/***************************************************************************** * (C) Copyright 2003; Tundra Semiconductor Corp. * * 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 *****************************************************************************/ /*---------------------------------------------------------------------------- * FILENAME: tsi108_init.c * * Originator: Alex Bounine * * DESCRIPTION: * Initialization code for the Tundra Tsi108 bridge chip *---------------------------------------------------------------------------*/ #include #include <74xx_7xx.h> #include #include #include #include extern void mpicInit (int verbose); /* * Configuration Options */ typedef struct { ulong upper; ulong lower; } PB2OCN_LUT_ENTRY; PB2OCN_LUT_ENTRY pb2ocn_lut1[32] = { /* 0 - 7 */ {0x00000000, 0x00000201}, /* PBA=0xE000_0000 -> PCI/X (Byte-Swap) */ {0x00000000, 0x00000201}, /* PBA=0xE100_0000 -> PCI/X (Byte-Swap) */ {0x00000000, 0x00000201}, /* PBA=0xE200_0000 -> PCI/X (Byte-Swap) */ {0x00000000, 0x00000201}, /* PBA=0xE300_0000 -> PCI/X (Byte-Swap) */ {0x00000000, 0x00000201}, /* PBA=0xE400_0000 -> PCI/X (Byte-Swap) */ {0x00000000, 0x00000201}, /* PBA=0xE500_0000 -> PCI/X (Byte-Swap) */ {0x00000000, 0x00000201}, /* PBA=0xE600_0000 -> PCI/X (Byte-Swap) */ {0x00000000, 0x00000201}, /* PBA=0xE700_0000 -> PCI/X (Byte-Swap) */ /* 8 - 15 */ {0x00000000, 0x00000201}, /* PBA=0xE800_0000 -> PCI/X (Byte-Swap) */ {0x00000000, 0x00000201}, /* PBA=0xE900_0000 -> PCI/X (Byte-Swap) */ {0x00000000, 0x00000201}, /* PBA=0xEA00_0000 -> PCI/X (Byte-Swap) */ {0x00000000, 0x00000201}, /* PBA=0xEB00_0000 -> PCI/X (Byte-Swap) */ {0x00000000, 0x00000201}, /* PBA=0xEC00_0000 -> PCI/X (Byte-Swap) */ {0x00000000, 0x00000201}, /* PBA=0xED00_0000 -> PCI/X (Byte-Swap) */ {0x00000000, 0x00000201}, /* PBA=0xEE00_0000 -> PCI/X (Byte-Swap) */ {0x00000000, 0x00000201}, /* PBA=0xEF00_0000 -> PCI/X (Byte-Swap) */ /* 16 - 23 */ {0x00000000, 0x00000201}, /* PBA=0xF000_0000 -> PCI/X (Byte-Swap) */ {0x00000000, 0x00000201}, /* PBA=0xF100_0000 -> PCI/X (Byte-Swap) */ {0x00000000, 0x00000201}, /* PBA=0xF200_0000 -> PCI/X (Byte-Swap) */ {0x00000000, 0x00000201}, /* PBA=0xF300_0000 -> PCI/X (Byte-Swap) */ {0x00000000, 0x00000201}, /* PBA=0xF400_0000 -> PCI/X (Byte-Swap) */ {0x00000000, 0x00000201}, /* PBA=0xF500_0000 -> PCI/X (Byte-Swap) */ {0x00000000, 0x00000201}, /* PBA=0xF600_0000 -> PCI/X (Byte-Swap) */ {0x00000000, 0x00000201}, /* PBA=0xF700_0000 -> PCI/X (Byte-Swap) */ /* 24 - 31 */ {0x00000000, 0x00000201}, /* PBA=0xF800_0000 -> PCI/X (Byte-Swap) */ {0x00000000, 0x00000201}, /* PBA=0xF900_0000 -> PCI/X (Byte-Swap) */ {0x00000000, 0x00000201}, /* PBA=0xFA00_0000 -> PCI/X