/** \file env.c Functions for setting and getting environment variables. */ #include "config.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #if HAVE_NCURSES_H #include #else #include #endif #if HAVE_TERMIO_H #include #endif #if HAVE_TERM_H #include #elif HAVE_NCURSES_TERM_H #include #endif #if HAVE_LIBINTL_H #include #endif #include #include "fallback.h" #include "util.h" #include "wutil.h" #include "proc.h" #include "common.h" #include "env.h" #include "sanity.h" #include "expand.h" #include "history.h" #include "reader.h" #include "parser.h" #include "env_universal.h" #include "input.h" #include "event.h" #include "path.h" #include "complete.h" /** Command used to start fishd */ #define FISHD_CMD L"fishd ^/tmp/fishd.log.%s" /** Value denoting a null string */ #define ENV_NULL L"\x1d" /** At init, we read all the environment variables from this array. */ extern char **environ; /** This should be the same thing as \c environ, but it is possible only one of the two work... */ extern char **__environ; /** A variable entry. Stores the value of a variable and whether it should be exported. Obviously, it needs to be allocated large enough to fit the value string. */ struct var_entry_t { bool exportv; /**< Whether the variable should be exported */ wcstring val; /**< The value of the variable */ var_entry_t() : exportv(false) { } }; typedef std::map var_table_t; bool g_log_forks = false; /** Struct representing one level in the function variable stack */ struct env_node_t { /** Variable table */ var_table_t env; /** Does this node imply a new variable scope? If yes, all non-global variables below this one in the stack are invisible. If new_scope is set for the global variable node, the universe will explode. */ int new_scope; /** Does this node contain any variables which are exported to subshells */ int exportv; /** Pointer to next level */ struct env_node_t *next; env_node_t() : new_scope(0), exportv(0), next(NULL) { } }; class variable_entry_t { bool exportv; /**< Whether the variable should be exported */ wcstring value; /**< Value of the variable */ }; static pthread_mutex_t env_lock = PTHREAD_MUTEX_INITIALIZER; /** Top node on the function stack */ static env_node_t *top=0; /** Bottom node on the function stack */ static env_node_t *global_env = 0; /** Table for global variables */ static var_table_t *global; /** Table of variables that may not be set using the set command. */ static std::set env_read_only; static bool is_read_only(const wcstring &key) { return env_read_only.find(key) != env_read_only.end(); } /** Table of variables whose value is dynamically calculated, such as umask, status, etc */ static std::set env_electric; static bool is_electric(const wcstring &key) { return env_electric.find(key) != env_electric.end(); } /** Exported variable array used by execv */ static null_terminated_array_t export_array; /** Flag for checking if we need to regenerate the exported variable array */ static bool has_changed = true; /** This string is used to store the value of dynamically generated variables, such as history. */ static wcstring dyn_var; /** Variable used by env_get_names to communicate auxiliary information to add_key_to_string_set */ static int get_names_show_exported; /** Variable used by env_get_names to communicate auxiliary information to add_key_to_string_set */ static int get_names_show_unexported; /** List of all locale variable names */ static const wchar_t * const locale_variable[] = { L"LANG", L"LC_ALL", L"LC_COLLATE", L"LC_CTYPE", L"LC_MESSAGES", L"LC_MONETARY", L"LC_NUMERIC", L"LC_TIME", NULL }; /** When fishd isn't started, this function is provided to env_universal as a callback, it tries to start up fishd. It's implementation is a bit of a hack, since it evaluates a bit of shellscript, and