[patch 02/13] syslets: add syslet.h include file, user API/ABI definitions
From: Ingo Molnar
Date: Wed Feb 21 2007 - 16:20:49 EST
From: Ingo Molnar <mingo@xxxxxxx>
add include/linux/syslet.h which contains the user-space API/ABI
declarations. Add the new header to include/linux/Kbuild as well.
Signed-off-by: Ingo Molnar <mingo@xxxxxxx>
Signed-off-by: Arjan van de Ven <arjan@xxxxxxxxxxxxxxx>
---
include/linux/Kbuild | 1
include/linux/syslet.h | 155 +++++++++++++++++++++++++++++++++++++++++++++++++
2 files changed, 156 insertions(+)
Index: linux/include/linux/Kbuild
===================================================================
--- linux.orig/include/linux/Kbuild
+++ linux/include/linux/Kbuild
@@ -140,6 +140,7 @@ header-y += sockios.h
header-y += som.h
header-y += sound.h
header-y += synclink.h
+header-y += syslet.h
header-y += telephony.h
header-y += termios.h
header-y += ticable.h
Index: linux/include/linux/syslet.h
===================================================================
--- /dev/null
+++ linux/include/linux/syslet.h
@@ -0,0 +1,155 @@
+#ifndef _LINUX_SYSLET_H
+#define _LINUX_SYSLET_H
+/*
+ * The syslet subsystem - asynchronous syscall execution support.
+ *
+ * Started by Ingo Molnar:
+ *
+ * Copyright (C) 2007 Red Hat, Inc., Ingo Molnar <mingo@xxxxxxxxxx>
+ *
+ * User-space API/ABI definitions:
+ */
+
+#ifndef __user
+# define __user
+#endif
+
+/*
+ * This is the 'Syslet Atom' - the basic unit of execution
+ * within the syslet framework. A syslet always represents
+ * a single system-call plus its arguments, plus has conditions
+ * attached to it that allows the construction of larger
+ * programs from these atoms. User-space variables can be used
+ * (for example a loop index) via the special sys_umem*() syscalls.
+ *
+ * Arguments are implemented via pointers to arguments. This not
+ * only increases the flexibility of syslet atoms (multiple syslets
+ * can share the same variable for example), but is also an
+ * optimization: copy_uatom() will only fetch syscall parameters
+ * up until the point it meets the first NULL pointer. 50% of all
+ * syscalls have 2 or less parameters (and 90% of all syscalls have
+ * 4 or less parameters).
+ *
+ * [ Note: since the argument array is at the end of the atom, and the
+ * kernel will not touch any argument beyond the final NULL one, atoms
+ * might be packed more tightly. (the only special case exception to
+ * this rule would be SKIP_TO_NEXT_ON_STOP atoms, where the kernel will
+ * jump a full syslet_uatom number of bytes.) ]
+ */
+struct syslet_uatom {
+ unsigned long flags;
+ unsigned long nr;
+ long __user *ret_ptr;
+ struct syslet_uatom __user *next;
+ unsigned long __user *arg_ptr[6];
+ /*
+ * User-space can put anything in here, kernel will not
+ * touch it:
+ */
+ void __user *private;
+};
+
+/*
+ * Flags to modify/control syslet atom behavior:
+ */
+
+/*
+ * Immediately queue this syslet asynchronously - do not even
+ * attempt to execute it synchronously in the user context:
+ */
+#define SYSLET_ASYNC 0x00000001
+
+/*
+ * Never queue this syslet asynchronously - even if synchronous
+ * execution causes a context-switching:
+ */
+#define SYSLET_SYNC 0x00000002
+
+/*
+ * Do not queue the syslet in the completion ring when done.
+ *
+ * ( the default is that the final atom of a syslet is queued
+ * in the completion ring. )
+ *
+ * Some syscalls generate implicit completion events of their
+ * own.
+ */
+#define SYSLET_NO_COMPLETE 0x00000004
+
+/*
+ * Execution control: conditions upon the return code
+ * of the just executed syslet atom. 'Stop' means syslet
+ * execution is stopped and the atom is put into the
+ * completion ring:
+ */
+#define SYSLET_STOP_ON_NONZERO 0x00000008
+#define SYSLET_STOP_ON_ZERO 0x00000010
+#define SYSLET_STOP_ON_NEGATIVE 0x00000020
+#define SYSLET_STOP_ON_NON_POSITIVE 0x00000040
+
+#define SYSLET_STOP_MASK \
+ ( SYSLET_STOP_ON_NONZERO | \
+ SYSLET_STOP_ON_ZERO | \
+ SYSLET_STOP_ON_NEGATIVE | \
+ SYSLET_STOP_ON_NON_POSITIVE )
+
+/*
+ * Special modifier to 'stop' handling: instead of stopping the
+ * execution of the syslet, the linearly next syslet is executed.
+ * (Normal execution flows along atom->next, and execution stops
+ * if atom->next is NULL or a stop condition becomes true.)
+ *
+ * This is what allows true branches of execution within syslets.
+ */
+#define SYSLET_SKIP_TO_NEXT_ON_STOP 0x00000080
+
+/*
+ * This is the (per-user-context) descriptor of the async completion
+ * ring. This gets passed in to sys_async_exec():
+ */
+struct async_head_user {
+ /*
+ * Current completion ring index - managed by the kernel:
+ */
+ unsigned long kernel_ring_idx;
+ /*
+ * User-side ring index:
+ */
+ unsigned long user_ring_idx;
+
+ /*
+ * Ring of pointers to completed async syslets (i.e. syslets that
+ * generated a cachemiss and went async, returning -EASYNCSYSLET
+ * to the user context by sys_async_exec()) are queued here.
+ * Syslets that were executed synchronously (cached) are not
+ * queued here.
+ *
+ * Note: the final atom that generated the exit condition is
+ * queued here. Normally this would be the last atom of a syslet.
+ */
+ struct syslet_uatom __user **completion_ring;
+
+ /*
+ * Ring size in bytes:
+ */
+ unsigned long ring_size_bytes;
+
+ /*
+ * The head task can become a cachemiss thread later on
+ * too, if it blocks - so it needs its separate thread
+ * stack and start address too:
+ */
+ unsigned long head_stack;
+ unsigned long head_eip;
+
+ /*
+ * Newly started async kernel threads will take their
+ * user stack and user start address from here. User-space
+ * code has to check for new_thread_stack going to NULL
+ * and has to refill it with a new stack if that happens.
+ */
+ unsigned long new_thread_stack;
+ unsigned long new_thread_eip;
+};
+
+#endif
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