/* * (C) Copyright 2000-2007 * Wolfgang Denk, DENX Software Engineering, wd@denx.de. * * 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 #include #include #include #if defined(CONFIG_405GP) || defined(CONFIG_405EP) DECLARE_GLOBAL_DATA_PTR; #endif #ifndef CONFIG_SYS_PLL_RECONFIG #define CONFIG_SYS_PLL_RECONFIG 0 #endif #if defined(CONFIG_440EPX) || \ defined(CONFIG_460EX) || defined(CONFIG_460GT) static void reset_with_rli(void) { u32 reg; /* * Set reload inhibit so configuration will persist across * processor resets */ mfcpr(CPR0_ICFG, reg); reg |= CPR0_ICFG_RLI_MASK; mtcpr(CPR0_ICFG, reg); /* Reset processor if configuration changed */ __asm__ __volatile__ ("sync; isync"); mtspr(SPRN_DBCR0, 0x20000000); } #endif void reconfigure_pll(u32 new_cpu_freq) { #if defined(CONFIG_440EPX) int reset_needed = 0; u32 reg, temp; u32 prbdv0, target_prbdv0, /* CLK_PRIMBD */ fwdva, target_fwdva, fwdvb, target_fwdvb, /* CLK_PLLD */ fbdv, target_fbdv, lfbdv, target_lfbdv, perdv0, target_perdv0, /* CLK_PERD */ spcid0, target_spcid0; /* CLK_SPCID */ /* Reconfigure clocks if necessary. * See PPC440EPx User's Manual, sections 8.2 and 14 */ if (new_cpu_freq == 667) { target_prbdv0 = 2; target_fwdva = 2; target_fwdvb = 4; target_fbdv = 20; target_lfbdv = 1; target_perdv0 = 4; target_spcid0 = 4; mfcpr(CPR0_PRIMBD0, reg); temp = (reg & PRBDV_MASK) >> 24; prbdv0 = temp ? temp : 8; if (prbdv0 != target_prbdv0) { reg &= ~PRBDV_MASK; reg |= ((target_prbdv0 == 8 ? 0 : target_prbdv0) << 24); mtcpr(CPR0_PRIMBD0, reg); reset_needed = 1; } mfcpr(CPR0_PLLD, reg); temp = (reg & PLLD_FWDVA_MASK) >> 16; fwdva = temp ? temp : 16; temp = (reg & PLLD_FWDVB_MASK) >> 8; fwdvb = temp ? temp : 8; temp = (reg & PLLD_FBDV_MASK) >> 24; fbdv = temp ? temp : 32; temp = (reg & PLLD_LFBDV_MASK); lfbdv = temp ? temp : 64; if (fwdva != target_fwdva || fbdv != target_fbdv || lfbdv != target_lfbdv) { reg &= ~(PLLD_FWDVA_MASK | PLLD_FWDVB_MASK | PLLD_FBDV_MASK | PLLD_LFBDV_MASK); reg |= ((target_fwdva == 16 ? 0 : target_fwdva) << 16) | ((target_fwdvb == 8 ? 0 : target_fwdvb) << 8) | ((target_fbdv == 32 ? 0 : target_fbdv) << 24) | (target_lfbdv == 64 ? 0 : target_lfbdv); mtcpr(CPR0_PLLD, reg); reset_needed = 1; } mfcpr(CPR0_PERD, reg); perdv0 = (reg & CPR0_PERD_PERDV0_MASK) >> 24; if (perdv0 != target_perdv0) { reg &= ~CPR0_PERD_PERDV0_MASK; reg |= (target_perdv0 << 24); mtcpr(CPR0_PERD, reg); reset_needed = 1; } mfcpr(CPR0_SPCID, reg); temp = (reg & CPR0_SPCID_SPCIDV0_MASK) >> 24; spcid0 = temp ? temp : 4; if (spcid0 != target_spcid0) { reg &= ~CPR0_SPCID_SPCIDV0_MASK; reg |= ((target_spcid0 == 4 ? 0 : target_spcid0) << 24); mtcpr(CPR0_SPCID, reg); reset_needed = 1; } } /* Get current value of FWDVA.