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[/] [openrisc/] [trunk/] [or1ksim/] [testsuite/] [test-code/] [lib-inttest/] [lib-inttest.c] - Rev 787
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/* lib-inttest.c. Test of Or1ksim library interrupt funcs. Copyright (C) 1999-2006 OpenCores Copyright (C) 2010 Embecosm Limited Contributors various OpenCores participants Contributor Jeremy Bennett <jeremy.bennett@embecosm.com> This file is part of OpenRISC 1000 Architectural Simulator. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. This program 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 General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see <http: www.gnu.org/licenses/>. */ /* ---------------------------------------------------------------------------- This code is commented throughout for use with Doxygen. --------------------------------------------------------------------------*/ #include <stddef.h> #include <stdlib.h> #include <stdio.h> #include <string.h> #include "or1ksim.h" /*! Number of interrupts in PIC */ #define NUM_INTS 32 /*! Number of the PICSR SPR. */ #define SPR_PICSR 0x4802 /*! Flag indicating if we are using level sensitive interrupts */ static int level_sensitive_p; /*! Vector of interrupt numbers. */ static int *intv; /*! Count of interrupts. */ static int intc = 0; /*! Next interrupt */ static int next_int = 0; /* --------------------------------------------------------------------------*/ /*!Read upcall Upcall from Or1ksim to read a word from an external peripheral. If called this will trigger an interrupt. We may get an end case where we are asked for an interrupt, but have no more to give. We silently ignore this - it is just due to allowing the target program enough time to finish. @param[in] class_ptr A handle pass back from the initalization. Intended for C++ callers, not used here. @param[in] addr Address to read from. Ignored here. @param[in] mask Byte mask for the read. Ignored here. @param[out] rdata Buffer for the data read. Ignored here. @param[in] data_len Number of bytes in mask and rdata. @return Zero on success, non-zero on failure. Always zero here. */ /* --------------------------------------------------------------------------*/ static int read_upcall (void *class_ptr, unsigned long int addr, unsigned char mask[], unsigned char rdata[], int data_len) { if (next_int < intc) { int inum = intv[next_int++]; printf ("Triggering interrupt %d\n", inum); if (level_sensitive_p) { or1ksim_interrupt_set (inum); } else { or1ksim_interrupt (inum); } } return 0; /* Success */ } /* read_upcall () */ /* --------------------------------------------------------------------------*/ /*!Write upcall Upcall from Or1ksim to write a word to an external peripheral. If called this will clear an interrupt. The data is the number of the interrupt to clear. @param[in] class_ptr A handle pass back from the initalization. Intended for C++ callers, not used here. @param[in] addr Address to write to. Ignored here. @param[in] mask Byte mask for the write. Ignored here. @param[in] wdata The data to write. Ignored here. @param[in] data_len Number of bytes in mask and rdata. @return Zero on success, non-zero on failure. Always zero here. */ /* --------------------------------------------------------------------------*/ static int write_upcall (void *class_ptr, unsigned long int addr, unsigned char mask[], unsigned char wdata[], int data_len) { /* Extract the inum */ int inum = wdata[0]; printf ("Clearing interrupt %d\n", inum); if (level_sensitive_p) { or1ksim_interrupt_clear (inum); } else { unsigned long int picsr; if (!or1ksim_read_spr (SPR_PICSR, &picsr)) { fprintf (stderr, "ERROR failed to read PICSR: Exiting.\n"); exit (1); } picsr &= ~(1UL << inum); printf ("Cleared PICSR is 0x%08lx\n", picsr); if (!or1ksim_write_spr (SPR_PICSR, picsr)) { fprintf (stderr, "ERROR failed to write PICSR: Exiting.\n"); exit (1); } } return 0; /* Success */ } /* write_upcall () */ /* --------------------------------------------------------------------------*/ /*!Main program Build an or1ksim program using the library which loads a program and config from the command line, and then drives interrupts. Usage: lib-inttest <config-file> <image> -l|-e <int #> <int #> ... <image> is run continuously. It requests that the next interrupt event be triggered by a read upcall. Clearing an interrupt occurs when a write upcall is received. The third argument specifies whether the level senstive (-l) or edge triggered (-e) mechanism should be used for setting and clearing interrupts. @param[in] argc Number of elements in argv @param[in] argv Vector of program name and arguments @return Return code for the program. */ /* --------------------------------------------------------------------------*/ int main (int argc, char *argv[]) { const int INT_OFF = 4; /* Offset in argv of interrupts */ int i; /* General counter */ /* Parse args */ if (argc < (INT_OFF + 1)) { fprintf (stderr, "usage: lib-inttest-level <config-file> <image> -l|-e " "<int #> <int #> ...\n"); return 1; } /* What type of interrupt? */ if (0 == strcmp ("-l", argv[3])) { level_sensitive_p = 1; } else if (0 == strcmp ("-e", argv[3])) { level_sensitive_p = 0; } else { fprintf (stderr, "ERROR: Must specify -l or -e: exiting\n"); exit (1); } /* Get all the interrupts sorted out into the vector. We hold them with one greater than absolute value, so we can distinguish between +0 and -0. */ intv = malloc ((argc - INT_OFF) * sizeof (int)); for (i = INT_OFF; i < argc; i++) { int inum = atoi (argv[i]); if ((inum <= 0) || (NUM_INTS <= inum)) { printf ("Warning: Invalid interrupt # %d to raise: Exiting.\n", inum); exit (1); } intv[i - INT_OFF] = inum; } /* Global counters */ intc = argc - INT_OFF; next_int = 0; /* Dummy argv array to pass arguments to or1ksim_init. Varies depending on whether an image file is specified. */ int dummy_argc; char *dummy_argv[5]; dummy_argv[0] = "libsim"; dummy_argv[1] = "-q"; dummy_argv[2] = "-f"; dummy_argv[3] = argv[1]; dummy_argv[4] = argv[2]; dummy_argc = 5; /* Initialize the program. Put the initialization message afterwards, or it will get swamped by the Or1ksim header. */ if (0 == or1ksim_init (dummy_argc, dummy_argv, NULL, &read_upcall, &write_upcall)) { printf ("Initalization succeeded.\n"); } else { printf ("ERROR: Initalization failed.\n"); free (intv); exit (1); } /* Run in bursts of 1ms until all interrupts have been set and cleared. */ do { if (OR1KSIM_RC_OK != or1ksim_run (1.0e-3)) { printf ("ERROR: run failed\n"); free (intv); exit (1); } } while (next_int < intc); /* One more burst to allow the device driver time to complete. */ if (OR1KSIM_RC_OK != or1ksim_run (1.0e-3)) { printf ("ERROR: run failed\n"); free (intv); exit (1); } /* All interrupts should have been handled. */ free (intv); printf ("Test completed successfully.\n"); return 0; } /* main () */
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