ruby/mjit.c

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mjit.c: merge MJIT infrastructure that allows to JIT-compile Ruby methods by generating C code and using C compiler. See the first comment of mjit.c to know what this file does. mjit.c is authored by Vladimir Makarov <vmakarov@redhat.com>. After he invented great method JIT infrastructure for MRI as MJIT, Lars Kanis <lars@greiz-reinsdorf.de> sent the patch to support MinGW in MJIT. In addition to merging it, I ported pthread to Windows native threads. Now this MJIT infrastructure can be compiled on Visual Studio. This commit simplifies mjit.c to decrease code at initial merge. For example, this commit does not provide multiple JIT threads support. We can resurrect them later if we really want them, but I wanted to minimize diff to make it easier to review this patch. `/tmp/_mjitXXX` file is renamed to `/tmp/_ruby_mjitXXX` because non-Ruby developers may not know the name "mjit" and the file name should make sure it's from Ruby and not from some harmful programs. TODO: it may be better to store this to some temporary directory which Ruby is already using by Tempfile, if it's not bad for performance. mjit.h: New. It has `mjit_exec` interface similar to `vm_exec`, which is for triggering MJIT. This drops interface for AOT compared to the original MJIT. Makefile.in: define macros to let MJIT know the path of MJIT header. Probably we can refactor this to reduce the number of macros (TODO). win32/Makefile.sub: ditto. common.mk: compile mjit.o and mjit_compile.o. Unlike original MJIT, this commit separates MJIT infrastructure and JIT compiler code as independent object files. As initial patch is NOT going to have ultra-fast JIT compiler, it's likely to replace JIT compiler, e.g. original MJIT's compiler or some future JIT impelementations which are not public now. inits.c: define MJIT module. This is added because `MJIT.enabled?` was necessary for testing. test/lib/zombie_hunter.rb: skip if `MJIT.enabled?`. Obviously this wouldn't work with current code when JIT is enabled. test/ruby/test_io.rb: skip this too. This would make no sense with MJIT. ruby.c: define MJIT CLI options. As major difference from original MJIT, "-j:l"/"--jit:llvm" are renamed to "--jit-cc" because I want to support not only gcc/clang but also cl.exe (Visual Studio) in the future. But it takes only "--jit-cc=gcc", "--jit-cc=clang" for now. And only long "--jit" options are allowed since some Ruby committers preferred it at Ruby developers Meeting on January, and some of options are renamed. This file also triggers to initialize MJIT thread and variables. eval.c: finalize MJIT worker thread and variables. test/ruby/test_rubyoptions.rb: fix number of CLI options for --jit. thread_pthread.c: change for pthread abstraction in MJIT. Prefix rb_ for functions which are used by other files. thread_win32.c: ditto, for Windows. Those pthread porting is one of major works that YARV-MJIT created, which is my fork of MJIT, in Feature 14235. thread.c: follow rb_ prefix changes vm.c: trigger MJIT call on VM invocation. Also trigger `mjit_mark` to avoid SEGV by race between JIT and GC of ISeq. The improvement was provided by wanabe <s.wanabe@gmail.com>. In JIT compiler I created and am going to add in my next commit, I found that having `mjit_exec` after `vm_loop_start:` is harmful because the JIT-ed function doesn't proceed other ISeqs on RESTORE_REGS of leave insn. Executing non-FINISH frame is unexpected for my JIT compiler and `exception_handler` triggers executions of such ISeqs. So `mjit_exec` here should be executed only when it directly comes from `vm_exec` call. `RubyVM::MJIT` module and `.enabled?` method is added so that we can skip some tests which don't expect JIT threads or compiler file descriptors. vm_insnhelper.h: trigger MJIT on method calls during VM execution. vm_core.h: add fields required for mjit.c. `bp` must be `cfp[6]` because rb_control_frame_struct is likely to be casted to another struct. The last position is the safest place to add the new field. vm_insnhelper.c: save initial value of cfp->ep as cfp->bp. This is an optimization which are done in both MJIT and YARV-MJIT. So this change is added in this commit. Calculating bp from ep is a little heavy work, so bp is kind of cache for it. iseq.c: notify ISeq GC to MJIT. We should know which iseq in MJIT queue is GCed to avoid SEGV. TODO: unload some GCed units in some safe way. gc.c: add hooks so that MJIT can wait GC, and vice versa. Simultaneous JIT and GC executions may cause SEGV and so we should synchronize them. cont.c: save continuation information in MJIT worker. As MJIT shouldn't unload JIT-ed code which is being used, MJIT wants to know full list of saved execution contexts for continuation and detect ISeqs in use. mjit_compile.c: added empty JIT compiler so that you can reuse this commit to build your own JIT compiler. This commit tries to compile ISeqs but all of them are considered as not supported in this commit. So you can't use JIT compiler in this commit yet while we added --jit option now. Patch author: Vladimir Makarov <vmakarov@redhat.com>. Contributors: Takashi Kokubun <takashikkbn@gmail.com>. wanabe <s.wanabe@gmail.com>. Lars Kanis <lars@greiz-reinsdorf.de>. Part of Feature 12589 and 14235. git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@62189 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
2018-02-04 09:58:09 +03:00
/**********************************************************************
mjit.c - MRI method JIT compiler functions
mjit.c: merge MJIT infrastructure that allows to JIT-compile Ruby methods by generating C code and using C compiler. See the first comment of mjit.c to know what this file does. mjit.c is authored by Vladimir Makarov <vmakarov@redhat.com>. After he invented great method JIT infrastructure for MRI as MJIT, Lars Kanis <lars@greiz-reinsdorf.de> sent the patch to support MinGW in MJIT. In addition to merging it, I ported pthread to Windows native threads. Now this MJIT infrastructure can be compiled on Visual Studio. This commit simplifies mjit.c to decrease code at initial merge. For example, this commit does not provide multiple JIT threads support. We can resurrect them later if we really want them, but I wanted to minimize diff to make it easier to review this patch. `/tmp/_mjitXXX` file is renamed to `/tmp/_ruby_mjitXXX` because non-Ruby developers may not know the name "mjit" and the file name should make sure it's from Ruby and not from some harmful programs. TODO: it may be better to store this to some temporary directory which Ruby is already using by Tempfile, if it's not bad for performance. mjit.h: New. It has `mjit_exec` interface similar to `vm_exec`, which is for triggering MJIT. This drops interface for AOT compared to the original MJIT. Makefile.in: define macros to let MJIT know the path of MJIT header. Probably we can refactor this to reduce the number of macros (TODO). win32/Makefile.sub: ditto. common.mk: compile mjit.o and mjit_compile.o. Unlike original MJIT, this commit separates MJIT infrastructure and JIT compiler code as independent object files. As initial patch is NOT going to have ultra-fast JIT compiler, it's likely to replace JIT compiler, e.g. original MJIT's compiler or some future JIT impelementations which are not public now. inits.c: define MJIT module. This is added because `MJIT.enabled?` was necessary for testing. test/lib/zombie_hunter.rb: skip if `MJIT.enabled?`. Obviously this wouldn't work with current code when JIT is enabled. test/ruby/test_io.rb: skip this too. This would make no sense with MJIT. ruby.c: define MJIT CLI options. As major difference from original MJIT, "-j:l"/"--jit:llvm" are renamed to "--jit-cc" because I want to support not only gcc/clang but also cl.exe (Visual Studio) in the future. But it takes only "--jit-cc=gcc", "--jit-cc=clang" for now. And only long "--jit" options are allowed since some Ruby committers preferred it at Ruby developers Meeting on January, and some of options are renamed. This file also triggers to initialize MJIT thread and variables. eval.c: finalize MJIT worker thread and variables. test/ruby/test_rubyoptions.rb: fix number of CLI options for --jit. thread_pthread.c: change for pthread abstraction in MJIT. Prefix rb_ for functions which are used by other files. thread_win32.c: ditto, for Windows. Those pthread porting is one of major works that YARV-MJIT created, which is my fork of MJIT, in Feature 14235. thread.c: follow rb_ prefix changes vm.c: trigger MJIT call on VM invocation. Also trigger `mjit_mark` to avoid SEGV by race between JIT and GC of ISeq. The improvement was provided by wanabe <s.wanabe@gmail.com>. In JIT compiler I created and am going to add in my next commit, I found that having `mjit_exec` after `vm_loop_start:` is harmful because the JIT-ed function doesn't proceed other ISeqs on RESTORE_REGS of leave insn. Executing non-FINISH frame is unexpected for my JIT compiler and `exception_handler` triggers executions of such ISeqs. So `mjit_exec` here should be executed only when it directly comes from `vm_exec` call. `RubyVM::MJIT` module and `.enabled?` method is added so that we can skip some tests which don't expect JIT threads or compiler file descriptors. vm_insnhelper.h: trigger MJIT on method calls during VM execution. vm_core.h: add fields required for mjit.c. `bp` must be `cfp[6]` because rb_control_frame_struct is likely to be casted to another struct. The last position is the safest place to add the new field. vm_insnhelper.c: save initial value of cfp->ep as cfp->bp. This is an optimization which are done in both MJIT and YARV-MJIT. So this change is added in this commit. Calculating bp from ep is a little heavy work, so bp is kind of cache for it. iseq.c: notify ISeq GC to MJIT. We should know which iseq in MJIT queue is GCed to avoid SEGV. TODO: unload some GCed units in some safe way. gc.c: add hooks so that MJIT can wait GC, and vice versa. Simultaneous JIT and GC executions may cause SEGV and so we should synchronize them. cont.c: save continuation information in MJIT worker. As MJIT shouldn't unload JIT-ed code which is being used, MJIT wants to know full list of saved execution contexts for continuation and detect ISeqs in use. mjit_compile.c: added empty JIT compiler so that you can reuse this commit to build your own JIT compiler. This commit tries to compile ISeqs but all of them are considered as not supported in this commit. So you can't use JIT compiler in this commit yet while we added --jit option now. Patch author: Vladimir Makarov <vmakarov@redhat.com>. Contributors: Takashi Kokubun <takashikkbn@gmail.com>. wanabe <s.wanabe@gmail.com>. Lars Kanis <lars@greiz-reinsdorf.de>. Part of Feature 12589 and 14235. git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@62189 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
2018-02-04 09:58:09 +03:00
Copyright (C) 2017 Vladimir Makarov <vmakarov@redhat.com>.
