/* I can't stand it anymore! Please can't we just write the whole Unix system in lisp or something? */ /* Copyright (C) 1987,1989 Free Software Foundation, Inc. This file is part of GNU Bash, the Bourne Again SHell. 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 2, or (at your option) any later version. Bash is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. 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, 59 Temple Place, Suite 330, Boston, MA 02111 USA. */ /* **************************************************************** */ /* */ /* Unwind Protection Scheme for Bash */ /* */ /* **************************************************************** */ #include "config.h" #include "bashtypes.h" #include "bashansi.h" #if defined (HAVE_UNISTD_H) # include #endif #include "command.h" #include "general.h" #include "unwind_prot.h" #include "quit.h" #include "sig.h" /* If CLEANUP is null, then ARG contains a tag to throw back to. */ typedef struct _uwp { struct _uwp *next; Function *cleanup; char *arg; } UNWIND_ELT; /* Structure describing a saved variable and the value to restore it to. If a cleanup function is set to restore_variable, the `arg' pointer points to this. */ typedef struct { int *variable; char *desired_setting; int size; } SAVED_VAR; static void unwind_frame_discard_internal (), unwind_frame_run_internal (); static void add_unwind_protect_internal (), remove_unwind_protect_internal (); static void run_unwind_protects_internal (), without_interrupts (); static void restore_variable (); static void discard_saved_var (); static UNWIND_ELT *unwind_protect_list = (UNWIND_ELT *)NULL; extern int interrupt_immediately; /* Run a function without interrupts. This relies on the fact that the FUNCTION cannot change the value of interrupt_immediately. (I.e., does not call QUIT (). */ static void without_interrupts (function, arg1, arg2) VFunction *function; char *arg1, *arg2; { int old_interrupt_immediately; old_interrupt_immediately = interrupt_immediately; interrupt_immediately = 0; (*function)(arg1, arg2); interrupt_immediately = old_interrupt_immediately; } /* Start the beginning of a region. */ void begin_unwind_frame (tag) char *tag; { add_unwind_protect ((Function *)NULL, tag); } /* Discard the unwind protects back to TAG. */ void discard_unwind_frame (tag) char *tag; { if (unwind_protect_list) without_interrupts (unwind_frame_discard_internal, tag, (char *)NULL); } /* Run the unwind protects back to TAG. */ void run_unwind_frame (tag) char *tag; { if (unwind_protect_list) without_interrupts (unwind_frame_run_internal, tag, (char *)NULL); } /* Add the function CLEANUP with ARG to the list of unwindable things. */ void add_unwind_protect (cleanup, arg) Function *cleanup; char *arg; { without_interrupts (add_unwind_protect_internal, (char *)cleanup, arg); } /* Remove the top unwind protect from the list. */ void remove_unwind_protect () { if (unwind_protect_list) without_interrupts (remove_unwind_protect_internal, (char *)NULL, (char *)NULL); } /* Run the list of cleanup functions in unwind_protect_list. */ void run_unwind_protects () { if (unwind_protect_list) without_interrupts (run_unwind_protects_internal, (char *)NULL, (char *)NULL); } /* **************************************************************** */ /* */ /* The Actual Functions */ /* */ /* **************************************************************** */ static void add_unwind_protect_internal (cleanup, arg) Function *cleanup; char *arg; { UNWIND_ELT *elt; elt = (UNWIND_ELT *)xmalloc (sizeof (UNWIND_ELT)); elt->cleanup = cleanup; elt->arg = arg; elt->next = unwind_protect_list; unwind_protect_list = elt; } static void remove_unwind_protect_internal () { UNWIND_ELT *elt; elt = unwind_protect_list; if (elt) { unwind_protect_list = unwind_protect_list->next; if (elt->cleanup && elt->cleanup == (Function *)restore_variable) discard_saved_var ((SAVED_VAR *)elt->arg); free (elt); } } static void run_unwind_protects_internal () { UNWIND_ELT *t, *elt = unwind_protect_list; while (elt) { /* This function can be run at strange times, like when unwinding the entire world of unwind protects. Thus, we may come across an element which is simply a label for a catch frame. Don't call the non-existant function. */ if (elt->cleanup) (*(elt->cleanup)) (elt->arg); t = elt; elt = elt->next; free (t); } unwind_protect_list = elt; } static void unwind_frame_discard_internal (tag) char *tag; { UNWIND_ELT *elt; while (elt = unwind_protect_list) { unwind_protect_list = unwind_protect_list->next; if (elt->cleanup == 0 && (STREQ (elt->arg, tag))) { free (elt); break; } else if (elt->cleanup && elt->cleanup == (Function *)restore_variable) { discard_saved_var ((SAVED_VAR *)elt->arg); free (elt); } else free (elt); } } static void unwind_frame_run_internal (tag) char *tag; { UNWIND_ELT *elt; while (elt = unwind_protect_list) { unwind_protect_list = elt->next; /* If tag, then compare. */ if (!elt->cleanup) { if (STREQ (elt->arg, tag)) { free (elt); break; } free (elt); continue; } else { (*(elt->cleanup)) (elt->arg); free (elt); } } } static void discard_saved_var (sv) SAVED_VAR *sv; { if (sv->size != sizeof (int)) free (sv->desired_setting); free (sv); } /* Restore the value of a variable, based on the contents of SV. If sv->size is greater than sizeof (int), sv->desired_setting points to a block of memory SIZE bytes long holding the value, rather than the value itself. This block of memory is copied back into the variable. */ static void restore_variable (sv) SAVED_VAR *sv; { if (sv->size != sizeof (int)) { FASTCOPY ((char *)sv->desired_setting, (char *)sv->variable, sv->size); free (sv->desired_setting); } else *(sv->variable) = (int)sv->desired_setting; free (sv); } /* Save the value of a variable so it will be restored when unwind-protects are run. VAR is a pointer to the variable. VALUE is the value to be saved. SIZE is the size in bytes of VALUE. If SIZE is bigger than what can be saved in an int, memory will be allocated and the value saved into that using bcopy (). */ void unwind_protect_var (var, value, size) int *var; char *value; int size; { SAVED_VAR *s = (SAVED_VAR *)xmalloc (sizeof (SAVED_VAR)); s->variable = var; if (size != sizeof (int)) { /* There is a problem here when VALUE is 0. This tries to copy the first SIZE bytes starting at memory location 0 into s->desired_setting. There is no guarantee that these bytes are 0, or make a valid null pointer. We can try to bzero the space, or just save it as 0 (or (void *)0). If we do the latter, make sure restore_variable is changed to understand it. */ s->desired_setting = (char *)xmalloc (size); if (value == 0) bzero ((char *)s->desired_setting, size); else FASTCOPY (value, (char *)s->desired_setting, size); } else s->desired_setting = value; s->size = size; add_unwind_protect ((Function *)restore_variable, (char *)s); }