/* GStreamer * Copyright (C) 1999,2000 Erik Walthinsen * 2000 Wim Taymans * * cothreads.c: Cothreading routines * * This 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. * * This 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 this library; if not, write to the * Free Software Foundation, Inc., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. */ #include #include #include #include #include #include #include #include #include "gst_private.h" #include "cothreads.h" #include "gstarch.h" #include "gstlog.h" #include "gstutils.h" /* older glibc's have MAP_ANON instead of MAP_ANONYMOUS */ #ifndef MAP_ANONYMOUS #define MAP_ANONYMOUS MAP_ANON #endif #define STACK_SIZE 0x200000 #define COTHREAD_MAGIC_NUMBER 0xabcdef #define COTHREAD_MAXTHREADS 16 #define COTHREAD_STACKSIZE (STACK_SIZE/COTHREAD_MAXTHREADS) static void cothread_destroy (cothread_state *thread); struct _cothread_context { cothread_state *cothreads[COTHREAD_MAXTHREADS]; /* array of cothread states */ int ncothreads; int current; GHashTable *data; }; /* this _cothread_ctx_key is used as a GThread key to the thread's context * a GThread key is a "pointer" to memory space that is/can be different * (ie. private) for each thread. The key itself is shared among threads, * so it only needs to be initialized once. */ static GPrivate *_cothread_ctx_key; /* Disabling this define allows you to shut off a few checks in * cothread_switch. This likely will speed things up fractionally */ /* #define COTHREAD_PARANOID */ /** * cothread_context_init: * * Create and initialize a new cothread context * * Returns: the new cothread context */ cothread_context * cothread_context_init (void) { /* * initalize the whole of the cothreads context */ cothread_context *ctx; /* if there already is a cotread context for this thread, * just return it */ ctx = g_private_get (_cothread_ctx_key); if(ctx) return ctx; ctx = (cothread_context *) g_malloc (sizeof (cothread_context)); /* we consider the initiating process to be cothread 0 */ ctx->ncothreads = 1; ctx->current = 0; ctx->data = g_hash_table_new (g_str_hash, g_str_equal); GST_INFO (GST_CAT_COTHREADS, "initializing cothreads"); /* initialize the cothread key (for GThread space) if not done yet */ /* FIXME this should be done in cothread_init() */ if (_cothread_ctx_key == NULL) { _cothread_ctx_key = g_private_new (NULL); if (_cothread_ctx_key == NULL) { perror ("g_private_new"); return NULL; } } /* set this thread's context pointer */ g_private_set (_cothread_ctx_key, ctx); /* clear the cothread data */ memset (ctx->cothreads, 0, sizeof (ctx->cothreads)); /* * initialize the 0th cothread */ ctx->cothreads[0] = (cothread_state *) g_malloc0 (sizeof (cothread_state)); ctx->cothreads[0]->ctx = ctx; ctx->cothreads[0]->cothreadnum = 0; ctx->cothreads[0]->func = NULL; ctx->cothreads[0]->argc = 0; ctx->cothreads[0]->argv = NULL; ctx->cothreads[0]->priv = NULL; ctx->cothreads[0]->flags = COTHREAD_STARTED; ctx->cothreads[0]->sp = (void *) CURRENT_STACK_FRAME; ctx->cothreads[0]->pc = 0; GST_INFO (GST_CAT_COTHREADS, "0th cothread is %p at sp:%p", ctx->cothreads[0], ctx->cothreads[0]->sp); return ctx; } /** * cothread_context_free: * @ctx: the cothread context to free * * Free the cothread context. */ void cothread_context_free (cothread_context *ctx) { gint i; g_return_if_fail (ctx != NULL); GST_INFO (GST_CAT_COTHREADS, "free cothread context"); for (i = 0; i < COTHREAD_MAXTHREADS; i++) { if (ctx->cothreads[i]) { cothread_destroy (ctx->cothreads[i]); } } g_hash_table_destroy (ctx->data); g_free (ctx); } /** * cothread_create: * @ctx: the cothread context * * Create a new cothread state in the given context * * Returns: the new cothread state or NULL on error */ cothread_state* cothread_create (cothread_context *ctx) { cothread_state *cothread; void *sp; void *mmaped = 0; guchar *stack_end; gint slot = 0; g_return_val_if_fail (ctx != NULL, NULL); if (ctx->ncothreads == COTHREAD_MAXTHREADS) { /* this is pretty fatal */ g_warning ("cothread_create: attempt to create > COTHREAD_MAXTHREADS\n"); return NULL; } /* find a free spot in the stack, note slot 0 has the main thread */ for (slot = 1; slot < ctx->ncothreads; slot++) { if (ctx->cothreads[slot] == NULL) break; else if (ctx->cothreads[slot]->flags & COTHREAD_DESTROYED && slot != ctx->current) { cothread_destroy (ctx->cothreads[slot]); break; } } GST_DEBUG (GST_CAT_COTHREADS, "Found free cothread slot %d", slot); sp = CURRENT_STACK_FRAME; /* FIXME this may not be 64bit clean * could use casts to uintptr_t from inttypes.h * if only all platforms had inttypes.h */ /* FIXME: a little explanation on what this REALLY means would be nice ;) */ stack_end = (guchar *) ((gulong) sp & ~(STACK_SIZE - 1)); /* cothread stack space of the thread is mapped in reverse, with cothread 0 * stack space at the top */ cothread = (cothread_state *) (stack_end + ((slot - 1) * COTHREAD_STACKSIZE)); GST_DEBUG (GST_CAT_COTHREADS, "mmap cothread slot stack from %p to %p (size 0x%lx)", cothread, cothread + COTHREAD_STACKSIZE, (long) COTHREAD_STACKSIZE); GST_DEBUG (GST_CAT_COTHREADS, "going into mmap"); /* the mmap is used to reserve part of the stack * ie. we state explicitly that we are going to use it */ mmaped = mmap ((void *) cothread, COTHREAD_STACKSIZE, PROT_READ | PROT_WRITE | PROT_EXEC, MAP_FIXED | MAP_PRIVATE | MAP_ANONYMOUS, -1, 0); GST_DEBUG (GST_CAT_COTHREADS, "coming out of mmap"); if (mmaped == MAP_FAILED) { perror ("mmap'ing cothread stack space"); return NULL; } if (mmaped != cothread) { g_warning ("could not mmap requested memory for cothread"); return NULL; } cothread->magic_number = COTHREAD_MAGIC_NUMBER; GST_DEBUG (GST_CAT_COTHREADS, "create cothread %d with magic number 0x%x", slot, cothread->magic_number); cothread->ctx = ctx; cothread->cothreadnum = slot; cothread->flags = 0; cothread->priv = NULL; cothread->sp = ((guchar *) cothread + COTHREAD_STACKSIZE); cothread->top_sp = cothread->sp; /* for debugging purposes to detect stack overruns */ GST_INFO (GST_CAT_COTHREADS, "created cothread #%d in slot %d: %p at sp:%p", ctx->ncothreads, slot, cothread, cothread->sp); ctx->cothreads[slot] = cothread; ctx->ncothreads++; return cothread; } /** * cothread_free: * @cothread: the cothread state * * Free the given cothread state */ void cothread_free (cothread_state *cothread) { g_return_if_fail (cothread != NULL); GST_INFO (GST_CAT_COTHREADS, "flag cothread %d for destruction", cothread->cothreadnum); /* we simply flag the cothread for destruction here */ cothread->flags |= COTHREAD_DESTROYED; } static void cothread_destroy (cothread_state *cothread) { cothread_context *ctx; gint cothreadnum; g_return_if_fail (cothread != NULL); cothreadnum = cothread->cothreadnum; ctx = cothread->ctx; GST_INFO (GST_CAT_COTHREADS, "destroy cothread %d %p %d", cothreadnum, cothread, ctx->current); /* we have to unlock here because we might be switched out * with the lock held */ cothread_unlock (cothread); if (cothreadnum == 0) { GST_INFO (GST_CAT_COTHREADS, "trying to destroy cothread 0 with %d cothreads left", ctx->ncothreads); if (ctx->ncothreads > 1) { /* we're trying to destroy cothread 0 when there are still cothreads * active, so kill those first */ int i; for (i = 1; i < COTHREAD_MAXTHREADS; ++i) { if (ctx->cothreads[i] != NULL) { cothread_destroy (ctx->cothreads[i]); GST_INFO (GST_CAT_COTHREADS, "destroyed cothread %d, %d cothreads left\n", i, ctx->ncothreads); } } } g_assert (ctx->ncothreads == 1); g_free (cothread); } else { /* int res; * Replaced with version below until cothreads issues solved */ int res = 0; /* doing cleanups of the cothread create */ GST_DEBUG (GST_CAT_COTHREADS, "destroy cothread %d with magic number 0x%x", cothreadnum, cothread->magic_number); g_assert (cothread->magic_number == COTHREAD_MAGIC_NUMBER); g_assert (cothread->priv == NULL); GST_DEBUG (GST_CAT_COTHREADS, "munmap cothread slot stack from %p to %p (size 0x%lx)", cothread, cothread + COTHREAD_STACKSIZE, (long) COTHREAD_STACKSIZE); /* res = munmap (thread, COTHREAD_STACKSIZE); * Commented out waiting for resolution for cothread issue */ if (res != 0) { switch (res) { case EINVAL: g_warning ("munmap doesn't like start %p or length %d\n", cothread, COTHREAD_STACKSIZE); break; default: g_warning ("Thomas was too lazy to check for all errors, " "so I can't tell you what is wrong.