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fish-shell/env.cpp
Konrad Borowski f8e35de18d Shorten compilation times 
Now fish shell stores version is a small file called by other files.
This means that a slight change which modifies one file won't cause
many of files to recompile.

The compilation unit is intentionally small, this is by design. The
smaller it is, the faster it will recompile, and it will be compiled
a lot.
2014-05-01 09:46:27 +02:00

1474 lines
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/** \file env.c
Functions for setting and getting environment variables.
*/
#include "config.h"
#include <stdlib.h>
#include <wchar.h>
#include <string.h>
#include <stdio.h>
#include <locale.h>
#include <unistd.h>
#include <signal.h>
#include <assert.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <pthread.h>
#include <pwd.h>
#include <set>
#include <map>
#include <algorithm>
#if HAVE_NCURSES_H
#include <ncurses.h>
#else
#include <curses.h>
#endif
#if HAVE_TERM_H
#include <term.h>
#elif HAVE_NCURSES_TERM_H
#include <ncurses/term.h>
#endif
#if HAVE_LIBINTL_H
#include <libintl.h>
#endif
#include <errno.h>
#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"
#include "fish_version.h"
/** Command used to start fishd */
#define FISHD_CMD L"fishd ^ /tmp/fishd.log.%s"
// Version for easier debugging
//#define FISHD_CMD L"fishd"
/** Value denoting a null string */
#define ENV_NULL L"\x1d"
/** Some configuration path environment variables */
#define FISH_DATADIR_VAR L"__fish_datadir"
#define FISH_SYSCONFDIR_VAR L"__fish_sysconfdir"
#define FISH_HELPDIR_VAR L"__fish_help_dir"
#define FISH_BIN_DIR L"__fish_bin_dir"
/**
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;
bool g_log_forks = false;
bool g_use_posix_spawn = false; //will usually be set to true
/**
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.
*/
bool new_scope;
/**
Does this node contain any variables which are exported to subshells
*/
bool exportv;
/**
Pointer to next level
*/
struct env_node_t *next;
env_node_t() : new_scope(false), exportv(false), next(NULL) { }
/* Returns a pointer to the given entry if present, or NULL. */
const var_entry_t *find_entry(const wcstring &key);
/* Returns the next scope to search in order, respecting the new_scope flag, or NULL if we're done. */
env_node_t *next_scope_to_search(void);
};
class variable_entry_t
{
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 = NULL;
/** Bottom node on the function stack */
static env_node_t *global_env = NULL;
/**
Table for global variables
*/
static var_table_t *global;
/* Helper class for storing constant strings, without needing to wrap them in a wcstring */
/* Comparer for const string set */
struct const_string_set_comparer
{
bool operator()(const wchar_t *a, const wchar_t *b)
{
return wcscmp(a, b) < 0;
}
};
typedef std::set<const wchar_t *, const_string_set_comparer> const_string_set_t;
/** Table of variables that may not be set using the set command. */
static const_string_set_t env_read_only;
static bool is_read_only(const wcstring &key)
{
return env_read_only.find(key.c_str()) != env_read_only.end();
}
/**
Table of variables whose value is dynamically calculated, such as umask, status, etc
*/
static const_string_set_t env_electric;
static bool is_electric(const wcstring &key)
{
return env_electric.find(key.c_str()) != env_electric.end();
}
/**
Exported variable array used by execv
*/
static null_terminated_array_t<char> export_array;
/**
Flag for checking if we need to regenerate the exported variable
array
*/
static bool has_changed_exported = true;
static void mark_changed_exported()
{
has_changed_exported = true;
}
/**
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
};
const var_entry_t *env_node_t::find_entry(const wcstring &key)
{
const var_entry_t *result = NULL;
var_table_t::const_iterator where = env.find(key);
if (where != env.end())
{
result = &where->second;
}
return result;
}
env_node_t *env_node_t::next_scope_to_search(void)
{
return this->new_scope ? global_env : this->next;
}
/**
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);
/* Prefer the fishd in __fish_bin_dir, if exists */
const env_var_t bin_dir = env_get_string(L"__fish_bin_dir");
if (! bin_dir.missing_or_empty())
{
wcstring path = bin_dir + L"/fishd";
if (waccess(path, X_OK) == 0)
{
/* The path command just looks like 'fishd', so insert the bin path to make it absolute */
cmd.insert(0, bin_dir + L"/");
}
}
parser_t &parser = parser_t::principal_parser();
parser.eval(cmd, io_chain_t(), 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");
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 (int 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++;
fish_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_react_to_color_change();
}
else if (string_prefixes_string(L"fish_color_", key))
{
reader_react_to_color_change();
}
}
/**
Universal variable callback function. This function makes sure the
proper events are triggered when an event occurs.
