Bash is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by
- the Free Software Foundation; either version 1, or (at your option)
+ the Free Software Foundation; either version 2, or (at your option)
any later version.
Bash is distributed in the hope that it will be useful, but WITHOUT
You should have received a copy of the GNU General Public License
along with Bash; see the file COPYING. If not, write to the Free
- Software Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. */
-#if defined (AIX) && defined (RISC6000) && !defined (__GNUC__)
+ Software Foundation, 59 Temple Place, Suite 330, Boston, MA 02111 USA. */
+#include "config.h"
+
+#if !defined (__GNUC__) && !defined (HAVE_ALLOCA_H) && defined (_AIX)
#pragma alloca
-#endif /* AIX && RISC6000 && !__GNUC__ */
+#endif /* _AIX && RISC6000 && !__GNUC__ */
#include <stdio.h>
#include <ctype.h>
#include "bashtypes.h"
-#include <sys/file.h>
+#ifndef _MINIX
+# include <sys/file.h>
+#endif
#include "filecntl.h"
#include "posixstat.h"
#include <signal.h>
+#ifndef _MINIX
+# include <sys/param.h>
+#endif
+
+#if defined (HAVE_UNISTD_H)
+# include <unistd.h>
+#endif
+
+#if defined (HAVE_LIMITS_H)
+# include <limits.h>
+#endif
+
+#include "posixtime.h"
-#if !defined (SIGABRT)
-#define SIGABRT SIGIOT
+#if defined (HAVE_SYS_RESOURCE_H) && !defined (RLIMTYPE)
+# include <sys/resource.h>
+#endif
+
+#if defined (HAVE_SYS_TIMES_H) && defined (HAVE_TIMES)
+# include <sys/times.h>
#endif
-#include <sys/param.h>
#include <errno.h>
#if !defined (errno)
extern int errno;
#endif
-#if defined (HAVE_STRING_H)
-# include <string.h>
-#else /* !HAVE_STRING_H */
-# include <strings.h>
-#endif /* !HAVE_STRING_H */
+#include "bashansi.h"
+#include "memalloc.h"
#include "shell.h"
-#include "y.tab.h"
+#include <y.tab.h> /* use <...> so we pick it up from the build directory */
#include "flags.h"
-#include "hash.h"
+#include "builtins.h"
+#include "hashlib.h"
#include "jobs.h"
#include "execute_cmd.h"
+#include "findcmd.h"
+#include "redir.h"
+#include "trap.h"
+#include "pathexp.h"
+#include "hashcmd.h"
+
+#if defined (COND_COMMAND)
+# include "test.h"
+#endif
-#include "sysdefs.h"
#include "builtins/common.h"
#include "builtins/builtext.h" /* list of builtins */
# include "input.h"
#endif
+#if defined (ALIAS)
+# include "alias.h"
+#endif
+
+#if defined (HISTORY)
+# include "bashhist.h"
+#endif
+
extern int posixly_correct;
-extern int breaking, continuing, loop_level;
-extern int interactive, interactive_shell, login_shell;
-extern int parse_and_execute_level;
+extern int executing, breaking, continuing, loop_level;
+extern int interactive, interactive_shell, login_shell, expand_aliases;
+extern int parse_and_execute_level, running_trap, trap_line_number;
extern int command_string_index, variable_context, line_number;
extern int dot_found_in_search;
+extern int already_making_children;
extern char **temporary_env, **function_env, **builtin_env;
extern char *the_printed_command, *shell_name;
extern pid_t last_command_subst_pid;
extern Function *last_shell_builtin, *this_shell_builtin;
-extern jmp_buf top_level, subshell_top_level;
-extern int subshell_argc;
extern char **subshell_argv, **subshell_envp;
-extern int already_making_children;
+extern int subshell_argc;
+extern char *glob_argv_flags;
extern int getdtablesize ();
extern int close ();
/* Static functions defined and used in this file. */
-static void close_pipes (), do_piping (), execute_disk_command ();
+static void close_pipes (), do_piping (), bind_lastarg ();
+static void cleanup_redirects ();
+
+static int execute_for_command ();
+#if defined (SELECT_COMMAND)
+static int execute_select_command ();
+#endif
+#if defined (DPAREN_ARITHMETIC)
+static int execute_arith_command ();
+#endif
+#if defined (COND_COMMAND)
+static int execute_cond_command ();
+#endif
+#if defined (COMMAND_TIMING)
+static int time_command ();
+#endif
+#if defined (ARITH_FOR_COMMAND)
+static int execute_arith_for_command ();
+#endif
+static int execute_case_command ();
+static int execute_while_command (), execute_until_command ();
+static int execute_while_or_until ();
+static int execute_if_command ();
+static int execute_simple_command ();
+static int execute_builtin (), execute_function ();
+static int execute_builtin_or_function ();
+static int builtin_status ();
static void execute_subshell_builtin_or_function ();
-static void cleanup_redirects (), cleanup_func_redirects (), bind_lastarg ();
-static void add_undo_close_redirect (), add_exec_redirect ();
-static int do_redirection_internal (), do_redirections ();
-static int expandable_redirection_filename (), execute_shell_script ();
-static int execute_builtin_or_function (), add_undo_redirect ();
-static char *find_user_command_internal (), *find_user_command_in_path ();
+static void execute_disk_command ();
+static int execute_connection ();
+static int execute_intern_function ();
+
+static int execute_in_subshell ();
/* The line number that the currently executing function starts on. */
-static int function_line_number = 0;
+static int function_line_number;
-/* Set to 1 if fd 0 was the subject of redirection to a subshell. */
-static int stdin_redir = 0;
+/* Set to 1 if fd 0 was the subject of redirection to a subshell. Global
+ so that reader_loop can set it to zero before executing a command. */
+int stdin_redir;
/* The name of the command that is currently being executed.
`test' needs this, for example. */
char *this_command_name;
+static COMMAND *currently_executing_command;
+
struct stat SB; /* used for debugging */
-static REDIRECTEE rd;
+static int special_builtin_failed;
/* For catching RETURN in a function. */
-int return_catch_flag = 0;
+int return_catch_flag;
int return_catch_value;
-jmp_buf return_catch;
+procenv_t return_catch;
/* The value returned by the last synchronous command. */
-int last_command_exit_value = 0;
+int last_command_exit_value;
/* The list of redirections to perform which will undo the redirections
that I made in the shell. */
/* Non-zero if we have just forked and are currently running in a subshell
environment. */
-int subshell_environment = 0;
+int subshell_environment;
+
+/* Currently-executing shell function. */
+SHELL_VAR *this_shell_function;
struct fd_bitmap *current_fds_to_close = (struct fd_bitmap *)NULL;
-#define FD_BITMAP_DEFAULT_SIZE 32
+#define FD_BITMAP_DEFAULT_SIZE 32L
+
/* Functions to allocate and deallocate the structures used to pass
information from the shell to its children about file descriptors
to close. */
}
}
+/* Return the line number of the currently executing command. */
+int
+executing_line_number ()
+{
+ if (executing && variable_context == 0 && currently_executing_command &&
+ currently_executing_command->type == cm_simple)
+ return currently_executing_command->value.Simple->line;
+ else if (running_trap)
+ return trap_line_number;
+ else
+ return line_number;
+}
+
/* Execute the command passed in COMMAND. COMMAND is exactly what
read_command () places into GLOBAL_COMMAND. See "command.h" for the
details of the command structure.
EXECUTION_SUCCESS or EXECUTION_FAILURE are the only possible
return values. Executing a command with nothing in it returns
EXECUTION_SUCCESS. */
+int
execute_command (command)
COMMAND *command;
{
discard_unwind_frame ("execute-command");
#if defined (PROCESS_SUBSTITUTION)
- unlink_fifo_list ();
+ /* don't unlink fifos if we're in a shell function; wait until the function
+ returns. */
+ if (variable_context == 0)
+ unlink_fifo_list ();
#endif /* PROCESS_SUBSTITUTION */
return (result);
switch (type)
{
case cm_for:
+#if defined (ARITH_FOR_COMMAND)
+ case cm_arith_for:
+#endif
#if defined (SELECT_COMMAND)
case cm_select:
#endif
+#if defined (DPAREN_ARITHMETIC)
+ case cm_arith:
+#endif
+#if defined (COND_COMMAND)
+ case cm_cond:
+#endif
case cm_case:
case cm_while:
case cm_until:
dispose_redirects (list);
}
+#if 0
/* Function to unwind_protect the redirections for functions and builtins. */
static void
cleanup_func_redirects (list)
{
do_redirections (list, 1, 0, 0);
}
+#endif
-static void
+void
dispose_exec_redirects ()
{
if (exec_redirection_undo_list)
fd_table_size = getdtablesize ();
- fprintf (stderr, "pid %d open files:", getpid ());
+ fprintf (stderr, "pid %d open files:", (int)getpid ());
for (i = 3; i < fd_table_size; i++)
{
if ((f = fcntl (i, F_GETFD, 0)) != -1)
fprintf (stderr, "\n");
}
-#define DESCRIBE_PID(pid) if (interactive) describe_pid (pid)
+static void
+async_redirect_stdin ()
+{
+ int fd;
+
+ fd = open ("/dev/null", O_RDONLY);
+ if (fd > 0)
+ {
+ dup2 (fd, 0);
+ close (fd);
+ }
+ else if (fd < 0)
+ internal_error ("cannot redirect standard input from /dev/null: %s", strerror (errno));
+}
+
+#define DESCRIBE_PID(pid) do { if (interactive) describe_pid (pid); } while (0)
/* Execute the command passed in COMMAND, perhaps doing it asynchrounously.
COMMAND is exactly what read_command () places into GLOBAL_COMMAND.
EXECUTION_SUCCESS or EXECUTION_FAILURE are the only possible
return values. Executing a command with nothing in it returns
EXECUTION_SUCCESS. */
-execute_command_internal (command, asynchronous, pipe_in, pipe_out,
+int
+execute_command_internal (command, asynchronous, pipe_in, pipe_out,
fds_to_close)
COMMAND *command;
int asynchronous;
int pipe_in, pipe_out;
struct fd_bitmap *fds_to_close;
{
- int exec_result = EXECUTION_SUCCESS;
- int invert, ignore_return;
+ int exec_result, invert, ignore_return, was_debug_trap;
REDIRECT *my_undo_list, *exec_undo_list;
+ volatile pid_t last_pid;
- if (!command || breaking || continuing)
+ if (command == 0 || breaking || continuing || read_but_dont_execute)
return (EXECUTION_SUCCESS);
run_pending_traps ();
+ if (running_trap == 0)
+ currently_executing_command = command;
+
invert = (command->flags & CMD_INVERT_RETURN) != 0;
+ /* If we're inverting the return value and `set -e' has been executed,
+ we don't want a failing command to inadvertently cause the shell
+ to exit. */
+ if (exit_immediately_on_error && invert) /* XXX */
+ command->flags |= CMD_IGNORE_RETURN; /* XXX */
+
+ exec_result = EXECUTION_SUCCESS;
+
/* If a command was being explicitly run in a subshell, or if it is
a shell control-structure, and it has a pipe, then we do the command
in a subshell. */
+ if (command->type == cm_subshell && (command->flags & CMD_NO_FORK))
+ return (execute_in_subshell (command, asynchronous, pipe_in, pipe_out, fds_to_close));
- if ((command->flags & CMD_WANT_SUBSHELL) ||
- (command->flags & CMD_FORCE_SUBSHELL) ||
+ if (command->type == cm_subshell ||
+ (command->flags & (CMD_WANT_SUBSHELL|CMD_FORCE_SUBSHELL)) ||
(shell_control_structure (command->type) &&
(pipe_out != NO_PIPE || pipe_in != NO_PIPE || asynchronous)))
{
paren_pid = make_child (savestring (make_command_string (command)),
asynchronous);
if (paren_pid == 0)
- {
- int user_subshell, return_code, function_value;
-
- /* Cancel traps, in trap.c. */
- restore_original_signals ();
- if (asynchronous)
- setup_async_signals ();
-
-#if defined (JOB_CONTROL)
- set_sigchld_handler ();
-#endif /* JOB_CONTROL */
-
- set_sigint_handler ();
-
- user_subshell = (command->flags & CMD_WANT_SUBSHELL) != 0;
- command->flags &= ~(CMD_FORCE_SUBSHELL | CMD_WANT_SUBSHELL | CMD_INVERT_RETURN);
-
- /* If a command is asynchronous in a subshell (like ( foo ) & or
- the special case of an asynchronous GROUP command where the
- the subshell bit is turned on down in case cm_group: below),
- turn off `asynchronous', so that two subshells aren't spawned.
-
- This seems semantically correct to me. For example,
- ( foo ) & seems to say ``do the command `foo' in a subshell
- environment, but don't wait for that subshell to finish'',
- and "{ foo ; bar } &" seems to me to be like functions or
- builtins in the background, which executed in a subshell
- environment. I just don't see the need to fork two subshells. */
-
- /* Don't fork again, we are already in a subshell. A `doubly
- async' shell is not interactive, however. */
- if (asynchronous)
- {
-#if defined (JOB_CONTROL)
- /* If a construct like ( exec xxx yyy ) & is given while job
- control is active, we want to prevent exec from putting the
- subshell back into the original process group, carefully
- undoing all the work we just did in make_child. */
- original_pgrp = -1;
-#endif /* JOB_CONTROL */
- interactive_shell = 0;
- asynchronous = 0;
- }
-
- /* Subshells are neither login nor interactive. */
- login_shell = interactive = 0;
-
- subshell_environment = 1;
-
-#if defined (JOB_CONTROL)
- /* Delete all traces that there were any jobs running. This is
- only for subshells. */
- without_job_control ();
-#endif /* JOB_CONTROL */
- do_piping (pipe_in, pipe_out);
-
- /* If this is a user subshell, set a flag if stdin was redirected.
- This is used later to decide whether to redirect fd 0 to
- /dev/null for async commands in the subshell. This adds more
- sh compatibility, but I'm not sure it's the right thing to do. */
- if (user_subshell)
- {
- REDIRECT *r;
-
- for (r = command->redirects; r; r = r->next)
- switch (r->instruction)
- {
- case r_input_direction:
- case r_inputa_direction:
- case r_input_output:
- case r_reading_until:
- case r_deblank_reading_until:
- stdin_redir++;
- break;
- case r_duplicating_input:
- case r_duplicating_input_word:
- case r_close_this:
- if (r->redirector == 0)
- stdin_redir++;
- break;
- }
- }
-
- if (fds_to_close)
- close_fd_bitmap (fds_to_close);
-
- /* Do redirections, then dispose of them before recursive call. */
- if (command->redirects)
- {
- if (do_redirections (command->redirects, 1, 0, 0) != 0)
- exit (EXECUTION_FAILURE);
-
- dispose_redirects (command->redirects);
- command->redirects = (REDIRECT *)NULL;
- }
-
- /* If this is a simple command, tell execute_disk_command that it
- might be able to get away without forking and simply exec.