\n"); break; } } } GST_DEBUG (GST_CAT_COTHREADS, "munmap done\n"); ctx->cothreads[cothreadnum] = NULL; ctx->ncothreads--; } /** * cothread_setfunc: * @thread: the cothread state * @func: the function to call * @argc: argument count for the cothread function * @argv: arguments for the cothread function * * Set the cothread function */ void cothread_setfunc (cothread_state * thread, cothread_func func, int argc, char **argv) { thread->func = func; thread->argc = argc; thread->argv = argv; thread->pc = (void *) func; } /** * cothread_stop: * @thread: the cothread to stop * * Stop the cothread and reset the stack and program counter. */ void cothread_stop (cothread_state * thread) { thread->flags &= ~COTHREAD_STARTED; thread->pc = 0; thread->sp = thread->top_sp; } /** * cothread_main: * @ctx: cothread context to find main cothread of. * * Gets the main thread. * * Returns: the #cothread_state of the main (0th) cothread. */ cothread_state * cothread_main (cothread_context * ctx) { GST_DEBUG (GST_CAT_COTHREADS, "returning %p, the 0th cothread", ctx->cothreads[0]); return ctx->cothreads[0]; } /** * cothread_current_main: * * Get the main thread in the current GThread. * * Returns: the #cothread_state of the main (0th) thread in the current GThread */ cothread_state * cothread_current_main (void) { cothread_context *ctx = g_private_get (_cothread_ctx_key); return ctx->cothreads[0]; } /** * cothread_current: * * Get the currenttly executing cothread * * Returns: the #cothread_state of the current cothread */ cothread_state * cothread_current (void) { cothread_context *ctx = g_private_get (_cothread_ctx_key); return ctx->cothreads[ctx->current]; } static void cothread_stub (void) { cothread_context *ctx = g_private_get (_cothread_ctx_key); register cothread_state *thread = ctx->cothreads[ctx->current]; GST_DEBUG_ENTER (""); thread->flags |= COTHREAD_STARTED; while (TRUE) { thread->func (thread->argc, thread->argv); /* we do this to avoid ever returning, we just switch to 0th thread */ cothread_switch (cothread_main (ctx)); } GST_DEBUG_LEAVE (""); } /** * cothread_getcurrent: * * Get the current cothread id * * Returns: the current cothread id */ int cothread_getcurrent (void) __attribute__ ((no_instrument_function)); int cothread_getcurrent (void) { cothread_context *ctx = g_private_get (_cothread_ctx_key); if (!ctx) return -1; return ctx->current; } /** * cothread_set_private: * @thread: the cothread state * @data: the data * * set private data for the cothread. */ void cothread_set_private (cothread_state *thread, gpointer data) { thread->priv = data; } /** * cothread_context_set_data: * @thread: the cothread state * @key: a key for the data * @data: the data * * adds data to a cothread */ void cothread_context_set_data (cothread_state *thread, gchar *key, gpointer data) { cothread_context *ctx = g_private_get (_cothread_ctx_key); g_hash_table_insert (ctx->data, key, data); } /** * cothread_get_private: * @thread: the cothread state * * get the private data from the cothread * * Returns: the private data of the cothread */ gpointer cothread_get_private (cothread_state *thread) { return thread->priv; } /** * cothread_context_get_data: * @thread: the cothread state * @key: a key for the data * * get data from the cothread * * Returns: the data associated with the key */ gpointer cothread_context_get_data (cothread_state * thread, gchar * key) { cothread_context *ctx = g_private_get (_cothread_ctx_key); return g_hash_table_lookup (ctx->data, key); } /** * cothreads_stackquery: * @stack: Will be set to point to the allocated stack location * @stacksize: Will be set to the size of the allocated stack * * Returns: #TRUE on success, #FALSE otherwise. */ gboolean cothread_stackquery (void **stack, glong* stacksize) { /* use either * - posix_memalign to allocate a 2M-aligned, 2M stack * or * - valloc * * memory allocated by either of these two can be freed using free () * FIXME: define how the stack grows */ #ifdef HAVE_POSIX_MEMALIGN int retval = posix_memalign (stack, STACK_SIZE, STACK_SIZE); if (retval != 0) { g_warning ("Could not posix_memalign stack !