PCI I/O (Byte-Swap) */ {0x00000000, 0x00000201}, /* PBA=0xFB00_0000 -> PCI/X PCI Config (Byte-Swap) */ {0x00000000, 0x02000240}, /* PBA=0xFC00_0000 -> HLP */ {0x00000000, 0x01000240}, /* PBA=0xFD00_0000 -> HLP */ {0x00000000, 0x03000240}, /* PBA=0xFE00_0000 -> HLP */ {0x00000000, 0x00000240} /* PBA=0xFF00_0000 -> HLP : (Translation Enabled + Byte-Swap)*/ }; #ifdef CFG_CLK_SPREAD typedef struct { ulong ctrl0; ulong ctrl1; } PLL_CTRL_SET; /* * Clock Generator SPLL0 initialization values * PLL0 configuration table for various PB_CLKO freq. * Uses pre-calculated values for Fs = 30 kHz, D = 0.5% * Fout depends on required PB_CLKO. Based on Fref = 33 MHz */ static PLL_CTRL_SET pll0_config[8] = { {0x00000000, 0x00000000}, /* 0: bypass */ {0x00000000, 0x00000000}, /* 1: reserved */ {0x00430044, 0x00000043}, /* 2: CG_PB_CLKO = 183 MHz */ {0x005c0044, 0x00000039}, /* 3: CG_PB_CLKO = 100 MHz */ {0x005c0044, 0x00000039}, /* 4: CG_PB_CLKO = 133 MHz */ {0x004a0044, 0x00000040}, /* 5: CG_PB_CLKO = 167 MHz */ {0x005c0044, 0x00000039}, /* 6: CG_PB_CLKO = 200 MHz */ {0x004f0044, 0x0000003e} /* 7: CG_PB_CLKO = 233 MHz */ }; #endif /* CFG_CLK_SPREAD */ /* * Prosessor Bus Clock (in MHz) defined by CG_PB_SELECT * (based on recommended Tsi108 reference clock 33MHz) */ static int pb_clk_sel[8] = { 0, 0, 183, 100, 133, 167, 200, 233 }; /* * get_board_bus_clk () * * returns the bus clock in Hz. */ unsigned long get_board_bus_clk (void) { ulong i; /* Detect PB clock freq. */ i = in32(CFG_TSI108_CSR_BASE + TSI108_CLK_REG_OFFSET + CG_PWRUP_STATUS); i = (i >> 16) & 0x07; /* Get PB PLL multiplier */ return pb_clk_sel[i] * 1000000; } /* * board_early_init_f () * * board-specific initialization executed from flash */ int board_early_init_f (void) { DECLARE_GLOBAL_DATA_PTR; ulong i; gd->mem_clk = 0; i = in32 (CFG_TSI108_CSR_BASE + TSI108_CLK_REG_OFFSET + CG_PWRUP_STATUS); i = (i >> 20) & 0x07; /* Get GD PLL multiplier */ switch (i) { case 0: /* external clock */ printf ("Using external clock\n"); break; case 1: /* system clock */ gd->mem_clk = gd->bus_clk; break; case 4: /* 133 MHz */ case 5: /* 166 MHz */ case 6: /* 200 MHz */ gd->mem_clk = pb_clk_sel[i] * 1000000; break; default: printf ("Invalid DDR2 clock setting\n"); return -1; } printf ("BUS: %d MHz\n", get_board_bus_clk() / 1000000); printf ("MEM: %d MHz\n", gd->mem_clk / 1000000); return 0; } /* * board_early_init_r() - Tsi108 initialization function executed right after * relocation. Contains code that cannot be executed from flash. */ int board_early_init_r (void) { ulong temp, i; ulong reg_val; volatile ulong *reg_ptr; reg_ptr = (ulong *) (CFG_TSI108_CSR_BASE + TSI108_PB_REG_OFFSET + 0x900); for (i = 0; i < 