- This means things like ( sleep 10 ) will only cause one fork. */
- if (user_subshell && command->type == cm_simple)
- {
- command->flags |= CMD_NO_FORK;
- command->value.Simple->flags |= CMD_NO_FORK;
- }
-
- /* If we're inside a function while executing this subshell, we
- need to handle a possible `return'. */
- function_value = 0;
- if (return_catch_flag)
- function_value = setjmp (return_catch);
-
- if (function_value)
- return_code = return_catch_value;
- else
- return_code = execute_command_internal
- (command, asynchronous, NO_PIPE, NO_PIPE, fds_to_close);
-
- /* If we were explicitly placed in a subshell with (), we need
- to do the `shell cleanup' things, such as running traps[0]. */
- if (user_subshell && signal_is_trapped (0))
- {
- last_command_exit_value = return_code;
- return_code = run_exit_trap ();
- }
-
- exit (return_code);
- }
+ exit (execute_in_subshell (command, asynchronous, pipe_in, pipe_out, fds_to_close));
+ /* NOTREACHED */
else
{
close_pipes (pipe_in, pipe_out);
/* If we are part of a pipeline, and not the end of the pipeline,
then we should simply return and let the last command in the
pipe be waited for. If we are not in a pipeline, or are the
- last command in the pipeline, then we wait for the subshell
+ last command in the pipeline, then we wait for the subshell
and return its exit status as usual. */
if (pipe_out != NO_PIPE)
return (EXECUTION_SUCCESS);
stop_pipeline (asynchronous, (COMMAND *)NULL);
- if (!asynchronous)
+ if (asynchronous == 0)
{
last_command_exit_value = wait_for (paren_pid);
/* If we have to, invert the return value. */
if (invert)
- {
- if (last_command_exit_value == EXECUTION_SUCCESS)
- return (EXECUTION_FAILURE);
- else
- return (EXECUTION_SUCCESS);
- }
+ exec_result = ((last_command_exit_value == EXECUTION_SUCCESS)
+ ? EXECUTION_FAILURE
+ : EXECUTION_SUCCESS);
else
- return (last_command_exit_value);
+ exec_result = last_command_exit_value;
+
+ return (last_command_exit_value = exec_result);
}
else
{
}
}
+#if defined (COMMAND_TIMING)
+ if (command->flags & CMD_TIME_PIPELINE)
+ {
+ if (asynchronous)
+ {
+ command->flags |= CMD_FORCE_SUBSHELL;
+ exec_result = execute_command_internal (command, 1, pipe_in, pipe_out, fds_to_close);
+ }
+ else
+ {
+ exec_result = time_command (command, asynchronous, pipe_in, pipe_out, fds_to_close);
+ if (running_trap == 0)
+ currently_executing_command = (COMMAND *)NULL;
+ }
+ return (exec_result);
+ }
+#endif /* COMMAND_TIMING */
+
+ if (shell_control_structure (command->type) && command->redirects)
+ stdin_redir = stdin_redirects (command->redirects);
+
/* Handle WHILE FOR CASE etc. with redirections. (Also '&' input
redirection.) */
if (do_redirections (command->redirects, 1, 1, 0) != 0)
switch (command->type)
{
+ case cm_simple:
+ {
+ /* We can't rely on this variable retaining its value across a
+ call to execute_simple_command if a longjmp occurs as the
+ result of a `return' builtin. This is true for sure with gcc. */
+ last_pid = last_made_pid;
+ was_debug_trap = signal_is_trapped (DEBUG_TRAP) && signal_is_ignored (DEBUG_TRAP) == 0;
+
+ if (ignore_return && command->value.Simple)
+ command->value.Simple->flags |= CMD_IGNORE_RETURN;
+ if (command->flags & CMD_STDIN_REDIR)
+ command->value.Simple->flags |= CMD_STDIN_REDIR;
+ exec_result =
+ execute_simple_command (command->value.Simple, pipe_in, pipe_out,
+ asynchronous, fds_to_close);
+
+ /* The temporary environment should be used for only the simple
+ command immediately following its definition. */
+ dispose_used_env_vars ();
+
+#if (defined (ultrix) && defined (mips)) || defined (C_ALLOCA)
+ /* Reclaim memory allocated with alloca () on machines which
+ may be using the alloca emulation code. */
+ (void) alloca (0);
+#endif /* (ultrix && mips) || C_ALLOCA */
+
+ /* If we forked to do the command, then we must wait_for ()
+ the child. */
+
+ /* XXX - this is something to watch out for if there are problems
+ when the shell is compiled without job control. */
+ if (already_making_children && pipe_out == NO_PIPE &&
+ last_pid != last_made_pid)
+ {
+ stop_pipeline (asynchronous, (COMMAND *)NULL);
+
+ if (asynchronous)
+ {
+ DESCRIBE_PID (last_made_pid);
+ }
+ else
+#if !defined (JOB_CONTROL)
+ /* Do not wait for asynchronous processes started from
+ startup files. */
+ if (last_made_pid != last_asynchronous_pid)
+#endif
+ /* When executing a shell function that executes other
+ commands, this causes the last simple command in
+ the function to be waited for twice. */
+ exec_result = wait_for (last_made_pid);
+#if defined (RECYCLES_PIDS)
+ /* LynxOS, for one, recycles pids very quickly -- so quickly
+ that a new process may have the same pid as the last one
+ created. This has been reported to fix the problem. */
+ if (exec_result == 0)
+ last_made_pid = NO_PID;
+#endif
+ }
+ }
+
+ if (was_debug_trap)
+ {
+ last_command_exit_value = exec_result;
+ run_debug_trap ();
+ }
+
+ if (ignore_return == 0 && invert == 0 &&
+ ((posixly_correct && interactive == 0 && special_builtin_failed) ||
+ (exit_immediately_on_error && (exec_result != EXECUTION_SUCCESS))))
+ {
+ last_command_exit_value = exec_result;
+ run_pending_traps ();
+ jump_to_top_level (EXITPROG);
+ }
+
+ break;
+
case cm_for:
if (ignore_return)
command->value.For->flags |= CMD_IGNORE_RETURN;
exec_result = execute_for_command (command->value.For);
break;
+#if defined (ARITH_FOR_COMMAND)
+ case cm_arith_for:
+ if (ignore_return)
+ command->value.ArithFor->flags |= CMD_IGNORE_RETURN;
+ exec_result = execute_arith_for_command (command->value.ArithFor);
+ break;
+#endif
+
#if defined (SELECT_COMMAND)
case cm_select:
if (ignore_return)
}
break;
- case cm_simple:
- {
- /* We can't rely on this variable retaining its value across a
- call to execute_simple_command if a longjmp occurs as the
- result of a `return' builtin. This is true for sure with gcc. */
- pid_t last_pid = last_made_pid;
-
- if (ignore_return && command->value.Simple)
- command->value.Simple->flags |= CMD_IGNORE_RETURN;
- exec_result =
- execute_simple_command (command->value.Simple, pipe_in, pipe_out,
- asynchronous, fds_to_close);
+ case cm_connection:
+ exec_result = execute_connection (command, asynchronous,
+ pipe_in, pipe_out, fds_to_close);
+ break;
- /* The temporary environment should be used for only the simple
- command immediately following its definition. */
- dispose_used_env_vars ();
+#if defined (DPAREN_ARITHMETIC)
+ case cm_arith:
+ if (ignore_return)
+ command->value.Arith->flags |= CMD_IGNORE_RETURN;
+ exec_result = execute_arith_command (command->value.Arith);
+ break;
+#endif
-#if (defined (Ultrix) && defined (mips)) || !defined (HAVE_ALLOCA)
- /* Reclaim memory allocated with alloca () on machines which
- may be using the alloca emulation code. */
- (void) alloca (0);
-#endif /* (Ultrix && mips) || !HAVE_ALLOCA */
+#if defined (COND_COMMAND)
+ case cm_cond:
+ if (ignore_return)
+ command->value.Cond->flags |= CMD_IGNORE_RETURN;
+ exec_result = execute_cond_command (command->value.Cond);
+ break;
+#endif
+
+ case cm_function_def:
+ exec_result = execute_intern_function (command->value.Function_def->name,
+ command->value.Function_def->command);
+ break;
- /* If we forked to do the command, then we must wait_for ()
- the child. */
+ default:
+ command_error ("execute_command", CMDERR_BADTYPE, command->type, 0);
+ }
- /* XXX - this is something to watch out for if there are problems
- when the shell is compiled without job control. */
- if (already_making_children && pipe_out == NO_PIPE &&
- last_pid != last_made_pid)
- {
- stop_pipeline (asynchronous, (COMMAND *)NULL);
+ if (my_undo_list)
+ {
+ do_redirections (my_undo_list, 1, 0, 0);
+ dispose_redirects (my_undo_list);
+ }
- if (asynchronous)
- {
- DESCRIBE_PID (last_made_pid);
- }
- else
-#if !defined (JOB_CONTROL)
- /* Do not wait for asynchronous processes started from
- startup files. */
- if (last_made_pid != last_asynchronous_pid)
-#endif
- /* When executing a shell function that executes other
- commands, this causes the last simple command in
- the function to be waited for twice. */
- exec_result = wait_for (last_made_pid);
- }
- }
+ if (exec_undo_list)
+ dispose_redirects (exec_undo_list);
- if (!ignore_return && exit_immediately_on_error && !invert &&
- (exec_result != EXECUTION_SUCCESS))
- {
- last_command_exit_value = exec_result;
- run_pending_traps ();
- longjmp (top_level, EXITPROG);
- }
+ if (my_undo_list || exec_undo_list)
+ discard_unwind_frame ("loop_redirections");
- break;
+ /* Invert the return value if we have to */
+ if (invert)
+ exec_result = (exec_result == EXECUTION_SUCCESS)
+ ? EXECUTION_FAILURE
+ : EXECUTION_SUCCESS;
- case cm_connection:
- switch (command->value.Connection->connector)
- {
- /* Do the first command asynchronously. */
- case '&':
- {
- COMMAND *tc = command->value.Connection->first;
- REDIRECT *rp;
+ last_command_exit_value = exec_result;
+ run_pending_traps ();
+ if (running_trap == 0)
+ currently_executing_command = (COMMAND *)NULL;
+ return (last_command_exit_value);
+}
- if (!tc)
- break;
+#if defined (COMMAND_TIMING)
- rp = tc->redirects;
+#if defined (HAVE_GETRUSAGE) && defined (HAVE_GETTIMEOFDAY)
+extern struct timeval *difftimeval();
+extern struct timeval *addtimeval();
+extern int timeval_to_cpu();
+#endif
- if (ignore_return && tc)
- tc->flags |= CMD_IGNORE_RETURN;
+#define POSIX_TIMEFORMAT "real %2R\nuser %2U\nsys %2S"
+#define BASH_TIMEFORMAT "\nreal\t%3lR\nuser\t%3lU\nsys\t%3lS"
- /* If this shell was compiled without job control support, if
- the shell is not running interactively, if we are currently
- in a subshell via `( xxx )', or if job control is not active
- then the standard input for an asynchronous command is
- forced to /dev/null. */
-#if defined (JOB_CONTROL)
- if ((!interactive_shell || subshell_environment || !job_control) &&
- !stdin_redir)
-#else
- if (!stdin_redir)
-#endif /* JOB_CONTROL */
- {
- REDIRECT *tr;
+static int precs[] = { 0, 100, 10, 1 };
- rd.filename = make_word ("/dev/null");
- tr = make_redirection (0, r_inputa_direction, rd);
- tr->next = tc->redirects;
- tc->redirects = tr;
+/* Expand one `%'-prefixed escape sequence from a time format string. */
+static int
+mkfmt (buf, prec, lng, sec, sec_fraction)
+ char *buf;
+ int prec, lng;
+ long sec;
+ int sec_fraction;
+{
+ long min;
+ char abuf[16];
+ int ind, aind;
+
+ ind = 0;
+ abuf[15] = '\0';
+
+ /* If LNG is non-zero, we want to decompose SEC into minutes and seconds. */
+ if (lng)
+ {
+ min = sec / 60;
+ sec %= 60;
+ aind = 14;
+ do
+ abuf[aind--] = (min % 10) + '0';
+ while (min /= 10);
+ aind++;
+ while (abuf[aind])
+ buf[ind++] = abuf[aind++];
+ buf[ind++] = 'm';
+ }
+
+ /* Now add the seconds. */
+ aind = 14;
+ do
+ abuf[aind--] = (sec % 10) + '0';
+ while (sec /= 10);
+ aind++;
+ while (abuf[aind])
+ buf[ind++] = abuf[aind++];
+
+ /* We want to add a decimal point and PREC places after it if PREC is
+ nonzero. PREC is not greater than 3. SEC_FRACTION is between 0
+ and 999. */
+ if (prec != 0)
+ {
+ buf[ind++] = '.';
+ for (aind = 1; aind <= prec; aind++)
+ {
+ buf[ind++] = (sec_fraction / precs[aind]) + '0';
+ sec_fraction %= precs[aind];
+ }
+ }
+
+ if (lng)
+ buf[ind++] = 's';
+ buf[ind] = '\0';
+
+ return (ind);
+}
+
+/* Interpret the format string FORMAT, interpolating the following escape
+ sequences:
+ %[prec][l][RUS]
+
+ where the optional `prec' is a precision, meaning the number of
+ characters after the decimal point, the optional `l' means to format
+ using minutes and seconds (MMmNN[.FF]s), like the `times' builtin',
+ and the last character is one of
+
+ R number of seconds of `real' time
+ U number of seconds of `user' time
+ S number of seconds of `system' time
+
+ An occurrence of `%%' in the format string is translated to a `%'. The
+ result is printed to FP, a pointer to a FILE. The other variables are
+ the seconds and thousandths of a second of real, user, and system time,
+ resectively. */
+static void
+print_formatted_time (fp, format, rs, rsf, us, usf, ss, ssf, cpu)
+ FILE *fp;
+ char *format;
+ long rs, us, ss;
+ int rsf, usf, ssf, cpu;
+{
+ int prec, lng, len;
+ char *str, *s, ts[32];
+ long sum;
+ int sum_frac;
+ int sindex, ssize;
+
+ len = strlen (format);
+ ssize = (len + 64) - (len % 64);
+ str = xmalloc (ssize);
+ sindex = 0;
+
+ for (s = format; *s; s++)
+ {
+ if (*s != '%' || s[1] == '\0')
+ {
+ RESIZE_MALLOCED_BUFFER (str, sindex, 1, ssize, 64);
+ str[sindex++] = *s;
+ }
+ else if (s[1] == '%')
+ {
+ s++;
+ RESIZE_MALLOCED_BUFFER (str, sindex, 1, ssize, 64);
+ str[sindex++] = *s;
+ }
+ else if (s[1] == 'P')
+ {
+ s++;
+ if (cpu > 10000)
+ cpu = 10000;
+ sum = cpu / 100;
+ sum_frac = (cpu % 100) * 10;
+ len = mkfmt (ts, 2, 0, sum, sum_frac);
+ RESIZE_MALLOCED_BUFFER (str, sindex, len, ssize, 64);
+ strcpy (str + sindex, ts);
+ sindex += len;
+ }
+ else
+ {
+ prec = 3; /* default is three places past the decimal point. */
+ lng = 0; /* default is to not use minutes or append `s' */
+ s++;
+ if (isdigit (*s)) /* `precision' */
+ {
+ prec = *s++ - '0';
+ if (prec > 3) prec = 3;
+ }
+ if (*s == 'l') /* `length extender' */
+ {
+ lng = 1;
+ s++;
+ }
+ if (*s == 'R' || *s == 'E')
+ len = mkfmt (ts, prec, lng, rs, rsf);
+ else if (*s == 'U')
+ len = mkfmt (ts, prec, lng, us, usf);
+ else if (*s == 'S')
+ len = mkfmt (ts, prec, lng, ss, ssf);
+ else
+ {
+ internal_error ("bad format character in time format: %c", *s);
+ free (str);
+ return;
}
+ RESIZE_MALLOCED_BUFFER (str, sindex, len, ssize, 64);
+ strcpy (str + sindex, ts);
+ sindex += len;
+ }
+ }
- exec_result = execute_command_internal
- (tc, 1, pipe_in, pipe_out, fds_to_close);
+ str[sindex] = '\0';
+ fprintf (fp, "%s\n", str);
+ fflush (fp);
-#if defined (JOB_CONTROL)
- if ((!interactive_shell || subshell_environment || !job_control) &&
- !stdin_redir)
+ free (str);
+}
+
+static int
+time_command (command, asynchronous, pipe_in, pipe_out, fds_to_close)
+ COMMAND *command;
+ int asynchronous, pipe_in, pipe_out;
+ struct fd_bitmap *fds_to_close;
+{
+ int rv, posix_time, old_flags;
+ long rs, us, ss;
+ int rsf, usf, ssf;
+ int cpu;
+ char *time_format;
+
+#if defined (HAVE_GETRUSAGE) && defined (HAVE_GETTIMEOFDAY)
+ struct timeval real, user, sys;
+ struct timeval before, after;
+ struct timezone dtz;
+ struct rusage selfb, selfa, kidsb, kidsa; /* a = after, b = before */
+#else
+# if defined (HAVE_TIMES)
+ clock_t tbefore, tafter, real, user, sys;
+ struct tms before, after;
+# endif
+#endif
+
+#if defined (HAVE_GETRUSAGE) && defined (HAVE_GETTIMEOFDAY)
+ gettimeofday (&before, &dtz);
+ getrusage (RUSAGE_SELF, &selfb);
+ getrusage (RUSAGE_CHILDREN, &kidsb);
+#else
+# if defined (HAVE_TIMES)
+ tbefore = times (&before);
+# endif
+#endif
+
+ posix_time = (command->flags & CMD_TIME_POSIX);
+
+ old_flags = command->flags;
+ command->flags &= ~(CMD_TIME_PIPELINE|CMD_TIME_POSIX);
+ rv = execute_command_internal (command, asynchronous, pipe_in, pipe_out, fds_to_close);
+ command->flags = old_flags;
+
+ rs = us = ss = 0L;
+ rsf = usf = ssf = cpu = 0;
+
+#if defined (HAVE_GETRUSAGE) && defined (HAVE_GETTIMEOFDAY)
+ gettimeofday (&after, &dtz);
+ getrusage (RUSAGE_SELF, &selfa);
+ getrusage (RUSAGE_CHILDREN, &kidsa);
+
+ difftimeval (&real, &before, &after);
+ timeval_to_secs (&real, &rs, &rsf);
+
+ addtimeval (&user, difftimeval(&after, &selfb.ru_utime, &selfa.ru_utime),
+ difftimeval(&before, &kidsb.ru_utime, &kidsa.ru_utime));
+ timeval_to_secs (&user, &us, &usf);
+
+ addtimeval (&sys, difftimeval(&after, &selfb.ru_stime, &selfa.ru_stime),
+ difftimeval(&before, &kidsb.ru_stime, &kidsa.ru_stime));
+ timeval_to_secs (&sys, &ss, &ssf);
+
+ cpu = timeval_to_cpu (&real, &user, &sys);
#else
- if (!stdin_redir)
+# if defined (HAVE_TIMES)
+ tafter = times (&after);
+
+ real = tafter - tbefore;
+ clock_t_to_secs (real, &rs, &rsf);
+
+ user = (after.tms_utime - before.tms_utime) + (after.tms_cutime - before.tms_cutime);
+ clock_t_to_secs (user, &us, &usf);
+
+ sys = (after.tms_stime - before.tms_stime) + (after.tms_cstime - before.tms_cstime);
+ clock_t_to_secs (sys, &ss, &ssf);
+
+ cpu = (real == 0) ? 0 : ((user + sys) * 10000) / real;
+
+# else
+ rs = us = ss = 0L;
+ rsf = usf = ssf = cpu = 0;
+# endif
+#endif
+
+ if (posix_time)
+ time_format = POSIX_TIMEFORMAT;
+ else if ((time_format = get_string_value ("TIMEFORMAT")) == 0)
+ time_format = BASH_TIMEFORMAT;
+
+ if (time_format && *time_format)
+ print_formatted_time (stderr, time_format, rs, rsf, us, usf, ss, ssf, cpu);
+
+ return rv;
+}
+#endif /* COMMAND_TIMING */
+
+/* Execute a command that's supposed to be in a subshell. This must be
+ called after make_child and we must be running in the child process.
+ The caller will return or exit() immediately with the value this returns. */
+static int
+execute_in_subshell (command, asynchronous, pipe_in, pipe_out, fds_to_close)
+ COMMAND *command;
+ int asynchronous;
+ int pipe_in, pipe_out;
+ struct fd_bitmap *fds_to_close;
+{
+ int user_subshell, return_code, function_value, should_redir_stdin, invert;
+ int ois;
+ COMMAND *tcom;
+
+ should_redir_stdin = (asynchronous && (command->flags & CMD_STDIN_REDIR) &&
+ pipe_in == NO_PIPE &&
+ stdin_redirects (command->redirects) == 0);
+
+ invert = (command->flags & CMD_INVERT_RETURN) != 0;
+ user_subshell = command->type == cm_subshell || ((command->flags & CMD_WANT_SUBSHELL) != 0);
+
+ command->flags &= ~(CMD_FORCE_SUBSHELL | CMD_WANT_SUBSHELL | CMD_INVERT_RETURN);
+
+ /* If a command is asynchronous in a subshell (like ( foo ) & or
+ the special case of an asynchronous GROUP command where the
+ the subshell bit is turned on down in case cm_group: below),
+ turn off `asynchronous', so that two subshells aren't spawned.
+
+ This seems semantically correct to me. For example,
+ ( foo ) & seems to say ``do the command `foo' in a subshell
+ environment, but don't wait for that subshell to finish'',
+ and "{ foo ; bar ; } &" seems to me to be like functions or
+ builtins in the background, which executed in a subshell
+ environment. I just don't see the need to fork two subshells. */
+
+ /* Don't fork again, we are already in a subshell. A `doubly
+ async' shell is not interactive, however. */
+ if (asynchronous)
+ {
+#if defined (JOB_CONTROL)
+ /* If a construct like ( exec xxx yyy ) & is given while job
+ control is active, we want to prevent exec from putting the
+ subshell back into the original process group, carefully
+ undoing all the work we just did in make_child. */
+ original_pgrp = -1;
#endif /* JOB_CONTROL */
- {
- /* Remove the redirection we added above. It matters,
- especially for loops, which call execute_command ()
- multiple times with the same command. */
- REDIRECT *tr, *tl;
+ ois = interactive_shell;
+ interactive_shell = 0;
+ /* This test is to prevent alias expansion by interactive shells that
+ run `(command) &' but to allow scripts that have enabled alias
+ expansion with `shopt -s expand_alias' to continue to expand
+ aliases. */
+ if (ois != interactive_shell)
+ expand_aliases = 0;
+ asynchronous = 0;
+ }
+
+ /* Subshells are neither login nor interactive. */
+ login_shell = interactive = 0;
- tr = tc->redirects;
- do
- {
- tl = tc->redirects;
- tc->redirects = tc->redirects->next;
- }
- while (tc->redirects && tc->redirects != rp);
+ subshell_environment = user_subshell ? SUBSHELL_PAREN : SUBSHELL_ASYNC;
- tl->next = (REDIRECT *)NULL;
- dispose_redirects (tr);
- }
+ reset_terminating_signals (); /* in sig.c */
+ /* Cancel traps, in trap.c. */
+ restore_original_signals ();
+ if (asynchronous)
+ setup_async_signals ();
- {
- register COMMAND *second;
+#if defined (JOB_CONTROL)
+ set_sigchld_handler ();
+#endif /* JOB_CONTROL */
- second = command->value.Connection->second;
+ set_sigint_handler ();
- if (second)
- {
- if (ignore_return)
- second->flags |= CMD_IGNORE_RETURN;
+#if defined (JOB_CONTROL)
+ /* Delete all traces that there were any jobs running. This is
+ only for subshells. */
+ without_job_control ();
+#endif /* JOB_CONTROL */
- exec_result = execute_command_internal
- (second, asynchronous, pipe_in, pipe_out, fds_to_close);
- }
- }
- }
- break;
+ if (fds_to_close)
+ close_fd_bitmap (fds_to_close);
- case ';':
- /* Just call execute command on both of them. */
- if (ignore_return)
- {
- if (command->value.Connection->first)
- command->value.Connection->first->flags |= CMD_IGNORE_RETURN;
- if (command->value.Connection->second)
- command->value.Connection->second->flags |= CMD_IGNORE_RETURN;
- }
- QUIT;
- execute_command (command->value.Connection->first);
- QUIT;
- exec_result =
- execute_command_internal (command->value.Connection->second,
- asynchronous, pipe_in, pipe_out,
- fds_to_close);
- break;
+ do_piping (pipe_in, pipe_out);
- case '|':
- {
- int prev, fildes[2], new_bitmap_size, dummyfd;
- COMMAND *cmd;
- struct fd_bitmap *fd_bitmap;
+ /* If this is a user subshell, set a flag if stdin was redirected.