it might be used at times when that might not be the best idea. */ static void start_fishd() { struct passwd *pw = getpwuid(getuid()); debug( 3, L"Spawning new copy of fishd" ); if( !pw ) { debug( 0, _( L"Could not get user information" ) ); return; } wcstring cmd = format_string(FISHD_CMD, pw->pw_name); parser_t &parser = parser_t::principal_parser(); parser.eval( cmd, 0, TOP ); } /** Return the current umask value. */ static mode_t get_umask() { mode_t res; res = umask( 0 ); umask( res ); return res; } /** Checks if the specified variable is a locale variable */ static bool var_is_locale(const wcstring &key) { for (size_t i=0; locale_variable[i]; i++) { if (key == locale_variable[i]) { return true; } } return false; } /** Properly sets all locale information */ static void handle_locale() { const env_var_t lc_all = env_get_string( L"LC_ALL" ); int i; const wcstring old_locale = wsetlocale( LC_MESSAGES, NULL ); /* Array of locale constants corresponding to the local variable names defined in locale_variable */ static const int cat[] = { 0, LC_ALL, LC_COLLATE, LC_CTYPE, LC_MESSAGES, LC_MONETARY, LC_NUMERIC, LC_TIME } ; if( !lc_all.missing() ) { wsetlocale( LC_ALL, lc_all.c_str() ); } else { const env_var_t lang = env_get_string( L"LANG" ); if( !lang.missing() ) { wsetlocale( LC_ALL, lang.c_str() ); } for( i=2; locale_variable[i]; i++ ) { const env_var_t val = env_get_string( locale_variable[i] ); if( !val.missing() ) { wsetlocale( cat[i], val.c_str() ); } } } const wcstring new_locale = wsetlocale(LC_MESSAGES, NULL); if( old_locale != new_locale ) { /* Try to make change known to gettext. Both changing _nl_msg_cat_cntr and calling dcgettext might potentially tell some gettext implementation that the translation strings should be reloaded. We do both and hope for the best. */ extern int _nl_msg_cat_cntr; _nl_msg_cat_cntr++; dcgettext( "fish", "Changing language to English", LC_MESSAGES ); if( get_is_interactive() ) { debug( 0, _(L"Changing language to English") ); } } } /** React to modifying hte given variable */ static void react_to_variable_change(const wcstring &key) { if(var_is_locale(key)){ handle_locale(); } else if (key == L"fish_term256") { update_fish_term256(); reader_repaint_needed(); } } /** Universal variable callback function. This function makes sure the proper events are triggered when an event occurs. */ static void universal_callback( int type, const wchar_t *name, const wchar_t *val ) { const wchar_t *str=0; if( var_is_locale( name ) ) { handle_locale(); } switch( type ) { case SET: case SET_EXPORT: { str=L"SET"; break; } case ERASE: { str=L"ERASE"; break; } } if( str ) { has_changed=true; event_t ev = event_t::variable_event(name); ev.arguments.reset(new wcstring_list_t()); ev.arguments->push_back(L"VARIABLE"); ev.arguments->push_back(str); ev.arguments->push_back(name); event_fire( &ev ); ev.arguments.reset(NULL); } } /** Make sure the PATH variable contains the essential directories */ static void setup_path() { size_t i; int j; wcstring_list_t lst; const wchar_t *path_el[] = { L"/bin", L"/usr/bin", PREFIX L"/bin", 0 } ; env_var_t path = env_get_string( L"PATH" ); if( !path.missing() ) { tokenize_variable_array( path, lst ); } for( j=0; path_el[j]; j++ ) { int has_el=0; for( i=0; i 0) && (el[len-1]==L'/') ) { len--; } if( (wcslen( path_el[j] ) == len) && (wcsncmp( el.c_str(), path_el[j], len)==0) ) { has_el = 1; } } if( !has_el ) { wcstring buffer; debug( 3, L"directory %ls was missing", path_el[j] ); if( !path.missing() ) { buffer += path; } buffer += ARRAY_SEP_STR; buffer += path_el[j]; env_set( L"PATH", buffer.empty()?NULL:buffer.c_str(), ENV_GLOBAL | ENV_EXPORT ); path = env_get_string( L"PATH" ); lst.resize(0); tokenize_variable_array( path, lst ); } } } int env_set_pwd() { wchar_t