32; i++) { *reg_ptr++ = 0x00000201; /* SWAP ENABLED */ *reg_ptr++ = 0x00; } __asm__ __volatile__ ("eieio"); __asm__ __volatile__ ("sync"); /* Setup PB_OCN_BAR2: size 256B + ENable @ 0x0_80000000 */ out32 (CFG_TSI108_CSR_BASE + TSI108_PB_REG_OFFSET + PB_OCN_BAR2, 0x80000001); __asm__ __volatile__ ("sync"); /* Make sure that OCN_BAR2 decoder is set (to allow following immediate * read from SDRAM) */ temp = in32(CFG_TSI108_CSR_BASE + TSI108_PB_REG_OFFSET + PB_OCN_BAR2); __asm__ __volatile__ ("sync"); /* * Remap PB_OCN_BAR1 to accomodate PCI-bus aperture and EPROM into the * processor bus address space. Immediately after reset LUT and address * translation are disabled for this BAR. Now we have to initialize LUT * and switch from the BOOT mode to the normal operation mode. * * The aperture defined by PB_OCN_BAR1 startes at address 0xE0000000 * and covers 512MB of address space. To allow larger aperture we also * have to relocate register window of Tsi108 * * Initialize LUT (32-entries) prior switching PB_OCN_BAR1 from BOOT * mode. * * initialize pointer to LUT associated with PB_OCN_BAR1 */ reg_ptr = (ulong *) (CFG_TSI108_CSR_BASE + TSI108_PB_REG_OFFSET + 0x800); for (i = 0; i < 32; i++) { *reg_ptr++ = pb2ocn_lut1[i].lower; *reg_ptr++ = pb2ocn_lut1[i].upper; } __asm__ __volatile__ ("sync"); /* Base addresses for CS0, CS1, CS2, CS3 */ out32 (CFG_TSI108_CSR_BASE + TSI108_HLP_REG_OFFSET + HLP_B0_ADDR, 0x00000000); __asm__ __volatile__ ("sync"); out32 (CFG_TSI108_CSR_BASE + TSI108_HLP_REG_OFFSET + HLP_B1_ADDR, 0x00100000); __asm__ __volatile__ ("sync"); out32 (CFG_TSI108_CSR_BASE + TSI108_HLP_REG_OFFSET + HLP_B2_ADDR, 0x00200000); __asm__ __volatile__ ("sync"); out32 (CFG_TSI108_CSR_BASE + TSI108_HLP_REG_OFFSET + HLP_B3_ADDR, 0x00300000); __asm__ __volatile__ ("sync"); /* Masks for HLP banks */ out32 (CFG_TSI108_CSR_BASE + TSI108_HLP_REG_OFFSET + HLP_B0_MASK, 0xFFF00000); __asm__ __volatile__ ("sync"); out32 (CFG_TSI108_CSR_BASE + TSI108_HLP_REG_OFFSET + HLP_B1_MASK, 0xFFF00000); __asm__ __volatile__ ("sync"); out32 (CFG_TSI108_CSR_BASE + TSI108_HLP_REG_OFFSET + HLP_B2_MASK, 0xFFF00000); __asm__ __volatile__ ("sync"); out32 (CFG_TSI108_CSR_BASE + TSI108_HLP_REG_OFFSET + HLP_B3_MASK, 0xFFF00000); __asm__ __volatile__ ("sync"); /* Set CTRL0 values for banks */ out32 (CFG_TSI108_CSR_BASE + TSI108_HLP_REG_OFFSET + HLP_B0_CTRL0, 0x7FFC44C2); __asm__ __volatile__ ("sync"); out32 (CFG_TSI108_CSR_BASE + TSI108_HLP_REG_OFFSET + HLP_B1_CTRL0, 0x7FFC44C0); __asm__ __volatile__ ("sync"); out32 (CFG_TSI108_CSR_BASE + TSI108_HLP_REG_OFFSET + HLP_B2_CTRL0, 0x7FFC44C0); __asm__ __volatile__ ("sync"); out32 (CFG_TSI108_CSR_BASE + TSI108_HLP_REG_OFFSET + HLP_B3_CTRL0, 