bsnes/libco/sjlj.c

/*
  note this was designed for UNIX systems. Based on ideas expressed in a paper by Ralf Engelschall.
  for SJLJ on other systems, one would want to rewrite springboard() and co_create() and hack the jmb_buf stack pointer.
*/

#define LIBCO_C
#include "libco.h"
#include "settings.h"

#define _XOPEN_SOURCE 500
#include <stdlib.h>
#include <signal.h>
#include <setjmp.h>

#ifdef __cplusplus
extern "C" {
#endif

typedef struct {
  sigjmp_buf context;
  void (*coentry)(void);
  void* stack;
} cothread_struct;

static thread_local cothread_struct co_primary;
static thread_local cothread_struct* creating;
static thread_local cothread_struct* co_running = 0;

static void springboard(int ignored) {
  if(sigsetjmp(creating->context, 0)) {
    co_running->coentry();
  }
}

cothread_t co_active() {
  if(!co_running) co_running = &co_primary;
  return (cothread_t)co_running;
}

cothread_t co_create(unsigned int size, void (*coentry)(void)) {
  if(!co_running) co_running = &co_primary;

  cothread_struct *thread = (cothread_struct*)malloc(sizeof(cothread_struct));
  if(thread) {
    struct sigaction handler;
    struct sigaction old_handler;

    stack_t stack;
    stack_t old_stack;

    thread->coentry = thread->stack = 0;

    stack.ss_flags = 0;
    stack.ss_size = size;
    thread->stack = stack.ss_sp = malloc(size);
    if(stack.ss_sp && !sigaltstack(&stack, &old_stack)) {
      handler.sa_handler = springboard;
      handler.sa_flags = SA_ONSTACK;
      sigemptyset(&handler.sa_mask);
      creating = thread;

      if(!sigaction(SIGUSR1, &handler, &old_handler)) {
        if(!raise(SIGUSR1)) {
          thread->coentry = coentry;
        }
        sigaltstack(&old_stack, 0);
        sigaction(SIGUSR1, &old_handler, 0);
      }
    }

    if(thread->coentry != coentry) {
      co_delete(thread);
      thread = 0;
    }
  }

  return (cothread_t)thread;
}

void co_delete(cothread_t cothread) {
  if(cothread) {
    if(((cothread_struct*)cothread)->stack) {
      free(((cothread_struct*)cothread)->stack);
    }
    free(cothread);
  }
}

void co_switch(cothread_t cothread) {
  if(!sigsetjmp(co_running->context, 0)) {
    co_running = (cothread_struct*)cothread;
    siglongjmp(co_running->context, 1);
  }
}