+ This is used later to decide whether to redirect fd 0 to
+ /dev/null for async commands in the subshell. This adds more
+ sh compatibility, but I'm not sure it's the right thing to do. */
+ if (user_subshell)
+ {
+ stdin_redir = stdin_redirects (command->redirects);
+ restore_default_signal (0);
+ }
+
+ /* If this is an asynchronous command (command &), we want to
+ redirect the standard input from /dev/null in the absence of
+ any specific redirection involving stdin. */
+ if (should_redir_stdin && stdin_redir == 0)
+ async_redirect_stdin ();
+
+ /* Do redirections, then dispose of them before recursive call. */
+ if (command->redirects)
+ {
+ if (do_redirections (command->redirects, 1, 0, 0) != 0)
+ exit (invert ? EXECUTION_SUCCESS : EXECUTION_FAILURE);
+
+ dispose_redirects (command->redirects);
+ command->redirects = (REDIRECT *)NULL;
+ }
+
+ tcom = (command->type == cm_subshell) ? command->value.Subshell->command : command;
+
+ /* If this is a simple command, tell execute_disk_command that it
+ might be able to get away without forking and simply exec.
+ This means things like ( sleep 10 ) will only cause one fork.
+ If we're timing the command or inverting its return value, however,
+ we cannot do this optimization. */
+ if (user_subshell && (tcom->type == cm_simple || tcom->type == cm_subshell) &&
+ ((tcom->flags & CMD_TIME_PIPELINE) == 0) &&
+ ((tcom->flags & CMD_INVERT_RETURN) == 0))
+ {
+ tcom->flags |= CMD_NO_FORK;
+ if (tcom->type == cm_simple)
+ tcom->value.Simple->flags |= CMD_NO_FORK;
+ }
+
+ invert = (tcom->flags & CMD_INVERT_RETURN) != 0;
+ tcom->flags &= ~CMD_INVERT_RETURN;
+
+ /* If we're inside a function while executing this subshell, we
+ need to handle a possible `return'. */
+ function_value = 0;
+ if (return_catch_flag)
+ function_value = setjmp (return_catch);
+
+ if (function_value)
+ return_code = return_catch_value;
+ else
+ return_code = execute_command_internal
+ (tcom, asynchronous, NO_PIPE, NO_PIPE, fds_to_close);
+
+ /* If we are asked to, invert the return value. */
+ if (invert)
+ return_code = (return_code == EXECUTION_SUCCESS) ? EXECUTION_FAILURE
+ : EXECUTION_SUCCESS;
+
+ /* If we were explicitly placed in a subshell with (), we need
+ to do the `shell cleanup' things, such as running traps[0]. */
+ if (user_subshell && signal_is_trapped (0))
+ {
+ last_command_exit_value = return_code;
+ return_code = run_exit_trap ();
+ }
+
+ return (return_code);
+ /* NOTREACHED */
+}
+
+static int
+execute_pipeline (command, asynchronous, pipe_in, pipe_out, fds_to_close)
+ COMMAND *command;
+ int asynchronous, pipe_in, pipe_out;
+ struct fd_bitmap *fds_to_close;
+{
+ int prev, fildes[2], new_bitmap_size, dummyfd, ignore_return, exec_result;
+ COMMAND *cmd;
+ struct fd_bitmap *fd_bitmap;
#if defined (JOB_CONTROL)
- sigset_t set, oset;
- BLOCK_CHILD (set, oset);
+ sigset_t set, oset;
+ BLOCK_CHILD (set, oset);
#endif /* JOB_CONTROL */
- prev = pipe_in;
- cmd = command;
+ ignore_return = (command->flags & CMD_IGNORE_RETURN) != 0;
+
+ prev = pipe_in;
+ cmd = command;
- while (cmd &&
- cmd->type == cm_connection &&
- cmd->value.Connection &&
- cmd->value.Connection->connector == '|')
- {
- /* Make a pipeline between the two commands. */
- if (pipe (fildes) < 0)
- {
- report_error ("pipe error: %s", strerror (errno));
+ while (cmd && cmd->type == cm_connection &&
+ cmd->value.Connection && cmd->value.Connection->connector == '|')
+ {
+ /* Make a pipeline between the two commands. */
+ if (pipe (fildes) < 0)
+ {
+ sys_error ("pipe error");
#if defined (JOB_CONTROL)
- terminate_current_pipeline ();
- kill_current_pipeline ();
+ terminate_current_pipeline ();
+ kill_current_pipeline ();
#endif /* JOB_CONTROL */
- last_command_exit_value = EXECUTION_FAILURE;
- /* The unwind-protects installed below will take care
- of closing all of the open file descriptors. */
- throw_to_top_level ();
- }
- else
- {
- /* Here is a problem: with the new file close-on-exec
- code, the read end of the pipe (fildes[0]) stays open
- in the first process, so that process will never get a
- SIGPIPE. There is no way to signal the first process
- that it should close fildes[0] after forking, so it
- remains open. No SIGPIPE is ever sent because there
- is still a file descriptor open for reading connected
- to the pipe. We take care of that here. This passes
- around a bitmap of file descriptors that must be
- closed after making a child process in
- execute_simple_command. */
-
- /* We need fd_bitmap to be at least as big as fildes[0].
- If fildes[0] is less than fds_to_close->size, then
- use fds_to_close->size. */
- if (fildes[0] < fds_to_close->size)
- new_bitmap_size = fds_to_close->size;
- else
- new_bitmap_size = fildes[0] + 8;
-
- fd_bitmap = new_fd_bitmap (new_bitmap_size);
-
- /* Now copy the old information into the new bitmap. */
- xbcopy ((char *)fds_to_close->bitmap,
- (char *)fd_bitmap->bitmap, fds_to_close->size);
-
- /* And mark the pipe file descriptors to be closed. */
- fd_bitmap->bitmap[fildes[0]] = 1;
-
- /* In case there are pipe or out-of-processes errors, we
- want all these file descriptors to be closed when
- unwind-protects are run, and the storage used for the
- bitmaps freed up. */
- begin_unwind_frame ("pipe-file-descriptors");
- add_unwind_protect (dispose_fd_bitmap, fd_bitmap);
- add_unwind_protect (close_fd_bitmap, fd_bitmap);
- if (prev >= 0)
- add_unwind_protect (close, prev);
- dummyfd = fildes[1];
- add_unwind_protect (close, dummyfd);
+ last_command_exit_value = EXECUTION_FAILURE;
+ /* The unwind-protects installed below will take care
+ of closing all of the open file descriptors. */
+ throw_to_top_level ();
+ return (EXECUTION_FAILURE); /* XXX */
+ }
+
+ /* Here is a problem: with the new file close-on-exec
+ code, the read end of the pipe (fildes[0]) stays open
+ in the first process, so that process will never get a
+ SIGPIPE. There is no way to signal the first process
+ that it should close fildes[0] after forking, so it
+ remains open. No SIGPIPE is ever sent because there
+ is still a file descriptor open for reading connected
+ to the pipe. We take care of that here. This passes
+ around a bitmap of file descriptors that must be
+ closed after making a child process in execute_simple_command. */
+
+ /* We need fd_bitmap to be at least as big as fildes[0].
+ If fildes[0] is less than fds_to_close->size, then
+ use fds_to_close->size. */
+ new_bitmap_size = (fildes[0] < fds_to_close->size)
+ ? fds_to_close->size
+ : fildes[0] + 8;
+
+ fd_bitmap = new_fd_bitmap (new_bitmap_size);
+
+ /* Now copy the old information into the new bitmap. */
+ xbcopy ((char *)fds_to_close->bitmap, (char *)fd_bitmap->bitmap, fds_to_close->size);
+
+ /* And mark the pipe file descriptors to be closed. */
+ fd_bitmap->bitmap[fildes[0]] = 1;
+
+ /* In case there are pipe or out-of-processes errors, we
+ want all these file descriptors to be closed when
+ unwind-protects are run, and the storage used for the
+ bitmaps freed up. */
+ begin_unwind_frame ("pipe-file-descriptors");
+ add_unwind_protect (dispose_fd_bitmap, fd_bitmap);
+ add_unwind_protect (close_fd_bitmap, fd_bitmap);
+ if (prev >= 0)
+ add_unwind_protect (close, prev);
+ dummyfd = fildes[1];
+ add_unwind_protect (close, dummyfd);
#if defined (JOB_CONTROL)
- add_unwind_protect (restore_signal_mask, oset);
+ add_unwind_protect (restore_signal_mask, oset);
#endif /* JOB_CONTROL */
- if (ignore_return && cmd->value.Connection->first)
- cmd->value.Connection->first->flags |=
- CMD_IGNORE_RETURN;
- execute_command_internal
- (cmd->value.Connection->first, asynchronous, prev,
- fildes[1], fd_bitmap);
-
- if (prev >= 0)
- close (prev);
-
- prev = fildes[0];
- close (fildes[1]);
-
- dispose_fd_bitmap (fd_bitmap);
- discard_unwind_frame ("pipe-file-descriptors");
- }
- cmd = cmd->value.Connection->second;
- }
+ if (ignore_return && cmd->value.Connection->first)
+ cmd->value.Connection->first->flags |= CMD_IGNORE_RETURN;
+ execute_command_internal (cmd->value.Connection->first, asynchronous,
+ prev, fildes[1], fd_bitmap);
+
+ if (prev >= 0)
+ close (prev);
+
+ prev = fildes[0];
+ close (fildes[1]);
+
+ dispose_fd_bitmap (fd_bitmap);
+ discard_unwind_frame ("pipe-file-descriptors");
- /* Now execute the rightmost command in the pipeline. */
- if (ignore_return && cmd)
- cmd->flags |= CMD_IGNORE_RETURN;
- exec_result =
- execute_command_internal
- (cmd, asynchronous, prev, pipe_out, fds_to_close);
+ cmd = cmd->value.Connection->second;
+ }
+
+ /* Now execute the rightmost command in the pipeline. */
+ if (ignore_return && cmd)
+ cmd->flags |= CMD_IGNORE_RETURN;
+ exec_result = execute_command_internal (cmd, asynchronous, prev, pipe_out, fds_to_close);
- if (prev >= 0)
- close (prev);
+ if (prev >= 0)
+ close (prev);
#if defined (JOB_CONTROL)
- UNBLOCK_CHILD (oset);
+ UNBLOCK_CHILD (oset);
#endif
- }
- break;
- case AND_AND:
- case OR_OR:
- if (asynchronous)
+ return (exec_result);
+}
+
+static int
+execute_connection (command, asynchronous, pipe_in, pipe_out, fds_to_close)
+ COMMAND *command;
+ int asynchronous, pipe_in, pipe_out;
+ struct fd_bitmap *fds_to_close;
+{
+#if 0
+ REDIRECT *tr, *tl;
+#endif
+ REDIRECT *rp;
+ COMMAND *tc, *second;
+ int ignore_return, exec_result;
+
+ ignore_return = (command->flags & CMD_IGNORE_RETURN) != 0;
+
+ switch (command->value.Connection->connector)
+ {
+ /* Do the first command asynchronously. */
+ case '&':
+ tc = command->value.Connection->first;
+ if (tc == 0)
+ return (EXECUTION_SUCCESS);
+
+ rp = tc->redirects;
+
+ if (ignore_return)
+ tc->flags |= CMD_IGNORE_RETURN;
+ tc->flags |= CMD_AMPERSAND;
+
+ /* If this shell was compiled without job control support, if
+ the shell is not running interactively, if we are currently
+ in a subshell via `( xxx )', or if job control is not active
+ then the standard input for an asynchronous command is
+ forced to /dev/null. */
+#if defined (JOB_CONTROL)
+ if ((!interactive_shell || subshell_environment || !job_control) && !stdin_redir)
+#else
+ if (!stdin_redir)
+#endif /* JOB_CONTROL */
+ {
+#if 0
+ rd.filename = make_bare_word ("/dev/null");
+ tr = make_redirection (0, r_inputa_direction, rd);
+ tr->next = tc->redirects;
+ tc->redirects = tr;
+#endif
+ tc->flags |= CMD_STDIN_REDIR;
+ }
+
+ exec_result = execute_command_internal (tc, 1, pipe_in, pipe_out, fds_to_close);
+
+ if (tc->flags & CMD_STDIN_REDIR)
+ {
+#if 0
+ /* Remove the redirection we added above. It matters,
+ especially for loops, which call execute_command ()
+ multiple times with the same command. */
+ tr = tc->redirects;
+ do
{
- /* If we have something like `a && b &' or `a || b &', run the
- && or || stuff in a subshell. Force a subshell and just call
- execute_command_internal again. Leave asynchronous on
- so that we get a report from the parent shell about the
- background job. */
- command->flags |= CMD_FORCE_SUBSHELL;
- exec_result = execute_command_internal (command, 1, pipe_in,
- pipe_out, fds_to_close);
- break;
+ tl = tc->redirects;
+ tc->redirects = tc->redirects->next;
}
+ while (tc->redirects && tc->redirects != rp);
- /* Execute the first command. If the result of that is successful
- and the connector is AND_AND, or the result is not successful
- and the connector is OR_OR, then execute the second command,
- otherwise return. */
+ tl->next = (REDIRECT *)NULL;
+ dispose_redirects (tr);
+#endif
+ tc->flags &= ~CMD_STDIN_REDIR;
+ }
- if (command->value.Connection->first)
- command->value.Connection->first->flags |= CMD_IGNORE_RETURN;
+ second = command->value.Connection->second;
+ if (second)
+ {
+ if (ignore_return)
+ second->flags |= CMD_IGNORE_RETURN;
- exec_result = execute_command (command->value.Connection->first);
- QUIT;
- if (((command->value.Connection->connector == AND_AND) &&
- (exec_result == EXECUTION_SUCCESS)) ||
- ((command->value.Connection->connector == OR_OR) &&
- (exec_result != EXECUTION_SUCCESS)))
- {
- if (ignore_return && command->value.Connection->second)
- command->value.Connection->second->flags |=
- CMD_IGNORE_RETURN;
+ exec_result = execute_command_internal (second, asynchronous, pipe_in, pipe_out, fds_to_close);
+ }
- exec_result =
- execute_command (command->value.Connection->second);
- }
- break;
+ break;
- default:
- programming_error ("Bad connector `%d'!",
- command->value.Connection->connector);
- longjmp (top_level, DISCARD);
- break;
+ /* Just call execute command on both sides. */
+ case ';':
+ if (ignore_return)
+ {
+ if (command->value.Connection->first)
+ command->value.Connection->first->flags |= CMD_IGNORE_RETURN;
+ if (command->value.Connection->second)
+ command->value.Connection->second->flags |= CMD_IGNORE_RETURN;
}
+ QUIT;
+ execute_command (command->value.Connection->first);
+ QUIT;
+ exec_result = execute_command_internal (command->value.Connection->second,
+ asynchronous, pipe_in, pipe_out,
+ fds_to_close);
break;
- case cm_function_def:
- exec_result = intern_function (command->value.Function_def->name,
- command->value.Function_def->command);
+ case '|':
+ exec_result = execute_pipeline (command, asynchronous, pipe_in, pipe_out, fds_to_close);
break;
- default:
- programming_error
- ("execute_command: Bad command type `%d'!", command->type);
- }
+ case AND_AND:
+ case OR_OR:
+ if (asynchronous)
+ {
+ /* If we have something like `a && b &' or `a || b &', run the
+ && or || stuff in a subshell. Force a subshell and just call
+ execute_command_internal again. Leave asynchronous on
+ so that we get a report from the parent shell about the
+ background job. */
+ command->flags |= CMD_FORCE_SUBSHELL;
+ exec_result = execute_command_internal (command, 1, pipe_in, pipe_out, fds_to_close);
+ break;
+ }
- if (my_undo_list)
- {
- do_redirections (my_undo_list, 1, 0, 0);
- dispose_redirects (my_undo_list);
- }
+ /* Execute the first command. If the result of that is successful
+ and the connector is AND_AND, or the result is not successful
+ and the connector is OR_OR, then execute the second command,
+ otherwise return. */
- if (exec_undo_list)
- dispose_redirects (exec_undo_list);
+ if (command->value.Connection->first)
+ command->value.Connection->first->flags |= CMD_IGNORE_RETURN;
- if (my_undo_list || exec_undo_list)
- discard_unwind_frame ("loop_redirections");
+ exec_result = execute_command (command->value.Connection->first);
+ QUIT;
+ if (((command->value.Connection->connector == AND_AND) &&
+ (exec_result == EXECUTION_SUCCESS)) ||
+ ((command->value.Connection->connector == OR_OR) &&
+ (exec_result != EXECUTION_SUCCESS)))
+ {
+ if (ignore_return && command->value.Connection->second)
+ command->value.Connection->second->flags |= CMD_IGNORE_RETURN;
- /* Invert the return value if we have to */
- if (invert)
- {
- if (exec_result == EXECUTION_SUCCESS)
- exec_result = EXECUTION_FAILURE;
- else
- exec_result = EXECUTION_SUCCESS;
+ exec_result = execute_command (command->value.Connection->second);
+ }
+ break;
+
+ default:
+ command_error ("execute_connection", CMDERR_BADCONN, command->value.Connection->connector, 0);
+ jump_to_top_level (DISCARD);
+ exec_result = EXECUTION_FAILURE;
}
- last_command_exit_value = exec_result;
- run_pending_traps ();
- return (last_command_exit_value);
+ return exec_result;
}
-#if defined (JOB_CONTROL)
-# define REAP() \
- do \
- { \
- if (!interactive_shell) \
- reap_dead_jobs (); \
- } \
- while (0)
-#else /* !JOB_CONTROL */
-# define REAP() \
- do \
- { \
- if (!interactive_shell) \
- cleanup_dead_jobs (); \
- } \
- while (0)
-#endif /* !JOB_CONTROL */
-
+#define REAP() \
+ do \
+ { \
+ if (!interactive_shell) \
+ reap_dead_jobs (); \
+ } \
+ while (0)
/* Execute a FOR command. The syntax is: FOR word_desc IN word_list;
DO command; DONE */
+static int
execute_for_command (for_command)
FOR_COM *for_command;
{
- /* I just noticed that the Bourne shell leaves word_desc bound to the
- last name in word_list after the FOR statement is done. This seems
- wrong to me; I thought that the variable binding should be lexically
- scoped, i.e., only would last the duration of the FOR command. This
- behaviour can be gotten by turning on the lexical_scoping switch. */
-
register WORD_LIST *releaser, *list;
+ SHELL_VAR *v;
char *identifier;
+ int retval;
+#if 0
SHELL_VAR *old_value = (SHELL_VAR *)NULL; /* Remember the old value of x. */
- int retval = EXECUTION_SUCCESS;
+#endif
if (check_identifier (for_command->name, 1) == 0)
- return (EXECUTION_FAILURE);
+ {
+ if (posixly_correct && interactive_shell == 0)
+ {
+ last_command_exit_value = EX_USAGE;
+ jump_to_top_level (EXITPROG);
+ }
+ return (EXECUTION_FAILURE);
+ }
loop_level++;
identifier = for_command->name->word;
begin_unwind_frame ("for");
add_unwind_protect (dispose_words, releaser);
+#if 0
if (lexical_scoping)
{
old_value = copy_variable (find_variable (identifier));
if (old_value)
add_unwind_protect (dispose_variable, old_value);
}
+#endif
if (for_command->flags & CMD_IGNORE_RETURN)
for_command->action->flags |= CMD_IGNORE_RETURN;
- while (list)
+ for (retval = EXECUTION_SUCCESS; list; list = list->next)
{
QUIT;
- bind_variable (identifier, list->word->word);
- execute_command (for_command->action);
- retval = last_command_exit_value;
+ this_command_name = (char *)NULL;
+ v = bind_variable (identifier, list->word->word);
+ if (readonly_p (v) || noassign_p (v))
+ {
+ if (readonly_p (v) && interactive_shell == 0 && posixly_correct)
+ {
+ last_command_exit_value = EXECUTION_FAILURE;
+ jump_to_top_level (FORCE_EOF);
+ }
+ else
+ {
+ run_unwind_frame ("for");
+ loop_level--;
+ return (EXECUTION_FAILURE);
+ }
+ }
+ retval = execute_command (for_command->action);
REAP ();
QUIT;
if (breaking)
{
- breaking--;
+ breaking--;
break;
}
if (continuing)
break;
}
-
- list = list->next;
}
loop_level--;
+#if 0
if (lexical_scoping)
{
if (!old_value)
dispose_variable (old_value);
}
}
+#endif
dispose_words (releaser);
discard_unwind_frame ("for");
return (retval);
}
-#if defined (SELECT_COMMAND)
-static int LINES, COLS, tabsize;
+#if defined (ARITH_FOR_COMMAND)
+/* Execute an arithmetic for command. The syntax is
-#define RP_SPACE ") "
-#define RP_SPACE_LEN 2
+ for (( init ; step ; test ))
+ do
+ body
+ done
-/* XXX - does not handle numbers > 1000000 at all. */
+ The execution should be exactly equivalent to
+
+ eval \(\( init \)\)
+ while eval \(\( test \)\) ; do
+ body;
+ eval \(\( step \)\)
+ done
+*/
+static long
+eval_arith_for_expr (l, okp)
+ WORD_LIST *l;
+ int *okp;
+{
+ WORD_LIST *new;
+ long expresult;
+
+ new = expand_words_no_vars (l);
+ if (echo_command_at_execute)
+ xtrace_print_arith_cmd (new);
+ expresult = evalexp (new->word->word, okp);
+ dispose_words (new);
+ return (expresult);
+}
+
+static int
+execute_arith_for_command (arith_for_command)
+ ARITH_FOR_COM *arith_for_command;
+{
+ long expresult;
+ int expok, result, body_status;
+
+ body_status = EXECUTION_SUCCESS;
+ loop_level++;
+
+ if (arith_for_command->flags & CMD_IGNORE_RETURN)
+ arith_for_command->action->flags |= CMD_IGNORE_RETURN;
+
+ this_command_name = "(("; /* )) for expression error messages */
+
+ if (variable_context)
+ line_number = arith_for_command->line - function_line_number;
+
+ /* Evaluate the initialization expression. */
+ expresult = eval_arith_for_expr (arith_for_command->init, &expok);
+ if (expok == 0)
+ return (EXECUTION_FAILURE);
+
+ while (1)
+ {
+ /* Evaluate the test expression. */
+ expresult = eval_arith_for_expr (arith_for_command->test, &expok);
+ if (expok == 0)
+ {
+ body_status = EXECUTION_FAILURE;
+ break;
+ }
+ REAP ();
+ if (expresult == 0)
+ break;
+
+ /* Execute the body of the arithmetic for command. */
+ QUIT;
+ body_status = execute_command (arith_for_command->action);
+ QUIT;
+
+ /* Handle any `break' or `continue' commands executed by the body. */
+ if (breaking)
+ {
+ breaking--;
+ break;
+ }
+
+ if (continuing)
+ {
+ continuing--;
+ if (continuing)
+ break;
+ }
+
+ /* Evaluate the step expression. */
+ expresult = eval_arith_for_expr (arith_for_command->step, &expok);
+ if (expok == 0)
+ {
+ body_status = EXECUTION_FAILURE;
+ break;
+ }
+ }
+
+ loop_level--;
+ return (body_status);
+}
+#endif
+
+#if defined (SELECT_COMMAND)
+static int LINES, COLS, tabsize;
+
+#define RP_SPACE ") "
+#define RP_SPACE_LEN 2
+
+/* XXX - does not handle numbers > 1000000 at all. */
#define NUMBER_LEN(s) \
((s < 10) ? 1 \
: ((s < 100) ? 2 \
if (list == 0)
return (0);
- i = ind;
- l = list;
- while (l && --i)
- l = l->next;
+ for (i = ind, l = list; l && --i; l = l->next)
+ ;
fprintf (stderr, "%*d%s%s", len, ind, RP_SPACE, l->word->word);
return (STRLEN (l->word->word));
}
return;
}
- cols = COLS / max_elem_len;
+ cols = max_elem_len ? COLS / max_elem_len : 1;
if (cols == 0)
cols = 1;
rows = list_len ? list_len / cols + (list_len % cols != 0) : 1;
/* Print the elements of LIST, one per line, preceded by an index from 1 to
LIST_LEN. Then display PROMPT and wait for the user to enter a number.