0x7FFC44C2); __asm__ __volatile__ ("sync"); /* Set banks to latched mode, enabled, and other default settings */ out32 (CFG_TSI108_CSR_BASE + TSI108_HLP_REG_OFFSET + HLP_B0_CTRL1, 0x7C0F2000); __asm__ __volatile__ ("sync"); out32 (CFG_TSI108_CSR_BASE + TSI108_HLP_REG_OFFSET + HLP_B1_CTRL1, 0x7C0F2000); __asm__ __volatile__ ("sync"); out32 (CFG_TSI108_CSR_BASE + TSI108_HLP_REG_OFFSET + HLP_B2_CTRL1, 0x7C0F2000); __asm__ __volatile__ ("sync"); out32 (CFG_TSI108_CSR_BASE + TSI108_HLP_REG_OFFSET + HLP_B3_CTRL1, 0x7C0F2000); __asm__ __volatile__ ("sync"); /* * Set new value for PB_OCN_BAR1: switch from BOOT to LUT mode. * value for PB_OCN_BAR1: (BA-0xE000_0000 + size 512MB + ENable) */ out32 (CFG_TSI108_CSR_BASE + TSI108_PB_REG_OFFSET + PB_OCN_BAR1, 0xE0000011); __asm__ __volatile__ ("sync"); /* Make sure that OCN_BAR2 decoder is set (to allow following * immediate read from SDRAM) */ temp = in32(CFG_TSI108_CSR_BASE + TSI108_PB_REG_OFFSET + PB_OCN_BAR1); __asm__ __volatile__ ("sync"); /* * SRI: At this point we have enabled the HLP banks. That means we can * now read from the NVRAM and initialize the environment variables. * We will over-ride the env_init called in board_init_f * This is really a work-around because, the HLP bank 1 * where NVRAM resides is not visible during board_init_f * (lib_ppc/board.c) * Alternatively, we could use the I2C EEPROM at start-up to configure * and enable all HLP banks and not just HLP 0 as is being done for * Taiga Rev. 2. */ env_init (); #ifndef DISABLE_PBM /* * For IBM processors we have to set Address-Only commands generated * by PBM that are different from ones set after reset. */ temp = get_cpu_type (); if ((CPU_750FX == temp) || (CPU_750GX == temp)) out32 (CFG_TSI108_CSR_BASE + TSI108_PB_REG_OFFSET + PB_MCMD, 0x00009955); #endif /* DISABLE_PBM */ #ifdef CONFIG_PCI /* * Initialize PCI/X block */ /* Map PCI/X Configuration Space (16MB @ 0x0_FE000000) */ out32 (CFG_TSI108_CSR_BASE + TSI108_PCI_REG_OFFSET + PCI_PFAB_BAR0_UPPER, 0); __asm__ __volatile__ ("sync"); out32 (CFG_TSI108_CSR_BASE + TSI108_PCI_REG_OFFSET + PCI_PFAB_BAR0, 0xFB000001); __asm__ __volatile__ ("sync"); /* Set Bus Number for the attached PCI/X bus (we will use 0 for NB) */ temp = in32(CFG_TSI108_CSR_BASE + TSI108_PCI_REG_OFFSET + PCI_PCIX_STAT); temp &= ~0xFF00; /* Clear the BUS_NUM field */ out32 (CFG_TSI108_CSR_BASE + TSI108_PCI_REG_OFFSET + PCI_PCIX_STAT, temp); /* Map PCI/X IO Space (64KB @ 0x0_FD000000) takes one 16MB LUT entry */ out32 (CFG_TSI108_CSR_BASE + TSI108_PCI_REG_OFFSET + PCI_PFAB_IO_UPPER, 0); __asm__ __volatile__ ("sync"); /* This register is on the PCI side to interpret the address it receives * and maps it as a IO