnviron, tmpEnvironSize + 1, sizeof(*intEnviron)); if (tmpEnviron == NULL) return (-1); environSize = tmpEnvironSize; intEnviron = tmpEnviron; } envActive = newEnvironSize; /* Assign active variables to environ. */ for (envNdx = envVarsTotal - 1, environNdx = 0; envNdx >= 0; envNdx--) if (envVars[envNdx].active) intEnviron[environNdx++] = envVars[envNdx].name; intEnviron[environNdx] = NULL; /* Always set environ which may have been replaced by program. */ environ = intEnviron; return (0); } /* * Enlarge new environment. */ static inline bool __enlarge_env(void) { int newEnvVarsSize; struct envVars *tmpEnvVars; envVarsTotal++; if (envVarsTotal > envVarsSize) { newEnvVarsSize = envVarsTotal * 2; tmpEnvVars = reallocarray(envVars, newEnvVarsSize, sizeof(*envVars)); if (tmpEnvVars == NULL) { envVarsTotal--; return (false); } envVarsSize = newEnvVarsSize; envVars = tmpEnvVars; } return (true); } /* * Using environ, build an environment for use by standard C library calls. */ static int __build_env(void) { char **env; int activeNdx; int envNdx; int savedErrno; size_t nameLen; /* Check for non-existant environment. */ if (environ == NULL || environ[0] == NULL) return (0); /* Count environment variables. */ for (env = environ, envVarsTotal = 0; *env != NULL; env++) envVarsTotal++; envVarsSize = envVarsTotal * 2; /* Create new environment. */ envVars = calloc(envVarsSize, sizeof(*envVars)); if (envVars == NULL) goto Failure; /* Copy environ values and keep track of them. */ for (envNdx = envVarsTotal - 1; envNdx >= 0; envNdx--) { envVars[envNdx].putenv = false; envVars[envNdx].name = strdup(environ[envVarsTotal - envNdx - 1]); if (envVars[envNdx].name == NULL) goto Failure; envVars[envNdx].value = strchr(envVars[envNdx].name, '='); if (envVars[envNdx].value != NULL) { envVars[envNdx].value++; envVars[envNdx].valueSize = strlen(envVars[envNdx].value); } else { __env_warnx(CorruptEnvValueMsg, envVars[envNdx].name, strlen(envVars[envNdx].name)); errno = EFAULT; goto Failure; } /* * Find most current version of variable to make active. This * will prevent multiple active variables from being created * during this initialization phase. */ nameLen = envVars[envNdx].value - envVars[envNdx].name - 1; envVars[envNdx].nameLen = nameLen; activeNdx = envVarsTotal - 1; if (__findenv(envVars[envNdx].name, nameLen, &activeNdx, false) == NULL) { __env_warnx(CorruptEnvFindMsg, envVars[envNdx].name, nameLen); errno = EFAULT; goto Failure; } envVars[activeNdx].active = true; } /* Create a new environ. */ origEnviron = environ; environ = NULL; if (__rebuild_environ(envVarsTotal) == 0) return (0); Failure: savedErrno = errno; __clean_env(true); errno = savedErrno; return (-1); } /* * Destructor function with default argument to __clean_env(). */ static void __clean_env_destructor(void) { __clean_env(true); return; } /* * Returns the value of a variable or NULL if none are found. */ char * getenv(const char *name) { int envNdx; size_t nameLen; /* Check for malformed name. */ if (name == NULL || (nameLen = __strleneq(name)) == 0) { errno = EINVAL; return (NULL); } /* * Variable search order: * 1. Check for an empty environ. This allows an application to clear * the environment. * 2. Search the external environ array. * 3. Search the internal environment. * * Since malloc() depends upon getenv(), getenv() must never cause the * internal environment storage to be generated. */ if (environ == NULL || environ[0] == NULL) return (NULL); else if (envVars == NULL || environ != intEnviron) return (__findenv_environ(name, nameLen)); else { envNdx = envVarsTotal - 1; return (__findenv(name, nameLen, &envNdx, true)); } } /* * Set the value of a variable. Older settings are labeled as inactive. If an * older setting has enough room to store the new value, it will be reused. No * previous variables are ever freed here to avoid causing a segmentation fault * in a user's code. * * The variables nameLen and valueLen are passed into here to allow the caller * to calculate the length by means besides just strlen(). */ static int __setenv(const char *name, size_t nameLen, const char *value, int overwrite) { bool reuse; char *env; int envNdx; int newEnvActive; size_t valueLen; /* Find existing environment variable large enough to use. */ envNdx = envVarsTotal - 1; newEnvActive = envActive; valueLen = strlen(value); reuse = false; if (__findenv(name, nameLen, &envNdx, false) != NULL) { /* Deactivate entry if overwrite is allowed. */ if (envVars[envNdx].active) { if (overwrite == 0) return (0); envVars[envNdx].active = false; newEnvActive--; } /* putenv() created variable cannot be reused. */ if (envVars[envNdx].putenv) __remove_putenv(envNdx); /* Entry is large enough to reuse. */ else if (envVars[envNdx].valueSize >= valueLen) reuse = true; } /* Create new variable if none was found of sufficient size. */ if (! reuse) { /* Enlarge environment. */ envNdx = envVarsTotal; if (!