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/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License, Version 1.0 only * (the "License"). You may not use this file except in compliance * with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END * * $FreeBSD: release/9.1.0/sys/cddl/compat/opensolaris/sys/cyclic_impl.h 216254 2010-12-07 12:25:26Z avg $ * */ /* * Copyright 2004 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #ifndef _COMPAT_OPENSOLARIS_SYS_CYCLIC_IMPL_H_ #define _COMPAT_OPENSOLARIS_SYS_CYCLIC_IMPL_H_ #include <sys/cyclic.h> /* * Cyclic Subsystem Backend-supplied Interfaces * -------------------------------------------- * * 0 Background * * The design, implementation and interfaces of the cyclic subsystem are * covered in detail in block comments in the implementation. This * comment covers the interface from the cyclic subsystem into the cyclic * backend. The backend is specified by a structure of function pointers * defined below. * * 1 Overview * * cyb_configure() <-- Configures the backend on the specified CPU * cyb_unconfigure() <-- Unconfigures the backend * cyb_enable() <-- Enables the CY_HIGH_LEVEL interrupt source * cyb_disable() <-- Disables the CY_HIGH_LEVEL interrupt source * cyb_reprogram() <-- Reprograms the CY_HIGH_LEVEL interrupt source * cyb_xcall() <-- Cross calls to the specified CPU * * 2 cyb_arg_t cyb_configure(cpu_t *) * * 2.1 Overview * * cyb_configure() should configure the specified CPU for cyclic operation. * * 2.2 Arguments and notes * * cyb_configure() should initialize any backend-specific per-CPU * structures for the specified CPU. cyb_configure() will be called for * each CPU (including the boot CPU) during boot. If the platform * supports dynamic reconfiguration, cyb_configure() will be called for * new CPUs as they are configured into the system. * * 2.3 Return value * * cyb_configure() is expected to return a cookie (a cyb_arg_t, which is * of type void *) which will be used as the first argument for all future * cyclic calls into the backend on the specified CPU. * * 2.4 Caller's context * * cpu_lock will be held. The caller's CPU is unspecified, and may or * may not be the CPU specified to cyb_configure(). * * 3 void cyb_unconfigure(cyb_arg_t arg) * * 3.1 Overview * * cyb_unconfigure() should unconfigure the specified backend. * * 3.2 Arguments and notes * * The only argument to cyb_unconfigure() is a cookie as returned from * cyb_configure(). * * cyb_unconfigure() should free any backend-specific per-CPU structures * for the specified backend. cyb_unconfigure() will _only_ be called on * platforms which support dynamic reconfiguration. If the platform does * not support dynamic reconfiguration, cyb_unconfigure() may panic. * * After cyb_unconfigure() returns, the backend must not call cyclic_fire() * on the corresponding CPU; doing so will result in a bad trap. * * 3.3 Return value * * None. * * 3.4 Caller's context * * cpu_lock will be held. The caller's CPU is unspecified, and may or * may not be the CPU specified to cyb_unconfigure(). The specified * CPU is guaranteed to exist at the time cyb_unconfigure() is called. * The cyclic subsystem is guaranteed to be suspended when cyb_unconfigure() * is called, and interrupts are guaranteed to be disabled. * * 4 void cyb_enable(cyb_arg_t arg) * * 4.1 Overview * * cyb_enable() should enable the CY_HIGH_LEVEL interrupt source on * the specified backend. * * 4.2 Arguments and notes * * The only argument to cyb_enable() is a backend cookie as returned from * cyb_configure(). * * cyb_enable() will only be called if a) the specified backend has never * been enabled or b) the specified backend has been explicitly disabled with * cyb_disable(). In either case, cyb_enable() will only be called if * the cyclic subsystem wishes to add a cyclic to the CPU corresponding * to the specified backend. cyb_enable() will be called before * cyb_reprogram() for a given backend. * * cyclic_fire() should not be called on a CPU which has not had its backend * explicitly cyb_enable()'d, but to do so does not constitute fatal error. * * 4.3 Return value * * None. * * 4.4 Caller's context * * cyb_enable() will only be called from CY_HIGH_LEVEL context on the CPU * corresponding to the specified backend. * * 5 void cyb_disable(cyb_arg_t arg) * * 5.1 Overview * * cyb_disable() should disable the CY_HIGH_LEVEL interrupt source on * the specified backend. * * 5.2 Arguments and notes * * The only argument to cyb_disable() is a backend cookie as returned from * cyb_configure(). * * cyb_disable() will