2022-12-09 09:38:55 +03:00
Copyright (C) 2017 Takashi Kokubun <k0kubun@ruby-lang.org>.
mjit.c: merge MJIT infrastructure that allows to JIT-compile Ruby methods by generating C code and using C compiler. See the first comment of mjit.c to know what this file does. mjit.c is authored by Vladimir Makarov <vmakarov@redhat.com>. After he invented great method JIT infrastructure for MRI as MJIT, Lars Kanis <lars@greiz-reinsdorf.de> sent the patch to support MinGW in MJIT. In addition to merging it, I ported pthread to Windows native threads. Now this MJIT infrastructure can be compiled on Visual Studio. This commit simplifies mjit.c to decrease code at initial merge. For example, this commit does not provide multiple JIT threads support. We can resurrect them later if we really want them, but I wanted to minimize diff to make it easier to review this patch. `/tmp/_mjitXXX` file is renamed to `/tmp/_ruby_mjitXXX` because non-Ruby developers may not know the name "mjit" and the file name should make sure it's from Ruby and not from some harmful programs. TODO: it may be better to store this to some temporary directory which Ruby is already using by Tempfile, if it's not bad for performance. mjit.h: New. It has `mjit_exec` interface similar to `vm_exec`, which is for triggering MJIT. This drops interface for AOT compared to the original MJIT. Makefile.in: define macros to let MJIT know the path of MJIT header. Probably we can refactor this to reduce the number of macros (TODO). win32/Makefile.sub: ditto. common.mk: compile mjit.o and mjit_compile.o. Unlike original MJIT, this commit separates MJIT infrastructure and JIT compiler code as independent object files. As initial patch is NOT going to have ultra-fast JIT compiler, it's likely to replace JIT compiler, e.g. original MJIT's compiler or some future JIT impelementations which are not public now. inits.c: define MJIT module. This is added because `MJIT.enabled?` was necessary for testing. test/lib/zombie_hunter.rb: skip if `MJIT.enabled?`. Obviously this wouldn't work with current code when JIT is enabled. test/ruby/test_io.rb: skip this too. This would make no sense with MJIT. ruby.c: define MJIT CLI options. As major difference from original MJIT, "-j:l"/"--jit:llvm" are renamed to "--jit-cc" because I want to support not only gcc/clang but also cl.exe (Visual Studio) in the future. But it takes only "--jit-cc=gcc", "--jit-cc=clang" for now. And only long "--jit" options are allowed since some Ruby committers preferred it at Ruby developers Meeting on January, and some of options are renamed. This file also triggers to initialize MJIT thread and variables. eval.c: finalize MJIT worker thread and variables. test/ruby/test_rubyoptions.rb: fix number of CLI options for --jit. thread_pthread.c: change for pthread abstraction in MJIT. Prefix rb_ for functions which are used by other files. thread_win32.c: ditto, for Windows. Those pthread porting is one of major works that YARV-MJIT created, which is my fork of MJIT, in Feature 14235. thread.c: follow rb_ prefix changes vm.c: trigger MJIT call on VM invocation. Also trigger `mjit_mark` to avoid SEGV by race between JIT and GC of ISeq. The improvement was provided by wanabe <s.wanabe@gmail.com>. In JIT compiler I created and am going to add in my next commit, I found that having `mjit_exec` after `vm_loop_start:` is harmful because the JIT-ed function doesn't proceed other ISeqs on RESTORE_REGS of leave insn. Executing non-FINISH frame is unexpected for my JIT compiler and `exception_handler` triggers executions of such ISeqs. So `mjit_exec` here should be executed only when it directly comes from `vm_exec` call. `RubyVM::MJIT` module and `.enabled?` method is added so that we can skip some tests which don't expect JIT threads or compiler file descriptors. vm_insnhelper.h: trigger MJIT on method calls during VM execution. vm_core.h: add fields required for mjit.c. `bp` must be `cfp[6]` because rb_control_frame_struct is likely to be casted to another struct. The last position is the safest place to add the new field. vm_insnhelper.c: save initial value of cfp->ep as cfp->bp. This is an optimization which are done in both MJIT and YARV-MJIT. So this change is added in this commit. Calculating bp from ep is a little heavy work, so bp is kind of cache for it. iseq.c: notify ISeq GC to MJIT. We should know which iseq in MJIT queue is GCed to avoid SEGV. TODO: unload some GCed units in some safe way. gc.c: add hooks so that MJIT can wait GC, and vice versa. Simultaneous JIT and GC executions may cause SEGV and so we should synchronize them. cont.c: save continuation information in MJIT worker. As MJIT shouldn't unload JIT-ed code which is being used, MJIT wants to know full list of saved execution contexts for continuation and detect ISeqs in use. mjit_compile.c: added empty JIT compiler so that you can reuse this commit to build your own JIT compiler. This commit tries to compile ISeqs but all of them are considered as not supported in this commit. So you can't use JIT compiler in this commit yet while we added --jit option now. Patch author: Vladimir Makarov <vmakarov@redhat.com>. Contributors: Takashi Kokubun <takashikkbn@gmail.com>. wanabe <s.wanabe@gmail.com>. Lars Kanis <lars@greiz-reinsdorf.de>. Part of Feature 12589 and 14235. git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@62189 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
2018-02-04 09:58:09 +03:00
**********************************************************************/
#include "ruby/internal/config.h" // defines USE_MJIT
#if USE_MJIT
#include "constant.h"
#include "id_table.h"
#include "internal.h"
#include "internal/class.h"
#include "internal/cmdlineopt.h"
#include "internal/cont.h"
#include "internal/file.h"
#include "internal/hash.h"
#include "internal/process.h"
#include "internal/warnings.h"
#include "vm_sync.h"
#include "ractor_core.h"
#ifdef __sun
#define __EXTENSIONS__ 1
#endif
#include "vm_core.h"
#include "vm_callinfo.h"
#include "mjit.h"
#include "mjit_c.h"
#include "ruby_assert.h"
#include "ruby/debug.h"
#include "ruby/thread.h"
#include "ruby/version.h"
#include "builtin.h"
#include "insns.inc"
#include "insns_info.inc"
#include "internal/compile.h"
#include "internal/gc.h"
#include <sys/wait.h>
#include <sys/time.h>
#include <dlfcn.h>
#include <errno.h>
#ifdef HAVE_FCNTL_H
#include <fcntl.h>
#endif
#ifdef HAVE_SYS_PARAM_H
# include <sys/param.h>
#endif
#include "dln.h"
#include "ruby/util.h"
// A copy of MJIT portion of MRI options since MJIT initialization. We
// need them as MJIT threads still can work when the most MRI data were
// freed.
struct mjit_options mjit_opts;
// true if MJIT is enabled.
bool mjit_enabled = false;
bool mjit_stats_enabled = false;
// true if JIT-ed code should be called. When `ruby_vm_event_enabled_global_flags & ISEQ_TRACE_EVENTS`
// and `mjit_call_p == false`, any JIT-ed code execution is cancelled as soon as possible.
bool mjit_call_p = false;
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// A flag to communicate that mjit_call_p should be disabled while it's temporarily false.
bool mjit_cancel_p = false;
#include "mjit_config.h"
// Print the arguments according to FORMAT to stderr only if MJIT
// verbose option value is more or equal to LEVEL.
PRINTF_ARGS(static void, 2, 3)
verbose(int level, const char *format, ...)