address. */ out32 (CFG_TSI108_CSR_BASE + TSI108_PCI_REG_OFFSET + PCI_PFAB_IO, 0xFA000001); __asm__ __volatile__ ("sync"); /* * Map PCI/X Memory Space * * Transactions directed from OCM to PCI Memory Space are directed * from PB to PCI * unchanged (as defined by PB_OCN_BAR1,2 and LUT settings). * If address remapping is required the corresponding PCI_PFAB_MEM32 * and PCI_PFAB_PFMx register groups have to be configured. * * Map the path from the PCI/X bus into the system memory * * The memory mapped window assotiated with PCI P2O_BAR2 provides * access to the system memory without address remapping. * All system memory is opened for accesses initiated by PCI/X bus * masters. * * Initialize LUT associated with PCI P2O_BAR2 * * set pointer to LUT associated with PCI P2O_BAR2 */ reg_ptr = (ulong *) (CFG_TSI108_CSR_BASE + TSI108_PCI_REG_OFFSET + 0x500); #ifdef DISABLE_PBM /* In case when PBM is disabled (no HW supported cache snoopng on PB) * P2O_BAR2 is directly mapped into the system memory without address * translation. */ reg_val = 0x00000004; /* SDRAM port + NO Addr_Translation */ for (i = 0; i < 32; i++) { *reg_ptr++ = reg_val; /* P2O_BAR2_LUTx */ *reg_ptr++ = 0; /* P2O_BAR2_LUT_UPPERx */ } /* value for PCI BAR2 (size = 512MB, Enabled, No Addr. Translation) */ reg_val = 0x00007500; #else reg_val = 0x00000002; /* Destination port = PBM */ for (i = 0; i < 32; i++) { *reg_ptr++ = reg_val; /* P2O_BAR2_LUTx */ /* P2O_BAR2_LUT_UPPERx : Set data swapping mode for PBM (byte swapping) */ *reg_ptr++ = 0x40000000; /* offset = 16MB, address translation is enabled to allow byte swapping */ reg_val += 0x01000000; } /* value for PCI BAR2 (size = 512MB, Enabled, Address Translation Enabled) */ reg_val = 0x00007100; #endif __asm__ __volatile__ ("eieio"); __asm__ __volatile__ ("sync"); out32 (CFG_TSI108_CSR_BASE + TSI108_PCI_REG_OFFSET + PCI_P2O_PAGE_SIZES, reg_val); __asm__ __volatile__ ("sync"); /* Set 64-bit PCI bus address for system memory * ( 0 is the best choice for easy mapping) */ out32 (CFG_TSI108_CSR_BASE + TSI108_PCI_REG_OFFSET + PCI_P2O_BAR2, 0x00000000); out32 (CFG_TSI108_CSR_BASE + TSI108_PCI_REG_OFFSET + PCI_P2O_BAR2_UPPER, 0x00000000); __asm__ __volatile__ ("sync"); #ifndef DISABLE_PBM /* * The memory mapped window assotiated with PCI P2O_BAR3 provides * access to the system memory using SDRAM OCN port and address * translation. This is alternative way to access SDRAM from PCI * required for Tsi108 emulation testing. * All system memory is opened for accesses initiated by * PCI/X bus masters. * * Initialize LUT associated with PCI P2O_BAR3 * * set pointer to LUT associated with PCI P2O_BAR3 */ reg_ptr = (ulong *) (CFG_TSI108_CSR_BASE + TSI108_PCI_REG_OFFSET + 0x600); reg_val = 0x00000004; /* Destination port = SDC */ for (i = 0; i < 32; i++) { *reg_ptr++ = reg_val; /* P2O_BAR3_LUTx */ /* P2O_BAR3_LUT_UPPERx : Set data swapping mode for PBM (byte swapping) */ *reg_ptr++ = 0; /* offset = 16MB, address translation is enabled to allow byte swapping */ reg_val += 0x01000000; } __asm__ __volatile__ ("eieio"); __asm__ __volatile__ ("sync"); /* Configure PCI P2O_BAR3 (size = 512MB, Enabled) */ reg_val = in32(CFG_TSI108_CSR_BASE + TSI108_PCI_REG_OFFSET + PCI_P2O_PAGE_SIZES); reg_val &= ~0x00FF; reg_val |= 0x0071; out32 (CFG_TSI108_CSR_BASE + TSI108_PCI_REG_OFFSET + PCI_P2O_PAGE_SIZES, reg_val); __asm__ __volatile__ ("sync"); /* Set 64-bit base PCI bus address for window (0x20000000) */ out32 (CFG_TSI108_CSR_BASE + TSI108_PCI_REG_OFFSET + PCI_P2O_BAR3_UPPER, 0x00000000); out32 (CFG_TSI108_CSR_BASE + TSI108_PCI_REG_OFFSET + PCI_P2O_BAR3, 0x20000000); __asm__ __volatile__ ("sync"); #endif /* !DISABLE_PBM */ #ifdef ENABLE_PCI_CSR_BAR /* open if required access to Tsi108 CSRs from the PCI/X bus */ /* enable BAR0 on the PCI/X bus */ reg_val = in32(CFG_TSI108_CSR_BASE + TSI108_PCI_REG_OFFSET + PCI_MISC_CSR); reg_val |= 0x02; out32 (CFG_TSI108_CSR_BASE + TSI108_PCI_REG_OFFSET + PCI_MISC_CSR, reg_val); __asm__ __volatile__ ("sync"); out32 (CFG_TSI108_CSR_BASE + TSI108_PCI_REG_OFFSET + PCI_P2O_BAR0_UPPER, 0x00000000); out32 (CFG_TSI108_CSR_BASE + TSI108_PCI_REG_OFFSET + PCI_P2O_BAR0, CFG_TSI108_CSR_BASE); __asm__ __volatile__ ("sync"); #endif /* * Finally enable PCI/X Bus Master and Memory Space access */ reg_val = in32(CFG_TSI108_CSR_BASE + TSI108_PCI_REG_OFFSET + PCI_CSR); reg_val |= 0x06; out32 (CFG_TSI108_CSR_BASE + TSI108_PCI_REG_OFFSET + PCI_CSR, reg_val); __asm__ __volatile__ ("sync"); #endif /* CONFIG_PCI */ /* * Initialize MPIC outputs (interrupt pins): * Interrupt routing on the Grendel Emul. Board: * PB_INT[0] -> INT (CPU0) * PB_INT[1] -> INT (CPU1) * PB_INT[2] -> MCP (CPU0) * PB_INT[3] -> MCP (CPU1) * Set interrupt controller outputs as Level_Sensitive/Active_Low */ out32 (CFG_TSI108_CSR_BASE + TSI108_MPIC_REG_OFFSET + MPIC_CSR(0), 0x02); out32 (CFG_TSI108_CSR_BASE + TSI108_MPIC_REG_OFFSET + MPIC_CSR(1), 0x02); out32 (CFG_TSI108_CSR_BASE + TSI108_MPIC_REG_OFFSET + MPIC_CSR(2), 0x02); out32 (CFG_TSI108_CSR_BASE + TSI108_MPIC_REG_OFFSET + MPIC_CSR(3), 0x02); __asm__ __volatile__ ("sync"); /* * Ensure that Machine Check exception is enabled * We need it to support PCI Bus probing (configuration reads) */ reg_val = mfmsr (); mtmsr(reg_val | MSR_ME); return 0; } /* * Needed to print out L2 cache info * used in the misc_init_r function */ unsigned long get_l2cr (void) { unsigned long