Annotation of sys/arch/aviion/aviion/m8820x.c, Revision 1.1
1.1 ! nbrk 1: /* $OpenBSD: m8820x.c,v 1.4 2006/05/21 12:22:01 miod Exp $ */
! 2: /*
! 3: * Copyright (c) 2004, 2006, Miodrag Vallat.
! 4: *
! 5: * Redistribution and use in source and binary forms, with or without
! 6: * modification, are permitted provided that the following conditions
! 7: * are met:
! 8: * 1. Redistributions of source code must retain the above copyright
! 9: * notice, this list of conditions and the following disclaimer.
! 10: * 2. Redistributions in binary form must reproduce the above copyright
! 11: * notice, this list of conditions and the following disclaimer in the
! 12: * documentation and/or other materials provided with the distribution.
! 13: *
! 14: * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
! 15: * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
! 16: * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
! 17: * DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT,
! 18: * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
! 19: * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
! 20: * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
! 21: * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
! 22: * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
! 23: * ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
! 24: * POSSIBILITY OF SUCH DAMAGE.
! 25: */
! 26:
! 27: #include <sys/param.h>
! 28: #include <sys/systm.h>
! 29:
! 30: #include <uvm/uvm_extern.h>
! 31:
! 32: #include <machine/asm_macro.h>
! 33: #include <machine/avcommon.h>
! 34: #include <machine/cmmu.h>
! 35: #include <machine/cpu.h>
! 36: #include <machine/m8820x.h>
! 37: #include <machine/prom.h>
! 38:
! 39: /*
! 40: * This routine sets up the CPU/CMMU configuration.
! 41: */
! 42: void
! 43: m8820x_setup_board_config()
! 44: {
! 45: struct m8820x_cmmu *cmmu;
! 46: struct scm_cpuconfig scc;
! 47: int type, cpu_num, cmmu_num;
! 48: volatile u_int *cr;
! 49: u_int32_t whoami;
! 50:
! 51: /*
! 52: * First, find if any CPU0 CMMU is a 88204. If so, we can
! 53: * issue the CPUCONFIG system call to get the configuration
! 54: * details.
! 55: */
! 56: if (badaddr((vaddr_t)m8820x_cmmu[0].cmmu_regs, 4) != 0 ||
! 57: badaddr((vaddr_t)m8820x_cmmu[1].cmmu_regs, 4) != 0) {
! 58: printf("CPU0: missing CMMUs ???\n");
! 59: scm_halt();
! 60: /* NOTREACHED */
! 61: }
! 62:
! 63: cr = (void *)m8820x_cmmu[0].cmmu_regs;
! 64: type = CMMU_TYPE(cr[CMMU_IDR]);
! 65:
! 66: if (type != M88204_ID && type != M88200_ID) {
! 67: printf("CPU0: unrecognized CMMU type %d\n", type);
! 68: scm_halt();
! 69: /* NOTREACHED */
! 70: }
! 71:
! 72: /*
! 73: * Try and use the CPUCONFIG system call to get all the information
! 74: * we need. This is theoretically only available on 88204-based
! 75: * machines, but it can't hurt to give it a try.
! 76: */
! 77: if (scm_cpuconfig(&scc) == 0 &&
! 78: scc.version == SCM_CPUCONFIG_VERSION)
! 79: goto knowledge;
! 80:
! 81: /*
! 82: * XXX Instead of deciding on the CMMU type, we should decide on
! 83: * XXX the board type instead. But then, I am not sure not all
! 84: * XXX 88204-based designs have the WHOAMI register... -- miod
! 85: */
! 86: switch (type) {
! 87: case M88204_ID:
! 88: /*
! 89: * Probe CMMU addresses to discover which CPU slots are
! 90: * populated. Actually, we'll simply check how many upper
! 91: * slots we can ignore, and keep using badaddr() to cope
! 92: * with unpopulated slots.
! 93: */
! 94: hardprobe:
! 95: /*
! 96: * First, we'll assume we are in a 2:1 configuration, thus no
! 97: * CMMU split scheme in use.
! 98: */
! 99: scc.igang = scc.dgang = 1;
! 100: scc.isplit = scc.dsplit = 0;
! 101:
! 102: /*
! 103: * Probe CMMU addresses to discover which CPU slots are
! 104: * populated. Actually, we'll simply check how many upper
! 105: * slots we can ignore, and keep using badaddr() to cope
! 106: * with unpopulated slots.
! 107: */
! 108: cmmu = m8820x_cmmu + 7;
! 109: for (max_cmmus = 7; max_cmmus != 0; max_cmmus--, cmmu--) {
! 110: if (badaddr((vaddr_t)cmmu->cmmu_regs, 4) == 0)
! 111: break;
! 112: }
! 113: scc.cpucount = (1 + max_cmmus) >> 1;
! 114: break;
! 115:
! 116: case M88200_ID:
! 117: /*
! 118: * Deduce our configuration from the WHOAMI register.