{
if (mjit_opts.verbose >= level) {
va_list args;
size_t len = strlen(format);
char *full_format = alloca(sizeof(char) * (len + 2));
// Creating `format + '\n'` to atomically print format and '\n'.
memcpy(full_format, format, len);
full_format[len] = '\n';
full_format[len+1] = '\0';
va_start(args, format);
vfprintf(stderr, full_format, args);
va_end(args);
}
}
int
mjit_capture_cc_entries(const struct rb_iseq_constant_body *compiled_iseq, const struct rb_iseq_constant_body *captured_iseq)
{
// TODO: remove this
return 0;
mjit.c: merge MJIT infrastructure that allows to JIT-compile Ruby methods by generating C code and using C compiler. See the first comment of mjit.c to know what this file does. mjit.c is authored by Vladimir Makarov <vmakarov@redhat.com>. After he invented great method JIT infrastructure for MRI as MJIT, Lars Kanis <lars@greiz-reinsdorf.de> sent the patch to support MinGW in MJIT. In addition to merging it, I ported pthread to Windows native threads. Now this MJIT infrastructure can be compiled on Visual Studio. This commit simplifies mjit.c to decrease code at initial merge. For example, this commit does not provide multiple JIT threads support. We can resurrect them later if we really want them, but I wanted to minimize diff to make it easier to review this patch. `/tmp/_mjitXXX` file is renamed to `/tmp/_ruby_mjitXXX` because non-Ruby developers may not know the name "mjit" and the file name should make sure it's from Ruby and not from some harmful programs. TODO: it may be better to store this to some temporary directory which Ruby is already using by Tempfile, if it's not bad for performance. mjit.h: New. It has `mjit_exec` interface similar to `vm_exec`, which is for triggering MJIT. This drops interface for AOT compared to the original MJIT. Makefile.in: define macros to let MJIT know the path of MJIT header. Probably we can refactor this to reduce the number of macros (TODO). win32/Makefile.sub: ditto. common.mk: compile mjit.o and mjit_compile.o. Unlike original MJIT, this commit separates MJIT infrastructure and JIT compiler code as independent object files. As initial patch is NOT going to have ultra-fast JIT compiler, it's likely to replace JIT compiler, e.g. original MJIT's compiler or some future JIT impelementations which are not public now. inits.c: define MJIT module. This is added because `MJIT.enabled?` was necessary for testing. test/lib/zombie_hunter.rb: skip if `MJIT.enabled?`. Obviously this wouldn't work with current code when JIT is enabled. test/ruby/test_io.rb: skip this too. This would make no sense with MJIT. ruby.c: define MJIT CLI options. As major difference from original MJIT, "-j:l"/"--jit:llvm" are renamed to "--jit-cc" because I want to support not only gcc/clang but also cl.exe (Visual Studio) in the future. But it takes only "--jit-cc=gcc", "--jit-cc=clang" for now. And only long "--jit" options are allowed since some Ruby committers preferred it at Ruby developers Meeting on January, and some of options are renamed. This file also triggers to initialize MJIT thread and variables. eval.c: finalize MJIT worker thread and variables. test/ruby/test_rubyoptions.rb: fix number of CLI options for --jit. thread_pthread.c: change for pthread abstraction in MJIT. Prefix rb_ for functions which are used by other files. thread_win32.c: ditto, for Windows. Those pthread porting is one of major works that YARV-MJIT created, which is my fork of MJIT, in Feature 14235. thread.c: follow rb_ prefix changes vm.c: trigger MJIT call on VM invocation. Also trigger `mjit_mark` to avoid SEGV by race between JIT and GC of ISeq. The improvement was provided by wanabe <s.wanabe@gmail.com>. In JIT compiler I created and am going to add in my next commit, I found that having `mjit_exec` after `vm_loop_start:` is harmful because the JIT-ed function doesn't proceed other ISeqs on RESTORE_REGS of leave insn. Executing non-FINISH frame is unexpected for my JIT compiler and `exception_handler` triggers executions of such ISeqs. So `mjit_exec` here should be executed only when it directly comes from `vm_exec` call. `RubyVM::MJIT` module and `.enabled?` method is added so that we can skip some tests which don't expect JIT threads or compiler file descriptors. vm_insnhelper.h: trigger MJIT on method calls during VM execution. vm_core.h: add fields required for mjit.c. `bp` must be `cfp[6]` because rb_control_frame_struct is likely to be casted to another struct. The last position is the safest place to add the new field. vm_insnhelper.c: save initial value of cfp->ep as cfp->bp. This is an optimization which are done in both MJIT and YARV-MJIT. So this change is added in this commit. Calculating bp from ep is a little heavy work, so bp is kind of cache for it. iseq.c: notify ISeq GC to MJIT. We should know which iseq in MJIT queue is GCed to avoid SEGV. TODO: unload some GCed units in some safe way. gc.c: add hooks so that MJIT can wait GC, and vice versa. Simultaneous JIT and GC executions may cause SEGV and so we should synchronize them. cont.c: save continuation information in MJIT worker. As MJIT shouldn't unload JIT-ed code which is being used, MJIT wants to know full list of saved execution contexts for continuation and detect ISeqs in use. mjit_compile.c: added empty JIT compiler so that you can reuse this commit to build your own JIT compiler. This commit tries to compile ISeqs but all of them are considered as not supported in this commit. So you can't use JIT compiler in this commit yet while we added --jit option now. Patch author: Vladimir Makarov <vmakarov@redhat.com>. Contributors: Takashi Kokubun <takashikkbn@gmail.com>. wanabe <s.wanabe@gmail.com>. Lars Kanis <lars@greiz-reinsdorf.de>. Part of Feature 12589 and 14235. git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@62189 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
2018-02-04 09:58:09 +03:00
}
void
mjit_cancel_all(const char *reason)
{
2023-02-04 09:42:13 +03:00
if (!mjit_enabled)
return;
mjit_call_p = false;
mjit_cancel_p = true;
if (mjit_opts.warnings || mjit_opts.verbose) {
fprintf(stderr, "JIT cancel: Disabled JIT-ed code because %s\n", reason);
}
}
mjit.c: merge MJIT infrastructure that allows to JIT-compile Ruby methods by generating C code and using C compiler. See the first comment of mjit.c to know what this file does. mjit.c is authored by Vladimir Makarov <vmakarov@redhat.com>. After he invented great method JIT infrastructure for MRI as MJIT, Lars Kanis <lars@greiz-reinsdorf.de> sent the patch to support MinGW in MJIT. In addition to merging it, I ported pthread to Windows native threads. Now this MJIT infrastructure can be compiled on Visual Studio. This commit simplifies mjit.c to decrease code at initial merge. For example, this commit does not provide multiple JIT threads support. We can resurrect them later if we really want them, but I wanted to minimize diff to make it easier to review this patch. `/tmp/_mjitXXX` file is renamed to `/tmp/_ruby_mjitXXX` because non-Ruby developers may not know the name "mjit" and the file name should make sure it's from Ruby and not from some harmful programs. TODO: it may be better to store this to some temporary directory which Ruby is already using by Tempfile, if it's not bad for performance. mjit.h: New. It has `mjit_exec` interface similar to `vm_exec`, which is for triggering MJIT. This drops interface for AOT compared to the original MJIT. Makefile.in: define macros to let MJIT know the path of MJIT header. Probably we can refactor this to reduce the number of macros (TODO). win32/Makefile.sub: ditto. common.mk: compile mjit.o and mjit_compile.o. Unlike original MJIT, this commit separates MJIT infrastructure and JIT compiler code as independent object files. As initial patch is NOT going to have ultra-fast JIT compiler, it's likely to replace JIT compiler, e.g. original MJIT's compiler or some future JIT impelementations which are not public now. inits.c: define MJIT module. This is added because `MJIT.enabled?