/* * (C) Copyright 2000-2002 * Wolfgang Denk, DENX Software Engineering, wd@denx.de. * * Copyright (C) 2004-2006 Freescale Semiconductor, Inc. * * See file CREDITS for list of people who contributed to this * project. * * 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. * * 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, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, * MA 02111-1307 USA */ #include #include #include DECLARE_GLOBAL_DATA_PTR; /* ----------------------------------------------------------------- */ typedef enum { _unk, _off, _byp, _x8, _x4, _x2, _x1, _1x, _1_5x, _2x, _2_5x, _3x } mult_t; typedef struct { mult_t core_csb_ratio; mult_t vco_divider; } corecnf_t; corecnf_t corecnf_tab[] = { {_byp, _byp}, /* 0x00 */ {_byp, _byp}, /* 0x01 */ {_byp, _byp}, /* 0x02 */ {_byp, _byp}, /* 0x03 */ {_byp, _byp}, /* 0x04 */ {_byp, _byp}, /* 0x05 */ {_byp, _byp}, /* 0x06 */ {_byp, _byp}, /* 0x07 */ {_1x, _x2}, /* 0x08 */ {_1x, _x4}, /* 0x09 */ {_1x, _x8}, /* 0x0A */ {_1x, _x8}, /* 0x0B */ {_1_5x, _x2}, /* 0x0C */ {_1_5x, _x4}, /* 0x0D */ {_1_5x, _x8}, /* 0x0E */ {_1_5x, _x8}, /* 0x0F */ {_2x, _x2}, /* 0x10 */ {_2x, _x4}, /* 0x11 */ {_2x, _x8}, /* 0x12 */ {_2x, _x8}, /* 0x13 */ {_2_5x, _x2}, /* 0x14 */ {_2_5x, _x4}, /* 0x15 */ {_2_5x, _x8}, /* 0x16 */ {_2_5x, _x8}, /* 0x17 */ {_3x, _x2}, /* 0x18 */ {_3x, _x4}, /* 0x19 */ {_3x, _x8}, /* 0x1A */ {_3x, _x8}, /* 0x1B */ }; /* ----------------------------------------------------------------- */ /* * */ int get_clocks(void) { volatile immap_t *im = (immap_t *) CFG_IMMR; u32 pci_sync_in; u8 spmf; u8 clkin_div; u32 sccr; u32 corecnf_tab_index; u8 corepll; u32 lcrr; u32 csb_clk; #if defined(CONFIG_MPC8349) u32 tsec1_clk; u32 tsec2_clk; u32 usbmph_clk; u32 usbdr_clk; #endif u32 core_clk; u32 i2c1_clk; #if !defined(CONFIG_MPC832X) u32 i2c2_clk; #endif u32 enc_clk; u32 lbiu_clk; u32 lclk_clk; u32 ddr_clk; #if defined(CONFIG_MPC8360) u32 ddr_sec_clk; #endif #if defined(CONFIG_MPC8360) || defined(CONFIG_MPC832X) u32 qepmf; u32 qepdf; u32 qe_clk; u32 brg_clk; #endif if ((im->sysconf.immrbar & IMMRBAR_BASE_ADDR) != (u32) im) return -1; clkin_div = ((im->clk.spmr & SPMR_CKID) >> SPMR_CKID_SHIFT); if (im->reset.rcwh & HRCWH_PCI_HOST) { #if defined(CONFIG_83XX_CLKIN) pci_sync_in = CONFIG_83XX_CLKIN / (1 + clkin_div); #else pci_sync_in = 0xDEADBEEF; #endif } else { #if defined(CONFIG_83XX_PCICLK) pci_sync_in = CONFIG_83XX_PCICLK; #else pci_sync_in = 0xDEADBEEF; #endif } spmf = ((im->reset.rcwl & HRCWL_SPMF) >> HRCWL_SPMF_SHIFT); csb_clk = pci_sync_in * (1 + clkin_div) * spmf; sccr = im->clk.sccr; #if defined(CONFIG_MPC8349) switch ((sccr & SCCR_TSEC1CM) >> SCCR_TSEC1CM_SHIFT) { case 0: tsec1_clk = 0; break; case 1: tsec1_clk = csb_clk; break; case 2: tsec1_clk = csb_clk / 2; break; case 3: tsec1_clk = csb_clk / 3; break; default: /* unkown SCCR_TSEC1CM value */ return -4; } switch ((sccr & SCCR_TSEC2CM) >> SCCR_TSEC2CM_SHIFT) { case 0: tsec2_clk = 0; break; case 1: tsec2_clk = csb_clk; break; case 2: tsec2_clk = csb_clk / 2; break; case 3: tsec2_clk = csb_clk / 3; break; default: /* unkown SCCR_TSEC2CM value */ return -5; } i2c1_clk = tsec2_clk; switch ((sccr & SCCR_USBMPHCM) >> SCCR_USBMPHCM_SHIFT) { case 0: usbmph_clk = 0; break; case 1: usbmph_clk = csb_clk; break; case 2: usbmph_clk = csb_clk / 2; break; case 3: usbmph_clk = csb_clk / 3; break; default: /* unkown SCCR_USBMPHCM value */ return -7; } switch ((sccr & SCCR_USBDRCM) >> SCCR_USBDRCM_SHIFT) { case 0: usbdr_clk = 0; break; case 1: usbdr_clk = csb_clk; break; case 2: usbdr_clk = csb_clk / 2; break; case 3: usbdr_clk = csb_clk / 3; break; default: /* unkown SCCR_USBDRCM value */ return -8; } if (usbmph_clk != 0 && usbdr_clk != 0 && usbmph_clk != usbdr_clk) { /* if USB MPH clock is