dir_path[4096]; wchar_t *res = wgetcwd( dir_path, 4096 ); if( !res ) { return 0; } env_set( L"PWD", dir_path, ENV_EXPORT | ENV_GLOBAL ); return 1; } /** Set up default values for various variables if not defined. */ static void env_set_defaults() { if( env_get_string(L"USER").missing() ) { struct passwd *pw = getpwuid( getuid()); wchar_t *unam = str2wcs( pw->pw_name ); env_set( L"USER", unam, ENV_GLOBAL ); free( unam ); } if( env_get_string(L"HOME").missing() ) { const env_var_t unam = env_get_string( L"USER" ); char *unam_narrow = wcs2str( unam.c_str() ); struct passwd *pw = getpwnam( unam_narrow ); wchar_t *dir = str2wcs( pw->pw_dir ); env_set( L"HOME", dir, ENV_GLOBAL ); free( dir ); free( unam_narrow ); } env_set_pwd(); } // Some variables should not be arrays. This used to be handled by a startup script, but we'd like to get down to 0 forks for startup, so handle it here. static bool variable_can_be_array(const wchar_t *key) { if (! wcscmp(key, L"DISPLAY")) { return false; } else { return true; } } void env_init() { char **p; struct passwd *pw; wchar_t *uname; wchar_t *version; /* env_read_only variables can not be altered directly by the user */ const wchar_t * const ro_keys[] = { L"status", L"history", L"version", L"_", L"LINES", L"COLUMNS", L"PWD", L"SHLVL", }; for (size_t i=0; i < sizeof ro_keys / sizeof *ro_keys; i++) { env_read_only.insert(ro_keys[i]); } /* HOME and USER should be writeable by root, since this can be a convenient way to install software. */ if( getuid() != 0 ) { env_read_only.insert(L"HOME"); env_read_only.insert(L"USER"); } /* Names of all dynamically calculated variables */ env_electric.insert(L"history"); env_electric.insert(L"status"); env_electric.insert(L"umask"); top = new env_node_t; global_env = top; global = &top->env; /* Now the environemnt variable handling is set up, the next step is to insert valid data */ /* Import environment variables */ for( p=environ?environ:__environ; p && *p; p++ ) { wchar_t *key, *val; key = str2wcs(*p); if( !key ) { continue; } val = wcschr( key, L'=' ); if( val == 0 ) { env_set( key, L"", ENV_EXPORT ); } else { *val = L'\0'; val++; //fwprintf( stderr, L"Set $%ls to %ls\n", key, val ); if (variable_can_be_array(val)) { for (size_t i=0; val[i] != L'\0'; i++) { if( val[i] == L':' ) { val[i] = ARRAY_SEP; } } } env_set( key, val, ENV_EXPORT | ENV_GLOBAL ); } free(key); } /* Set up the PATH variable */ setup_path(); /* Set up the USER variable */ pw = getpwuid( getuid() ); if( pw ) { uname = str2wcs( pw->pw_name ); env_set( L"USER", uname, ENV_GLOBAL | ENV_EXPORT ); free( uname ); } /* Set up the version variable */ version = str2wcs( PACKAGE_VERSION ); env_set( L"version", version, ENV_GLOBAL ); free( version ); const env_var_t fishd_dir_wstr = env_get_string( L"FISHD_SOCKET_DIR"); const env_var_t user_dir_wstr = env_get_string( L"USER" ); wchar_t * fishd_dir = fishd_dir_wstr.missing()?NULL:const_cast(fishd_dir_wstr.c_str()); wchar_t * user_dir = user_dir_wstr.missing()?NULL:const_cast(user_dir_wstr.c_str()); env_universal_init(fishd_dir , user_dir , &start_fishd, &universal_callback ); /* Set up SHLVL variable */ const env_var_t shlvl_str = env_get_string( L"SHLVL" ); const wchar_t *shlvl = shlvl_str.missing() ? NULL : shlvl_str.c_str(); if ( shlvl ) { wchar_t *nshlvl, **end_nshlvl; /* add an extra space for digit dump (9+1=10) */ size_t i = wcslen( shlvl ) + 2 * sizeof(wchar_t); nshlvl = (wchar_t *)malloc(i); end_nshlvl = (wchar_t **)calloc( 1, sizeof(nshlvl) ); if ( !nshlvl || !end_nshlvl ) DIE_MEM(); if ( nshlvl && swprintf( nshlvl, i, L"%ld", wcstoul( shlvl, end_nshlvl, 10 )+1 ) != -1 ) { env_set( L"SHLVL", nshlvl, ENV_GLOBAL | ENV_EXPORT ); } free( end_nshlvl ); free( nshlvl ); } else { env_set( L"SHLVL", L"1", ENV_GLOBAL | ENV_EXPORT ); } /* Set correct