` was necessary for testing. test/lib/zombie_hunter.rb: skip if `MJIT.enabled?`. Obviously this wouldn't work with current code when JIT is enabled. test/ruby/test_io.rb: skip this too. This would make no sense with MJIT. ruby.c: define MJIT CLI options. As major difference from original MJIT, "-j:l"/"--jit:llvm" are renamed to "--jit-cc" because I want to support not only gcc/clang but also cl.exe (Visual Studio) in the future. But it takes only "--jit-cc=gcc", "--jit-cc=clang" for now. And only long "--jit" options are allowed since some Ruby committers preferred it at Ruby developers Meeting on January, and some of options are renamed. This file also triggers to initialize MJIT thread and variables. eval.c: finalize MJIT worker thread and variables. test/ruby/test_rubyoptions.rb: fix number of CLI options for --jit. thread_pthread.c: change for pthread abstraction in MJIT. Prefix rb_ for functions which are used by other files. thread_win32.c: ditto, for Windows. Those pthread porting is one of major works that YARV-MJIT created, which is my fork of MJIT, in Feature 14235. thread.c: follow rb_ prefix changes vm.c: trigger MJIT call on VM invocation. Also trigger `mjit_mark` to avoid SEGV by race between JIT and GC of ISeq. The improvement was provided by wanabe <s.wanabe@gmail.com>. In JIT compiler I created and am going to add in my next commit, I found that having `mjit_exec` after `vm_loop_start:` is harmful because the JIT-ed function doesn't proceed other ISeqs on RESTORE_REGS of leave insn. Executing non-FINISH frame is unexpected for my JIT compiler and `exception_handler` triggers executions of such ISeqs. So `mjit_exec` here should be executed only when it directly comes from `vm_exec` call. `RubyVM::MJIT` module and `.enabled?` method is added so that we can skip some tests which don't expect JIT threads or compiler file descriptors. vm_insnhelper.h: trigger MJIT on method calls during VM execution. vm_core.h: add fields required for mjit.c. `bp` must be `cfp[6]` because rb_control_frame_struct is likely to be casted to another struct. The last position is the safest place to add the new field. vm_insnhelper.c: save initial value of cfp->ep as cfp->bp. This is an optimization which are done in both MJIT and YARV-MJIT. So this change is added in this commit. Calculating bp from ep is a little heavy work, so bp is kind of cache for it. iseq.c: notify ISeq GC to MJIT. We should know which iseq in MJIT queue is GCed to avoid SEGV. TODO: unload some GCed units in some safe way. gc.c: add hooks so that MJIT can wait GC, and vice versa. Simultaneous JIT and GC executions may cause SEGV and so we should synchronize them. cont.c: save continuation information in MJIT worker. As MJIT shouldn't unload JIT-ed code which is being used, MJIT wants to know full list of saved execution contexts for continuation and detect ISeqs in use. mjit_compile.c: added empty JIT compiler so that you can reuse this commit to build your own JIT compiler. This commit tries to compile ISeqs but all of them are considered as not supported in this commit. So you can't use JIT compiler in this commit yet while we added --jit option now. Patch author: Vladimir Makarov <vmakarov@redhat.com>. Contributors: Takashi Kokubun <takashikkbn@gmail.com>. wanabe <s.wanabe@gmail.com>. Lars Kanis <lars@greiz-reinsdorf.de>. Part of Feature 12589 and 14235. git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@62189 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
2018-02-04 09:58:09 +03:00
void
mjit_free_iseq(const rb_iseq_t *iseq)
{
// TODO: remove this
}
void
mjit_notify_waitpid(int exit_code)
{
// TODO: remove this function
2021-01-04 11:16:40 +03:00
}
// RubyVM::MJIT
static VALUE rb_mMJIT = 0;
// RubyVM::MJIT::C
static VALUE rb_mMJITC = 0;
// RubyVM::MJIT::Compiler
2022-12-12 08:32:24 +03:00
static VALUE rb_MJITCompiler = 0;
// RubyVM::MJIT::CPointer::Struct_rb_iseq_t
static VALUE rb_cMJITIseqPtr = 0;
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// RubyVM::MJIT::CPointer::Struct_rb_control_frame_t
static VALUE rb_cMJITCfpPtr = 0;
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// RubyVM::MJIT::Hooks
static VALUE rb_mMJITHooks = 0;
Recompile JIT-ed code without optimization based on inline cache when JIT cancel happens by that. This feature was in the original MJIT implementation by Vladimir, but on merging MJIT to Ruby it was removed for simplification. This commit adds the functionality again for the following benchmark: https://github.com/benchmark-driver/misc/blob/52f05781f65467baf895bf6ba79d172c9b0826fd/concurrent-map/bench.rb (shown float is duration seconds. shorter is better) * Before ``` $ INHERIT=0 ruby -v bench.rb ruby 2.7.0dev (2019-04-13 trunk 67523) [x86_64-linux] -- 1.6507579649914987 $ INHERIT=0 ruby -v --jit bench.rb ruby 2.7.0dev (2019-04-13 trunk 67523) +JIT [x86_64-linux] -- 1.5091587850474752 $ INHERIT=1 ruby -v bench.rb ruby 2.7.0dev (2019-04-13 trunk 67523) [x86_64-linux] -- 1.6124781150138006 $ INHERIT=1 ruby --jit -v bench.rb ruby 2.7.0dev (2019-04-13 trunk 67523) +JIT [x86_64-linux] -- 1.7495657080435194 # <-- this ``` * After ``` $ INHERIT=0 ruby -v bench.rb ruby 2.7.0dev (2019-04-13 trunk 67523) [x86_64-linux] last_commit=Recompile JIT-ed code without optimization -- 1.653559010999743 $ INHERIT=0 ruby --jit -v bench.rb ruby 2.7.0dev (2019-04-13 trunk 67523) +JIT [x86_64-linux] last_commit=Recompile JIT-ed code without optimization -- 1.4738391840364784 $ INHERIT=1 ruby -v bench.rb ruby 2.7.0dev (2019-04-13 trunk 67523) [x86_64-linux] last_commit=Recompile JIT-ed code without optimization -- 1.645227018976584 $ INHERIT=1 ruby --jit -v bench.rb ruby 2.7.0dev (2019-04-13 trunk 67523) +JIT [x86_64-linux] last_commit=Recompile JIT-ed code without optimization -- 1.523708809982054 # <-- this ``` git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@67530 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
2019-04-14 07:52:02 +03:00
void
rb_mjit_add_iseq_to_process(const rb_iseq_t *iseq)
{
// TODO: implement
Recompile JIT-ed code without optimization based on inline cache when JIT cancel happens by that. This feature was in the original MJIT implementation by Vladimir, but on merging MJIT to Ruby it was removed for simplification. This commit adds the functionality again for the following benchmark: https://github.com/benchmark-driver/misc/blob/52f05781f65467baf895bf6ba79d172c9b0826fd/concurrent-map/bench.rb (shown float is duration seconds. shorter is better) * Before ``` $ INHERIT=0 ruby -v bench.rb ruby 2.7.0dev (2019-04-13 trunk 67523) [x86_64-linux] -- 1.6507579649914987 $ INHERIT=0 ruby -v --jit bench.rb ruby 2.7.0dev (2019-04-13 trunk 67523) +JIT [x86_64-linux] -- 1.5091587850474752 $ INHERIT=1 ruby -v bench.rb ruby 2.7.0dev (2019-04-13 trunk 67523) [x86_64-linux] -- 1.6124781150138006 $ INHERIT=1 ruby --jit -v bench.rb ruby 2.7.0dev (2019-04-13 trunk 67523) +JIT [x86_64-linux] -- 1.7495657080435194 # <-- this ``` * After ``` $ INHERIT=0 ruby -v bench.rb ruby 2.7.0dev (2019-04-13 trunk 67523) [x86_64-linux] last_commit=Recompile JIT-ed code without optimization -- 1.653559010999743 $ INHERIT=0 ruby --jit -v bench.rb ruby 2.7.0dev (2019-04-13 trunk 67523) +JIT [x86_64-linux] last_commit=Recompile JIT-ed code without optimization -- 1.4738391840364784 $ INHERIT=1 ruby -v bench.rb ruby 2.7.0dev (2019-04-13 trunk 67523) [x86_64-linux] last_commit=Recompile JIT-ed code without optimization -- 1.645227018976584 $ INHERIT=1 ruby --jit -v bench.rb ruby 2.7.0dev (2019-04-13 trunk 67523) +JIT [x86_64-linux] last_commit=Recompile JIT-ed code without optimization -- 1.523708809982054 # <-- this ``` git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@67530 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