not disabled and * USB DR clock is not disabled then * USB MPH & USB DR must have the same rate */ return -9; } #endif #if defined(CONFIG_MPC8360) || defined(CONFIG_MPC832X) i2c1_clk = csb_clk; #endif #if !defined(CONFIG_MPC832X) i2c2_clk = csb_clk; /* i2c-2 clk is equal to csb clk */ #endif switch ((sccr & SCCR_ENCCM) >> SCCR_ENCCM_SHIFT) { case 0: enc_clk = 0; break; case 1: enc_clk = csb_clk; break; case 2: enc_clk = csb_clk / 2; break; case 3: enc_clk = csb_clk / 3; break; default: /* unkown SCCR_ENCCM value */ return -6; } lbiu_clk = csb_clk * (1 + ((im->reset.rcwl & HRCWL_LBIUCM) >> HRCWL_LBIUCM_SHIFT)); lcrr = (im->lbus.lcrr & LCRR_CLKDIV) >> LCRR_CLKDIV_SHIFT; switch (lcrr) { case 2: case 4: case 8: lclk_clk = lbiu_clk / lcrr; break; default: /* unknown lcrr */ return -10; } ddr_clk = csb_clk * (1 + ((im->reset.rcwl & HRCWL_DDRCM) >> HRCWL_DDRCM_SHIFT)); corepll = (im->reset.rcwl & HRCWL_COREPLL) >> HRCWL_COREPLL_SHIFT; #if defined(CONFIG_MPC8360) ddr_sec_clk = csb_clk * (1 + ((im->reset.rcwl & HRCWL_LBIUCM) >> HRCWL_LBIUCM_SHIFT)); #endif corecnf_tab_index = ((corepll & 0x1F) << 2) | ((corepll & 0x60) >> 5); if (corecnf_tab_index > (sizeof(corecnf_tab) / sizeof(corecnf_t))) { /* corecnf_tab_index is too high, possibly worng value */ return -11; } switch (corecnf_tab[corecnf_tab_index].core_csb_ratio) { case _byp: case _x1: case _1x: core_clk = csb_clk; break; case _1_5x: core_clk = (3 * csb_clk) / 2; break; case _2x: core_clk = 2 * csb_clk; break; case _2_5x: core_clk = (5 * csb_clk) / 2; break; case _3x: core_clk = 3 * csb_clk; break; default: /* unkown core to csb ratio */ return -12; } #if defined(CONFIG_MPC8360) || defined(CONFIG_MPC832X) qepmf = (im->reset.rcwl & HRCWL_CEPMF) >> HRCWL_CEPMF_SHIFT; qepdf = (im->reset.rcwl & HRCWL_CEPDF) >> HRCWL_CEPDF_SHIFT; qe_clk = (pci_sync_in * qepmf) / (1 + qepdf); brg_clk = qe_clk / 2; #endif gd->csb_clk = csb_clk; #if defined(CONFIG_MPC8349) gd->tsec1_clk = tsec1_clk; gd->tsec2_clk = tsec2_clk; gd->usbmph_clk = usbmph_clk; gd->usbdr_clk = usbdr_clk; #endif gd->core_clk = core_clk; gd->i2c1_clk = i2c1_clk; #if !defined(CONFIG_MPC832X) gd->i2c2_clk = i2c2_clk; #endif gd->enc_clk = enc_clk; gd->lbiu_clk = lbiu_clk; gd->lclk_clk = lclk_clk; gd->ddr_clk = ddr_clk; #if defined(CONFIG_MPC8360) gd->ddr_sec_clk = ddr_sec_clk; #endif #if defined(CONFIG_MPC8360) || defined(CONFIG_MPC832X) gd->qe_clk = qe_clk; gd->brg_clk = brg_clk; #endif gd->cpu_clk = gd->core_clk; gd->bus_clk = gd->csb_clk; return 0; } /******************************************** * get_bus_freq * return system bus freq in Hz *********************************************/ ulong get_bus_freq(ulong dummy) { return gd->csb_clk; } int print_clock_conf(void) { printf("Clock configuration:\n"); printf(" Coherent System Bus: %4d MHz\n", gd->csb_clk / 1000000); printf(" Core: %4d MHz\n", gd->core_clk / 1000000); #if defined(CONFIG_MPC8360) || defined(CONFIG_MPC832X) printf(" QE: %4d MHz\n", gd->qe_clk / 1000000); printf(" BRG: %4d MHz\n", gd->brg_clk / 1000000); #endif printf(" Local Bus Controller:%4d MHz\n", gd->lbiu_clk / 1000000); printf(" Local Bus: %4d MHz\n", gd->lclk_clk / 1000000); printf(" DDR: %4d MHz\n", gd->ddr_clk / 1000000); #if defined(CONFIG_MPC8360) printf(" DDR Secondary: %4d MHz\n", gd->ddr_sec_clk / 1000000); #endif printf(" SEC: %4d MHz\n", gd->enc_clk / 1000000); printf(" I2C1: %4d MHz\n", gd->i2c1_clk / 1000000); #if !defined(CONFIG_MPC832X) printf(" I2C2: %4d MHz\n", gd->i2c2_clk / 1000000); #endif #if defined(CONFIG_MPC8349) printf(" TSEC1: %4d MHz\n", gd->tsec1_clk / 1000000); printf(" TSEC2: %4d MHz\n", gd->tsec2_clk / 1000000); printf(" USB MPH: %4d MHz\n", gd->usbmph_clk / 1000000); printf(" USB DR: %4d MHz\n", gd->usbdr_clk / 1000000); #endif return 0; }