! 119: */
! 120: whoami = *(volatile u_int32_t *)AV_WHOAMI;
! 121: switch ((whoami & 0xf0) >> 4) {
! 122: case 0: /* 4 CPUs, 8 CMMUs */
! 123: scc.cpucount = 4;
! 124: break;
! 125: case 5: /* 2 CPUs, 4 CMMUs */
! 126: scc.cpucount = 2;
! 127: break;
! 128: case 0x0a: /* 1 CPU, 2 CMMU */
! 129: scc.cpucount = 1;
! 130: break;
! 131: case 3: /* 2 CPUs, 12 CMMUs */
! 132: case 7: /* 1 CPU, 6 CMMU */
! 133: printf("MAYDAY, 6:1 CMMU configuration (whoami %x)"
! 134: " but no CPUCONFIG information\n", whoami);
! 135: scm_halt();
! 136: /* NOTREACHED */
! 137: break;
! 138: default:
! 139: printf("unrecognized CMMU configuration, whoami %x\n",
! 140: whoami);
! 141: #if 0
! 142: scm_halt();
! 143: #else
! 144: goto hardprobe;
! 145: #endif
! 146: }
! 147: /*
! 148: * Oh, and we are in a 2:1 configuration, thus no
! 149: * CMMU split scheme in use.
! 150: */
! 151: scc.igang = scc.dgang = 1;
! 152: scc.isplit = scc.dsplit = 0;
! 153:
! 154: break;
! 155: }
! 156:
! 157: knowledge:
! 158: if (scc.igang != scc.dgang ||
! 159: scc.igang == 0 || scc.igang > 2) {
! 160: printf("Unsupported CMMU to CPU ratio (%dI/%dD)\n",
! 161: scc.igang, scc.dgang);
! 162: scm_halt();
! 163: /* NOTREACHED */
! 164: }
! 165:
! 166: max_cpus = scc.cpucount;
! 167: cmmu_shift = scc.igang == 1 ? 1 : 2;
! 168: max_cmmus = max_cpus << scc.igang;
! 169:
! 170: /*
! 171: * Now that we know which CMMUs are there, report every association
! 172: */
! 173: for (cpu_num = 0; cpu_num < max_cpus; cpu_num++) {
! 174: cmmu_num = cpu_num << cmmu_shift;
! 175: cr = m8820x_cmmu[cmmu_num].cmmu_regs;
! 176: if (badaddr((vaddr_t)cr, 4) == 0) {
! 177: type = CMMU_TYPE(m8820x_cmmu[cmmu_num].
! 178: cmmu_regs[CMMU_IDR]);
! 179:
! 180: printf("CPU%d is associated to %d MC8820%c CMMUs\n",
! 181: cpu_num, 1 << cmmu_shift,
! 182: type == M88204_ID ? '4' : '0');
! 183: }
! 184: }
! 185:
! 186:
! 187: /*
! 188: * Now set up addressing limits
! 189: */
! 190: if (cmmu_shift > 1) {
! 191: for (cmmu_num = 0, cmmu = m8820x_cmmu; cmmu_num < max_cmmus;
! 192: cmmu_num++, cmmu++) {
! 193: cpu_num = cmmu_num >> 1; /* CPU view of the CMMU */
! 194:
! 195: if (cmmu_num & 1) {
! 196: /* I0, I1 */
! 197: cmmu->cmmu_addr = cpu_num < 2 ? 0 : scc.isplit;
! 198: cmmu->cmmu_addr_mask = scc.isplit;
! 199: } else {
! 200: /* D0, D1 */
! 201: cmmu->cmmu_addr = cpu_num < 2 ? 0 : scc.dsplit;
! 202: cmmu->cmmu_addr_mask = scc.dsplit;
! 203: }
! 204: }
! 205: }
! 206: }
! 207:
! 208: /*
! 209: * Find out the CPU number from accessing CMMU.
! 210: * We access the WHOAMI register, which is in data space;
! 211: * its value will let us know which CPU has been used to perform the read.
! 212: */
! 213: cpuid_t
! 214: m8820x_cpu_number()
! 215: {
! 216: u_int32_t whoami;
! 217: cpuid_t cpu;
! 218:
! 219: whoami = *(volatile u_int32_t *)AV_WHOAMI;
! 220: switch ((whoami & 0xf0) >> 4) {
! 221: case 0:
! 222: case 3:
! 223: case 5:
! 224: for (cpu = 0; cpu < 4; cpu++)
! 225: if (whoami & (1 << cpu))
! 226: return (cpu);
! 227: break;
! 228: case 7:
! 229: case 0x0a:
! 230: /* for single processors, this field of whoami is undefined */
! 231: return (0);
! 232: }
! 233:
! 234: panic("m8820x_cpu_number: could not determine my cpu number, whoami %x",
! 235: whoami);
! 236: }
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