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[/] [or1k_soc_on_altera_embedded_dev_kit/] [trunk/] [linux-2.6/] [linux-2.6.24/] [arch/] [powerpc/] [boot/] [devtree.c] - Rev 3
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/* * devtree.c - convenience functions for device tree manipulation * Copyright 2007 David Gibson, IBM Corporation. * Copyright (c) 2007 Freescale Semiconductor, Inc. * * Authors: David Gibson <david@gibson.dropbear.id.au> * Scott Wood <scottwood@freescale.com> * * 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 * 2 of the License, or (at your option) any later version. */ #include <stdarg.h> #include <stddef.h> #include "types.h" #include "string.h" #include "stdio.h" #include "ops.h" void dt_fixup_memory(u64 start, u64 size) { void *root, *memory; int naddr, nsize, i; u32 memreg[4]; root = finddevice("/"); if (getprop(root, "#address-cells", &naddr, sizeof(naddr)) < 0) naddr = 2; if (naddr < 1 || naddr > 2) fatal("Can't cope with #address-cells == %d in /\n\r", naddr); if (getprop(root, "#size-cells", &nsize, sizeof(nsize)) < 0) nsize = 1; if (nsize < 1 || nsize > 2) fatal("Can't cope with #size-cells == %d in /\n\r", nsize); i = 0; if (naddr == 2) memreg[i++] = start >> 32; memreg[i++] = start & 0xffffffff; if (nsize == 2) memreg[i++] = size >> 32; memreg[i++] = size & 0xffffffff; memory = finddevice("/memory"); if (! memory) { memory = create_node(NULL, "memory"); setprop_str(memory, "device_type", "memory"); } printf("Memory <- <0x%x", memreg[0]); for (i = 1; i < (naddr + nsize); i++) printf(" 0x%x", memreg[i]); printf("> (%ldMB)\n\r", (unsigned long)(size >> 20)); setprop(memory, "reg", memreg, (naddr + nsize)*sizeof(u32)); } #define MHZ(x) ((x + 500000) / 1000000) void dt_fixup_cpu_clocks(u32 cpu, u32 tb, u32 bus) { void *devp = NULL; printf("CPU clock-frequency <- 0x%x (%dMHz)\n\r", cpu, MHZ(cpu)); printf("CPU timebase-frequency <- 0x%x (%dMHz)\n\r", tb, MHZ(tb)); if (bus > 0) printf("CPU bus-frequency <- 0x%x (%dMHz)\n\r", bus, MHZ(bus)); while ((devp = find_node_by_devtype(devp, "cpu"))) { setprop_val(devp, "clock-frequency", cpu); setprop_val(devp, "timebase-frequency", tb); if (bus > 0) setprop_val(devp, "bus-frequency", bus); } timebase_period_ns = 1000000000 / tb; } void dt_fixup_clock(const char *path, u32 freq) { void *devp = finddevice(path); if (devp) { printf("%s: clock-frequency <- %x (%dMHz)\n\r", path, freq, MHZ(freq)); setprop_val(devp, "clock-frequency", freq); } } void dt_fixup_mac_address(u32 index, const u8 *addr) { void *devp = find_node_by_prop_value(NULL, "linux,network-index", (void*)&index, sizeof(index)); if (devp) { printf("ENET%d: local-mac-address <-" " %02x:%02x:%02x:%02x:%02x:%02x\n\r", index, addr[0], addr[1], addr[2], addr[3], addr[4], addr[5]); setprop(devp, "local-mac-address", addr, 6); } } void __dt_fixup_mac_addresses(u32 startindex, ...) { va_list ap; u32 index = startindex; const u8 *addr; va_start(ap, startindex); while ((addr = va_arg(ap, const u8 *))) dt_fixup_mac_address(index++, addr); va_end(ap); } #define MAX_ADDR_CELLS 4 void dt_get_reg_format(void *node, u32 *naddr, u32 *nsize) { if (getprop(node, "#address-cells", naddr, 4) != 4) *naddr = 2; if (getprop(node, "#size-cells", nsize, 4) != 4) *nsize = 1; } static void copy_val(u32 *dest, u32 *src, int naddr) { int pad = MAX_ADDR_CELLS - naddr; memset(dest, 0, pad * 4); memcpy(dest + pad, src, naddr * 4); } static int sub_reg(u32 *reg, u32 *sub) { int i, borrow = 0; for (i = MAX_ADDR_CELLS - 1; i >= 0; i--) { int prev_borrow = borrow; borrow = reg[i] < sub[i] + prev_borrow; reg[i] -= sub[i] + prev_borrow; } return !borrow; } static int