#ifdef __cplusplus
}
#endif
First version split into asnes and bsnes. 2010-08-09 23:28:56 +10:00			`/*`
Update to v101r18 release. byuu says: Changelog: - added 30 new PAL games to icarus (courtesy of Mikerochip) - new version of libco no longer requires mprotect nor W\|X permissions - nall: default C compiler to -std=c11 instead of -std=c99 - nall: use `-fno-strict-aliasing` during compilation - updated nall/certificates (hopefully for the last time) - updated nall/http to newer coding conventions - nall: improve handling of range() function I didn't really work on higan at all, this is mostly just a release because lots of other things have changed. The most interesting is `-fno-strict-aliasing` ... basically, it joins `-fwrapv` as being "stop the GCC developers from doing really evil shit that could lead to security vulnerabilities or instabilities." For the most part, it's a ~2% speed penalty for higan. Except for the Sega Genesis, where it's a ~10% speedup. I have no idea how that's possible, but clearly something's going very wrong with strict aliasing on the Genesis core. So ... it is what it is. If you need the performance for the non-Genesis cores, you can turn it off in your builds. But I'm getting quite sick of C++'s "surprises" and clever compiler developers, so I'm keeping it on in all of my software going forward. 2016-09-14 21:55:53 +10:00			`note this was designed for UNIX systems. Based on ideas expressed in a paper by Ralf Engelschall.`
			`for SJLJ on other systems, one would want to rewrite springboard() and co_create() and hack the jmb_buf stack pointer.`
			`*/`
First version split into asnes and bsnes. 2010-08-09 23:28:56 +10:00
			`#define LIBCO_C`
			`#include "libco.h"`
Update to v103r20 release. byuu says: Changelog: - ruby/audio/xaudio2: ported to new ruby API - ruby/video/cgl: ported to new ruby API (untested, won't compile) - ruby/video/directdraw: ported to new ruby API - ruby/video/gdi: ported to new ruby API - ruby/video/glx: ported to new ruby API - ruby/video/wgl: ported to new ruby API - ruby/video/opengl: code cleanups The macOS CGL driver is sure to have compilation errors. If someone will post the compilation error log, I can hopefully fix it in one or two iterations of WIPs. I am unable to test the Xorg GLX driver, because my FreeBSD desktop video card drivers do not support OpenGL 3.2. If the driver doesn't work, I'm going to need help tracking down what broke from the older releases. The real fun is still yet to come ... all the Linux-only drivers, where I don't have a single Linux machine to test with. Todo: - libco/fiber - libco/ucontext (I should really just delete this) - tomoko: hide main UI window when in exclusive fullscreen mode 2017-07-24 15:23:40 +10:00			`#include "settings.h"`
Update to v094r29 release. byuu says: Note: for Windows users, please go to nall/intrinsics.hpp line 60 and correct the typo from "DISPLAY_WINDOW" to "DISPLAY_WINDOWS" before compiling, otherwise things won't work at all. This will be a really major WIP for the core SNES emulation, so please test as thoroughly as possible. I rewrote the 65816 CPU core's dispatcher from a jump table to a switch table. This was so that I could pass class variables as parameters to opcodes without crazy theatrics. With that, I killed the regs.r[N] stuff, the flag_t operator\|=, &=, ^= stuff, and all of the template versions of opcodes. I also removed some stupid pointless flag tests in xcn and pflag that would always be true. I sure hope that AWJ is happy with this; because this change was so that my flag assignments and branch tests won't need to build regs.P into a full 8-bit variable anymore. It does of course incur a slight performance hit when you pass in variables by-value to functions, but it should help with binary size (and thus cache) by reducing a lot of extra functions. (I know I could have used template parameters for some things even with a switch table, but chose not to for the aforementioned reasons.) Overall, it's about a ~1% speedup from the previous build. The CPU core instructions were never a bottleneck, but I did want to fix the P flag building stuff because that really was a dumb mistake v_v' 2015-06-22 23:31:49 +10:00
Update to v103r19 release. byuu says: Changelog: - tomoko: Application::onMain assigned at end of Program::Program() [Screwtape]¹ - libco: add `#define _XOPEN_SOURCE 500` to fix compilation of sjlj.c [Screwtape] - ruby/audio/openal: fixed device driver string list enumeration - ruby/audio/wasapi: changing device re-initializes the driver now - ruby/audio/wasapi: probably a pointless change, but don't fill the buffer beyond the queue size with silence - ruby/video/xvideo: renamed from ruby/video/xv - ruby/video/xvideo: check to see if `XV_AUTOPAINT_COLORKEY` exists before setting it [SuperMikeMan] - ruby/video/xvideo: align buffer sizes to be evenly divisible by four [SuperMikeMan] - ruby/video/xvideo: fail nicely without crashing (hopefully) - ruby/video/xvideo: add support for YV12 and I420 12-bit planar YUV formats² ¹: prevents crashes when drivers fail to initialize from running the main loop that polls input drivers before the input driver is initialized (or fails to initialize itself.) Some drivers still don't block their main functions when initialization fails, so they will still crash, but I'll work to fix them. ²: this was a major pain in the ass, heh. You only get one chroma sample for every four luma samples, so the color reproduction is even worse than UYVY and YUYV (which is two to four chroma to luma.) Further, the planar format took forever to figure out. Apparently it doesn't care what portion of the image you specify in XvShmPutImage, it expects you to use the buffer dimensions to locate the U and V portions of the data. This is probably the most thorough X-Video driver in existence now. Notes: - forgot to rename the configuration settings dialog window title to just "Settings" 2017-07-23 19:18:16 +10:00			`#define _XOPEN_SOURCE 500`
First version split into asnes and bsnes. 2010-08-09 23:28:56 +10:00			`#include <stdlib.h>`
			`#include <signal.h>`
			`#include <setjmp.h>`

