From edba3282e8c83ef5e9e821fb158183886913be13 Mon Sep 17 00:00:00 2001 From: Jeff Johnston Date: Mon, 15 Jul 2002 20:16:32 +0000 Subject: 2002-07-15 Jeff Johnston * libc/sys/linux/Makefile.am: Add new files. * libc/sys/linux/Makefile.in: Regenerated. * libc/sys/linux/bp-sym.h: Moved to include directory. * libc/sys/linux/mmap.c: Add weak aliases: __mmap, __munmap, __mremap. * libc/sys/linux/inode.c: Set _LIBC to 1. * libc/sys/linux/mq_close.c: Ditto. * libc/sys/linux/mq_getattr.c: Ditto. * libc/sys/linux/mq_open.c: Ditto. * libc/sys/linux/mq_receive.c: Ditto. * libc/sys/linux/mq_send.c: Ditto. * libc/sys/linux/mq_setattr.c: Ditto. * libc/sys/linux/mq_unlink.c: Ditto. * libc/sys/linux/calloc.c: New file. * libc/sys/linux/callocr.c: Ditto. * libc/sys/linux/cfreer.c: Ditto. * libc/sys/linux/config.h: Ditto. * libc/sys/linux/free.c: Ditto. * libc/sys/linux/freer.c: Ditto. * libc/sys/linux/msize.c: Ditto. * libc/sys/linux/msizer.c: Ditto. * libc/sys/linux/mstats.c: Ditto. * libc/sys/linux/mtrim.c: Ditto. * libc/sys/linux/mtrimr.c: Ditto. * libc/sys/linux/pvallocr.c: Ditto. * libc/sys/linux/realloc.c: Ditto. * libc/sys/linux/reallocr.c: Ditto. * libc/sys/linux/thread-m.h: Ditto. * libc/sys/linux/vallocr.c: Ditto. * libc/sys/linux/bp-checks.h: Ditto. * libc/sys/linux/libc-symbols.h: Ditto. * libc/sys/linux/libc-tsd.h: Ditto. * libc/sys/linux/libintl.h: Ditto. * libc/sys/linux/malign.c: Ditto. * libc/sys/linux/malignr.c: Ditto. * libc/sys/linux/mallinfor.c: Ditto. * libc/sys/linux/malloc.c: Ditto. * libc/sys/linux/mallocr.c: Ditto. * libc/sys/linux/malloptr.c: Ditto. * libc/sys/linux/mallstatsr.c: Ditto. * libc/sys/linux/mcheck.c: Ditto. * libc/sys/linux/mhooks.h: Ditto. * libc/sys/linux/include/bp-sym.h: Ditto. * libc/sys/linux/include/malloc.h: Ditto. * libc/sys/linux/include/mcheck.h: Ditto. * libc/sys/linux/machine/i386/getpagesize.c: New file. * libc/sys/linux/machine/i386/Makefile.am: Add getpagesize.c. * libc/sys/linux/machine/i386/Makefile.in: Regenerated. * libc/sys/linux/machine/i386/sysdep.h: New file. * libc/sys/linux/machine/i386/weakalias.h: Add weak_function support. * libc/sys/linux/sys/dirent.h: Set _LIBC to 1. * libc/sys/linux/sys/types.h: Add new types. --- newlib/libc/sys/linux/Makefile.am | 29 + newlib/libc/sys/linux/Makefile.in | 96 +- newlib/libc/sys/linux/bp-checks.h | 129 + newlib/libc/sys/linux/calloc.c | 1 + newlib/libc/sys/linux/callocr.c | 1 + newlib/libc/sys/linux/cfreer.c | 7 + newlib/libc/sys/linux/config.h | 18 + newlib/libc/sys/linux/free.c | 1 + newlib/libc/sys/linux/freer.c | 7 + newlib/libc/sys/linux/include/bp-sym.h | 6 + newlib/libc/sys/linux/include/malloc.h | 266 ++ newlib/libc/sys/linux/include/mcheck.h | 62 + newlib/libc/sys/linux/inode.c | 2 +- newlib/libc/sys/linux/libc-symbols.h | 352 ++ newlib/libc/sys/linux/libc-tsd.h | 44 + newlib/libc/sys/linux/libintl.h | 9 + newlib/libc/sys/linux/machine/i386/Makefile.am | 2 +- newlib/libc/sys/linux/machine/i386/Makefile.in | 8 +- newlib/libc/sys/linux/machine/i386/getpagesize.c | 6 + newlib/libc/sys/linux/machine/i386/sysdep.h | 1 + newlib/libc/sys/linux/machine/i386/weakalias.h | 4 + newlib/libc/sys/linux/malign.c | 1 + newlib/libc/sys/linux/malignr.c | 7 + newlib/libc/sys/linux/mallinfor.c | 7 + newlib/libc/sys/linux/malloc.c | 5077 ++++++++++++++++++++++ newlib/libc/sys/linux/mallocr.c | 7 + newlib/libc/sys/linux/malloptr.c | 7 + newlib/libc/sys/linux/mallstatsr.c | 7 + newlib/libc/sys/linux/mcheck.c | 356 ++ newlib/libc/sys/linux/mhooks.h | 12 + newlib/libc/sys/linux/mmap.c | 4 + newlib/libc/sys/linux/mq_close.c | 2 +- newlib/libc/sys/linux/mq_getattr.c | 2 +- newlib/libc/sys/linux/mq_open.c | 2 +- newlib/libc/sys/linux/mq_receive.c | 2 +- newlib/libc/sys/linux/mq_send.c | 2 +- newlib/libc/sys/linux/mq_setattr.c | 2 +- newlib/libc/sys/linux/mq_unlink.c | 2 +- newlib/libc/sys/linux/msize.c | 1 + newlib/libc/sys/linux/msizer.c | 7 + newlib/libc/sys/linux/mstats.c | 1 + newlib/libc/sys/linux/mtrim.c | 1 + newlib/libc/sys/linux/mtrimr.c | 7 + newlib/libc/sys/linux/pvallocr.c | 7 + newlib/libc/sys/linux/realloc.c | 1 + newlib/libc/sys/linux/reallocr.c | 7 + newlib/libc/sys/linux/sys/dirent.h | 2 +- newlib/libc/sys/linux/sys/types.h | 32 + newlib/libc/sys/linux/thread-m.h | 241 + newlib/libc/sys/linux/vallocr.c | 7 + 50 files changed, 6823 insertions(+), 41 deletions(-) create mode 100644 newlib/libc/sys/linux/bp-checks.h create mode 100644 newlib/libc/sys/linux/calloc.c create mode 100644 newlib/libc/sys/linux/callocr.c create mode 100644 newlib/libc/sys/linux/cfreer.c create mode 100644 newlib/libc/sys/linux/config.h create mode 100644 newlib/libc/sys/linux/free.c create mode 100644 newlib/libc/sys/linux/freer.c create mode 100644 newlib/libc/sys/linux/include/bp-sym.h create mode 100644 newlib/libc/sys/linux/include/malloc.h create mode 100644 newlib/libc/sys/linux/include/mcheck.h create mode 100644 newlib/libc/sys/linux/libc-symbols.h create mode 100644 newlib/libc/sys/linux/libc-tsd.h create mode 100644 newlib/libc/sys/linux/libintl.h create mode 100644 newlib/libc/sys/linux/machine/i386/getpagesize.c create mode 100644 newlib/libc/sys/linux/machine/i386/sysdep.h create mode 100644 newlib/libc/sys/linux/malign.c create mode 100644 newlib/libc/sys/linux/malignr.c create mode 100644 newlib/libc/sys/linux/mallinfor.c create mode 100644 newlib/libc/sys/linux/malloc.c create mode 100644 newlib/libc/sys/linux/mallocr.c create mode 100644 newlib/libc/sys/linux/malloptr.c create mode 100644 newlib/libc/sys/linux/mallstatsr.c create mode 100644 newlib/libc/sys/linux/mcheck.c create mode 100644 newlib/libc/sys/linux/mhooks.h create mode 100644 newlib/libc/sys/linux/msize.c create mode 100644 newlib/libc/sys/linux/msizer.c create mode 100644 newlib/libc/sys/linux/mstats.c create mode 100644 newlib/libc/sys/linux/mtrim.c create mode 100644 newlib/libc/sys/linux/mtrimr.c create mode 100644 newlib/libc/sys/linux/pvallocr.c create mode 100644 newlib/libc/sys/linux/realloc.c create mode 100644 newlib/libc/sys/linux/reallocr.c create mode 100644 newlib/libc/sys/linux/thread-m.h create mode 100644 newlib/libc/sys/linux/vallocr.c (limited to 'newlib/libc/sys') diff --git a/newlib/libc/sys/linux/Makefile.am b/newlib/libc/sys/linux/Makefile.am index 6c06ff621..6221d273b 100644 --- a/newlib/libc/sys/linux/Makefile.am +++ b/newlib/libc/sys/linux/Makefile.am @@ -12,11 +12,16 @@ SUBLIBS = \ LIB_SOURCES = \ aio.c \ brk.c \ + calloc.c \ + callocr.c \ + cfreer.c \ cfspeed.c \ clock_getres.c \ clock_gettime.c \ clock_settime.c \ flockfile.c \ + free.c \ + freer.c \ ftok.c \ funlockfile.c \ getdate.c \ @@ -30,6 +35,12 @@ LIB_SOURCES = \ io64.c \ ipc.c \ linux.c \ + malign.c \ + malignr.c \ + mallinfor.c \ + mallocr.c \ + malloptr.c \ + mallstatsr.c \ mmap.c \ mq_close.c \ mq_getattr.c \ @@ -39,14 +50,22 @@ LIB_SOURCES = \ mq_send.c \ mq_setattr.c \ mq_unlink.c \ + msize.c \ + msizer.c \ + mstats.c \ + mtrim.c \ + mtrimr.c \ ntp_gettime.c \ pread.c \ pread64.c \ process.c \ psignal.c \ + pvallocr.c \ pwrite.c \ pwrite64.c \ raise.c \ + realloc.c \ + reallocr.c \ realpath.c \ rename.c \ resource.c \ @@ -77,6 +96,7 @@ LIB_SOURCES = \ time.c \ usleep.c \ utimes.c \ + vallocr.c \ wait.c # This will handle both /usr/src/linux-2.4/include/asm/signal.h (in Red Hat Linux 7.1) @@ -86,6 +106,8 @@ SIGNAL_H = /usr/src/$(shell ls /usr/src/ | grep ^linux | head -n 1)/include/asm/ liblinux_la_LDFLAGS = -Xcompiler -nostdlib ADD_OBJS = \ + malloc.$(oext) \ + mcheck.$(oext) \ $(LINUX_MACH_LIB) if USE_LIBTOOL @@ -93,12 +115,14 @@ noinst_LTLIBRARIES = liblinux.la liblinux_la_SOURCES = $(LIB_SOURCES) liblinux_la_LIBADD = $(ADD_OBJS) liblinux_la_DEPENDENCIES = $(ADD_OBJS) +LIBC_COMPILE = $(LTCOMPILE) noinst_DATA = objectlist.awk.in else noinst_LIBRARIES = lib.a lib_a_SOURCES = $(LIB_SOURCES) lib_a_LIBADD = $(ADD_OBJS) lib_a_DEPENDENCIES = $(ADD_OBJS) +LIBC_COMPILE = $(COMPILE) noinst_DATA = lib.a: $(ADD_OBJS) $(lib_a_OBJECTS) @@ -126,6 +150,11 @@ crt0.o: machine/crt0.o machine/crt0.o: ; @true +malloc.$(oext): $(srcdir)/malloc.c + $(LIBC_COMPILE) -D_LIBC=1 -c $< -o $@ + +mcheck.$(oext): $(srcdir)/mcheck.c + $(LIBC_COMPILE) -D_LIBC=1 -c $< -o $@ sig.$(oext): siglist.inc diff --git a/newlib/libc/sys/linux/Makefile.in b/newlib/libc/sys/linux/Makefile.in index d7de4d600..bea564e8a 100644 --- a/newlib/libc/sys/linux/Makefile.in +++ b/newlib/libc/sys/linux/Makefile.in @@ -109,11 +109,16 @@ SUBLIBS = \ LIB_SOURCES = \ aio.c \ brk.c \ + calloc.c \ + callocr.c \ + cfreer.c \ cfspeed.c \ clock_getres.c \ clock_gettime.c \ clock_settime.c \ flockfile.c \ + free.c \ + freer.c \ ftok.c \ funlockfile.c \ getdate.c \ @@ -127,6 +132,12 @@ LIB_SOURCES = \ io64.c \ ipc.c \ linux.c \ + malign.c \ + malignr.c \ + mallinfor.c \ + mallocr.c \ + malloptr.c \ + mallstatsr.c \ mmap.c \ mq_close.c \ mq_getattr.c \ @@ -136,14 +147,22 @@ LIB_SOURCES = \ mq_send.c \ mq_setattr.c \ mq_unlink.c \ + msize.c \ + msizer.c \ + mstats.c \ + mtrim.c \ + mtrimr.c \ ntp_gettime.c \ pread.c \ pread64.c \ process.c \ psignal.c \ + pvallocr.c \ pwrite.c \ pwrite64.c \ raise.c \ + realloc.c \ + reallocr.c \ realpath.c \ rename.c \ resource.c \ @@ -174,6 +193,7 @@ LIB_SOURCES = \ time.c \ usleep.c \ utimes.c \ + vallocr.c \ wait.c @@ -184,6 +204,8 @@ SIGNAL_H = /usr/src/$(shell ls /usr/src/ | grep ^linux | head -n 1)/include/asm/ liblinux_la_LDFLAGS = -Xcompiler -nostdlib ADD_OBJS = \ + malloc.$(oext) \ + mcheck.$(oext) \ $(LINUX_MACH_LIB) @@ -191,6 +213,8 @@ ADD_OBJS = \ @USE_LIBTOOL_TRUE@liblinux_la_SOURCES = @USE_LIBTOOL_TRUE@$(LIB_SOURCES) @USE_LIBTOOL_TRUE@liblinux_la_LIBADD = @USE_LIBTOOL_TRUE@$(ADD_OBJS) @USE_LIBTOOL_TRUE@liblinux_la_DEPENDENCIES = @USE_LIBTOOL_TRUE@$(ADD_OBJS) +@USE_LIBTOOL_TRUE@LIBC_COMPILE = @USE_LIBTOOL_TRUE@$(LTCOMPILE) +@USE_LIBTOOL_FALSE@LIBC_COMPILE = @USE_LIBTOOL_FALSE@$(COMPILE) @USE_LIBTOOL_TRUE@noinst_DATA = @USE_LIBTOOL_TRUE@objectlist.awk.in @USE_LIBTOOL_FALSE@noinst_DATA = @USE_LIBTOOL_FALSE@noinst_LIBRARIES = @USE_LIBTOOL_FALSE@lib.a @@ -211,22 +235,29 @@ DEFS = @DEFS@ -I. -I$(srcdir) CPPFLAGS = @CPPFLAGS@ LIBS = @LIBS@ @USE_LIBTOOL_FALSE@lib_a_OBJECTS = aio.$(OBJEXT) brk.$(OBJEXT) \ +@USE_LIBTOOL_FALSE@calloc.$(OBJEXT) callocr.$(OBJEXT) cfreer.$(OBJEXT) \ @USE_LIBTOOL_FALSE@cfspeed.$(OBJEXT) clock_getres.$(OBJEXT) \ @USE_LIBTOOL_FALSE@clock_gettime.$(OBJEXT) clock_settime.$(OBJEXT) \ -@USE_LIBTOOL_FALSE@flockfile.$(OBJEXT) ftok.$(OBJEXT) \ -@USE_LIBTOOL_FALSE@funlockfile.$(OBJEXT) getdate.$(OBJEXT) \ -@USE_LIBTOOL_FALSE@getdate_err.$(OBJEXT) gethostname.$(OBJEXT) \ -@USE_LIBTOOL_FALSE@getoptlong.$(OBJEXT) getreent.$(OBJEXT) \ -@USE_LIBTOOL_FALSE@ids.$(OBJEXT) inode.$(OBJEXT) io.$(OBJEXT) \ -@USE_LIBTOOL_FALSE@io64.$(OBJEXT) ipc.$(OBJEXT) linux.$(OBJEXT) \ +@USE_LIBTOOL_FALSE@flockfile.$(OBJEXT) free.$(OBJEXT) freer.$(OBJEXT) \ +@USE_LIBTOOL_FALSE@ftok.$(OBJEXT) funlockfile.$(OBJEXT) \ +@USE_LIBTOOL_FALSE@getdate.$(OBJEXT) getdate_err.$(OBJEXT) \ +@USE_LIBTOOL_FALSE@gethostname.$(OBJEXT) getoptlong.$(OBJEXT) \ +@USE_LIBTOOL_FALSE@getreent.$(OBJEXT) ids.$(OBJEXT) inode.$(OBJEXT) \ +@USE_LIBTOOL_FALSE@io.$(OBJEXT) io64.$(OBJEXT) ipc.$(OBJEXT) \ +@USE_LIBTOOL_FALSE@linux.$(OBJEXT) malign.$(OBJEXT) malignr.$(OBJEXT) \ +@USE_LIBTOOL_FALSE@mallinfor.$(OBJEXT) mallocr.$(OBJEXT) \ +@USE_LIBTOOL_FALSE@malloptr.$(OBJEXT) mallstatsr.$(OBJEXT) \ @USE_LIBTOOL_FALSE@mmap.$(OBJEXT) mq_close.$(OBJEXT) \ @USE_LIBTOOL_FALSE@mq_getattr.$(OBJEXT) mq_notify.$(OBJEXT) \ @USE_LIBTOOL_FALSE@mq_open.$(OBJEXT) mq_receive.$(OBJEXT) \ @USE_LIBTOOL_FALSE@mq_send.$(OBJEXT) mq_setattr.$(OBJEXT) \ -@USE_LIBTOOL_FALSE@mq_unlink.$(OBJEXT) ntp_gettime.$(OBJEXT) \ -@USE_LIBTOOL_FALSE@pread.$(OBJEXT) pread64.$(OBJEXT) process.$(OBJEXT) \ -@USE_LIBTOOL_FALSE@psignal.$(OBJEXT) pwrite.$(OBJEXT) \ -@USE_LIBTOOL_FALSE@pwrite64.$(OBJEXT) raise.$(OBJEXT) \ +@USE_LIBTOOL_FALSE@mq_unlink.$(OBJEXT) msize.$(OBJEXT) msizer.$(OBJEXT) \ +@USE_LIBTOOL_FALSE@mstats.$(OBJEXT) mtrim.$(OBJEXT) mtrimr.$(OBJEXT) \ +@USE_LIBTOOL_FALSE@ntp_gettime.$(OBJEXT) pread.$(OBJEXT) \ +@USE_LIBTOOL_FALSE@pread64.$(OBJEXT) process.$(OBJEXT) \ +@USE_LIBTOOL_FALSE@psignal.$(OBJEXT) pvallocr.$(OBJEXT) \ +@USE_LIBTOOL_FALSE@pwrite.$(OBJEXT) pwrite64.$(OBJEXT) raise.$(OBJEXT) \ +@USE_LIBTOOL_FALSE@realloc.$(OBJEXT) reallocr.$(OBJEXT) \ @USE_LIBTOOL_FALSE@realpath.$(OBJEXT) rename.$(OBJEXT) \ @USE_LIBTOOL_FALSE@resource.$(OBJEXT) sched.$(OBJEXT) select.$(OBJEXT) \ @USE_LIBTOOL_FALSE@seteuid.$(OBJEXT) sethostname.$(OBJEXT) \ @@ -238,26 +269,30 @@ LIBS = @LIBS@ @USE_LIBTOOL_FALSE@sysconf.$(OBJEXT) sysctl.$(OBJEXT) systat.$(OBJEXT) \ @USE_LIBTOOL_FALSE@system.$(OBJEXT) tcdrain.$(OBJEXT) \ @USE_LIBTOOL_FALSE@tcsendbrk.$(OBJEXT) termios.$(OBJEXT) time.$(OBJEXT) \ -@USE_LIBTOOL_FALSE@usleep.$(OBJEXT) utimes.$(OBJEXT) wait.$(OBJEXT) +@USE_LIBTOOL_FALSE@usleep.$(OBJEXT) utimes.$(OBJEXT) vallocr.$(OBJEXT) \ +@USE_LIBTOOL_FALSE@wait.$(OBJEXT) LTLIBRARIES = $(noinst_LTLIBRARIES) -@USE_LIBTOOL_TRUE@liblinux_la_OBJECTS = aio.lo brk.lo cfspeed.lo \ -@USE_LIBTOOL_TRUE@clock_getres.lo clock_gettime.lo clock_settime.lo \ -@USE_LIBTOOL_TRUE@flockfile.lo ftok.lo funlockfile.lo getdate.lo \ +@USE_LIBTOOL_TRUE@liblinux_la_OBJECTS = aio.lo brk.lo calloc.lo \ +@USE_LIBTOOL_TRUE@callocr.lo cfreer.lo cfspeed.lo clock_getres.lo \ +@USE_LIBTOOL_TRUE@clock_gettime.lo clock_settime.lo flockfile.lo \ +@USE_LIBTOOL_TRUE@free.lo freer.lo ftok.lo funlockfile.lo getdate.lo \ @USE_LIBTOOL_TRUE@getdate_err.lo gethostname.lo getoptlong.lo \ @USE_LIBTOOL_TRUE@getreent.lo ids.lo inode.lo io.lo io64.lo ipc.lo \ -@USE_LIBTOOL_TRUE@linux.lo mmap.lo mq_close.lo mq_getattr.lo \ -@USE_LIBTOOL_TRUE@mq_notify.lo mq_open.lo mq_receive.lo mq_send.lo \ -@USE_LIBTOOL_TRUE@mq_setattr.lo mq_unlink.lo ntp_gettime.lo pread.lo \ -@USE_LIBTOOL_TRUE@pread64.lo process.lo psignal.lo pwrite.lo \ -@USE_LIBTOOL_TRUE@pwrite64.lo raise.lo realpath.lo rename.lo \ -@USE_LIBTOOL_TRUE@resource.lo sched.lo select.lo seteuid.lo \ -@USE_LIBTOOL_TRUE@sethostname.lo shm_open.lo shm_unlink.lo sig.lo \ -@USE_LIBTOOL_TRUE@sigaction.lo sigqueue.lo signal.lo siglongjmp.lo \ -@USE_LIBTOOL_TRUE@sigset.lo sigwait.lo socket.lo sleep.lo stack.lo \ -@USE_LIBTOOL_TRUE@strsignal.lo sysconf.lo sysctl.lo systat.lo system.lo \ -@USE_LIBTOOL_TRUE@tcdrain.lo tcsendbrk.lo termios.lo time.lo usleep.lo \ -@USE_LIBTOOL_TRUE@utimes.lo wait.lo +@USE_LIBTOOL_TRUE@linux.lo malign.lo malignr.lo mallinfor.lo mallocr.lo \ +@USE_LIBTOOL_TRUE@malloptr.lo mallstatsr.lo mmap.lo mq_close.lo \ +@USE_LIBTOOL_TRUE@mq_getattr.lo mq_notify.lo mq_open.lo mq_receive.lo \ +@USE_LIBTOOL_TRUE@mq_send.lo mq_setattr.lo mq_unlink.lo msize.lo \ +@USE_LIBTOOL_TRUE@msizer.lo mstats.lo mtrim.lo mtrimr.lo ntp_gettime.lo \ +@USE_LIBTOOL_TRUE@pread.lo pread64.lo process.lo psignal.lo pvallocr.lo \ +@USE_LIBTOOL_TRUE@pwrite.lo pwrite64.lo raise.lo realloc.lo reallocr.lo \ +@USE_LIBTOOL_TRUE@realpath.lo rename.lo resource.lo sched.lo select.lo \ +@USE_LIBTOOL_TRUE@seteuid.lo sethostname.lo shm_open.lo shm_unlink.lo \ +@USE_LIBTOOL_TRUE@sig.lo sigaction.lo sigqueue.lo signal.lo \ +@USE_LIBTOOL_TRUE@siglongjmp.lo sigset.lo sigwait.lo socket.lo sleep.lo \ +@USE_LIBTOOL_TRUE@stack.lo strsignal.lo sysconf.lo sysctl.lo systat.lo \ +@USE_LIBTOOL_TRUE@system.lo tcdrain.lo tcsendbrk.lo termios.lo time.lo \ +@USE_LIBTOOL_TRUE@usleep.lo utimes.lo vallocr.lo wait.lo CFLAGS = @CFLAGS@ COMPILE = $(CC) $(DEFS) $(INCLUDES) $(AM_CPPFLAGS) $(CPPFLAGS) $(AM_CFLAGS) $(CFLAGS) LTCOMPILE = $(LIBTOOL) --mode=compile $(CC) $(DEFS) $(INCLUDES) $(AM_CPPFLAGS) $(CPPFLAGS) $(AM_CFLAGS) $(CFLAGS) @@ -286,7 +321,8 @@ Makefile: $(srcdir)/Makefile.in $(top_builddir)/config.status && CONFIG_FILES=$@ CONFIG_HEADERS= $(SHELL) ./config.status $(ACLOCAL_M4): @MAINTAINER_MODE_TRUE@ configure.in \ - ../../../acinclude.m4 ../../../aclocal.m4 + ../../../acinclude.m4 ../../../aclocal.m4 \ + ../../../libtool.m4 cd $(srcdir) && $(ACLOCAL) $(ACLOCAL_AMFLAGS) config.status: $(srcdir)/configure $(CONFIG_STATUS_DEPENDENCIES) @@ -623,6 +659,12 @@ crt0.o: machine/crt0.o machine/crt0.o: ; @true +malloc.$(oext): $(srcdir)/malloc.c + $(LIBC_COMPILE) -D_LIBC=1 -c $< -o $@ + +mcheck.$(oext): $(srcdir)/mcheck.c + $(LIBC_COMPILE) -D_LIBC=1 -c $< -o $@ + sig.$(oext): siglist.inc siglist.inc: diff --git a/newlib/libc/sys/linux/bp-checks.h b/newlib/libc/sys/linux/bp-checks.h new file mode 100644 index 000000000..efbb84716 --- /dev/null +++ b/newlib/libc/sys/linux/bp-checks.h @@ -0,0 +1,129 @@ +/* Bounded-pointer checking macros for C. + Copyright (C) 2000 Free Software Foundation, Inc. + This file is part of the GNU C Library. + Contributed by Greg McGary + + The GNU C Library is free software; you can redistribute it and/or + modify it under the terms of the GNU Lesser General Public + License as published by the Free Software Foundation; either + version 2.1 of the License, or (at your option) any later version. + + The GNU C Library 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 + Lesser General Public License for more details. + + You should have received a copy of the GNU Lesser General Public + License along with the GNU C Library; if not, write to the Free + Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA + 02111-1307 USA. */ + +#ifndef _bp_checks_h_ +#define _bp_checks_h_ 1 + +#if __BOUNDED_POINTERS__ + +# define BOUNDS_VIOLATED (__builtin_trap (), 0) + +/* Verify that pointer's value >= low. Return pointer value. */ +# define CHECK_BOUNDS_LOW(ARG) \ + (((__ptrvalue (ARG) < __ptrlow (ARG)) && BOUNDS_VIOLATED), \ + __ptrvalue (ARG)) + +/* Verify that pointer's value < high. Return pointer value. */ +# define CHECK_BOUNDS_HIGH(ARG) \ + (((__ptrvalue (ARG) > __ptrhigh (ARG)) && BOUNDS_VIOLATED), \ + __ptrvalue (ARG)) + +# define _CHECK_N(ARG, N, COND) \ + (((COND) \ + && (__ptrvalue (ARG) < __ptrlow (ARG) \ + || __ptrvalue (ARG) + (N) > __ptrhigh (ARG)) \ + && BOUNDS_VIOLATED), \ + __ptrvalue (ARG)) + +extern void *__unbounded __ubp_memchr (const void *__unbounded, int, unsigned); + +# define _CHECK_STRING(ARG, COND) \ + (((COND) \ + && (__ptrvalue (ARG) < __ptrlow (ARG) \ + || !__ubp_memchr (__ptrvalue (ARG), '\0', \ + (__ptrhigh (ARG) - __ptrvalue (ARG)))) \ + && BOUNDS_VIOLATED), \ + __ptrvalue (ARG)) + +/* Check bounds of a pointer seated to an array of N objects. */ +# define CHECK_N(ARG, N) _CHECK_N ((ARG), (N), 1) +/* Same as CHECK_N, but tolerate ARG == NULL. */ +# define CHECK_N_NULL_OK(ARG, N) _CHECK_N ((ARG), (N), __ptrvalue (ARG)) + +/* Check bounds of a pointer seated to a single object. */ +# define CHECK_1(ARG) CHECK_N ((ARG), 1) +/* Same as CHECK_1, but tolerate ARG == NULL. */ +# define CHECK_1_NULL_OK(ARG) CHECK_N_NULL_OK ((ARG), 1) + +/* Check for NUL-terminator within string's bounds. */ +# define CHECK_STRING(ARG) _CHECK_STRING ((ARG), 1) +/* Same as CHECK_STRING, but tolerate ARG == NULL. */ +# define CHECK_STRING_NULL_OK(ARG) _CHECK_STRING ((ARG), __ptrvalue (ARG)) + +/* Check bounds of signal syscall args with type sigset_t. */ +# define CHECK_SIGSET(SET) CHECK_N ((SET), _NSIG / (8 * sizeof *(SET))) +/* Same as CHECK_SIGSET, but tolerate SET == NULL. */ +# define CHECK_SIGSET_NULL_OK(SET) CHECK_N_NULL_OK ((SET), _NSIG / (8 * sizeof *(SET))) + +# if defined (_IOC_SIZESHIFT) && defined (_IOC_SIZEBITS) +/* Extract the size of the ioctl data and check its bounds. */ +# define CHECK_IOCTL(ARG, CMD) \ + CHECK_N ((const char *) (ARG), \ + (((CMD) >> _IOC_SIZESHIFT) & ((1 << _IOC_SIZEBITS) - 1))) +# else +/* We don't know the size of the ioctl data, so the best we can do + is check that the first byte is within bounds. */ +# define CHECK_IOCTL(ARG, CMD) CHECK_1 ((const char *) ARG) +# endif + +/* Check bounds of `struct flock *' for the locking fcntl commands. */ +# define CHECK_FCNTL(ARG, CMD) \ + (((CMD) == F_GETLK || (CMD) == F_SETLK || (CMD) == F_SETLKW) \ + ? CHECK_1 ((struct flock *) ARG) : (unsigned long) (ARG)) + +/* Check bounds of an array of mincore residency-status flags that + cover a region of NBYTES. Such a vector occupies one byte per page + of memory. */ +# define CHECK_N_PAGES(ARG, NBYTES) \ + ({ int _page_size_ = sysconf (_SC_PAGE_SIZE); \ + CHECK_N ((const char *) (ARG), \ + ((NBYTES) + _page_size_ - 1) / _page_size_); }) + +/* Return a bounded pointer with value PTR that satisfies CHECK_N (PTR, N). */ +# define BOUNDED_N(PTR, N) \ + ({ __typeof (PTR) __bounded _p_; \ + __ptrvalue _p_ = __ptrlow _p_ = __ptrvalue (PTR); \ + __ptrhigh _p_ = __ptrvalue _p_ + (N); \ + _p_; }) + +#else /* !__BOUNDED_POINTERS__ */ + +/* Do nothing if not compiling with -fbounded-pointers. */ + +# define BOUNDS_VIOLATED +# define CHECK_BOUNDS_LOW(ARG) (ARG) +# define CHECK_BOUNDS_HIGH(ARG) (ARG) +# define CHECK_1(ARG) (ARG) +# define CHECK_1_NULL_OK(ARG) (ARG) +# define CHECK_N(ARG, N) (ARG) +# define CHECK_N_NULL_OK(ARG, N) (ARG) +# define CHECK_STRING(ARG) (ARG) +# define CHECK_SIGSET(SET) (SET) +# define CHECK_SIGSET_NULL_OK(SET) (SET) +# define CHECK_IOCTL(ARG, CMD) (ARG) +# define CHECK_FCNTL(ARG, CMD) (ARG) +# define CHECK_N_PAGES(ARG, NBYTES) (ARG) +# define BOUNDED_N(PTR, N) (PTR) + +#endif /* !__BOUNDED_POINTERS__ */ + +#define BOUNDED_1(PTR) BOUNDED_N (PTR, 1) + +#endif /* _bp_checks_h_ */ diff --git a/newlib/libc/sys/linux/calloc.c b/newlib/libc/sys/linux/calloc.c new file mode 100644 index 000000000..818e05a75 --- /dev/null +++ b/newlib/libc/sys/linux/calloc.c @@ -0,0 +1 @@ +/* dummy file to override one object in stdlib directory */ diff --git a/newlib/libc/sys/linux/callocr.c b/newlib/libc/sys/linux/callocr.c new file mode 100644 index 000000000..818e05a75 --- /dev/null +++ b/newlib/libc/sys/linux/callocr.c @@ -0,0 +1 @@ +/* dummy file to override one object in stdlib directory */ diff --git a/newlib/libc/sys/linux/cfreer.c b/newlib/libc/sys/linux/cfreer.c new file mode 100644 index 000000000..c7e6c2564 --- /dev/null +++ b/newlib/libc/sys/linux/cfreer.c @@ -0,0 +1,7 @@ +#include + +void +_cfree_r (struct _reent *ptr, void *mem) +{ + return cfree (mem); +} diff --git a/newlib/libc/sys/linux/config.h b/newlib/libc/sys/linux/config.h new file mode 100644 index 000000000..579543aca --- /dev/null +++ b/newlib/libc/sys/linux/config.h @@ -0,0 +1,18 @@ +#define HAVE_WEAK_SYMBOLS 1 +#define HAVE_GNU_LD 1 +#define HAVE_ELF 1 +#define __ASSUME_REALTIME_SIGNALS 1 +#define ASM_GLOBAL_DIRECTIVE .global + +#define TEMP_FAILURE_RETRY(expression) \ + (__extension__ \ + ({ long int __result; \ + do __result = (long int) (expression); \ + while (__result == -1L && errno == EINTR); \ + __result; })) + +#define UINT32_C(c) c ## U + +#define __set_errno(x) (errno = (x)) + +#include diff --git a/newlib/libc/sys/linux/free.c b/newlib/libc/sys/linux/free.c new file mode 100644 index 000000000..818e05a75 --- /dev/null +++ b/newlib/libc/sys/linux/free.c @@ -0,0 +1 @@ +/* dummy file to override one object in stdlib directory */ diff --git a/newlib/libc/sys/linux/freer.c b/newlib/libc/sys/linux/freer.c new file mode 100644 index 000000000..d8d7f9828 --- /dev/null +++ b/newlib/libc/sys/linux/freer.c @@ -0,0 +1,7 @@ +#include + +void +_free_r (struct _reent *ptr, void *addr) +{ + free (addr); +} diff --git a/newlib/libc/sys/linux/include/bp-sym.h b/newlib/libc/sys/linux/include/bp-sym.h new file mode 100644 index 000000000..249a4bd66 --- /dev/null +++ b/newlib/libc/sys/linux/include/bp-sym.h @@ -0,0 +1,6 @@ +#ifndef __BP_SYM_H__ +#define __BP_SYM_H__ + +#define BP_SYM(NAME) NAME + +#endif diff --git a/newlib/libc/sys/linux/include/malloc.h b/newlib/libc/sys/linux/include/malloc.h new file mode 100644 index 000000000..7a7bcdbde --- /dev/null +++ b/newlib/libc/sys/linux/include/malloc.h @@ -0,0 +1,266 @@ +/* Prototypes and definition for malloc implementation. + Copyright (C) 1996, 1997, 1999, 2000 Free Software Foundation, Inc. + This file is part of the GNU C Library. + + The GNU C Library is free software; you can redistribute it and/or + modify it under the terms of the GNU Lesser General Public + License as published by the Free Software Foundation; either + version 2.1 of the License, or (at your option) any later version. + + The GNU C Library 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 + Lesser General Public License for more details. + + You should have received a copy of the GNU Lesser General Public + License along with the GNU C Library; if not, write to the Free + Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA + 02111-1307 USA. */ + +#ifndef _MALLOC_H +#define _MALLOC_H 1 + +#include + +/* + `ptmalloc', a malloc implementation for multiple threads without + lock contention, by Wolfram Gloger . + See the files `ptmalloc.c' or `COPYRIGHT' for copying conditions. + + VERSION 2.6.4-pt Wed Dec 4 00:35:54 MET 1996 + + This work is mainly derived from malloc-2.6.4 by Doug Lea + , which is available from: + + ftp://g.oswego.edu/pub/misc/malloc.c + + This trimmed-down header file only provides function prototypes and + the exported data structures. For more detailed function + descriptions and compile-time options, see the source file + `ptmalloc.c'. +*/ + +#if defined(__STDC__) || defined (__cplusplus) +# include +# define __malloc_ptr_t void * +#else +# undef size_t +# define size_t unsigned int +# undef ptrdiff_t +# define ptrdiff_t int +# define __malloc_ptr_t char * +#endif + +#ifdef _LIBC +/* Used by GNU libc internals. */ +# define __malloc_size_t size_t +# define __malloc_ptrdiff_t ptrdiff_t +#elif !defined __attribute_malloc__ +# define __attribute_malloc__ +#endif + +#ifdef __GNUC__ + +/* GCC can always grok prototypes. For C++ programs we add throw() + to help it optimize the function calls. But this works only with + gcc 2.8.x and egcs. */ +# if defined __cplusplus && (__GNUC__ >= 3 || __GNUC_MINOR__ >= 8) +# define __THROW throw () +# else +# define __THROW +# endif +# define __MALLOC_P(args) args __THROW +/* This macro will be used for functions which might take C++ callback + functions. */ +# define __MALLOC_PMT(args) args + +#else /* Not GCC. */ + +# define __THROW + +# if (defined __STDC__ && __STDC__) || defined __cplusplus + +# define __MALLOC_P(args) args +# define __MALLOC_PMT(args) args + +# else /* Not ANSI C or C++. */ + +# define __MALLOC_P(args) () /* No prototypes. */ +# define __MALLOC_PMT(args) () + +# endif /* ANSI C or C++. */ + +#endif /* GCC. */ + +#ifndef NULL +# ifdef __cplusplus +# define NULL 0 +# else +# define NULL ((__malloc_ptr_t) 0) +# endif +#endif + +#ifdef __cplusplus +extern "C" { +#endif + +struct _reent; + +/* Nonzero if the malloc is already initialized. */ +#ifdef _LIBC +/* In the GNU libc we rename the global variable + `__malloc_initialized' to `__libc_malloc_initialized'. */ +# define __malloc_initialized __libc_malloc_initialized +#endif +extern int __malloc_initialized; + +/* Initialize global configuration. Not needed with GNU libc. */ +#ifndef __GLIBC__ +extern void ptmalloc_init __MALLOC_P ((void)); +#endif + +/* Allocate SIZE bytes of memory. */ +extern __malloc_ptr_t malloc __MALLOC_P ((size_t __size)) __attribute_malloc__; +extern __malloc_ptr_t _malloc_r __MALLOC_P ((struct _reent * __r, size_t __size)) __attribute_malloc__; + +/* Allocate NMEMB elements of SIZE bytes each, all initialized to 0. */ +extern __malloc_ptr_t calloc __MALLOC_P ((size_t __nmemb, size_t __size)) + __attribute_malloc__; +extern __malloc_ptr_t _calloc_r __MALLOC_P ((struct _reent * __r, + size_t __nmemb, size_t __size)) + __attribute_malloc__; + +/* Re-allocate the previously allocated block in __ptr, making the new + block SIZE bytes long. */ +extern __malloc_ptr_t realloc __MALLOC_P ((__malloc_ptr_t __ptr, + size_t __size)) + __attribute_malloc__; +extern __malloc_ptr_t _realloc_r __MALLOC_P ((struct _reent * __r, + __malloc_ptr_t __ptr, + size_t __size)) + __attribute_malloc__; + +/* Free a block allocated by `malloc', `realloc' or `calloc'. */ +extern void free __MALLOC_P ((__malloc_ptr_t __ptr)); +extern void _free_r __MALLOC_P ((struct _reent * __r, __malloc_ptr_t __ptr)); + +/* Free a block allocated by `calloc'. */ +extern void cfree __MALLOC_P ((__malloc_ptr_t __ptr)); + +/* Allocate SIZE bytes allocated to ALIGNMENT bytes. */ +extern __malloc_ptr_t memalign __MALLOC_P ((size_t __alignment, size_t __size)); +extern __malloc_ptr_t _memalign_r __MALLOC_P ((struct _reent *__r, + size_t __alignment, + size_t __size)); + +/* Allocate SIZE bytes on a page boundary. */ +extern __malloc_ptr_t valloc __MALLOC_P ((size_t __size)) __attribute_malloc__; +extern __malloc_ptr_t _valloc_r __MALLOC_P ((struct _reent *__r, + size_t __size)) + __attribute_malloc__; + +/* Equivalent to valloc(minimum-page-that-holds(n)), that is, round up + __size to nearest pagesize. */ +extern __malloc_ptr_t pvalloc __MALLOC_P ((size_t __size)) + __attribute_malloc__; +extern __malloc_ptr_t _pvalloc_r __MALLOC_P ((struct _reent *__r, + size_t __size)) + __attribute_malloc__; + +/* Underlying allocation function; successive calls should return + contiguous pieces of memory. */ +extern __malloc_ptr_t (*__morecore) __MALLOC_PMT ((ptrdiff_t __size)); + +/* Default value of `__morecore'. */ +extern __malloc_ptr_t __default_morecore __MALLOC_P ((ptrdiff_t __size)) + __attribute_malloc__; + +/* SVID2/XPG mallinfo structure */ +struct mallinfo { + int arena; /* total space allocated from system */ + int ordblks; /* number of non-inuse chunks */ + int smblks; /* unused -- always zero */ + int hblks; /* number of mmapped regions */ + int hblkhd; /* total space in mmapped regions */ + int usmblks; /* unused -- always zero */ + int fsmblks; /* unused -- always zero */ + int uordblks; /* total allocated space */ + int fordblks; /* total non-inuse space */ + int keepcost; /* top-most, releasable (via malloc_trim) space */ +}; + +/* Returns a copy of the updated current mallinfo. */ +extern struct mallinfo mallinfo __MALLOC_P ((void)); +extern struct mallinfo _mallinfo_r __MALLOC_P ((struct _reent *__r)); + +/* SVID2/XPG mallopt options */ +#ifndef M_MXFAST +# define M_MXFAST 1 /* UNUSED in this malloc */ +#endif +#ifndef M_NLBLKS +# define M_NLBLKS 2 /* UNUSED in this malloc */ +#endif +#ifndef M_GRAIN +# define M_GRAIN 3 /* UNUSED in this malloc */ +#endif +#ifndef M_KEEP +# define M_KEEP 4 /* UNUSED in this malloc */ +#endif + +/* mallopt options that actually do something */ +#define M_TRIM_THRESHOLD -1 +#define M_TOP_PAD -2 +#define M_MMAP_THRESHOLD -3 +#define M_MMAP_MAX -4 +#define M_CHECK_ACTION -5 + +/* General SVID/XPG interface to tunable parameters. */ +extern int mallopt __MALLOC_P ((int __param, int __val)); +extern int _mallopt_r __MALLOC_P ((struct _reent *__r, int __param, int __val)); + +/* Release all but __pad bytes of freed top-most memory back to the + system. Return 1 if successful, else 0. */ +extern int malloc_trim __MALLOC_P ((size_t __pad)); + +/* Report the number of usable allocated bytes associated with allocated + chunk __ptr. */ +extern size_t malloc_usable_size __MALLOC_P ((__malloc_ptr_t __ptr)); + +/* Prints brief summary statistics on stderr. */ +extern void malloc_stats __MALLOC_P ((void)); +extern void _malloc_stats_r __MALLOC_P ((struct _reent *__r)); + +/* Record the state of all malloc variables in an opaque data structure. */ +extern __malloc_ptr_t malloc_get_state __MALLOC_P ((void)); + +/* Restore the state of all malloc variables from data obtained with + malloc_get_state(). */ +extern int malloc_set_state __MALLOC_P ((__malloc_ptr_t __ptr)); + +#if defined __GLIBC__ || defined MALLOC_HOOKS +/* Called once when malloc is initialized; redefining this variable in + the application provides the preferred way to set up the hook + pointers. */ +extern void (*__malloc_initialize_hook) __MALLOC_PMT ((void)); +/* Hooks for debugging and user-defined versions. */ +extern void (*__free_hook) __MALLOC_PMT ((__malloc_ptr_t __ptr, + __const __malloc_ptr_t)); +extern __malloc_ptr_t (*__malloc_hook) __MALLOC_PMT ((size_t __size, + __const __malloc_ptr_t)); +extern __malloc_ptr_t (*__realloc_hook) __MALLOC_PMT ((__malloc_ptr_t __ptr, + size_t __size, + __const __malloc_ptr_t)); +extern __malloc_ptr_t (*__memalign_hook) __MALLOC_PMT ((size_t __alignment, + size_t __size, + __const __malloc_ptr_t)); +extern void (*__after_morecore_hook) __MALLOC_PMT ((void)); + +/* Activate a standard set of debugging hooks. */ +extern void __malloc_check_init __MALLOC_P ((void)); +#endif + +#ifdef __cplusplus +}; /* end of extern "C" */ +#endif + +#endif /* malloc.h */ diff --git a/newlib/libc/sys/linux/include/mcheck.h b/newlib/libc/sys/linux/include/mcheck.h new file mode 100644 index 000000000..39e396d38 --- /dev/null +++ b/newlib/libc/sys/linux/include/mcheck.h @@ -0,0 +1,62 @@ +/* Copyright (C) 1996, 1997, 1998, 1999, 2000 Free Software Foundation, Inc. + This file is part of the GNU C Library. + + The GNU C Library is free software; you can redistribute it and/or + modify it under the terms of the GNU Lesser General Public + License as published by the Free Software Foundation; either + version 2.1 of the License, or (at your option) any later version. + + The GNU C Library 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 + Lesser General Public License for more details. + + You should have received a copy of the GNU Lesser General Public + License along with the GNU C Library; if not, write to the Free + Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA + 02111-1307 USA. */ + +/* Modified for newlib, July 9, 2002 by Jeff Johnston */ + +#ifndef _MCHECK_H +#define _MCHECK_H 1 + +#ifdef __cplusplus +extern "C" { +#endif + +/* Return values for `mprobe': these are the kinds of inconsistencies that + `mcheck' enables detection of. */ +enum mcheck_status + { + MCHECK_DISABLED = -1, /* Consistency checking is not turned on. */ + MCHECK_OK, /* Block is fine. */ + MCHECK_FREE, /* Block freed twice. */ + MCHECK_HEAD, /* Memory before the block was clobbered. */ + MCHECK_TAIL /* Memory after the block was clobbered. */ + }; + + +/* Activate a standard collection of debugging hooks. This must be called + before `malloc' is ever called. ABORTFUNC is called with an error code + (see enum above) when an inconsistency is detected. If ABORTFUNC is + null, the standard function prints on stderr and then calls `abort'. */ +extern int mcheck (void (*__abortfunc) (enum mcheck_status)); + +/* Similar to `mcheck´ but performs checks for all block whenever one of + the memory handling functions is called. This can be very slow. */ +extern int mcheck_pedantic (void (*__abortfunc) (enum mcheck_status)); + +/* Force check of all blocks now. */ +extern void mcheck_check_all (void); + +/* Check for aberrations in a particular malloc'd block. You must have + called `mcheck' already. These are the same checks that `mcheck' does + when you free or reallocate a block. */ +extern enum mcheck_status mprobe (void *__ptr); + +#ifdef __cplusplus +} +#endif + +#endif /* mcheck.h */ diff --git a/newlib/libc/sys/linux/inode.c b/newlib/libc/sys/linux/inode.c index 6f07f8e7a..0820ec80c 100644 --- a/newlib/libc/sys/linux/inode.c +++ b/newlib/libc/sys/linux/inode.c @@ -11,7 +11,7 @@ #include #include -#define _LIBC +#define _LIBC 1 #include __LOCK_INIT(static, umask_lock); diff --git a/newlib/libc/sys/linux/libc-symbols.h b/newlib/libc/sys/linux/libc-symbols.h new file mode 100644 index 000000000..97b672643 --- /dev/null +++ b/newlib/libc/sys/linux/libc-symbols.h @@ -0,0 +1,352 @@ +/* Support macros for making weak and strong aliases for symbols, + and for using symbol sets and linker warnings with GNU ld. + Copyright (C) 1995,1996,1997,1998,2000,2001 Free Software Foundation, Inc. + This file is part of the GNU C Library. + + The GNU C Library is free software; you can redistribute it and/or + modify it under the terms of the GNU Lesser General Public + License as published by the Free Software Foundation; either + version 2.1 of the License, or (at your option) any later version. + + The GNU C Library 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 + Lesser General Public License for more details. + + You should have received a copy of the GNU Lesser General Public + License along with the GNU C Library; if not, write to the Free + Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA + 02111-1307 USA. */ + +#ifndef _LIBC_SYMBOLS_H +#define _LIBC_SYMBOLS_H 1 + +/* This file's macros are included implicitly in the compilation of every + file in the C library by -imacros. + + We include config.h which is generated by configure. + It should define for us the following symbols: + + * HAVE_ASM_SET_DIRECTIVE if we have `.set B, A' instead of `A = B'. + * ASM_GLOBAL_DIRECTIVE with `.globl' or `.global'. + * HAVE_GNU_LD if using GNU ld, with support for weak symbols in a.out, + and for symbol set and warning messages extensions in a.out and ELF. + * HAVE_ELF if using ELF, which supports weak symbols using `.weak'. + * HAVE_ASM_WEAK_DIRECTIVE if we have weak symbols using `.weak'. + * HAVE_ASM_WEAKEXT_DIRECTIVE if we have weak symbols using `.weakext'. + + */ + +/* This is defined for the compilation of all C library code. features.h + tests this to avoid inclusion of stubs.h while compiling the library, + before stubs.h has been generated. Some library code that is shared + with other packages also tests this symbol to see if it is being + compiled as part of the C library. We must define this before including + config.h, because it makes some definitions conditional on whether libc + itself is being compiled, or just some generator program. */ +#define _LIBC 1 + +/* Enable declarations of GNU extensions, since we are compiling them. */ +#define _GNU_SOURCE 1 +/* And we also need the data for the reentrant functions. */ +#define _REENTRANT 1 + +#include + +/* The symbols in all the user (non-_) macros are C symbols. + HAVE_GNU_LD without HAVE_ELF implies a.out. */ + +#if defined HAVE_ASM_WEAK_DIRECTIVE || defined HAVE_ASM_WEAKEXT_DIRECTIVE +# define HAVE_WEAK_SYMBOLS +#endif + +#ifndef __SYMBOL_PREFIX +# ifdef NO_UNDERSCORES +# define __SYMBOL_PREFIX +# else +# define __SYMBOL_PREFIX "_" +# endif +#endif + +#ifndef C_SYMBOL_NAME +# ifdef NO_UNDERSCORES +# define C_SYMBOL_NAME(name) name +# else +# define C_SYMBOL_NAME(name) _##name +# endif +#endif + +#ifndef ASM_LINE_SEP +# define ASM_LINE_SEP ; +#endif + +#ifndef C_SYMBOL_DOT_NAME +# define C_SYMBOL_DOT_NAME(name) .##name +#endif + +#ifndef __ASSEMBLER__ +/* GCC understands weak symbols and aliases; use its interface where + possible, instead of embedded assembly language. */ + +/* Define ALIASNAME as a strong alias for NAME. */ +# define strong_alias(name, aliasname) _strong_alias(name, aliasname) +# define _strong_alias(name, aliasname) \ + extern __typeof (name) aliasname __attribute__ ((alias (#name))); + +/* This comes between the return type and function name in + a function definition to make that definition weak. */ +# define weak_function __attribute__ ((weak)) +# define weak_const_function __attribute__ ((weak, __const__)) + +# ifdef HAVE_WEAK_SYMBOLS + +/* Define ALIASNAME as a weak alias for NAME. + If weak aliases are not available, this defines a strong alias. */ +# define weak_alias(name, aliasname) _weak_alias (name, aliasname) +# define _weak_alias(name, aliasname) \ + extern __typeof (name) aliasname __attribute__ ((weak, alias (#name))); + +/* Declare SYMBOL as weak undefined symbol (resolved to 0 if not defined). */ +# define weak_extern(symbol) _weak_extern (symbol) +# ifdef HAVE_ASM_WEAKEXT_DIRECTIVE +# define _weak_extern(symbol) asm (".weakext " __SYMBOL_PREFIX #symbol); +# else +# define _weak_extern(symbol) asm (".weak " __SYMBOL_PREFIX #symbol); +# endif + +# else + +# define weak_alias(name, aliasname) strong_alias(name, aliasname) +# define weak_extern(symbol) /* Nothing. */ + +# endif + +#else /* __ASSEMBLER__ */ + +# ifdef HAVE_ASM_SET_DIRECTIVE +# define strong_alias(original, alias) \ + ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME (alias) ASM_LINE_SEP \ + .set C_SYMBOL_NAME (alias),C_SYMBOL_NAME (original) +# else +# ifdef HAVE_ASM_GLOBAL_DOT_NAME +# define strong_alias(original, alias) \ + ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME (alias) ASM_LINE_SEP \ + C_SYMBOL_NAME (alias) = C_SYMBOL_NAME (original) ASM_LINE_SEP \ + ASM_GLOBAL_DIRECTIVE C_SYMBOL_DOT_NAME (alias) ASM_LINE_SEP \ + C_SYMBOL_DOT_NAME (alias) = C_SYMBOL_DOT_NAME (original) +# else +# define strong_alias(original, alias) \ + ASM_GLOBAL_DIRECTIVE C_SYMBOL_NAME (alias) ASM_LINE_SEP \ + C_SYMBOL_NAME (alias) = C_SYMBOL_NAME (original) +# endif +# endif + +# ifdef HAVE_WEAK_SYMBOLS +# ifdef HAVE_ASM_WEAKEXT_DIRECTIVE +# define weak_alias(original, alias) \ + .weakext C_SYMBOL_NAME (alias), C_SYMBOL_NAME (original) +# define weak_extern(symbol) \ + .weakext C_SYMBOL_NAME (symbol) + +# else /* ! HAVE_ASM_WEAKEXT_DIRECTIVE */ + +# ifdef HAVE_ASM_GLOBAL_DOT_NAME +# define weak_alias(original, alias) \ + .weak C_SYMBOL_NAME (alias) ASM_LINE_SEP \ + C_SYMBOL_NAME (alias) = C_SYMBOL_NAME (original) ASM_LINE_SEP \ + ASM_GLOBAL_DIRECTIVE C_SYMBOL_DOT_NAME (alias) ASM_LINE_SEP \ + C_SYMBOL_DOT_NAME (alias) = C_SYMBOL_DOT_NAME (original) +# else +# define weak_alias(original, alias) \ + .weak C_SYMBOL_NAME (alias) ASM_LINE_SEP \ + C_SYMBOL_NAME (alias) = C_SYMBOL_NAME (original) +# endif + +# define weak_extern(symbol) \ + .weak C_SYMBOL_NAME (symbol) + +# endif /* ! HAVE_ASM_WEAKEXT_DIRECTIVE */ + +# else /* ! HAVE_WEAK_SYMBOLS */ + +# define weak_alias(original, alias) strong_alias(original, alias) +# define weak_extern(symbol) /* Nothing */ +# endif /* ! HAVE_WEAK_SYMBOLS */ + +#endif /* __ASSEMBLER__ */ + +/* On some platforms we can make internal function calls (i.e., calls of + functions not exported) a bit faster by using a different calling + convention. */ +#ifndef internal_function +# define internal_function /* empty */ +#endif + +/* Prepare for the case that `__builtin_expect' is not available. */ +#ifndef HAVE_BUILTIN_EXPECT +# define __builtin_expect(expr, val) (expr) +#endif + +/* Determine the return address. */ +#define RETURN_ADDRESS(nr) \ + __builtin_extract_return_addr (__builtin_return_address (nr)) + +/* When a reference to SYMBOL is encountered, the linker will emit a + warning message MSG. */ +#ifdef HAVE_GNU_LD +# ifdef HAVE_ELF + +/* We want the .gnu.warning.SYMBOL section to be unallocated. */ +# ifdef HAVE_ASM_PREVIOUS_DIRECTIVE +# define __make_section_unallocated(section_string) \ + asm (".section " section_string "\n\t.previous"); +# elif defined HAVE_ASM_POPSECTION_DIRECTIVE +# define __make_section_unallocated(section_string) \ + asm (".pushsection " section_string "\n\t.popsection"); +# else +# define __make_section_unallocated(section_string) +# endif + +/* Tacking on "\n\t#" to the section name makes gcc put it's bogus + section attributes on what looks like a comment to the assembler. */ +# ifdef HAVE_SECTION_QUOTES +# define link_warning(symbol, msg) \ + __make_section_unallocated (".gnu.warning." #symbol) \ + static const char __evoke_link_warning_##symbol[] \ + __attribute__ ((section (".gnu.warning." #symbol "\"\n\t#\""))) = msg; +# else +# define link_warning(symbol, msg) \ + __make_section_unallocated (".gnu.warning." #symbol) \ + static const char __evoke_link_warning_##symbol[] \ + __attribute__ ((section (".gnu.warning." #symbol "\n\t#"))) = msg; +# endif +# else /* Not ELF: a.out */ +# ifdef HAVE_XCOFF +/* XCOFF does not support .stabs. + The native aix linker will remove the .stab and .stabstr sections + The gnu linker will have a fatal error if there is a relocation for + symbol in the .stab section. Silently disable this macro. */ +# define link_warning(symbol, msg) +# else +# define link_warning(symbol, msg) \ + asm (".stabs \"" msg "\",30,0,0,0\n\t" \ + ".stabs \"" __SYMBOL_PREFIX #symbol "\",1,0,0,0\n"); +# endif /* XCOFF */ +# endif +#else +/* We will never be heard; they will all die horribly. */ +# define link_warning(symbol, msg) +#endif + +/* A canned warning for sysdeps/stub functions. */ +#define stub_warning(name) \ + link_warning (name, \ + "warning: " #name " is not implemented and will always fail") + +/* + +*/ + +#ifdef HAVE_GNU_LD + +/* Symbol set support macros. */ + +# ifdef HAVE_ELF + +/* Make SYMBOL, which is in the text segment, an element of SET. */ +# define text_set_element(set, symbol) _elf_set_element(set, symbol) +/* Make SYMBOL, which is in the data segment, an element of SET. */ +# define data_set_element(set, symbol) _elf_set_element(set, symbol) +/* Make SYMBOL, which is in the bss segment, an element of SET. */ +# define bss_set_element(set, symbol) _elf_set_element(set, symbol) + +/* These are all done the same way in ELF. + There is a new section created for each set. */ +# ifdef SHARED +/* When building a shared library, make the set section writable, + because it will need to be relocated at run time anyway. */ +# define _elf_set_element(set, symbol) \ + static const void *__elf_set_##set##_element_##symbol##__ \ + __attribute__ ((unused, section (#set))) = &(symbol) +# else +# define _elf_set_element(set, symbol) \ + static const void *const __elf_set_##set##_element_##symbol##__ \ + __attribute__ ((unused, section (#set))) = &(symbol) +# endif + +/* Define SET as a symbol set. This may be required (it is in a.out) to + be able to use the set's contents. */ +# define symbol_set_define(set) symbol_set_declare(set) + +/* Declare SET for use in this module, if defined in another module. */ +# define symbol_set_declare(set) \ + extern void *const __start_##set __attribute__ ((__weak__)); \ + extern void *const __stop_##set __attribute__ ((__weak__)); \ + weak_extern (__start_##set) weak_extern (__stop_##set) + +/* Return a pointer (void *const *) to the first element of SET. */ +# define symbol_set_first_element(set) (&__start_##set) + +/* Return true iff PTR (a void *const *) has been incremented + past the last element in SET. */ +# define symbol_set_end_p(set, ptr) ((ptr) >= &__stop_##set) + +# else /* Not ELF: a.out. */ + +# ifdef HAVE_XCOFF +/* XCOFF does not support .stabs. + The native aix linker will remove the .stab and .stabstr sections + The gnu linker will have a fatal error if there is a relocation for + symbol in the .stab section. Silently disable these macros. */ +# define text_set_element(set, symbol) +# define data_set_element(set, symbol) +# define bss_set_element(set, symbol) +# else +# define text_set_element(set, symbol) \ + asm (".stabs \"" __SYMBOL_PREFIX #set "\",23,0,0," __SYMBOL_PREFIX #symbol) +# define data_set_element(set, symbol) \ + asm (".stabs \"" __SYMBOL_PREFIX #set "\",25,0,0," __SYMBOL_PREFIX #symbol) +# define bss_set_element(set, symbol) ?error Must use initialized data. +# endif /* XCOFF */ +# define symbol_set_define(set) void *const (set)[1]; +# define symbol_set_declare(set) extern void *const (set)[1]; + +# define symbol_set_first_element(set) &(set)[1] +# define symbol_set_end_p(set, ptr) (*(ptr) == 0) + +# endif /* ELF. */ +#else +/* We cannot do anything in generial. */ +# define text_set_element(set, symbol) asm ("") +# define data_set_element(set, symbol) asm ("") +# define bss_set_element(set, symbol) asm ("") +# define symbol_set_define(set) void *const (set)[1]; +# define symbol_set_declare(set) extern void *const (set)[1]; + +# define symbol_set_first_element(set) &(set)[1] +# define symbol_set_end_p(set, ptr) (*(ptr) == 0) +#endif /* Have GNU ld. */ + +#if DO_VERSIONING +# define symbol_version(real, name, version) \ + _symbol_version(real, name, version) +# define default_symbol_version(real, name, version) \ + _default_symbol_version(real, name, version) +# ifdef __ASSEMBLER__ +# define _symbol_version(real, name, version) \ + .symver real, name##@##version +# define _default_symbol_version(real, name, version) \ + .symver real, name##@##@##version +# else +# define _symbol_version(real, name, version) \ + __asm__ (".symver " #real "," #name "@" #version) +# define _default_symbol_version(real, name, version) \ + __asm__ (".symver " #real "," #name "@@" #version) +# endif +#else +# define symbol_version(real, name, version) +# define default_symbol_version(real, name, version) \ + strong_alias(real, name) +#endif + +#endif /* libc-symbols.h */ diff --git a/newlib/libc/sys/linux/libc-tsd.h b/newlib/libc/sys/linux/libc-tsd.h new file mode 100644 index 000000000..7a532ea74 --- /dev/null +++ b/newlib/libc/sys/linux/libc-tsd.h @@ -0,0 +1,44 @@ +/* libc-internal interface for thread-specific data. LinuxThreads version. + Copyright (C) 1997, 1998, 1999, 2001 Free Software Foundation, Inc. + This file is part of the GNU C Library. + + The GNU C Library is free software; you can redistribute it and/or + modify it under the terms of the GNU Library General Public License as + published by the Free Software Foundation; either version 2 of the + License, or (at your option) any later version. + + The GNU C Library 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 + Library General Public License for more details. + + You should have received a copy of the GNU Library General Public + License along with the GNU C Library; see the file COPYING.LIB. If not, + write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, + Boston, MA 02111-1307, USA. */ + +#ifndef _BITS_LIBC_TSD_H +#define _BITS_LIBC_TSD_H 1 + + +/* Fast thread-specific data internal to libc. */ +enum __libc_tsd_key_t { _LIBC_TSD_KEY_MALLOC = 0, + _LIBC_TSD_KEY_DL_ERROR, + _LIBC_TSD_KEY_RPC_VARS, + _LIBC_TSD_KEY_N }; + +extern void *(*__libc_internal_tsd_get) (enum __libc_tsd_key_t) __THROW; +extern int (*__libc_internal_tsd_set) (enum __libc_tsd_key_t, + __const void *) __THROW; + +#define __libc_tsd_define(CLASS, KEY) CLASS void *__libc_tsd_##KEY##_data; +#define __libc_tsd_get(KEY) \ + (__libc_internal_tsd_get != NULL \ + ? __libc_internal_tsd_get (_LIBC_TSD_KEY_##KEY) \ + : __libc_tsd_##KEY##_data) +#define __libc_tsd_set(KEY, VALUE) \ + (__libc_internal_tsd_set != NULL \ + ? __libc_internal_tsd_set (_LIBC_TSD_KEY_##KEY, (VALUE)) \ + : ((__libc_tsd_##KEY##_data = (VALUE)), 0)) + +#endif /* bits/libc-tsd.h */ diff --git a/newlib/libc/sys/linux/libintl.h b/newlib/libc/sys/linux/libintl.h new file mode 100644 index 000000000..203a2c852 --- /dev/null +++ b/newlib/libc/sys/linux/libintl.h @@ -0,0 +1,9 @@ +/* temporary internal libintl.h to ignore message translation for now */ + +#ifndef _LIBINTL_H +#define _LIBINTL_H 1 + +#undef _ +#define _(x) (x) + +#endif diff --git a/newlib/libc/sys/linux/machine/i386/Makefile.am b/newlib/libc/sys/linux/machine/i386/Makefile.am index c64c43e0f..c72644db1 100644 --- a/newlib/libc/sys/linux/machine/i386/Makefile.am +++ b/newlib/libc/sys/linux/machine/i386/Makefile.am @@ -4,7 +4,7 @@ AUTOMAKE_OPTIONS = cygnus INCLUDES = $(NEWLIB_CFLAGS) $(CROSS_CFLAGS) $(TARGET_CFLAGS) -LIB_SOURCES = get_clockfreq.c hp-timing.c setjmp.S sigaction.c +LIB_SOURCES = get_clockfreq.c getpagesize.c hp-timing.c setjmp.S sigaction.c liblinuxi386_la_LDFLAGS = -Xcompiler -nostdlib diff --git a/newlib/libc/sys/linux/machine/i386/Makefile.in b/newlib/libc/sys/linux/machine/i386/Makefile.in index d13405a18..a898350b7 100644 --- a/newlib/libc/sys/linux/machine/i386/Makefile.in +++ b/newlib/libc/sys/linux/machine/i386/Makefile.in @@ -98,7 +98,7 @@ AUTOMAKE_OPTIONS = cygnus INCLUDES = $(NEWLIB_CFLAGS) $(CROSS_CFLAGS) $(TARGET_CFLAGS) -LIB_SOURCES = get_clockfreq.c hp-timing.c setjmp.S sigaction.c +LIB_SOURCES = get_clockfreq.c getpagesize.c hp-timing.c setjmp.S sigaction.c liblinuxi386_la_LDFLAGS = -Xcompiler -nostdlib @@ -123,13 +123,13 @@ CPPFLAGS = @CPPFLAGS@ LIBS = @LIBS@ lib_a_LIBADD = @USE_LIBTOOL_FALSE@lib_a_OBJECTS = get_clockfreq.$(OBJEXT) \ -@USE_LIBTOOL_FALSE@hp-timing.$(OBJEXT) setjmp.$(OBJEXT) \ -@USE_LIBTOOL_FALSE@sigaction.$(OBJEXT) +@USE_LIBTOOL_FALSE@getpagesize.$(OBJEXT) hp-timing.$(OBJEXT) \ +@USE_LIBTOOL_FALSE@setjmp.$(OBJEXT) sigaction.