2019-04-14 07:52:02 +03:00
}
Recompile JIT-ed code without optimization based on inline cache when JIT cancel happens by that. This feature was in the original MJIT implementation by Vladimir, but on merging MJIT to Ruby it was removed for simplification. This commit adds the functionality again for the following benchmark: https://github.com/benchmark-driver/misc/blob/52f05781f65467baf895bf6ba79d172c9b0826fd/concurrent-map/bench.rb (shown float is duration seconds. shorter is better) * Before ``` $ INHERIT=0 ruby -v bench.rb ruby 2.7.0dev (2019-04-13 trunk 67523) [x86_64-linux] -- 1.6507579649914987 $ INHERIT=0 ruby -v --jit bench.rb ruby 2.7.0dev (2019-04-13 trunk 67523) +JIT [x86_64-linux] -- 1.5091587850474752 $ INHERIT=1 ruby -v bench.rb ruby 2.7.0dev (2019-04-13 trunk 67523) [x86_64-linux] -- 1.6124781150138006 $ INHERIT=1 ruby --jit -v bench.rb ruby 2.7.0dev (2019-04-13 trunk 67523) +JIT [x86_64-linux] -- 1.7495657080435194 # <-- this ``` * After ``` $ INHERIT=0 ruby -v bench.rb ruby 2.7.0dev (2019-04-13 trunk 67523) [x86_64-linux] last_commit=Recompile JIT-ed code without optimization -- 1.653559010999743 $ INHERIT=0 ruby --jit -v bench.rb ruby 2.7.0dev (2019-04-13 trunk 67523) +JIT [x86_64-linux] last_commit=Recompile JIT-ed code without optimization -- 1.4738391840364784 $ INHERIT=1 ruby -v bench.rb ruby 2.7.0dev (2019-04-13 trunk 67523) [x86_64-linux] last_commit=Recompile JIT-ed code without optimization -- 1.645227018976584 $ INHERIT=1 ruby --jit -v bench.rb ruby 2.7.0dev (2019-04-13 trunk 67523) +JIT [x86_64-linux] last_commit=Recompile JIT-ed code without optimization -- 1.523708809982054 # <-- this ``` git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@67530 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
2019-04-14 07:52:02 +03:00
struct rb_mjit_compile_info*
rb_mjit_iseq_compile_info(const struct rb_iseq_constant_body *body)
{
// TODO: remove this
return NULL;
Recompile JIT-ed code without optimization based on inline cache when JIT cancel happens by that. This feature was in the original MJIT implementation by Vladimir, but on merging MJIT to Ruby it was removed for simplification. This commit adds the functionality again for the following benchmark: https://github.com/benchmark-driver/misc/blob/52f05781f65467baf895bf6ba79d172c9b0826fd/concurrent-map/bench.rb (shown float is duration seconds. shorter is better) * Before ``` $ INHERIT=0 ruby -v bench.rb ruby 2.7.0dev (2019-04-13 trunk 67523) [x86_64-linux] -- 1.6507579649914987 $ INHERIT=0 ruby -v --jit bench.rb ruby 2.7.0dev (2019-04-13 trunk 67523) +JIT [x86_64-linux] -- 1.5091587850474752 $ INHERIT=1 ruby -v bench.rb ruby 2.7.0dev (2019-04-13 trunk 67523) [x86_64-linux] -- 1.6124781150138006 $ INHERIT=1 ruby --jit -v bench.rb ruby 2.7.0dev (2019-04-13 trunk 67523) +JIT [x86_64-linux] -- 1.7495657080435194 # <-- this ``` * After ``` $ INHERIT=0 ruby -v bench.rb ruby 2.7.0dev (2019-04-13 trunk 67523) [x86_64-linux] last_commit=Recompile JIT-ed code without optimization -- 1.653559010999743 $ INHERIT=0 ruby --jit -v bench.rb ruby 2.7.0dev (2019-04-13 trunk 67523) +JIT [x86_64-linux] last_commit=Recompile JIT-ed code without optimization -- 1.4738391840364784 $ INHERIT=1 ruby -v bench.rb ruby 2.7.0dev (2019-04-13 trunk 67523) [x86_64-linux] last_commit=Recompile JIT-ed code without optimization -- 1.645227018976584 $ INHERIT=1 ruby --jit -v bench.rb ruby 2.7.0dev (2019-04-13 trunk 67523) +JIT [x86_64-linux] last_commit=Recompile JIT-ed code without optimization -- 1.523708809982054 # <-- this ``` git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@67530 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
2019-04-14 07:52:02 +03:00
}
void
rb_mjit_recompile_send(const rb_iseq_t *iseq)
{
// TODO: remove this
}
void
rb_mjit_recompile_ivar(const rb_iseq_t *iseq)
{
// TODO: remove this
}
void
rb_mjit_recompile_exivar(const rb_iseq_t *iseq)
{
// TODO: remove this
}
void
rb_mjit_recompile_inlining(const rb_iseq_t *iseq)
{
// TODO: remove this
}
void
rb_mjit_recompile_const(const rb_iseq_t *iseq)
{
// TODO: remove this
}
Change defaults of --jit options * --jit-min-calls: 5 -> 10000 --jit-min-calls=5 obviously can compile non hotspot. This was not a problem for MJIT-benchmarks and Optcarrot because the former has very few hot optimiziable methods and the latter is likely to trigger compilation of hotspot by its intensive calls to optimizable hotspot methods and has a very short window to allow limited compilations. In real-world applications, it has more time to compile more methods and it pressures computer's limited resources like icache. We should avoid compiling too many methods. Also compiling many methods exhausts time budget for compilation in one ruby process lifetime and delays the "JIT compaction" of Ruby 2.6. JVM is known to use 1,500 for C1 (client) compiler and 10,000 for C2 (server) compiler for -XX:CompileThreshold by default. https://docs.oracle.com/javase/8/embedded/develop-apps-platforms/codecache.htm When things are called X,000 times, requiring 10,000 can eliminate compilation of methods which are called only once in these X,000 iterations and obviously not hotspot. And in fact things like unicorn-worker-killer restarts unicorn process every 4096 requests. So I felt 10,000 is good for such an environment. * --jit-max-cache: 1000 -> 100 By the same reason stated above, we should not allow compiling many methods especially on MJIT which has a larger overhead due to poor code locality by dlopen and whose code is also likely to be bigger by just inlining many VM instructions with -O3 rather than directly generating low-level code. In JVM -XX:ReservedCodeCacheSize is 32M for reserved and 48M for maximum. --jit-max-cache=1,000 could be closer to it, but in this case MJIT's compilation is slow due to data synchronization between threads (to be improved in Ruby 2.7 though) and we do not want to delay the "JIT compaction" for a long time. So I chose a really conservative number for this, but by having method inlining in the future, wider range could be optimized even with this value. * Optcarrot --disable-gems, --benchmark Lan_Master.nes 12 attempts. No significant impact. | r67276 | r67276 --jit | after --jit | |:-------------------|:------------------|:------------------| | 50.44369263063978 | 72.87390680773056 | 73.47873485047297 | | 50.58788746124193 | 78.06820808947026 | 78.29723420171945 | | 50.77509250801378 | 80.29010348842613 | 78.94689404460769 | | 50.935361702064405 | 80.42796829926374 | 80.39539527351525 | | 51.27352672981195 | 81.98758158033202 | 81.6754198664817 | | 51.720715743242124 | 82.00118535811626 | 82.22960569251283 | | 51.89643169822524 | 82.2290091613556 | 82.5013636146388 | | 51.95895898113868 | 82.37318990939565 | 82.74002377794454 | | 52.10124886807968 | 82.48796686037502 | 83.23354941183932 | | 52.292280637519376 | 83.0265226541066 | 84.01552618012572 | | 52.51856237784144 | 83.8797360318052 | 84.8588319093393 | | 52.65076845986818 | 84.80037351256634 | 85.13577756273656 | * Railsbench `WARMUP=20000 BENCHMARK=1000 bin/bench` of https://github.com/k0kubun/railsbench. It gets closer to --disable=jit. | | r67276 | r67276 | after | | | | --jit | --jit | |:----------|:-------|:-------|:-------| | req/s | 891.3 | 742.2 | 841.5 | |:----------|:-------|:-------|:-------| | 50%ile ms | 1.00 | 1.21 | 1.08 | | 66%ile ms | 1.02 | 1.24 | 1.09 | | 75%ile ms | 1.03 | 1.28 | 1.10 | | 80%ile ms | 1.03 | 1.30 | 1.11 | | 90%ile ms | 1.09 | 1.42 | 1.15 | | 95%ile ms | 1.32 | 1.65 | 1.27 | | 98%ile ms | 4.79 | 2.23 | 1.81 | | 99%ile ms | 5.68 | 7.52 | 6.64 | |100%ile ms | 6.52 | 9.69 | 8.59 | git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@67277 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
2019-03-17 08:13:38 +03:00
// Default permitted number of units with a JIT code kept in memory.