			`#ifdef __cplusplus`
			`extern "C" {`
			`#endif`

			`typedef struct {`
			`sigjmp_buf context;`
			`void (*coentry)(void);`
Update to v101r18 release. byuu says: Changelog: - added 30 new PAL games to icarus (courtesy of Mikerochip) - new version of libco no longer requires mprotect nor W\|X permissions - nall: default C compiler to -std=c11 instead of -std=c99 - nall: use `-fno-strict-aliasing` during compilation - updated nall/certificates (hopefully for the last time) - updated nall/http to newer coding conventions - nall: improve handling of range() function I didn't really work on higan at all, this is mostly just a release because lots of other things have changed. The most interesting is `-fno-strict-aliasing` ... basically, it joins `-fwrapv` as being "stop the GCC developers from doing really evil shit that could lead to security vulnerabilities or instabilities." For the most part, it's a ~2% speed penalty for higan. Except for the Sega Genesis, where it's a ~10% speedup. I have no idea how that's possible, but clearly something's going very wrong with strict aliasing on the Genesis core. So ... it is what it is. If you need the performance for the non-Genesis cores, you can turn it off in your builds. But I'm getting quite sick of C++'s "surprises" and clever compiler developers, so I'm keeping it on in all of my software going forward. 2016-09-14 21:55:53 +10:00			`void* stack;`
First version split into asnes and bsnes. 2010-08-09 23:28:56 +10:00			`} cothread_struct;`

			`static thread_local cothread_struct co_primary;`
Update to v101r18 release. byuu says: Changelog: - added 30 new PAL games to icarus (courtesy of Mikerochip) - new version of libco no longer requires mprotect nor W\|X permissions - nall: default C compiler to -std=c11 instead of -std=c99 - nall: use `-fno-strict-aliasing` during compilation - updated nall/certificates (hopefully for the last time) - updated nall/http to newer coding conventions - nall: improve handling of range() function I didn't really work on higan at all, this is mostly just a release because lots of other things have changed. The most interesting is `-fno-strict-aliasing` ... basically, it joins `-fwrapv` as being "stop the GCC developers from doing really evil shit that could lead to security vulnerabilities or instabilities." For the most part, it's a ~2% speed penalty for higan. Except for the Sega Genesis, where it's a ~10% speedup. I have no idea how that's possible, but clearly something's going very wrong with strict aliasing on the Genesis core. So ... it is what it is. If you need the performance for the non-Genesis cores, you can turn it off in your builds. But I'm getting quite sick of C++'s "surprises" and clever compiler developers, so I'm keeping it on in all of my software going forward. 2016-09-14 21:55:53 +10:00			`static thread_local cothread_struct* creating;`
			`static thread_local cothread_struct* co_running = 0;`
First version split into asnes and bsnes. 2010-08-09 23:28:56 +10:00
			`static void springboard(int ignored) {`
			`if(sigsetjmp(creating->context, 0)) {`
			`co_running->coentry();`
			`}`
			`}`

			`cothread_t co_active() {`
			`if(!co_running) co_running = &co_primary;`
			`return (cothread_t)co_running;`
			`}`

			`cothread_t co_create(unsigned int size, void (*coentry)(void)) {`
			`if(!co_running) co_running = &co_primary;`

			`cothread_struct thread = (cothread_struct)malloc(sizeof(cothread_struct));`
			`if(thread) {`
			`struct sigaction handler;`
			`struct sigaction old_handler;`

			`stack_t stack;`
			`stack_t old_stack;`

			`thread->coentry = thread->stack = 0;`

			`stack.ss_flags = 0;`
			`stack.ss_size = size;`
			`thread->stack = stack.ss_sp = malloc(size);`
			`if(stack.ss_sp && !sigaltstack(&stack, &old_stack)) {`
			`handler.sa_handler = springboard;`
			`handler.sa_flags = SA_ONSTACK;`
			`sigemptyset(&handler.sa_mask);`
			`creating = thread;`

			`if(!sigaction(SIGUSR1, &handler, &old_handler)) {`
			`if(!raise(SIGUSR1)) {`
			`thread->coentry = coentry;`
			`}`
			`sigaltstack(&old_stack, 0);`
			`sigaction(SIGUSR1, &old_handler, 0);`
			`}`
			`}`

			`if(thread->coentry != coentry) {`
			`co_delete(thread);`
			`thread = 0;`
			`}`
			`}`

			`return (cothread_t)thread;`
			`}`

			`void co_delete(cothread_t cothread) {`
			`if(cothread) {`
			`if(((cothread_struct*)cothread)->stack) {`
			`free(((cothread_struct*)cothread)->stack);`
			`}`
			`free(cothread);`
			`}`
			`}`

			`void co_switch(cothread_t cothread) {`
			`if(!sigsetjmp(co_running->context, 0)) {`
			`co_running = (cothread_struct*)cothread;`
			`siglongjmp(co_running->context, 1);`
			`}`
			`}`

			`#ifdef __cplusplus`
			`}`
			`#endif`