l2controlreg; asm volatile ("mfspr %0, 1017":"=r" (l2controlreg):); return l2controlreg; } /* * misc_init_r() * * various things to do after relocation * */ int misc_init_r (void) { DECLARE_GLOBAL_DATA_PTR; #ifdef CFG_CLK_SPREAD /* Initialize Spread-Spectrum Clock generation */ ulong i; /* Ensure that Spread-Spectrum is disabled */ out32 (CFG_TSI108_CSR_BASE + TSI108_CLK_REG_OFFSET + CG_PLL0_CTRL0, 0); out32 (CFG_TSI108_CSR_BASE + TSI108_CLK_REG_OFFSET + CG_PLL1_CTRL0, 0); /* Initialize PLL1: CG_PCI_CLK , internal OCN_CLK * Uses pre-calculated value for Fout = 800 MHz, Fs = 30 kHz, D = 0.5% */ out32 (CFG_TSI108_CSR_BASE + TSI108_CLK_REG_OFFSET + CG_PLL1_CTRL0, 0x002e0044); /* D = 0.25% */ out32 (CFG_TSI108_CSR_BASE + TSI108_CLK_REG_OFFSET + CG_PLL1_CTRL1, 0x00000039); /* BWADJ */ /* Initialize PLL0: CG_PB_CLKO */ /* Detect PB clock freq. */ i = in32(CFG_TSI108_CSR_BASE + TSI108_CLK_REG_OFFSET + CG_PWRUP_STATUS); i = (i >> 16) & 0x07; /* Get PB PLL multiplier */ out32 (CFG_TSI108_CSR_BASE + TSI108_CLK_REG_OFFSET + CG_PLL0_CTRL0, pll0_config[i].ctrl0); out32 (CFG_TSI108_CSR_BASE + TSI108_CLK_REG_OFFSET + CG_PLL0_CTRL1, pll0_config[i].ctrl1); /* Wait and set SSEN for both PLL0 and 1 */ udelay (1000); out32 (CFG_TSI108_CSR_BASE + TSI108_CLK_REG_OFFSET + CG_PLL1_CTRL0, 0x802e0044); /* D=0.25% */ out32 (CFG_TSI108_CSR_BASE + TSI108_CLK_REG_OFFSET + CG_PLL0_CTRL0, 0x80000000 | pll0_config[i].ctrl0); #endif /* CFG_CLK_SPREAD */ #ifdef CFG_L2 l2cache_enable (); #endif printf ("BUS: %d MHz\n", gd->bus_clk / 1000000); printf ("MEM: %d MHz\n", gd->mem_clk / 1000000); /* * All the information needed to print the cache details is avaiblable * at this point i.e. above call to l2cache_enable is the very last * thing done with regards to enabling diabling the cache. * So this seems like a good place to print all this information */ printf ("CACHE: "); switch (get_cpu_type()) { case CPU_7447A: printf ("L1 Instruction cache - 32KB 8-way"); (get_hid0 () & (1 << 15)) ? printf (" ENABLED\n") : printf (" DISABLED\n"); printf ("L1 Data cache - 32KB 8-way"); (get_hid0 () & (1 << 14)) ? printf (" ENABLED\n") : printf (" DISABLED\n"); printf ("Unified L2 cache - 512KB 8-way"); (get_l2cr () & (1 << 31)) ? printf (" ENABLED\n") : printf (" DISABLED\n"); printf ("\n"); break; case CPU_7448: printf ("L1 Instruction cache - 32KB 8-way"); (get_hid0 () & (1 << 15)) ? printf (" ENABLED\n") : printf (" DISABLED\n"); printf ("L1 Data cache - 32KB 8-way"); (get_hid0 () & (1 << 14)) ? printf (" ENABLED\n") : printf (" DISABLED\n"); printf ("Unified L2 cache - 1MB 8-way"); (get_l2cr () & (1 << 31)) ? printf (" ENABLED\n") : printf (" DISABLED\n"); break; default: break; } return 0; }