#define DEFAULT_MAX_CACHE_SIZE 100
Change defaults of --jit options * --jit-min-calls: 5 -> 10000 --jit-min-calls=5 obviously can compile non hotspot. This was not a problem for MJIT-benchmarks and Optcarrot because the former has very few hot optimiziable methods and the latter is likely to trigger compilation of hotspot by its intensive calls to optimizable hotspot methods and has a very short window to allow limited compilations. In real-world applications, it has more time to compile more methods and it pressures computer's limited resources like icache. We should avoid compiling too many methods. Also compiling many methods exhausts time budget for compilation in one ruby process lifetime and delays the "JIT compaction" of Ruby 2.6. JVM is known to use 1,500 for C1 (client) compiler and 10,000 for C2 (server) compiler for -XX:CompileThreshold by default. https://docs.oracle.com/javase/8/embedded/develop-apps-platforms/codecache.htm When things are called X,000 times, requiring 10,000 can eliminate compilation of methods which are called only once in these X,000 iterations and obviously not hotspot. And in fact things like unicorn-worker-killer restarts unicorn process every 4096 requests. So I felt 10,000 is good for such an environment. * --jit-max-cache: 1000 -> 100 By the same reason stated above, we should not allow compiling many methods especially on MJIT which has a larger overhead due to poor code locality by dlopen and whose code is also likely to be bigger by just inlining many VM instructions with -O3 rather than directly generating low-level code. In JVM -XX:ReservedCodeCacheSize is 32M for reserved and 48M for maximum. --jit-max-cache=1,000 could be closer to it, but in this case MJIT's compilation is slow due to data synchronization between threads (to be improved in Ruby 2.7 though) and we do not want to delay the "JIT compaction" for a long time. So I chose a really conservative number for this, but by having method inlining in the future, wider range could be optimized even with this value. * Optcarrot --disable-gems, --benchmark Lan_Master.nes 12 attempts. No significant impact. | r67276 | r67276 --jit | after --jit | |:-------------------|:------------------|:------------------| | 50.44369263063978 | 72.87390680773056 | 73.47873485047297 | | 50.58788746124193 | 78.06820808947026 | 78.29723420171945 | | 50.77509250801378 | 80.29010348842613 | 78.94689404460769 | | 50.935361702064405 | 80.42796829926374 | 80.39539527351525 | | 51.27352672981195 | 81.98758158033202 | 81.6754198664817 | | 51.720715743242124 | 82.00118535811626 | 82.22960569251283 | | 51.89643169822524 | 82.2290091613556 | 82.5013636146388 | | 51.95895898113868 | 82.37318990939565 | 82.74002377794454 | | 52.10124886807968 | 82.48796686037502 | 83.23354941183932 | | 52.292280637519376 | 83.0265226541066 | 84.01552618012572 | | 52.51856237784144 | 83.8797360318052 | 84.8588319093393 | | 52.65076845986818 | 84.80037351256634 | 85.13577756273656 | * Railsbench `WARMUP=20000 BENCHMARK=1000 bin/bench` of https://github.com/k0kubun/railsbench. It gets closer to --disable=jit. | | r67276 | r67276 | after | | | | --jit | --jit | |:----------|:-------|:-------|:-------| | req/s | 891.3 | 742.2 | 841.5 | |:----------|:-------|:-------|:-------| | 50%ile ms | 1.00 | 1.21 | 1.08 | | 66%ile ms | 1.02 | 1.24 | 1.09 | | 75%ile ms | 1.03 | 1.28 | 1.10 | | 80%ile ms | 1.03 | 1.30 | 1.11 | | 90%ile ms | 1.09 | 1.42 | 1.15 | | 95%ile ms | 1.32 | 1.65 | 1.27 | | 98%ile ms | 4.79 | 2.23 | 1.81 | | 99%ile ms | 5.68 | 7.52 | 6.64 | |100%ile ms | 6.52 | 9.69 | 8.59 | git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@67277 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
2019-03-17 08:13:38 +03:00
// A default threshold used to add iseq to JIT.
2022-12-11 11:00:14 +03:00
#define DEFAULT_CALL_THRESHOLD 1
mjit.c: merge MJIT infrastructure that allows to JIT-compile Ruby methods by generating C code and using C compiler. See the first comment of mjit.c to know what this file does. mjit.c is authored by Vladimir Makarov <vmakarov@redhat.com>. After he invented great method JIT infrastructure for MRI as MJIT, Lars Kanis <lars@greiz-reinsdorf.de> sent the patch to support MinGW in MJIT. In addition to merging it, I ported pthread to Windows native threads. Now this MJIT infrastructure can be compiled on Visual Studio. This commit simplifies mjit.c to decrease code at initial merge. For example, this commit does not provide multiple JIT threads support. We can resurrect them later if we really want them, but I wanted to minimize diff to make it easier to review this patch. `/tmp/_mjitXXX` file is renamed to `/tmp/_ruby_mjitXXX` because non-Ruby developers may not know the name "mjit" and the file name should make sure it's from Ruby and not from some harmful programs. TODO: it may be better to store this to some temporary directory which Ruby is already using by Tempfile, if it's not bad for performance. mjit.h: New. It has `mjit_exec` interface similar to `vm_exec`, which is for triggering MJIT. This drops interface for AOT compared to the original MJIT. Makefile.in: define macros to let MJIT know the path of MJIT header. Probably we can refactor this to reduce the number of macros (TODO). win32/Makefile.sub: ditto. common.mk: compile mjit.o and mjit_compile.o. Unlike original MJIT, this commit separates MJIT infrastructure and JIT compiler code as independent object files. As initial patch is NOT going to have ultra-fast JIT compiler, it's likely to replace JIT compiler, e.g. original MJIT's compiler or some future JIT impelementations which are not public now. inits.c: define MJIT module. This is added because `MJIT.enabled?` was necessary for testing. test/lib/zombie_hunter.rb: skip if `MJIT.enabled?`. Obviously this wouldn't work with current code when JIT is enabled. test/ruby/test_io.rb: skip this too. This would make no sense with MJIT. ruby.c: define MJIT CLI options. As major difference from original MJIT, "-j:l"/"--jit:llvm" are renamed to "--jit-cc" because I want to support not only gcc/clang but also cl.exe (Visual Studio) in the future. But it takes only "--jit-cc=gcc", "--jit-cc=clang" for now. And only long "--jit" options are allowed since some Ruby committers preferred it at Ruby developers Meeting on January, and some of options are renamed. This file also triggers to initialize MJIT thread and variables. eval.c: finalize MJIT worker thread and variables. test/ruby/test_rubyoptions.rb: fix number of CLI options for --jit. thread_pthread.c: change for pthread abstraction in MJIT. Prefix rb_ for functions which are used by other files. thread_win32.c: ditto, for Windows. Those pthread porting is one of major works that YARV-MJIT created, which is my fork of MJIT, in Feature 14235. thread.c: follow rb_ prefix changes vm.c: trigger MJIT call on VM invocation. Also trigger `mjit_mark` to avoid SEGV by race between JIT and GC of ISeq. The improvement was provided by wanabe <s.wanabe@gmail.com>. In JIT compiler I created and am going to add in my next commit, I found that having `mjit_exec` after `vm_loop_start:` is harmful because the JIT-ed function doesn't proceed other ISeqs on RESTORE_REGS of leave insn. Executing non-FINISH frame is unexpected for my JIT compiler and `exception_handler` triggers executions of such ISeqs. So `mjit_exec` here should be executed only when it directly comes from `vm_exec` call. `RubyVM::MJIT` module and `.enabled?` method is added so that we can skip some tests which don't expect JIT threads or compiler file descriptors. vm_insnhelper.h: trigger MJIT on method calls during VM execution. vm_core.h: add fields required for mjit.c. `bp` must be `cfp[6]` because rb_control_frame_struct is likely to be casted to another struct. The last position is the safest place to add the new field. vm_insnhelper.c: save initial value of cfp->ep as cfp->bp. This is an optimization which are done in both MJIT and YARV-MJIT. So this change is added in this commit. Calculating bp from ep is a little heavy work, so bp is kind of cache for it. iseq.c: notify ISeq GC to MJIT. We should know which iseq in MJIT queue is GCed to avoid SEGV. TODO: unload some GCed units in some safe way. gc.c: add hooks so that MJIT can wait GC, and vice versa. Simultaneous JIT and GC executions may cause SEGV and so we should synchronize them. cont.c: save continuation information in MJIT worker. As MJIT shouldn't unload JIT-ed code which is being used, MJIT wants to know full list of saved execution contexts for continuation and detect ISeqs in use. mjit_compile.c: added empty JIT compiler so that you can reuse this commit to build your own JIT compiler. This commit tries to compile ISeqs but all of them are considered as not supported in this commit. So you can't use JIT compiler in this commit yet while we added --jit option now. Patch author: Vladimir Makarov <vmakarov@redhat.com>. Contributors: Takashi Kokubun <takashikkbn@gmail.com>. wanabe <s.wanabe@gmail.com>. Lars Kanis <lars@greiz-reinsdorf.de>. Part of Feature 12589 and 14235. git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@62189 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
2018-02-04 09:58:09 +03:00
#define opt_match_noarg(s, l, name) \
opt_match(s, l, name) && (*(s) ? (rb_warn("argument to --mjit-" name " is ignored"), 1) : 1)
#define opt_match_arg(s, l, name) \
opt_match(s, l, name) && (*(s) ? 1 : (rb_raise(rb_eRuntimeError, "--mjit-" name " needs an argument"), 0))
void
mjit_setup_options(const char *s, struct mjit_options *mjit_opt)
{
const size_t l = strlen(s);
if (l == 0) {
return;
}
else if (opt_match_noarg(s, l, "warnings")) {
mjit_opt->warnings = true;
}
else if (opt_match(s, l, "debug")) {
if (*s)
mjit_opt->debug_flags = strdup(s + 1);
else
mjit_opt->debug = true;
}
else if (opt_match_noarg(s, l, "wait")) {
mjit_opt->wait = true;
}
else if (opt_match_noarg(s, l, "save-temps")) {
mjit_opt->save_temps = true;
}