only be called on backends which have been previously * been cyb_enable()'d. cyb_disable() will be called when all cyclics have * been juggled away or removed from a cyb_enable()'d CPU. * * cyclic_fire() should not be called on a CPU which has had its backend * explicitly cyb_disable()'d, but to do so does not constitute fatal * error. cyb_disable() is thus not required to check for a pending * CY_HIGH_LEVEL interrupt. * * 5.3 Return value * * None. * * 5.4 Caller's context * * cyb_disable() will only be called from CY_HIGH_LEVEL context on the CPU * corresponding to the specified backend. * * 6 void cyb_reprogram(cyb_arg_t arg, hrtime_t time) * * 6.1 Overview * * cyb_reprogram() should reprogram the CY_HIGH_LEVEL interrupt source * to fire at the absolute time specified. * * 6.2 Arguments and notes * * The first argument to cyb_reprogram() is a backend cookie as returned from * cyb_configure(). * * The second argument is an absolute time at which the CY_HIGH_LEVEL * interrupt should fire. The specified time _may_ be in the past (albeit * the very recent past). If this is the case, the backend should generate * a CY_HIGH_LEVEL interrupt as soon as possible. * * The platform should not assume that cyb_reprogram() will be called with * monotonically increasing values. * * If the platform does not allow for interrupts at arbitrary times in the * future, cyb_reprogram() may do nothing -- as long as cyclic_fire() is * called periodically at CY_HIGH_LEVEL. While this is clearly suboptimal * (cyclic granularity will be bounded by the length of the period between * cyclic_fire()'s), it allows the cyclic subsystem to be implemented on * inferior hardware. * * 6.3 Return value * * None. * * 6.4 Caller's context * * cyb_reprogram() will only be called from CY_HIGH_LEVEL context on the CPU * corresponding to the specified backend. * * 10 cyb_xcall(cyb_arg_t arg, cpu_t *, void(*func)(void *), void *farg) * * 10.1 Overview * * cyb_xcall() should execute the specified function on the specified CPU. * * 10.2 Arguments and notes * * The first argument to cyb_restore_level() is a backend cookie as returned * from cyb_configure(). The second argument is a CPU on which the third * argument, a function pointer, should be executed. The fourth argument, * a void *, should be passed as the argument to the specified function. * * cyb_xcall() must provide exactly-once semantics. If the specified * function is called more than once, or not at all, the cyclic subsystem * will become internally inconsistent. The specified function must be * be executed on the specified CPU, but may be executed in any context * (any interrupt context or kernel context). * * cyb_xcall() cannot block. Any resources which cyb_xcall() needs to * acquire must thus be protected by synchronization primitives which * never require the caller to block. * * 10.3 Return value * * None. * * 10.4 Caller's context * * cpu_lock will be held and kernel preemption may be disabled. The caller * may be unable to block, giving rise to the constraint outlined in * 10.2, above. * */ typedef struct cyc_backend { cyb_arg_t (*cyb_configure)(cpu_t *); void (*cyb_unconfigure)(cyb_arg_t); void (*cyb_enable)(cyb_arg_t); void (*cyb_disable)(cyb_arg_t); void (*cyb_reprogram)(cyb_arg_t, hrtime_t); void (*cyb_xcall)(cyb_arg_t, cpu_t *, cyc_func_t, void *); cyb_arg_t cyb_arg; } cyc_backend_t; #define CYF_FREE 0x0001 typedef struct cyclic { hrtime_t cy_expire; hrtime_t cy_interval; void (*cy_handler)(void *); void *cy_arg; uint16_t cy_flags; } cyclic_t; typedef struct cyc_cpu { cpu_t *cyp_cpu; cyc_index_t *cyp_heap; cyclic_t *cyp_cyclics; cyc_index_t cyp_nelems; cyc_index_t cyp_size; cyc_backend_t *cyp_backend; struct mtx cyp_mtx; } cyc_cpu_t; typedef struct cyc_omni_cpu { cyc_cpu_t *cyo_cpu; cyc_index_t cyo_ndx; void *cyo_arg; struct cyc_omni_cpu *cyo_next; } cyc_omni_cpu_t; typedef struct cyc_id { cyc_cpu_t *cyi_cpu; cyc_index_t cyi_ndx; struct cyc_id *cyi_prev; struct cyc_id *cyi_next; cyc_omni_handler_t cyi_omni_hdlr; cyc_omni_cpu_t *cyi_omni_list; } cyc_id_t; typedef struct cyc_xcallarg { cyc_cpu_t *cyx_cpu; cyc_handler_t *cyx_hdlr; cyc_time_t *cyx_when; cyc_index_t cyx_ndx; cyc_index_t *cyx_heap; cyclic_t *cyx_cyclics; cyc_index_t cyx_size; uint16_t cyx_flags; int cyx_wait; } cyc_xcallarg_t; #define CY_DEFAULT_PERCPU 1 #define CY_PASSIVE_LEVEL -1 #define CY_WAIT 0 #define CY_NOWAIT 1 #define CYC_HEAP_PARENT(ndx) (((ndx) - 1) >> 1) #define CYC_HEAP_RIGHT(ndx) (((ndx) + 1) << 1) #define CYC_HEAP_LEFT(ndx) ((((ndx) + 1) << 1) - 1) #endif