If the number is between 1 and LIST_LEN, return that selection. If EOF
- is read, return a null string. If a blank line is entered, the loop is
- executed again. */
+ is read, return a null string. If a blank line is entered, or an invalid
+ number is entered, the loop is executed again. */
static char *
select_query (list, list_len, prompt)
WORD_LIST *list;
int list_len;
char *prompt;
{
- int max_elem_len, indices_len, len, reply;
+ int max_elem_len, indices_len, len;
+ long reply;
WORD_LIST *l;
char *repl_string, *t;
{
len = STRLEN (l->word->word);
if (len > max_elem_len)
- max_elem_len = len;
+ max_elem_len = len;
}
indices_len = NUMBER_LEN (list_len);
max_elem_len += indices_len + RP_SPACE_LEN + 2;
while (1)
{
print_select_list (list, list_len, max_elem_len, indices_len);
- printf ("%s", prompt);
- fflush (stdout);
+ fprintf (stderr, "%s", prompt);
+ fflush (stderr);
QUIT;
if (read_builtin ((WORD_LIST *)NULL) == EXECUTION_FAILURE)
repl_string = get_string_value ("REPLY");
if (*repl_string == 0)
continue;
- reply = atoi (repl_string);
+ if (legal_number (repl_string, &reply) == 0)
+ return "";
if (reply < 1 || reply > list_len)
return "";
- l = list;
- while (l && --reply)
- l = l->next;
+ for (l = list; l && --reply; l = l->next)
+ ;
return (l->word->word);
}
}
SELECT word IN list DO command_list DONE
Only `break' or `return' in command_list will terminate
the command. */
+static int
execute_select_command (select_command)
SELECT_COM *select_command;
{
WORD_LIST *releaser, *list;
+ SHELL_VAR *v;
char *identifier, *ps3_prompt, *selection;
int retval, list_len, return_val;
-#if 0
- SHELL_VAR *old_value = (SHELL_VAR *)0;
-#endif
-
-
- retval = EXECUTION_SUCCESS;
if (check_identifier (select_command->name, 1) == 0)
return (EXECUTION_FAILURE);
begin_unwind_frame ("select");
add_unwind_protect (dispose_words, releaser);
-#if 0
- if (lexical_scoping)
- {
- old_value = copy_variable (find_variable (identifier));
- if (old_value)
- add_unwind_protect (dispose_variable, old_value);
- }
-#endif
-
if (select_command->flags & CMD_IGNORE_RETURN)
select_command->action->flags |= CMD_IGNORE_RETURN;
+ retval = EXECUTION_SUCCESS;
+
unwind_protect_int (return_catch_flag);
unwind_protect_jmp_buf (return_catch);
return_catch_flag++;
while (1)
{
ps3_prompt = get_string_value ("PS3");
- if (!ps3_prompt)
+ if (ps3_prompt == 0)
ps3_prompt = "#? ";
QUIT;
QUIT;
if (selection == 0)
break;
- else
- bind_variable (identifier, selection);
+
+ v = bind_variable (identifier, selection);
+ if (readonly_p (v) || noassign_p (v))
+ {
+ if (readonly_p (v) && interactive_shell == 0 && posixly_correct)
+ {
+ last_command_exit_value = EXECUTION_FAILURE;
+ jump_to_top_level (FORCE_EOF);
+ }
+ else
+ {
+ run_unwind_frame ("select");
+ return (EXECUTION_FAILURE);
+ }
+ }
return_val = setjmp (return_catch);
if (return_val)
- {
+ {
retval = return_catch_value;
break;
- }
+ }
else
- retval = execute_command (select_command->action);
+ retval = execute_command (select_command->action);
REAP ();
QUIT;
breaking--;
break;
}
- }
-
- loop_level--;
-#if 0
- if (lexical_scoping)
- {
- if (!old_value)
- makunbound (identifier, shell_variables);
- else
+ if (continuing)
{
- SHELL_VAR *new_value;
-
- new_value = bind_variable (identifier, value_cell(old_value));
- new_value->attributes = old_value->attributes;
- dispose_variable (old_value);
+ continuing--;
+ if (continuing)
+ break;
}
}
-#endif
+
+ loop_level--;
run_unwind_frame ("select");
return (retval);
The pattern_list is a linked list of pattern clauses; each clause contains
some patterns to compare word_desc against, and an associated command to
execute. */
+static int
execute_case_command (case_command)
CASE_COM *case_command;
{
register WORD_LIST *list;
- WORD_LIST *wlist;
+ WORD_LIST *wlist, *es;
PATTERN_LIST *clauses;
- char *word;
- int retval;
+ char *word, *pattern;
+ int retval, match, ignore_return;
/* Posix.2 specifies that the WORD is tilde expanded. */
if (member ('~', case_command->word->word))
{
- word = tilde_expand (case_command->word->word);
+ word = bash_tilde_expand (case_command->word->word);
free (case_command->word->word);
case_command->word->word = word;
}
- wlist = expand_word_no_split (case_command->word, 0);
- clauses = case_command->clauses;
- word = (wlist) ? string_list (wlist) : savestring ("");
+ wlist = expand_word_unsplit (case_command->word, 0);
+ word = wlist ? string_list (wlist) : savestring ("");
+ dispose_words (wlist);
+
retval = EXECUTION_SUCCESS;
+ ignore_return = case_command->flags & CMD_IGNORE_RETURN;
begin_unwind_frame ("case");
- add_unwind_protect (dispose_words, wlist);
add_unwind_protect ((Function *)xfree, word);
- while (clauses)
+#define EXIT_CASE() goto exit_case_command
+
+ for (clauses = case_command->clauses; clauses; clauses = clauses->next)
{
QUIT;
- list = clauses->patterns;
- while (list)
+ for (list = clauses->patterns; list; list = list->next)
{
- char *pattern;
- WORD_LIST *es;
- int match;
-
/* Posix.2 specifies to tilde expand each member of the pattern
list. */
if (member ('~', list->word->word))
{
- char *expansion = tilde_expand (list->word->word);
+ pattern = bash_tilde_expand (list->word->word);
free (list->word->word);
- list->word->word = expansion;
+ list->word->word = pattern;
}
es = expand_word_leave_quoted (list->word, 0);
if (es && es->word && es->word->word && *(es->word->word))
- pattern = quote_string_for_globbing (es->word->word, 1);
+ pattern = quote_string_for_globbing (es->word->word, QGLOB_CVTNULL);
else
- pattern = savestring ("");
+ {
+ pattern = xmalloc (1);
+ pattern[0] = '\0';
+ }
/* Since the pattern does not undergo quote removal (as per
Posix.2, section 3.9.4.3), the fnmatch () call must be able
to recognize backslashes as escape characters. */
- match = (fnmatch (pattern, word, 0) != FNM_NOMATCH);
+ match = fnmatch (pattern, word, FNMATCH_EXTFLAG) != FNM_NOMATCH;
free (pattern);
dispose_words (es);
if (match)
{
- if (clauses->action &&
- (case_command->flags & CMD_IGNORE_RETURN))
+ if (clauses->action && ignore_return)
clauses->action->flags |= CMD_IGNORE_RETURN;
- execute_command (clauses->action);
- retval = last_command_exit_value;
- goto exit_command;
+ retval = execute_command (clauses->action);
+ EXIT_CASE ();
}
- list = list->next;
QUIT;
}
-
- clauses = clauses->next;
}
- exit_command:
- dispose_words (wlist);
- free (word);
+exit_case_command:
+ free (word);
discard_unwind_frame ("case");
-
return (retval);
}
/* The WHILE command. Syntax: WHILE test DO action; DONE.
Repeatedly execute action while executing test produces
EXECUTION_SUCCESS. */
+static int
execute_while_command (while_command)
WHILE_COM *while_command;
{
}
/* UNTIL is just like WHILE except that the test result is negated. */
+static int
execute_until_command (while_command)
WHILE_COM *while_command;
{
CMD_WHILE or CMD_UNTIL. The return value for both commands should
be EXECUTION_SUCCESS if no commands in the body are executed, and
the status of the last command executed in the body otherwise. */
+static int
execute_while_or_until (while_command, type)
WHILE_COM *while_command;
int type;
/* IF test THEN command [ELSE command].
IF also allows ELIF in the place of ELSE IF, but
the parser makes *that* stupidity transparent. */
+static int
execute_if_command (if_command)
IF_COM *if_command;
{
if (return_value == EXECUTION_SUCCESS)
{
QUIT;
+
if (if_command->true_case && (if_command->flags & CMD_IGNORE_RETURN))
- if_command->true_case->flags |= CMD_IGNORE_RETURN;
+ if_command->true_case->flags |= CMD_IGNORE_RETURN;
+
return (execute_command (if_command->true_case));
}
else
}
}
-static void
-bind_lastarg (arg)
- char *arg;
-{
- SHELL_VAR *var;
-
- if (!arg)
- arg = "";
- var = bind_variable ("_", arg);
- var->attributes &= ~att_exported;
-}
-
-/* The meaty part of all the executions. We have to start hacking the
- real execution of commands here. Fork a process, set things up,
- execute the command. */
-execute_simple_command (simple_command, pipe_in, pipe_out, async, fds_to_close)
- SIMPLE_COM *simple_command;
- int pipe_in, pipe_out, async;
- struct fd_bitmap *fds_to_close;
+#if defined (DPAREN_ARITHMETIC)
+static int
+execute_arith_command (arith_command)
+ ARITH_COM *arith_command;
{
- WORD_LIST *words, *lastword;
- char *command_line, *lastarg;
- int first_word_quoted, result;
- pid_t old_last_command_subst_pid;
+ int result, expok, expresult;
+ WORD_LIST *new, *p, *printit;
+ WORD_DESC *w;
- result = EXECUTION_SUCCESS;
+ result = 0;
- /* If we're in a function, update the pseudo-line-number information. */
+ this_command_name = "(("; /* )) */
+ /* If we're in a function, update the line number information. */
if (variable_context)
- line_number = simple_command->line - function_line_number;
-
- /* Remember what this command line looks like at invocation. */
- command_string_index = 0;
- print_simple_command (simple_command);
- command_line = (char *)alloca (1 + strlen (the_printed_command));
- strcpy (command_line, the_printed_command);
-
- first_word_quoted =
- simple_command->words ? simple_command->words->word->quoted : 0;
-
- old_last_command_subst_pid = last_command_subst_pid;
-
- /* If we are re-running this as the result of executing the `command'
- builtin, do not expand the command words a second time. */
- if ((simple_command->flags & CMD_INHIBIT_EXPANSION) == 0)
- {
- current_fds_to_close = fds_to_close;
- words = expand_words (simple_command->words);
- current_fds_to_close = (struct fd_bitmap *)NULL;
- }
- else
- words = copy_word_list (simple_command->words);
-
- lastarg = (char *)NULL;
-
- /* It is possible for WORDS not to have anything left in it.
- Perhaps all the words consisted of `$foo', and there was
- no variable `$foo'. */
- if (words)
- {
- Function *builtin;
- SHELL_VAR *func;
-
- begin_unwind_frame ("simple-command");
-
- if (echo_command_at_execute)
- {
- char *line = string_list (words);
+ line_number = arith_command->line - function_line_number;
- if (line && *line)
- fprintf (stderr, "%s%s\n", indirection_level_string (), line);
+ new = expand_words (arith_command->exp);
- FREE (line);
- }
+ /* If we're tracing, make a new word list with `((' at the front and `))'
+ at the back and print it. */
+ if (echo_command_at_execute)
+ xtrace_print_arith_cmd (new);
- if (simple_command->flags & CMD_NO_FUNCTIONS)
- func = (SHELL_VAR *)NULL;
- else
- func = find_function (words->word->word);
+ result = evalexp (new->word->word, &expok);
+ dispose_words (new);
- add_unwind_protect (dispose_words, words);
+ if (expok == 0)
+ return (EXECUTION_FAILURE);
- QUIT;
+ return (result == 0 ? EXECUTION_FAILURE : EXECUTION_SUCCESS);
+}
+#endif /* DPAREN_ARITHMETIC */
- /* Bind the last word in this command to "$_" after execution. */
- for (lastword = words; lastword->next; lastword = lastword->next);
- lastarg = lastword->word->word;
+#if defined (COND_COMMAND)
-#if defined (JOB_CONTROL)
- /* Is this command a job control related thing? */
- if (words->word->word[0] == '%')
- {
- int result;
+static char *nullstr = "";
- if (async)
- this_command_name = "bg";
- else
- this_command_name = "fg";
+static int
+execute_cond_node (cond)
+ COND_COM *cond;
+{
+ int result, invert, patmatch, flags;
+ char *arg1, *arg2, *print2;
- last_shell_builtin = this_shell_builtin;
- this_shell_builtin = builtin_address (this_command_name);
- result = (*this_shell_builtin) (words);
- goto return_result;
- }
+ invert = (cond->flags & CMD_INVERT_RETURN);
- /* One other possiblilty. The user may want to resume an existing job.
- If they do, find out whether this word is a candidate for a running
- job. */
- {
- char *auto_resume_value = get_string_value ("auto_resume");
-
- if (auto_resume_value &&
- !first_word_quoted &&
- !words->next &&
- words->word->word[0] &&
- !simple_command->redirects &&
- pipe_in == NO_PIPE &&
- pipe_out == NO_PIPE &&
- !async)
- {
- char *word = words->word->word;
- register int i;
- int wl, cl, exact, substring, match, started_status;
- register PROCESS *p;
-
- exact = STREQ (auto_resume_value, "exact");
- substring = STREQ (auto_resume_value, "substring");
- wl = strlen (word);
- for (i = job_slots - 1; i > -1; i--)
- {
- if (!jobs[i] || (JOBSTATE (i) != JSTOPPED))
- continue;
+ if (cond->type == COND_EXPR)
+ result = execute_cond_node (cond->left);
+ else if (cond->type == COND_OR)
+ {
+ result = execute_cond_node (cond->left);
+ if (result != EXECUTION_SUCCESS)
+ result = execute_cond_node (cond->right);
+ }
+ else if (cond->type == COND_AND)
+ {
+ result = execute_cond_node (cond->left);
+ if (result == EXECUTION_SUCCESS)
+ result = execute_cond_node (cond->right);
+ }
+ else if (cond->type == COND_UNARY)
+ {
+ arg1 = cond_expand_word (cond->left->op, 0);
+ if (arg1 == 0)
+ arg1 = nullstr;
+ if (echo_command_at_execute)
+ xtrace_print_cond_term (cond->type, invert, cond->op, arg1, (char *)NULL);
+ result = unary_test (cond->op->word, arg1) ? EXECUTION_SUCCESS : EXECUTION_FAILURE;
+ if (arg1 != nullstr)
+ free (arg1);
+ }
+ else if (cond->type == COND_BINARY)
+ {
+ patmatch = ((cond->op->word[1] == '=') && (cond->op->word[2] == '\0') &&
+ (cond->op->word[0] == '!' || cond->op->word[0] == '=') ||
+ (cond->op->word[0] == '=' && cond->op->word[1] == '\0'));
- p = jobs[i]->pipe;
- do
- {
- if (exact)
- {
- cl = strlen (p->command);
- match = STREQN (p->command, word, cl);
- }
- else if (substring)
- match = strindex (p->command, word) != (char *)0;
- else
- match = STREQN (p->command, word, wl);
-
- if (match == 0)
- {
- p = p->next;
- continue;
- }
-
- run_unwind_frame ("simple-command");
- last_shell_builtin = this_shell_builtin;
- this_shell_builtin = builtin_address ("fg");
-
- started_status = start_job (i, 1);
-
- if (started_status < 0)
- return (EXECUTION_FAILURE);
- else
- return (started_status);
- }
- while (p != jobs[i]->pipe);
- }
- }
- }
-#endif /* JOB_CONTROL */
+ arg1 = cond_expand_word (cond->left->op, 0);
+ if (arg1 == 0)
+ arg1 = nullstr;
+ arg2 = cond_expand_word (cond->right->op, patmatch);
+ if (arg2 == 0)
+ arg2 = nullstr;
- /* Remember the name of this command globally. */
- this_command_name = words->word->word;
+ if (echo_command_at_execute)
+ xtrace_print_cond_term (cond->type, invert, cond->op, arg1, arg2);
- QUIT;
+ result = binary_test (cond->op->word, arg1, arg2, TEST_PATMATCH|TEST_ARITHEXP)
+ ? EXECUTION_SUCCESS
+ : EXECUTION_FAILURE;
+ if (arg1 != nullstr)
+ free (arg1);
+ if (arg2 != nullstr)
+ free (arg2);
+ }
+ else
+ {
+ command_error ("execute_cond_node", CMDERR_BADTYPE, cond->type, 0);
+ jump_to_top_level (DISCARD);
+ result = EXECUTION_FAILURE;
+ }
- /* This command could be a shell builtin or a user-defined function.
