/* Initialization for the MT62xx Basebands */ /* (C) 2010 by Steve Markgraf * * All Rights Reserved * * 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. * */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include void pll_init(void) { /* Power on PLL */ writew(0, MTK_PLL_PDN_CON); writew(PLL_CLKSQ_DIV2_DSP | PLL_CLKSQ_DIV2_MCU, MTK_PLL_CLK_CON); writew(PLL_RST, MTK_PLL_PLL); writew(0, MTK_PLL_PLL); delay_ms(1); /* Turn on PLL for MCU, DSP and USB */ writew(PLL_MPLLSEL_PLL | PLL_DPLLSEL | PLL_UPLLSEL, MTK_PLL_PLL); /* * Setup MCU clock register: * ARMCLK = 208MHz, AHBx4CLK = 52MHz, AHBx8CLK = 104MHz * we have to write to the read-only part (EMICLK) as well, otherwise * the EMI won't work! (datasheet lies) */ writew(7 << MCUCLK_CON_AHBX8CLK_SHIFT | 3 << MCUCLK_CON_AHBX4CLK_SHIFT | 15 << MCUCLK_CON_ARMCLK_SHIFT | 7 << MCUCLK_CON_EMICLK_SHIFT, MTK_CONFG_MCUCLK_CON); } void memory_init(void) { int i; /* Initialization for Hynix RAM */ /* Configure DRAM controller */ writel(0x0001000e, MTK_EMI_GEND); writel(0x00088a0a, MTK_EMI_GENA); writel(0x00000280, MTK_EMI_GENB); writel(0x52945294, MTK_EMI_GENC); writel(0x1c016605, MTK_EMI_CONL); writel(0x00002828, MTK_EMI_CONM); writel(0x02334000, MTK_EMI_CONI); writel(0x16c12212, MTK_EMI_CONJ); writel(0x032d0000, MTK_EMI_CONK); for (i = 0; i < 5; ++i) { /* Setup five single bits, one by one for DRAM init */ writel((1 << (24 + i)) | (0x400013), MTK_EMI_CONN); delay_ms(1); writel(0x400013, MTK_EMI_CONN); delay_ms(1); } #if 0 /* Initialization for Toshiba RAM */ /* Configure DRAM controller */ writel(0x0001000E, MTK_EMI_GEND); writel(0x00088E3A, MTK_EMI_GENA); writel(0x000000C0, MTK_EMI_GENB); writel(0x18C618C6, MTK_EMI_GENC); writel(0x18007505, MTK_EMI_CONL); writel(0x00002828, MTK_EMI_CONM); writel(0x00332000, MTK_EMI_CONI); writel(0x3CD24431, MTK_EMI_CONJ); writel(0x02000000, MTK_EMI_CONK); for (i = 0; i < 5; ++i) { /* Setup five single bits, one by one for DRAM init */ writel((1 << (24 + i)) | (0x500013), MTK_EMI_CONN); delay_ms(1); writel(0x500013, MTK_EMI_CONN); delay_ms(1); } #endif } void board_init(int with_irq) { /* powerup the baseband */ writew(POWERKEY1_MAGIC, MTK_RTC_POWERKEY1); writew(POWERKEY2_MAGIC, MTK_RTC_POWERKEY2); writew(BBPU_MAGIC | RTC_BBPU_WRITE_EN | RTC_BBPU_BBPU | RTC_BBPU_AUTO, MTK_RTC_BBPU); writew(1, MTK_RTC_WRTGR); /* disable watchdog timer */ writew(WDT_MODE_KEY, MTK_RGU_WDT_MODE); pll_init(); memory_init(); /* Initialize UART */ sercomm_bind_uart(UART_MODEM); cons_bind_uart(UART_IRDA); uart_init(UART_MODEM, with_irq); uart_baudrate(UART_MODEM, UART_115200); }