*/ mfcpr(CPR0_PLLD, reg); temp = (reg & PLLD_FWDVA_MASK) >> 16; /* * Check to see if FWDVA has been set to value of 1. if it has we must * modify it. */ if (temp == 1) { /* * Load register that contains current boot strapping option. */ mfcpr(CPR0_ICFG, reg); /* * Strapping option bits (ICS) are already in correct position, * only masking needed. */ reg &= CPR0_ICFG_ICS_MASK; if ((reg == BOOT_STRAP_OPTION_A) || (reg == BOOT_STRAP_OPTION_B) || (reg == BOOT_STRAP_OPTION_D) || (reg == BOOT_STRAP_OPTION_E)) { mfcpr(CPR0_PLLD, reg); /* Get current value of fbdv. */ temp = (reg & PLLD_FBDV_MASK) >> 24; fbdv = temp ? temp : 32; /* Get current value of lfbdv. */ temp = (reg & PLLD_LFBDV_MASK); lfbdv = temp ? temp : 64; /* * Get current value of FWDVA. Assign current FWDVA to * new FWDVB. */ mfcpr(CPR0_PLLD, reg); target_fwdvb = (reg & PLLD_FWDVA_MASK) >> 16; fwdvb = target_fwdvb ? target_fwdvb : 8; /* * Get current value of FWDVB. Assign current FWDVB to * new FWDVA. */ target_fwdva = (reg & PLLD_FWDVB_MASK) >> 8; fwdva = target_fwdva ? target_fwdva : 16; /* * Update CPR0_PLLD with switched FWDVA and FWDVB. */ reg &= ~(PLLD_FWDVA_MASK | PLLD_FWDVB_MASK | PLLD_FBDV_MASK | PLLD_LFBDV_MASK); reg |= ((fwdva == 16 ? 0 : fwdva) << 16) | ((fwdvb == 8 ? 0 : fwdvb) << 8) | ((fbdv == 32 ? 0 : fbdv) << 24) | (lfbdv == 64 ? 0 : lfbdv); mtcpr(CPR0_PLLD, reg); /* Acknowledge that a reset is required. */ reset_needed = 1; } } /* Now reset the CPU if needed */ if (reset_needed) reset_with_rli(); #endif #if defined(CONFIG_460EX) || defined(CONFIG_460GT) u32 reg; /* * See "9.2.1.1 Booting with Option E" in the 460EX/GT * users manual */ mfcpr(CPR0_PLLC, reg); if ((reg & (CPR0_PLLC_RST | CPR0_PLLC_ENG)) == CPR0_PLLC_RST) { /* * Set engage bit */ reg = (reg & ~CPR0_PLLC_RST) | CPR0_PLLC_ENG; mtcpr(CPR0_PLLC, reg); /* Now reset the CPU */ reset_with_rli(); } #endif } /* * Breath some life into the CPU... * * Reconfigure PLL if necessary, * set up the memory map, * initialize a bunch of registers */ void cpu_init_f (void) { #if defined(CONFIG_WATCHDOG) || defined(CONFIG_440GX) || defined(CONFIG_460EX) u32 val; #endif reconfigure_pll(CONFIG_SYS_PLL_RECONFIG); #if (defined(CONFIG_405EP) || defined (CONFIG_405EX)) && \ !defined(CONFIG_APM821XX) &&!defined(CONFIG_SYS_4xx_GPIO_TABLE) /* * GPIO0 setup (select GPIO or alternate function) */ #if defined(CONFIG_SYS_GPIO0_OR) out32(GPIO0_OR, CONFIG_SYS_GPIO0_OR); /* set initial state of output pins */ #endif #if defined(CONFIG_SYS_GPIO0_ODR) out32(GPIO0_ODR, CONFIG_SYS_GPIO0_ODR); /* open-drain select */ #endif out32(GPIO0_OSRH, CONFIG_SYS_GPIO0_OSRH); /* output select */ out32(GPIO0_OSRL, CONFIG_SYS_GPIO0_OSRL); out32(GPIO0_ISR1H, CONFIG_SYS_GPIO0_ISR1H); /* input select */ out32(GPIO0_ISR1L, CONFIG_SYS_GPIO0_ISR1L); out32(GPIO0_TSRH, CONFIG_SYS_GPIO0_TSRH); /* three-state select */ out32(GPIO0_TSRL, CONFIG_SYS_GPIO0_TSRL); #if defined(CONFIG_SYS_GPIO0_ISR2H) out32(GPIO0_ISR2H, CONFIG_SYS_GPIO0_ISR2H); out32(GPIO0_ISR2L, CONFIG_SYS_GPIO0_ISR2L); #endif #if defined (CONFIG_SYS_GPIO0_TCR) out32(GPIO0_TCR, CONFIG_SYS_GPIO0_TCR); /* enable output driver for outputs */ #endif #endif /* CONFIG_405EP ... && !CONFIG_SYS_4xx_GPIO_TABLE */ #if defined (CONFIG_405EP) /* * Set EMAC noise filter bits */ mtdcr(CPC0_EPCTL, CPC0_EPCTL_E0NFE | CPC0_EPCTL_E1NFE); #endif /* CONFIG_405EP */ #if defined(CONFIG_SYS_4xx_GPIO_TABLE) gpio_set_chip_configuration(); #endif /* CONFIG_SYS_4xx_GPIO_TABLE */ /* * External Bus Controller (EBC) Setup */ #if (defined(CONFIG_SYS_EBC_PB0AP) && defined(CONFIG_SYS_EBC_PB0CR)) #if (defined(CONFIG_405GP) || defined(CONFIG_405CR) || \ defined(CONFIG_405EP) || defined(CONFIG_405EZ) || \ defined(CONFIG_405EX) || defined(CONFIG_405)) /* * Move the next instructions into icache, since these modify the flash * we are running from! */ asm volatile(" bl 0f" ::: "lr"); asm volatile("0: mflr 3" ::: "r3"); asm volatile(" addi 4, 0, 14" ::: "r4"); asm volatile(" mtctr 4" ::: "ctr"); asm volatile("1: icbt 0, 3"); asm volatile(" addi 3, 3, 32" ::: "r3"); asm volatile(" bdnz 1b" ::: "ctr", "cr0"); asm volatile(" addis 3, 0, 0x0" ::: "r3"); asm volatile(" ori 3, 3, 0xA000" ::: "r3"); asm volatile(" mtctr 3" ::: "ctr"); asm volatile("2: bdnz 2b" ::: "ctr", "cr0"); #endif mtebc(PB0AP, CONFIG_SYS_EBC_PB0AP); mtebc(PB0CR, CONFIG_SYS_EBC_PB0CR); #endif #if (defined(CONFIG_SYS_EBC_PB1AP) && defined(CONFIG_SYS_EBC_PB1CR) && !(CONFIG_SYS_INIT_DCACHE_CS == 1)) mtebc(PB1AP, CONFIG_SYS_EBC_PB1AP); mtebc(PB1CR, CONFIG_SYS_EBC_PB1CR); #endif #if (defined(CONFIG_SYS_EBC_PB2AP) && defined(CONFIG_SYS_EBC_PB2CR) && !(CONFIG_SYS_INIT_DCACHE_CS == 2)) mtebc(PB2AP, CONFIG_SYS_EBC_PB2AP); mtebc(PB2CR, CONFIG_SYS_EBC_PB2CR); #endif #if (defined(CONFIG_SYS_EBC_PB3AP) && defined(CONFIG_SYS_EBC_PB3CR) && !(CONFIG_SYS_INIT_DCACHE_CS == 3)) mtebc(PB3AP, CONFIG_SYS_EBC_PB3AP); mtebc(PB3CR, CONFIG_SYS_EBC_PB3CR); #endif #if (defined(CONFIG_SYS_EBC_PB4AP) && defined(CONFIG_SYS_EBC_PB4CR) && !(CONFIG_SYS_INIT_DCACHE_CS == 4)) mtebc(PB4AP, CONFIG_SYS_EBC_PB4AP); mtebc(PB4CR, CONFIG_SYS_EBC_PB4CR); #endif #if (defined(CONFIG_SYS_EBC_PB5AP) && defined(CONFIG_SYS_EBC_PB5CR) && !(CONFIG_SYS_INIT_DCACHE_CS == 5)) mtebc(PB5AP, CONFIG_SYS_EBC_PB5AP); mtebc(PB5CR, CONFIG_SYS_EBC_PB5CR); #endif #if (defined(CONFIG_SYS_EBC_PB6AP) && defined(CONFIG_SYS_EBC_PB6CR) && !(CONFIG_SYS_INIT_DCACHE_CS == 6)) mtebc(PB6AP, CONFIG_SYS_EBC_PB6AP); mtebc(PB6CR, CONFIG_SYS_EBC_PB6CR); #endif #if (defined(CONFIG_SYS_EBC_PB7AP) && defined(CONFIG_SYS_EBC_PB7CR) && !(CONFIG_SYS_INIT_DCACHE_CS == 7)) mtebc(PB7AP, CONFIG_SYS_EBC_PB7AP); mtebc(PB7CR, CONFIG_SYS_EBC_PB7CR); #endif #if defined (CONFIG_SYS_EBC_CFG) mtebc(EBC0_CFG, CONFIG_SYS_EBC_CFG); #endif #if defined(CONFIG_WATCHDOG) val = mfspr(SPRN_TCR); #if defined(CONFIG_440EP) || defined(CONFIG_440GR) val |= 0xb8000000; /* generate system reset after 1.34 seconds */ #elif defined(CONFIG_440EPX) val |= 0xb0000000; /* generate system reset after 1.34 seconds */ #else val |= 0xf0000000; /* generate system reset after 2.684 seconds */ #endif #if defined(CONFIG_SYS_4xx_RESET_TYPE) val &= ~0x30000000; /* clear WRC bits */ val |= CONFIG_SYS_4xx_RESET_TYPE << 28; /* set board specific WRC type */ #endif mtspr(SPRN_TCR, val); val = mfspr(SPRN_TSR); val |= 0x80000000; /* enable watchdog timer */ mtspr(SPRN_TSR, val); reset_4xx_watchdog(); #endif /* CONFIG_WATCHDOG */ #if defined(CONFIG_440GX) /* Take the GX out of compatibility mode * Travis Sawyer, 9 Mar 2004 * NOTE: 