defaults for e.g. USER and HOME variables */ env_set_defaults(); } void env_destroy() { env_universal_destroy(); while( &top->env != global ) { env_pop(); } env_read_only.clear(); env_electric.clear(); var_table_t::iterator iter; for (iter = global->begin(); iter != global->end(); ++iter) { var_entry_t *entry = iter->second; if( entry->exportv ) { has_changed = true; } delete entry; } delete top; } /** Search all visible scopes in order for the specified key. Return the first scope in which it was found. */ static env_node_t *env_get_node( const wcstring &key ) { var_entry_t* res = NULL; env_node_t *env = top; while( env != 0 ) { var_table_t::const_iterator result = env->env.find( key ); if ( result != env->env.end() ) { res = result->second; return env; } if( env->new_scope ) { env = global_env; } else { env = env->next; } } return 0; } int env_set(const wchar_t *key, const wchar_t *val, int var_mode) { env_node_t *node = NULL; bool has_changed_old = has_changed; bool has_changed_new = false; var_entry_t *e=0; int done=0; int is_universal = 0; CHECK( key, ENV_INVALID ); if( val && contains( key, L"PWD", L"HOME" ) ) { /* Canoncalize our path; if it changes, recurse and try again. */ wcstring val_canonical = val; path_make_canonical(val_canonical); if (val != val_canonical) { return env_set( key, val_canonical.c_str(), var_mode ); } } if( (var_mode & ENV_USER ) && is_read_only(key) ) { return ENV_PERM; } if( wcscmp( key, L"umask" ) == 0) { wchar_t *end; int mask; /* Set the new umask */ if( val && wcslen(val) ) { errno=0; mask = wcstol( val, &end, 8 ); if( !errno && (!*end) && (mask <= 0777) && (mask >= 0) ) { umask( mask ); } } /* Do not actually create a umask variable, on env_get, it will be calculated dynamically */ return 0; } /* Zero element arrays are internaly not coded as null but as this placeholder string */ if( !val ) { val = ENV_NULL; } if( var_mode & ENV_UNIVERSAL ) { int exportv = 0; if( !(var_mode & ENV_EXPORT ) && !(var_mode & ENV_UNEXPORT ) ) { env_universal_get_export( key ); } else { exportv = (var_mode & ENV_EXPORT ); } env_universal_set( key, val, exportv ); is_universal = 1; } else { node = env_get_node( key ); if( node ) { var_table_t::iterator result = node->env.find(key); if ( result != node->env.end() ) { e = result->second; } else { e = NULL; } if( e->exportv ) { has_changed_new = true; } } if( (var_mode & ENV_LOCAL) || (var_mode & ENV_GLOBAL) ) { node = ( var_mode & ENV_GLOBAL )?global_env:top; } else { if( node ) { if( !(var_mode & ENV_EXPORT ) && !(var_mode & ENV_UNEXPORT ) ) { var_mode = e->exportv?ENV_EXPORT:0; } } else { if( !proc_had_barrier) { proc_had_barrier=1; env_universal_barrier(); } if( env_universal_get( key ) ) { int exportv = 0; if( !(var_mode & ENV_EXPORT ) && !(var_mode & ENV_UNEXPORT ) ) { env_universal_get_export( key ); } else { exportv = (var_mode & ENV_EXPORT ); } env_universal_set( key, val, exportv ); is_universal = 1; done = 1; } else { /* New variable with unspecified scope. The default scope is the innermost scope that is shadowing, which will be either the current function or the global scope. */ node = top; while( node->next && !node->new_scope ) { node = node->next; } } } } if( !done ) { var_entry_t *old_entry = NULL; var_table_t::iterator result = node->env.find(key); if ( result != node->env.end() ) { old_entry = result->second; node->env.erase(result); } var_entry_t *entry = NULL; if( old_entry ) { entry = old_entry; if( (var_mode & ENV_EXPORT) || entry->exportv ) { entry->exportv = !!