*/
static void universal_callback(fish_message_type_t type,
const wchar_t *name,
const wchar_t *val)
{
const wchar_t *str = NULL;
switch (type)
{
case SET:
case SET_EXPORT:
{
str=L"SET";
break;
}
case ERASE:
{
str=L"ERASE";
break;
}
default:
break;
}
if (str)
{
mark_changed_exported();
event_t ev = event_t::variable_event(name);
ev.arguments.push_back(L"VARIABLE");
ev.arguments.push_back(str);
ev.arguments.push_back(name);
event_fire(&ev);
}
if (name)
react_to_variable_change(name);
}
/**
Make sure the PATH variable contains something
*/
static void setup_path()
{
const env_var_t path = env_get_string(L"PATH");
if (path.missing_or_empty())
{
const wchar_t *value = L"/usr/bin" ARRAY_SEP_STR L"/bin";
env_set(L"PATH", value, ENV_GLOBAL | ENV_EXPORT);
}
}
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;
}
wcstring env_get_pwd_slash(void)
{
env_var_t pwd = env_get_string(L"PWD");
if (pwd.missing_or_empty())
{
return L"";
}
if (! string_suffixes_string(L"/", pwd))
{
pwd.push_back(L'/');
}
return pwd;
}
/**
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());
if (pw->pw_name != NULL)
{
const wcstring wide_name = str2wcstring(pw->pw_name);
env_set(L"USER", wide_name.c_str(), ENV_GLOBAL);
}
}
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);
if (pw->pw_dir != NULL)
{
const wcstring dir = str2wcstring(pw->pw_dir);
env_set(L"HOME", dir.c_str(), ENV_GLOBAL);
}
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 wcstring &key)
{
if (key == L"DISPLAY")
{
return false;
}
else
{
return true;
}
}
void env_init(const struct config_paths_t *paths /* or NULL */)
{
/*
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",
L"FISH_VERSION",
};
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 (char **p = (environ ? environ : __environ); p && *p; p++)
{
const wcstring key_and_val = str2wcstring(*p); //like foo=bar
size_t eql = key_and_val.find(L'=');
if (eql == wcstring::npos)
{
// no equals found
env_set(key_and_val, L"", ENV_EXPORT);
}
else
{
wcstring key = key_and_val.substr(0, eql);
wcstring val = key_and_val.substr(eql + 1);
if (variable_can_be_array(val))
{
std::replace(val.begin(), val.end(), L':', ARRAY_SEP);
}
env_set(key, val.c_str(), ENV_EXPORT | ENV_GLOBAL);
}
}
/* Set the given paths in the environment, if we have any */
if (paths != NULL)
{
env_set(FISH_DATADIR_VAR, paths->data.c_str(), ENV_GLOBAL | ENV_EXPORT);
env_set(FISH_SYSCONFDIR_VAR, paths->sysconf.c_str(), ENV_GLOBAL | ENV_EXPORT);
env_set(FISH_HELPDIR_VAR, paths->doc.c_str(), ENV_GLOBAL | ENV_EXPORT);
env_set(FISH_BIN_DIR, paths->bin.c_str(), ENV_GLOBAL | ENV_EXPORT);
}
/*
Set up the PATH variable
*/
setup_path();
/*
Set up the USER variable
*/
const struct passwd *pw = getpwuid(getuid());
if (pw && pw->pw_name)
{
const wcstring uname = str2wcstring(pw->pw_name);
env_set(L"USER", uname.c_str(), ENV_GLOBAL | ENV_EXPORT);
}
/*
Set up the version variables
*/
wcstring version = str2wcstring(get_fish_version());
env_set(L"version", version.c_str(), ENV_GLOBAL);
env_set(L"FISH_VERSION", version.c_str(), ENV_GLOBAL);
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<wchar_t*>(fishd_dir_wstr.c_str());
wchar_t * user_dir = user_dir_wstr.missing()?NULL:const_cast<wchar_t*>(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");
wcstring nshlvl_str = L"1";
if (! shlvl_str.missing())
{
long shlvl_i = wcstol(shlvl_str.c_str(), NULL, 10);
if (shlvl_i >= 0)
{
nshlvl_str = to_string<long>(shlvl_i + 1);
}
}
env_set(L"SHLVL", nshlvl_str.c_str(), ENV_GLOBAL | ENV_EXPORT);
/* Set correct defaults for e.g. USER and HOME variables */
env_set_defaults();
/* Set g_log_forks */
env_var_t log_forks = env_get_string(L"fish_log_forks");
g_log_forks = ! log_forks.missing_or_empty() && from_string<bool>(log_forks);
