📄 kintr0.c
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/*=================================================================//// kintr0.c//// Kernel C API Intr test 0////==========================================================================//####COPYRIGHTBEGIN####// // ------------------------------------------- // The contents of this file are subject to the Red Hat eCos Public License // Version 1.1 (the "License"); you may not use this file except in // compliance with the License. You may obtain a copy of the License at // http://www.redhat.com/ // // Software distributed under the License is distributed on an "AS IS" // basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See the // License for the specific language governing rights and limitations under // the License. // // The Original Code is eCos - Embedded Configurable Operating System, // released September 30, 1998. // // The Initial Developer of the Original Code is Red Hat. // Portions created by Red Hat are // Copyright (C) 1998, 1999, 2000 Red Hat, Inc. // All Rights Reserved. // ------------------------------------------- // //####COPYRIGHTEND####//==========================================================================//#####DESCRIPTIONBEGIN####//// Author(s): dsm// Contributors: dsm, jlarmour// Date: 1999-02-16// Description: Very basic test of interrupt objects// Options:// CYGIMP_KERNEL_INTERRUPTS_DSRS_TABLE// CYGIMP_KERNEL_INTERRUPTS_DSRS_TABLE_MAX// CYGIMP_KERNEL_INTERRUPTS_DSRS_LIST//####DESCRIPTIONEND####*/#include <cyg/kernel/kapi.h>#include <cyg/hal/hal_intr.h>#include <cyg/infra/testcase.h>#ifdef CYGFUN_KERNEL_API_C#include "testaux.h"static cyg_interrupt intr_obj[2];static cyg_handle_t intr0, intr1;static cyg_ISR_t isr0, isr1;static cyg_DSR_t dsr0, dsr1;static cyg_uint32 isr0(cyg_vector_t vector, cyg_addrword_t data){ CYG_UNUSED_PARAM(cyg_addrword_t, data); cyg_interrupt_acknowledge(vector); return 0;}static void dsr0(cyg_vector_t vector, cyg_ucount32 count, cyg_addrword_t data){ CYG_UNUSED_PARAM(cyg_vector_t, vector); CYG_UNUSED_PARAM(cyg_ucount32, count); CYG_UNUSED_PARAM(cyg_addrword_t, data);}static cyg_uint32 isr1(cyg_vector_t vector, cyg_addrword_t data){ CYG_UNUSED_PARAM(cyg_vector_t, vector); CYG_UNUSED_PARAM(cyg_addrword_t, data); return 0;}static void dsr1(cyg_vector_t vector, cyg_ucount32 count, cyg_addrword_t data){ CYG_UNUSED_PARAM(cyg_vector_t, vector); CYG_UNUSED_PARAM(cyg_ucount32, count); CYG_UNUSED_PARAM(cyg_addrword_t, data);}static bool flash( void ){ cyg_handle_t handle; cyg_interrupt intr; cyg_interrupt_create(0, 0, (cyg_addrword_t)333, isr0, dsr0, &handle, &intr ); cyg_interrupt_delete(handle); return true;}/* IMPORTANT: The calling convention for VSRs is target dependent. It is * unlikely that a plain C or C++ routine would function correctly on any * particular platform, even if it could correctly access the system * resources necessary to handle the event that caused it to be called. * VSRs usually must be written in assembly language. * * This is just a test program. The routine vsr0() below is defined simply * to define an address that will be in executable memory. If an event * causes this VSR to be called, all bets are off. If it is accidentally * installed in the vector for the realtime clock, the system will likely * freeze. */static cyg_VSR_t vsr0;static void vsr0(){}void kintr0_main( void ){ cyg_vector_t v = 11 % CYGNUM_HAL_VSR_COUNT; cyg_vector_t v1; cyg_vector_t lvl1 = 1 % (CYGNUM_HAL_ISR_COUNT); cyg_vector_t lvl2 = 15 % (CYGNUM_HAL_ISR_COUNT); int in_use; cyg_VSR_t *old_vsr, *new_vsr; CYG_TEST_INIT(); #ifdef CYGPKG_HAL_MIPS_TX39 // This can be removed when PR 17831 is fixed if ( cyg_test_is_simulator ) v1 = 12 % CYGNUM_HAL_ISR_COUNT; else /* NOTE TRAILING ELSE... */#endif v1 = 6 % CYGNUM_HAL_ISR_COUNT; CHECK(flash()); CHECK(flash()); // Make sure the chosen levels are not already in use. HAL_INTERRUPT_IN_USE( lvl1, in_use ); intr0 = 0; if (!in_use) cyg_interrupt_create(lvl1, 1, (cyg_addrword_t)777, isr0, dsr0, &intr0, &intr_obj[0]); HAL_INTERRUPT_IN_USE( lvl2, in_use ); intr1 = 0; if (!in_use && lvl1 != lvl2) cyg_interrupt_create(lvl2, 1, 888, isr1, dsr1, &intr1, &intr_obj[1]); // Check these functions at least exist cyg_interrupt_enable(); cyg_interrupt_disable(); if (intr0) cyg_interrupt_attach(intr0); if (intr1) cyg_interrupt_attach(intr1); if (intr0) cyg_interrupt_detach(intr0); if (intr1) cyg_interrupt_detach(intr1); // If this attaching interrupt replaces the previous interrupt // instead of adding to it we could be in a big mess if the // vector is being used by something important. cyg_interrupt_get_vsr( v, &old_vsr ); cyg_interrupt_set_vsr( v, vsr0 ); cyg_interrupt_get_vsr( v, &new_vsr ); CHECK( vsr0 == new_vsr ); new_vsr = NULL; cyg_interrupt_get_vsr( v, &new_vsr ); cyg_interrupt_set_vsr( v, old_vsr ); CHECK( new_vsr == vsr0 ); cyg_interrupt_set_vsr( v, new_vsr ); new_vsr = NULL; cyg_interrupt_get_vsr( v, &new_vsr ); CHECK( vsr0 == new_vsr ); cyg_interrupt_set_vsr( v, old_vsr ); CHECK( vsr0 == new_vsr ); new_vsr = NULL; cyg_interrupt_get_vsr( v, &new_vsr ); CHECK( old_vsr == new_vsr ); CHECK( NULL != vsr0 ); cyg_interrupt_mask(v1); cyg_interrupt_unmask(v1); cyg_interrupt_configure(v1, true, true); CYG_TEST_PASS_FINISH("Kernel C API Intr 0 OK");}externC voidcyg_start( void ){ kintr0_main();}#else /* def CYGFUN_KERNEL_API_C */externC voidcyg_start( void ){ CYG_TEST_INIT(); CYG_TEST_NA("Kernel C API layer disabled");}#endif /* def CYGFUN_KERNEL_API_C *//* EOF kintr0.c */⌨️ 快捷键说明
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