$(OBJEXT) LTLIBRARIES = $(noinst_LTLIBRARIES) liblinuxi386_la_LIBADD = @USE_LIBTOOL_TRUE@liblinuxi386_la_OBJECTS = get_clockfreq.lo \ -@USE_LIBTOOL_TRUE@hp-timing.lo setjmp.lo sigaction.lo +@USE_LIBTOOL_TRUE@getpagesize.lo hp-timing.lo setjmp.lo sigaction.lo CFLAGS = @CFLAGS@ COMPILE = $(CC) $(DEFS) $(INCLUDES) $(AM_CPPFLAGS) $(CPPFLAGS) $(AM_CFLAGS) $(CFLAGS) LTCOMPILE = $(LIBTOOL) --mode=compile $(CC) $(DEFS) $(INCLUDES) $(AM_CPPFLAGS) $(CPPFLAGS) $(AM_CFLAGS) $(CFLAGS) diff --git a/newlib/libc/sys/linux/machine/i386/getpagesize.c b/newlib/libc/sys/linux/machine/i386/getpagesize.c new file mode 100644 index 000000000..3f80a7a38 --- /dev/null +++ b/newlib/libc/sys/linux/machine/i386/getpagesize.c @@ -0,0 +1,6 @@ +/* default pagesize */ +int __getpagesize () +{ + return 4096; +} + diff --git a/newlib/libc/sys/linux/machine/i386/sysdep.h b/newlib/libc/sys/linux/machine/i386/sysdep.h new file mode 100644 index 000000000..42becb3fd --- /dev/null +++ b/newlib/libc/sys/linux/machine/i386/sysdep.h @@ -0,0 +1 @@ +#define NO_UNDERSCORES diff --git a/newlib/libc/sys/linux/machine/i386/weakalias.h b/newlib/libc/sys/linux/machine/i386/weakalias.h index 539ee4ae4..7b0b18a48 100644 --- a/newlib/libc/sys/linux/machine/i386/weakalias.h +++ b/newlib/libc/sys/linux/machine/i386/weakalias.h @@ -1,4 +1,8 @@ #define weak_alias(name, aliasname) \ extern __typeof (name) aliasname __attribute__ ((weak, alias (#name))); +#define weak_extern(symbol) _weak_extern (symbol) +#define _weak_extern(symbol) asm (".weak " #symbol); + +#define weak_function __attribute__ ((weak)) diff --git a/newlib/libc/sys/linux/malign.c b/newlib/libc/sys/linux/malign.c new file mode 100644 index 000000000..818e05a75 --- /dev/null +++ b/newlib/libc/sys/linux/malign.c @@ -0,0 +1 @@ +/* dummy file to override one object in stdlib directory */ diff --git a/newlib/libc/sys/linux/malignr.c b/newlib/libc/sys/linux/malignr.c new file mode 100644 index 000000000..5b2e14ae4 --- /dev/null +++ b/newlib/libc/sys/linux/malignr.c @@ -0,0 +1,7 @@ +#include + +void * +_memalign_r (struct _reent *ptr, size_t alignment, size_t bytes) +{ + return memalign (alignment, bytes); +} diff --git a/newlib/libc/sys/linux/mallinfor.c b/newlib/libc/sys/linux/mallinfor.c new file mode 100644 index 000000000..a2ee627bc --- /dev/null +++ b/newlib/libc/sys/linux/mallinfor.c @@ -0,0 +1,7 @@ +#include + +struct mallinfo +_mallinfo_r (struct _reent *ptr) +{ + return mallinfo (); +} diff --git a/newlib/libc/sys/linux/malloc.c b/newlib/libc/sys/linux/malloc.c new file mode 100644 index 000000000..ecebb369c --- /dev/null +++ b/newlib/libc/sys/linux/malloc.c @@ -0,0 +1,5077 @@ +/* Malloc implementation for multiple threads without lock contention. + Copyright (C) 1996-2001, 2002 Free Software Foundation, Inc. + This file is part of the GNU C Library. + Contributed by Wolfram Gloger + and Doug Lea , 1996. + + The GNU C Library is free software; you can redistribute it and/or + modify it under the terms of the GNU Lesser General Public + License as published by the Free Software Foundation; either + version 2.1 of the License, or (at your option) any later version. + + The GNU C Library 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 + Lesser General Public License for more details. + + You should have received a copy of the GNU Lesser General Public + License along with the GNU C Library; if not, write to the Free + Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA + 02111-1307 USA. */ + +/* $Id$ + + This work is mainly derived from malloc-2.6.4 by Doug Lea + , which is available from: + + ftp://g.oswego.edu/pub/misc/malloc.c + + Most of the original comments are reproduced in the code below. + +* Why use this malloc? + + This is not the fastest, most space-conserving, most portable, or + most tunable malloc ever written. However it is among the fastest + while also being among the most space-conserving, portable and tunable. + Consistent balance across these factors results in a good general-purpose + allocator. For a high-level description, see + http://g.oswego.edu/dl/html/malloc.html + + On many systems, the standard malloc implementation is by itself not + thread-safe, and therefore wrapped with a single global lock around + all malloc-related functions. In some applications, especially with + multiple available processors, this can lead to contention problems + and bad performance. This malloc version was designed with the goal + to avoid waiting for locks as much as possible. Statistics indicate + that this goal is achieved in many cases. + +* Synopsis of public routines + + (Much fuller descriptions are contained in the program documentation below.) + + ptmalloc_init(); + Initialize global configuration. When compiled for multiple threads, + this function must be called once before any other function in the + package. It is not required otherwise. It is called automatically + in the Linux/GNU C libray or when compiling with MALLOC_HOOKS. + malloc(size_t n); + Return a pointer to a newly allocated chunk of at least n bytes, or null + if no space is available. + free(Void_t* p); + Release the chunk of memory pointed to by p, or no effect if p is null. + realloc(Void_t* p, size_t n); + Return a pointer to a chunk of size n that contains the same data + as does chunk p up to the minimum of (n, p's size) bytes, or null + if no space is available. The returned pointer may or may not be + the same as p. If p is null, equivalent to malloc. Unless the + #define REALLOC_ZERO_BYTES_FREES below is set, realloc with a + size argument of zero (re)allocates a minimum-sized chunk. + memalign(size_t alignment, size_t n); + Return a pointer to a newly allocated chunk of n bytes, aligned + in accord with the alignment argument, which must be a power of + two. + valloc(size_t n); + Equivalent to memalign(pagesize, n), where pagesize is the page + size of the system (or as near to this as can be figured out from + all the includes/defines below.) + pvalloc(size_t n); + Equivalent to valloc(minimum-page-that-holds(n)), that is, + round up n to nearest pagesize. + calloc(size_t unit, size_t quantity); + Returns a pointer to quantity * unit bytes, with all locations + set to zero. + cfree(Void_t* p); + Equivalent to free(p). + malloc_trim(size_t pad); + Release all but pad bytes of freed top-most memory back + to the system. Return 1 if successful, else 0. + malloc_usable_size(Void_t* p); + Report the number usable allocated bytes associated with allocated + chunk p. This may or may not report more bytes than were requested, + due to alignment and minimum size constraints. + malloc_stats(); + Prints brief summary statistics on stderr. + mallinfo() + Returns (by copy) a struct containing various summary statistics. + mallopt(int parameter_number, int parameter_value) + Changes one of the tunable parameters described below. Returns + 1 if successful in changing the parameter, else 0. + +* Vital statistics: + + Alignment: 8-byte + 8 byte alignment is currently hardwired into the design. This + seems to suffice for all current machines and C compilers. + + Assumed pointer representation: 4 or 8 bytes + Code for 8-byte pointers is untested by me but has worked + reliably by Wolfram Gloger, who contributed most of the + changes supporting this. + + Assumed size_t representation: 4 or 8 bytes + Note that size_t is allowed to be 4 bytes even if pointers are 8. + + Minimum overhead per allocated chunk: 4 or 8 bytes + Each malloced chunk has a hidden overhead of 4 bytes holding size + and status information. + + Minimum allocated size: 4-byte ptrs: 16 bytes (including 4 overhead) + 8-byte ptrs: 24/32 bytes (including, 4/8 overhead) + + When a chunk is freed, 12 (for 4byte ptrs) or 20 (for 8 byte + ptrs but 4 byte size) or 24 (for 8/8) additional bytes are + needed; 4 (8) for a trailing size field + and 8 (16) bytes for free list pointers. Thus, the minimum + allocatable size is 16/24/32 bytes. + + Even a request for zero bytes (i.e., malloc(0)) returns a + pointer to something of the minimum allocatable size. + + Maximum allocated size: 4-byte size_t: 2^31 - 8 bytes + 8-byte size_t: 2^63 - 16 bytes + + It is assumed that (possibly signed) size_t bit values suffice to + represent chunk sizes. `Possibly signed' is due to the fact + that `size_t' may be defined on a system as either a signed or + an unsigned type. To be conservative, values that would appear + as negative numbers are avoided. + Requests for sizes with a negative sign bit will return a + minimum-sized chunk. + + Maximum overhead wastage per allocated chunk: normally 15 bytes + + Alignment demands, plus the minimum allocatable size restriction + make the normal worst-case wastage 15 bytes (i.e., up to 15 + more bytes will be allocated than were requested in malloc), with + two exceptions: + 1. Because requests for zero bytes allocate non-zero space, + the worst case wastage for a request of zero bytes is 24 bytes. + 2. For requests >= mmap_threshold that are serviced via + mmap(), the worst case wastage is 8 bytes plus the remainder + from a system page (the minimal mmap unit); typically 4096 bytes. + +* Limitations + + Here are some features that are NOT currently supported + + * No automated mechanism for fully checking that all accesses + to malloced memory stay within their bounds. + * No support for compaction. + +* Synopsis of compile-time options: + + People have reported using previous versions of this malloc on all + versions of Unix, sometimes by tweaking some of the defines + below. It has been tested most extensively on Solaris and + Linux. People have also reported adapting this malloc for use in + stand-alone embedded systems. + + The implementation is in straight, hand-tuned ANSI C. Among other + consequences, it uses a lot of macros. Because of this, to be at + all usable, this code should be compiled using an optimizing compiler + (for example gcc -O2) that can simplify expressions and control + paths. + + __STD_C (default: derived from C compiler defines) + Nonzero if using ANSI-standard C compiler, a C++ compiler, or + a C compiler sufficiently close to ANSI to get away with it. + MALLOC_DEBUG (default: NOT defined) + Define to enable debugging. Adds fairly extensive assertion-based + checking to help track down memory errors, but noticeably slows down + execution. + MALLOC_HOOKS (default: NOT defined) + Define to enable support run-time replacement of the allocation + functions through user-defined `hooks'. + REALLOC_ZERO_BYTES_FREES (default: defined) + Define this if you think that realloc(p, 0) should be equivalent + to free(p). (The C standard requires this behaviour, therefore + it is the default.) Otherwise, since malloc returns a unique + pointer for malloc(0), so does realloc(p, 0). + HAVE_MEMCPY (default: defined) + Define if you are not otherwise using ANSI STD C, but still + have memcpy and memset in your C library and want to use them. + Otherwise, simple internal versions are supplied. + USE_MEMCPY (default: 1 if HAVE_MEMCPY is defined, 0 otherwise) + Define as 1 if you want the C library versions of memset and + memcpy called in realloc and calloc (otherwise macro versions are used). + At least on some platforms, the simple macro versions usually + outperform libc versions. + HAVE_MMAP (default: defined as 1) + Define to non-zero to optionally make malloc() use mmap() to + allocate very large blocks. + HAVE_MREMAP (default: defined as 0 unless Linux libc set) + Define to non-zero to optionally make realloc() use mremap() to + reallocate very large blocks. + USE_ARENAS (default: the same as HAVE_MMAP) + Enable support for multiple arenas, allocated using mmap(). + malloc_getpagesize (default: derived from system #includes) + Either a constant or routine call returning the system page size. + HAVE_USR_INCLUDE_MALLOC_H (default: NOT defined) + Optionally define if you are on a system with a /usr/include/malloc.h + that declares struct mallinfo. It is not at all necessary to + define this even if you do, but will ensure consistency. + INTERNAL_SIZE_T (default: size_t) + Define to a 32-bit type (probably `unsigned int') if you are on a + 64-bit machine, yet do not want or need to allow malloc requests of + greater than 2^31 to be handled. This saves space, especially for + very small chunks. + _LIBC (default: NOT defined) + Defined only when compiled as part of the Linux libc/glibc. + Also note that there is some odd internal name-mangling via defines + (for example, internally, `malloc' is named `mALLOc') needed + when compiling in this case. These look funny but don't otherwise + affect anything. + LACKS_UNISTD_H (default: undefined) + Define this if your system does not have a . + MORECORE (default: sbrk) + The name of the routine to call to obtain more memory from the system. + MORECORE_FAILURE (default: -1) + The value returned upon failure of MORECORE. + MORECORE_CLEARS (default 1) + The degree to which the routine mapped to MORECORE zeroes out + memory: never (0), only for newly allocated space (1) or always + (2). The distinction between (1) and (2) is necessary because on + some systems, if the application first decrements and then + increments the break value, the contents of the reallocated space + are unspecified. + DEFAULT_TRIM_THRESHOLD + DEFAULT_TOP_PAD + DEFAULT_MMAP_THRESHOLD + DEFAULT_MMAP_MAX + Default values of tunable parameters (described in detail below) + controlling interaction with host system routines (sbrk, mmap, etc). + These values may also be changed dynamically via mallopt(). The + preset defaults are those that give best performance for typical + programs/systems. + DEFAULT_CHECK_ACTION + When the standard debugging hooks are in place, and a pointer is + detected as corrupt, do nothing (0), print an error message (1), + or call abort() (2). + + +*/ + +/* + +* Compile-time options for multiple threads: + + USE_PTHREADS, USE_THR, USE_SPROC + Define one of these as 1 to select the thread interface: + POSIX threads, Solaris threads or SGI sproc's, respectively. + If none of these is defined as non-zero, you get a `normal' + malloc implementation which is not thread-safe. Support for + multiple threads requires HAVE_MMAP=1. As an exception, when + compiling for GNU libc, i.e. when _LIBC is defined, then none of + the USE_... symbols have to be defined. + + HEAP_MIN_SIZE + HEAP_MAX_SIZE + When thread support is enabled, additional `heap's are created + with mmap calls. These are limited in size; HEAP_MIN_SIZE should + be a multiple of the page size, while HEAP_MAX_SIZE must be a power + of two for alignment reasons. HEAP_MAX_SIZE should be at least + twice as large as the mmap threshold. + THREAD_STATS + When this is defined as non-zero, some statistics on mutex locking + are computed. + +*/ + + + + +/* Preliminaries */ + +#ifndef __STD_C +#if defined (__STDC__) +#define __STD_C 1 +#else +#if __cplusplus +#define __STD_C 1 +#else +#define __STD_C 0 +#endif /*__cplusplus*/ +#endif /*__STDC__*/ +#endif /*__STD_C*/ + +#ifndef Void_t +#if __STD_C +#define Void_t void +#else +#define Void_t char +#endif +#endif /*Void_t*/ + +#if __STD_C +# include /* for size_t */ +# if defined _LIBC || defined MALLOC_HOOKS +# include /* for getenv(), abort() */ +# endif +#else +# include +# if defined _LIBC || defined MALLOC_HOOKS +extern char* getenv(); +# endif +#endif + +/* newlib modifications */ + +#include +#include + +extern void __pthread_initialize (void) __attribute__((weak)); +extern void *__mmap (void *__addr, size_t __len, int __prot, + int __flags, int __fd, off_t __offset); +extern int __munmap (void *__addr, size_t __len); +extern void *__mremap (void *__addr, size_t __old_len, size_t __new_len, + int __may_move); +extern int __getpagesize (void); + +#define __libc_enable_secure 1 + +/* Macros for handling mutexes and thread-specific data. This is + included early, because some thread-related header files (such as + pthread.h) should be included before any others. */ +#include +#include "thread-m.h" + +void *(*__malloc_internal_tsd_get) (enum __libc_tsd_key_t) = NULL; +int (*__malloc_internal_tsd_set) (enum __libc_tsd_key_t, + __const void *) = NULL; + +weak_alias(__malloc_internal_tsd_get, __libc_internal_tsd_get) +weak_alias(__malloc_internal_tsd_set, __libc_internal_tsd_set) + + +#ifdef __cplusplus +extern "C" { +#endif + +#include +#include /* needed for malloc_stats */ + + +/* + Compile-time options +*/ + + +/* + Debugging: + + Because freed chunks may be overwritten with link fields, this + malloc will often die when freed memory is overwritten by user + programs. This can be very effective (albeit in an annoying way) + in helping track down dangling pointers. + + If you compile with -DMALLOC_DEBUG, a number of assertion checks are + enabled that will catch more memory errors. You probably won't be + able to make much sense of the actual assertion errors, but they + should help you locate incorrectly overwritten memory. The + checking is fairly extensive, and will slow down execution + noticeably. Calling malloc_stats or mallinfo with MALLOC_DEBUG set will + attempt to check every non-mmapped allocated and free chunk in the + course of computing the summaries. (By nature, mmapped regions + cannot be checked very much automatically.) + + Setting MALLOC_DEBUG may also be helpful if you are trying to modify + this code. The assertions in the check routines spell out in more + detail the assumptions and invariants underlying the algorithms. + +*/ + +#if MALLOC_DEBUG +#include +#else +#define assert(x) ((void)0) +#endif + + +/* + INTERNAL_SIZE_T is the word-size used for internal bookkeeping + of chunk sizes. On a 64-bit machine, you can reduce malloc + overhead by defining INTERNAL_SIZE_T to be a 32 bit `unsigned int' + at the expense of not being able to handle requests greater than + 2^31. This limitation is hardly ever a concern; you are encouraged + to set this. However, the default version is the same as size_t. +*/ + +#ifndef INTERNAL_SIZE_T +#define INTERNAL_SIZE_T size_t +#endif + +/* + REALLOC_ZERO_BYTES_FREES should be set if a call to realloc with + zero bytes should be the same as a call to free. The C standard + requires this. Otherwise, since this malloc returns a unique pointer + for malloc(0), so does realloc(p, 0). +*/ + + +#define REALLOC_ZERO_BYTES_FREES + + +/* + HAVE_MEMCPY should be defined if you are not otherwise using + ANSI STD C, but still have memcpy and memset in your C library + and want to use them in calloc and realloc. Otherwise simple + macro versions are defined here. + + USE_MEMCPY should be defined as 1 if you actually want to + have memset and memcpy called. People report that the macro + versions are often enough faster than libc versions on many + systems that it is better to use them. + +*/ + +#define HAVE_MEMCPY 1 + +#ifndef USE_MEMCPY +#ifdef HAVE_MEMCPY +#define USE_MEMCPY 1 +#else +#define USE_MEMCPY 0 +#endif +#endif + +#if (__STD_C || defined(HAVE_MEMCPY)) + +#if __STD_C +void* memset(void*, int, size_t); +void* memcpy(void*, const void*, size_t); +void* memmove(void*, const void*, size_t); +#else +Void_t* memset(); +Void_t* memcpy(); +Void_t* memmove(); +#endif +#endif + +/* The following macros are only invoked with (2n+1)-multiples of + INTERNAL_SIZE_T units, with a positive integer n. This is exploited + for fast inline execution when n is small. If the regions to be + copied do overlap, the destination lies always _below_ the source. */ + +#if USE_MEMCPY + +#define MALLOC_ZERO(charp, nbytes) \ +do { \ + INTERNAL_SIZE_T mzsz = (nbytes); \ + if(mzsz <= 9*sizeof(mzsz)) { \ + INTERNAL_SIZE_T* mz = (INTERNAL_SIZE_T*) (charp); \ + if(mzsz >= 5*sizeof(mzsz)) { *mz++ = 0; \ + *mz++ = 0; \ + if(mzsz >= 7*sizeof(mzsz)) { *mz++ = 0; \ + *mz++ = 0; \ + if(mzsz >= 9*sizeof(mzsz)) { *mz++ = 0; \ + *mz++ = 0; }}} \ + *mz++ = 0; \ + *mz++ = 0; \ + *mz = 0; \ + } else memset((charp), 0, mzsz); \ +} while(0) + +/* If the regions overlap, dest is always _below_ src. */ + +#define MALLOC_COPY(dest,src,nbytes,overlap) \ +do { \ + INTERNAL_SIZE_T mcsz = (nbytes); \ + if(mcsz <= 9*sizeof(mcsz)) { \ + INTERNAL_SIZE_T* mcsrc = (INTERNAL_SIZE_T*) (src); \ + INTERNAL_SIZE_T* mcdst = (INTERNAL_SIZE_T*) (dest); \ + if(mcsz >= 5*sizeof(mcsz)) { *mcdst++ = *mcsrc++; \ + *mcdst++ = *mcsrc++; \ + if(mcsz >= 7*sizeof(mcsz)) { *mcdst++ = *mcsrc++; \ + *mcdst++ = *mcsrc++; \ + if(mcsz >= 9*sizeof(mcsz)) { *mcdst++ = *mcsrc++; \ + *mcdst++ = *mcsrc++; }}} \ + *mcdst++ = *mcsrc++; \ + *mcdst++ = *mcsrc++; \ + *mcdst = *mcsrc ; \ + } else if(overlap) \ + memmove(dest, src, mcsz); \ + else \ + memcpy(dest, src, mcsz); \ +} while(0) + +#else /* !USE_MEMCPY */ + +/* Use Duff's device for good zeroing/copying performance. */ + +#define MALLOC_ZERO(charp, nbytes) \ +do { \ + INTERNAL_SIZE_T* mzp = (INTERNAL_SIZE_T*)(charp); \ + long mctmp = (nbytes)/sizeof(INTERNAL_SIZE_T), mcn; \ + if (mctmp < 8) mcn = 0; else { mcn = (mctmp-1)/8; mctmp %= 8; } \ + switch (mctmp) { \ + case 0: for(;;) { *mzp++ = 0; \ + case 7: *mzp++ = 0; \ + case 6: *mzp++ = 0; \ + case 5: *mzp++ = 0; \ + case 4: *mzp++ = 0; \ + case 3: *mzp++ = 0; \ + case 2: *mzp++ = 0; \ + case 1: *mzp++ = 0; if(mcn <= 0) break; mcn--; } \ + } \ +} while(0) + +/* If the regions overlap, dest is always _below_ src. */ + +#define MALLOC_COPY(dest,src,nbytes,overlap) \ +do { \ + INTERNAL_SIZE_T* mcsrc = (INTERNAL_SIZE_T*) src; \ + INTERNAL_SIZE_T* mcdst = (INTERNAL_SIZE_T*) dest; \ + long mctmp = (nbytes)/sizeof(INTERNAL_SIZE_T), mcn; \ + if (mctmp < 8) mcn = 0; else { mcn = (mctmp-1)/8; mctmp %= 8; } \ + switch (mctmp) { \ + case 0: for(;;) { *mcdst++ = *mcsrc++; \ + case 7: *mcdst++ = *mcsrc++; \ + case 6: *mcdst++ = *mcsrc++; \ + case 5: *mcdst++ = *mcsrc++; \ + case 4: *mcdst++ = *mcsrc++; \ + case 3: *mcdst++ = *mcsrc++; \ + case 2: *mcdst++ = *mcsrc++; \ + case 1: *mcdst++ = *mcsrc++; if(mcn <= 0) break; mcn--; } \ + } \ +} while(0) + +#endif + + +#ifndef LACKS_UNISTD_H +# include +#endif + +/* + Define HAVE_MMAP to optionally make malloc() use mmap() to allocate + very large blocks. These will be returned to the operating system + immediately after a free(). HAVE_MMAP is also a prerequisite to + support multiple `arenas' (see USE_ARENAS below). +*/ + +#ifndef HAVE_MMAP +# ifdef _POSIX_MAPPED_FILES +# define HAVE_MMAP 1 +# endif +#endif + +/* + Define HAVE_MREMAP to make realloc() use mremap() to re-allocate + large blocks. This is currently only possible on Linux with + kernel versions newer than 1.3.77. +*/ + +#ifndef HAVE_MREMAP +#define HAVE_MREMAP defined(__linux__) +#endif + +/* Define USE_ARENAS to enable support for multiple `arenas'. These + are allocated using mmap(), are necessary for threads and + occasionally useful to overcome address space limitations affecting + sbrk(). */ + +#ifndef USE_ARENAS +#define USE_ARENAS HAVE_MMAP +#endif + +#if HAVE_MMAP + +#include +#include +#include + +#if !defined(MAP_ANONYMOUS) && defined(MAP_ANON) +#define MAP_ANONYMOUS MAP_ANON +#endif +#if !defined(MAP_FAILED) +#define MAP_FAILED ((char*)-1) +#endif + +#ifndef MAP_NORESERVE +# ifdef MAP_AUTORESRV +# define MAP_NORESERVE MAP_AUTORESRV +# else +# define MAP_NORESERVE 0 +# endif +#endif + +#endif /* HAVE_MMAP */ + +/* + Access to system page size. To the extent possible, this malloc + manages memory from the system in page-size units. + + The following mechanics for getpagesize were adapted from + bsd/gnu getpagesize.h +*/ + +#ifndef malloc_getpagesize +# ifdef _SC_PAGESIZE /* some SVR4 systems omit an underscore */ +# ifndef _SC_PAGE_SIZE +# define _SC_PAGE_SIZE _SC_PAGESIZE +# endif +# endif +# ifdef _SC_PAGE_SIZE +# define malloc_getpagesize sysconf(_SC_PAGE_SIZE) +# else +# if defined(BSD) || defined(DGUX) || defined(HAVE_GETPAGESIZE) + extern size_t getpagesize(); +# define malloc_getpagesize getpagesize() +# else +# include +# ifdef EXEC_PAGESIZE +# define malloc_getpagesize EXEC_PAGESIZE +# else +# ifdef NBPG +# ifndef CLSIZE +# define malloc_getpagesize NBPG +# else +# define malloc_getpagesize (NBPG * CLSIZE) +# endif +# else +# ifdef NBPC +# define malloc_getpagesize NBPC +# else +# ifdef PAGESIZE +# define malloc_getpagesize PAGESIZE +# else +# define malloc_getpagesize (4096) /* just guess */ +# endif +# endif +# endif +# endif +# endif +# endif +#endif + + + +/* + + This version of malloc supports the standard SVID/XPG mallinfo + routine that returns a struct containing the same kind of + information you can get from malloc_stats. It should work on + any SVID/XPG compliant system that has a /usr/include/malloc.h + defining struct mallinfo. (If you'd like to install such a thing + yourself, cut out the preliminary declarations as described above + and below and save them in a malloc.h file. But there's no + compelling reason to bother to do this.) + + The main declaration needed is the mallinfo struct that is returned + (by-copy) by mallinfo(). The SVID/XPG malloinfo struct contains a + bunch of fields, most of which are not even meaningful in this + version of malloc. Some of these fields are are instead filled by + mallinfo() with other numbers that might possibly be of interest. + + HAVE_USR_INCLUDE_MALLOC_H should be set if you have a + /usr/include/malloc.h file that includes a declaration of struct + mallinfo. If so, it is included; else an SVID2/XPG2 compliant + version is declared below. These must be precisely the same for + mallinfo() to work. + +*/ + +/* #define HAVE_USR_INCLUDE_MALLOC_H */ + +#if HAVE_USR_INCLUDE_MALLOC_H +# include "/usr/include/malloc.h" +#else +# ifdef _LIBC +# include "malloc.h" +# else +# include "ptmalloc.h" +# endif +#endif + +#include + +#ifndef DEFAULT_TRIM_THRESHOLD +#define DEFAULT_TRIM_THRESHOLD (128 * 1024) +#endif + +/* + M_TRIM_THRESHOLD is the maximum amount of unused top-most memory + to keep before releasing via malloc_trim in free(). + + Automatic trimming is mainly useful in long-lived programs. + Because trimming via sbrk can be slow on some systems, and can + sometimes be wasteful (in cases where programs immediately + afterward allocate more large chunks) the value should be high + enough so that your overall system performance would improve by + releasing. + + The trim threshold and the mmap control parameters (see below) + can be traded off with one another. Trimming and mmapping are + two different ways of releasing unused memory back to the + system. Between these two, it is often possible to keep + system-level demands of a long-lived program down to a bare + minimum. For example, in one test suite of sessions measuring + the XF86 X server on Linux, using a trim threshold of 128K and a + mmap threshold of 192K led to near-minimal long term resource + consumption. + + If you are using this malloc in a long-lived program, it should + pay to experiment with these values. As a rough guide, you + might set to a value close to the average size of a process + (program) running on your system. Releasing this much memory + would allow such a process to run in memory. Generally, it's + worth it to tune for trimming rather than memory mapping when a + program undergoes phases where several large chunks are + allocated and released in ways that can reuse each other's + storage, perhaps mixed with phases where there are no such + chunks at all. And in well-behaved long-lived programs, + controlling release of large blocks via trimming versus mapping + is usually faster. + + However, in most programs, these parameters serve mainly as + protection against the system-level effects of carrying around + massive amounts of unneeded memory. Since frequent calls to + sbrk, mmap, and munmap otherwise degrade performance, the default + parameters are set to relatively high values that serve only as + safeguards. + + The default trim value is high enough to cause trimming only in + fairly extreme (by current memory consumption standards) cases. + It must be greater than page size to have any useful effect. To + disable trimming completely, you can set to (unsigned long)(-1); + + +*/ + + +#ifndef DEFAULT_TOP_PAD +#define DEFAULT_TOP_PAD (0) +#endif + +/* + M_TOP_PAD is the amount of extra `padding' space to allocate or + retain whenever sbrk is called. It is used in two ways internally: + + * When sbrk is called to extend the top of the arena to satisfy + a new malloc request, this much padding is added to the sbrk + request. + + * When malloc_trim is called automatically from free(), + it is used as the `pad' argument. + + In both cases, the actual amount of padding is rounded + so that the end of the arena is always a system page boundary. + + The main reason for using padding is to avoid calling sbrk so + often. Having even a small pad greatly reduces the likelihood + that nearly every malloc request during program start-up (or + after trimming) will invoke sbrk, which needlessly wastes + time. + + Automatic rounding-up to page-size units is normally sufficient + to avoid measurable overhead, so the default is 0. However, in + systems where sbrk is relatively slow, it can pay to increase + this value, at the expense of carrying around more memory than + the program needs. + +*/ + + +#ifndef DEFAULT_MMAP_THRESHOLD +#define DEFAULT_MMAP_THRESHOLD (128 * 1024) +#endif + +/* + + M_MMAP_THRESHOLD is the request size threshold for using mmap() + to service a request. Requests of at least this size that cannot + be allocated using already-existing space will be serviced via mmap. + (If enough normal freed space already exists it is used instead.) + + Using mmap segregates relatively large chunks of memory so that + they can be individually obtained and released from the host + system. A request serviced through mmap is never reused by any + other request (at least not directly; the system may just so + happen to remap successive requests to the same locations). + + Segregating space in this way has the benefit that mmapped space + can ALWAYS be individually released back to the system, which + helps keep the system level memory demands of a long-lived + program low. Mapped memory can never become `locked' between + other chunks, as can happen with normally allocated chunks, which + menas that even trimming via malloc_trim would not release them. + + However, it has the disadvantages that: + + 1. The space cannot be reclaimed, consolidated, and then + used to service later requests, as happens with normal chunks. + 2. It can lead to more wastage because of mmap page alignment + requirements + 3. It causes malloc performance to be more dependent on host + system memory management support routines which may vary in + implementation quality and may impose arbitrary + limitations. Generally, servicing a request via normal + malloc steps is faster than going through a system's mmap. + + All together, these considerations should lead you to use mmap + only for relatively large requests. + + +*/ + + + +#ifndef DEFAULT_MMAP_MAX +#if HAVE_MMAP +#define DEFAULT_MMAP_MAX (1024) +#else +#define DEFAULT_MMAP_MAX (0) +#endif +#endif + +/* + M_MMAP_MAX is the maximum number of requests to simultaneously + service using mmap. This parameter exists because: + + 1. Some systems have a limited number of internal tables for + use by mmap. + 2. In most systems, overreliance on mmap can degrade overall + performance. + 3. If a program allocates many large regions, it is probably + better off using normal sbrk-based allocation routines that + can reclaim and reallocate normal heap memory. Using a + small value allows transition into this mode after the + first few allocations. + + Setting to 0 disables all use of mmap. If HAVE_MMAP is not set, + the default value is 0, and attempts to set it to non-zero values + in mallopt will fail. +*/ + + + +#ifndef DEFAULT_CHECK_ACTION +#define DEFAULT_CHECK_ACTION 1 +#endif + +/* What to do if the standard debugging hooks are in place and a + corrupt pointer is detected: do nothing (0), print an error message + (1), or call abort() (2). */ + + + +#define HEAP_MIN_SIZE (32*1024) +#define HEAP_MAX_SIZE (1024*1024) /* must be a power of two */ + +/* HEAP_MIN_SIZE and HEAP_MAX_SIZE limit the size of mmap()ed heaps + that are dynamically created for multi-threaded programs. The + maximum size must be a power of two, for fast determination of + which heap belongs to a chunk. It should be much larger than + the mmap threshold, so that requests with a size just below that + threshold can be fulfilled without creating too many heaps. +*/ + + + +#ifndef THREAD_STATS +#define THREAD_STATS 0 +#endif + +/* If THREAD_STATS is non-zero, some statistics on mutex locking are + computed. */ + + +/* Macro to set errno. */ +#ifndef __set_errno +# define __set_errno(val) errno = (val) +#endif + +/* On some platforms we can compile internal, not exported functions better. + Let the environment provide a macro and define it to be empty if it + is not available. */ +#ifndef internal_function +# define internal_function +#endif + + +/* + + Special defines for the Linux/GNU C library. + +*/ + + +#ifdef _LIBC + +#if __STD_C + +Void_t * __default_morecore (ptrdiff_t); +Void_t *(*__morecore)(ptrdiff_t) = __default_morecore; + +#else + +Void_t * __default_morecore (); +Void_t *(*__morecore)() = __default_morecore; + +#endif + +#define MORECORE (*__morecore) +#define MORECORE_FAILURE 0 + +#ifndef MORECORE_CLEARS +#define MORECORE_CLEARS 1 +#endif + +static size_t __libc_pagesize; + +#define access __access +#define mmap __mmap +#define munmap __munmap +#define mremap __mremap +#define mprotect __mprotect +#undef malloc_getpagesize +#define malloc_getpagesize __libc_pagesize + +#else /* _LIBC */ + +#if __STD_C +extern Void_t* sbrk(ptrdiff_t); +#else +extern Void_t* sbrk(); +#endif + +#ifndef MORECORE +#define MORECORE sbrk +#endif + +#ifndef MORECORE_FAILURE +#define MORECORE_FAILURE -1 +#endif + +#ifndef MORECORE_CLEARS +#define MORECORE_CLEARS 1 +#endif + +#endif /* _LIBC */ + +#ifdef _LIBC + +#define cALLOc __libc_calloc +#define fREe __libc_free +#define mALLOc __libc_malloc +#define mEMALIGn __libc_memalign +#define rEALLOc __libc_realloc +#define vALLOc __libc_valloc +#define pvALLOc __libc_pvalloc +#define mALLINFo __libc_mallinfo +#define mALLOPt __libc_mallopt +#define mALLOC_STATs __malloc_stats +#define mALLOC_USABLE_SIZe __malloc_usable_size +#define mALLOC_TRIm __malloc_trim +#define mALLOC_GET_STATe __malloc_get_state +#define mALLOC_SET_STATe __malloc_set_state + +#else + +#define cALLOc calloc +#define fREe free +#define mALLOc malloc +#define mEMALIGn memalign +#define rEALLOc realloc +#define vALLOc valloc +#define pvALLOc pvalloc +#define mALLINFo mallinfo +#define mALLOPt mallopt +#define mALLOC_STATs malloc_stats +#define mALLOC_USABLE_SIZe malloc_usable_size +#define mALLOC_TRIm malloc_trim +#define mALLOC_GET_STATe malloc_get_state +#define mALLOC_SET_STATe malloc_set_state + +#endif + +/* Public routines */ + +#if __STD_C + +#ifndef _LIBC +void ptmalloc_init(void); +#endif +Void_t* mALLOc(size_t); +void fREe(Void_t*); +Void_t* rEALLOc(Void_t*, size_t); +Void_t* mEMALIGn(size_t, size_t); +Void_t* vALLOc(size_t); +Void_t* pvALLOc(size_t); +Void_t* cALLOc(size_t, size_t); +void cfree(Void_t*); +int mALLOC_TRIm(size_t); +size_t mALLOC_USABLE_SIZe(Void_t*); +void mALLOC_STATs(void); +int mALLOPt(int, int); +struct mallinfo mALLINFo(void); +Void_t* mALLOC_GET_STATe(void); +int mALLOC_SET_STATe(Void_t*); + +#else /* !