/* Set g_use_posix_spawn. Default to true. */
env_var_t use_posix_spawn = env_get_string(L"fish_use_posix_spawn");
g_use_posix_spawn = (use_posix_spawn.missing_or_empty() ? true : from_string<bool>(use_posix_spawn));
/* Set fish_bind_mode to "default" */
env_set(FISH_BIND_MODE_VAR, DEFAULT_BIND_MODE, ENV_GLOBAL);
}
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)
{
const var_entry_t &entry = iter->second;
if (entry.exportv)
{
mark_changed_exported();
break;
}
}
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)
{
env_node_t *env = top;
while (env != NULL)
{
if (env->find_entry(key) != NULL)
{
break;
}
env = env->next_scope_to_search();
}
return env;
}
int env_set(const wcstring &key, const wchar_t *val, int var_mode)
{
ASSERT_IS_MAIN_THREAD();
bool has_changed_old = has_changed_exported;
bool has_changed_new = false;
int done=0;
int is_universal = 0;
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 (key == L"umask")
{
wchar_t *end;
/*
Set the new umask
*/
if (val && wcslen(val))
{
errno=0;
long 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)
{
bool exportv;
if (var_mode & ENV_EXPORT)
{
// export
exportv = true;
}
else if (var_mode & ENV_UNEXPORT)
{
// unexport
exportv = false;
}
else
{
// not changing the export
exportv = env_universal_get_export(key);
}
env_universal_set(key, val, exportv);
is_universal = 1;
}
else
{
// Determine the node
env_node_t *preexisting_node = env_get_node(key);
bool preexisting_entry_exportv = false;
if (preexisting_node != NULL)
{
var_table_t::const_iterator result = preexisting_node->env.find(key);
assert(result != preexisting_node->env.end());
const var_entry_t &entry = result->second;
if (entry.exportv)
{
preexisting_entry_exportv = true;
has_changed_new = true;
}
}
env_node_t *node = NULL;
if (var_mode & ENV_GLOBAL)
{
node = global_env;
}
else if (var_mode & ENV_LOCAL)
{
node = top;
}
else if (preexisting_node != NULL)
{
node = preexisting_node;
if ((var_mode & (ENV_EXPORT | ENV_UNEXPORT)) == 0)
{
// use existing entry's exportv
var_mode = preexisting_entry_exportv ? ENV_EXPORT : 0;
}
}
else
{
if (! get_proc_had_barrier())
{
set_proc_had_barrier(true);
env_universal_barrier();
}
if (! env_universal_get(key).missing())
{
bool exportv;
if (var_mode & ENV_EXPORT)
{
exportv = true;
}
else if (var_mode & ENV_UNEXPORT)
{
exportv = false;
}
else
{
exportv = env_universal_get_export(key);
}
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)
{
// Set the entry in the node
// Note that operator[] accesses the existing entry, or creates a new one
var_entry_t &entry = node->env[key];
if (entry.exportv)
{
// this variable already existed, and was exported
has_changed_new = true;
}
entry.val = val;
if (var_mode & ENV_EXPORT)
{
// the new variable is exported
entry.exportv = true;
node->exportv = true;
has_changed_new = true;
}
else
{
entry.exportv = false;
}
if (has_changed_old || has_changed_new)
mark_changed_exported();
}
}
if (!is_universal)
{
event_t ev = event_t::variable_event(key);
ev.arguments.reserve(3);
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" );
}
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 bool try_remove(env_node_t *n, const wchar_t *key, int var_mode)
{
if (n == NULL)
{
return false;
}
var_table_t::iterator result = n->env.find(key);
if (result != n->env.end())
{
if (result->second.exportv)
{
mark_changed_exported();
}
n->env.erase(result);
return true;
}
if (var_mode & ENV_LOCAL)
{
return false;
}
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.push_back(L"VARIABLE");
ev.arguments.push_back(L"ERASE");
ev.arguments.push_back(key);
event_fire(&ev);
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;
}
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)
{