add_reg(u32 *reg, u32 *add, int naddr) { int i, carry = 0; for (i = MAX_ADDR_CELLS - 1; i >= MAX_ADDR_CELLS - naddr; i--) { u64 tmp = (u64)reg[i] + add[i] + carry; carry = tmp >> 32; reg[i] = (u32)tmp; } return !carry; } /* It is assumed that if the first byte of reg fits in a * range, then the whole reg block fits. */ static int compare_reg(u32 *reg, u32 *range, u32 *rangesize) { int i; u32 end; for (i = 0; i < MAX_ADDR_CELLS; i++) { if (reg[i] < range[i]) return 0; if (reg[i] > range[i]) break; } for (i = 0; i < MAX_ADDR_CELLS; i++) { end = range[i] + rangesize[i]; if (reg[i] < end) break; if (reg[i] > end) return 0; } return reg[i] != end; } /* reg must be MAX_ADDR_CELLS */ static int find_range(u32 *reg, u32 *ranges, int nregaddr, int naddr, int nsize, int buflen) { int nrange = nregaddr + naddr + nsize; int i; for (i = 0; i + nrange <= buflen; i += nrange) { u32 range_addr[MAX_ADDR_CELLS]; u32 range_size[MAX_ADDR_CELLS]; copy_val(range_addr, ranges + i, naddr); copy_val(range_size, ranges + i + nregaddr + naddr, nsize); if (compare_reg(reg, range_addr, range_size)) return i; } return -1; } /* Currently only generic buses without special encodings are supported. * In particular, PCI is not supported. Also, only the beginning of the * reg block is tracked; size is ignored except in ranges. */ static u32 prop_buf[MAX_PROP_LEN / 4]; static int dt_xlate(void *node, int res, int reglen, unsigned long *addr, unsigned long *size) { u32 last_addr[MAX_ADDR_CELLS]; u32 this_addr[MAX_ADDR_CELLS]; void *parent; u64 ret_addr, ret_size; u32 naddr, nsize, prev_naddr, prev_nsize; int buflen, offset; parent = get_parent(node); if (!parent) return 0; dt_get_reg_format(parent, &naddr, &nsize); if (nsize > 2) return 0; offset = (naddr + nsize) * res; if (reglen < offset + naddr + nsize || MAX_PROP_LEN < (offset + naddr + nsize) * 4) return 0; copy_val(last_addr, prop_buf + offset, naddr); ret_size = prop_buf[offset + naddr]; if (nsize == 2) { ret_size <<= 32; ret_size |= prop_buf[offset + naddr + 1]; } for (;;) { prev_naddr = naddr; prev_nsize = nsize; node = parent; parent = get_parent(node); if (!parent) break; dt_get_reg_format(parent, &naddr, &nsize); buflen = getprop(node, "ranges", prop_buf, sizeof(prop_buf)); if (buflen == 0) continue; if (buflen < 0 || buflen > sizeof(prop_buf)) return 0; offset = find_range(last_addr, prop_buf, prev_naddr, naddr, prev_nsize, buflen / 4); if (offset < 0) return 0; copy_val(this_addr, prop_buf + offset, prev_naddr); if (!sub_reg(last_addr, this_addr)) return 0; copy_val(this_addr, prop_buf + offset + prev_naddr, naddr); if (!add_reg(last_addr, this_addr, naddr)) return 0; } if (naddr > 2) return 0; ret_addr = ((u64)last_addr[2] << 32) | last_addr[3]; if (sizeof(void *) == 4 && (ret_addr >= 0x100000000ULL || ret_size > 0x100000000ULL || ret_addr + ret_size > 0x100000000ULL)) return 0; *addr = ret_addr; if (size) *size = ret_size; return 1; } int dt_xlate_reg(void *node, int res, unsigned long *addr, unsigned long *size) { int reglen; reglen = getprop(node, "reg", prop_buf, sizeof(prop_buf)) / 4; return dt_xlate(node, res, reglen, addr, size); } int dt_xlate_addr(void *node, u32 *buf, int buflen, unsigned long *xlated_addr) { if (buflen > sizeof(prop_buf)) return 0; memcpy(prop_buf, buf, buflen); return dt_xlate(node, 0, buflen / 4, xlated_addr, NULL); } int dt_is_compatible(void *node, const char *compat) { char *buf = (char *)prop_buf; int len, pos; len = getprop(node, "compatible", buf, MAX_PROP_LEN); if (len < 0) return 0; for (pos = 0; pos < len; pos++) { if (!strcmp(buf + pos, compat)) return 1; pos += strnlen(&buf[pos], len - pos); } return 0; }