__STD_C */ + +#ifndef _LIBC +void ptmalloc_init(); +#endif +Void_t* mALLOc(); +void fREe(); +Void_t* rEALLOc(); +Void_t* mEMALIGn(); +Void_t* vALLOc(); +Void_t* pvALLOc(); +Void_t* cALLOc(); +void cfree(); +int mALLOC_TRIm(); +size_t mALLOC_USABLE_SIZe(); +void mALLOC_STATs(); +int mALLOPt(); +struct mallinfo mALLINFo(); +Void_t* mALLOC_GET_STATe(); +int mALLOC_SET_STATe(); + +#endif /* __STD_C */ + + +#ifdef __cplusplus +} /* end of extern "C" */ +#endif + +#if !defined(NO_THREADS) && !HAVE_MMAP +"Can't have threads support without mmap" +#endif +#if USE_ARENAS && !HAVE_MMAP +"Can't have multiple arenas without mmap" +#endif + + +/* + Type declarations +*/ + + +struct malloc_chunk +{ + INTERNAL_SIZE_T prev_size; /* Size of previous chunk (if free). */ + INTERNAL_SIZE_T size; /* Size in bytes, including overhead. */ + struct malloc_chunk* fd; /* double links -- used only if free. */ + struct malloc_chunk* bk; +}; + +typedef struct malloc_chunk* mchunkptr; + +/* + + malloc_chunk details: + + (The following includes lightly edited explanations by Colin Plumb.) + + Chunks of memory are maintained using a `boundary tag' method as + described in e.g., Knuth or Standish. (See the paper by Paul + Wilson ftp://ftp.cs.utexas.edu/pub/garbage/allocsrv.ps for a + survey of such techniques.) Sizes of free chunks are stored both + in the front of each chunk and at the end. This makes + consolidating fragmented chunks into bigger chunks very fast. The + size fields also hold bits representing whether chunks are free or + in use. + + An allocated chunk looks like this: + + + chunk-> +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ + | Size of previous chunk, if allocated | | + +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ + | Size of chunk, in bytes |P| + mem-> +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ + | User data starts here... . + . . + . (malloc_usable_space() bytes) . + . | +nextchunk-> +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ + | Size of chunk | + +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ + + + Where "chunk" is the front of the chunk for the purpose of most of + the malloc code, but "mem" is the pointer that is returned to the + user. "Nextchunk" is the beginning of the next contiguous chunk. + + Chunks always begin on even word boundaries, so the mem portion + (which is returned to the user) is also on an even word boundary, and + thus double-word aligned. + + Free chunks are stored in circular doubly-linked lists, and look like this: + + chunk-> +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ + | Size of previous chunk | + +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ + `head:' | Size of chunk, in bytes |P| + mem-> +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ + | Forward pointer to next chunk in list | + +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ + | Back pointer to previous chunk in list | + +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ + | Unused space (may be 0 bytes long) . + . . + . | +nextchunk-> +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ + `foot:' | Size of chunk, in bytes | + +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+ + + The P (PREV_INUSE) bit, stored in the unused low-order bit of the + chunk size (which is always a multiple of two words), is an in-use + bit for the *previous* chunk. If that bit is *clear*, then the + word before the current chunk size contains the previous chunk + size, and can be used to find the front of the previous chunk. + (The very first chunk allocated always has this bit set, + preventing access to non-existent (or non-owned) memory.) + + Note that the `foot' of the current chunk is actually represented + as the prev_size of the NEXT chunk. (This makes it easier to + deal with alignments etc). + + The two exceptions to all this are + + 1. The special chunk `top', which doesn't bother using the + trailing size field since there is no + next contiguous chunk that would have to index off it. (After + initialization, `top' is forced to always exist. If it would + become less than MINSIZE bytes long, it is replenished via + malloc_extend_top.) + + 2. Chunks allocated via mmap, which have the second-lowest-order + bit (IS_MMAPPED) set in their size fields. Because they are + never merged or traversed from any other chunk, they have no + foot size or inuse information. + + Available chunks are kept in any of several places (all declared below): + + * `av': An array of chunks serving as bin headers for consolidated + chunks. Each bin is doubly linked. The bins are approximately + proportionally (log) spaced. There are a lot of these bins + (128). This may look excessive, but works very well in + practice. All procedures maintain the invariant that no + consolidated chunk physically borders another one. Chunks in + bins are kept in size order, with ties going to the + approximately least recently used chunk. + + The chunks in each bin are maintained in decreasing sorted order by + size. This is irrelevant for the small bins, which all contain + the same-sized chunks, but facilitates best-fit allocation for + larger chunks. (These lists are just sequential. Keeping them in + order almost never requires enough traversal to warrant using + fancier ordered data structures.) Chunks of the same size are + linked with the most recently freed at the front, and allocations + are taken from the back. This results in LRU or FIFO allocation + order, which tends to give each chunk an equal opportunity to be + consolidated with adjacent freed chunks, resulting in larger free + chunks and less fragmentation. + + * `top': The top-most available chunk (i.e., the one bordering the + end of available memory) is treated specially. It is never + included in any bin, is used only if no other chunk is + available, and is released back to the system if it is very + large (see M_TRIM_THRESHOLD). + + * `last_remainder': A bin holding only the remainder of the + most recently split (non-top) chunk. This bin is checked + before other non-fitting chunks, so as to provide better + locality for runs of sequentially allocated chunks. + + * Implicitly, through the host system's memory mapping tables. + If supported, requests greater than a threshold are usually + serviced via calls to mmap, and then later released via munmap. + +*/ + +/* + Bins + + The bins are an array of pairs of pointers serving as the + heads of (initially empty) doubly-linked lists of chunks, laid out + in a way so that each pair can be treated as if it were in a + malloc_chunk. (This way, the fd/bk offsets for linking bin heads + and chunks are the same). + + Bins for sizes < 512 bytes contain chunks of all the same size, spaced + 8 bytes apart. Larger bins are approximately logarithmically + spaced. (See the table below.) + + Bin layout: + + 64 bins of size 8 + 32 bins of size 64 + 16 bins of size 512 + 8 bins of size 4096 + 4 bins of size 32768 + 2 bins of size 262144 + 1 bin of size what's left + + There is actually a little bit of slop in the numbers in bin_index + for the sake of speed. This makes no difference elsewhere. + + The special chunks `top' and `last_remainder' get their own bins, + (this is implemented via yet more trickery with the av array), + although `top' is never properly linked to its bin since it is + always handled specially. + +*/ + +#define NAV 128 /* number of bins */ + +typedef struct malloc_chunk* mbinptr; + +/* An arena is a configuration of malloc_chunks together with an array + of bins. With multiple threads, it must be locked via a mutex + before changing its data structures. One or more `heaps' are + associated with each arena, except for the main_arena, which is + associated only with the `main heap', i.e. the conventional free + store obtained with calls to MORECORE() (usually sbrk). The `av' + array is never mentioned directly in the code, but instead used via + bin access macros. */ + +typedef struct _arena { + mbinptr av[2*NAV + 2]; + struct _arena *next; + size_t size; +#if THREAD_STATS + long stat_lock_direct, stat_lock_loop, stat_lock_wait; +#endif + mutex_t mutex; +} arena; + + +/* A heap is a single contiguous memory region holding (coalesceable) + malloc_chunks. It is allocated with mmap() and always starts at an + address aligned to HEAP_MAX_SIZE. Not used unless compiling with + USE_ARENAS. */ + +typedef struct _heap_info { + arena *ar_ptr; /* Arena for this heap. */ + struct _heap_info *prev; /* Previous heap. */ + size_t size; /* Current size in bytes. */ + size_t pad; /* Make sure the following data is properly aligned. */ +} heap_info; + + +/* + Static functions (forward declarations) +*/ + +#if __STD_C + +static void chunk_free(arena *ar_ptr, mchunkptr p) internal_function; +static mchunkptr chunk_alloc(arena *ar_ptr, INTERNAL_SIZE_T size) + internal_function; +static mchunkptr chunk_realloc(arena *ar_ptr, mchunkptr oldp, + INTERNAL_SIZE_T oldsize, INTERNAL_SIZE_T nb) + internal_function; +static mchunkptr chunk_align(arena *ar_ptr, INTERNAL_SIZE_T nb, + size_t alignment) internal_function; +static int main_trim(size_t pad) internal_function; +#if USE_ARENAS +static int heap_trim(heap_info *heap, size_t pad) internal_function; +#endif +#if defined _LIBC || defined MALLOC_HOOKS +static Void_t* malloc_check(size_t sz, const Void_t *caller); +static void free_check(Void_t* mem, const Void_t *caller); +static Void_t* realloc_check(Void_t* oldmem, size_t bytes, + const Void_t *caller); +static Void_t* memalign_check(size_t alignment, size_t bytes, + const Void_t *caller); +#ifndef NO_THREADS +static Void_t* malloc_starter(size_t sz, const Void_t *caller); +static void free_starter(Void_t* mem, const Void_t *caller); +static Void_t* malloc_atfork(size_t sz, const Void_t *caller); +static void free_atfork(Void_t* mem, const Void_t *caller); +#endif +#endif + +#else + +static void chunk_free(); +static mchunkptr chunk_alloc(); +static mchunkptr chunk_realloc(); +static mchunkptr chunk_align(); +static int main_trim(); +#if USE_ARENAS +static int heap_trim(); +#endif +#if defined _LIBC || defined MALLOC_HOOKS +static Void_t* malloc_check(); +static void free_check(); +static Void_t* realloc_check(); +static Void_t* memalign_check(); +#ifndef NO_THREADS +static Void_t* malloc_starter(); +static void free_starter(); +static Void_t* malloc_atfork(); +static void free_atfork(); +#endif +#endif + +#endif + + + +/* sizes, alignments */ + +#define SIZE_SZ (sizeof(INTERNAL_SIZE_T)) +/* Allow the default to be overwritten on the compiler command line. */ +#ifndef MALLOC_ALIGNMENT +# define MALLOC_ALIGNMENT (SIZE_SZ + SIZE_SZ) +#endif +#define MALLOC_ALIGN_MASK (MALLOC_ALIGNMENT - 1) +#define MINSIZE (sizeof(struct malloc_chunk)) + +/* conversion from malloc headers to user pointers, and back */ + +#define chunk2mem(p) ((Void_t*)((char*)(p) + 2*SIZE_SZ)) +#define mem2chunk(mem) chunk_at_offset((mem), -2*SIZE_SZ) + +/* pad request bytes into a usable size, return non-zero on overflow */ + +#define request2size(req, nb) \ + ((nb = (req) + (SIZE_SZ + MALLOC_ALIGN_MASK)),\ + ((long)nb <= 0 || nb < (INTERNAL_SIZE_T) (req) \ + ? (__set_errno (ENOMEM), 1) \ + : ((nb < (MINSIZE + MALLOC_ALIGN_MASK) \ + ? (nb = MINSIZE) : (nb &= ~MALLOC_ALIGN_MASK)), 0))) + +/* Check if m has acceptable alignment */ + +#define aligned_OK(m) (((unsigned long)((m)) & (MALLOC_ALIGN_MASK)) == 0) + + + + +/* + Physical chunk operations +*/ + + +/* size field is or'ed with PREV_INUSE when previous adjacent chunk in use */ + +#define PREV_INUSE 0x1UL + +/* size field is or'ed with IS_MMAPPED if the chunk was obtained with mmap() */ + +#define IS_MMAPPED 0x2UL + +/* Bits to mask off when extracting size */ + +#define SIZE_BITS (PREV_INUSE|IS_MMAPPED) + + +/* Ptr to next physical malloc_chunk. */ + +#define next_chunk(p) chunk_at_offset((p), (p)->size & ~PREV_INUSE) + +/* Ptr to previous physical malloc_chunk */ + +#define prev_chunk(p) chunk_at_offset((p), -(p)->prev_size) + + +/* Treat space at ptr + offset as a chunk */ + +#define chunk_at_offset(p, s) BOUNDED_1((mchunkptr)(((char*)(p)) + (s))) + + + + +/* + Dealing with use bits +*/ + +/* extract p's inuse bit */ + +#define inuse(p) (next_chunk(p)->size & PREV_INUSE) + +/* extract inuse bit of previous chunk */ + +#define prev_inuse(p) ((p)->size & PREV_INUSE) + +/* check for mmap()'ed chunk */ + +#define chunk_is_mmapped(p) ((p)->size & IS_MMAPPED) + +/* set/clear chunk as in use without otherwise disturbing */ + +#define set_inuse(p) (next_chunk(p)->size |= PREV_INUSE) + +#define clear_inuse(p) (next_chunk(p)->size &= ~PREV_INUSE) + +/* check/set/clear inuse bits in known places */ + +#define inuse_bit_at_offset(p, s) \ + (chunk_at_offset((p), (s))->size & PREV_INUSE) + +#define set_inuse_bit_at_offset(p, s) \ + (chunk_at_offset((p), (s))->size |= PREV_INUSE) + +#define clear_inuse_bit_at_offset(p, s) \ + (chunk_at_offset((p), (s))->size &= ~(PREV_INUSE)) + + + + +/* + Dealing with size fields +*/ + +/* Get size, ignoring use bits */ + +#define chunksize(p) ((p)->size & ~(SIZE_BITS)) + +/* Set size at head, without disturbing its use bit */ + +#define set_head_size(p, s) ((p)->size = (((p)->size & PREV_INUSE) | (s))) + +/* Set size/use ignoring previous bits in header */ + +#define set_head(p, s) ((p)->size = (s)) + +/* Set size at footer (only when chunk is not in use) */ + +#define set_foot(p, s) (chunk_at_offset(p, s)->prev_size = (s)) + + + + + +/* access macros */ + +#define bin_at(a, i) BOUNDED_1(_bin_at(a, i)) +#define _bin_at(a, i) ((mbinptr)((char*)&(((a)->av)[2*(i)+2]) - 2*SIZE_SZ)) +#define init_bin(a, i) ((a)->av[2*(i)+2] = (a)->av[2*(i)+3] = bin_at((a), (i))) +#define next_bin(b) ((mbinptr)((char*)(b) + 2 * sizeof(((arena*)0)->av[0]))) +#define prev_bin(b) ((mbinptr)((char*)(b) - 2 * sizeof(((arena*)0)->av[0]))) + +/* + The first 2 bins are never indexed. The corresponding av cells are instead + used for bookkeeping. This is not to save space, but to simplify + indexing, maintain locality, and avoid some initialization tests. +*/ + +#define binblocks(a) (bin_at(a,0)->size)/* bitvector of nonempty blocks */ +#define top(a) (bin_at(a,0)->fd) /* The topmost chunk */ +#define last_remainder(a) (bin_at(a,1)) /* remainder from last split */ + +/* + Because top initially points to its own bin with initial + zero size, thus forcing extension on the first malloc request, + we avoid having any special code in malloc to check whether + it even exists yet. But we still need to in malloc_extend_top. +*/ + +#define initial_top(a) ((mchunkptr)bin_at(a, 0)) + + + +/* field-extraction macros */ + +#define first(b) ((b)->fd) +#define last(b) ((b)->bk) + +/* + Indexing into bins +*/ + +#define bin_index(sz) \ +(((((unsigned long)(sz)) >> 9) == 0) ? (((unsigned long)(sz)) >> 3):\ + ((((unsigned long)(sz)) >> 9) <= 4) ? 56 + (((unsigned long)(sz)) >> 6):\ + ((((unsigned long)(sz)) >> 9) <= 20) ? 91 + (((unsigned long)(sz)) >> 9):\ + ((((unsigned long)(sz)) >> 9) <= 84) ? 110 + (((unsigned long)(sz)) >> 12):\ + ((((unsigned long)(sz)) >> 9) <= 340) ? 119 + (((unsigned long)(sz)) >> 15):\ + ((((unsigned long)(sz)) >> 9) <= 1364) ? 124 + (((unsigned long)(sz)) >> 18):\ + 126) +/* + bins for chunks < 512 are all spaced 8 bytes apart, and hold + identically sized chunks. This is exploited in malloc. +*/ + +#define MAX_SMALLBIN 63 +#define MAX_SMALLBIN_SIZE 512 +#define SMALLBIN_WIDTH 8 + +#define smallbin_index(sz) (((unsigned long)(sz)) >> 3) + +/* + Requests are `small' if both the corresponding and the next bin are small +*/ + +#define is_small_request(nb) ((nb) < MAX_SMALLBIN_SIZE - SMALLBIN_WIDTH) + + + +/* + To help compensate for the large number of bins, a one-level index + structure is used for bin-by-bin searching. `binblocks' is a + one-word bitvector recording whether groups of BINBLOCKWIDTH bins + have any (possibly) non-empty bins, so they can be skipped over + all at once during during traversals. The bits are NOT always + cleared as soon as all bins in a block are empty, but instead only + when all are noticed to be empty during traversal in malloc. +*/ + +#define BINBLOCKWIDTH 4 /* bins per block */ + +/* bin<->block macros */ + +#define idx2binblock(ix) ((unsigned)1 << ((ix) / BINBLOCKWIDTH)) +#define mark_binblock(a, ii) (binblocks(a) |= idx2binblock(ii)) +#define clear_binblock(a, ii) (binblocks(a) &= ~(idx2binblock(ii))) + + + + +/* Static bookkeeping data */ + +/* Helper macro to initialize bins */ +#define IAV(i) _bin_at(&main_arena, i), _bin_at(&main_arena, i) + +static arena main_arena = { + { + 0, 0, + IAV(0), IAV(1), IAV(2), IAV(3), IAV(4), IAV(5), IAV(6), IAV(7), + IAV(8), IAV(9), IAV(10), IAV(11), IAV(12), IAV(13), IAV(14), IAV(15), + IAV(16), IAV(17), IAV(18), IAV(19), IAV(20), IAV(21), IAV(22), IAV(23), + IAV(24), IAV(25), IAV(26), IAV(27), IAV(28), IAV(29), IAV(30), IAV(31), + IAV(32), IAV(33), IAV(34), IAV(35), IAV(36), IAV(37), IAV(38), IAV(39), + IAV(40), IAV(41), IAV(42), IAV(43), IAV(44), IAV(45), IAV(46), IAV(47), + IAV(48), IAV(49), IAV(50), IAV(51), IAV(52), IAV(53), IAV(54), IAV(55), + IAV(56), IAV(57), IAV(58), IAV(59), IAV(60), IAV(61), IAV(62), IAV(63), + IAV(64), IAV(65), IAV(66), IAV(67), IAV(68), IAV(69), IAV(70), IAV(71), + IAV(72), IAV(73), IAV(74), IAV(75), IAV(76), IAV(77), IAV(78), IAV(79), + IAV(80), IAV(81), IAV(82), IAV(83), IAV(84), IAV(85), IAV(86), IAV(87), + IAV(88), IAV(89), IAV(90), IAV(91), IAV(92), IAV(93), IAV(94), IAV(95), + IAV(96), IAV(97), IAV(98), IAV(99), IAV(100), IAV(101), IAV(102), IAV(103), + IAV(104), IAV(105), IAV(106), IAV(107), IAV(108), IAV(109), IAV(110), IAV(111), + IAV(112), IAV(113), IAV(114), IAV(115), IAV(116), IAV(117), IAV(118), IAV(119), + IAV(120), IAV(121), IAV(122), IAV(123), IAV(124), IAV(125), IAV(126), IAV(127) + }, + &main_arena, /* next */ + 0, /* size */ +#if THREAD_STATS + 0, 0, 0, /* stat_lock_direct, stat_lock_loop, stat_lock_wait */ +#endif + MUTEX_INITIALIZER /* mutex */ +}; + +#undef IAV + +/* Thread specific data */ + +static tsd_key_t arena_key; +static mutex_t list_lock = MUTEX_INITIALIZER; + +#if THREAD_STATS +static int stat_n_heaps; +#define THREAD_STAT(x) x +#else +#define THREAD_STAT(x) do ; while(0) +#endif + +/* variables holding tunable values */ + +static unsigned long trim_threshold = DEFAULT_TRIM_THRESHOLD; +static unsigned long top_pad = DEFAULT_TOP_PAD; +static unsigned int n_mmaps_max = DEFAULT_MMAP_MAX; +static unsigned long mmap_threshold = DEFAULT_MMAP_THRESHOLD; +static int check_action = DEFAULT_CHECK_ACTION; + +/* The first value returned from sbrk */ +static char* sbrk_base = (char*)(-1); + +/* The maximum memory obtained from system via sbrk */ +static unsigned long max_sbrked_mem; + +/* The maximum via either sbrk or mmap (too difficult to track with threads) */ +#ifdef NO_THREADS +static unsigned long max_total_mem; +#endif + +/* The total memory obtained from system via sbrk */ +#define sbrked_mem (main_arena.size) + +/* Tracking mmaps */ + +static unsigned int n_mmaps; +static unsigned int max_n_mmaps; +static unsigned long mmapped_mem; +static unsigned long max_mmapped_mem; + +/* Mapped memory in non-main arenas (reliable only for NO_THREADS). */ +static unsigned long arena_mem; + + + +#ifndef _LIBC +#define weak_variable +#else +/* In GNU libc we want the hook variables to be weak definitions to + avoid a problem with Emacs. */ +#define weak_variable weak_function +#endif + +/* Already initialized? */ +int __malloc_initialized = -1; + + +#ifndef NO_THREADS + +/* Magic value for the thread-specific arena pointer when + malloc_atfork() is in use. */ + +#define ATFORK_ARENA_PTR ((Void_t*)-1) + +/* The following two functions are registered via thread_atfork() to + make sure that the mutexes remain in a consistent state in the + fork()ed version of a thread. Also adapt the malloc and free hooks + temporarily, because the `atfork' handler mechanism may use + malloc/free internally (e.g. in LinuxThreads). */ + +#if defined _LIBC || defined MALLOC_HOOKS +static __malloc_ptr_t (*save_malloc_hook) __MALLOC_P ((size_t __size, + const __malloc_ptr_t)); +static void (*save_free_hook) __MALLOC_P ((__malloc_ptr_t __ptr, + const __malloc_ptr_t)); +static Void_t* save_arena; +#endif + +static void +ptmalloc_lock_all __MALLOC_P((void)) +{ + arena *ar_ptr; + + (void)mutex_lock(&list_lock); + for(ar_ptr = &main_arena;;) { + (void)mutex_lock(&ar_ptr->mutex); + ar_ptr = ar_ptr->next; + if(ar_ptr == &main_arena) break; + } +#if defined _LIBC || defined MALLOC_HOOKS + save_malloc_hook = __malloc_hook; + save_free_hook = __free_hook; + __malloc_hook = malloc_atfork; + __free_hook = free_atfork; + /* Only the current thread may perform malloc/free calls now. */ + tsd_getspecific(arena_key, save_arena); + tsd_setspecific(arena_key, ATFORK_ARENA_PTR); +#endif +} + +static void +ptmalloc_unlock_all __MALLOC_P((void)) +{ + arena *ar_ptr; + +#if defined _LIBC || defined MALLOC_HOOKS + tsd_setspecific(arena_key, save_arena); + __malloc_hook = save_malloc_hook; + __free_hook = save_free_hook; +#endif + for(ar_ptr = &main_arena;;) { + (void)mutex_unlock(&ar_ptr->mutex); + ar_ptr = ar_ptr->next; + if(ar_ptr == &main_arena) break; + } + (void)mutex_unlock(&list_lock); +} + +static void +ptmalloc_init_all __MALLOC_P((void)) +{ + arena *ar_ptr; + +#if defined _LIBC || defined MALLOC_HOOKS + tsd_setspecific(arena_key, save_arena); + __malloc_hook = save_malloc_hook; + __free_hook = save_free_hook; +#endif + for(ar_ptr = &main_arena;;) { + (void)mutex_init(&ar_ptr->mutex); + ar_ptr = ar_ptr->next; + if(ar_ptr == &main_arena) break; + } + (void)mutex_init(&list_lock); +} + +#endif /* !defined NO_THREADS */ + +/* Initialization routine. */ +#if defined(_LIBC) +#if 0 +static void ptmalloc_init __MALLOC_P ((void)) __attribute__ ((constructor)); +#endif + +#ifdef _LIBC +#include +extern char **environ; + +static char * +internal_function +next_env_entry (char ***position) +{ + char **current = *position; + char *result = NULL; + + while (*current != NULL) + { + if (__builtin_expect ((*current)[0] == 'M', 0) + && (*current)[1] == 'A' + && (*current)[2] == 'L' + && (*current)[3] == 'L' + && (*current)[4] == 'O' + && (*current)[5] == 'C' + && (*current)[6] == '_') + { + result = &(*current)[7]; + + /* Save current position for next visit. */ + *position = ++current; + + break; + } + + ++current; + } + + return result; +} +#endif + +static void +ptmalloc_init __MALLOC_P((void)) +#else +void +ptmalloc_init __MALLOC_P((void)) +#endif +{ +#if defined _LIBC || defined MALLOC_HOOKS +# if __STD_C + const char* s; +# else + char* s; +# endif +#endif + int secure; + + if(__malloc_initialized >= 0) return; + __malloc_initialized = 0; +#ifdef _LIBC + __libc_pagesize = __getpagesize(); +#endif +#ifndef NO_THREADS +#if defined _LIBC || defined MALLOC_HOOKS + /* With some threads implementations, creating thread-specific data + or initializing a mutex may call malloc() itself. Provide a + simple starter version (realloc() won't work). */ + save_malloc_hook = __malloc_hook; + save_free_hook = __free_hook; + __malloc_hook = malloc_starter; + __free_hook = free_starter; +#endif +#ifdef _LIBC + /* Initialize the pthreads interface. */ + if (__pthread_initialize != NULL) + __pthread_initialize(); +#endif +#endif /* !defined NO_THREADS */ + mutex_init(&main_arena.mutex); + mutex_init(&list_lock); + tsd_key_create(&arena_key, NULL); + tsd_setspecific(arena_key, (Void_t *)&main_arena); + thread_atfork(ptmalloc_lock_all, ptmalloc_unlock_all, ptmalloc_init_all); +#if defined _LIBC || defined MALLOC_HOOKS +#ifndef NO_THREADS + __malloc_hook = save_malloc_hook; + __free_hook = save_free_hook; +#endif + secure = __libc_enable_secure; +#ifdef _LIBC + s = NULL; + if (environ != NULL) + { + char **runp = environ; + char *envline; + + while (__builtin_expect ((envline = next_env_entry (&runp)) != NULL, 0)) + { + size_t len = strcspn (envline, "="); + + if (envline[len] != '=') + /* This is a "MALLOC_" variable at the end of the string + without a '=' character. Ignore it since otherwise we + will access invalid memory below. */ + continue; + + switch (len) + { + case 6: + if (memcmp (envline, "CHECK_", 6) == 0) + s = &envline[7]; + break; + case 8: + if (! secure && memcmp (envline, "TOP_PAD_", 8) == 0) + mALLOPt(M_TOP_PAD, atoi(&envline[9])); + break; + case 9: + if (! secure && memcmp (envline, "MMAP_MAX_", 9) == 0) + mALLOPt(M_MMAP_MAX, atoi(&envline[10])); + break; + case 15: + if (! secure) + { + if (memcmp (envline, "TRIM_THRESHOLD_", 15) == 0) + mALLOPt(M_TRIM_THRESHOLD, atoi(&envline[16])); + else if (memcmp (envline, "MMAP_THRESHOLD_", 15) == 0) + mALLOPt(M_MMAP_THRESHOLD, atoi(&envline[16])); + } + break; + default: + break; + } + } + } +#else + if (! secure) + { + if((s = getenv("MALLOC_TRIM_THRESHOLD_"))) + mALLOPt(M_TRIM_THRESHOLD, atoi(s)); + if((s = getenv("MALLOC_TOP_PAD_"))) + mALLOPt(M_TOP_PAD, atoi(s)); + if((s = getenv("MALLOC_MMAP_THRESHOLD_"))) + mALLOPt(M_MMAP_THRESHOLD, atoi(s)); + if((s = getenv("MALLOC_MMAP_MAX_"))) + mALLOPt(M_MMAP_MAX, atoi(s)); + } + s = getenv("MALLOC_CHECK_"); +#endif + if(s) { + if(s[0]) mALLOPt(M_CHECK_ACTION, (int)(s[0] - '0')); + __malloc_check_init(); + } + if(__malloc_initialize_hook != NULL) + (*__malloc_initialize_hook)(); +#endif + __malloc_initialized = 1; +} + +/* There are platforms (e.g. Hurd) with a link-time hook mechanism. */ +#ifdef thread_atfork_static +thread_atfork_static(ptmalloc_lock_all, ptmalloc_unlock_all, \ + ptmalloc_init_all) +#endif + +#if defined _LIBC || defined MALLOC_HOOKS + +/* Hooks for debugging versions. The initial hooks just call the + initialization routine, then do the normal work. */ + +static Void_t* +#if __STD_C +malloc_hook_ini(size_t sz, const __malloc_ptr_t caller) +#else +malloc_hook_ini(sz, caller) + size_t sz; const __malloc_ptr_t caller; +#endif +{ + __malloc_hook = NULL; + ptmalloc_init(); + return mALLOc(sz); +} + +static Void_t* +#if __STD_C +realloc_hook_ini(Void_t* ptr, size_t sz, const __malloc_ptr_t caller) +#else +realloc_hook_ini(ptr, sz, caller) + Void_t* ptr; size_t sz; const __malloc_ptr_t caller; +#endif +{ + __malloc_hook = NULL; + __realloc_hook = NULL; + ptmalloc_init(); + return rEALLOc(ptr, sz); +} + +static Void_t* +#if __STD_C +memalign_hook_ini(size_t alignment, size_t sz, const __malloc_ptr_t caller) +#else +memalign_hook_ini(alignment, sz, caller) + size_t alignment; size_t sz; const __malloc_ptr_t caller; +#endif +{ + __memalign_hook = NULL; + ptmalloc_init(); + return mEMALIGn(alignment, sz); +} + +void weak_variable (*__malloc_initialize_hook) __MALLOC_P ((void)) = NULL; +void weak_variable (*__free_hook) __MALLOC_P ((__malloc_ptr_t __ptr, + const __malloc_ptr_t)) = NULL; +__malloc_ptr_t weak_variable (*__malloc_hook) + __MALLOC_P ((size_t __size, const __malloc_ptr_t)) = malloc_hook_ini; +__malloc_ptr_t weak_variable (*__realloc_hook) + __MALLOC_P ((__malloc_ptr_t __ptr, size_t __size, const __malloc_ptr_t)) + = realloc_hook_ini; +__malloc_ptr_t weak_variable (*__memalign_hook) + __MALLOC_P ((size_t __alignment, size_t __size, const __malloc_ptr_t)) + = memalign_hook_ini; +void weak_variable (*__after_morecore_hook) __MALLOC_P ((void)) = NULL; + +/* Whether we are using malloc checking. */ +static int using_malloc_checking; + +/* A flag that is set by malloc_set_state, to signal that malloc checking + must not be enabled on the request from the user (via the MALLOC_CHECK_ + environment variable). It is reset by __malloc_check_init to tell + malloc_set_state that the user has requested malloc checking. + + The purpose of this flag is to make sure that malloc checking is not + enabled when the heap to be restored was constructed without malloc + checking, and thus does not contain the required magic bytes. + Otherwise the heap would be corrupted by calls to free and realloc. If + it turns out that the heap was created with malloc checking and the + user has requested it malloc_set_state just calls __malloc_check_init + again to enable it. On the other hand, reusing such a heap without + further malloc checking is safe. */ +static int disallow_malloc_check; + +/* Activate a standard set of debugging hooks. */ +void +__malloc_check_init() +{ + if (disallow_malloc_check) { + disallow_malloc_check = 0; + return; + } + using_malloc_checking = 1; + __malloc_hook = malloc_check; + __free_hook = free_check; + __realloc_hook = realloc_check; + __memalign_hook = memalign_check; + if(check_action & 1) + fprintf(stderr, "malloc: using debugging hooks\n"); +} + +#endif + + + + + +/* Routines dealing with mmap(). */ + +#if HAVE_MMAP + +#ifndef MAP_ANONYMOUS + +static int dev_zero_fd = -1; /* Cached file descriptor for /dev/zero. */ + +#define MMAP(addr, size, prot, flags) ((dev_zero_fd < 0) ? \ + (dev_zero_fd = open("/dev/zero", O_RDWR), \ + mmap((addr), (size), (prot), (flags), dev_zero_fd, 0)) : \ + mmap((addr), (size), (prot), (flags), dev_zero_fd, 0)) + +#else + +#define MMAP(addr, size, prot, flags) \ + (mmap((addr), (size), (prot), (flags)|MAP_ANONYMOUS, -1, 0)) + +#endif + +#if defined __GNUC__ && __GNUC__ >= 2 +/* This function is only called from one place, inline it. */ +__inline__ +#endif +static mchunkptr +internal_function +#if __STD_C +mmap_chunk(size_t size) +#else +mmap_chunk(size) size_t size; +#endif +{ + size_t page_mask = malloc_getpagesize - 1; + mchunkptr p; + + /* For mmapped chunks, the overhead is one SIZE_SZ unit larger, because + * there is no following chunk whose prev_size field could be used. + */ + size = (size + SIZE_SZ + page_mask) & ~page_mask; + + p = (mchunkptr)MMAP(0, size, PROT_READ|PROT_WRITE, MAP_PRIVATE); + if(p == (mchunkptr) MAP_FAILED) return 0; + + n_mmaps++; + if (n_mmaps > max_n_mmaps) max_n_mmaps = n_mmaps; + + /* We demand that eight bytes into a page must be 8-byte aligned. */ + assert(aligned_OK(chunk2mem(p))); + + /* The offset to the start of the mmapped region is stored + * in the prev_size field of the chunk; normally it is zero, + * but that can be changed in memalign(). + */ + p->prev_size = 0; + set_head(p, size|IS_MMAPPED); + + mmapped_mem += size; + if ((unsigned long)mmapped_mem > (unsigned long)max_mmapped_mem) + max_mmapped_mem = mmapped_mem; +#ifdef NO_THREADS + if ((unsigned long)(mmapped_mem + arena_mem + sbrked_mem) > max_total_mem) + max_total_mem = mmapped_mem + arena_mem + sbrked_mem; +#endif + return p; +} + +static void +internal_function +#if __STD_C +munmap_chunk(mchunkptr p) +#else +munmap_chunk(p) mchunkptr p; +#endif +{ + INTERNAL_SIZE_T size = chunksize(p); + int ret; + + assert (chunk_is_mmapped(p)); + assert(! ((char*)p >= sbrk_base && (char*)p < sbrk_base + sbrked_mem)); + assert((n_mmaps > 0)); + assert(((p->prev_size + size) & (malloc_getpagesize-1)) == 0); + + n_mmaps--; + mmapped_mem -= (size + p->prev_size); + + ret = munmap((char *)p - p->prev_size, size + p->prev_size); + + /* munmap returns non-zero on failure */ + assert(ret == 0); +} + +#if HAVE_MREMAP + +static mchunkptr +internal_function +#if __STD_C +mremap_chunk(mchunkptr p, size_t new_size) +#else +mremap_chunk(p, new_size) mchunkptr p; size_t new_size; +#endif +{ + size_t page_mask = malloc_getpagesize - 1; + INTERNAL_SIZE_T offset = p->prev_size; + INTERNAL_SIZE_T size = chunksize(p); + char *cp; + + assert (chunk_is_mmapped(p)); + assert(! ((char*)p >= sbrk_base && (char*)p < sbrk_base + sbrked_mem)); + assert((n_mmaps > 0)); + assert(((size + offset) & (malloc_getpagesize-1)) == 0); + + /* Note the extra SIZE_SZ overhead as in mmap_chunk(). */ + new_size = (new_size + offset + SIZE_SZ + page_mask) & ~page_mask; + + cp = (char *)mremap((char *)p - offset, size + offset, new_size, + MREMAP_MAYMOVE); + + if (cp == MAP_FAILED) return 0; + + p = (mchunkptr)(cp + offset); + + assert(aligned_OK(chunk2mem(p))); + + assert((p->prev_size == offset)); + set_head(p, (new_size - offset)|IS_MMAPPED); + + mmapped_mem -= size + offset; + mmapped_mem += new_size; + if ((unsigned long)mmapped_mem > (unsigned long)max_mmapped_mem) + max_mmapped_mem = mmapped_mem; +#ifdef NO_THREADS + if ((unsigned long)(mmapped_mem + arena_mem + sbrked_mem) > max_total_mem) + max_total_mem = mmapped_mem + arena_mem + sbrked_mem; +#endif + return p; +} + +#endif /* HAVE_MREMAP */ + +#endif /* HAVE_MMAP */ + + + +/* Managing heaps and arenas (for concurrent threads) */ + +#if USE_ARENAS + +/* Create a new heap. size is automatically rounded up to a multiple + of the page size. */ + +static heap_info * +internal_function +#if __STD_C +new_heap(size_t size) +#else +new_heap(size) size_t size; +#endif +{ + size_t page_mask = malloc_getpagesize - 1; + char *p1, *p2; + unsigned long ul; + heap_info *h; + + if(size+top_pad < HEAP_MIN_SIZE) + size = HEAP_MIN_SIZE; + else if(size+top_pad <= HEAP_MAX_SIZE) + size += top_pad; + else if(size > HEAP_MAX_SIZE) + return 0; + else + size = HEAP_MAX_SIZE; + size = (size + page_mask) & ~page_mask; + + /* A memory region aligned to a multiple of HEAP_MAX_SIZE is needed. + No swap space needs to be reserved for the following large + mapping (on Linux, this is the case for all non-writable mappings + anyway). */ + p1 = (char *)MMAP(0, HEAP_MAX_SIZE<<1, PROT_NONE, MAP_PRIVATE|MAP_NORESERVE); + if(p1 != MAP_FAILED) { + p2 = (char *)(((unsigned long)p1 + (HEAP_MAX_SIZE-1)) & ~(HEAP_MAX_SIZE-1)); + ul = p2 - p1; + if (ul) + munmap(p1, ul); + munmap(p2 + HEAP_MAX_SIZE, HEAP_MAX_SIZE - ul); + } else { + /* Try to take the chance that an allocation of only HEAP_MAX_SIZE + is already aligned. */ + p2 = (char *)MMAP(0, HEAP_MAX_SIZE, PROT_NONE, MAP_PRIVATE|MAP_NORESERVE); + if(p2 == MAP_FAILED) + return 0; + if((unsigned long)p2 & (HEAP_MAX_SIZE-1)) { + munmap(p2, HEAP_MAX_SIZE); + return 0; + } + } + if(MMAP(p2, size, PROT_READ|PROT_WRITE, MAP_PRIVATE|MAP_FIXED) + == (char *) MAP_FAILED) { + munmap(p2, HEAP_MAX_SIZE); + return 0; + } + h = (heap_info *)p2; + h->size = size; + THREAD_STAT(stat_n_heaps++); + return h; +} + +/* Grow or shrink a heap. size is automatically rounded up to a + multiple of the page size if it is positive. */ + +static int +#if __STD_C +grow_heap(heap_info *h, long diff) +#else +grow_heap(h, diff) heap_info *h; long diff; +#endif +{ + size_t page_mask = malloc_getpagesize - 1; + long new_size; + + if(diff >= 0) { + diff = (diff + page_mask) & ~page_mask; + new_size = (long)h->size + diff; + if(new_size > HEAP_MAX_SIZE) + return -1; + if(MMAP((char *)h + h->size, diff, PROT_READ|PROT_WRITE, + MAP_PRIVATE|MAP_FIXED) == (char *) MAP_FAILED) + return -2; + } else { + new_size = (long)h->size + diff; + if(new_size < (long)sizeof(*h)) + return -1; + /* Try to re-map the extra heap space freshly to save memory, and + make it inaccessible. */ + if((char *)MMAP((char *)h + new_size, -diff, PROT_NONE, + MAP_PRIVATE|MAP_FIXED) == (char *) MAP_FAILED) + return -2; + } + h->size = new_size; + return 0; +} + +/* Delete a heap. */ + +#define delete_heap(heap) munmap((char*)(heap), HEAP_MAX_SIZE) + +/* arena_get() acquires an arena and locks the corresponding mutex. + First, try the one last locked successfully by this thread. (This + is the common case and handled with a macro for speed.) Then, loop + once over the circularly linked list of arenas. If no arena is + readily available, create a new one. In this latter case, `size' + is just a hint as to how much memory will be required immediately + in the new arena. */ + +#define arena_get(ptr, size) do { \ + Void_t *vptr = NULL; \ + ptr = (arena *)tsd_getspecific(arena_key, vptr); \ + if(ptr && !mutex_trylock(&ptr->mutex)) { \ + THREAD_STAT(++(ptr->stat_lock_direct)); \ + } else \ + ptr = arena_get2(ptr, (size)); \ +} while(0) + +static arena * +internal_function +#if __STD_C +arena_get2(arena *a_tsd, size_t size) +#else +arena_get2(a_tsd, size) arena *a_tsd; size_t size; +#endif +{ + arena *a; + heap_info *h; + char *ptr; + int i; + unsigned long misalign; + + if(!a_tsd) + a = a_tsd = &main_arena; + else { + a = a_tsd->next; + if(!a) { + /* This can only happen while initializing the new arena. */ + (void)mutex_lock(&main_arena.mutex); + THREAD_STAT(++(main_arena.stat_lock_wait)); + return &main_arena; + } + } + + /* Check the global, circularly linked list for available arenas. */ + repeat: + do { + if(!mutex_trylock(&a->mutex)) { + THREAD_STAT(++(a->stat_lock_loop)); + tsd_setspecific(arena_key, (Void_t *)a); + return a; + } + a = a->next; + } while(a != a_tsd); + + /* If not even the list_lock can be obtained, try again. This can + happen during `atfork', or for example on systems where thread + creation makes it temporarily impossible to obtain _any_ + locks. */ + if(mutex_trylock(&list_lock)) { + a = a_tsd; + goto repeat; + } + (void)mutex_unlock(&list_lock); + + /* Nothing immediately available, so generate a new arena. */ + h = new_heap(size + (sizeof(*h) + sizeof(*a) + MALLOC_ALIGNMENT)); + if(!h) { + /* Maybe size is too large to fit in a single heap. So, just try + to create a minimally-sized arena and let chunk_alloc() attempt + to deal with the large request via mmap_chunk(). */ + h = new_heap(sizeof(*h) + sizeof(*a) + MALLOC_ALIGNMENT); + if(!h) + return 0; + } + a = h->ar_ptr = (arena *)(h+1); + for(i=0; inext = NULL; + a->size = h->size; + arena_mem += h->size; +#ifdef NO_THREADS + if((unsigned long)(mmapped_mem + arena_mem + sbrked_mem) > max_total_mem) + max_total_mem = mmapped_mem + arena_mem + sbrked_mem; +#endif + tsd_setspecific(arena_key, (Void_t *)a); + mutex_init(&a->mutex); + i = mutex_lock(&a->mutex); /* remember result */ + + /* Set up the top chunk, with proper alignment. */ + ptr = (char *)(a + 1); + misalign = (unsigned long)chunk2mem(ptr) & MALLOC_ALIGN_MASK; + if (misalign > 0) + ptr += MALLOC_ALIGNMENT - misalign; + top(a) = (mchunkptr)ptr; + set_head(top(a), (((char*)h + h->size) - ptr) | PREV_INUSE); + + /* Add the new arena to the list. */ + (void)mutex_lock(&list_lock); + a->next = main_arena.next; + main_arena.next = a; + (void)mutex_unlock(&list_lock); + + if(i) /* locking failed; keep arena for further attempts later */ + return 0; + + THREAD_STAT(++(a->stat_lock_loop)); + return a; +} + +/* find the heap and corresponding arena for a given ptr */ + +#define heap_for_ptr(ptr) \ + ((heap_info *)((unsigned long)(ptr) & ~(HEAP_MAX_SIZE-1))) +#define arena_for_ptr(ptr) \ + (((mchunkptr)(ptr) < top(&main_arena) && (char *)(ptr) >= sbrk_base) ? \ + &main_arena : heap_for_ptr(ptr)->ar_ptr) + +#else /* !USE_ARENAS */ + +/* There is only one arena, main_arena. */ + +#define arena_get(ptr, sz) (ptr = &main_arena) +#define arena_for_ptr(ptr) (&main_arena) + +#endif /* USE_ARENAS */ + + + +/* + Debugging support +*/ + +#if MALLOC_DEBUG + + +/* + These routines make a number of assertions about the states + of data structures that should be true at all times. If any + are not true, it's very likely that a user program has somehow + trashed memory. (It's also possible that there is a coding error + in malloc. In which case, please report it!) +*/ + +#if __STD_C +static void do_check_chunk(arena *ar_ptr, mchunkptr p) +#else +static void do_check_chunk(ar_ptr, p) arena *ar_ptr; mchunkptr p; +#endif +{ + INTERNAL_SIZE_T sz = p->size & ~PREV_INUSE; + + /* No checkable chunk is mmapped */ + assert(!chunk_is_mmapped(p)); + +#if USE_ARENAS + if(ar_ptr != &main_arena) { + heap_info *heap = heap_for_ptr(p); + assert(heap->ar_ptr == ar_ptr); + if(p != top(ar_ptr)) + assert((char *)p + sz <= (char *)heap + heap->size); + else + assert((char *)p + sz == (char *)heap + heap->size); + return; + } +#endif + + /* Check for legal address ... */ + assert((char*)p >= sbrk_base); + if (p != top(ar_ptr)) + assert((char*)p + sz <= (char*)top(ar_ptr)); + else + assert((char*)p + sz <= sbrk_base + sbrked_mem); + +} + + +#if __STD_C +static void do_check_free_chunk(arena *ar_ptr, mchunkptr p) +#else +static void do_check_free_chunk(ar_ptr, p) arena *ar_ptr; mchunkptr p; +#endif +{ + INTERNAL_SIZE_T sz = p->size & ~PREV_INUSE; + mchunkptr next = chunk_at_offset(p, sz); + + do_check_chunk(ar_ptr, p); + + /* Check whether it claims to be free ... */ + assert(!inuse(p)); + + /* Must have OK size and fields */ + assert((long)sz >= (long)MINSIZE); + assert((sz & MALLOC_ALIGN_MASK) == 0); + assert(aligned_OK(chunk2mem(p))); + /* ... matching footer field */ + assert(next->prev_size == sz); + /* ... and is fully consolidated */ + assert(prev_inuse(p)); + assert (next == top(ar_ptr) || inuse(next)); + + /* ... and has minimally sane links */ + assert(p->fd->bk == p); + assert(p->bk->fd == p); +} + +#if __STD_C +static void do_check_inuse_chunk(arena *ar_ptr, mchunkptr p) +#else +static void do_check_inuse_chunk(ar_ptr, p) arena *ar_ptr; mchunkptr p; +#endif +{ + mchunkptr next = next_chunk(p); + do_check_chunk(ar_ptr, p); + + /* Check whether it claims to be in use ... */ + assert(inuse(p)); + + /* ... whether its size is OK (it might be a fencepost) ... */ + assert(chunksize(p) >= MINSIZE || next->size == (0|PREV_INUSE)); + + /* ... and is surrounded by OK chunks. + Since more things can be checked with free chunks than inuse ones, + if an inuse chunk borders them and debug is on, it's worth doing them. + */ + if (!prev_inuse(p)) + { + mchunkptr prv = prev_chunk(p); + assert(next_chunk(prv) == p); + do_check_free_chunk(ar_ptr, prv); + } + if (next == top(ar_ptr)) + { + assert(prev_inuse(next)); + assert(chunksize(next) >= MINSIZE); + } + else if (!inuse(next)) + do_check_free_chunk(ar_ptr, next); + +} + +#if __STD_C +static void do_check_malloced_chunk(arena *ar_ptr, + mchunkptr p, INTERNAL_SIZE_T s) +#else +static void do_check_malloced_chunk(ar_ptr, p, s) +arena *ar_ptr; mchunkptr p; INTERNAL_SIZE_T s; +#endif +{ + INTERNAL_SIZE_T sz = p->size & ~PREV_INUSE; + long room = sz - s; + + do_check_inuse_chunk(ar_ptr, p); + + /* Legal size ... */ + assert((long)sz >= (long)MINSIZE); + assert((sz & MALLOC_ALIGN_MASK) == 0); + assert(room >= 0); + assert(room < (long)MINSIZE); + + /* ... and alignment */ + assert(aligned_OK(chunk2mem(p))); + + + /* ... and was allocated at front of an available chunk */ + assert(prev_inuse(p)); + +} + + +#define check_free_chunk(A,P) do_check_free_chunk(A,P) +#define check_inuse_chunk(A,P) do_check_inuse_chunk(A,P) +#define check_chunk(A,P) do_check_chunk(A,P) +#define check_malloced_chunk(A,P,N) do_check_malloced_chunk(A,P,N) +#else +#define check_free_chunk(A,P) +#define check_inuse_chunk(A,P) +#define check_chunk(A,P) +#define check_malloced_chunk(A,P,N) +#endif + + + +/* + Macro-based internal utilities +*/ + + +/* + Linking chunks in bin lists. + Call these only with variables, not arbitrary expressions, as arguments. +*/ + +/* + Place chunk p of size s in its bin, in size order, + putting it ahead of others of same size. +*/ + + +#define frontlink(A, P, S, IDX, BK, FD) \ +{ \ + if (S < MAX_SMALLBIN_SIZE) \ + { \ + IDX = smallbin_index(S); \ + mark_binblock(A, IDX); \ + BK = bin_at(A, IDX); \ + FD = BK->fd; \ + P->bk = BK; \ + P->fd = FD; \ + FD->bk = BK->fd = P; \ + } \ + else \ + { \ + IDX = bin_index(S); \ + BK = bin_at(A, IDX); \ + FD = BK->fd; \ + if (FD == BK) mark_binblock(A, IDX); \ + else \ + { \ + while (FD != BK && S < chunksize(FD)) FD = FD->fd; \ + BK = FD->bk; \ + } \ + P->bk = BK; \ + P->fd = FD; \ + FD->bk = BK->fd = P; \ + } \ +} + + +/* take a chunk off a list */ + +#define unlink(P, BK, FD) \ +{ \ + BK = P->bk; \ + FD = P->fd; \ + FD->bk = BK; \ + BK->fd = FD; \ +} \ + +/* Place p as the last remainder */ + +#define link_last_remainder(A, P) \ +{ \ + last_remainder(A)->fd = last_remainder(A)->bk = P; \ + P->fd = P->bk = last_remainder(A); \ +} + +/* Clear the last_remainder bin */ + +#define clear_last_remainder(A) \ + (last_remainder(A)->fd = last_remainder(A)->bk = last_remainder(A)) + + + + + +/* + Extend the top-most chunk by obtaining memory from system. + Main interface to sbrk (but see also malloc_trim). +*/ + +#if defined __GNUC__ && __GNUC__ >= 2 +/* This function is called only from one place, inline it. */ +__inline__ +#endif +static void +internal_function +#if __STD_C +malloc_extend_top(arena *ar_ptr, INTERNAL_SIZE_T nb) +#else +malloc_extend_top(ar_ptr, nb) arena *ar_ptr; INTERNAL_SIZE_T nb; +#endif +{ + unsigned long pagesz = malloc_getpagesize; + mchunkptr old_top = top(ar_ptr); /* Record state of old top */ + INTERNAL_SIZE_T old_top_size = chunksize(old_top); + INTERNAL_SIZE_T top_size; /* new size of top chunk */ + +#if USE_ARENAS + if(ar_ptr == &main_arena) { +#endif + + char* brk; /* return value from sbrk */ + INTERNAL_SIZE_T front_misalign; /* unusable bytes at front of sbrked space */ + INTERNAL_SIZE_T correction; /* bytes for 2nd sbrk call */ + char* new_brk; /* return of 2nd sbrk call */ + char* old_end = (char*)(chunk_at_offset(old_top, old_top_size)); + + /* Pad request with top_pad plus minimal overhead */ + INTERNAL_SIZE_T sbrk_size = nb + top_pad + MINSIZE; + + /* If not the first time through, round to preserve page boundary */ + /* Otherwise, we need to correct to a page size below anyway. */ + /* (We also correct below if an intervening foreign sbrk call.) */ + + if (sbrk_base != (char*)(-1)) + sbrk_size = (sbrk_size + (pagesz - 1)) & ~(pagesz - 1); + + brk = (char*)(MORECORE (sbrk_size)); + + /* Fail if sbrk failed or if a foreign sbrk call killed our space */ + if (brk == (char*)(MORECORE_FAILURE) || + (brk < old_end && old_top != initial_top(&main_arena))) + return; + +#if defined _LIBC || defined MALLOC_HOOKS + /* Call the `morecore' hook if necessary. */ + if (__after_morecore_hook) + (*__after_morecore_hook) (); +#endif + + sbrked_mem += sbrk_size; + + if (brk == old_end) { /* can just add bytes to current top */ + top_size = sbrk_size + old_top_size; + set_head(old_top, top_size | PREV_INUSE); + old_top = 0; /* don't free below */ + } else { + if (sbrk_base == (char*)(-1)) /* First time through. Record base */ + sbrk_base = brk; + else + /* Someone else called sbrk(). Count those bytes as sbrked_mem. */ + sbrked_mem += brk - (char*)old_end; + + /* Guarantee alignment of first new chunk made from this space */ + front_misalign = (unsigned long)chunk2mem(brk) & MALLOC_ALIGN_MASK; + if (front_misalign > 0) { + correction = (MALLOC_ALIGNMENT) - front_misalign; + brk += correction; + } else + correction = 0; + + /* Guarantee the next brk will be at a page boundary */ + correction += pagesz - ((unsigned long)(brk + sbrk_size) & (pagesz - 1)); + + /* Allocate correction */ + new_brk = (char*)(MORECORE (correction)); + if (new_brk == (char*)(MORECORE_FAILURE)) return; + +#if defined _LIBC || defined MALLOC_HOOKS + /* Call the `morecore' hook if necessary. */ + if (__after_morecore_hook) + (*__after_morecore_hook) (); +#endif + + sbrked_mem += correction; + + top(&main_arena) = chunk_at_offset(brk, 0); + top_size = new_brk - brk + correction; + set_head(top(&main_arena), top_size | PREV_INUSE); + + if (old_top == initial_top(&main_arena)) + old_top = 0; /* don't free below */ + } + + if ((unsigned long)sbrked_mem > (unsigned long)max_sbrked_mem) + max_sbrked_mem = sbrked_mem; +#ifdef NO_THREADS + if ((unsigned long)(mmapped_mem + arena_mem + sbrked_mem) > max_total_mem) + max_total_mem = mmapped_mem + arena_mem + sbrked_mem; +#endif + +#if USE_ARENAS + } else { /* ar_ptr != &main_arena */ + heap_info *old_heap, *heap; + size_t old_heap_size; + + if(old_top_size < MINSIZE) /* this should never happen */ + return; + + /* First try to extend the current heap. */ + if(MINSIZE + nb <= old_top_size) + return; + old_heap = heap_for_ptr(old_top); + old_heap_size = old_heap->size; + if(grow_heap(old_heap, MINSIZE + nb - old_top_size) == 0) { + ar_ptr->size += old_heap->size - old_heap_size; + arena_mem += old_heap->size - old_heap_size; +#ifdef NO_THREADS + if(mmapped_mem + arena_mem + sbrked_mem > max_total_mem) + max_total_mem = mmapped_mem + arena_mem + sbrked_mem; +#endif + top_size = ((char *)old_heap + old_heap->size) - (char *)old_top; + set_head(old_top, top_size | PREV_INUSE); + return; + } + + /* A new heap must be created. */ + heap = new_heap(nb + (MINSIZE + sizeof(*heap))); + if(!heap) + return; + heap->ar_ptr = ar_ptr; + heap->prev = old_heap; + ar_ptr->size += heap->size; + arena_mem += heap->size; +#ifdef NO_THREADS + if((unsigned long)(mmapped_mem + arena_mem + sbrked_mem) > max_total_mem) + max_total_mem = mmapped_mem + arena_mem + sbrked_mem; +#endif + + /* Set up the new top, so we can safely use chunk_free() below. */ + top(ar_ptr) = chunk_at_offset(heap, sizeof(*heap)); + top_size = heap->size - sizeof(*heap); + set_head(top(ar_ptr), top_size | PREV_INUSE); + } +#endif /* USE_ARENAS */ + + /* We always land on a page boundary */ + assert(((unsigned long)((char*)top(ar_ptr) + top_size) & (pagesz-1)) == 0); + + /* Setup fencepost and free the old top chunk. */ + if(old_top) { + /* The fencepost takes at least MINSIZE bytes, because it might + become the top chunk again later. Note that a footer is set + up, too, although the chunk is marked in use. */ + old_top_size -= MINSIZE; + set_head(chunk_at_offset(old_top, old_top_size + 2*SIZE_SZ), 0|PREV_INUSE); + if(old_top_size >= MINSIZE) { + set_head(chunk_at_offset(old_top, old_top_size), (2*SIZE_SZ)|PREV_INUSE); + set_foot(chunk_at_offset(old_top, old_top_size), (2*SIZE_SZ)); + set_head_size(old_top, old_top_size); + chunk_free(ar_ptr, old_top); + } else { + set_head(old_top, (old_top_size + 2*SIZE_SZ)|PREV_INUSE); + set_foot(old_top, (old_top_size + 2*SIZE_SZ)); + } + } +} + + + + +/* Main public routines */ + + +/* + Malloc Algorithm: + + The requested size is first converted into a usable form, `nb'. + This currently means to add 4 bytes overhead plus possibly more to + obtain 8-byte alignment and/or to obtain a size of at least + MINSIZE (currently 16, 24, or 32 bytes), the smallest allocatable + size. (All fits are considered `exact' if they are within MINSIZE + bytes.) + + From there, the first successful of the following steps is taken: + + 1. The bin corresponding to the request size is scanned, and if + a chunk of exactly the right size is found, it is taken. + + 2. The most recently remaindered chunk is used if it is big + enough. This is a form of (roving) first fit, used only in + the absence of exact fits. Runs of consecutive requests use + the remainder of the chunk used for the previous such request + whenever possible. This limited use of a first-fit style + allocation strategy tends to give contiguous chunks + coextensive lifetimes, which improves locality and can reduce + fragmentation in the long run. + + 3. Other bins are scanned in increasing size order, using a + chunk big enough to fulfill the request, and splitting off + any remainder. This search is strictly by best-fit; i.e., + the smallest (with ties going to approximately the least + recently used) chunk that fits is selected. + + 4. If large enough, the chunk bordering the end of memory + (`top') is split off. (This use of `top' is in accord with + the best-fit search rule. In effect, `top' is treated as + larger (and thus less well fitting) than any other available + chunk since it can be extended to be as large as necessary + (up to system limitations). + + 5. If the request size meets the mmap threshold and the + system supports mmap, and there are few enough currently + allocated mmapped regions, and a call to mmap succeeds, + the request is allocated via direct memory mapping. + + 6. Otherwise, the top of memory is extended by + obtaining more space from the system (normally using sbrk, + but definable to anything else via the MORECORE macro). + Memory is gathered from the system (in system page-sized + units) in a way that allows chunks obtained across different + sbrk calls to be consolidated, but does not require + contiguous memory. Thus, it should be safe to intersperse + mallocs with other sbrk calls. + + + All allocations are made from the `lowest' part of any found + chunk. (The implementation invariant is that prev_inuse is + always true of any allocated chunk; i.e., that each allocated + chunk borders either a previously allocated and still in-use chunk, + or the base of its memory arena.) + +*/ + +#if __STD_C +Void_t* mALLOc(size_t bytes) +#else +Void_t* mALLOc(bytes) size_t bytes; +#endif +{ + arena *ar_ptr; + INTERNAL_SIZE_T nb; /* padded request size */ + mchunkptr victim; + +#if defined _LIBC || defined MALLOC_HOOKS + __malloc_ptr_t (*hook) __MALLOC_PMT ((size_t, __const __malloc_ptr_t)) = + __malloc_hook; + if (hook != NULL) { + Void_t* result; + +#if defined __GNUC__ && __GNUC__ >= 2 + result = (*hook)(bytes, RETURN_ADDRESS (0)); +#else + result = (*hook)(bytes, NULL); +#endif + return result; + } +#endif + + if(request2size(bytes, nb)) + return 0; + arena_get(ar_ptr, nb); + if(!ar_ptr) + return 0; + victim = chunk_alloc(ar_ptr, nb); + if(!victim) { + /* Maybe the failure is due to running out of mmapped areas. */ + if(ar_ptr != &main_arena) { + (void)mutex_unlock(&ar_ptr->mutex); + (void)mutex_lock(&main_arena.mutex); + victim = chunk_alloc(&main_arena, nb); + (void)mutex_unlock(&main_arena.mutex); + } else { +#if USE_ARENAS + /* ... or sbrk() has failed and there is still a chance to mmap() */ + ar_ptr = arena_get2(ar_ptr->next ? ar_ptr : 0, nb); + (void)mutex_unlock(&main_arena.mutex); + if(ar_ptr) { + victim = chunk_alloc(ar_ptr, nb); + (void)mutex_unlock(&ar_ptr->mutex); + } +#endif + } + if(!victim) return 0; + } else + (void)mutex_unlock(&ar_ptr->mutex); + return BOUNDED_N(chunk2mem(victim), bytes); +} + +static mchunkptr +internal_function +#if __STD_C +chunk_alloc(arena *ar_ptr, INTERNAL_SIZE_T nb) +#else +chunk_alloc(ar_ptr, nb) arena *ar_ptr; INTERNAL_SIZE_T nb; +#endif +{ + mchunkptr victim; /* inspected/selected chunk */ + INTERNAL_SIZE_T victim_size; /* its size */ + int idx; /* index for bin traversal */ + mbinptr bin; /* associated bin */ + mchunkptr remainder; /* remainder from a split */ + long remainder_size; /* its size */ + int remainder_index; /* its bin index */ + unsigned long block; /* block traverser bit */ + int startidx; /* first bin of a traversed block */ + mchunkptr fwd; /* misc temp for linking */ + mchunkptr bck; /* misc temp for linking */ + mbinptr q; /* misc temp */ + + + /* Check for exact match in a bin */ + + if (is_small_request(nb)) /* Faster version for small requests */ + { + idx = smallbin_index(nb); + + /* No traversal or size check necessary for small bins. */ + + q = _bin_at(ar_ptr, idx); + victim = last(q); + + /* Also scan the next one, since it would have a remainder < MINSIZE */ + if (victim == q) + { + q = next_bin(q); + victim = last(q); + } + if (victim != q) + { + victim_size = chunksize(victim); + unlink(victim, bck, fwd); + set_inuse_bit_at_offset(victim, victim_size); + check_malloced_chunk(ar_ptr, victim, nb); + return victim; + } + + idx += 2; /* Set for bin scan below. We've already scanned 2 bins. */ + + } + else + { + idx = bin_index(nb); + bin = bin_at(ar_ptr, idx); + + for (victim = last(bin); victim != bin; victim = victim->bk) + { + victim_size = chunksize(victim); + remainder_size = victim_size - nb; + + if (remainder_size >= (long)MINSIZE) /* too big */ + { + --idx; /* adjust to rescan below after checking last remainder */ + break; + } + + else if (remainder_size >= 0) /* exact fit */ + { + unlink(victim, bck, fwd); + set_inuse_bit_at_offset(victim, victim_size); + check_malloced_chunk(ar_ptr, victim, nb); + return victim; + } + } + + ++idx; + + } + + /* Try to use the last split-off remainder */ + + if ( (victim = last_remainder(ar_ptr)->fd) != last_remainder(ar_ptr)) + { + victim_size = chunksize(victim); + remainder_size = victim_size - nb; + + if (remainder_size >= (long)MINSIZE) /* re-split */ + { + remainder = chunk_at_offset(victim, nb); + set_head(victim, nb | PREV_INUSE); + link_last_remainder(ar_ptr, remainder); + set_head(remainder, remainder_size | PREV_INUSE); + set_foot(remainder, remainder_size); + check_malloced_chunk(ar_ptr, victim, nb); + return victim; + } + + clear_last_remainder(ar_ptr); + + if (remainder_size >= 0) /* exhaust */ + { + set_inuse_bit_at_offset(victim, victim_size); + check_malloced_chunk(ar_ptr, victim, nb); + return victim; + } + + /* Else place in bin */ + + frontlink(ar_ptr, victim, victim_size, remainder_index, bck, fwd); + } + + /* + If there are any possibly nonempty big-enough blocks, + search for best fitting chunk by scanning bins in blockwidth units. + */ + + if ( (block = idx2binblock(idx)) <= binblocks(ar_ptr)) + { + + /* Get to the first marked block */ + + if ( (block & binblocks(ar_ptr)) == 0) + { + /* force to an even block boundary */ + idx = (idx & ~(BINBLOCKWIDTH - 1)) + BINBLOCKWIDTH; + block <<= 1; + while ((block & binblocks(ar_ptr)) == 0) + { + idx += BINBLOCKWIDTH; + block <<= 1; + } + } + + /* For each possibly nonempty block ... */ + for (;;) + { + startidx = idx; /* (track incomplete blocks) */ + q = bin = _bin_at(ar_ptr, idx); + + /* For each bin in this block ... */ + do + { + /* Find and use first big enough chunk ... */ + + for (victim = last(bin); victim != bin; victim = victim->bk) + { + victim_size = chunksize(victim); + remainder_size = victim_size - nb; + + if (remainder_size >= (long)MINSIZE) /* split */ + { + remainder = chunk_at_offset(victim, nb); + set_head(victim, nb | PREV_INUSE); + unlink(victim, bck, fwd); + link_last_remainder(ar_ptr, remainder); + set_head(remainder, remainder_size | PREV_INUSE); + set_foot(remainder, remainder_size); + check_malloced_chunk(ar_ptr, victim, nb); + return victim; + } + + else if (remainder_size >= 0) /* take */ + { + set_inuse_bit_at_offset(victim, victim_size); + unlink(victim, bck, fwd); + check_malloced_chunk(ar_ptr, victim, nb); + return victim; + } + + } + + bin = next_bin(bin); + + } while ((++idx & (BINBLOCKWIDTH - 1)) != 0); + + /* Clear out the block bit. */ + + do /* Possibly backtrack to try to clear a partial block */ + { + if ((startidx & (BINBLOCKWIDTH - 1)) == 0) + { + binblocks(ar_ptr) &= ~block; + break; + } + --startidx; + q = prev_bin(q); + } while (first(q) == q); + + /* Get to the next possibly nonempty block */ + + if ( (block <<= 1) <= binblocks(ar_ptr) && (block != 0) ) + { + while ((block & binblocks(ar_ptr)) == 0) + { + idx += BINBLOCKWIDTH; + block <<= 1; + } + } + else + break; + } + } + + + /* Try to use top chunk */ + + /* Require that there be a remainder, ensuring top always exists */ + if ( (remainder_size = chunksize(top(ar_ptr)) - nb) < (long)MINSIZE) + { + +#if HAVE_MMAP + /* If the request is big and there are not yet too many regions, + and we would otherwise need to extend, try to use mmap instead. */ + if ((unsigned long)nb >= (unsigned long)mmap_threshold && + n_mmaps < n_mmaps_max && + (victim = mmap_chunk(nb)) != 0) + return victim; +#endif + + /* Try to extend */ + malloc_extend_top(ar_ptr, nb); + if ((remainder_size = chunksize(top(ar_ptr)) - nb) < (long)MINSIZE) + { +#if HAVE_MMAP + /* A last attempt: when we are out of address space in a + non-main arena, try mmap anyway, as long as it is allowed at + all. */ + if (ar_ptr != &main_arena && + n_mmaps_max > 0 && + (victim = mmap_chunk(nb)) != 0) + return victim; +#endif + return 0; /* propagate failure */ + } + } + + victim = top(ar_ptr); + set_head(victim, nb | PREV_INUSE); + top(ar_ptr) = chunk_at_offset(victim, nb); + set_head(top(ar_ptr), remainder_size | PREV_INUSE); + check_malloced_chunk(ar_ptr, victim, nb); + return victim; + +} + + + + +/* + + free() algorithm : + + cases: + + 1. free(0) has no effect. + + 2. If the chunk was allocated via mmap, it is released via munmap(). + + 3. If a returned chunk borders the current high end of memory, + it is consolidated into the top, and if the total unused + topmost memory exceeds the trim threshold, malloc_trim is + called. + + 4. Other chunks are consolidated as they arrive, and + placed in corresponding bins. (This includes the case of + consolidating with the current `last_remainder'). + +*/ + + +#if __STD_C +void fREe(Void_t* mem) +#else +void fREe(mem) Void_t* mem; +#endif +{ + arena *ar_ptr; + mchunkptr p; /* chunk corresponding to mem */ + +#if defined _LIBC || defined MALLOC_HOOKS + void (*hook) __MALLOC_PMT ((__malloc_ptr_t, __const __malloc_ptr_t)) = + __free_hook; + + if (hook != NULL) { +#if defined __GNUC__ && __GNUC__ >= 2 + (*hook)(mem, RETURN_ADDRESS (0)); +#else + (*hook)(mem, NULL); +#endif + return; + } +#endif + + if (mem == 0) /* free(0) has no effect */ + return; + + p = mem2chunk(mem); + +#if HAVE_MMAP + if (chunk_is_mmapped(p)) /* release mmapped memory. */ + { + munmap_chunk(p); + return; + } +#endif + + ar_ptr = arena_for_ptr(p); +#if THREAD_STATS + if(!mutex_trylock(&ar_ptr->mutex)) + ++(ar_ptr->stat_lock_direct); + else { + (void)mutex_lock(&ar_ptr->mutex); + ++(ar_ptr->stat_lock_wait); + } +#else + (void)mutex_lock(&ar_ptr->mutex); +#endif + chunk_free(ar_ptr, p); + (void)mutex_unlock(&ar_ptr->mutex); +} + +static void +internal_function +#if __STD_C +chunk_free(arena *ar_ptr, mchunkptr p) +#else +chunk_free(ar_ptr, p) arena *ar_ptr; mchunkptr p; +#endif +{ + INTERNAL_SIZE_T hd = p->size; /* its head field */ + INTERNAL_SIZE_T sz; /* its size */ + int idx; /* its bin index */ + mchunkptr next; /* next contiguous chunk */ + INTERNAL_SIZE_T nextsz; /* its size */ + INTERNAL_SIZE_T prevsz; /* size of previous contiguous chunk */ + mchunkptr bck; /* misc temp for linking */ + mchunkptr fwd; /* misc temp for linking */ + int islr; /* track whether merging with last_remainder */ + + check_inuse_chunk(ar_ptr, p); + + sz = hd & ~PREV_INUSE; + next = chunk_at_offset(p, sz); + nextsz = chunksize(next); + + if (next == top(ar_ptr)) /* merge with top */ + { + sz += nextsz; + + if (!(hd & PREV_INUSE)) /* consolidate backward */ + { + prevsz = p->prev_size; + p = chunk_at_offset(p, -(long)prevsz); + sz += prevsz; + unlink(p, bck, fwd); + } + + set_head(p, sz | PREV_INUSE); + top(ar_ptr) = p; + +#if USE_ARENAS + if(ar_ptr == &main_arena) { +#endif + if ((unsigned long)(sz) >= (unsigned long)trim_threshold) + main_trim(top_pad); +#if USE_ARENAS + } else { + heap_info *heap = heap_for_ptr(p); + + assert(heap->ar_ptr == ar_ptr); + + /* Try to get rid of completely empty heaps, if possible. */ + if((unsigned long)(sz) >= (unsigned long)trim_threshold || + p == chunk_at_offset(heap, sizeof(*heap))) + heap_trim(heap, top_pad); + } +#endif + return; + } + + islr = 0; + + if (!(hd & PREV_INUSE)) /* consolidate backward */ + { + prevsz = p->prev_size; + p = chunk_at_offset(p, -(long)prevsz); + sz += prevsz; + + if (p->fd == last_remainder(ar_ptr)) /* keep as last_remainder */ + islr = 1; + else + unlink(p, bck, fwd); + } + + if (!(inuse_bit_at_offset(next, nextsz))) /* consolidate forward */ + { + sz += nextsz; + + if (!islr && next->fd == last_remainder(ar_ptr)) + /* re-insert last_remainder */ + { + islr = 1; + link_last_remainder(ar_ptr, p); + } + else + unlink(next, bck, fwd); + + next = chunk_at_offset(p, sz); + } + else + set_head(next, nextsz); /* clear inuse bit */ + + set_head(p, sz | PREV_INUSE); + next->prev_size = sz; + if (!islr) + frontlink(ar_ptr, p, sz, idx, bck, fwd); + +#if USE_ARENAS + /* Check whether the heap containing top can go away now. */ + if(next->size < MINSIZE && + (unsigned long)sz > trim_threshold && + ar_ptr != &main_arena) { /* fencepost */ + heap_info *heap = heap_for_ptr(top(ar_ptr)); + + if(top(ar_ptr) == chunk_at_offset(heap, sizeof(*heap)) && + heap->prev == heap_for_ptr(p)) + heap_trim(heap, top_pad); + } +#endif +} + + + + + +/* + + Realloc algorithm: + + Chunks that were obtained via mmap cannot be extended or shrunk + unless HAVE_MREMAP is defined, in which case mremap is used. + Otherwise, if their reallocation is for additional space, they are + copied. If for less, they are just left alone. + + Otherwise, if the reallocation is for additional space, and the + chunk can be extended, it is, else a malloc-copy-free sequence is + taken. There are several different ways that a chunk could be + extended. All are tried: + + * Extending forward into following adjacent free chunk. + * Shifting backwards, joining preceding adjacent space + * Both shifting backwards and extending forward. + * Extending into newly sbrked space + + Unless the #define REALLOC_ZERO_BYTES_FREES is set, realloc with a + size argument of zero (re)allocates a minimum-sized chunk. + + If the reallocation is for less space, and the new request is for + a `small' (<512 bytes) size, then the newly unused space is lopped + off and freed. + + The old unix realloc convention of allowing the last-free'd chunk + to be used as an argument to realloc is no longer supported. + I don't know of any programs still relying on this feature, + and allowing it would also allow too many other incorrect + usages of realloc to be sensible. + + +*/ + + +#if __STD_C +Void_t* rEALLOc(Void_t* oldmem, size_t bytes) +#else +Void_t* rEALLOc(oldmem, bytes) Void_t* oldmem; size_t bytes; +#endif +{ + arena *ar_ptr; + INTERNAL_SIZE_T nb; /* padded request size */ + + mchunkptr oldp; /* chunk corresponding to oldmem */ + INTERNAL_SIZE_T oldsize; /* its size */ + + mchunkptr newp; /* chunk to return */ + +#if defined _LIBC || defined MALLOC_HOOKS + __malloc_ptr_t (*hook) __MALLOC_PMT ((__malloc_ptr_t, size_t, + __const __malloc_ptr_t)) = + __realloc_hook; + if (hook != NULL) { + Void_t* result; + +#if defined __GNUC__ && __GNUC__ >= 2 + result = (*hook)(oldmem, bytes, RETURN_ADDRESS (0)); +#else + result = (*hook)(oldmem, bytes, NULL); +#endif + return result; + } +#endif + +#ifdef REALLOC_ZERO_BYTES_FREES + if (bytes == 0 && oldmem != NULL) { fREe(oldmem); return 0; } +#endif + + /* realloc of null is supposed to be same as malloc */ + if (oldmem == 0) return mALLOc(bytes); + + oldp = mem2chunk(oldmem); + oldsize = chunksize(oldp); + + if(request2size(bytes, nb)) + return 0; + +#if HAVE_MMAP + if (chunk_is_mmapped(oldp)) + { + Void_t* newmem; + +#if HAVE_MREMAP + newp = mremap_chunk(oldp, nb); + if(newp) + return BOUNDED_N(chunk2mem(newp), bytes); +#endif + /* Note the extra SIZE_SZ overhead. */ + if(oldsize - SIZE_SZ >= nb) return oldmem; /* do nothing */ + /* Must alloc, copy, free. */ + newmem = mALLOc(bytes); + if (newmem == 0) return 0; /* propagate failure */ + MALLOC_COPY(newmem, oldmem, oldsize - 2*SIZE_SZ, 0); + munmap_chunk(oldp); + return newmem; + } +#endif + + ar_ptr = arena_for_ptr(oldp); +#if THREAD_STATS + if(!mutex_trylock(&ar_ptr->mutex)) + ++(ar_ptr->stat_lock_direct); + else { + (void)mutex_lock(&ar_ptr->mutex); + ++(ar_ptr->stat_lock_wait); + } +#else + (void)mutex_lock(&ar_ptr->mutex); +#endif + +#ifndef NO_THREADS + /* As in malloc(), remember this arena for the next allocation. */ + tsd_setspecific(arena_key, (Void_t *)ar_ptr); +#endif + + newp = chunk_realloc(ar_ptr, oldp, oldsize, nb); + + (void)mutex_unlock(&ar_ptr->mutex); + return newp ? BOUNDED_N(chunk2mem(newp), bytes) : NULL; +} + +static mchunkptr +internal_function +#if __STD_C +chunk_realloc(arena* ar_ptr, mchunkptr oldp, INTERNAL_SIZE_T oldsize, + INTERNAL_SIZE_T nb) +#else +chunk_realloc(ar_ptr, oldp, oldsize, nb) +arena* ar_ptr; mchunkptr oldp; INTERNAL_SIZE_T oldsize, nb; +#endif +{ + mchunkptr newp = oldp; /* chunk to return */ + INTERNAL_SIZE_T newsize = oldsize; /* its size */ + + mchunkptr next; /* next contiguous chunk after oldp */ + INTERNAL_SIZE_T nextsize; /* its size */ + + mchunkptr prev; /* previous contiguous chunk before oldp */ + INTERNAL_SIZE_T prevsize; /* its size */ + + mchunkptr remainder; /* holds split off extra space from newp */ + INTERNAL_SIZE_T remainder_size; /* its size */ + + mchunkptr bck; /* misc temp for linking */ + mchunkptr fwd; /* misc temp for linking */ + + check_inuse_chunk(ar_ptr, oldp); + + if ((long)(oldsize) < (long)(nb)) + { + Void_t* oldmem = BOUNDED_N(chunk2mem(oldp), oldsize); + + /* Try expanding forward */ + + next = chunk_at_offset(oldp, oldsize); + if (next == top(ar_ptr) || !inuse(next)) + { + nextsize = chunksize(next); + + /* Forward into top only if a remainder */ + if (next == top(ar_ptr)) + { + if ((long)(nextsize + newsize) >= (long)(nb + MINSIZE)) + { + newsize += nextsize; + top(ar_ptr) = chunk_at_offset(oldp, nb); + set_head(top(ar_ptr), (newsize - nb) | PREV_INUSE); + set_head_size(oldp, nb); + return oldp; + } + } + + /* Forward into next chunk */ + else if (((long)(nextsize + newsize) >= (long)(nb))) + { + unlink(next, bck, fwd); + newsize += nextsize; + goto split; + } + } + else + { + next = 0; + nextsize = 0; + } + + oldsize -= SIZE_SZ; + + /* Try shifting backwards. */ + + if (!prev_inuse(oldp)) + { + prev = prev_chunk(oldp); + prevsize = chunksize(prev); + + /* try forward + backward first to save a later consolidation */ + + if (next != 0) + { + /* into top */ + if (next == top(ar_ptr)) + { + if ((long)(nextsize + prevsize + newsize) >= (long)(nb + MINSIZE)) + { + unlink(prev, bck, fwd); + newp = prev; + newsize += prevsize + nextsize; + MALLOC_COPY(BOUNDED_N(chunk2mem(newp), oldsize), oldmem, oldsize, + 1); + top(ar_ptr) = chunk_at_offset(newp, nb); + set_head(top(ar_ptr), (newsize - nb) | PREV_INUSE); + set_head_size(newp, nb); + return newp; + } + } + + /* into next chunk */ + else if (((long)(nextsize + prevsize + newsize) >= (long)(nb))) + { + unlink(next, bck, fwd); + unlink(prev, bck, fwd); + newp = prev; + newsize += nextsize + prevsize; + MALLOC_COPY(BOUNDED_N(chunk2mem(newp), oldsize), oldmem, oldsize, 1); + goto split; + } + } + + /* backward only */ + if (prev != 0 && (long)(prevsize + newsize) >= (long)nb) + { + unlink(prev, bck, fwd); + newp = prev; + newsize += prevsize; + MALLOC_COPY(BOUNDED_N(chunk2mem(newp), oldsize), oldmem, oldsize, 1); + goto split; + } + } + + /* Must allocate */ + + newp = chunk_alloc (ar_ptr, nb); + + if (newp == 0) { + /* Maybe the failure is due to running out of mmapped areas. */ + if (ar_ptr != &main_arena) { + (void)mutex_lock(&main_arena.mutex); + newp = chunk_alloc(&main_arena, nb); + (void)mutex_unlock(&main_arena.mutex); + } else { +#if USE_ARENAS + /* ... or sbrk() has failed and there is still a chance to mmap() */ + arena* ar_ptr2 = arena_get2(ar_ptr->next ? ar_ptr : 0, nb); + if(ar_ptr2) { + newp = chunk_alloc(ar_ptr2, nb); + (void)mutex_unlock(&ar_ptr2->mutex); + } +#endif + } + if (newp == 0) /* propagate failure */ + return 0; + } + + /* Avoid copy if newp is next chunk after oldp. */ + /* (This can only happen when new chunk is sbrk'ed.) */ + + if ( newp == next_chunk(oldp)) + { + newsize += chunksize(newp); + newp = oldp; + goto split; + } + + /* Otherwise copy, free, and exit */ + MALLOC_COPY(BOUNDED_N(chunk2mem(newp), oldsize), oldmem, oldsize, 0); + chunk_free(ar_ptr, oldp); + return newp; + } + + + split: /* split off extra room in old or expanded chunk */ + + if (newsize - nb >= MINSIZE) /* split off remainder */ + { + remainder = chunk_at_offset(newp, nb); + remainder_size = newsize - nb; + set_head_size(newp, nb); + set_head(remainder, remainder_size | PREV_INUSE); + set_inuse_bit_at_offset(remainder, remainder_size); + chunk_free(ar_ptr, remainder); + } + else + { + set_head_size(newp, newsize); + set_inuse_bit_at_offset(newp, newsize); + } + + check_inuse_chunk(ar_ptr, newp); + return newp; +} + + + + +/* + + memalign algorithm: + + memalign requests more than enough space from malloc, finds a spot + within that chunk that meets the alignment request, and then + possibly frees the leading and trailing space. + + The alignment argument must be a power of two. This property is not + checked by memalign, so misuse may result in random runtime errors. + + 8-byte alignment is guaranteed by normal malloc calls, so don't + bother calling memalign with an argument of 8 or less. + + Overreliance on memalign is a sure way to fragment space. + +*/ + + +#if __STD_C +Void_t* mEMALIGn(size_t alignment, size_t bytes) +#else +Void_t* mEMALIGn(alignment, bytes) size_t alignment; size_t bytes; +#endif +{ + arena *ar_ptr; + INTERNAL_SIZE_T nb; /* padded request size */ + mchunkptr p; + +#if defined _LIBC || defined MALLOC_HOOKS + __malloc_ptr_t (*hook) __MALLOC_PMT ((size_t, size_t, + __const __malloc_ptr_t)) = + __memalign_hook; + if (hook != NULL) { + Void_t* result; + +#if defined __GNUC__ && __GNUC__ >= 2 + result = (*hook)(alignment, bytes, RETURN_ADDRESS (0)); +#else + result = (*hook)(alignment, bytes, NULL); +#endif + return result; + } +#endif + + /* If need less alignment than we give anyway, just relay to malloc */ + + if (alignment <= MALLOC_ALIGNMENT) return mALLOc(bytes); + + /* Otherwise, ensure that it is at least a minimum chunk size */ + + if (alignment < MINSIZE) alignment = MINSIZE; + + if(request2size(bytes, nb)) + return 0; + arena_get(ar_ptr, nb + alignment + MINSIZE); + if(!ar_ptr) + return 0; + p = chunk_align(ar_ptr, nb, alignment); + (void)mutex_unlock(&ar_ptr->mutex); + if(!p) { + /* Maybe the failure is due to running out of mmapped areas. */ + if(ar_ptr != &main_arena) { + (void)mutex_lock(&main_arena.mutex); + p = chunk_align(&main_arena, nb, alignment); + (void)mutex_unlock(&main_arena.mutex); + } else { +#if USE_ARENAS + /* ... or sbrk() has failed and there is still a chance to mmap() */ + ar_ptr = arena_get2(ar_ptr->next ? ar_ptr : 0, nb); + if(ar_ptr) { + p = chunk_align(ar_ptr, nb, alignment); + (void)mutex_unlock(&ar_ptr->mutex); + } +#endif + } + if(!p) return 0; + } + return BOUNDED_N(chunk2mem(p), bytes); +} + +static mchunkptr +internal_function +#if __STD_C +chunk_align(arena* ar_ptr, INTERNAL_SIZE_T nb, size_t alignment) +#else +chunk_align(ar_ptr, nb, alignment) +arena* ar_ptr; INTERNAL_SIZE_T nb; size_t alignment; +#endif +{ + unsigned long m; /* memory returned by malloc call */ + mchunkptr p; /* corresponding chunk */ + char* brk; /* alignment point within p */ + mchunkptr newp; /* chunk to return */ + INTERNAL_SIZE_T newsize; /* its size */ + INTERNAL_SIZE_T leadsize; /* leading space befor alignment point */ + mchunkptr remainder; /* spare room at end to split off */ + long remainder_size; /* its size */ + + /* Call chunk_alloc with worst case padding to hit alignment. */ + p = chunk_alloc(ar_ptr, nb + alignment + MINSIZE); + if (p == 0) + return 0; /* propagate failure */ + + m = (unsigned long)chunk2mem(p); + + if ((m % alignment) == 0) /* aligned */ + { +#if HAVE_MMAP + if(chunk_is_mmapped(p)) { + return p; /* nothing more to do */ + } +#endif + } + else /* misaligned */ + { + /* + Find an aligned spot inside chunk. + Since we need to give back leading space in a chunk of at + least MINSIZE, if the first calculation places us at + a spot with less than MINSIZE leader, we can move to the + next aligned spot -- we've allocated enough total room so that + this is always possible. + */ + + brk = (char*)mem2chunk(((m + alignment - 1)) & -(long)alignment); + if ((long)(brk - (char*)(p)) < (long)MINSIZE) brk += alignment; + + newp = chunk_at_offset(brk, 0); + leadsize = brk - (char*)(p); + newsize = chunksize(p) - leadsize; + +#if HAVE_MMAP + if(chunk_is_mmapped(p)) + { + newp->prev_size = p->prev_size + leadsize; + set_head(newp, newsize|IS_MMAPPED); + return newp; + } +#endif + + /* give back leader, use the rest */ + + set_head(newp, newsize | PREV_INUSE); + set_inuse_bit_at_offset(newp, newsize); + set_head_size(p, leadsize); + chunk_free(ar_ptr, p); + p = newp; + + assert (newsize>=nb && (((unsigned long)(chunk2mem(p))) % alignment) == 0); + } + + /* Also give back spare room at the end */ + + remainder_size = chunksize(p) - nb; + + if (remainder_size >= (long)MINSIZE) + { + remainder = chunk_at_offset(p, nb); + set_head(remainder, remainder_size | PREV_INUSE); + set_head_size(p, nb); + chunk_free(ar_ptr, remainder); + } + + check_inuse_chunk(ar_ptr, p); + return p; +} + + + + +/* + valloc just invokes memalign with alignment argument equal + to the page size of the system (or as near to this as can + be figured out from all the includes/defines above.) +*/ + +#if __STD_C +Void_t* vALLOc(size_t bytes) +#else +Void_t* vALLOc(bytes) size_t bytes; +#endif +{ + if(__malloc_initialized < 0) + ptmalloc_init (); + return mEMALIGn (malloc_getpagesize, bytes); +} + +/* + pvalloc just invokes valloc for the nearest pagesize + that will accommodate request +*/ + + +#if __STD_C +Void_t* pvALLOc(size_t bytes) +#else +Void_t* pvALLOc(bytes) size_t bytes; +#endif +{ + size_t pagesize; + if(__malloc_initialized < 0) + ptmalloc_init (); + pagesize = malloc_getpagesize; + return mEMALIGn (pagesize, (bytes + pagesize - 1) & ~(pagesize - 1)); +} + +/* + + calloc calls chunk_alloc, then zeroes out the allocated chunk. + +*/ + +#if __STD_C +Void_t* cALLOc(size_t n, size_t elem_size) +#else +Void_t* cALLOc(n, elem_size) size_t n; size_t elem_size; +#endif +{ + arena *ar_ptr; + mchunkptr p, oldtop; + INTERNAL_SIZE_T sz, csz, oldtopsize; + Void_t* mem; + +#if defined _LIBC || defined MALLOC_HOOKS + __malloc_ptr_t (*hook) __MALLOC_PMT ((size_t, __const __malloc_ptr_t)) = + __malloc_hook; + if (hook != NULL) { + sz = n * elem_size; +#if defined __GNUC__ && __GNUC__ >= 2 + mem = (*hook)(sz, RETURN_ADDRESS (0)); +#else + mem = (*hook)(sz, NULL); +#endif + if(mem == 0) + return 0; +#ifdef HAVE_MEMSET + return memset(mem, 0, sz); +#else + while(sz > 0) ((char*)mem)[--sz] = 0; /* rather inefficient */ + return mem; +#endif + } +#endif + + if(request2size(n * elem_size, sz)) + return 0; + arena_get(ar_ptr, sz); + if(!ar_ptr) + return 0; + + /* Check if expand_top called, in which case there may be + no need to clear. */ +#if MORECORE_CLEARS + oldtop = top(ar_ptr); + oldtopsize = chunksize(top(ar_ptr)); +#if MORECORE_CLEARS < 2 + /* Only newly allocated memory is guaranteed to be cleared. */ + if (ar_ptr == &main_arena && + oldtopsize < sbrk_base + max_sbrked_mem - (char *)oldtop) + oldtopsize = (sbrk_base + max_sbrked_mem - (char *)oldtop); +#endif +#endif + p = chunk_alloc (ar_ptr, sz); + + /* Only clearing follows, so we can unlock early. */ + (void)mutex_unlock(&ar_ptr->mutex); + + if (p == 0) { + /* Maybe the failure is due to running out of mmapped areas. */ + if(ar_ptr != &main_arena) { + (void)mutex_lock(&main_arena.mutex); + p = chunk_alloc(&main_arena, sz); + (void)mutex_unlock(&main_arena.mutex); + } else { +#if USE_ARENAS + /* ... or sbrk() has failed and there is still a chance to mmap() */ + (void)mutex_lock(&main_arena.mutex); + ar_ptr = arena_get2(ar_ptr->next ? ar_ptr : 0, sz); + (void)mutex_unlock(&main_arena.mutex); + if(ar_ptr) { + p = chunk_alloc(ar_ptr, sz); + (void)mutex_unlock(&ar_ptr->mutex); + } +#endif + } + if (p == 0) return 0; + } + mem = BOUNDED_N(chunk2mem(p), n * elem_size); + + /* Two optional cases in which clearing not necessary */ + +#if HAVE_MMAP + if (chunk_is_mmapped(p)) return mem; +#endif + + csz = chunksize(p); + +#if MORECORE_CLEARS + if (p == oldtop && csz > oldtopsize) { + /* clear only the bytes from non-freshly-sbrked memory */ + csz = oldtopsize; + } +#endif + + csz -= SIZE_SZ; + MALLOC_ZERO(BOUNDED_N(chunk2mem(p), csz), csz); + return mem; +} + +/* + + cfree just calls free. It is needed/defined on some systems + that pair it with calloc, presumably for odd historical reasons. + +*/ + +#if !defined(_LIBC) +#if __STD_C +void cfree(Void_t *mem) +#else +void cfree(mem) Void_t *mem; +#endif +{ + fREe(mem); +} +#endif + + + +/* + + Malloc_trim gives memory back to the system (via negative + arguments to sbrk) if there is unused memory at the `high' end of + the malloc pool. You can call this after freeing large blocks of + memory to potentially reduce the system-level memory requirements + of a program. However, it cannot guarantee to reduce memory. Under + some allocation patterns, some large free blocks of memory will be + locked between two used chunks, so they cannot be given back to + the system. + + The `pad' argument to malloc_trim represents the amount of free + trailing space to leave untrimmed. If this argument is zero, + only the minimum amount of memory to maintain internal data + structures will be left (one page or less). Non-zero arguments + can be supplied to maintain enough trailing space to service + future expected allocations without