- If so, and we have pipes, then fork a subshell in here. Else, just
- do the command. */
+ if (invert)
+ result = (result == EXECUTION_SUCCESS) ? EXECUTION_FAILURE : EXECUTION_SUCCESS;
- if (func)
- builtin = (Function *)NULL;
- else
- builtin = find_shell_builtin (this_command_name);
+ return result;
+}
- last_shell_builtin = this_shell_builtin;
- this_shell_builtin = builtin;
+static int
+execute_cond_command (cond_command)
+ COND_COM *cond_command;
+{
+ int result;
- if (builtin || func)
- {
- if ((pipe_in != NO_PIPE) || (pipe_out != NO_PIPE) || async)
- {
- if (make_child (savestring (command_line), async) == 0)
- {
- /* Cancel traps, in trap.c. */
- restore_original_signals ();
+ result = EXECUTION_SUCCESS;
- if (async)
- setup_async_signals ();
+ this_command_name = "[[";
+ /* If we're in a function, update the line number information. */
+ if (variable_context)
+ line_number = cond_command->line - function_line_number;
- execute_subshell_builtin_or_function
- (words, simple_command->redirects, builtin, func,
- pipe_in, pipe_out, async, fds_to_close,
- simple_command->flags);
- }
- else
- {
- close_pipes (pipe_in, pipe_out);
-#if defined (PROCESS_SUBSTITUTION) && defined (HAVE_DEV_FD)
- unlink_fifo_list ();
+#if 0
+ debug_print_cond_command (cond_command);
#endif
- goto return_result;
- }
- }
- else
- {
- result = execute_builtin_or_function
- (words, builtin, func, simple_command->redirects, fds_to_close,
- simple_command->flags);
+ last_command_exit_value = result = execute_cond_node (cond_command);
+ return (result);
+}
+#endif /* COND_COMMAND */
- goto return_result;
- }
- }
+static void
+bind_lastarg (arg)
+ char *arg;
+{
+ SHELL_VAR *var;
- execute_disk_command (words, simple_command->redirects, command_line,
- pipe_in, pipe_out, async, fds_to_close,
- (simple_command->flags & CMD_NO_FORK));
+ if (arg == 0)
+ arg = "";
+ var = bind_variable ("_", arg);
+ VUNSETATTR (var, att_exported);
+}
- goto return_result;
- }
- else if (pipe_in != NO_PIPE || pipe_out != NO_PIPE || async)
+/* Execute a null command. Fork a subshell if the command uses pipes or is
+ to be run asynchronously. This handles all the side effects that are
+ supposed to take place. */
+static int
+execute_null_command (redirects, pipe_in, pipe_out, async, old_last_command_subst_pid)
+ REDIRECT *redirects;
+ int pipe_in, pipe_out, async;
+ pid_t old_last_command_subst_pid;
+{
+ if (pipe_in != NO_PIPE || pipe_out != NO_PIPE || async)
{
/* We have a null command, but we really want a subshell to take
care of it. Just fork, do piping and redirections, and exit. */
- if (make_child (savestring (""), async) == 0)
+ if (make_child ((char *)NULL, async) == 0)
{
/* Cancel traps, in trap.c. */
- restore_original_signals ();
+ restore_original_signals (); /* XXX */
do_piping (pipe_in, pipe_out);
- subshell_environment = 1;
+ subshell_environment = SUBSHELL_ASYNC;
- if (do_redirections (simple_command->redirects, 1, 0, 0) == 0)
+ if (do_redirections (redirects, 1, 0, 0) == 0)
exit (EXECUTION_SUCCESS);
else
exit (EXECUTION_FAILURE);
#if defined (PROCESS_SUBSTITUTION) && defined (HAVE_DEV_FD)
unlink_fifo_list ();
#endif
- result = EXECUTION_SUCCESS;
- goto return_result;
+ return (EXECUTION_SUCCESS);
}
}
else
expanding the command or a redirection, return the value of that
substitution. Otherwise, return EXECUTION_SUCCESS. */
- if (do_redirections (simple_command->redirects, 0, 0, 0) != 0)
- result = EXECUTION_FAILURE;
+ if (do_redirections (redirects, 0, 0, 0) != 0)
+ return (EXECUTION_FAILURE);
else if (old_last_command_subst_pid != last_command_subst_pid)
- result = last_command_exit_value;
+ return (last_command_exit_value);
else
- result = EXECUTION_SUCCESS;
+ return (EXECUTION_SUCCESS);
}
+}
+
+/* This is a hack to suppress word splitting for assignment statements
+ given as arguments to builtins with the ASSIGNMENT_BUILTIN flag set. */
+static void
+fix_assignment_words (words)
+ WORD_LIST *words;
+{
+ WORD_LIST *w;
+ struct builtin *b;
+
+ if (words == 0)
+ return;
+
+ b = builtin_address_internal (words->word->word, 0);
+ if (b == 0 || (b->flags & ASSIGNMENT_BUILTIN) == 0)
+ return;
+
+ for (w = words; w; w = w->next)
+ if (w->word->flags & W_ASSIGNMENT)
+ w->word->flags |= (W_NOSPLIT|W_NOGLOB);
+}
+
+/* The meaty part of all the executions. We have to start hacking the
+ real execution of commands here. Fork a process, set things up,
+ execute the command. */
+static int
+execute_simple_command (simple_command, pipe_in, pipe_out, async, fds_to_close)
+ SIMPLE_COM *simple_command;
+ int pipe_in, pipe_out, async;
+ struct fd_bitmap *fds_to_close;
+{
+ WORD_LIST *words, *lastword;
+ char *command_line, *lastarg, *temp;
+ int first_word_quoted, result, builtin_is_special, already_forked, dofork;
+ pid_t old_last_command_subst_pid, old_last_async_pid;
+ Function *builtin;
+ SHELL_VAR *func;
+
+ result = EXECUTION_SUCCESS;
+ special_builtin_failed = builtin_is_special = 0;
+ command_line = (char *)0;
+
+ /* If we're in a function, update the line number information. */
+ if (variable_context)
+ line_number = simple_command->line - function_line_number;
+
+ /* Remember what this command line looks like at invocation. */
+ command_string_index = 0;
+ print_simple_command (simple_command);
+
+ first_word_quoted =
+ simple_command->words ? (simple_command->words->word->flags & W_QUOTED): 0;
+
+ old_last_command_subst_pid = last_command_subst_pid;
+ old_last_async_pid = last_asynchronous_pid;
+
+ already_forked = dofork = 0;
+
+ /* If we're in a pipeline or run in the background, set DOFORK so we
+ make the child early, before word expansion. This keeps assignment
+ statements from affecting the parent shell's environment when they
+ should not. */
+ dofork = pipe_in != NO_PIPE || pipe_out != NO_PIPE || async;
+
+ /* Something like `%2 &' should restart job 2 in the background, not cause
+ the shell to fork here. */
+ if (dofork && pipe_in == NO_PIPE && pipe_out == NO_PIPE &&
+ simple_command->words && simple_command->words->word &&
+ simple_command->words->word->word &&
+ (simple_command->words->word->word[0] == '%'))
+ dofork = 0;
+
+ if (dofork)
+ {
+ /* XXX memory leak if expand_words() error causes a jump_to_top_level */
+ command_line = savestring (the_printed_command);
+
+ /* Do this now, because execute_disk_command will do it anyway in the
+ vast majority of cases. */
+ maybe_make_export_env ();
+
+ if (make_child (command_line, async) == 0)
+ {
+ already_forked = 1;
+ simple_command->flags |= CMD_NO_FORK;
+
+ subshell_environment = (pipe_in != NO_PIPE || pipe_out != NO_PIPE)
+ ? (SUBSHELL_PIPE|SUBSHELL_FORK)
+ : (SUBSHELL_ASYNC|SUBSHELL_FORK);
+
+ /* We need to do this before piping to handle some really
+ pathological cases where one of the pipe file descriptors
+ is < 2. */
+ if (fds_to_close)
+ close_fd_bitmap (fds_to_close);
+
+ do_piping (pipe_in, pipe_out);
+ pipe_in = pipe_out = -1;
+
+ last_asynchronous_pid = old_last_async_pid;
+ }
+ else
+ {
+ close_pipes (pipe_in, pipe_out);
+#if defined (PROCESS_SUBSTITUTION) && defined (HAVE_DEV_FD)
+ unlink_fifo_list ();
+#endif
+ command_line = (char *)NULL; /* don't free this. */
+ bind_lastarg ((char *)NULL);
+ return (result);
+ }
+ }
+
+ /* If we are re-running this as the result of executing the `command'
+ builtin, do not expand the command words a second time. */
+ if ((simple_command->flags & CMD_INHIBIT_EXPANSION) == 0)
+ {
+ current_fds_to_close = fds_to_close;
+ fix_assignment_words (simple_command->words);
+ words = expand_words (simple_command->words);
+ current_fds_to_close = (struct fd_bitmap *)NULL;
+ }
+ else
+ words = copy_word_list (simple_command->words);
+
+ /* It is possible for WORDS not to have anything left in it.
+ Perhaps all the words consisted of `$foo', and there was
+ no variable `$foo'. */
+ if (words == 0)
+ {
+ result = execute_null_command (simple_command->redirects,
+ pipe_in, pipe_out,
+ already_forked ? 0 : async,
+ old_last_command_subst_pid);
+ if (already_forked)
+ exit (result);
+ else
+ {
+ bind_lastarg ((char *)NULL);
+ set_pipestatus_from_exit (result);
+ return (result);
+ }
+ }
+
+ lastarg = (char *)NULL;
+
+ begin_unwind_frame ("simple-command");
+
+ if (echo_command_at_execute)
+ xtrace_print_word_list (words);
+
+ builtin = (Function *)NULL;
+ func = (SHELL_VAR *)NULL;
+ if ((simple_command->flags & CMD_NO_FUNCTIONS) == 0)
+ {
+ /* Posix.2 says special builtins are found before functions. We
+ don't set builtin_is_special anywhere other than here, because
+ this path is followed only when the `command' builtin is *not*
+ being used, and we don't want to exit the shell if a special
+ builtin executed with `command builtin' fails. `command' is not
+ a special builtin. */
+ if (posixly_correct)
+ {
+ builtin = find_special_builtin (words->word->word);
+ if (builtin)
+ builtin_is_special = 1;
+ }
+ if (builtin == 0)
+ func = find_function (words->word->word);
+ }
+
+ add_unwind_protect (dispose_words, words);
+ QUIT;
+
+ /* Bind the last word in this command to "$_" after execution. */
+ for (lastword = words; lastword->next; lastword = lastword->next)
+ ;
+ lastarg = lastword->word->word;
+
+#if defined (JOB_CONTROL)
+ /* Is this command a job control related thing? */
+ if (words->word->word[0] == '%' && already_forked == 0)
+ {
+ this_command_name = async ? "bg" : "fg";
+ last_shell_builtin = this_shell_builtin;
+ this_shell_builtin = builtin_address (this_command_name);
+ result = (*this_shell_builtin) (words);
+ goto return_result;
+ }
+
+ /* One other possiblilty. The user may want to resume an existing job.
+ If they do, find out whether this word is a candidate for a running
+ job. */
+ if (job_control && already_forked == 0 && async == 0 &&
+ !first_word_quoted &&
+ !words->next &&
+ words->word->word[0] &&
+ !simple_command->redirects &&
+ pipe_in == NO_PIPE &&
+ pipe_out == NO_PIPE &&
+ (temp = get_string_value ("auto_resume")))
+ {
+ char *word;
+ register int i;
+ int wl, cl, exact, substring, match, started_status;
+ register PROCESS *p;
+
+ word = words->word->word;
+ exact = STREQ (temp, "exact");
+ substring = STREQ (temp, "substring");
+ wl = strlen (word);
+ for (i = job_slots - 1; i > -1; i--)
+ {
+ if (jobs[i] == 0 || (JOBSTATE (i) != JSTOPPED))
+ continue;
+
+ p = jobs[i]->pipe;
+ do
+ {
+ if (exact)
+ {
+ cl = strlen (p->command);
+ match = STREQN (p->command, word, cl);
+ }
+ else if (substring)
+ match = strindex (p->command, word) != (char *)0;
+ else
+ match = STREQN (p->command, word, wl);
+
+ if (match == 0)
+ {
+ p = p->next;
+ continue;
+ }
+
+ run_unwind_frame ("simple-command");
+ this_command_name = "fg";
+ last_shell_builtin = this_shell_builtin;
+ this_shell_builtin = builtin_address ("fg");
+
+ started_status = start_job (i, 1);
+ return ((started_status < 0) ? EXECUTION_FAILURE : started_status);
+ }
+ while (p != jobs[i]->pipe);
+ }
+ }
+#endif /* JOB_CONTROL */
+
+ /* Remember the name of this command globally. */
+ this_command_name = words->word->word;
+
+ QUIT;
+
+ /* This command could be a shell builtin or a user-defined function.
+ We have already found special builtins by this time, so we do not
+ set builtin_is_special. If this is a function or builtin, and we
+ have pipes, then fork a subshell in here. Otherwise, just execute
+ the command directly. */
+ if (func == 0 && builtin == 0)
+ builtin = find_shell_builtin (this_command_name);
+
+ last_shell_builtin = this_shell_builtin;
+ this_shell_builtin = builtin;
+
+ if (builtin || func)
+ {
+ if (already_forked)
+ {
+ /* reset_terminating_signals (); */ /* XXX */
+ /* Cancel traps, in trap.c. */
+ restore_original_signals ();
+
+ if (async)
+ {
+ if ((simple_command->flags & CMD_STDIN_REDIR) &&
+ pipe_in == NO_PIPE &&
+ (stdin_redirects (simple_command->redirects) == 0))
+ async_redirect_stdin ();
+ setup_async_signals ();
+ }
+
+ execute_subshell_builtin_or_function
+ (words, simple_command->redirects, builtin, func,
+ pipe_in, pipe_out, async, fds_to_close,
+ simple_command->flags);
+ }
+ else
+ {
+ result = execute_builtin_or_function
+ (words, builtin, func, simple_command->redirects, fds_to_close,
+ simple_command->flags);
+ if (builtin)
+ {
+ if (result > EX_SHERRBASE)
+ {
+ result = builtin_status (result);
+ if (builtin_is_special)
+ special_builtin_failed = 1;
+ }
+ /* In POSIX mode, if there are assignment statements preceding
+ a special builtin, they persist after the builtin
+ completes. */
+ if (posixly_correct && builtin_is_special && temporary_env)
+ merge_temporary_env ();
+ }
+ else /* function */
+ {
+ if (result == EX_USAGE)
+ result = EX_BADUSAGE;
+ else if (result > EX_SHERRBASE)
+ result = EXECUTION_FAILURE;
+ }
+
+ set_pipestatus_from_exit (result);
+
+ goto return_result;
+ }
+ }
+
+ if (command_line == 0)
+ command_line = savestring (the_printed_command);
+
+ execute_disk_command (words, simple_command->redirects, command_line,
+ pipe_in, pipe_out, async, fds_to_close,
+ simple_command->flags);
return_result:
bind_lastarg (lastarg);
- /* The unwind-protect frame is set up only if WORDS is not empty. */
- if (words)
- run_unwind_frame ("simple-command");
+ FREE (command_line);
+ run_unwind_frame ("simple-command");
return (result);
}
+/* Translate the special builtin exit statuses. We don't really need a
+ function for this; it's a placeholder for future work. */
+static int
+builtin_status (result)
+ int result;
+{
+ int r;
+
+ switch (result)
+ {
+ case EX_USAGE:
+ r = EX_BADUSAGE;
+ break;
+ case EX_REDIRFAIL:
+ case EX_BADSYNTAX:
+ case EX_BADASSIGN:
+ case EX_EXPFAIL:
+ r = EXECUTION_FAILURE;
+ break;
+ default:
+ r = EXECUTION_SUCCESS;
+ break;
+ }
+ return (r);
+}
+
static int
execute_builtin (builtin, words, flags, subshell)
Function *builtin;
WORD_LIST *words;
int flags, subshell;
{
- int old_e_flag = exit_immediately_on_error;
- int result;
+ int old_e_flag, result, eval_unwind;
+ old_e_flag = exit_immediately_on_error;
/* The eval builtin calls parse_and_execute, which does not know about
the setting of flags, and always calls the execution functions with
flags that will exit the shell on an error if -e is set. If the
begin_unwind_frame ("eval_builtin");
unwind_protect_int (exit_immediately_on_error);
exit_immediately_on_error = 0;
+ eval_unwind = 1;
}
+ else
+ eval_unwind = 0;
/* The temporary environment for a builtin is supposed to apply to
all commands executed by that builtin. Currently, this is a
- problem only with the `source' builtin. */
- if (builtin == source_builtin)
+ problem only with the `source' and `eval' builtins. */
+ if (builtin == source_builtin || builtin == eval_builtin)
{
if (subshell == 0)
begin_unwind_frame ("builtin_env");
add_unwind_protect (dispose_builtin_env, (char *)NULL);
dispose_used_env_vars ();
}
-#if 0
- else
- builtin_env = (char **)NULL;
-#endif
+ /* Otherwise we inherit builtin_env from our caller. */
+ }
+
+ /* `return' does a longjmp() back to a saved environment in execute_function.
+ If a variable assignment list preceded the command, and the shell is
+ running in POSIX mode, we need to merge that into the shell_variables
+ table, since `return' is a POSIX special builtin. */
+ if (posixly_correct && subshell == 0 && builtin == return_builtin && temporary_env)
+ {
+ begin_unwind_frame ("return_temp_env");
+ add_unwind_protect (merge_temporary_env, (char *)NULL);
}
result = ((*builtin) (words->next));
- if (subshell == 0 && builtin == source_builtin)
+ /* This shouldn't happen, but in case `return' comes back instead of
+ longjmp'ing, we need to unwind. */
+ if (posixly_correct && subshell == 0 && builtin == return_builtin && temporary_env)
+ discard_unwind_frame ("return_temp_env");
+
+ if (subshell == 0 && (builtin == source_builtin || builtin == eval_builtin))
{
- dispose_builtin_env ();
- discard_unwind_frame ("builtin_env");
+ /* In POSIX mode, if any variable assignments precede the `.' or
+ `eval' builtin, they persist after the builtin completes, since `.'