/* Big hack...we only allow getting the history on the main thread. Note that history_t may ask for an environment variable, so don't take the lock here (we don't need it) */
const bool is_main = is_main_thread();
if (key == L"history" && is_main)
{
env_var_t result;
history_t *history = reader_get_history();
if (! history)
{
history = &history_t::history_with_name(L"fish");
}
if (history)
history->get_string_representation(result, ARRAY_SEP_STR);
return result;
}
else if (key == L"COLUMNS")
{
return to_string(common_get_width());
}
else if (key == L"LINES")
{
return to_string(common_get_height());
}
else if (key == L"status")
{
return to_string(proc_get_last_status());
}
else if (key == L"umask")
{
return format_string(L"0%0.3o", get_umask());
}
else
{
{
/* Lock around a local region */
scoped_lock lock(env_lock);
env_node_t *env = top;
wcstring result;
while (env != NULL)
{
const var_entry_t *entry = env->find_entry(key);
if (entry != NULL)
{
if (entry->val == ENV_NULL)
{
return env_var_t::missing_var();
}
else
{
return entry->val;
}
}
env = env->next_scope_to_search();
}
}
/* Another big hack - only do a universal barrier on the main thread (since it can change variable values)
Make sure we do this outside the env_lock because it may itself call env_get_string */
if (is_main && ! get_proc_had_barrier())
{
set_proc_had_barrier(true);
env_universal_barrier();
}
env_var_t item = env_universal_get(key);
if (item.missing() || (wcscmp(item.c_str(), ENV_NULL)==0))
{
return env_var_t::missing_var();
}
else
{
return item;
}
}
}
bool env_exist(const wchar_t *key, int mode)
{
env_node_t *env;
CHECK(key, false);
/*
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))
{
//Such variables are never exported
if (mode & ENV_EXPORT)
{
return false;
}
else if (mode & ENV_UNEXPORT)
{
return true;
}
return true;
}
}
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())
{
const var_entry_t &res = result->second;
if (mode & ENV_EXPORT)
{
return res.exportv;
}
else if (mode & ENV_UNEXPORT)
{
return ! res.exportv;
}
return true;
}
if (mode & ENV_LOCAL)
break;
env = env->next_scope_to_search();
}
}
if (!(mode & ENV_LOCAL) && !(mode & ENV_GLOBAL))
{
if (! get_proc_had_barrier())
{
set_proc_had_barrier(true);
env_universal_barrier();
}
if (! env_universal_get(key).missing())
{
if (mode & ENV_EXPORT)
{
return env_universal_get_export(key) == 1;
}
else if (mode & ENV_UNEXPORT)
{
return env_universal_get_export(key) == 0;
}
return 1;
}
}
return 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(bool new_scope)
{
env_node_t *node = new env_node_t;
node->next = top;
node->new_scope=new_scope;
if (new_scope)
{
if (local_scope_exports(top))
mark_changed_exported();
}
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)
{
if (killme->exportv || local_scope_exports(killme->next))
mark_changed_exported();
}
top = top->next;
var_table_t::iterator iter;
for (iter = killme->env.begin(); iter != killme->env.end(); ++iter)
{
const var_entry_t &entry = iter->second;
if (entry.exportv)
{
mark_changed_exported();
break;
}
}
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<wcstring>
*/
static void add_key_to_string_set(const var_table_t &envs, std::set<wcstring> *str_set, bool show_exported, bool show_unexported)
{
var_table_t::const_iterator iter;
for (iter = envs.begin(); iter != envs.end(); ++iter)
{
const var_entry_t &e = iter->second;
if ((e.exportv && show_exported) ||
(!e.exportv && show_unexported))
{
/* Insert this key */
str_set->insert(iter->first);
}
}
}
wcstring_list_t env_get_names(int flags)
{
scoped_lock lock(env_lock);
wcstring_list_t result;
std::set<wcstring> names;
int show_local = flags & ENV_LOCAL;
int show_global = flags & ENV_GLOBAL;
int show_universal = flags & ENV_UNIVERSAL;
env_node_t *n=top;
const bool show_exported = (flags & ENV_EXPORT) || !(flags & ENV_UNEXPORT);
