;;;; Dump the current Lisp image into a core file. Also contains ;;;; various high-level initialization stuff: loading init files and ;;;; parsing environment variables. ;;;; ;;;; (All the real work is done by C.) ;;;; This software is part of the SBCL system. See the README file for ;;;; more information. ;;;; ;;;; This software is derived from the CMU CL system, which was ;;;; written at Carnegie Mellon University and released into the ;;;; public domain. The software is in the public domain and is ;;;; provided with absolutely no warranty. See the COPYING and CREDITS ;;;; files for more information. (in-package "SB!IMPL") ;;;; SAVE-LISP-AND-DIE itself (define-alien-routine "save" (boolean) (file c-string) (initial-fun (unsigned #.sb!vm:n-word-bits)) (prepend-runtime int)) #!+gencgc (define-alien-routine "gc_and_save" void (file c-string) (prepend-runtime int)) #!+gencgc (defvar sb!vm::*restart-lisp-function*) (defun save-lisp-and-die (core-file-name &key (toplevel #'toplevel-init) (purify t) (root-structures ()) (environment-name "auxiliary") (executable nil)) #!+sb-doc "Save a \"core image\", i.e. enough information to restart a Lisp process later in the same state, in the file of the specified name. Only global state is preserved: the stack is unwound in the process. The following &KEY arguments are defined: :TOPLEVEL The function to run when the created core file is resumed. The default function handles command line toplevel option processing and runs the top level read-eval-print loop. This function should not return. :EXECUTABLE If true, arrange to combine the SBCL runtime and the core image to create a standalone executable. If false (the default), the core image will not be executable on its own. :PURIFY If true (the default on cheneygc), do a purifying GC which moves all dynamically allocated objects into static space. This takes somewhat longer than the normal GC which is otherwise done, but it's only done once, and subsequent GC's will be done less often and will take less time in the resulting core file. See the PURIFY function. This parameter has no effect on platforms using the generational garbage collector. :ROOT-STRUCTURES This should be a list of the main entry points in any newly loaded systems. This need not be supplied, but locality and/or GC performance may be better if they are. Meaningless if :PURIFY is NIL. See the PURIFY function. :ENVIRONMENT-NAME This is also passed to the PURIFY function when :PURIFY is T. (rarely used) The save/load process changes the values of some global variables: *STANDARD-OUTPUT*, *DEBUG-IO*, etc. Everything related to open streams is necessarily changed, since the OS won't let us preserve a stream across save and load. *DEFAULT-PATHNAME-DEFAULTS* This is reinitialized to reflect the working directory where the saved core is loaded. Foreign objects loaded with SB-ALIEN:LOAD-SHARED-OBJECT are automatically reloaded on startup, but references to foreign symbols do not survive intact on all platforms: in this case a WARNING is signalled when saving the core. If no warning is signalled, then the foreign symbol references will remain intact. Platforms where this is currently the case are x86/FreeBSD, x86/Linux, x86/NetBSD, sparc/Linux, sparc/SunOS, and ppc/Darwin. On threaded platforms only a single thread may remain running after SB-EXT:*SAVE-HOOKS* have run. Applications using multiple threads can be SAVE-LISP-AND-DIE friendly by registering a save-hook that quits any additional threads, and an init-hook that restarts them. This implementation is not as polished and painless as you might like: * It corrupts the current Lisp image enough that the current process needs to be killed afterwards. This can be worked around by forking another process that saves the core. * There is absolutely no binary compatibility of core images between different runtime support programs. Even runtimes built from the same sources at different times are treated as incompatible for this purpose. This isn't because we like it this way, but just because there don't seem to be good quick fixes for either limitation and no one has been sufficiently motivated to do lengthy fixes." #!+gencgc (declare (ignore purify root-structures environment-name)) (tune-hashtable-sizes-of-all-packages) (deinit) ;; FIXME: Would it be possible to unmix the PURIFY logic from this ;; function, and just do a GC :FULL T here? (Then if the user wanted ;; a PURIFYed image, he'd just run PURIFY immediately before calling ;; SAVE-LISP-AND-DIE.) (labels ((restart-lisp () (handling-end-of-the-world (reinit) (funcall toplevel))) (save-core (gc) (when gc #!-gencgc (gc) ;; Do a destructive non-conservative GC, and then save a core. ;; A normal GC will leave huge amounts of storage unreclaimed ;; (over 50% on x86). This needs to be done by a single function ;; since the GC will invalidate the stack. #!+gencgc (gc-and-save (unix-namestring core-file-name nil) (if executable 1 0))) (without-gcing (save (unix-namestring core-file-name nil) (get-lisp-obj-address #'restart-lisp) (if executable 1 0))))) ;; Save the restart function into a static symbol, to allow GC-AND-SAVE ;; access to it even after the GC has moved it. #!+gencgc (setf sb!vm::*restart-lisp-function* #'restart-lisp) (cond #!-gencgc (purify (purify :root-structures root-structures :environment-name environment-name) (save-core nil)) (t ;; Compact the environment even though we're skipping the ;; other purification stages. (sb!kernel::compact-environment-aux "Auxiliary" 200) (save-core t))))) (defun deinit () (call-hooks "save" *save-hooks*) (when (rest (sb!thread:list-all-threads)) (error "Cannot save core with multiple threads running.")) (float-deinit) (profile-deinit) (debug-deinit) (foreign-deinit) (stream-deinit) (deinit-finalizers))