+ and `eval' are special builtins. */
+ if (posixly_correct && builtin_env)
+ merge_builtin_env ();
+
+ run_unwind_frame ("builtin_env");
}
- if (subshell == 0 && builtin == eval_builtin && (flags & CMD_IGNORE_RETURN))
+ if (eval_unwind)
{
exit_immediately_on_error += old_e_flag;
discard_unwind_frame ("eval_builtin");
return (result);
}
-/* XXX -- why do we need to set up unwind-protects for the case where
- subshell == 1 at all? */
static int
execute_function (var, words, flags, fds_to_close, async, subshell)
SHELL_VAR *var;
{
int return_val, result;
COMMAND *tc, *fc;
+ char *debug_trap;
+ SHELL_VAR *old_shell_function;
tc = (COMMAND *)copy_command (function_cell (var));
if (tc && (flags & CMD_IGNORE_RETURN))
tc->flags |= CMD_IGNORE_RETURN;
- if (subshell)
- begin_unwind_frame ("subshell_function_calling");
- else
- begin_unwind_frame ("function_calling");
-
if (subshell == 0)
{
+ begin_unwind_frame ("function_calling");
push_context ();
add_unwind_protect (pop_context, (char *)NULL);
unwind_protect_int (line_number);
+ unwind_protect_int (return_catch_flag);
+ unwind_protect_jmp_buf (return_catch);
+ add_unwind_protect (dispose_command, (char *)tc);
+ unwind_protect_pointer (this_shell_function);
+ unwind_protect_int (loop_level);
}
- else
- unwind_protect_int (variable_context);
- unwind_protect_int (loop_level);
- unwind_protect_int (return_catch_flag);
- unwind_protect_jmp_buf (return_catch);
- add_unwind_protect (dispose_command, (char *)tc);
+ this_shell_function = var;
+ make_funcname_visible (1);
+
+ debug_trap = (signal_is_trapped (DEBUG_TRAP) && signal_is_ignored (DEBUG_TRAP) == 0)
+ ? trap_list[DEBUG_TRAP]
+ : (char *)NULL;
+ if (debug_trap)
+ {
+ if (subshell == 0)
+ {
+ debug_trap = savestring (debug_trap);
+ /* XXX order is important here! unwind-protect commands are run
+ in reverse order of registering. If this causes problems,
+ take out the xfree unwind-protect and live with the small
+ memory leak. */
+ add_unwind_protect (xfree, debug_trap);
+ add_unwind_protect (set_debug_trap, debug_trap);
+ }
+ restore_default_signal (DEBUG_TRAP);
+ }
/* The temporary environment for a function is supposed to apply to
all commands executed within the function body. */
if (temporary_env)
{
function_env = copy_array (temporary_env);
- add_unwind_protect (dispose_function_env, (char *)NULL);
+ /* In POSIX mode, variable assignments preceding function names are
+ supposed to persist in the environment after the function returns,
+ as if a special builtin command had been executed. */
+ if (subshell == 0)
+ {
+ if (posixly_correct)
+ add_unwind_protect (merge_function_env, (char *)NULL);
+ else
+ add_unwind_protect (dispose_function_env, (char *)NULL);
+ }
dispose_used_env_vars ();
}
-#if 0
- else
- function_env = (char **)NULL;
-#endif
+ /* Otherwise, we inherit function_env from our caller. */
- /* Note the second argument of "1", meaning that we discard
- the current value of "$*"! This is apparently the right thing. */
remember_args (words->next, 1);
+ /* Number of the line on which the function body starts. */
line_number = function_line_number = tc->line;
if (subshell)
#if defined (JOB_CONTROL)
stop_pipeline (async, (COMMAND *)NULL);
#endif
- if (tc->type == cm_group)
- fc = tc->value.Group->command;
- else
- fc = tc;
+ fc = (tc->type == cm_group) ? tc->value.Group->command : tc;
if (fc && (flags & CMD_IGNORE_RETURN))
fc->flags |= CMD_IGNORE_RETURN;
else
result = execute_command_internal (fc, 0, NO_PIPE, NO_PIPE, fds_to_close);
- if (subshell)
- run_unwind_frame ("subshell_function_calling");
- else
+ if (subshell == 0)
run_unwind_frame ("function_calling");
+ if (variable_context == 0 || this_shell_function == 0)
+ make_funcname_visible (0);
+
return (result);
}
+/* A convenience routine for use by other parts of the shell to execute
+ a particular shell function. */
+int
+execute_shell_function (var, words)
+ SHELL_VAR *var;
+ WORD_LIST *words;
+{
+ int ret;
+ struct fd_bitmap *bitmap;
+
+ bitmap = new_fd_bitmap (FD_BITMAP_DEFAULT_SIZE);
+ begin_unwind_frame ("execute-shell-function");
+ add_unwind_protect (dispose_fd_bitmap, (char *)bitmap);
+
+ ret = execute_function (var, words, 0, bitmap, 0, 0);
+
+ dispose_fd_bitmap (bitmap);
+ discard_unwind_frame ("execute-shell-function");
+
+ return ret;
+}
+
/* Execute a shell builtin or function in a subshell environment. This
routine does not return; it only calls exit(). If BUILTIN is non-null,
it points to a function to call to execute a shell builtin; otherwise
struct fd_bitmap *fds_to_close;
int flags;
{
+ int result, r;
+#if defined (JOB_CONTROL)
+ int jobs_hack;
+
+ jobs_hack = (builtin == jobs_builtin) &&
+ ((subshell_environment & SUBSHELL_ASYNC) == 0 || pipe_out != NO_PIPE);
+#endif
+
/* A subshell is neither a login shell nor interactive. */
login_shell = interactive = 0;
- subshell_environment = 1;
+ subshell_environment = SUBSHELL_ASYNC;
- maybe_make_export_env ();
+ maybe_make_export_env (); /* XXX - is this needed? */
#if defined (JOB_CONTROL)
/* Eradicate all traces of job control after we fork the subshell, so
the shell itself. */
/* Allow the output of `jobs' to be piped. */
- if (builtin == jobs_builtin && !async &&
- (pipe_out != NO_PIPE || pipe_in != NO_PIPE))
+ if (jobs_hack)
kill_current_pipeline ();
else
without_job_control ();
set_sigint_handler ();
- do_piping (pipe_in, pipe_out);
-
if (fds_to_close)
close_fd_bitmap (fds_to_close);
+ do_piping (pipe_in, pipe_out);
+
if (do_redirections (redirects, 1, 0, 0) != 0)
exit (EXECUTION_FAILURE);
if (builtin)
{
- int result;
-
/* Give builtins a place to jump back to on failure,
so we don't go back up to main(). */
result = setjmp (top_level);
else if (result)
exit (EXECUTION_FAILURE);
else
- exit (execute_builtin (builtin, words, flags, 1));
+ {
+ r = execute_builtin (builtin, words, flags, 1);
+ if (r == EX_USAGE)
+ r = EX_BADUSAGE;
+ exit (r);
+ }
}
else
- {
- exit (execute_function (var, words, flags, fds_to_close, async, 1));
- }
+ exit (execute_function (var, words, flags, fds_to_close, async, 1));
}
/* Execute a builtin or function in the current shell context. If BUILTIN
struct fd_bitmap *fds_to_close;
int flags;
{
- int result = EXECUTION_FAILURE;
+ int result;
REDIRECT *saved_undo_list;
+ Function *saved_this_shell_builtin;
if (do_redirections (redirects, 1, 1, 0) != 0)
{
cleanup_redirects (redirection_undo_list);
redirection_undo_list = (REDIRECT *)NULL;
dispose_exec_redirects ();
- return (EXECUTION_FAILURE);
+ return (EX_REDIRFAIL); /* was EXECUTION_FAILURE */
}
+ saved_this_shell_builtin = this_shell_builtin;
saved_undo_list = redirection_undo_list;
/* Calling the "exec" builtin changes redirections forever. */
if (saved_undo_list)
{
begin_unwind_frame ("saved redirects");
- add_unwind_protect (cleanup_func_redirects, (char *)saved_undo_list);
- add_unwind_protect (dispose_redirects, (char *)saved_undo_list);
+ add_unwind_protect (cleanup_redirects, (char *)saved_undo_list);
}
redirection_undo_list = (REDIRECT *)NULL;
else
result = execute_function (var, words, flags, fds_to_close, 0, 0);
+ /* If we are executing the `command' builtin, but this_shell_builtin is
+ set to `exec_builtin', we know that we have something like
+ `command exec [redirection]', since otherwise `exec' would have
+ overwritten the shell and we wouldn't get here. In this case, we
+ want to behave as if the `command' builtin had not been specified
+ and preserve the redirections. */
+ if (builtin == command_builtin && this_shell_builtin == exec_builtin)
+ {
+ if (saved_undo_list)
+ dispose_redirects (saved_undo_list);
+ redirection_undo_list = exec_redirection_undo_list;
+ saved_undo_list = exec_redirection_undo_list = (REDIRECT *)NULL;
+ discard_unwind_frame ("saved_redirects");
+ }
+
if (saved_undo_list)
{
redirection_undo_list = saved_undo_list;
if (redirection_undo_list)
{
- do_redirections (redirection_undo_list, 1, 0, 0);
- dispose_redirects (redirection_undo_list);
+ cleanup_redirects (redirection_undo_list);
redirection_undo_list = (REDIRECT *)NULL;
}
void
setup_async_signals ()
{
+#if defined (__BEOS__)
+ set_signal_handler (SIGHUP, SIG_IGN); /* they want csh-like behavior */
+#endif
+
#if defined (JOB_CONTROL)
if (job_control == 0)
#endif
this gnarly hair, for no good reason. */
static void
execute_disk_command (words, redirects, command_line, pipe_in, pipe_out,
- async, fds_to_close, nofork)
+ async, fds_to_close, cmdflags)
WORD_LIST *words;
REDIRECT *redirects;
char *command_line;
int pipe_in, pipe_out, async;
struct fd_bitmap *fds_to_close;
- int nofork; /* Don't fork, just exec, if no pipes */
+ int cmdflags;
{
- register char *pathname;
- char *hashed_file, *command, **args;
- int pid, temp_path;
- SHELL_VAR *path;
+ char *pathname, *command, **args;
+ int nofork;
+ pid_t pid;
+ nofork = (cmdflags & CMD_NO_FORK); /* Don't fork, just exec, if no pipes */
pathname = words->word->word;
+
#if defined (RESTRICTED_SHELL)
if (restricted && strchr (pathname, '/'))
{
- report_error ("%s: restricted: cannot specify `/' in command names",
+ internal_error ("%s: restricted: cannot specify `/' in command names",
pathname);
last_command_exit_value = EXECUTION_FAILURE;
return;
}
#endif /* RESTRICTED_SHELL */
- hashed_file = command = (char *)NULL;
-
- /* If PATH is in the temporary environment for this command, don't use the
- hash table to search for the full pathname. */
- temp_path = 0;
- path = find_tempenv_variable ("PATH");
- if (path)
- temp_path = 1;
-
- /* Don't waste time trying to find hashed data for a pathname
- that is already completely specified. */
-
- if (!path && !absolute_program (pathname))
- hashed_file = find_hashed_filename (pathname);
-
- /* If a command found in the hash table no longer exists, we need to
- look for it in $PATH. Thank you Posix.2. This forces us to stat
- every command found in the hash table. It seems pretty stupid to me,
- so I am basing it on the presence of POSIXLY_CORRECT. */
-
- if (hashed_file && posixly_correct)
- {
- int st;
-
- st = file_status (hashed_file);
- if ((st ^ (FS_EXISTS | FS_EXECABLE)) != 0)
- {
- remove_hashed_filename (pathname);
- hashed_file = (char *)NULL;
- }
- }
+ command = search_for_command (pathname);
- if (hashed_file)
- command = savestring (hashed_file);
- else if (absolute_program (pathname))
- /* A command containing a slash is not looked up in PATH or saved in
- the hash table. */
- command = savestring (pathname);
- else
+ if (command)
{
- command = find_user_command (pathname);
- if (command && !hashing_disabled && !temp_path)
- remember_filename (pathname, command, dot_found_in_search, 1);
+ maybe_make_export_env ();
+ put_command_name_into_env (command);
}
- maybe_make_export_env ();
-
- if (command)
- put_command_name_into_env (command);
-
- /* We have to make the child before we check for the non-existance
+ /* We have to make the child before we check for the non-existence
of COMMAND, since we want the error messages to be redirected. */
/* If we can get away without forking and there are no pipes to deal with,
don't bother to fork, just directly exec the command. */
{
int old_interactive;
+#if 0
+ /* This has been disabled for the time being. */
+#if !defined (ARG_MAX) || ARG_MAX >= 10240
+ if (posixly_correct == 0)
+ put_gnu_argv_flags_into_env ((int)getpid (), glob_argv_flags);
+#endif
+#endif
+
/* Cancel traps, in trap.c. */
restore_original_signals ();
/* restore_original_signals may have undone the work done
- by make_child to ensure that SIGINT and SIGQUIT are ignored
- in asynchronous children. */
- if (async)
- setup_async_signals ();
-
- do_piping (pipe_in, pipe_out);
-
- /* Execve expects the command name to be in args[0]. So we
- leave it there, in the same format that the user used to
- type it in. */
- args = make_word_array (words);
-
+ by make_child to ensure that SIGINT and SIGQUIT are ignored
+ in asynchronous children. */
if (async)
{
- old_interactive = interactive;
- interactive = 0;
+ if ((cmdflags & CMD_STDIN_REDIR) &&
+ pipe_in == NO_PIPE &&
+ (stdin_redirects (redirects) == 0))
+ async_redirect_stdin ();
+ setup_async_signals ();
}
- subshell_environment = 1;
-
/* This functionality is now provided by close-on-exec of the
file descriptors manipulated by redirection and piping.
Some file descriptors still need to be closed in all children
- because of the way bash does pipes; fds_to_close is a
+ because of the way bash does pipes; fds_to_close is a
bitmap of all such file descriptors. */
if (fds_to_close)
close_fd_bitmap (fds_to_close);
+ do_piping (pipe_in, pipe_out);
+
+ if (async)
+ {
+ old_interactive = interactive;
+ interactive = 0;
+ }
+
+ subshell_environment = SUBSHELL_FORK;
+
if (redirects && (do_redirections (redirects, 1, 0, 0) != 0))
{
#if defined (PROCESS_SUBSTITUTION)
if (async)
interactive = old_interactive;
- if (!command)
+ if (command == 0)
{
- report_error ("%s: command not found", args[0]);
+ internal_error ("%s: command not found", pathname);
exit (EX_NOTFOUND); /* Posix.2 says the exit status is 127 */
}
+ /* Execve expects the command name to be in args[0]. So we
+ leave it there, in the same format that the user used to
+ type it in. */
+ args = word_list_to_argv (words, 0, 0, (int *)NULL);
exit (shell_execve (command, args, export_env));
}
else
}
}
+#if !defined (HAVE_HASH_BANG_EXEC)
/* If the operating system on which we're running does not handle
the #! executable format, then help out. SAMPLE is the text read
from the file, SAMPLE_LEN characters. COMMAND is the name of
The word immediately following the #! is the interpreter to execute.
A single argument to the interpreter is allowed. */
+
+/* CPP defines to decide whether a particular index into the #! line
+ corresponds to a valid interpreter name or argument character, or
+ whitespace. The MSDOS define is to allow \r to be treated the same
+ as \n. */
+
+#if !defined (MSDOS)
+# define STRINGCHAR(ind) \
+ (!whitespace (sample[ind]) && sample[ind] != '\n' && ind < sample_len)
+# define WHITECHAR(ind) \
+ (whitespace (sample[ind]) && sample[ind] != '\n' && ind < sample_len)
+#else /* MSDOS */
+# define STRINGCHAR(ind) \
+ (!whitespace (sample[ind]) && sample[ind] != '\n' && sample[ind] != '\r' && ind < sample_len)
+# define WHITECHAR(ind) \
+ (whitespace (sample[ind]) && sample[ind] != '\n' && sample[ind] != '\r' && ind < sample_len)
+#endif /* MSDOS */
+
static int
execute_shell_script (sample, sample_len, command, args, env)
unsigned char *sample;
for (i = 2; whitespace (sample[i]) && i < sample_len; i++)
;
- for (start = i;
- !whitespace (sample[i]) && sample[i] != '\n' && i < sample_len;
- i++)
+ for (start = i; STRINGCHAR(i); i++)
;
- execname = xmalloc (1 + (i - start));
- strncpy (execname, (char *) (sample + start), i - start);
- execname[i - start] = '\0';
+ execname = substring ((char *)sample, start, i);
size_increment = 1;
/* Now the argument, if any. */
- firstarg = (char *)NULL;
- for (start = i;
- whitespace (sample[i]) && sample[i] != '\n' && i < sample_len;
- i++)
+ for (firstarg = (char *)NULL, start = i; WHITECHAR(i); i++)
;
/* If there is more text on the line, then it is an argument for the
interpreter. */
- if (i < sample_len && sample[i] != '\n' && !whitespace (sample[i]))
+
+ if (STRINGCHAR(i))
{
- for (start = i;
- !whitespace (sample[i]) && sample[i] != '\n' && i < sample_len;
- i++)
+ for (start = i; STRINGCHAR(i); i++)
;
- firstarg = xmalloc (1 + (i - start));
- strncpy (firstarg, (char *)(sample + start), i - start);
- firstarg[i - start] = '\0';
-
+ firstarg = substring ((char *)sample, start, i);
size_increment = 2;
}
return (shell_execve (execname, args, env));
}
+#undef STRINGCHAR
+#undef WHITECHAR
-/* Call execve (), handling interpreting shell scripts, and handling
- exec failures. */
-int
-shell_execve (command, args, env)
- char *command;
- char **args, **env;
-{
-#if defined (isc386) && defined (_POSIX_SOURCE)
- __setostype (0); /* Turn on USGr3 semantics. */
- execve (command, args, env);
- __setostype (1); /* Turn the POSIX semantics back on. */
-#else
- execve (command, args, env);
-#endif /* !(isc386 && _POSIX_SOURCE) */
+#endif /* !HAVE_HASH_BANG_EXEC */
- /* If we get to this point, then start checking out the file.
- Maybe it is something we can hack ourselves. */
- {
- struct stat finfo;
-
- if (errno != ENOEXEC)
- {
- if ((stat (command, &finfo) == 0) &&
- (S_ISDIR (finfo.st_mode)))
- report_error ("%s: is a directory", args[0]);
- else
- file_error (command);
-
- return (EX_NOEXEC); /* XXX Posix.2 says that exit status is 126 */
- }
- else
- {
- /* This file is executable.
- If it begins with #!, then help out people with losing operating
- systems. Otherwise, check to see if it is a binary file by seeing
- if the first line (or up to 30 characters) are in the ASCII set.
- Execute the contents as shell commands. */
- int larray = array_len (args) + 1;
- int i, should_exec = 0;
-
- {
- int fd = open (command, O_RDONLY);
- if (fd != -1)
- {
- unsigned char sample[80];
- int sample_len = read (fd, &sample[0], 80);
-
- close (fd);
-
- if (sample_len == 0)
- return (EXECUTION_SUCCESS);
-
- /* Is this supposed to be an executable script?
- If so, the format of the line is "#! interpreter [argument]".
- A single argument is allowed. The BSD kernel restricts
- the length of the entire line to 32 characters (32 bytes
- being the size of the BSD exec header), but we allow 80
- characters. */
-
- if (sample_len > 0 && sample[0] == '#' && sample[1] == '!')
- return (execute_shell_script
- (sample, sample_len, command, args, env));
- else if ((sample_len != -1) &&
- check_binary_file (sample, sample_len))
- {
- report_error ("%s: cannot execute binary file", command);
- return (EX_BINARY_FILE);
- }
- }
- }
-#if defined (JOB_CONTROL)
- /* Forget about the way that job control was working. We are
- in a subshell. */
- without_job_control ();
-#endif /* JOB_CONTROL */
+static void
+initialize_subshell ()
+{
#if defined (ALIAS)
- /* Forget about any aliases that we knew of. We are in a subshell. */
- delete_all_aliases ();
+ /* Forget about any aliases that we knew of. We are in a subshell. */
+ delete_all_aliases ();
#endif /* ALIAS */
+#if defined (HISTORY)
+ /* Forget about the history lines we have read. This is a non-interactive
+ subshell. */
+ history_lines_this_session = 0;
+#endif
+
#if defined (JOB_CONTROL)
- set_sigchld_handler ();
+ /* Forget about the way job control was working. We are in a subshell. */
+ without_job_control ();
+ set_sigchld_handler ();
#endif /* JOB_CONTROL */
- set_sigint_handler ();
- /* Insert the name of this shell into the argument list. */
- args = (char **)xrealloc ((char *)args, (1 + larray) * sizeof (char *));
+ /* Reset the values of the shell flags and options. */
+ reset_shell_flags ();
+ reset_shell_options ();
+ reset_shopt_options ();
- for (i = larray - 1; i; i--)
- args[i] = args[i - 1];
+ /* Zero out builtin_env, since this could be a shell script run from a
+ sourced file with a temporary environment supplied to the `source/.'