(var_mode & ENV_EXPORT); has_changed_new = true; } } else { entry = new var_entry_t; if( var_mode & ENV_EXPORT) { entry->exportv = 1; has_changed_new = true; } else { entry->exportv = 0; } } entry->val = val; node->env.insert(std::pair(key, entry)); if( entry->exportv ) { node->exportv=1; } has_changed = has_changed_old || has_changed_new; } } if( !is_universal ) { event_t ev = event_t::variable_event(key); ev.arguments.reset(new wcstring_list_t); ev.arguments->push_back(L"VARIABLE"); ev.arguments->push_back(L"SET"); ev.arguments->push_back(key); // debug( 1, L"env_set: fire events on variable %ls", key ); event_fire( &ev ); // debug( 1, L"env_set: return from event firing" ); ev.arguments.reset(NULL); } react_to_variable_change(key); return 0; } /** Attempt to remove/free the specified key/value pair from the specified map. \return zero if the variable was not found, non-zero otherwise */ static int try_remove( env_node_t *n, const wchar_t *key, int var_mode ) { if( n == 0 ) { return 0; } var_table_t::iterator result = n->env.find( key ); if ( result != n->env.end() ) { var_entry_t *v = result->second; if( v->exportv ) { has_changed = true; } n->env.erase(result); delete v; return 1; } if( var_mode & ENV_LOCAL ) { return 0; } if( n->new_scope ) { return try_remove( global_env, key, var_mode ); } else { return try_remove( n->next, key, var_mode ); } } int env_remove( const wcstring &key, int var_mode ) { ASSERT_IS_MAIN_THREAD(); env_node_t *first_node; int erased = 0; if( (var_mode & ENV_USER ) && is_read_only(key) ) { return 2; } first_node = top; if( ! (var_mode & ENV_UNIVERSAL ) ) { if( var_mode & ENV_GLOBAL ) { first_node = global_env; } if( try_remove( first_node, key.c_str(), var_mode ) ) { event_t ev = event_t::variable_event(key); ev.arguments.reset(new wcstring_list_t); ev.arguments->push_back(L"VARIABLE"); ev.arguments->push_back(L"ERASE"); ev.arguments->push_back(key); event_fire( &ev ); ev.arguments.reset(NULL); erased = 1; } } if( !erased && !(var_mode & ENV_GLOBAL) && !(var_mode & ENV_LOCAL) ) { erased = ! env_universal_remove( key.c_str() ); } react_to_variable_change(key); return !erased; } env_var_t env_var_t::missing_var(void) { env_var_t result(L""); result.is_missing = true; return result; } const wchar_t *env_var_t::c_str(void) const { assert(! is_missing); return wcstring::c_str(); } env_var_t env_get_string( const wcstring &key ) { scoped_lock lock(env_lock); if( key == L"history" ) { wcstring result; const wchar_t *current; int i; int add_current=0; current = reader_get_buffer(); if( current && wcslen( current ) ) { add_current=1; result += current; } for( i=add_current;; i++ ) { // PCA This looks bad! We can't do this off of the main thread. wchar_t *next = NULL;//history_get( i-add_current ); if( !next ) { break; } if( i!=0) { result += ARRAY_SEP_STR; } result += next; } return result; } else if( key == L"COLUMNS" ) { return to_string((long)common_get_width()); } else if( key == L"LINES" ) { return to_string((long)common_get_width()); } else if( key == L"status" ) { return to_string((long)proc_get_last_status()); } else if( key == L"umask" ) { return format_string(L"0%0.3o", get_umask() ); } else { var_entry_t *res; env_node_t *env = top; wchar_t *item; wcstring result; while( env != 0 ) { var_table_t::iterator result = env->env.find(key); if ( result != env->env.end() ) { res = result->second; } else { res = 0; } if( res != 0 ) { if( res->val == ENV_NULL ) { return env_var_t::missing_var(); } else { return res->val; } } if( env->new_scope ) { env = global_env; } else { env = env->next; } } if( !proc_had_barrier) { proc_had_barrier=1; env_universal_barrier(); } item = env_universal_get( key ); if( !item || (wcscmp( item, ENV_NULL )==0)) { return env_var_t::missing_var(); } else { return item; } } } const wchar_t *env_get( const wchar_t *key ) { ASSERT_IS_MAIN_THREAD(); var_entry_t *res; env_node_t *env = top; wchar_t *item; CHECK( key, 0 ); if( wcscmp( key, L"history" ) == 0 ) { const wchar_t *current; dyn_var.clear(); current = reader_get_buffer(); if( current && wcslen( current ) ) { dyn_var.append(current); dyn_var.append(ARRAY_SEP_STR); } history_t *history = reader_get_history(); if (history) { for (size_t idx = 1; idx < (size_t)(-1); idx++) { history_item_t item = history->item_at_index(idx); if (item.empty()) break; dyn_var.append(item.str()); dyn_var.append(ARRAY_SEP_STR); } } /* We always have a trailing ARRAY_SEP_STR; get rid of it */ if (dyn_var.size() >= wcslen(ARRAY_SEP_STR)) { dyn_var.resize(dyn_var.size() - wcslen(ARRAY_SEP_STR)); } return dyn_var.c_str(); } else if( wcscmp( key, L"COLUMNS" )==0 ) { dyn_var = to_string(common_get_width()); return dyn_var.c_str(); } else if( wcscmp( key, L"LINES" )==0 ) { dyn_var = to_string(common_get_height()); return dyn_var.c_str(); } else if( wcscmp( key, L"status" )==0 ) { dyn_var = to_string(proc_get_last_status()); return dyn_var.c_str(); } else if( wcscmp( key, L"umask" )==0 ) { dyn_var = format_string(L"0%0.3o", get_umask()); return dyn_var.c_str(); } while( env != 0 ) { var_table_t::iterator result = env->env.find(key); if ( result != env->env.end() ) { res = result->second; } else { res = 0; } if( res != 0 ) { if( res->val == ENV_NULL ) { return 0; } else { return res->val.c_str(); } } if( env->new_scope ) { env = global_env; } else { env = env->next; } } if( !proc_had_barrier) { proc_had_barrier=1; env_universal_barrier(); } item = env_universal_get( key ); if( !item || (wcscmp( item, ENV_NULL )==0)) { return 0; } else { return item; } } int env_exist( const wchar_t *key, int mode ) { var_entry_t *res; env_node_t *env; wchar_t *item=0; CHECK( key, 0 ); /* Read only variables all exist, and they are all global. A local version can not exist. */ if( ! (mode & ENV_LOCAL) && ! (mode & ENV_UNIVERSAL) ) { if( is_read_only(key) || is_electric(key) ) { return 1; } } if( ! (mode & ENV_UNIVERSAL) ) { env = (mode & ENV_GLOBAL)?global_env:top; while( env != 0 ) { var_table_t::iterator result = env->env.find( key ); if ( result != env->env.end() ) { res = result->second; } else { res = 0; } if( res != 0 ) { return 1; } if( mode & ENV_LOCAL ) { break; } if( env->new_scope ) { env = global_env; } else { env = env->next; } } } if( ! (mode & ENV_LOCAL) && ! (mode & ENV_GLOBAL) ) { if( !proc_had_barrier) { proc_had_barrier=1; env_universal_barrier(); } item = env_universal_get( key ); } return item != 0; } /** Returns true if the specified scope or any non-shadowed non-global subscopes contain an exported variable. */ static int local_scope_exports( env_node_t *n ) { if( n==global_env ) return 0; if( n->exportv ) return 1; if( n->new_scope ) return 0; return local_scope_exports( n->next ); } void env_push( int new_scope ) { env_node_t *node = new env_node_t; node->next = top; node->new_scope=new_scope; if( new_scope ) { has_changed |= local_scope_exports(top); } top = node; } void env_pop() { if( &top->env != global ) { int i; int locale_changed = 0; env_node_t *killme = top; for( i=0; locale_variable[i]; i++ ) { var_table_t::iterator result = killme->env.find( locale_variable[i] ); if ( result != killme->env.end() ) { locale_changed = 1; break; } } if( killme->new_scope ) { has_changed |= killme->exportv || local_scope_exports( killme->next ); } top = top->next; var_table_t::iterator iter; for (iter = killme->env.begin(); iter != killme->env.end(); ++iter) { var_entry_t *entry = iter->second; if( entry->exportv ) { has_changed = true; } delete entry; } delete killme; if( locale_changed ) handle_locale(); } else { debug( 0, _( L"Tried to pop empty environment stack." ) ); sanity_lose(); } } /** Function used with to insert keys of one table into a set::set */ static void add_key_to_string_set(const var_table_t &envs, std::set &strSet) { var_table_t::const_iterator iter; for (iter = envs.begin(); iter != envs.end(); ++iter) { var_entry_t *e = iter->second; if( ( e->exportv && get_names_show_exported) || ( !e->exportv && get_names_show_unexported) ) { /*Insert Key*/ strSet.insert(iter->first); } } } wcstring_list_t env_get_names( int flags ) { scoped_lock lock(env_lock); wcstring_list_t result; std::set names; int show_local = flags & ENV_LOCAL; int show_global = flags & ENV_GLOBAL; int show_universal = flags & ENV_UNIVERSAL; env_node_t *n=top; get_names_show_exported = (flags & ENV_EXPORT) || !