having to re-obtain memory + from the system. + + Malloc_trim returns 1 if it actually released any memory, else 0. + +*/ + +#if __STD_C +int mALLOC_TRIm(size_t pad) +#else +int mALLOC_TRIm(pad) size_t pad; +#endif +{ + int res; + + (void)mutex_lock(&main_arena.mutex); + res = main_trim(pad); + (void)mutex_unlock(&main_arena.mutex); + return res; +} + +/* Trim the main arena. */ + +static int +internal_function +#if __STD_C +main_trim(size_t pad) +#else +main_trim(pad) size_t pad; +#endif +{ + mchunkptr top_chunk; /* The current top chunk */ + long top_size; /* Amount of top-most memory */ + long extra; /* Amount to release */ + char* current_brk; /* address returned by pre-check sbrk call */ + char* new_brk; /* address returned by negative sbrk call */ + + unsigned long pagesz = malloc_getpagesize; + + top_chunk = top(&main_arena); + top_size = chunksize(top_chunk); + extra = ((top_size - pad - MINSIZE + (pagesz-1)) / pagesz - 1) * pagesz; + + if (extra < (long)pagesz) /* Not enough memory to release */ + return 0; + + /* Test to make sure no one else called sbrk */ + current_brk = (char*)(MORECORE (0)); + if (current_brk != (char*)(top_chunk) + top_size) + return 0; /* Apparently we don't own memory; must fail */ + + new_brk = (char*)(MORECORE (-extra)); + +#if defined _LIBC || defined MALLOC_HOOKS + /* Call the `morecore' hook if necessary. */ + if (__after_morecore_hook) + (*__after_morecore_hook) (); +#endif + + if (new_brk == (char*)(MORECORE_FAILURE)) { /* sbrk failed? */ + /* Try to figure out what we have */ + current_brk = (char*)(MORECORE (0)); + top_size = current_brk - (char*)top_chunk; + if (top_size >= (long)MINSIZE) /* if not, we are very very dead! */ + { + sbrked_mem = current_brk - sbrk_base; + set_head(top_chunk, top_size | PREV_INUSE); + } + check_chunk(&main_arena, top_chunk); + return 0; + } + sbrked_mem -= extra; + + /* Success. Adjust top accordingly. */ + set_head(top_chunk, (top_size - extra) | PREV_INUSE); + check_chunk(&main_arena, top_chunk); + return 1; +} + +#if USE_ARENAS + +static int +internal_function +#if __STD_C +heap_trim(heap_info *heap, size_t pad) +#else +heap_trim(heap, pad) heap_info *heap; size_t pad; +#endif +{ + unsigned long pagesz = malloc_getpagesize; + arena *ar_ptr = heap->ar_ptr; + mchunkptr top_chunk = top(ar_ptr), p, bck, fwd; + heap_info *prev_heap; + long new_size, top_size, extra; + + /* Can this heap go away completely ? */ + while(top_chunk == chunk_at_offset(heap, sizeof(*heap))) { + prev_heap = heap->prev; + p = chunk_at_offset(prev_heap, prev_heap->size - (MINSIZE-2*SIZE_SZ)); + assert(p->size == (0|PREV_INUSE)); /* must be fencepost */ + p = prev_chunk(p); + new_size = chunksize(p) + (MINSIZE-2*SIZE_SZ); + assert(new_size>0 && new_size<(long)(2*MINSIZE)); + if(!prev_inuse(p)) + new_size += p->prev_size; + assert(new_size>0 && new_sizesize) < pad + MINSIZE + pagesz) + break; + ar_ptr->size -= heap->size; + arena_mem -= heap->size; + delete_heap(heap); + heap = prev_heap; + if(!prev_inuse(p)) { /* consolidate backward */ + p = prev_chunk(p); + unlink(p, bck, fwd); + } + assert(((unsigned long)((char*)p + new_size) & (pagesz-1)) == 0); + assert( ((char*)p + new_size) == ((char*)heap + heap->size) ); + top(ar_ptr) = top_chunk = p; + set_head(top_chunk, new_size | PREV_INUSE); + check_chunk(ar_ptr, top_chunk); + } + top_size = chunksize(top_chunk); + extra = ((top_size - pad - MINSIZE + (pagesz-1))/pagesz - 1) * pagesz; + if(extra < (long)pagesz) + return 0; + /* Try to shrink. */ + if(grow_heap(heap, -extra) != 0) + return 0; + ar_ptr->size -= extra; + arena_mem -= extra; + + /* Success. Adjust top accordingly. */ + set_head(top_chunk, (top_size - extra) | PREV_INUSE); + check_chunk(ar_ptr, top_chunk); + return 1; +} + +#endif /* USE_ARENAS */ + + + +/* + malloc_usable_size: + + This routine tells you how many bytes you can actually use in an + allocated chunk, which may be more than you requested (although + often not). You can use this many bytes without worrying about + overwriting other allocated objects. Not a particularly great + programming practice, but still sometimes useful. + +*/ + +#if __STD_C +size_t mALLOC_USABLE_SIZe(Void_t* mem) +#else +size_t mALLOC_USABLE_SIZe(mem) Void_t* mem; +#endif +{ + mchunkptr p; + + if (mem == 0) + return 0; + else + { + p = mem2chunk(mem); + if(!chunk_is_mmapped(p)) + { + if (!inuse(p)) return 0; + check_inuse_chunk(arena_for_ptr(mem), p); + return chunksize(p) - SIZE_SZ; + } + return chunksize(p) - 2*SIZE_SZ; + } +} + + + + +/* Utility to update mallinfo for malloc_stats() and mallinfo() */ + +static void +#if __STD_C +malloc_update_mallinfo(arena *ar_ptr, struct mallinfo *mi) +#else +malloc_update_mallinfo(ar_ptr, mi) arena *ar_ptr; struct mallinfo *mi; +#endif +{ + int i, navail; + mbinptr b; + mchunkptr p; +#if MALLOC_DEBUG + mchunkptr q; +#endif + INTERNAL_SIZE_T avail; + + (void)mutex_lock(&ar_ptr->mutex); + avail = chunksize(top(ar_ptr)); + navail = ((long)(avail) >= (long)MINSIZE)? 1 : 0; + + for (i = 1; i < NAV; ++i) + { + b = bin_at(ar_ptr, i); + for (p = last(b); p != b; p = p->bk) + { +#if MALLOC_DEBUG + check_free_chunk(ar_ptr, p); + for (q = next_chunk(p); + q != top(ar_ptr) && inuse(q) && (long)chunksize(q) > 0; + q = next_chunk(q)) + check_inuse_chunk(ar_ptr, q); +#endif + avail += chunksize(p); + navail++; + } + } + + mi->arena = ar_ptr->size; + mi->ordblks = navail; + mi->smblks = mi->usmblks = mi->fsmblks = 0; /* clear unused fields */ + mi->uordblks = ar_ptr->size - avail; + mi->fordblks = avail; + mi->hblks = n_mmaps; + mi->hblkhd = mmapped_mem; + mi->keepcost = chunksize(top(ar_ptr)); + + (void)mutex_unlock(&ar_ptr->mutex); +} + +#if USE_ARENAS && MALLOC_DEBUG > 1 + +/* Print the complete contents of a single heap to stderr. */ + +static void +#if __STD_C +dump_heap(heap_info *heap) +#else +dump_heap(heap) heap_info *heap; +#endif +{ + char *ptr; + mchunkptr p; + + fprintf(stderr, "Heap %p, size %10lx:\n", heap, (long)heap->size); + ptr = (heap->ar_ptr != (arena*)(heap+1)) ? + (char*)(heap + 1) : (char*)(heap + 1) + sizeof(arena); + p = (mchunkptr)(((unsigned long)ptr + MALLOC_ALIGN_MASK) & + ~MALLOC_ALIGN_MASK); + for(;;) { + fprintf(stderr, "chunk %p size %10lx", p, (long)p->size); + if(p == top(heap->ar_ptr)) { + fprintf(stderr, " (top)\n"); + break; + } else if(p->size == (0|PREV_INUSE)) { + fprintf(stderr, " (fence)\n"); + break; + } + fprintf(stderr, "\n"); + p = next_chunk(p); + } +} + +#endif + + + +/* + + malloc_stats: + + For all arenas separately and in total, prints on stderr the + amount of space obtained from the system, and the current number + of bytes allocated via malloc (or realloc, etc) but not yet + freed. (Note that this is the number of bytes allocated, not the + number requested. It will be larger than the number requested + because of alignment and bookkeeping overhead.) When not compiled + for multiple threads, the maximum amount of allocated memory + (which may be more than current if malloc_trim and/or munmap got + called) is also reported. When using mmap(), prints the maximum + number of simultaneous mmap regions used, too. + +*/ + +void mALLOC_STATs() +{ + int i; + arena *ar_ptr; + struct mallinfo mi; + unsigned int in_use_b = mmapped_mem, system_b = in_use_b; +#if THREAD_STATS + long stat_lock_direct = 0, stat_lock_loop = 0, stat_lock_wait = 0; +#endif + + for(i=0, ar_ptr = &main_arena;; i++) { + malloc_update_mallinfo(ar_ptr, &mi); + fprintf(stderr, "Arena %d:\n", i); + fprintf(stderr, "system bytes = %10u\n", (unsigned int)mi.arena); + fprintf(stderr, "in use bytes = %10u\n", (unsigned int)mi.uordblks); + system_b += mi.arena; + in_use_b += mi.uordblks; +#if THREAD_STATS + stat_lock_direct += ar_ptr->stat_lock_direct; + stat_lock_loop += ar_ptr->stat_lock_loop; + stat_lock_wait += ar_ptr->stat_lock_wait; +#endif +#if USE_ARENAS && MALLOC_DEBUG > 1 + if(ar_ptr != &main_arena) { + heap_info *heap; + (void)mutex_lock(&ar_ptr->mutex); + heap = heap_for_ptr(top(ar_ptr)); + while(heap) { dump_heap(heap); heap = heap->prev; } + (void)mutex_unlock(&ar_ptr->mutex); + } +#endif + ar_ptr = ar_ptr->next; + if(ar_ptr == &main_arena) break; + } +#if HAVE_MMAP + fprintf(stderr, "Total (incl. mmap):\n"); +#else + fprintf(stderr, "Total:\n"); +#endif + fprintf(stderr, "system bytes = %10u\n", system_b); + fprintf(stderr, "in use bytes = %10u\n", in_use_b); +#ifdef NO_THREADS + fprintf(stderr, "max system bytes = %10u\n", (unsigned int)max_total_mem); +#endif +#if HAVE_MMAP + fprintf(stderr, "max mmap regions = %10u\n", (unsigned int)max_n_mmaps); + fprintf(stderr, "max mmap bytes = %10lu\n", max_mmapped_mem); +#endif +#if THREAD_STATS + fprintf(stderr, "heaps created = %10d\n", stat_n_heaps); + fprintf(stderr, "locked directly = %10ld\n", stat_lock_direct); + fprintf(stderr, "locked in loop = %10ld\n", stat_lock_loop); + fprintf(stderr, "locked waiting = %10ld\n", stat_lock_wait); + fprintf(stderr, "locked total = %10ld\n", + stat_lock_direct + stat_lock_loop + stat_lock_wait); +#endif +} + +/* + mallinfo returns a copy of updated current mallinfo. + The information reported is for the arena last used by the thread. +*/ + +struct mallinfo mALLINFo() +{ + struct mallinfo mi; + Void_t *vptr = NULL; + +#ifndef NO_THREADS + tsd_getspecific(arena_key, vptr); + if(vptr == ATFORK_ARENA_PTR) + vptr = (Void_t*)&main_arena; +#endif + malloc_update_mallinfo((vptr ? (arena*)vptr : &main_arena), &mi); + return mi; +} + + + + +/* + mallopt: + + mallopt is the general SVID/XPG interface to tunable parameters. + The format is to provide a (parameter-number, parameter-value) pair. + mallopt then sets the corresponding parameter to the argument + value if it can (i.e., so long as the value is meaningful), + and returns 1 if successful else 0. + + See descriptions of tunable parameters above. + +*/ + +#if __STD_C +int mALLOPt(int param_number, int value) +#else +int mALLOPt(param_number, value) int param_number; int value; +#endif +{ + switch(param_number) + { + case M_TRIM_THRESHOLD: + trim_threshold = value; return 1; + case M_TOP_PAD: + top_pad = value; return 1; + case M_MMAP_THRESHOLD: +#if USE_ARENAS + /* Forbid setting the threshold too high. */ + if((unsigned long)value > HEAP_MAX_SIZE/2) return 0; +#endif + mmap_threshold = value; return 1; + case M_MMAP_MAX: +#if HAVE_MMAP + n_mmaps_max = value; return 1; +#else + if (value != 0) return 0; else n_mmaps_max = value; return 1; +#endif + case M_CHECK_ACTION: + check_action = value; return 1; + + default: + return 0; + } +} + + + +/* Get/set state: malloc_get_state() records the current state of all + malloc variables (_except_ for the actual heap contents and `hook' + function pointers) in a system dependent, opaque data structure. + This data structure is dynamically allocated and can be free()d + after use. malloc_set_state() restores the state of all malloc + variables to the previously obtained state. This is especially + useful when using this malloc as part of a shared library, and when + the heap contents are saved/restored via some other method. The + primary example for this is GNU Emacs with its `dumping' procedure. + `Hook' function pointers are never saved or restored by these + functions, with two exceptions: If malloc checking was in use when + malloc_get_state() was called, then malloc_set_state() calls + __malloc_check_init() if possible; if malloc checking was not in + use in the recorded state but the user requested malloc checking, + then the hooks are reset to 0. */ + +#define MALLOC_STATE_MAGIC 0x444c4541l +#define MALLOC_STATE_VERSION (0*0x100l + 1l) /* major*0x100 + minor */ + +struct malloc_state { + long magic; + long version; + mbinptr av[NAV * 2 + 2]; + char* sbrk_base; + int sbrked_mem_bytes; + unsigned long trim_threshold; + unsigned long top_pad; + unsigned int n_mmaps_max; + unsigned long mmap_threshold; + int check_action; + unsigned long max_sbrked_mem; + unsigned long max_total_mem; + unsigned int n_mmaps; + unsigned int max_n_mmaps; + unsigned long mmapped_mem; + unsigned long max_mmapped_mem; + int using_malloc_checking; +}; + +Void_t* +mALLOC_GET_STATe() +{ + struct malloc_state* ms; + int i; + mbinptr b; + + ms = (struct malloc_state*)mALLOc(sizeof(*ms)); + if (!ms) + return 0; + (void)mutex_lock(&main_arena.mutex); + ms->magic = MALLOC_STATE_MAGIC; + ms->version = MALLOC_STATE_VERSION; + ms->av[0] = main_arena.av[0]; + ms->av[1] = main_arena.av[1]; + for(i=0; iav[2*i+2] = ms->av[2*i+3] = 0; /* empty bin (or initial top) */ + else { + ms->av[2*i+2] = first(b); + ms->av[2*i+3] = last(b); + } + } + ms->sbrk_base = sbrk_base; + ms->sbrked_mem_bytes = sbrked_mem; + ms->trim_threshold = trim_threshold; + ms->top_pad = top_pad; + ms->n_mmaps_max = n_mmaps_max; + ms->mmap_threshold = mmap_threshold; + ms->check_action = check_action; + ms->max_sbrked_mem = max_sbrked_mem; +#ifdef NO_THREADS + ms->max_total_mem = max_total_mem; +#else + ms->max_total_mem = 0; +#endif + ms->n_mmaps = n_mmaps; + ms->max_n_mmaps = max_n_mmaps; + ms->mmapped_mem = mmapped_mem; + ms->max_mmapped_mem = max_mmapped_mem; +#if defined _LIBC || defined MALLOC_HOOKS + ms->using_malloc_checking = using_malloc_checking; +#else + ms->using_malloc_checking = 0; +#endif + (void)mutex_unlock(&main_arena.mutex); + return (Void_t*)ms; +} + +int +#if __STD_C +mALLOC_SET_STATe(Void_t* msptr) +#else +mALLOC_SET_STATe(msptr) Void_t* msptr; +#endif +{ + struct malloc_state* ms = (struct malloc_state*)msptr; + int i; + mbinptr b; + +#if defined _LIBC || defined MALLOC_HOOKS + disallow_malloc_check = 1; +#endif + ptmalloc_init(); + if(ms->magic != MALLOC_STATE_MAGIC) return -1; + /* Must fail if the major version is too high. */ + if((ms->version & ~0xffl) > (MALLOC_STATE_VERSION & ~0xffl)) return -2; + (void)mutex_lock(&main_arena.mutex); + main_arena.av[0] = ms->av[0]; + main_arena.av[1] = ms->av[1]; + for(i=0; iav[2*i+2] == 0) + first(b) = last(b) = b; + else { + first(b) = ms->av[2*i+2]; + last(b) = ms->av[2*i+3]; + if(i > 0) { + /* Make sure the links to the `av'-bins in the heap are correct. */ + first(b)->bk = b; + last(b)->fd = b; + } + } + } + sbrk_base = ms->sbrk_base; + sbrked_mem = ms->sbrked_mem_bytes; + trim_threshold = ms->trim_threshold; + top_pad = ms->top_pad; + n_mmaps_max = ms->n_mmaps_max; + mmap_threshold = ms->mmap_threshold; + check_action = ms->check_action; + max_sbrked_mem = ms->max_sbrked_mem; +#ifdef NO_THREADS + max_total_mem = ms->max_total_mem; +#endif + n_mmaps = ms->n_mmaps; + max_n_mmaps = ms->max_n_mmaps; + mmapped_mem = ms->mmapped_mem; + max_mmapped_mem = ms->max_mmapped_mem; + /* add version-dependent code here */ + if (ms->version >= 1) { +#if defined _LIBC || defined MALLOC_HOOKS + /* Check whether it is safe to enable malloc checking, or whether + it is necessary to disable it. */ + if (ms->using_malloc_checking && !using_malloc_checking && + !disallow_malloc_check) + __malloc_check_init (); + else if (!ms->using_malloc_checking && using_malloc_checking) { + __malloc_hook = 0; + __free_hook = 0; + __realloc_hook = 0; + __memalign_hook = 0; + using_malloc_checking = 0; + } +#endif + } + + (void)mutex_unlock(&main_arena.mutex); + return 0; +} + + + +#if defined _LIBC || defined MALLOC_HOOKS + +/* A simple, standard set of debugging hooks. Overhead is `only' one + byte per chunk; still this will catch most cases of double frees or + overruns. The goal here is to avoid obscure crashes due to invalid + usage, unlike in the MALLOC_DEBUG code. */ + +#define MAGICBYTE(p) ( ( ((size_t)p >> 3) ^ ((size_t)p >> 11)) & 0xFF ) + +/* Instrument a chunk with overrun detector byte(s) and convert it + into a user pointer with requested size sz. */ + +static Void_t* +internal_function +#if __STD_C +chunk2mem_check(mchunkptr p, size_t sz) +#else +chunk2mem_check(p, sz) mchunkptr p; size_t sz; +#endif +{ + unsigned char* m_ptr = (unsigned char*)BOUNDED_N(chunk2mem(p), sz); + size_t i; + + for(i = chunksize(p) - (chunk_is_mmapped(p) ? 2*SIZE_SZ+1 : SIZE_SZ+1); + i > sz; + i -= 0xFF) { + if(i-sz < 0x100) { + m_ptr[i] = (unsigned char)(i-sz); + break; + } + m_ptr[i] = 0xFF; + } + m_ptr[sz] = MAGICBYTE(p); + return (Void_t*)m_ptr; +} + +/* Convert a pointer to be free()d or realloc()ed to a valid chunk + pointer. If the provided pointer is not valid, return NULL. */ + +static mchunkptr +internal_function +#if __STD_C +mem2chunk_check(Void_t* mem) +#else +mem2chunk_check(mem) Void_t* mem; +#endif +{ + mchunkptr p; + INTERNAL_SIZE_T sz, c; + unsigned char magic; + + p = mem2chunk(mem); + if(!aligned_OK(p)) return NULL; + if( (char*)p>=sbrk_base && (char*)p<(sbrk_base+sbrked_mem) ) { + /* Must be a chunk in conventional heap memory. */ + if(chunk_is_mmapped(p) || + ( (sz = chunksize(p)), ((char*)p + sz)>=(sbrk_base+sbrked_mem) ) || + szprev_size&MALLOC_ALIGN_MASK || + (long)prev_chunk(p)<(long)sbrk_base || + next_chunk(prev_chunk(p))!=p) )) + return NULL; + magic = MAGICBYTE(p); + for(sz += SIZE_SZ-1; (c = ((unsigned char*)p)[sz]) != magic; sz -= c) { + if(c<=0 || sz<(c+2*SIZE_SZ)) return NULL; + } + ((unsigned char*)p)[sz] ^= 0xFF; + } else { + unsigned long offset, page_mask = malloc_getpagesize-1; + + /* mmap()ed chunks have MALLOC_ALIGNMENT or higher power-of-two + alignment relative to the beginning of a page. Check this + first. */ + offset = (unsigned long)mem & page_mask; + if((offset!=MALLOC_ALIGNMENT && offset!=0 && offset!=0x10 && + offset!=0x20 && offset!=0x40 && offset!=0x80 && offset!=0x100 && + offset!=0x200 && offset!=0x400 && offset!=0x800 && offset!=0x1000 && + offset<0x2000) || + !chunk_is_mmapped(p) || (p->size & PREV_INUSE) || + ( (((unsigned long)p - p->prev_size) & page_mask) != 0 ) || + ( (sz = chunksize(p)), ((p->prev_size + sz) & page_mask) != 0 ) ) + return NULL; + magic = MAGICBYTE(p); + for(sz -= 1; (c = ((unsigned char*)p)[sz]) != magic; sz -= c) { + if(c<=0 || sz<(c+2*SIZE_SZ)) return NULL; + } + ((unsigned char*)p)[sz] ^= 0xFF; + } + return p; +} + +/* Check for corruption of the top chunk, and try to recover if + necessary. */ + +static int +internal_function +#if __STD_C +top_check(void) +#else +top_check() +#endif +{ + mchunkptr t = top(&main_arena); + char* brk, * new_brk; + INTERNAL_SIZE_T front_misalign, sbrk_size; + unsigned long pagesz = malloc_getpagesize; + + if((char*)t + chunksize(t) == sbrk_base + sbrked_mem || + t == initial_top(&main_arena)) return 0; + + if(check_action & 1) + fprintf(stderr, "malloc: top chunk is corrupt\n"); + if(check_action & 2) + abort(); + + /* Try to set up a new top chunk. */ + brk = MORECORE(0); + front_misalign = (unsigned long)chunk2mem(brk) & MALLOC_ALIGN_MASK; + if (front_misalign > 0) + front_misalign = MALLOC_ALIGNMENT - front_misalign; + sbrk_size = front_misalign + top_pad + MINSIZE; + sbrk_size += pagesz - ((unsigned long)(brk + sbrk_size) & (pagesz - 1)); + new_brk = (char*)(MORECORE (sbrk_size)); + if (new_brk == (char*)(MORECORE_FAILURE)) return -1; + sbrked_mem = (new_brk - sbrk_base) + sbrk_size; + + top(&main_arena) = (mchunkptr)(brk + front_misalign); + set_head(top(&main_arena), (sbrk_size - front_misalign) | PREV_INUSE); + + return 0; +} + +static Void_t* +#if __STD_C +malloc_check(size_t sz, const Void_t *caller) +#else +malloc_check(sz, caller) size_t sz; const Void_t *caller; +#endif +{ + mchunkptr victim; + INTERNAL_SIZE_T nb; + + if(request2size(sz+1, nb)) + return 0; + (void)mutex_lock(&main_arena.mutex); + victim = (top_check() >= 0) ? chunk_alloc(&main_arena, nb) : NULL; + (void)mutex_unlock(&main_arena.mutex); + if(!victim) return NULL; + return chunk2mem_check(victim, sz); +} + +static void +#if __STD_C +free_check(Void_t* mem, const Void_t *caller) +#else +free_check(mem, caller) Void_t* mem; const Void_t *caller; +#endif +{ + mchunkptr p; + + if(!mem) return; + (void)mutex_lock(&main_arena.mutex); + p = mem2chunk_check(mem); + if(!p) { + (void)mutex_unlock(&main_arena.mutex); + if(check_action & 1) + fprintf(stderr, "free(): invalid pointer %p!\n", mem); + if(check_action & 2) + abort(); + return; + } +#if HAVE_MMAP + if (chunk_is_mmapped(p)) { + (void)mutex_unlock(&main_arena.mutex); + munmap_chunk(p); + return; + } +#endif +#if 0 /* Erase freed memory. */ + memset(mem, 0, chunksize(p) - (SIZE_SZ+1)); +#endif + chunk_free(&main_arena, p); + (void)mutex_unlock(&main_arena.mutex); +} + +static Void_t* +#if __STD_C +realloc_check(Void_t* oldmem, size_t bytes, const Void_t *caller) +#else +realloc_check(oldmem, bytes, caller) + Void_t* oldmem; size_t bytes; const Void_t *caller; +#endif +{ + mchunkptr oldp, newp; + INTERNAL_SIZE_T nb, oldsize; + + if (oldmem == 0) return malloc_check(bytes, NULL); + (void)mutex_lock(&main_arena.mutex); + oldp = mem2chunk_check(oldmem); + if(!oldp) { + (void)mutex_unlock(&main_arena.mutex); + if(check_action & 1) + fprintf(stderr, "realloc(): invalid pointer %p!\n", oldmem); + if(check_action & 2) + abort(); + return malloc_check(bytes, NULL); + } + oldsize = chunksize(oldp); + + if(request2size(bytes+1, nb)) { + (void)mutex_unlock(&main_arena.mutex); + return 0; + } + +#if HAVE_MMAP + if (chunk_is_mmapped(oldp)) { +#if HAVE_MREMAP + newp = mremap_chunk(oldp, nb); + if(!newp) { +#endif + /* Note the extra SIZE_SZ overhead. */ + if(oldsize - SIZE_SZ >= nb) newp = oldp; /* do nothing */ + else { + /* Must alloc, copy, free. */ + newp = (top_check() >= 0) ? chunk_alloc(&main_arena, nb) : NULL; + if (newp) { + MALLOC_COPY(BOUNDED_N(chunk2mem(newp), nb), + oldmem, oldsize - 2*SIZE_SZ, 0); + munmap_chunk(oldp); + } + } +#if HAVE_MREMAP + } +#endif + } else { +#endif /* HAVE_MMAP */ + newp = (top_check() >= 0) ? + chunk_realloc(&main_arena, oldp, oldsize, nb) : NULL; +#if 0 /* Erase freed memory. */ + nb = chunksize(newp); + if(oldp=chunk_at_offset(newp, nb)) { + memset((char*)oldmem + 2*sizeof(mbinptr), 0, + oldsize - (2*sizeof(mbinptr)+2*SIZE_SZ+1)); + } else if(nb > oldsize+SIZE_SZ) { + memset((char*)BOUNDED_N(chunk2mem(newp), bytes) + oldsize, + 0, nb - (oldsize+SIZE_SZ)); + } +#endif +#if HAVE_MMAP + } +#endif + (void)mutex_unlock(&main_arena.mutex); + + if(!newp) return NULL; + return chunk2mem_check(newp, bytes); +} + +static Void_t* +#if __STD_C +memalign_check(size_t alignment, size_t bytes, const Void_t *caller) +#else +memalign_check(alignment, bytes, caller) + size_t alignment; size_t bytes; const Void_t *caller; +#endif +{ + INTERNAL_SIZE_T nb; + mchunkptr p; + + if (alignment <= MALLOC_ALIGNMENT) return malloc_check(bytes, NULL); + if (alignment < MINSIZE) alignment = MINSIZE; + + if(request2size(bytes+1, nb)) + return 0; + (void)mutex_lock(&main_arena.mutex); + p = (top_check() >= 0) ? chunk_align(&main_arena, nb, alignment) : NULL; + (void)mutex_unlock(&main_arena.mutex); + if(!p) return NULL; + return chunk2mem_check(p, bytes); +} + +#ifndef NO_THREADS + +/* The following hooks are used when the global initialization in + ptmalloc_init() hasn't completed yet. */ + +static Void_t* +#if __STD_C +malloc_starter(size_t sz, const Void_t *caller) +#else +malloc_starter(sz, caller) size_t sz; const Void_t *caller; +#endif +{ + INTERNAL_SIZE_T nb; + mchunkptr victim; + + if(request2size(sz, nb)) + return 0; + victim = chunk_alloc(&main_arena, nb); + + return victim ? BOUNDED_N(chunk2mem(victim), sz) : 0; +} + +static void +#if __STD_C +free_starter(Void_t* mem, const Void_t *caller) +#else +free_starter(mem, caller) Void_t* mem; const Void_t *caller; +#endif +{ + mchunkptr p; + + if(!mem) return; + p = mem2chunk(mem); +#if HAVE_MMAP + if (chunk_is_mmapped(p)) { + munmap_chunk(p); + return; + } +#endif + chunk_free(&main_arena, p); +} + +/* The following hooks are used while the `atfork' handling mechanism + is active. */ + +static Void_t* +#if __STD_C +malloc_atfork (size_t sz, const Void_t *caller) +#else +malloc_atfork(sz, caller) size_t sz; const Void_t *caller; +#endif +{ + Void_t *vptr = NULL; + INTERNAL_SIZE_T nb; + mchunkptr victim; + + tsd_getspecific(arena_key, vptr); + if(vptr == ATFORK_ARENA_PTR) { + /* We are the only thread that may allocate at all. */ + if(save_malloc_hook != malloc_check) { + if(request2size(sz, nb)) + return 0; + victim = chunk_alloc(&main_arena, nb); + return victim ? BOUNDED_N(chunk2mem(victim), sz) : 0; + } else { + if(top_check()<0 || request2size(sz+1, nb)) + return 0; + victim = chunk_alloc(&main_arena, nb); + return victim ? chunk2mem_check(victim, sz) : 0; + } + } else { + /* Suspend the thread until the `atfork' handlers have completed. + By that time, the hooks will have been reset as well, so that + mALLOc() can be used again. */ + (void)mutex_lock(&list_lock); + (void)mutex_unlock(&list_lock); + return mALLOc(sz); + } +} + +static void +#if __STD_C +free_atfork(Void_t* mem, const Void_t *caller) +#else +free_atfork(mem, caller) Void_t* mem; const Void_t *caller; +#endif +{ + Void_t *vptr = NULL; + arena *ar_ptr; + mchunkptr p; /* chunk corresponding to mem */ + + if (mem == 0) /* free(0) has no effect */ + return; + + p = mem2chunk(mem); /* do not bother to replicate free_check here */ + +#if HAVE_MMAP + if (chunk_is_mmapped(p)) /* release mmapped memory. */ + { + munmap_chunk(p); + return; + } +#endif + + ar_ptr = arena_for_ptr(p); + tsd_getspecific(arena_key, vptr); + if(vptr != ATFORK_ARENA_PTR) + (void)mutex_lock(&ar_ptr->mutex); + chunk_free(ar_ptr, p); + if(vptr != ATFORK_ARENA_PTR) + (void)mutex_unlock(&ar_ptr->mutex); +} + +#endif /* !defined NO_THREADS */ + +#endif /* defined _LIBC || defined MALLOC_HOOKS */ + + + +#ifdef _LIBC + +/* default method of getting more storage */ +__malloc_ptr_t +__default_morecore (int inc) +{ + __malloc_ptr_t result = (__malloc_ptr_t)sbrk (inc); + if (result == (__malloc_ptr_t)-1) + return NULL; + return result; +} + +/* We need a wrapper function for one of the additions of POSIX. */ +int +__posix_memalign (void **memptr, size_t alignment, size_t size) +{ + void *mem; + + /* Test whether the ALIGNMENT argument is valid. It must be a power + of two multiple of sizeof (void *). */ + if (alignment % sizeof (void *) != 0 || (alignment & (alignment - 1)) != 0) + return EINVAL; + + mem = __libc_memalign (alignment, size); + + if (mem != NULL) + { + *memptr = mem; + return 0; + } + + return ENOMEM; +} +weak_alias (__posix_memalign, posix_memalign) + +weak_alias (__libc_calloc, __calloc) weak_alias (__libc_calloc, calloc) +weak_alias (__libc_free, __cfree) weak_alias (__libc_free, cfree) +weak_alias (__libc_free, __free) weak_alias (__libc_free, free) +weak_alias (__libc_malloc, __malloc) weak_alias (__libc_malloc, malloc) +weak_alias (__libc_memalign, __memalign) weak_alias (__libc_memalign, memalign) +weak_alias (__libc_realloc, __realloc) weak_alias (__libc_realloc, realloc) +weak_alias (__libc_valloc, __valloc) weak_alias (__libc_valloc, valloc) +weak_alias (__libc_pvalloc, __pvalloc) weak_alias (__libc_pvalloc, pvalloc) +weak_alias (__libc_mallinfo, __mallinfo) weak_alias (__libc_mallinfo, mallinfo) +weak_alias (__libc_mallopt, __mallopt) weak_alias (__libc_mallopt, mallopt) + +weak_alias (__malloc_stats, malloc_stats) +weak_alias (__malloc_usable_size, malloc_usable_size) +weak_alias (__malloc_trim, malloc_trim) +weak_alias (__malloc_get_state, malloc_get_state) +weak_alias (__malloc_set_state, malloc_set_state) +#endif + +/* + +History: + + V2.6.4-pt3 Thu Feb 20 1997 Wolfram Gloger (wmglo@dent.med.uni-muenchen.de) + * Added malloc_get/set_state() (mainly for use in GNU emacs), + using interface from Marcus Daniels + * All parameters are now adjustable via environment variables + + V2.6.4-pt2 Sat Dec 14 1996 Wolfram Gloger (wmglo@dent.med.uni-muenchen.de) + * Added debugging hooks + * Fixed possible deadlock in realloc() when out of memory + * Don't pollute namespace in glibc: use __getpagesize, __mmap, etc. + + V2.6.4-pt Wed Dec 4 1996 Wolfram Gloger (wmglo@dent.med.uni-muenchen.de) + * Very minor updates from the released 2.6.4 version. + * Trimmed include file down to exported data structures. + * Changes