else if (opt_match(s, l, "verbose")) {
mjit_opt->verbose = *s ? atoi(s + 1) : 1;
}
else if (opt_match_arg(s, l, "max-cache")) {
mjit_opt->max_cache_size = atoi(s + 1);
}
else if (opt_match_arg(s, l, "call-threshold")) {
mjit_opt->call_threshold = atoi(s + 1);
}
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else if (opt_match_noarg(s, l, "stats")) {
mjit_opt->stats = true;
}
// --mjit=pause is an undocumented feature for experiments
else if (opt_match_noarg(s, l, "pause")) {
mjit_opt->pause = true;
}
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else if (opt_match_noarg(s, l, "dump-disasm")) {
mjit_opt->dump_disasm = true;
}
else {
rb_raise(rb_eRuntimeError,
"invalid MJIT option `%s' (--help will show valid MJIT options)", s);
}
}
#define M(shortopt, longopt, desc) RUBY_OPT_MESSAGE(shortopt, longopt, desc)
const struct ruby_opt_message mjit_option_messages[] = {
M("--mjit-warnings", "", "Enable printing JIT warnings"),
M("--mjit-debug", "", "Enable JIT debugging (very slow), or add cflags if specified"),
M("--mjit-wait", "", "Wait until JIT compilation finishes every time (for testing)"),
M("--mjit-save-temps", "", "Save JIT temporary files in $TMP or /tmp (for testing)"),
M("--mjit-verbose=num", "", "Print JIT logs of level num or less to stderr (default: 0)"),
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M("--mjit-max-cache=num", "", "Max number of methods to be JIT-ed in a cache (default: " STRINGIZE(DEFAULT_MAX_CACHE_SIZE) ")"),
M("--mjit-call-threshold=num", "", "Number of calls to trigger JIT (for testing, default: " STRINGIZE(DEFAULT_CALL_THRESHOLD) ")"),
M("--mjit-stats", "", "Enable collecting MJIT statistics"),
{0}
};
#undef M
VALUE
mjit_pause(bool wait_p)
{
// TODO: remove this
return Qtrue;
}
VALUE
mjit_resume(void)
{
// TODO: remove this
return Qnil;
mjit.c: merge MJIT infrastructure that allows to JIT-compile Ruby methods by generating C code and using C compiler. See the first comment of mjit.c to know what this file does. mjit.c is authored by Vladimir Makarov <vmakarov@redhat.com>. After he invented great method JIT infrastructure for MRI as MJIT, Lars Kanis <lars@greiz-reinsdorf.de> sent the patch to support MinGW in MJIT. In addition to merging it, I ported pthread to Windows native threads. Now this MJIT infrastructure can be compiled on Visual Studio. This commit simplifies mjit.c to decrease code at initial merge. For example, this commit does not provide multiple JIT threads support. We can resurrect them later if we really want them, but I wanted to minimize diff to make it easier to review this patch. `/tmp/_mjitXXX` file is renamed to `/tmp/_ruby_mjitXXX` because non-Ruby developers may not know the name "mjit" and the file name should make sure it's from Ruby and not from some harmful programs. TODO: it may be better to store this to some temporary directory which Ruby is already using by Tempfile, if it's not bad for performance. mjit.h: New. It has `mjit_exec` interface similar to `vm_exec`, which is for triggering MJIT. This drops interface for AOT compared to the original MJIT. Makefile.in: define macros to let MJIT know the path of MJIT header. Probably we can refactor this to reduce the number of macros (TODO). win32/Makefile.sub: ditto. common.mk: compile mjit.o and mjit_compile.o. Unlike original MJIT, this commit separates MJIT infrastructure and JIT compiler code as independent object files. As initial patch is NOT going to have ultra-fast JIT compiler, it's likely to replace JIT compiler, e.g. original MJIT's compiler or some future JIT impelementations which are not public now. inits.c: define MJIT module. This is added because `MJIT.enabled?` was necessary for testing. test/lib/zombie_hunter.rb: skip if `MJIT.enabled?`. Obviously this wouldn't work with current code when JIT is enabled. test/ruby/test_io.rb: skip this too. This would make no sense with MJIT. ruby.c: define MJIT CLI options. As major difference from original MJIT, "-j:l"/"--jit:llvm" are renamed to "--jit-cc" because I want to support not only gcc/clang but also cl.exe (Visual Studio) in the future. But it takes only "--jit-cc=gcc", "--jit-cc=clang" for now. And only long "--jit" options are allowed since some Ruby committers preferred it at Ruby developers Meeting on January, and some of options are renamed. This file also triggers to initialize MJIT thread and variables. eval.c: finalize MJIT worker thread and variables. test/ruby/test_rubyoptions.rb: fix number of CLI options for --jit. thread_pthread.c: change for pthread abstraction in MJIT. Prefix rb_ for functions which are used by other files. thread_win32.c: ditto, for Windows. Those pthread porting is one of major works that YARV-MJIT created, which is my fork of MJIT, in Feature 14235. thread.c: follow rb_ prefix changes vm.c: trigger MJIT call on VM invocation. Also trigger `mjit_mark` to avoid SEGV by race between JIT and GC of ISeq. The improvement was provided by wanabe <s.wanabe@gmail.com>. In JIT compiler I created and am going to add in my next commit, I found that having `mjit_exec` after `vm_loop_start:` is harmful because the JIT-ed function doesn't proceed other ISeqs on RESTORE_REGS of leave insn. Executing non-FINISH frame is unexpected for my JIT compiler and `exception_handler` triggers executions of such ISeqs. So `mjit_exec` here should be executed only when it directly comes from `vm_exec` call. `RubyVM::MJIT` module and `.enabled?` method is added so that we can skip some tests which don't expect JIT threads or compiler file descriptors. vm_insnhelper.h: trigger MJIT on method calls during VM execution. vm_core.h: add fields required for mjit.c. `bp` must be `cfp[6]` because rb_control_frame_struct is likely to be casted to another struct. The last position is the safest place to add the new field. vm_insnhelper.c: save initial value of cfp->ep as cfp->bp. This is an optimization which are done in both MJIT and YARV-MJIT. So this change is added in this commit. Calculating bp from ep is a little heavy work, so bp is kind of cache for it. iseq.c: notify ISeq GC to MJIT. We should know which iseq in MJIT queue is GCed to avoid SEGV. TODO: unload some GCed units in some safe way. gc.c: add hooks so that MJIT can wait GC, and vice versa. Simultaneous JIT and GC executions may cause SEGV and so we should synchronize them. cont.c: save continuation information in MJIT worker. As MJIT shouldn't unload JIT-ed code which is being used, MJIT wants to know full list of saved execution contexts for continuation and detect ISeqs in use. mjit_compile.c: added empty JIT compiler so that you can reuse this commit to build your own JIT compiler. This commit tries to compile ISeqs but all of them are considered as not supported in this commit. So you can't use JIT compiler in this commit yet while we added --jit option now. Patch author: Vladimir Makarov <vmakarov@redhat.com>. Contributors: Takashi Kokubun <takashikkbn@gmail.com>. wanabe <s.wanabe@gmail.com>. Lars Kanis <lars@greiz-reinsdorf.de>. Part of Feature 12589 and 14235. git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@62189 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
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}
void
mjit_child_after_fork(void)
{
// TODO: remove this
}
// Compile ISeq to C code in `f`. It returns true if it succeeds to compile.
bool
mjit_compile(FILE *f, const rb_iseq_t *iseq, const char *funcname, int id)
{
// TODO: implement
return false;
}
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//================================================================================
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//
// New stuff from here
//
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// JIT buffer
uint8_t *rb_mjit_mem_block = NULL;
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// `rb_ec_ractor_hooks(ec)->events` is moved to this variable during compilation.
rb_event_flag_t rb_mjit_global_events = 0;
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// Basically mjit_opts.stats, but this becomes false during MJIT compilation.
static bool mjit_stats_p = false;
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#if MJIT_STATS
struct rb_mjit_runtime_counters rb_mjit_counters = { 0 };
void
rb_mjit_collect_vm_usage_insn(int insn)
{
if (!mjit_stats_p) return;
rb_mjit_counters.vm_insns_count++;
}
#endif // YJIT_STATS
#define WITH_MJIT_ISOLATED(stmt) do { \
rb_hook_list_t *global_hooks = rb_ec_ractor_hooks(GET_EC()); \
rb_mjit_global_events = global_hooks->events; \
global_hooks->events = 0; \
bool original_call_p = mjit_call_p; \
mjit_stats_p = false; \
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mjit_call_p = false; \
stmt; \
mjit_call_p = (mjit_cancel_p ? false : original_call_p); \
mjit_stats_p = mjit_opts.stats; \
global_hooks->events = rb_mjit_global_events; \
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} while (0);
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void
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rb_mjit_bop_redefined(int redefined_flag, enum ruby_basic_operators bop)
{
if (!mjit_call_p) return;
mjit_call_p = false;
}
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static void
mjit_cme_invalidate(void *data)
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{
if (!mjit_enabled || !mjit_call_p || !rb_mMJITHooks) return;
WITH_MJIT_ISOLATED({
rb_funcall(rb_mMJITHooks, rb_intern("on_cme_invalidate"), 1, SIZET2NUM((size_t)data));
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});
}
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extern int rb_workqueue_register(unsigned flags, rb_postponed_job_func_t func, void *data);
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void
rb_mjit_cme_invalidate(rb_callable_method_entry_t *cme)
{
if (!mjit_enabled || !mjit_call_p || !rb_mMJITHooks) return;
// Asynchronously hook the Ruby code since running Ruby in the middle of cme invalidation is dangerous.