\n"); if (retval == EINVAL) g_warning ("The alignment parameter %d was not a power of two !\n", STACK_SIZE); if (retval == ENOMEM) g_warning ("Insufficient memory to allocate the request of %d !\n", STACK_SIZE); *stacksize = 0; return FALSE; } GST_DEBUG (GST_CAT_THREAD, "have posix_memalign at %p of size %d", (void *) *stack, STACK_SIZE); #else if ((*stack = valloc (STACK_SIZE)) != 0) { g_warning ("Could not valloc stack !\n"); return FALSE; } GST_DEBUG (GST_CAT_THREAD, "have valloc at %p of size %d", (void *) *stack, STACK_SIZE); #endif GST_DEBUG (GST_CAT_COTHREADS, "Got new cothread stack from %p to %p (size %ld)", *stack, *stack + STACK_SIZE - 1, (long) STACK_SIZE); *stacksize = STACK_SIZE; return TRUE; } /** * cothread_switch: * @thread: cothread state to switch to * * Switches to the given cothread state */ void cothread_switch (cothread_state * thread) { cothread_context *ctx; cothread_state *current; int enter; #ifdef COTHREAD_PARANOID if (thread == NULL) goto nothread; #endif ctx = thread->ctx; #ifdef COTHREAD_PARANOID if (ctx == NULL) goto nocontext; #endif current = ctx->cothreads[ctx->current]; #ifdef COTHREAD_PARANOID if (current == NULL) goto nocurrent; #endif if (current == thread) goto selfswitch; /* find the number of the thread to switch to */ GST_INFO (GST_CAT_COTHREAD_SWITCH, "switching from cothread #%d to cothread #%d", ctx->current, thread->cothreadnum); ctx->current = thread->cothreadnum; /* save the current stack pointer, frame pointer, and pc */ #ifdef GST_ARCH_PRESETJMP GST_ARCH_PRESETJMP (); #endif enter = setjmp (current->jmp); if (enter != 0) { GST_DEBUG (GST_CAT_COTHREADS, "enter cothread #%d %d %p<->%p (%d) %p", current->cothreadnum, enter, current->sp, current->top_sp, (char*) current->top_sp - (char*) current->sp, current->jmp); return; } GST_DEBUG (GST_CAT_COTHREADS, "exit cothread #%d %d %p<->%p (%d) %p", current->cothreadnum, enter, current->sp, current->top_sp, (char *) current->top_sp - (char *) current->sp, current->jmp); enter = 1; if (current->flags & COTHREAD_DESTROYED) { cothread_destroy (current); } GST_DEBUG (GST_CAT_COTHREADS, "set stack to %p", thread->sp); /* restore stack pointer and other stuff of new cothread */ if (thread->flags & COTHREAD_STARTED) { GST_DEBUG (GST_CAT_COTHREADS, "in thread %p", thread->jmp); /* switch to it */ longjmp (thread->jmp, 1); } else { GST_ARCH_SETUP_STACK ((char*)thread->sp); GST_ARCH_SET_SP (thread->sp); /* start it */ GST_ARCH_CALL (cothread_stub); GST_DEBUG (GST_CAT_COTHREADS, "exit thread "); ctx->current = 0; } return; #ifdef COTHREAD_PARANOID nothread: g_warning ("cothread: can't switch to NULL cothread!\n"); return; nocontext: g_warning ("cothread: there's no context, help!\n"); exit (2); nocurrent: g_warning ("cothread: there's no current thread, help!\n"); exit (2); #endif /* COTHREAD_PARANOID */ selfswitch: g_warning ("cothread: trying to switch to same thread, legal but not necessary\n"); return; } /** * cothread_lock: * @thread: cothread state to lock * * Locks the cothread state. */ void cothread_lock (cothread_state * thread) { } /** * cothread_trylock: * @thread: cothread state to try to lock * * Try to lock the cothread state * * Returns: TRUE if the cothread could be locked. */ gboolean cothread_trylock (cothread_state * thread) { return TRUE; } /** * cothread_unlock: * @thread: cothread state to unlock * * Unlock the cothread state. */ void cothread_unlock (cothread_state * thread) { }