440gx user manual inconsistency here * Compatibility mode and Ethernet Clock select are not * correct in the manual */ mfsdr(SDR0_MFR, val); val &= ~0x10000000; mtsdr(SDR0_MFR,val); #endif /* CONFIG_440GX */ #if defined(CONFIG_460EX) /* * Set SDR0_AHB_CFG[A2P_INCR4] (bit 24) and * clear SDR0_AHB_CFG[A2P_PROT2] (bit 25) for a new 460EX errata * regarding concurrent use of AHB USB OTG, USB 2.0 host and SATA */ mfsdr(SDR0_AHB_CFG, val); val |= 0x80; val &= ~0x40; mtsdr(SDR0_AHB_CFG, val); mfsdr(SDR0_USB2HOST_CFG, val); val &= ~0xf00; val |= 0x400; mtsdr(SDR0_USB2HOST_CFG, val); #endif /* CONFIG_460EX */ #if defined(CONFIG_405EX) || \ defined(CONFIG_440SP) || defined(CONFIG_440SPE) || \ defined(CONFIG_460EX) || defined(CONFIG_460GT) || \ defined(CONFIG_460SX) || defined(CONFIG_APM821XX) /* * Set PLB4 arbiter (Segment 0 and 1) to 4 deep pipeline read */ mtdcr(PLB4A0_ACR, (mfdcr(PLB4A0_ACR) & ~PLB4Ax_ACR_RDP_MASK) | PLB4Ax_ACR_RDP_4DEEP); mtdcr(PLB4A1_ACR, (mfdcr(PLB4A1_ACR) & ~PLB4Ax_ACR_RDP_MASK) | PLB4Ax_ACR_RDP_4DEEP); #endif /* CONFIG_440SP/SPE || CONFIG_460EX/GT || CONFIG_405EX */ } /* * initialize higher level parts of CPU like time base and timers */ int cpu_init_r (void) { #if defined(CONFIG_405GP) uint pvr = get_pvr(); /* * Set edge conditioning circuitry on PPC405GPr * for compatibility to existing PPC405GP designs. */ if ((pvr & 0xfffffff0) == (PVR_405GPR_RB & 0xfffffff0)) { mtdcr(CPC0_ECR, 0x60606000); } #endif /* defined(CONFIG_405GP) */ return 0; } #if defined(CONFIG_PCI) && \ (defined(CONFIG_440EP) || defined(CONFIG_440EPX) || \ defined(CONFIG_440GR) || defined(CONFIG_440GRX)) /* * 440EP(x)/GR(x) PCI async/sync clocking restriction: * * In asynchronous PCI mode, the synchronous PCI clock must meet * certain requirements. The following equation describes the * relationship that must be maintained between the asynchronous PCI * clock and synchronous PCI clock. Select an appropriate PCI:PLB * ratio to maintain the relationship: * * AsyncPCIClk - 1MHz <= SyncPCIclock <= (2 * AsyncPCIClk) - 1MHz */ static int ppc4xx_pci_sync_clock_ok(u32 sync, u32 async) { if (((async - 1000000) > sync) || (sync > ((2 * async) - 1000000))) return 0; else return 1; } int ppc4xx_pci_sync_clock_config(u32 async) { sys_info_t sys_info; u32 sync; int div; u32 reg; u32 spcid_val[] = { CPR0_SPCID_SPCIDV0_DIV1, CPR0_SPCID_SPCIDV0_DIV2, CPR0_SPCID_SPCIDV0_DIV3, CPR0_SPCID_SPCIDV0_DIV4 }; get_sys_info(&sys_info); sync = sys_info.freqPCI; /* * First check if the equation above is met */ if (!ppc4xx_pci_sync_clock_ok(sync, async)) { /* * Reconfigure PCI sync clock to meet the equation. * Start with highest possible PCI sync frequency * (divider 1). */ for (div = 1; div <= 4; div++) { sync = sys_info.freqPLB / div; if (ppc4xx_pci_sync_clock_ok(sync, async)) break; } if (div <= 4) { mtcpr(CPR0_SPCID, spcid_val[div]); mfcpr(CPR0_ICFG, reg); reg |= CPR0_ICFG_RLI_MASK; mtcpr(CPR0_ICFG, reg); /* do chip reset */ mtspr(SPRN_DBCR0, 0x20000000); } else { /* Impossible to configure the PCI sync clock */ return -1; } } return 0; } #endif