rb_workqueue_register(0, mjit_cme_invalidate, (void *)cme);
}
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void
rb_mjit_before_ractor_spawn(void)
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{
if (!mjit_call_p) return;
mjit_call_p = false;
}
static void
mjit_constant_state_changed(void *data)
{
if (!mjit_enabled || !mjit_call_p || !rb_mMJITHooks) return;
RB_VM_LOCK_ENTER();
rb_vm_barrier();
WITH_MJIT_ISOLATED({
rb_funcall(rb_mMJITHooks, rb_intern("on_constant_state_changed"), 1, SIZET2NUM((size_t)data));
});
RB_VM_LOCK_LEAVE();
}
void
rb_mjit_constant_state_changed(ID id)
{
if (!mjit_enabled || !mjit_call_p || !rb_mMJITHooks) return;
// Asynchronously hook the Ruby code since this is hooked during a "Ruby critical section".
rb_workqueue_register(0, mjit_constant_state_changed, (void *)id);
}
void
rb_mjit_constant_ic_update(const rb_iseq_t *const iseq, IC ic, unsigned insn_idx)
{
if (!mjit_enabled || !mjit_call_p || !rb_mMJITHooks) return;
RB_VM_LOCK_ENTER();
rb_vm_barrier();
WITH_MJIT_ISOLATED({
rb_funcall(rb_mMJITHooks, rb_intern("on_constant_ic_update"), 3,
SIZET2NUM((size_t)iseq), SIZET2NUM((size_t)ic), UINT2NUM(insn_idx));
});
RB_VM_LOCK_LEAVE();
}
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void
rb_mjit_tracing_invalidate_all(rb_event_flag_t new_iseq_events)
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{
if (!mjit_enabled || !mjit_call_p || !rb_mMJITHooks) return;
WITH_MJIT_ISOLATED({
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rb_funcall(rb_mMJITHooks, rb_intern("on_tracing_invalidate_all"), 1, UINT2NUM(new_iseq_events));
});
}
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static void
mjit_iseq_update_references(void *data)
{
if (!mjit_enabled || !mjit_call_p || !rb_mMJITHooks) return;
WITH_MJIT_ISOLATED({
rb_funcall(rb_mMJITHooks, rb_intern("on_update_references"), 0);
});
}
void
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rb_mjit_iseq_update_references(struct rb_iseq_constant_body *const body)
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{
if (!mjit_enabled) return;
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if (body->mjit_blocks) {
body->mjit_blocks = rb_gc_location(body->mjit_blocks);
}
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// Asynchronously hook the Ruby code to avoid allocation during GC.compact.
// Using _one because it's too slow to invalidate all for each ISEQ. Thus
// not giving an ISEQ pointer.
rb_postponed_job_register_one(0, mjit_iseq_update_references, NULL);
}
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void
rb_mjit_iseq_mark(VALUE mjit_blocks)
{
if (!mjit_enabled) return;
// Note: This wasn't enough for some reason.
// We actually rely on RubyVM::MJIT::GC_REFS to mark this.
if (mjit_blocks) {
rb_gc_mark_movable(mjit_blocks);
}
}
// TODO: Use this in more places
VALUE
rb_mjit_iseq_new(rb_iseq_t *iseq)
{
return rb_funcall(rb_cMJITIseqPtr, rb_intern("new"), 1, SIZET2NUM((size_t)iseq));
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}
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void
rb_mjit_compile(const rb_iseq_t *iseq)
{
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RB_VM_LOCK_ENTER();
rb_vm_barrier();
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WITH_MJIT_ISOLATED({
VALUE iseq_ptr = rb_funcall(rb_cMJITIseqPtr, rb_intern("new"), 1, SIZET2NUM((size_t)iseq));
VALUE cfp_ptr = rb_funcall(rb_cMJITCfpPtr, rb_intern("new"), 1, SIZET2NUM((size_t)GET_EC()->cfp));
rb_funcall(rb_MJITCompiler, rb_intern("compile"), 2, iseq_ptr, cfp_ptr);
});
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RB_VM_LOCK_LEAVE();
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}
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void *
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rb_mjit_branch_stub_hit(VALUE branch_stub, int sp_offset, int target0_p)
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{
VALUE result;
RB_VM_LOCK_ENTER();
rb_vm_barrier();
rb_control_frame_t *cfp = GET_EC()->cfp;
cfp->sp += sp_offset; // preserve stack values, also using the actual sp_offset to make jit.peek_at_stack work
WITH_MJIT_ISOLATED({
VALUE cfp_ptr = rb_funcall(rb_cMJITCfpPtr, rb_intern("new"), 1, SIZET2NUM((size_t)cfp));
result = rb_funcall(rb_MJITCompiler, rb_intern("branch_stub_hit"), 3, branch_stub, cfp_ptr, RBOOL(target0_p));
});
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cfp->sp -= sp_offset; // reset for consistency with the code without the stub
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RB_VM_LOCK_LEAVE();
return (void *)NUM2SIZET(result);
}
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// Called by rb_vm_mark()
void
mjit_mark(void)
{
if (!mjit_enabled)
return;
RUBY_MARK_ENTER("mjit");
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// Pin object pointers used in this file
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rb_gc_mark(rb_MJITCompiler);
rb_gc_mark(rb_cMJITIseqPtr);
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rb_gc_mark(rb_cMJITCfpPtr);
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rb_gc_mark(rb_mMJITHooks);
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RUBY_MARK_LEAVE("mjit");
}
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void
mjit_init(const struct mjit_options *opts)
{
VM_ASSERT(mjit_enabled);
mjit_opts = *opts;
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extern uint8_t* rb_yjit_reserve_addr_space(uint32_t mem_size);
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rb_mjit_mem_block = rb_yjit_reserve_addr_space(MJIT_CODE_SIZE);
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// MJIT doesn't support miniruby, but it might reach here by MJIT_FORCE_ENABLE.
rb_mMJIT = rb_const_get(rb_cRubyVM, rb_intern("MJIT"));
if (!rb_const_defined(rb_mMJIT, rb_intern("Compiler"))) {
verbose(1, "Disabling MJIT because RubyVM::MJIT::Compiler is not defined");
mjit_enabled = false;
return;
}
rb_mMJITC = rb_const_get(rb_mMJIT, rb_intern("C"));
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VALUE rb_cMJITCompiler = rb_const_get(rb_mMJIT, rb_intern("Compiler"));
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rb_MJITCompiler = rb_funcall(rb_cMJITCompiler, rb_intern("new"), 2,
SIZET2NUM((size_t)rb_mjit_mem_block), UINT2NUM(MJIT_CODE_SIZE));
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rb_cMJITIseqPtr = rb_funcall(rb_mMJITC, rb_intern("rb_iseq_t"), 0);
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rb_cMJITCfpPtr = rb_funcall(rb_mMJITC, rb_intern("rb_control_frame_t"), 0);
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rb_mMJITHooks = rb_const_get(rb_mMJIT, rb_intern("Hooks"));
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mjit_call_p = true;
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mjit_stats_p = mjit_opts.stats;
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// Normalize options
if (mjit_opts.call_threshold == 0)
mjit_opts.call_threshold = DEFAULT_CALL_THRESHOLD;
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#ifndef HAVE_LIBCAPSTONE
if (mjit_opts.dump_disasm)
verbose(1, "libcapstone has not been linked. Ignoring --mjit-dump-disasm.");
#endif
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}
void
mjit_finish(bool close_handle_p)
{
// TODO: implement
}
// Same as `RubyVM::MJIT::C.enabled?`, but this is used before mjit_init.
static VALUE
mjit_stats_enabled_p(rb_execution_context_t *ec, VALUE self)
{
return RBOOL(mjit_stats_enabled);
}
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// Disable anything that could impact stats. It ends up disabling JIT calls as well.
static VALUE
mjit_stop_stats(rb_execution_context_t *ec, VALUE self)
{
mjit_call_p = false;
mjit_stats_p = false;
return Qnil;
}
#include "mjit.rbinc"
#endif // USE_MJIT