__enlarge_env()) return (-1); /* Create environment entry. */ envVars[envNdx].name = malloc(nameLen + sizeof ("=") + valueLen); if (envVars[envNdx].name == NULL) { envVarsTotal--; return (-1); } envVars[envNdx].nameLen = nameLen; envVars[envNdx].valueSize = valueLen; /* Save name of name/value pair. */ env = stpncpy(envVars[envNdx].name, name, nameLen); *env++ = '='; } else env = envVars[envNdx].value; /* Save value of name/value pair. */ strcpy(env, value); envVars[envNdx].value = env; envVars[envNdx].active = true; newEnvActive++; /* No need to rebuild environ if an active variable was reused. */ if (reuse && newEnvActive == envActive) return (0); else return (__rebuild_environ(newEnvActive)); } /* * If the program attempts to replace the array of environment variables * (environ) environ or sets the first varible to NULL, then deactivate all * variables and merge in the new list from environ. */ static int __merge_environ(void) { char **env; char *equals; /* * Internally-built environ has been replaced or cleared (detected by * using the count of active variables against a NULL as the first value * in environ). Clean up everything. */ if (intEnviron != NULL && (environ != intEnviron || (envActive > 0 && environ[0] == NULL))) { /* Deactivate all environment variables. */ if (envActive > 0) { origEnviron = NULL; __clean_env(false); } /* * Insert new environ into existing, yet deactivated, * environment array. */ origEnviron = environ; if (origEnviron != NULL) for (env = origEnviron; *env != NULL; env++) { if ((equals = strchr(*env, '=')) == NULL) { __env_warnx(CorruptEnvValueMsg, *env, strlen(*env)); errno = EFAULT; return (-1); } if (__setenv(*env, equals - *env, equals + 1, 1) == -1) return (-1); } } return (0); } /* * The exposed setenv() that performs a few tests before calling the function * (__setenv()) that does the actual work of inserting a variable into the * environment. */ int setenv(const char *name, const char *value, int overwrite) { size_t nameLen; /* Check for malformed name. */ if (name == NULL || (nameLen = __strleneq(name)) == 0) { errno = EINVAL; return (-1); } /* Initialize environment. */ if (__merge_environ() == -1 || (envVars == NULL && __build_env() == -1)) return (-1); return (__setenv(name, nameLen, value, overwrite)); } /* * Insert a "name=value" string into the environment. Special settings must be * made to keep setenv() from reusing this memory block and unsetenv() from * allowing it to be tracked. */ int putenv(char *string) { char *equals; int envNdx; int newEnvActive; size_t nameLen; /* Check for malformed argument. */ if (string == NULL || (equals = strchr(string, '=')) == NULL || (nameLen = equals - string) == 0) { errno = EINVAL; return (-1); } /* Initialize environment. */ if (__merge_environ() == -1 || (envVars == NULL && __build_env() == -1)) return (-1); /* Deactivate previous environment variable. */ envNdx = envVarsTotal - 1; newEnvActive = envActive; if (__findenv(string, nameLen, &envNdx, true) != NULL) { /* Reuse previous putenv slot. */ if (envVars[envNdx].putenv) { envVars[envNdx].name = string; return (__rebuild_environ(envActive)); } else { newEnvActive--; envVars[envNdx].active = false; } } /* Enlarge environment. */ envNdx = envVarsTotal; if (!__enlarge_env()) return (-1); /* Create environment entry. */ envVars[envNdx].name = string; envVars[envNdx].nameLen = -1; envVars[envNdx].value = NULL; envVars[envNdx].valueSize = -1; envVars[envNdx].putenv = true; envVars[envNdx].active = true; newEnvActive++; return (__rebuild_environ(newEnvActive)); } /* * Unset variable with the same name by flagging it as inactive. No variable is * ever freed. */ int unsetenv(const char *name) { int envNdx; size_t nameLen; int newEnvActive; /* Check for malformed name. */ if (name == NULL || (nameLen = __strleneq(name)) == 0) { errno = EINVAL; return (-1); } /* Initialize environment. */ if (__merge_environ() == -1 || (envVars == NULL && __build_env() == -1)) return (-1); /* Deactivate specified variable. */ /* Remove all occurrences. */ envNdx = envVarsTotal - 1; newEnvActive = envActive; while (__findenv(name, nameLen, &envNdx, true) != NULL) { envVars[envNdx].active = false; if (envVars[envNdx].putenv) __remove_putenv(envNdx); envNdx--; newEnvActive--; } if (newEnvActive != envActive) __rebuild_environ(newEnvActive); return (0); }