(flags & ENV_UNEXPORT); get_names_show_unexported = (flags & ENV_UNEXPORT) || !(flags & ENV_EXPORT); if( !show_local && !show_global && !show_universal ) { show_local =show_universal = show_global=1; } if( show_local ) { while( n ) { if( n == global_env ) break; add_key_to_string_set(n->env, names); if( n->new_scope ) break; else n = n->next; } } if( show_global ) { add_key_to_string_set(global_env->env, names); if( get_names_show_unexported ) { result.insert(result.end(), env_electric.begin(), env_electric.end()); } if( get_names_show_exported ) { result.push_back(L"COLUMNS"); result.push_back(L"LINES"); } } if( show_universal ) { wcstring_list_t uni_list; env_universal_get_names2(uni_list, get_names_show_exported, get_names_show_unexported); names.insert(uni_list.begin(), uni_list.end()); } result.insert(result.end(), names.begin(), names.end()); return result; } /** Get list of all exported variables */ static void get_exported( const env_node_t *n, std::map &h ) { if( !n ) return; if( n->new_scope ) get_exported( global_env, h ); else get_exported( n->next, h ); var_table_t::const_iterator iter; for (iter = n->env.begin(); iter != n->env.end(); ++iter) { const wcstring &key = iter->first; var_entry_t *val_entry = iter->second; if( val_entry->exportv && (val_entry->val != ENV_NULL ) ) { h.insert(std::pair(key, val_entry->val)); } } } static void export_func(const std::map &envs, std::vector &out) { std::map::const_iterator iter; for (iter = envs.begin(); iter != envs.end(); ++iter) { char* ks = wcs2str(iter->first.c_str()); char* vs = wcs2str(iter->second.c_str()); char *pos = vs; while( *pos ) { if( *pos == ARRAY_SEP ) *pos = ':'; pos++; } /* Put a string on the vector */ out.push_back(std::string()); std::string &str = out.back(); /* Append our environment variable data to it */ str.append(ks); str.append("="); str.append(vs); free(ks); free(vs); } } static void update_export_array_if_necessary(bool recalc) { ASSERT_IS_MAIN_THREAD(); if( recalc && !proc_had_barrier) { proc_had_barrier=1; env_universal_barrier(); } if( has_changed ) { std::map vals; size_t i; debug( 4, L"env_export_arr() recalc" ); get_exported( top, vals ); wcstring_list_t uni; env_universal_get_names2( uni, 1, 0 ); for( i=0; i::iterator result = vals.find( key ); if( wcscmp( val, ENV_NULL) && ( result == vals.end() ) ) { vals.insert(std::pair(key, val)); } } std::vector local_export_buffer; export_func(vals, local_export_buffer ); export_array.set(local_export_buffer); has_changed=false; } } char **env_export_arr( int recalc ) { ASSERT_IS_MAIN_THREAD(); update_export_array_if_necessary(recalc != 0); return export_array.get(); } void env_export_arr(bool recalc, null_terminated_array_t &output) { ASSERT_IS_MAIN_THREAD(); update_export_array_if_necessary(recalc != 0); output = export_array; } env_vars::env_vars(const wchar_t * const *keys) { ASSERT_IS_MAIN_THREAD(); for (size_t i=0; keys[i]; i++) { const env_var_t val = env_get_string(keys[i]); if (!val.missing()) { vars[keys[i]] = val; } } } env_vars::env_vars() { } const wchar_t *env_vars::get(const wchar_t *key) const { std::map::const_iterator iter = vars.find(key); return (iter == vars.end() ? NULL : iter->second.c_str()); } const wchar_t * const env_vars::highlighting_keys[] = {L"PATH", L"HIGHLIGHT_DELAY", L"fish_function_path", NULL};