const bool 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, show_exported, show_unexported);
if (n->new_scope)
break;
else
n = n->next;
}
}
if (show_global)
{
add_key_to_string_set(global_env->env, &names, show_exported, show_unexported);
if (show_unexported)
{
result.insert(result.end(), env_electric.begin(), env_electric.end());
}
if (show_exported)
{
result.push_back(L"COLUMNS");
result.push_back(L"LINES");
}
}
if (show_universal)
{
wcstring_list_t uni_list;
env_universal_get_names(uni_list,
show_exported,
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<wcstring, wcstring> &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;
const var_entry_t &val_entry = iter->second;
if (val_entry.exportv && (val_entry.val != ENV_NULL))
{
// Don't use std::map::insert here, since we need to overwrite existing values from previous scopes
h[key] = val_entry.val;
}
}
}
static void export_func(const std::map<wcstring, wcstring> &envs, std::vector<std::string> &out)
{
std::map<wcstring, wcstring>::const_iterator iter;
for (iter = envs.begin(); iter != envs.end(); ++iter)
{
const std::string ks = wcs2string(iter->first);
std::string vs = wcs2string(iter->second);
for (size_t i=0; i < vs.size(); i++)
{
char &vc = vs.at(i);
if (vc == ARRAY_SEP)
vc = ':';
}
/* Put a string on the vector */
out.push_back(std::string());
std::string &str = out.back();
str.reserve(ks.size() + 1 + vs.size());
/* Append our environment variable data to it */
str.append(ks);
str.append("=");
str.append(vs);
}
}
static void update_export_array_if_necessary(bool recalc)
{
ASSERT_IS_MAIN_THREAD();
if (recalc && ! get_proc_had_barrier())
{
set_proc_had_barrier(true);
env_universal_barrier();
}
if (has_changed_exported)
{
std::map<wcstring, wcstring> vals;
size_t i;
debug(4, L"env_export_arr() recalc");
get_exported(top, vals);
wcstring_list_t uni;
env_universal_get_names(uni, 1, 0);
for (i=0; i<uni.size(); i++)
{
const wcstring &key = uni.at(i);
const env_var_t val = env_universal_get(key);
if (! val.missing() && wcscmp(val.c_str(), ENV_NULL))
{
// Note that std::map::insert does NOT overwrite a value already in the map,
// which we depend on here
vals.insert(std::pair<wcstring, wcstring>(key, val));
}
}
std::vector<std::string> local_export_buffer;
export_func(vals, local_export_buffer);
export_array.set(local_export_buffer);
has_changed_exported=false;
}
}
const char * const *env_export_arr(bool recalc)
{
ASSERT_IS_MAIN_THREAD();
update_export_array_if_necessary(recalc);
return export_array.get();
}
env_vars_snapshot_t::env_vars_snapshot_t(const wchar_t * const *keys)
{
ASSERT_IS_MAIN_THREAD();
wcstring key;
for (size_t i=0; keys[i]; i++)
{
key.assign(keys[i]);
const env_var_t val = env_get_string(key);
if (! val.missing())
{
vars[key] = val;
}
}
}
env_vars_snapshot_t::env_vars_snapshot_t() { }
/* The "current" variables are not a snapshot at all, but instead trampoline to env_get_string, etc. We identify the current snapshot based on pointer values. */
static const env_vars_snapshot_t sCurrentSnapshot;
const env_vars_snapshot_t &env_vars_snapshot_t::current()
{
return sCurrentSnapshot;
}
bool env_vars_snapshot_t::is_current() const
{
return this == &sCurrentSnapshot;
}
env_var_t env_vars_snapshot_t::get(const wcstring &key) const
{
/* If we represent the current state, bounce to env_get_string */
if (this->is_current())
{
return env_get_string(key);
}
else
{
std::map<wcstring, wcstring>::const_iterator iter = vars.find(key);
return (iter == vars.end() ? env_var_t::missing_var() : env_var_t(iter->second));
}
}
const wchar_t * const env_vars_snapshot_t::highlighting_keys[] = {L"PATH", L"CDPATH", L"fish_function_path", NULL};
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