from H.J. Lu for glibc-2.0. + + V2.6.3i-pt Sep 16 1996 Wolfram Gloger (wmglo@dent.med.uni-muenchen.de) + * Many changes for multiple threads + * Introduced arenas and heaps + + V2.6.3 Sun May 19 08:17:58 1996 Doug Lea (dl at gee) + * Added pvalloc, as recommended by H.J. Liu + * Added 64bit pointer support mainly from Wolfram Gloger + * Added anonymously donated WIN32 sbrk emulation + * Malloc, calloc, getpagesize: add optimizations from Raymond Nijssen + * malloc_extend_top: fix mask error that caused wastage after + foreign sbrks + * Add linux mremap support code from HJ Liu + + V2.6.2 Tue Dec 5 06:52:55 1995 Doug Lea (dl at gee) + * Integrated most documentation with the code. + * Add support for mmap, with help from + Wolfram Gloger (Gloger@lrz.uni-muenchen.de). + * Use last_remainder in more cases. + * Pack bins using idea from colin@nyx10.cs.du.edu + * Use ordered bins instead of best-fit threshold + * Eliminate block-local decls to simplify tracing and debugging. + * Support another case of realloc via move into top + * Fix error occurring when initial sbrk_base not word-aligned. + * Rely on page size for units instead of SBRK_UNIT to + avoid surprises about sbrk alignment conventions. + * Add mallinfo, mallopt. Thanks to Raymond Nijssen + (raymond@es.ele.tue.nl) for the suggestion. + * Add `pad' argument to malloc_trim and top_pad mallopt parameter. + * More precautions for cases where other routines call sbrk, + courtesy of Wolfram Gloger (Gloger@lrz.uni-muenchen.de). + * Added macros etc., allowing use in linux libc from + H.J. Lu (hjl@gnu.ai.mit.edu) + * Inverted this history list + + V2.6.1 Sat Dec 2 14:10:57 1995 Doug Lea (dl at gee) + * Re-tuned and fixed to behave more nicely with V2.6.0 changes. + * Removed all preallocation code since under current scheme + the work required to undo bad preallocations exceeds + the work saved in good cases for most test programs. + * No longer use return list or unconsolidated bins since + no scheme using them consistently outperforms those that don't + given above changes. + * Use best fit for very large chunks to prevent some worst-cases. + * Added some support for debugging + + V2.6.0 Sat Nov 4 07:05:23 1995 Doug Lea (dl at gee) + * Removed footers when chunks are in use. Thanks to + Paul Wilson (wilson@cs.texas.edu) for the suggestion. + + V2.5.4 Wed Nov 1 07:54:51 1995 Doug Lea (dl at gee) + * Added malloc_trim, with help from Wolfram Gloger + (wmglo@Dent.MED.Uni-Muenchen.DE). + + V2.5.3 Tue Apr 26 10:16:01 1994 Doug Lea (dl at g) + + V2.5.2 Tue Apr 5 16:20:40 1994 Doug Lea (dl at g) + * realloc: try to expand in both directions + * malloc: swap order of clean-bin strategy; + * realloc: only conditionally expand backwards + * Try not to scavenge used bins + * Use bin counts as a guide to preallocation + * Occasionally bin return list chunks in first scan + * Add a few optimizations from colin@nyx10.cs.du.edu + + V2.5.1 Sat Aug 14 15:40:43 1993 Doug Lea (dl at g) + * faster bin computation & slightly different binning + * merged all consolidations to one part of malloc proper + (eliminating old malloc_find_space & malloc_clean_bin) + * Scan 2 returns chunks (not just 1) + * Propagate failure in realloc if malloc returns 0 + * Add stuff to allow compilation on non-ANSI compilers + from kpv@research.att.com + + V2.5 Sat Aug 7 07:41:59 1993 Doug Lea (dl at g.oswego.edu) + * removed potential for odd address access in prev_chunk + * removed dependency on getpagesize.h + * misc cosmetics and a bit more internal documentation + * anticosmetics: mangled names in macros to evade debugger strangeness + * tested on sparc, hp-700, dec-mips, rs6000 + with gcc & native cc (hp, dec only) allowing + Detlefs & Zorn comparison study (in SIGPLAN Notices.) + + Trial version Fri Aug 28 13:14:29 1992 Doug Lea (dl at g.oswego.edu) + * Based loosely on libg++-1.2X malloc. (It retains some of the overall + structure of old version, but most details differ.) + +*/ diff --git a/newlib/libc/sys/linux/mallocr.c b/newlib/libc/sys/linux/mallocr.c new file mode 100644 index 000000000..b5129a5e1 --- /dev/null +++ b/newlib/libc/sys/linux/mallocr.c @@ -0,0 +1,7 @@ +#include + +void * +_malloc_r (struct _reent *ptr, size_t size) +{ + return malloc (size); +} diff --git a/newlib/libc/sys/linux/malloptr.c b/newlib/libc/sys/linux/malloptr.c new file mode 100644 index 000000000..13d4e9f6a --- /dev/null +++ b/newlib/libc/sys/linux/malloptr.c @@ -0,0 +1,7 @@ +#include + +int +_mallopt_r (struct _reent *ptr, int param_number, int value) +{ + return mallopt (param_number, value); +} diff --git a/newlib/libc/sys/linux/mallstatsr.c b/newlib/libc/sys/linux/mallstatsr.c new file mode 100644 index 000000000..8a1f64211 --- /dev/null +++ b/newlib/libc/sys/linux/mallstatsr.c @@ -0,0 +1,7 @@ +#include + +void +_malloc_stats_r (struct _reent *ptr) +{ + malloc_stats (); +} diff --git a/newlib/libc/sys/linux/mcheck.c b/newlib/libc/sys/linux/mcheck.c new file mode 100644 index 000000000..9e42dccad --- /dev/null +++ b/newlib/libc/sys/linux/mcheck.c @@ -0,0 +1,356 @@ +/* Standard debugging hooks for `malloc'. + Copyright (C) 1990-1997, 1999, 2000, 2001 Free Software Foundation, Inc. + This file is part of the GNU C Library. + Written May 1989 by Mike Haertel. + + The GNU C Library is free software; you can redistribute it and/or + modify it under the terms of the GNU Lesser General Public + License as published by the Free Software Foundation; either + version 2.1 of the License, or (at your option) any later version. + + The GNU C Library 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 + Lesser General Public License for more details. + + You should have received a copy of the GNU Lesser General Public + License along with the GNU C Library; if not, write to the Free + Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA + 02111-1307 USA. */ + +/* Modified for newlib, July 9, 2002 by Jeff Johnston */ + +#ifndef _MALLOC_INTERNAL +# define _MALLOC_INTERNAL +# include +# include +# include +# include +# include +# include +# include +#endif + +/* Old hook values. */ +static void (*old_free_hook) __P ((__ptr_t ptr, __const __ptr_t)); +static __ptr_t (*old_malloc_hook) __P ((__malloc_size_t size, const __ptr_t)); +static __ptr_t (*old_realloc_hook) __P ((__ptr_t ptr, __malloc_size_t size, + __const __ptr_t)); + +/* Function to call when something awful happens. */ +static void (*abortfunc) __P ((enum mcheck_status)); + +/* Arbitrary magical numbers. */ +#define MAGICWORD 0xfedabeeb +#define MAGICFREE 0xd8675309 +#define MAGICBYTE ((char) 0xd7) +#define MALLOCFLOOD ((char) 0x93) +#define FREEFLOOD ((char) 0x95) + +struct hdr + { + __malloc_size_t size; /* Exact size requested by user. */ + unsigned long int magic; /* Magic number to check header integrity. */ + struct hdr *prev; + struct hdr *next; + }; + +/* This is the beginning of the list of all memory blocks allocated. + It is only constructed if the pedantic testing is requested. */ +static struct hdr *root; + +static int mcheck_used; + +/* Nonzero if pedentic checking of all blocks is requested. */ +static int pedantic; + +#if defined _LIBC || defined STDC_HEADERS || defined USG +# include +# define flood memset +#else +static void flood __P ((__ptr_t, int, __malloc_size_t)); +static void +flood (ptr, val, size) + __ptr_t ptr; + int val; + __malloc_size_t size; +{ + char *cp = ptr; + while (size--) + *cp++ = val; +} +#endif + +static enum mcheck_status checkhdr __P ((const struct hdr *)); +static enum mcheck_status +checkhdr (hdr) + const struct hdr *hdr; +{ + enum mcheck_status status; + + if (!mcheck_used) + /* Maybe the mcheck used is disabled? This happens when we find + an error and report it. */ + return MCHECK_OK; + + switch (hdr->magic ^ ((uintptr_t) hdr->prev + (uintptr_t) hdr->next)) + { + default: + status = MCHECK_HEAD; + break; + case MAGICFREE: + status = MCHECK_FREE; + break; + case MAGICWORD: + if (((char *) &hdr[1])[hdr->size] != MAGICBYTE) + status = MCHECK_TAIL; + else + status = MCHECK_OK; + break; + } + if (status != MCHECK_OK) + { + mcheck_used = 0; + (*abortfunc) (status); + mcheck_used = 1; + } + return status; +} + +void +mcheck_check_all () +{ + /* Walk through all the active blocks and test whether they were tempered + with. */ + struct hdr *runp = root; + + /* Temporarily turn off the checks. */ + pedantic = 0; + + while (runp != NULL) + { + (void) checkhdr (runp); + + runp = runp->next; + } + + /* Turn checks on again. */ + pedantic = 1; +} + +static void unlink_blk __P ((struct hdr *ptr)); +static void +unlink_blk (ptr) + struct hdr *ptr; +{ + if (ptr->next != NULL) + { + ptr->next->prev = ptr->prev; + ptr->next->magic = MAGICWORD ^ ((uintptr_t) ptr->next->prev + + (uintptr_t) ptr->next->next); + } + if (ptr->prev != NULL) + { + ptr->prev->next = ptr->next; + ptr->prev->magic = MAGICWORD ^ ((uintptr_t) ptr->prev->prev + + (uintptr_t) ptr->prev->next); + } + else + root = ptr->next; +} + +static void link_blk __P ((struct hdr *ptr)); +static void +link_blk (hdr) + struct hdr *hdr; +{ + hdr->prev = NULL; + hdr->next = root; + root = hdr; + hdr->magic = MAGICWORD ^ (uintptr_t) hdr->next; + + /* And the next block. */ + if (hdr->next != NULL) + { + hdr->next->prev = hdr; + hdr->next->magic = MAGICWORD ^ ((uintptr_t) hdr + + (uintptr_t) hdr->next->next); + } +} + +static void freehook __P ((__ptr_t, const __ptr_t)); +static void +freehook (ptr, caller) + __ptr_t ptr; + const __ptr_t caller; +{ + if (pedantic) + mcheck_check_all (); + if (ptr) + { + struct hdr *hdr = ((struct hdr *) ptr) - 1; + checkhdr (hdr); + hdr->magic = MAGICFREE; + unlink_blk (hdr); + hdr->prev = hdr->next = NULL; + flood (ptr, FREEFLOOD, hdr->size); + ptr = (__ptr_t) hdr; + } + __free_hook = old_free_hook; + if (old_free_hook != NULL) + (*old_free_hook) (ptr, caller); + else + free (ptr); + __free_hook = freehook; +} + +static __ptr_t mallochook __P ((__malloc_size_t, const __ptr_t)); +static __ptr_t +mallochook (size, caller) + __malloc_size_t size; + const __ptr_t caller; +{ + struct hdr *hdr; + + if (pedantic) + mcheck_check_all (); + + __malloc_hook = old_malloc_hook; + if (old_malloc_hook != NULL) + hdr = (struct hdr *) (*old_malloc_hook) (sizeof (struct hdr) + size + 1, + caller); + else + hdr = (struct hdr *) malloc (sizeof (struct hdr) + size + 1); + __malloc_hook = mallochook; + if (hdr == NULL) + return NULL; + + hdr->size = size; + link_blk (hdr); + ((char *) &hdr[1])[size] = MAGICBYTE; + flood ((__ptr_t) (hdr + 1), MALLOCFLOOD, size); + return (__ptr_t) (hdr + 1); +} + +static __ptr_t reallochook __P ((__ptr_t, __malloc_size_t, const __ptr_t)); +static __ptr_t +reallochook (ptr, size, caller) + __ptr_t ptr; + __malloc_size_t size; + const __ptr_t caller; +{ + struct hdr *hdr; + __malloc_size_t osize; + + if (pedantic) + mcheck_check_all (); + + if (ptr) + { + hdr = ((struct hdr *) ptr) - 1; + osize = hdr->size; + + checkhdr (hdr); + unlink_blk (hdr); + if (size < osize) + flood ((char *) ptr + size, FREEFLOOD, osize - size); + } + else + { + osize = 0; + hdr = NULL; + } + __free_hook = old_free_hook; + __malloc_hook = old_malloc_hook; + __realloc_hook = old_realloc_hook; + if (old_realloc_hook != NULL) + hdr = (struct hdr *) (*old_realloc_hook) ((__ptr_t) hdr, + sizeof (struct hdr) + size + 1, + caller); + else + hdr = (struct hdr *) realloc ((__ptr_t) hdr, + sizeof (struct hdr) + size + 1); + __free_hook = freehook; + __malloc_hook = mallochook; + __realloc_hook = reallochook; + if (hdr == NULL) + return NULL; + + hdr->size = size; + link_blk (hdr); + ((char *) &hdr[1])[size] = MAGICBYTE; + if (size > osize) + flood ((char *) (hdr + 1) + osize, MALLOCFLOOD, size - osize); + return (__ptr_t) (hdr + 1); +} + +static void mabort __P ((enum mcheck_status status)) + __attribute__ ((noreturn)); +static void +mabort (status) + enum mcheck_status status; +{ + const char *msg; + switch (status) + { + case MCHECK_OK: + msg = _("memory is consistent, library is buggy\n"); + break; + case MCHECK_HEAD: + msg = _("memory clobbered before allocated block\n"); + break; + case MCHECK_TAIL: + msg = _("memory clobbered past end of allocated block\n"); + break; + case MCHECK_FREE: + msg = _("block freed twice\n"); + break; + default: + msg = _("bogus mcheck_status, library is buggy\n"); + break; + } + fprintf (stderr, "mcheck: %s", msg); + fflush (stderr); + abort (); +} + +int +mcheck (func) + void (*func) __P ((enum mcheck_status)); +{ + abortfunc = (func != NULL) ? func : &mabort; + + /* These hooks may not be safely inserted if malloc is already in use. */ + if (__malloc_initialized <= 0 && !mcheck_used) + { + /* We call malloc() once here to ensure it is initialized. */ + void *p = malloc (0); + free (p); + + old_free_hook = __free_hook; + __free_hook = freehook; + old_malloc_hook = __malloc_hook; + __malloc_hook = mallochook; + old_realloc_hook = __realloc_hook; + __realloc_hook = reallochook; + mcheck_used = 1; + } + + return mcheck_used ? 0 : -1; +} + +int +mcheck_pedantic (func) + void (*func) __P ((enum mcheck_status)); +{ + int res = mcheck (func); + if (res == 0) + pedantic = 1; + return res; +} + +enum mcheck_status +mprobe (__ptr_t ptr) +{ + return mcheck_used ? checkhdr (((struct hdr *) ptr) - 1) : MCHECK_DISABLED; +} diff --git a/newlib/libc/sys/linux/mhooks.h b/newlib/libc/sys/linux/mhooks.h new file mode 100644 index 000000000..4a2e60656 --- /dev/null +++ b/newlib/libc/sys/linux/mhooks.h @@ -0,0 +1,12 @@ + +/* Functions used by mcheck/mprobe */ +extern void (*__malloc_initialize_hook) (void); +extern void (*__free_hook) (void * __ptr, const void *); +extern void * (*__malloc_hook) (size_t __size, const void *); +extern void * (*__realloc_hook) (void * __ptr, size_t __size, const void *); +extern void * (*__memalign_hook) (size_t __alignment, size_t __size, + const void *); +extern void (*__after_morecore_hook) (void); +extern void __malloc_check_init (void); + +extern int __malloc_initialized; diff --git a/newlib/libc/sys/linux/mmap.c b/newlib/libc/sys/linux/mmap.c index d7dbeb842..6af2b851d 100644 --- a/newlib/libc/sys/linux/mmap.c +++ b/newlib/libc/sys/linux/mmap.c @@ -14,3 +14,7 @@ _syscall2(int,munlock,const void *,addr,size_t,len); _syscall3(int,mprotect,void *,addr,size_t,len,int,prot); _syscall3(int,msync,void *,addr,size_t,len,int,flags); _syscall4(void *,mremap,void *,addr,size_t,oldlen,size_t,newlen,int,maymove); + +weak_alias(__libc_mmap,__mmap) +weak_alias(__libc_munmap,__munmap) +weak_alias(__libc_mremap,__mremap) diff --git a/newlib/libc/sys/linux/mq_close.c b/newlib/libc/sys/linux/mq_close.c index f80744327..884c30f64 100644 --- a/newlib/libc/sys/linux/mq_close.c +++ b/newlib/libc/sys/linux/mq_close.c @@ -3,7 +3,7 @@ #include #include #include -#define _LIBC +#define _LIBC 1 #include #undef _LIBC diff --git a/newlib/libc/sys/linux/mq_getattr.c b/newlib/libc/sys/linux/mq_getattr.c index b82906013..65813f3b3 100644 --- a/newlib/libc/sys/linux/mq_getattr.c +++ b/newlib/libc/sys/linux/mq_getattr.c @@ -4,7 +4,7 @@ #include #include #include -#define _LIBC +#define _LIBC 1 #include #undef _LIBC diff --git a/newlib/libc/sys/linux/mq_open.c b/newlib/libc/sys/linux/mq_open.c index b8da2144d..744cb9eaa 100644 --- a/newlib/libc/sys/linux/mq_open.c +++ b/newlib/libc/sys/linux/mq_open.c @@ -13,7 +13,7 @@ #include #include #include -#define _LIBC +#define _LIBC 1 #include #undef _LIBC diff --git a/newlib/libc/sys/linux/mq_receive.c b/newlib/libc/sys/linux/mq_receive.c index 1aa7b9fb3..4dae0810b 100644 --- a/newlib/libc/sys/linux/mq_receive.c +++ b/newlib/libc/sys/linux/mq_receive.c @@ -6,7 +6,7 @@ #include #include #include -#define _LIBC +#define _LIBC 1 #include #undef _LIBC diff --git a/newlib/libc/sys/linux/mq_send.c b/newlib/libc/sys/linux/mq_send.c index 92710c2f2..d3291fd2e 100644 --- a/newlib/libc/sys/linux/mq_send.c +++ b/newlib/libc/sys/linux/mq_send.c @@ -7,7 +7,7 @@ #include #include #include -#define _LIBC +#define _LIBC 1 #include #undef _LIBC diff --git a/newlib/libc/sys/linux/mq_setattr.c b/newlib/libc/sys/linux/mq_setattr.c index ecc32e931..69f6cd598 100644 --- a/newlib/libc/sys/linux/mq_setattr.c +++ b/newlib/libc/sys/linux/mq_setattr.c @@ -4,7 +4,7 @@ #include #include #include -#define _LIBC +#define _LIBC 1 #include #undef _LIBC diff --git a/newlib/libc/sys/linux/mq_unlink.c b/newlib/libc/sys/linux/mq_unlink.c index 93902cd59..ce7bd0e01 100644 --- a/newlib/libc/sys/linux/mq_unlink.c +++ b/newlib/libc/sys/linux/mq_unlink.c @@ -10,7 +10,7 @@ #include #include #include -#define _LIBC +#define _LIBC 1 #include #undef _LIBC diff --git a/newlib/libc/sys/linux/msize.c b/newlib/libc/sys/linux/msize.c new file mode 100644 index 000000000..818e05a75 --- /dev/null +++ b/newlib/libc/sys/linux/msize.c @@ -0,0 +1 @@ +/* dummy file to override one object in stdlib directory */ diff --git a/newlib/libc/sys/linux/msizer.c b/newlib/libc/sys/linux/msizer.c new file mode 100644 index 000000000..7b7905389 --- /dev/null +++ b/newlib/libc/sys/linux/msizer.c @@ -0,0 +1,7 @@ +#include + +size_t +_malloc_usable_size_r (struct _reent *ptr, void *mem) +{ + return malloc_usable_size (mem); +} diff --git a/newlib/libc/sys/linux/mstats.c b/newlib/libc/sys/linux/mstats.c new file mode 100644 index 000000000..818e05a75 --- /dev/null +++ b/newlib/libc/sys/linux/mstats.c @@ -0,0 +1 @@ +/* dummy file to override one object in stdlib directory */ diff --git a/newlib/libc/sys/linux/mtrim.c b/newlib/libc/sys/linux/mtrim.c new file mode 100644 index 000000000..818e05a75 --- /dev/null +++ b/newlib/libc/sys/linux/mtrim.c @@ -0,0 +1 @@ +/* dummy file to override one object in stdlib directory */ diff --git a/newlib/libc/sys/linux/mtrimr.c b/newlib/libc/sys/linux/mtrimr.c new file mode 100644 index 000000000..3b2fbf367 --- /dev/null +++ b/newlib/libc/sys/linux/mtrimr.c @@ -0,0 +1,7 @@ +#include + +void * +_malloc_trim_r (struct _reent *ptr, size_t pad) +{ + return 0; +} diff --git a/newlib/libc/sys/linux/pvallocr.c b/newlib/libc/sys/linux/pvallocr.c new file mode 100644 index 000000000..716ea0c12 --- /dev/null +++ b/newlib/libc/sys/linux/pvallocr.c @@ -0,0 +1,7 @@ +#include + +void * +_pvalloc_r (struct _reent *ptr, size_t bytes) +{ + return pvalloc (bytes); +} diff --git a/newlib/libc/sys/linux/realloc.c b/newlib/libc/sys/linux/realloc.c new file mode 100644 index 000000000..818e05a75 --- /dev/null +++ b/newlib/libc/sys/linux/realloc.c @@ -0,0 +1 @@ +/* dummy file to override one object in stdlib directory */ diff --git a/newlib/libc/sys/linux/reallocr.c b/newlib/libc/sys/linux/reallocr.c new file mode 100644 index 000000000..873c1b0e5 --- /dev/null +++ b/newlib/libc/sys/linux/reallocr.c @@ -0,0 +1,7 @@ +#include + +void * +_realloc_r (struct _reent *ptr, void *old, size_t newlen) +{ + return realloc (old, newlen); +} diff --git a/newlib/libc/sys/linux/sys/dirent.h b/newlib/libc/sys/linux/sys/dirent.h index 79949cb0b..f9b6fec7a 100644 --- a/newlib/libc/sys/linux/sys/dirent.h +++ b/newlib/libc/sys/linux/sys/dirent.h @@ -8,7 +8,7 @@ #include #include -#define _LIBC +#define _LIBC 1 #include #undef _LIBC diff --git a/newlib/libc/sys/linux/sys/types.h b/newlib/libc/sys/linux/sys/types.h index ec1761f42..99887eb70 100644 --- a/newlib/libc/sys/linux/sys/types.h +++ b/newlib/libc/sys/linux/sys/types.h @@ -147,4 +147,36 @@ typedef long fd_mask; typedef __uint32_t uintptr_t; typedef __int32_t intptr_t; +#if !defined(_ANSI_SOURCE) && !defined(_POSIX_SOURCE) +typedef struct _physadr { + int r[1]; +} *physadr; + +typedef struct label_t { + int val[6]; +} label_t; +#endif + +typedef unsigned int vm_offset_t; +typedef __int64_t vm_ooffset_t; +typedef unsigned int vm_pindex_t; +typedef unsigned int vm_size_t; + +typedef __int32_t register_t; +typedef __uint32_t u_register_t; + +#ifdef _KERNEL +typedef int intfptr_t; +typedef unsigned int uintfptr_t; +#endif + +/* Critical section value */ +typedef register_t critical_t; + +/* Interrupt mask (spl, xxx_imask, etc) */ +typedef __uint32_t intrmask_t; + +/* Interrupt handler function type. */ +typedef void ointhand2_t(int _device_id); + #endif diff --git a/newlib/libc/sys/linux/thread-m.h b/newlib/libc/sys/linux/thread-m.h new file mode 100644 index 000000000..2cdacab19 --- /dev/null +++ b/newlib/libc/sys/linux/thread-m.h @@ -0,0 +1,241 @@ +/* Basic platform-independent macro definitions for mutexes and + thread-specific data. + Copyright (C) 1996, 1997, 1998, 2000 Free Software Foundation, Inc. + This file is part of the GNU C Library. + Contributed by Wolfram Gloger , 1996. + + The GNU C Library is free software; you can redistribute it and/or + modify it under the terms of the GNU Lesser General Public + License as published by the Free Software Foundation; either + version 2.1 of the License, or (at your option) any later version. + + The GNU C Library 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 + Lesser General Public License for more details. + + You should have received a copy of the GNU Lesser General Public + License along with the GNU C Library; if not, write to the Free + Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA + 02111-1307 USA. */ + +/* $Id$ + One out of _LIBC, USE_PTHREADS, USE_THR or USE_SPROC should be + defined, otherwise the token NO_THREADS and dummy implementations + of the macros will be defined. */ + +#ifndef _THREAD_M_H +#define _THREAD_M_H + +#undef thread_atfork_static + +#if defined(_LIBC) /* The GNU C library, a special case of Posix threads */ + +#include + +#ifdef PTHREAD_MUTEX_INITIALIZER + +typedef pthread_t thread_id; + +/* mutex */ +typedef pthread_mutex_t mutex_t; + +#define MUTEX_INITIALIZER PTHREAD_MUTEX_INITIALIZER + +/* Even if not linking with libpthread, ensure usability of mutex as + an `in use' flag, see also the NO_THREADS case below. Assume + pthread_mutex_t is at least one int wide. */ + +#define mutex_init(m) \ + (__pthread_mutex_init != NULL \ + ? __pthread_mutex_init (m, NULL) : (*(int *)(m) = 0)) +#define mutex_lock(m) \ + (__pthread_mutex_lock != NULL \ + ? __pthread_mutex_lock (m) : ((*(int *)(m) = 1), 0)) +#define mutex_trylock(m) \ + (__pthread_mutex_trylock != NULL \ + ? __pthread_mutex_trylock (m) : (*(int *)(m) ? 1 : ((*(int *)(m) = 1), 0))) +#define mutex_unlock(m) \ + (__pthread_mutex_unlock != NULL \ + ? __pthread_mutex_unlock (m) : (*(int*)(m) = 0)) + +#define thread_atfork(prepare, parent, child) \ + (__pthread_atfork != NULL ? __pthread_atfork(prepare, parent, child) : 0) + +#elif defined(MUTEX_INITIALIZER) +/* Assume hurd, with cthreads */ + +/* Cthreads `mutex_t' is a pointer to a mutex, and malloc wants just the + mutex itself. */ +#undef mutex_t +#define mutex_t struct mutex + +#undef mutex_init +#define mutex_init(m) (__mutex_init(m), 0) + +#undef mutex_lock +#define mutex_lock(m) (__mutex_lock(m), 0) + +#undef mutex_unlock +#define mutex_unlock(m) (__mutex_unlock(m), 0) + +#define mutex_trylock(m) (!__mutex_trylock(m)) + +#define thread_atfork(prepare, parent, child) do {} while(0) +#define thread_atfork_static(prepare, parent, child) \ + text_set_element(_hurd_fork_prepare_hook, prepare); \ + text_set_element(_hurd_fork_parent_hook, parent); \ + text_set_element(_hurd_fork_child_hook, child); + +/* No we're *not* using pthreads. */ +#define __pthread_initialize ((void (*)(void))0) + +#else + +#define NO_THREADS + +#endif /* MUTEX_INITIALIZER && PTHREAD_MUTEX_INITIALIZER */ + +#ifndef NO_THREADS + +/* thread specific data for glibc */ + +#include + +typedef int tsd_key_t[1]; /* no key data structure, libc magic does it */ +__libc_tsd_define (, MALLOC) /* declaration/common definition */ +#define tsd_key_create(key, destr) ((void) (key)) +#define tsd_setspecific(key, data) __libc_tsd_set (MALLOC, (data)) +#define tsd_getspecific(key, vptr) ((vptr) = __libc_tsd_get (MALLOC)) + +#endif + +#elif defined(USE_PTHREADS) /* Posix threads */ + +#include + +typedef pthread_t thread_id; + +/* mutex */ +typedef pthread_mutex_t mutex_t; + +#define MUTEX_INITIALIZER PTHREAD_MUTEX_INITIALIZER +#define mutex_init(m) pthread_mutex_init(m, NULL) +#define mutex_lock(m) pthread_mutex_lock(m) +#define mutex_trylock(m) pthread_mutex_trylock(m) +#define mutex_unlock(m) pthread_mutex_unlock(m) + +/* thread specific data */ +#if defined(__sgi) || defined(USE_TSD_DATA_HACK) + +/* Hack for thread-specific data, e.g. on Irix 6.x. We can't use + pthread_setspecific because that function calls malloc() itself. + The hack only works when pthread_t can be converted to an integral + type. */ + +typedef void *tsd_key_t[256]; +#define tsd_key_create(key, destr) do { \ + int i; \ + for(i=0; i<256; i++) (*key)[i] = 0; \ +} while(0) +#define tsd_setspecific(key, data) \ + (key[(unsigned)pthread_self() % 256] = (data)) +#define tsd_getspecific(key, vptr) \ + (vptr = key[(unsigned)pthread_self() % 256]) + +#else + +typedef pthread_key_t tsd_key_t; + +#define tsd_key_create(key, destr) pthread_key_create(key, destr) +#define tsd_setspecific(key, data) pthread_setspecific(key, data) +#define tsd_getspecific(key, vptr) (vptr = pthread_getspecific(key)) + +#endif + +/* at fork */ +#define thread_atfork(prepare, parent, child) \ + pthread_atfork(prepare, parent, child) + +#elif USE_THR /* Solaris threads */ + +#include + +typedef thread_t thread_id; + +#define MUTEX_INITIALIZER { 0 } +#define mutex_init(m) mutex_init(m, USYNC_THREAD, NULL) + +/* + * Hack for thread-specific data on Solaris. We can't use thr_setspecific + * because that function calls malloc() itself. + */ +typedef void *tsd_key_t[256]; +#define tsd_key_create(key, destr) do { \ + int i; \ + for(i=0; i<256; i++) (*key)[i] = 0; \ +} while(0) +#define tsd_setspecific(key, data) (key[(unsigned)thr_self() % 256] = (data)) +#define tsd_getspecific(key, vptr) (vptr = key[(unsigned)thr_self() % 256]) + +#define thread_atfork(prepare, parent, child) do {} while(0) + +#elif USE_SPROC /* SGI sproc() threads */ + +#include +#include +#include +#include + +typedef int thread_id; + +typedef abilock_t mutex_t; + +#define MUTEX_INITIALIZER { 0 } +#define mutex_init(m) init_lock(m) +#define mutex_lock(m) (spin_lock(m), 0) +#define mutex_trylock(m) acquire_lock(m) +#define mutex_unlock(m) release_lock(m) + +typedef int tsd_key_t; +int tsd_key_next; +#define tsd_key_create(key, destr) ((*key) = tsd_key_next++) +#define tsd_setspecific(key, data) (((void **)(&PRDA->usr_prda))[key] = data) +#define tsd_getspecific(key, vptr) (vptr = ((void **)(&PRDA->usr_prda))[key]) + +#define thread_atfork(prepare, parent, child) do {} while(0) + +#else /* no _LIBC or USE_... are defined */ + +#define NO_THREADS + +#endif /* defined(_LIBC) */ + +#ifdef NO_THREADS /* No threads, provide dummy macros */ + +typedef int thread_id; + +/* The mutex functions used to do absolutely nothing, i.e. lock, + trylock and unlock would always just return 0. However, even + without any concurrently active threads, a mutex can be used + legitimately as an `in use' flag. To make the code that is + protected by a mutex async-signal safe, these macros would have to + be based on atomic test-and-set operations, for example. */ +typedef int mutex_t; + +#define MUTEX_INITIALIZER 0 +#define mutex_init(m) (*(m) = 0) +#define mutex_lock(m) ((*(m) = 1), 0) +#define mutex_trylock(m) (*(m) ? 1 : ((*(m) = 1), 0)) +#define mutex_unlock(m) (*(m) = 0) + +typedef void *tsd_key_t; +#define tsd_key_create(key, destr) do {} while(0) +#define tsd_setspecific(key, data) ((key) = (data)) +#define tsd_getspecific(key, vptr) (vptr = (key)) + +#define thread_atfork(prepare, parent, child) do {} while(0) + +#endif /* defined(NO_THREADS) */ + +#endif /* !defined(_THREAD_M_H) */ diff --git a/newlib/libc/sys/linux/vallocr.c b/newlib/libc/sys/linux/vallocr.c new file mode 100644 index 000000000..8de7ffc21 --- /dev/null +++ b/newlib/libc/sys/linux/vallocr.c @@ -0,0 +1,7 @@ +#include + +void * +_valloc_r (struct _reent *ptr, size_t bytes) +{ + return valloc (bytes); +} -- cgit v1.2.3