+ builtin. Such variables are not supposed to be exported (empirical
+ testing with sh and ksh). */
+ builtin_env = 0;
- args[0] = shell_name;
- args[1] = command;
- args[larray] = (char *)NULL;
+ clear_unwind_protect_list (0);
- if (args[0][0] == '-')
- args[0]++;
+ /* We're no longer inside a shell function. */
+ variable_context = return_catch_flag = 0;
- if (should_exec)
- {
- struct stat finfo;
+ /* If we're not interactive, close the file descriptor from which we're
+ reading the current shell script. */
+ if (interactive_shell == 0)
+ unset_bash_input (1);
+}
-#if defined (isc386) && defined (_POSIX_SOURCE)
- __setostype (0); /* Turn on USGr3 semantics. */
- execve (shell_name, args, env);
- __setostype (1); /* Turn the POSIX semantics back on. */
+#if defined (HAVE_SETOSTYPE) && defined (_POSIX_SOURCE)
+# define SETOSTYPE(x) __setostype(x)
#else
- execve (shell_name, args, env);
-#endif /* isc386 && _POSIX_SOURCE */
-
- /* Oh, no! We couldn't even exec this! */
- if ((stat (args[0], &finfo) == 0) && (S_ISDIR (finfo.st_mode)))
- report_error ("%s: is a directory", args[0]);
- else
- file_error (args[0]);
-
- return (EXECUTION_FAILURE);
- }
- else
- {
- subshell_argc = larray;
- subshell_argv = args;
- subshell_envp = env;
- longjmp (subshell_top_level, 1);
- }
- }
- }
-}
+# define SETOSTYPE(x)
+#endif
-#if defined (PROCESS_SUBSTITUTION)
-/* Currently unused */
-void
-close_all_files ()
+#define READ_SAMPLE_BUF(file, buf, len) \
+ do \
+ { \
+ fd = open(file, O_RDONLY); \
+ if (fd >= 0) \
+ { \
+ len = read (fd, (char *)buf, 80); \
+ close (fd); \
+ } \
+ else \
+ len = -1; \
+ } \
+ while (0)
+
+/* Call execve (), handling interpreting shell scripts, and handling
+ exec failures. */
+int
+shell_execve (command, args, env)
+ char *command;
+ char **args, **env;
{
- register int i, fd_table_size;
-
- fd_table_size = getdtablesize ();
- if (fd_table_size > 256) /* clamp to a reasonable value */
- fd_table_size = 256;
-
- for (i = 3; i < fd_table_size; i++)
- close (i);
-}
-#endif /* PROCESS_SUBSTITUTION */
+ struct stat finfo;
+ int larray, i, fd;
+ unsigned char sample[80];
+ int sample_len;
-static void
-close_pipes (in, out)
- int in, out;
-{
- if (in >= 0)
- close (in);
- if (out >= 0)
- close (out);
-}
+ SETOSTYPE (0); /* Some systems use for USG/POSIX semantics */
+ execve (command, args, env);
+ i = errno; /* error from execve() */
+ SETOSTYPE (1);
-/* Redirect input and output to be from and to the specified pipes.
- NO_PIPE and REDIRECT_BOTH are handled correctly. */
-static void
-do_piping (pipe_in, pipe_out)
- int pipe_in, pipe_out;
-{
- if (pipe_in != NO_PIPE)
- {
- if (dup2 (pipe_in, 0) < 0)
- internal_error ("cannot duplicate fd %d to fd 0: %s",
- pipe_in, strerror (errno));
- if (pipe_in > 0)
- close (pipe_in);
- }
- if (pipe_out != NO_PIPE)
+ /* If we get to this point, then start checking out the file.
+ Maybe it is something we can hack ourselves. */
+ if (i != ENOEXEC)
{
- if (pipe_out != REDIRECT_BOTH)
- {
- if (dup2 (pipe_out, 1) < 0)
- internal_error ("cannot duplicate fd %d to fd 1: %s",
- pipe_out, strerror (errno));
- if (pipe_out == 0 || pipe_out > 1)
- close (pipe_out);
- }
+ if ((stat (command, &finfo) == 0) && (S_ISDIR (finfo.st_mode)))
+ internal_error ("%s: is a directory", command);
else
- dup2 (1, 2);
- }
-}
-
-#define AMBIGUOUS_REDIRECT -1
-#define NOCLOBBER_REDIRECT -2
-#define RESTRICTED_REDIRECT -3 /* Only can happen in restricted shells. */
-
-/* Perform the redirections on LIST. If FOR_REAL, then actually make
- input and output file descriptors, otherwise just do whatever is
- neccessary for side effecting. INTERNAL says to remember how to
- undo the redirections later, if non-zero. If SET_CLEXEC is non-zero,
- file descriptors opened in do_redirection () have their close-on-exec
- flag set. */
-static int
-do_redirections (list, for_real, internal, set_clexec)
- REDIRECT *list;
- int for_real, internal, set_clexec;
-{
- register int error;
- register REDIRECT *temp = list;
-
- if (internal)
- {
- if (redirection_undo_list)
- {
- dispose_redirects (redirection_undo_list);
- redirection_undo_list = (REDIRECT *)NULL;
- }
- if (exec_redirection_undo_list)
- dispose_exec_redirects ();
- }
-
- while (temp)
- {
- error = do_redirection_internal (temp, for_real, internal, set_clexec);
-
- if (error)
{
- char *filename;
-
- if (expandable_redirection_filename (temp))
- {
- if (posixly_correct && !interactive_shell)
- disallow_filename_globbing++;
- filename = redirection_expand (temp->redirectee.filename);
- if (posixly_correct && !interactive_shell)
- disallow_filename_globbing--;
-
- if (!filename)
- filename = savestring ("");
- }
- else
- filename = itos (temp->redirectee.dest);
-
- switch (error)
+#if defined (HAVE_HASH_BANG_EXEC)
+ READ_SAMPLE_BUF (command, sample, sample_len);
+ if (sample_len > 2 && sample[0] == '#' && sample[1] == '!')
{
- case AMBIGUOUS_REDIRECT:
- report_error ("%s: Ambiguous redirect", filename);
- break;
-
- case NOCLOBBER_REDIRECT:
- report_error ("%s: Cannot clobber existing file", filename);
- break;
-
-#if defined (RESTRICTED_SHELL)
- case RESTRICTED_REDIRECT:
- report_error ("%s: output redirection restricted", filename);
- break;
-#endif /* RESTRICTED_SHELL */
-
- default:
- report_error ("%s: %s", filename, strerror (error));
- break;
+ errno = i;
+ sys_error ("%s: bad interpreter", command);
+ return (EX_NOEXEC);
}
-
- free (filename);
- return (error);
- }
-
- temp = temp->next;
- }
- return (0);
-}
-
-/* Return non-zero if the redirection pointed to by REDIRECT has a
- redirectee.filename that can be expanded. */
-static int
-expandable_redirection_filename (redirect)
- REDIRECT *redirect;
-{
- int result;
-
- switch (redirect->instruction)
- {
- case r_output_direction:
- case r_appending_to:
- case r_input_direction:
- case r_inputa_direction:
- case r_err_and_out:
- case r_input_output:
- case r_output_force:
- case r_duplicating_input_word:
- case r_duplicating_output_word:
- result = 1;
- break;
-
- default:
- result = 0;
- }
- return (result);
-}
-\f
-/* Expand the word in WORD returning a string. If WORD expands to
- multiple words (or no words), then return NULL. */
-char *
-redirection_expand (word)
- WORD_DESC *word;
-{
- char *result;
- WORD_LIST *tlist1, *tlist2;
-
- tlist1 = make_word_list (copy_word (word), (WORD_LIST *)NULL);
- tlist2 = expand_words_no_vars (tlist1);
- dispose_words (tlist1);
-
- if (!tlist2 || tlist2->next)
- {
- /* We expanded to no words, or to more than a single word.
- Dispose of the word list and return NULL. */
- if (tlist2)
- dispose_words (tlist2);
- return ((char *)NULL);
- }
- result = string_list (tlist2);
- dispose_words (tlist2);
- return (result);
-}
-
-/* Do the specific redirection requested. Returns errno in case of error.
- If FOR_REAL is zero, then just do whatever is neccessary to produce the
- appropriate side effects. REMEMBERING, if non-zero, says to remember
- how to undo each redirection. If SET_CLEXEC is non-zero, then
- we set all file descriptors > 2 that we open to be close-on-exec. */
-static int
-do_redirection_internal (redirect, for_real, remembering, set_clexec)
- REDIRECT *redirect;
- int for_real, remembering, set_clexec;
-{
- WORD_DESC *redirectee = redirect->redirectee.filename;
- int redir_fd = redirect->redirectee.dest;
- int fd, redirector = redirect->redirector;
- char *redirectee_word;
- enum r_instruction ri = redirect->instruction;
- REDIRECT *new_redirect;
-
- if (ri == r_duplicating_input_word || ri == r_duplicating_output_word)
- {
- /* We have [N]>&WORD or [N]<&WORD. Expand WORD, then translate
- the redirection into a new one and continue. */
- redirectee_word = redirection_expand (redirectee);
-
- if (redirectee_word[0] == '-' && redirectee_word[1] == '\0')
- {
- rd.dest = 0L;
- new_redirect = make_redirection (redirector, r_close_this, rd);
- }
- else if (all_digits (redirectee_word))
- {
- if (ri == r_duplicating_input_word)
- {
- rd.dest = atol (redirectee_word);
- new_redirect = make_redirection (redirector, r_duplicating_input, rd);
- }
- else
- {
- rd.dest = atol (redirectee_word);
- new_redirect = make_redirection (redirector, r_duplicating_output, rd);
- }
- }
- else if (ri == r_duplicating_output_word && redirector == 1)
- {
- if (!posixly_correct)
- {
- rd.filename = make_word (redirectee_word);
- new_redirect = make_redirection (1, r_err_and_out, rd);
- }
- else
- new_redirect = copy_redirect (redirect);
- }
- else
- {
- free (redirectee_word);
- return (AMBIGUOUS_REDIRECT);
- }
-
- free (redirectee_word);
-
- /* Set up the variables needed by the rest of the function from the
- new redirection. */
- if (new_redirect->instruction == r_err_and_out)
- {
- char *alloca_hack;
-
- /* Copy the word without allocating any memory that must be
- explicitly freed. */
- redirectee = (WORD_DESC *)alloca (sizeof (WORD_DESC));
- xbcopy ((char *)new_redirect->redirectee.filename,
- (char *)redirectee, sizeof (WORD_DESC));
-
- alloca_hack = (char *)
- alloca (1 + strlen (new_redirect->redirectee.filename->word));
- redirectee->word = alloca_hack;
- strcpy (redirectee->word, new_redirect->redirectee.filename->word);
+#endif
+ errno = i;
+ file_error (command);
}
- else
- /* It's guaranteed to be an integer, and shouldn't be freed. */
- redirectee = new_redirect->redirectee.filename;
-
- redir_fd = new_redirect->redirectee.dest;
- redirector = new_redirect->redirector;
- ri = new_redirect->instruction;
-
- /* Overwrite the flags element of the old redirect with the new value. */
- redirect->flags = new_redirect->flags;
- dispose_redirects (new_redirect);
+ return ((i == ENOENT) ? EX_NOTFOUND : EX_NOEXEC); /* XXX Posix.2 says that exit status is 126 */
}
- switch (ri)
- {
- case r_output_direction:
- case r_appending_to:
- case r_input_direction:
- case r_inputa_direction:
- case r_err_and_out: /* command &>filename */
- case r_input_output:
- case r_output_force:
-
- if (posixly_correct && !interactive_shell)
- disallow_filename_globbing++;
- redirectee_word = redirection_expand (redirectee);
- if (posixly_correct && !interactive_shell)
- disallow_filename_globbing--;
-
- if (!redirectee_word)
- return (AMBIGUOUS_REDIRECT);
-
-#if defined (RESTRICTED_SHELL)
- if (restricted && (ri == r_output_direction ||
- ri == r_input_output ||
- ri == r_err_and_out ||
- ri == r_appending_to ||
- ri == r_output_force))
- {
- free (redirectee_word);
- return (RESTRICTED_REDIRECT);
- }
-#endif /* RESTRICTED_SHELL */
+ /* This file is executable.
+ If it begins with #!, then help out people with losing operating
+ systems. Otherwise, check to see if it is a binary file by seeing
+ if the contents of the first line (or up to 80 characters) are in the
+ ASCII set. If it's a text file, execute the contents as shell commands,
+ otherwise return 126 (EX_BINARY_FILE). */
+ READ_SAMPLE_BUF (command, sample, sample_len);
- /* If we are in noclobber mode, you are not allowed to overwrite
- existing files. Check first. */
- if (noclobber && (ri == r_output_direction ||
- ri == r_input_output ||
- ri == r_err_and_out))
- {
- struct stat finfo;
- int stat_result;
-
- stat_result = stat (redirectee_word, &finfo);
-
- if ((stat_result == 0) && (S_ISREG (finfo.st_mode)))
- {
- free (redirectee_word);
- return (NOCLOBBER_REDIRECT);
- }
-
- /* If the file was not present, make sure we open it exclusively
- so that if it is created before we open it, our open will fail. */
- if (stat_result != 0)
- redirect->flags |= O_EXCL;
-
- fd = open (redirectee_word, redirect->flags, 0666);
+ if (sample_len == 0)
+ return (EXECUTION_SUCCESS);
- if ((fd < 0) && (errno == EEXIST))
- {
- free (redirectee_word);
- return (NOCLOBBER_REDIRECT);
- }
- }
+ /* Is this supposed to be an executable script?
+ If so, the format of the line is "#! interpreter [argument]".
+ A single argument is allowed. The BSD kernel restricts
+ the length of the entire line to 32 characters (32 bytes
+ being the size of the BSD exec header), but we allow 80
+ characters. */
+ if (sample_len > 0)
+ {
+#if !defined (HAVE_HASH_BANG_EXEC)
+ if (sample_len > 2 && sample[0] == '#' && sample[1] == '!')
+ return (execute_shell_script (sample, sample_len, command, args, env));
else
- {
- fd = open (redirectee_word, redirect->flags, 0666);
-#if defined (AFS_CREATE_BUG)
- if ((fd < 0) && (errno == EACCES))
- fd = open (redirectee_word, (redirect->flags & ~O_CREAT), 0666);
-#endif /* AFS_CREATE_BUG */
- }
- free (redirectee_word);
-
- if (fd < 0)
- return (errno);
-
- if (for_real)
- {
- if (remembering)
- /* Only setup to undo it if the thing to undo is active. */
- if ((fd != redirector) && (fcntl (redirector, F_GETFD, 0) != -1))
- add_undo_redirect (redirector);
- else
- add_undo_close_redirect (redirector);
-
-#if defined (BUFFERED_INPUT)
- check_bash_input (redirector);
#endif
-
- if ((fd != redirector) && (dup2 (fd, redirector) < 0))
- return (errno);
-
-#if defined (BUFFERED_INPUT)
- /* Do not change the buffered stream for an implicit redirection
- of /dev/null to fd 0 for asynchronous commands without job
- control (r_inputa_direction). */
- if (ri == r_input_direction || ri == r_input_output)
- duplicate_buffered_stream (fd, redirector);
-#endif /* BUFFERED_INPUT */
-
- /*
- * If we're remembering, then this is the result of a while, for
- * or until loop with a loop redirection, or a function/builtin
- * executing in the parent shell with a redirection. In the
- * function/builtin case, we want to set all file descriptors > 2
- * to be close-on-exec to duplicate the effect of the old
- * for i = 3 to NOFILE close(i) loop. In the case of the loops,
- * both sh and ksh leave the file descriptors open across execs.
- * The Posix standard mentions only the exec builtin.
