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[/] [openrisc/] [trunk/] [orpsocv2/] [sw/] [tests/] [or1200/] [board/] [or1200-configdetect.c] - Rev 820
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////////////////////////////////////////////////////////////////////// //// //// //// //// //// OR1K configuration detection software //// //// //// //// Description: //// //// Determine capabilities of OR1K processor. //// //// //// //// Author(s): //// //// Julius Baxter, julius@opencores.org //// //// //// //// TODO: //// //// Add further tests for optional parts of OR1K. //// //// //// //// //// ////////////////////////////////////////////////////////////////////// //// //// //// Copyright (C) 2010 Authors and OPENCORES.ORG //// //// //// //// This source file may be used and distributed without //// //// restriction provided that this copyright statement is not //// //// removed from the file and that any derivative work contains //// //// the original copyright notice and the associated disclaimer. //// //// //// //// This source file is free software; you can redistribute it //// //// and/or modify it under the terms of the GNU Lesser General //// //// Public License as published by the Free Software Foundation; //// //// either version 2.1 of the License, or (at your option) any //// //// later version. //// //// //// //// This source 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 Lesser General Public License for more //// //// details. //// //// //// //// You should have received a copy of the GNU Lesser General //// //// Public License along with this source; if not, download it //// //// from http://www.opencores.org/lgpl.shtml //// //// //// ////////////////////////////////////////////////////////////////////// #include "cpu-utils.h" #include "spr-defs.h" #include "board.h" #include "uart.h" #include "printf.h" int illegal_instruction; int print_or1k_upr(unsigned long upr) { if (!(SPR_UPR_UP & upr)) { printf("UPR not present. Cannot determine present units\n"); return 1; } printf("\nOptional units present:\n"); if (upr & SPR_UPR_DCP) printf("Data Cache\n"); if (upr & SPR_UPR_ICP) printf("Instruction Cache\n"); if (upr & SPR_UPR_DMP) printf("Data MMU\n"); if (upr & SPR_UPR_IMP) printf("Instruction MMU\n"); if (upr & SPR_UPR_MP) printf("MAC Unit\n"); if (upr & SPR_UPR_DUP) printf("Debug Unit\n"); if (upr & SPR_UPR_PCUP) printf("Performance Counters Unit\n"); if (upr & SPR_UPR_PMP) printf("Power Management Unit\n"); if (upr & SPR_UPR_PICP) printf("Programmable Interrupt Controller\n"); if (upr & SPR_UPR_TTP) printf("Tick Timer\n"); if (upr & SPR_UPR_CUP) printf("Context units\n"); return 0; } void print_or1k_dc_config (void) { unsigned long dccfgr = mfspr(SPR_DCCFGR); unsigned long ways, sets, bs; ways = (1 << (dccfgr & SPR_DCCFGR_NCW)); sets = (1 << ((dccfgr & SPR_DCCFGR_NCS)>> SPR_DCCFGR_NCS_OFF)); bs = ((dccfgr & SPR_DCCFGR_CBS) == SPR_DCCFGR_CBS) ? 32 : 16; printf("\nData Cache capabilities:\n"); printf("Ways:\t%d\t", ways); printf("Sets:\t%d\t", sets); printf("Block size: %d\n", bs); printf("Total size: %d kByte\n", (ways * sets * bs) / 1024); printf("Write strategy:\t\t\t\t\t%s\n", ((dccfgr & SPR_DCCFGR_CWS) == SPR_DCCFGR_CWS) ? "write-back" : "write-through"); printf("Cache control register:\t\t\t\t%s\n", ((dccfgr & SPR_DCCFGR_CCRI) == SPR_DCCFGR_CCRI) ? "implemented" : "not implemented"); printf("Cache block invalidate capability:\t\t%s\n", ((dccfgr & SPR_DCCFGR_CBIRI) == SPR_DCCFGR_CBIRI) ? "implemented" : "not implemented"); printf("Cache block prefetch capability:\t\t%s\n", ((dccfgr & SPR_DCCFGR_CBPRI) == SPR_DCCFGR_CBPRI) ? "implemented" : "not implemented"); printf("Cache block lock capability:\t\t\t%s\n", ((dccfgr & SPR_DCCFGR_CBLRI) == SPR_DCCFGR_CBLRI) ? "implemented" : "not implemented"); printf("Cache block flush capability:\t\t\t%s\n", ((dccfgr & SPR_DCCFGR_CBFRI) == SPR_DCCFGR_CBFRI) ? "implemented" : "not implemented"); printf("Cache block write-back capability:\t\t%s\n", ((dccfgr & SPR_DCCFGR_CBWBRI) == SPR_DCCFGR_CBWBRI) ? "implemented" : "not implemented"); } void print_or1k_dmmu_config(void) { unsigned long dmmucfgr = mfspr(SPR_DMMUCFGR); printf("\nDMMU Capabilities:\n"); printf("TLB Ways:\t%d", (dmmucfgr & SPR_DMMUCFGR_NTW) + 1); printf("\tTLB Sets:\t%d", 1 << ((dmmucfgr & SPR_DMMUCFGR_NTS)>> SPR_DMMUCFGR_NTS_OFF)); printf("\tATB:\t"); if (!(dmmucfgr & SPR_DMMUCFGR_NAE)) printf("none"); else printf("%d", (dmmucfgr & SPR_DMMUCFGR_NAE)>>5); printf("\n"); printf("Control register:\t\t\t\t%s\n", ((dmmucfgr & SPR_DMMUCFGR_CRI) == SPR_DMMUCFGR_CRI) ? "implemented" : "not implemented"); printf("Protection register:\t\t\t\t%s\n", ((dmmucfgr & SPR_DMMUCFGR_PRI) == SPR_DMMUCFGR_PRI) ? "implemented" : "not implemented"); printf("Invalidate entry register:\t\t\t%s\n", ((dmmucfgr & SPR_DMMUCFGR_TEIRI) == SPR_DMMUCFGR_TEIRI) ? "implemented" : "not implemented"); printf("TLB reload:\t\t\t\t\t%sware\n", ((dmmucfgr & SPR_DMMUCFGR_HTR) == SPR_DMMUCFGR_HTR) ? "hard" : "soft"); } void print_or1k_immu_config(void) { unsigned long immucfgr = mfspr(SPR_IMMUCFGR); printf("\nIMMU Capabilities:\n"); printf("TLB Ways:\t%d", (immucfgr & SPR_IMMUCFGR_NTW) + 1); printf("\tTLB Sets:\t%d", 1 << ((immucfgr & SPR_IMMUCFGR_NTS)>> SPR_IMMUCFGR_NTS_OFF)); printf("\tATB:\t"); if (!(immucfgr & SPR_IMMUCFGR_NAE)) printf("none"); else printf("%d", (immucfgr & SPR_IMMUCFGR_NAE)>>5); printf("\n"); printf("Control register:\t\t\t\t%s\n", ((immucfgr & SPR_IMMUCFGR_CRI) == SPR_IMMUCFGR_CRI) ? "implemented" : "not implemented"); printf("Protection register:\t\t\t\t%s\n", ((immucfgr & SPR_IMMUCFGR_PRI) == SPR_IMMUCFGR_PRI) ? "implemented" : "not implemented"); printf("Invalidate entry register:\t\t\t%s\n", ((immucfgr & SPR_IMMUCFGR_TEIRI) == SPR_IMMUCFGR_TEIRI) ? "implemented" : "not implemented"); printf("TLB reload:\t\t\t\t\t%sware\n", ((immucfgr & SPR_IMMUCFGR_HTR) == SPR_IMMUCFGR_HTR) ? "hard" : "soft"); } void print_or1k_ic_config (void) { unsigned long iccfgr = mfspr(SPR_ICCFGR); unsigned long ways, sets, bs; printf("\nInstruction Cache capabilities:\n"); ways = (1 << (iccfgr & SPR_ICCFGR_NCW)); sets = (1 << ((iccfgr & SPR_ICCFGR_NCS)>> SPR_ICCFGR_NCS_OFF)); bs = ((iccfgr & SPR_ICCFGR_CBS) == SPR_ICCFGR_CBS) ? 32 : 16; printf("Ways:\t%d\t", ways); printf("Sets:\t%d\t", sets); printf("Block size: %d\n", bs); printf("Total size: %d kByte\n", (ways * sets * bs) / 1024); printf("Cache control register:\t\t\t\t%s\n", ((iccfgr & SPR_ICCFGR_CCRI) == SPR_ICCFGR_CCRI) ? "implemented" : "not implemented"); printf("Cache block invalidate capability:\t\t%s\n", ((iccfgr & SPR_ICCFGR_CBIRI) == SPR_ICCFGR_CBIRI) ? "implemented" : "not implemented"); printf("Cache block prefetch capability:\t\t%s\n", ((iccfgr & SPR_ICCFGR_CBPRI) == SPR_ICCFGR_CBPRI) ? "implemented" : "not implemented"); printf("Cache block lock capability:\t\t\t%s\n", ((iccfgr & SPR_ICCFGR_CBLRI) == SPR_ICCFGR_CBLRI) ? "implemented" : "not implemented"); } void print_or1k_cpu_config(void) { unsigned long cpucfgr = mfspr(SPR_CPUCFGR); printf("\nCPU Capabilities:\n"); printf("Shadow GPR files: %d\n",(cpucfgr & SPR_CPUCFGR_NSGF)); printf("GPR file size: %s\n", ((cpucfgr & SPR_CPUCFGR_CGF)==SPR_CPUCFGR_CGF) ? "<32" : "32"); printf("ORBIS32: %ssupported\n", ((cpucfgr & SPR_CPUCFGR_OB32S)==SPR_CPUCFGR_OB32S) ?"":"not "); printf("ORBIS64: %ssupported\n", ((cpucfgr & SPR_CPUCFGR_OB64S)==SPR_CPUCFGR_OB64S) ?"":"not "); printf("ORFPX32: %ssupported\n", ((cpucfgr & SPR_CPUCFGR_OF32S)==SPR_CPUCFGR_OF32S) ?"":"not "); printf("ORFPX64: %ssupported\n", ((cpucfgr & SPR_CPUCFGR_OF64S)==SPR_CPUCFGR_OF64S) ?"":"not "); printf("ORVDX64: %ssupported\n", ((cpucfgr & SPR_CPUCFGR_OV64S)==SPR_CPUCFGR_OV64S) ?"":"not "); } void print_or1k_version_reg(void) { unsigned long vr = mfspr(SPR_VR); printf("\nVersion Register\n"); printf("Version:\t0x%2x",(vr & SPR_VR_VER) >> SPR_VR_VER_OFF); printf("\tConfig:\t%d",(vr & SPR_VR_CFG) >> SPR_VR_CFG_OFF); printf("\tRevision:\t%d",(vr & SPR_VR_REV)); printf("\n"); } void print_or1k_du_config(void) { unsigned long dcfgr = mfspr(SPR_DCFGR); printf("\nDebug Unit Capabilities:\n"); printf("Debug Pairs: %d\n", (dcfgr & SPR_DCFGR_NDP) + 1); printf("Watchpoint counters:\t\t\t\t%simplemented\n", ((dcfgr & SPR_DCFGR_WPCI)==SPR_DCFGR_WPCI) ?"":"not "); } /* Handler for illegal instructions, to indicate if the exception was tripped */ void illegal_insn_handler(void) { // Step past illegal instruction unsigned long epcr = mfspr(SPR_EPCR_BASE); epcr += 4; mtspr(SPR_EPCR_BASE,epcr); illegal_instruction = 1; return; } /* Call function we passed, return 1 if supported by hardware, 0 if not */ int or1k_insn_hw_support_detect(void (* function)(void)) { /* Install illegal instruction handler */ add_handler(7, illegal_insn_handler); /* Clear illegal instruction indicator */ illegal_instruction = 0; /* Call function that tests hardware support of an instruction, potentially resulting in illegal instruction exception occurring. */ (*function)(); return !illegal_instruction; } void or1k_test_mul (void) { volatile int a, b, c; a = b = 12; asm ("l.mul %0,%1,%2" : "=r" (c) : "r" (a), "r" (b)); return; } void or1k_test_div (void) { volatile int a, b, c; a = b = 12; asm ("l.div %0,%1,%2" : "=r" (c) : "r" (a), "r" (b)); return; } void or1k_test_ff1 (void) { volatile int a, b; a = b = 12; asm ("l.ff1 %0,%1" : "=r" (a) : "r" (b)); return; } void or1k_test_fl1 (void) { volatile int a, b; a = b = 12; asm ("l.fl1 %0,%1" : "=r" (a) : "r" (b)); return; } void or1k_test_lfrem (void) { volatile int a, b, c; a = b = 12; asm ("lf.rem.s %0,%1,%2" : "=r" (c) : "r" (a), "r" (b)); return; } void print_or1k_insn_support (char* insnname,void (* function)(void)) { printf("\n%s instruction:\t %ssupported by hardware\n", insnname, or1k_insn_hw_support_detect(function) ? "" : "not "); } int main (void) { unsigned long upr; uart_init(DEFAULT_UART); printf("\nOR1200 capability detection\n"); print_or1k_cpu_config(); print_or1k_version_reg(); /* Unit present register */ upr = mfspr(SPR_UPR); if (print_or1k_upr(upr)) /* No UPR - can't tell what's here */ return 0; if (upr & SPR_UPR_DCP) print_or1k_dc_config(); if (upr & SPR_UPR_ICP) print_or1k_ic_config(); if (upr & SPR_UPR_DMP) print_or1k_dmmu_config(); if (upr & SPR_UPR_IMP) print_or1k_immu_config(); if (upr & SPR_UPR_DUP) print_or1k_du_config(); /* Now test for supported instructions */ print_or1k_insn_support("Multiply", or1k_test_mul); print_or1k_insn_support("Multiply", or1k_test_mul); print_or1k_insn_support("Divide", or1k_test_div); print_or1k_insn_support("Find first '1'", or1k_test_ff1); print_or1k_insn_support("Find last '1'", or1k_test_fl1); print_or1k_insn_support("Floating remainder", or1k_test_lfrem); printf("End of capabilities testing\n"); }
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