- */
- if (set_clexec && (redirector > 2))
- SET_CLOSE_ON_EXEC (redirector);
- }
-
- if (fd != redirector)
+ if (check_binary_file (sample, sample_len))
{
-#if defined (BUFFERED_INPUT)
- if (ri == r_input_direction || ri == r_inputa_direction ||
- ri == r_input_output)
- close_buffered_fd (fd);
- else
-#endif /* !BUFFERED_INPUT */
- close (fd); /* Don't close what we just opened! */
- }
-
- /* If we are hacking both stdout and stderr, do the stderr
- redirection here. */
- if (ri == r_err_and_out)
- {
- if (for_real)
- {
- if (remembering)
- add_undo_redirect (2);
- if (dup2 (1, 2) < 0)
- return (errno);
- }
+ internal_error ("%s: cannot execute binary file", command);
+ return (EX_BINARY_FILE);
}
- break;
-
- case r_reading_until:
- case r_deblank_reading_until:
- /* REDIRECTEE is a pointer to a WORD_DESC containing the text of
- the new input. Place it in a temporary file. */
- if (redirectee)
- {
- char filename[40];
- pid_t pid = getpid ();
-
- /* Make the filename for the temp file. */
- sprintf (filename, "/tmp/t%d-sh", pid);
-
- fd = open (filename, O_TRUNC | O_WRONLY | O_CREAT, 0666);
- if (fd < 0)
- return (errno);
-
- errno = 0; /* XXX */
- if (redirectee->word)
- {
- char *document;
- int document_len;
-
- /* Expand the text if the word that was specified had
- no quoting. The text that we expand is treated
- exactly as if it were surrounded by double quotes. */
-
- if (redirectee->quoted)
- {
- document = redirectee->word;
- document_len = strlen (document);
- /* Set errno to something reasonable if the write fails. */
- if (write (fd, document, document_len) < document_len)
- {
- if (errno == 0)
- errno = ENOSPC;
- close (fd);
- return (errno);
- }
- }
- else
- {
- WORD_LIST *tlist;
- tlist = expand_string (redirectee->word, Q_HERE_DOCUMENT);
- if (tlist)
- {
- int fd2;
- FILE *fp;
- register WORD_LIST *t;
-
- /* Try using buffered I/O (stdio) and writing a word
- at a time, letting stdio do the work of buffering
- for us rather than managing our own strings. Most
- stdios are not particularly fast, however -- this
- may need to be reconsidered later. */
- if ((fd2 = dup (fd)) < 0 ||
- (fp = fdopen (fd2, "w")) == NULL)
- {
- if (fd2 >= 0)
- close (fd2);
- close (fd);
- return (errno);
- }
- errno = 0; /* XXX */
- for (t = tlist; t; t = t->next)
- {
- /* This is essentially the body of
- string_list_internal expanded inline. */
- document = t->word->word;
- document_len = strlen (document);
- if (t != tlist)
- putc (' ', fp); /* separator */
- fwrite (document, document_len, 1, fp);
- if (ferror (fp))
- {
- if (errno == 0)
- errno = ENOSPC;
- break;
- }
- }
- fclose (fp);
- dispose_words (tlist);
- }
- }
- }
-
- close (fd);
- if (errno)
- return (errno);
+ }
- /* Make the document really temporary. Also make it the input. */
- fd = open (filename, O_RDONLY, 0666);
+ /* We have committed to attempting to execute the contents of this file
+ as shell commands. */
- if (unlink (filename) < 0 || fd < 0)
- {
- if (fd >= 0)
- close (fd);
- return (errno);
- }
+ initialize_subshell ();
- if (for_real)
- {
- if (remembering)
- /* Only setup to undo it if the thing to undo is active. */
- if ((fd != redirector) && (fcntl (redirector, F_GETFD, 0) != -1))
- add_undo_redirect (redirector);
- else
- add_undo_close_redirect (redirector);
+ set_sigint_handler ();
-#if defined (BUFFERED_INPUT)
- check_bash_input (redirector);
-#endif
- if (dup2 (fd, redirector) < 0)
- {
- close (fd);
- return (errno);
- }
+ /* Insert the name of this shell into the argument list. */
+ larray = array_len (args) + 1;
+ args = (char **)xrealloc ((char *)args, (1 + larray) * sizeof (char *));
-#if defined (BUFFERED_INPUT)
- duplicate_buffered_stream (fd, redirector);
-#endif
+ for (i = larray - 1; i; i--)
+ args[i] = args[i - 1];
- if (set_clexec && (redirector > 2))
- SET_CLOSE_ON_EXEC (redirector);
- }
+ args[0] = shell_name;
+ args[1] = command;
+ args[larray] = (char *)NULL;
-#if defined (BUFFERED_INPUT)
- close_buffered_fd (fd);
-#else
- close (fd);
-#endif
- }
- break;
-
- case r_duplicating_input:
- case r_duplicating_output:
- if (for_real && (redir_fd != redirector))
- {
- if (remembering)
- /* Only setup to undo it if the thing to undo is active. */
- if (fcntl (redirector, F_GETFD, 0) != -1)
- add_undo_redirect (redirector);
- else
- add_undo_close_redirect (redirector);
+ if (args[0][0] == '-')
+ args[0]++;
-#if defined (BUFFERED_INPUT)
- check_bash_input (redirector);
+#if defined (RESTRICTED_SHELL)
+ if (restricted)
+ change_flag ('r', FLAG_OFF);
#endif
- /* This is correct. 2>&1 means dup2 (1, 2); */
- if (dup2 (redir_fd, redirector) < 0)
- return (errno);
-#if defined (BUFFERED_INPUT)
- if (ri == r_duplicating_input)
- duplicate_buffered_stream (redir_fd, redirector);
-#endif /* BUFFERED_INPUT */
-
- /* First duplicate the close-on-exec state of redirectee. dup2
- leaves the flag unset on the new descriptor, which means it
- stays open. Only set the close-on-exec bit for file descriptors
- greater than 2 in any case, since 0-2 should always be open
- unless closed by something like `exec 2<&-'. */
- /* if ((already_set || set_unconditionally) && (ok_to_set))
- set_it () */
- if (((fcntl (redir_fd, F_GETFD, 0) == 1) || set_clexec) &&
- (redirector > 2))
- SET_CLOSE_ON_EXEC (redirector);
- }
- break;
-
- case r_close_this:
- if (for_real)
- {
- if (remembering && (fcntl (redirector, F_GETFD, 0) != -1))
- add_undo_redirect (redirector);
-
-#if defined (BUFFERED_INPUT)
- check_bash_input (redirector);
- close_buffered_fd (redirector);
-#else /* !BUFFERED_INPUT */
- close (redirector);
-#endif /* !BUFFERED_INPUT */
- }
- break;
- }
- return (0);
-}
-
-#define SHELL_FD_BASE 10
-
-/* Remember the file descriptor associated with the slot FD,
- on REDIRECTION_UNDO_LIST. Note that the list will be reversed
- before it is executed. Any redirections that need to be undone
- even if REDIRECTION_UNDO_LIST is discarded by the exec builtin
- are also saved on EXEC_REDIRECTION_UNDO_LIST. */
-static int
-add_undo_redirect (fd)
- int fd;
-{
- int new_fd, clexec_flag;
- REDIRECT *new_redirect, *closer;
-
- new_fd = fcntl (fd, F_DUPFD, SHELL_FD_BASE);
-
- if (new_fd < 0)
+ if (subshell_argv)
{
- file_error ("redirection error");
- return (-1);
+ /* Can't free subshell_argv[0]; that is shell_name. */
+ for (i = 1; i < subshell_argc; i++)
+ free (subshell_argv[i]);
+ free (subshell_argv);
}
- else
- {
- REDIRECT *dummy_redirect;
-
- clexec_flag = fcntl (fd, F_GETFD, 0);
-
- rd.dest = 0L;
- closer = make_redirection (new_fd, r_close_this, rd);
- dummy_redirect = copy_redirects (closer);
-
- rd.dest = (long)new_fd;
- new_redirect = make_redirection (fd, r_duplicating_output, rd);
- new_redirect->next = closer;
-
- closer->next = redirection_undo_list;
- redirection_undo_list = new_redirect;
-
- /* Save redirections that need to be undone even if the undo list
- is thrown away by the `exec' builtin. */
- add_exec_redirect (dummy_redirect);
- /* File descriptors used only for saving others should always be
- marked close-on-exec. Unfortunately, we have to preserve the
- close-on-exec state of the file descriptor we are saving, since
- fcntl (F_DUPFD) sets the new file descriptor to remain open
- across execs. If, however, the file descriptor whose state we
- are saving is <= 2, we can just set the close-on-exec flag,
- because file descriptors 0-2 should always be open-on-exec,
- and the restore above in do_redirection() will take care of it. */
- if (clexec_flag || fd < 3)
- SET_CLOSE_ON_EXEC (new_fd);
- }
- return (0);
-}
+ dispose_command (currently_executing_command); /* XXX */
+ currently_executing_command = (COMMAND *)NULL;
-/* Set up to close FD when we are finished with the current command
- and its redirections. */
-static void
-add_undo_close_redirect (fd)
- int fd;
-{
- REDIRECT *closer;
+ subshell_argc = larray;
+ subshell_argv = args;
+ subshell_envp = env;
- rd.dest = 0L;
- closer = make_redirection (fd, r_close_this, rd);
- closer->next = redirection_undo_list;
- redirection_undo_list = closer;
-}
+ unbind_args (); /* remove the positional parameters */
-static void
-add_exec_redirect (dummy_redirect)
- REDIRECT *dummy_redirect;
-{
- dummy_redirect->next = exec_redirection_undo_list;
- exec_redirection_undo_list = dummy_redirect;
+ longjmp (subshell_top_level, 1);
}
-intern_function (name, function)
+static int
+execute_intern_function (name, function)
WORD_DESC *name;
COMMAND *function;
{
SHELL_VAR *var;
- if (!check_identifier (name, posixly_correct))
- return (EXECUTION_FAILURE);
+ if (check_identifier (name, posixly_correct) == 0)
+ {
+ if (posixly_correct && interactive_shell == 0)
+ {
+ last_command_exit_value = EX_USAGE;
+ jump_to_top_level (EXITPROG);
+ }
+ return (EXECUTION_FAILURE);
+ }
var = find_function (name->word);
- if (var && readonly_p (var))
+ if (var && (readonly_p (var) || noassign_p (var)))
{
- report_error ("%s: readonly function", var->name);
+ if (readonly_p (var))
+ internal_error ("%s: readonly function", var->name);
return (EXECUTION_FAILURE);
}
return (EXECUTION_SUCCESS);
}
-#define u_mode_bits(x) (((x) & 0000700) >> 6)
-#define g_mode_bits(x) (((x) & 0000070) >> 3)
-#define o_mode_bits(x) (((x) & 0000007) >> 0)
-#define X_BIT(x) ((x) & 1)
-
-/* Return some flags based on information about this file.
- The EXISTS bit is non-zero if the file is found.
- The EXECABLE bit is non-zero the file is executble.
- Zero is returned if the file is not found. */
-int
-file_status (name)
- char *name;
-{
- struct stat finfo;
- static int user_id = -1;
-
- /* Determine whether this file exists or not. */
- if (stat (name, &finfo) < 0)
- return (0);
-
- /* If the file is a directory, then it is not "executable" in the
- sense of the shell. */
- if (S_ISDIR (finfo.st_mode))
- return (FS_EXISTS);
-
-#if defined (AFS)
- /* We have to use access(2) to determine access because AFS does not
- support Unix file system semantics. This may produce wrong
- answers for non-AFS files when ruid != euid. I hate AFS. */
- if (access (name, X_OK) == 0)
- return (FS_EXISTS | FS_EXECABLE);
- else
- return (FS_EXISTS);
-#else /* !AFS */
-
- /* Find out if the file is actually executable. By definition, the
- only other criteria is that the file has an execute bit set that
- we can use. */
- if (user_id == -1)
- user_id = current_user.euid;
-
- /* Root only requires execute permission for any of owner, group or
- others to be able to exec a file. */
- if (user_id == 0)
- {
- int bits;
-
- bits = (u_mode_bits (finfo.st_mode) |
- g_mode_bits (finfo.st_mode) |
- o_mode_bits (finfo.st_mode));
-
- if (X_BIT (bits))
- return (FS_EXISTS | FS_EXECABLE);
- }
-
- /* If we are the owner of the file, the owner execute bit applies. */
- if (user_id == finfo.st_uid && X_BIT (u_mode_bits (finfo.st_mode)))
- return (FS_EXISTS | FS_EXECABLE);
-
- /* If we are in the owning group, the group permissions apply. */
- if (group_member (finfo.st_gid) && X_BIT (g_mode_bits (finfo.st_mode)))
- return (FS_EXISTS | FS_EXECABLE);
-
- /* If `others' have execute permission to the file, then so do we,
- since we are also `others'. */
- if (X_BIT (o_mode_bits (finfo.st_mode)))
- return (FS_EXISTS | FS_EXECABLE);
- else
- return (FS_EXISTS);
-#endif /* !AFS */
-}
-
-/* Return non-zero if FILE exists and is executable.
- Note that this function is the definition of what an
- executable file is; do not change this unless YOU know
- what an executable file is. */
-int
-executable_file (file)
- char *file;
-{
- return (file_status (file) & FS_EXECABLE);
-}
-
-/* DOT_FOUND_IN_SEARCH becomes non-zero when find_user_command ()
- encounters a `.' as the directory pathname while scanning the
- list of possible pathnames; i.e., if `.' comes before the directory
- containing the file of interest. */
-int dot_found_in_search = 0;
-
-/* Locate the executable file referenced by NAME, searching along
- the contents of the shell PATH variable. Return a new string
- which is the full pathname to the file, or NULL if the file
- couldn't be found. If a file is found that isn't executable,
- and that is the only match, then return that. */
-char *
-find_user_command (name)
- char *name;
-{
- return (find_user_command_internal (name, FS_EXEC_PREFERRED));
-}
-
-/* Locate the file referenced by NAME, searching along the contents
- of the shell PATH variable. Return a new string which is the full
- pathname to the file, or NULL if the file couldn't be found. This
- returns the first file found. */
-char *
-find_path_file (name)
- char *name;
-{
- return (find_user_command_internal (name, FS_EXISTS));
-}
-
-static char *
-find_user_command_internal (name, flags)
- char *name;
- int flags;
-{
- char *path_list;
- SHELL_VAR *var;
-
- /* Search for the value of PATH in both the temporary environment, and
- in the regular list of variables. */
- if (var = find_variable_internal ("PATH", 1))
- path_list = value_cell (var);
- else
- path_list = (char *)NULL;
-
- if (path_list == 0 || *path_list == '\0')
- return (savestring (name));
-
- return (find_user_command_in_path (name, path_list, flags));
-}
-
-/* Return the next element from PATH_LIST, a colon separated list of
- paths. PATH_INDEX_POINTER is the address of an index into PATH_LIST;
- the index is modified by this function.
- Return the next element of PATH_LIST or NULL if there are no more. */
-static char *
-get_next_path_element (path_list, path_index_pointer)
- char *path_list;
- int *path_index_pointer;
+#if defined (INCLUDE_UNUSED)
+#if defined (PROCESS_SUBSTITUTION)
+void
+close_all_files ()
{
- char *path;
-
- path = extract_colon_unit (path_list, path_index_pointer);
-
- if (!path)
- return (path);
+ register int i, fd_table_size;
- if (!*path)
- {
- free (path);
- path = savestring (".");
- }
+ fd_table_size = getdtablesize ();
+ if (fd_table_size > 256) /* clamp to a reasonable value */
+ fd_table_size = 256;
- return (path);
+ for (i = 3; i < fd_table_size; i++)
+ close (i);
}
+#endif /* PROCESS_SUBSTITUTION */
+#endif
-char *
-user_command_matches (name, flags, state)
- char *name;
- int flags, state;
+static void
+close_pipes (in, out)
+ int in, out;
{
- register int i;
- char *path_list;
- int path_index;
- char *path_element;
- char *match;
- static char **match_list = NULL;
- static int match_list_size = 0;
- static int match_index = 0;
-
- if (!state)
- {
- /* Create the list of matches. */
- if (!match_list)
- {
- match_list =
- (char **) xmalloc ((match_list_size = 5) * sizeof(char *));
-
- for (i = 0; i < match_list_size; i++)
- match_list[i] = 0;
- }
-
- /* Clear out the old match list. */
- for (i = 0; i < match_list_size; i++)
- match_list[i] = NULL;
-
- /* We haven't found any files yet. */
- match_index = 0;
-
- path_list = get_string_value ("PATH");
- path_index = 0;
-
- while (path_list && path_list[path_index])
- {
- path_element = get_next_path_element (path_list, &path_index);
-
- if (!path_element)
- break;
-
- match = find_user_command_in_path (name, path_element, flags);
-
- free (path_element);
-
- if (!match)
- continue;
-
- if (match_index + 1 == match_list_size)
- match_list = (char **)xrealloc
- (match_list, ((match_list_size += 10) + 1) * sizeof (char *));
- match_list[match_index++] = match;
- match_list[match_index] = (char *)NULL;
- }
-
- /* We haven't returned any strings yet. */
- match_index = 0;
- }
-
- match = match_list[match_index];
-
- if (match)
- match_index++;
-
- return (match);
+ if (in >= 0)
+ close (in);
+ if (out >= 0)
+ close (out);
}
-/* Return 1 if PATH1 and PATH2 are the same file. This is kind of
- expensive. If non-NULL STP1 and STP2 point to stat structures
- corresponding to PATH1 and PATH2, respectively. */
-int
-same_file (path1, path2, stp1, stp2)
- char *path1, *path2;
- struct stat *stp1, *stp2;
+/* Redirect input and output to be from and to the specified pipes.
+ NO_PIPE and REDIRECT_BOTH are handled correctly. */
+static void
+do_piping (pipe_in, pipe_out)
+ int pipe_in, pipe_out;
{
- struct stat st1, st2;
-
- if (stp1 == NULL)
- {
- if (stat (path1, &st1) != 0)
- return (0);
- stp1 = &st1;
- }
-
- if (stp2 == NULL)
+ if (pipe_in != NO_PIPE)
{
- if (stat (path2, &st2) != 0)
- return (0);
- stp2 = &st2;
+ if (dup2 (pipe_in, 0) < 0)
+ sys_error ("cannot duplicate fd %d to fd 0", pipe_in);
+ if (pipe_in > 0)
+ close (pipe_in);
}
-
- return ((stp1->st_dev == stp2->st_dev) && (stp1->st_ino == stp2->st_ino));
-}
-
-/* Turn PATH, a directory, and NAME, a filename, into a full pathname.
- This allocates new memory and returns it. */
-static char *
-make_full_pathname (path, name, name_len)
- char *path, *name;
- int name_len;
-{
- char *full_path;
- int path_len;
-
- path_len = strlen (path);
- full_path = xmalloc (2 + path_len + name_len);
- strcpy (full_path, path);
- full_path[path_len] = '/';
- strcpy (full_path + path_len + 1, name);
- return (full_path);
-}
-
-/* This does the dirty work for find_path_file () and find_user_command ().
- NAME is the name of the file to search for.
- PATH_LIST is a colon separated list of directories to search.
- FLAGS contains bit fields which control the files which are eligible.
- Some values are:
- FS_EXEC_ONLY: The file must be an executable to be found.
- FS_EXEC_PREFERRED: If we can't find an executable, then the
- the first file matching NAME will do.
- FS_EXISTS: The first file found will do.
-*/
-static char *
-find_user_command_in_path (name, path_list, flags)
- char *name;
- char *path_list;
- int flags;
-{
- char *full_path, *path, *file_to_lose_on;
- int status, path_index, name_len;
- struct stat finfo;
-
- name_len = strlen (name);
-
- /* The file name which we would try to execute, except that it isn't
- possible to execute it. This is the first file that matches the
- name that we are looking for while we are searching $PATH for a
- suitable one to execute. If we cannot find a suitable executable
- file, then we use this one. */
- file_to_lose_on = (char *)NULL;
-
- /* We haven't started looking, so we certainly haven't seen
- a `.' as the directory path yet. */
- dot_found_in_search = 0;
-
- if (absolute_program (name))
+ if (pipe_out != NO_PIPE)
{
- full_path = xmalloc (1 + name_len);
- strcpy (full_path, name);
-
- status = file_status (full_path);
-
- /* If the file doesn't exist, quit now. */
- if (!(status & FS_EXISTS))
+ if (pipe_out != REDIRECT_BOTH)
{
- free (full_path);
- return ((char *)NULL);
+ if (dup2 (pipe_out, 1) < 0)
+ sys_error ("cannot duplicate fd %d to fd 1", pipe_out);
+ if (pipe_out == 0 || pipe_out > 1)
+ close (pipe_out);
}
-
- /* If we only care about whether the file exists or not, return
- this filename. */
- if (flags & FS_EXISTS)
- return (full_path);
-
- /* Otherwise, maybe we care about whether this file is executable.
- If it is, and that is what we want, return it. */
- if ((flags & FS_EXEC_ONLY) && (status & FS_EXECABLE))
- return (full_path);
else
{
- free (full_path);
- return ((char *)NULL);
- }
- }
-
- /* Find out the location of the current working directory. */
- stat (".", &finfo);
-
- path_index = 0;
- while (path_list && path_list[path_index])
- {
- /* Allow the user to interrupt out of a lengthy path search. */
- QUIT;
-
- path = get_next_path_element (path_list, &path_index);
-
- if (!path)
- break;
-
- if (*path == '~')
- {
- char *t = tilde_expand (path);
- free (path);
- path = t;
+ if (dup2 (1, 2) < 0)
+ sys_error ("cannot duplicate fd 1 to fd 2");
}
-
- /* Remember the location of "." in the path, in all its forms
- (as long as they begin with a `.', e.g. `./.') */
- if (!dot_found_in_search && (*path == '.') &&
- same_file (".", path, &finfo, (struct stat *)NULL))
- dot_found_in_search = 1;
-
- full_path = make_full_pathname (path, name, name_len);
- free (path);
-
- status = file_status (full_path);
-
- if (!(status & FS_EXISTS))
- goto next_file;
-
- /* The file exists. If the caller simply wants the first file,
- here it is. */
- if (flags & FS_EXISTS)
- return (full_path);
-
- /* If the file is executable, then it satisfies the cases of
- EXEC_ONLY and EXEC_PREFERRED. Return this file unconditionally. */
- if (status & FS_EXECABLE)
- {
- FREE (file_to_lose_on);
-
- return (full_path);
- }
-
- /* The file is not executable, but it does exist. If we prefer
- an executable, then remember this one if it is the first one
- we have found. */
- if (flags & FS_EXEC_PREFERRED)
- {
- if (!file_to_lose_on)
- file_to_lose_on = savestring (full_path);
- }
-
- next_file:
- free (full_path);
- }
-
- /* We didn't find exactly what the user was looking for. Return
- the contents of FILE_TO_LOSE_ON which is NULL when the search
- required an executable, or non-NULL if a file was found and the
- search would accept a non-executable as a last resort. */
- return (file_to_lose_on);
-}
-
-/* Given a string containing units of information separated by colons,
- return the next one pointed to by (P_INDEX), or NULL if there are no more.
- Advance (P_INDEX) to the character after the colon. */
-char *
-extract_colon_unit (string, p_index)
- char *string;
- int *p_index;
-{
- int i, start;
-
- i = *p_index;
-
- if (!string || (i >= (int)strlen (string)))
- return ((char *)NULL);
-
- /* Each call to this routine leaves the index pointing at a colon if
- there is more to the path. If I is > 0, then increment past the
- `:'. If I is 0, then the path has a leading colon. Trailing colons
- are handled OK by the `else' part of the if statement; an empty
- string is returned in that case. */
- if (i && string[i] == ':')
- i++;
-
- start = i;
-
- while (string[i] && string[i] != ':') i++;
-
- *p_index = i;
-
- if (i == start)
- {
- if (string[i])
- (*p_index)++;
-
- /* Return "" in the case of a trailing `:'. */
- return (savestring (""));
- }
- else
- {
- char *value;
-
- value = xmalloc (1 + i - start);
- strncpy (value, string + start, i - start);
- value [i - start] = '\0';
-
- return (value);
- }
-}
-
-/* Return non-zero if the characters from SAMPLE are not all valid
- characters to be found in the first line of a shell script. We
- check up to the first newline, or SAMPLE_LEN, whichever comes first.
- All of the characters must be printable or whitespace. */
-
-#if !defined (isspace)
-#define isspace(c) ((c) == ' ' || (c) == '\t' || (c) == '\n' || (c) == '\f')
-#endif
-
-#if !defined (isprint)
-#define isprint(c) (isletter(c) || digit(c) || ispunct(c))
-#endif
-
-int
-check_binary_file (sample, sample_len)
- unsigned char *sample;
- int sample_len;
-{
- register int i;
-
- for (i = 0; i < sample_len; i++)
- {
- if (sample[i] == '\n')
- break;
-
- if (!isspace (sample[i]) && !isprint (sample[i]))
- return (1);
}
- return (0);
}