// SPDX-License-Identifier: GPL-2.0+ /* * Bluewater Systems Snapper 9260/9G20 modules * * (C) Copyright 2011 Bluewater Systems * Author: Andre Renaud * Author: Ryan Mallon */ #include #include #include #include #include #include #include #include #include #ifndef CONFIG_DM_ETH #include #endif #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef CONFIG_GURNARD_SPLASH #include "splash_logo.h" #endif DECLARE_GLOBAL_DATA_PTR; /* IO Expander pins */ #define IO_EXP_ETH_RESET (0 << 1) #define IO_EXP_ETH_POWER (1 << 1) #ifdef CONFIG_MACB static void gurnard_macb_hw_init(void) { struct at91_port *pioa = (struct at91_port *)ATMEL_BASE_PIOA; at91_periph_clk_enable(ATMEL_ID_EMAC); /* * Enable pull-up on: * RXDV (PA12) => MODE0 - PHY also has pull-up * ERX0 (PA13) => MODE1 - PHY also has pull-up * ERX1 (PA15) => MODE2 - PHY also has pull-up */ writel(pin_to_mask(AT91_PIN_PA15) | pin_to_mask(AT91_PIN_PA12) | pin_to_mask(AT91_PIN_PA13), &pioa->puer); at91_phy_reset(); at91_macb_hw_init(); } #endif #ifdef CONFIG_CMD_NAND static int gurnard_nand_hw_init(void) { struct at91_matrix *matrix = (struct at91_matrix *)ATMEL_BASE_MATRIX; struct at91_smc *smc = (struct at91_smc *)ATMEL_BASE_SMC; ulong flags; int ret; /* Enable CS3 as NAND/SmartMedia */ setbits_le32(&matrix->ebicsa, AT91_MATRIX_EBI_CS3A_SMC_SMARTMEDIA); /* Configure SMC CS3 for NAND/SmartMedia */ writel(AT91_SMC_SETUP_NWE(2) | AT91_SMC_SETUP_NCS_WR(0) | AT91_SMC_SETUP_NRD(2) | AT91_SMC_SETUP_NCS_RD(0), &smc->cs[3].setup); writel(AT91_SMC_PULSE_NWE(4) | AT91_SMC_PULSE_NCS_WR(4) | AT91_SMC_PULSE_NRD(4) | AT91_SMC_PULSE_NCS_RD(4), &smc->cs[3].pulse); writel(AT91_SMC_CYCLE_NWE(7) | AT91_SMC_CYCLE_NRD(7), &smc->cs[3].cycle); #ifdef CONFIG_SYS_NAND_DBW_16 flags = AT91_SMC_MODE_DBW_16; #else flags = AT91_SMC_MODE_DBW_8; #endif writel(AT91_SMC_MODE_RM_NRD | AT91_SMC_MODE_WM_NWE | AT91_SMC_MODE_EXNW_DISABLE | flags | AT91_SMC_MODE_TDF_CYCLE(3), &smc->cs[3].mode); ret = gpio_request(CONFIG_SYS_NAND_READY_PIN, "nand_rdy"); if (ret) return ret; gpio_direction_input(CONFIG_SYS_NAND_READY_PIN); /* Enable NandFlash */ ret = gpio_request(CONFIG_SYS_NAND_ENABLE_PIN, "nand_ce"); if (ret) return ret; gpio_direction_output(CONFIG_SYS_NAND_ENABLE_PIN, 1); return 0; } #endif #ifdef CONFIG_GURNARD_SPLASH static void lcd_splash(int width, int height) { u16 colour; int x, y; u16 *base_addr = (u16 *)gd->video_bottom; memset(base_addr, 0xff, width * height * 2); /* * Blit the logo to the center of the screen */ for (y = 0; y < BMP_LOGO_HEIGHT; y++) { for (x = 0; x < BMP_LOGO_WIDTH; x++) { int posx, posy; colour = bmp_logo_palette[bmp_logo_bitmap[ y * BMP_LOGO_WIDTH + x]]; posx = x + (width - BMP_LOGO_WIDTH) / 2; posy = y; base_addr[posy * width + posx] = colour; } } } #endif #ifdef CONFIG_DM_VIDEO static void at91sam9g45_lcd_hw_init(void) { at91_set_A_periph(AT91_PIN_PE0, 0); /* LCDDPWR */ at91_set_A_periph(AT91_PIN_PE2, 0); /* LCDCC */ at91_set_A_periph(AT91_PIN_PE3, 0); /* LCDVSYNC */ at91_set_A_periph(AT91_PIN_PE4, 0); /* LCDHSYNC */ at91_set_A_periph(AT91_PIN_PE5, 0); /* LCDDOTCK */ at91_set_A_periph(AT91_PIN_PE7, 0); /* LCDD0 */ at91_set_A_periph(AT91_PIN_PE8, 0); /* LCDD1 */ at91_set_A_periph(AT91_PIN_PE9, 0); /* LCDD2 */ at91_set_A_periph(AT91_PIN_PE10, 0); /* LCDD3 */ at91_set_A_periph(AT91_PIN_PE11, 0); /* LCDD4 */ at91_set_A_periph(AT91_PIN_PE12, 0); /* LCDD5 */ at91_set_A_periph(AT91_PIN_PE13, 0); /* LCDD6 */ at91_set_A_periph(AT91_PIN_PE14, 0); /* LCDD7 */ at91_set_A_periph(AT91_PIN_PE15, 0); /* LCDD8 */ at91_set_A_periph(AT91_PIN_PE16, 0); /* LCDD9 */ at91_set_A_periph(AT91_PIN_PE17, 0); /* LCDD10 */ at91_set_A_periph(AT91_PIN_PE18, 0); /* LCDD11 */ at91_set_A_periph(AT91_PIN_PE19, 0); /* LCDD12 */ at91_set_B_periph(AT91_PIN_PE20, 0); /* LCDD13 */ at91_set_A_periph(AT91_PIN_PE21, 0); /* LCDD14 */ at91_set_A_periph(AT91_PIN_PE22, 0); /* LCDD15 */ at91_set_A_periph(AT91_PIN_PE23, 0); /* LCDD16 */ at91_set_A_periph(AT91_PIN_PE24, 0); /* LCDD17 */ at91_set_A_periph(AT91_PIN_PE25, 0); /* LCDD18 */ at91_set_A_periph(AT91_PIN_PE26, 0); /* LCDD19 */ at91_set_A_periph(AT91_PIN_PE27, 0); /* LCDD20 */ at91_set_B_periph(AT91_PIN_PE28, 0); /* LCDD21 */ at91_set_A_periph(AT91_PIN_PE29, 0); /* LCDD22 */ at91_set_A_periph(AT91_PIN_PE30, 0); /* LCDD23 */ at91_periph_clk_enable(ATMEL_ID_LCDC); } #endif #ifdef CONFIG_GURNARD_FPGA /** * Initialise the memory bus settings so that we can talk to the * memory mapped FPGA */ static int fpga_hw_init(void) { struct at91_matrix *matrix = (struct at91_matrix *)ATMEL_BASE_MATRIX; struct at91_smc *smc = (struct at91_smc *)ATMEL_BASE_SMC; int i; setbits_le32(&matrix->ebicsa, AT91_MATRIX_EBI_CS1A_SDRAMC); at91_set_a_periph(2, 4, 0); /* EBIA21 */ at91_set_a_periph(2, 5, 0); /* EBIA22 */ at91_set_a_periph(2, 6, 0); /* EBIA23 */ at91_set_a_periph(2, 7, 0); /* EBIA24 */ at91_set_a_periph(2, 12, 0); /* EBIA25 */ for (i = 15; i <= 31; i++) /* EBINWAIT & EBID16 - 31 */ at91_set_a_periph(2, i, 0); /* configure SMC cs0 for FPGA access timing */ writel(AT91_SMC_SETUP_NWE(1) | AT91_SMC_SETUP_NCS_WR(2) | AT91_SMC_SETUP_NRD(0) | AT91_SMC_SETUP_NCS_RD(2), &smc->cs[0].setup); writel(AT91_SMC_PULSE_NWE(5) | AT91_SMC_PULSE_NCS_WR(4) | AT91_SMC_PULSE_NRD(6) | AT91_SMC_PULSE_NCS_RD(4), &smc->cs[0].pulse); writel(AT91_SMC_CYCLE_NWE(6) | AT91_SMC_CYCLE_NRD(6), &smc->cs[0].cycle); writel(AT91_SMC_MODE_BAT | AT91_SMC_MODE_EXNW_DISABLE | AT91_SMC_MODE_DBW_32 | AT91_SMC_MODE_TDF | AT91_SMC_MODE_TDF_CYCLE(2), &smc->cs[0].mode); /* Do a write to within EBI_CS1 to enable the SDCK */ writel(0, ATMEL_BASE_CS1); return 0; } #endif #ifdef CONFIG_CMD_USB #define USB0_ENABLE_PIN AT91_PIN_PB22 #define USB1_ENABLE_PIN AT91_PIN_PB23 void gurnard_usb_init(void) { at91_set_gpio_output(USB0_ENABLE_PIN, 1); at91_set_gpio_value(USB0_ENABLE_PIN, 0); at91_set_gpio_output(USB1_ENABLE_PIN, 1); at91_set_gpio_value(USB1_ENABLE_PIN, 0); } #endif #ifdef CONFIG_GENERIC_ATMEL_MCI int cpu_mmc_init(struct bd_info *bis) { return atmel_mci_init((void *)ATMEL_BASE_MCI0); } #endif static void gurnard_enable_console(int enable) { at91_set_gpio_output(AT91_PIN_PB14, 1); at91_set_gpio_value(AT91_PIN_PB14, enable ? 0 : 1); } void at91sam9g45_slowclock_init(void) { /* * On AT91SAM9G45 revC CPUs, the slow clock can be based on an * internal impreciseRC oscillator or an external 32kHz oscillator. * Switch to the latter. */ unsigned i, tmp; ulong *reg = (ulong *)ATMEL_BASE_SCKCR; tmp = readl(reg); if ((tmp & AT91SAM9G45_SCKCR_OSCSEL) == AT91SAM9G45_SCKCR_OSCSEL_RC) { timer_init(); tmp |= AT91SAM9G45_SCKCR_OSC32EN; writel(tmp, reg); for (i = 0; i < 1200; i++) udelay(1000); tmp |= AT91SAM9G45_SCKCR_OSCSEL_32; writel(tmp, reg); udelay(200); tmp &= ~AT91SAM9G45_SCKCR_RCEN; writel(tmp, reg); } } int board_early_init_f(void) { at91_seriald_hw_init(); gurnard_enable_console(1); return 0; } int board_init(void) { const char *rev_str; #ifdef CONFIG_CMD_NAND int ret; #endif at91_periph_clk_enable(ATMEL_ID_PIOA); at91_periph_clk_enable(ATMEL_ID_PIOB); at91_periph_clk_enable(ATMEL_ID_PIOC); at91_periph_clk_enable(ATMEL_ID_PIODE); at91sam9g45_slowclock_init(); /* * Clear the RTC IDR to disable all IRQs. Avoid issues when Linux * boots with spurious IRQs. */ writel(0xffffffff, AT91_RTC_IDR); /* Make sure that the reset signal is attached properly */ setbits_le32(AT91_ASM_RSTC_MR, AT91_RSTC_KEY | AT91_RSTC_MR_URSTEN); gd->bd->bi_arch_number = MACH_TYPE_SNAPPER_9260; /* Address of boot parameters */ gd->bd->bi_boot_params = CONFIG_SYS_SDRAM_BASE + 0x100; #ifdef CONFIG_CMD_NAND ret = gurnard_nand_hw_init(); if (ret) return ret; #endif #ifdef CONFIG_ATMEL_SPI at91_spi0_hw_init(1 << 4); #endif #ifdef CONFIG_MACB gurnard_macb_hw_init(); #endif #ifdef CONFIG_GURNARD_FPGA fpga_hw_init(); #endif #ifdef CONFIG_CMD_USB gurnard_usb_init(); #endif #ifdef CONFIG_CMD_MMC at91_set_A_periph(AT91_PIN_PA12, 0); at91_set_gpio_output(AT91_PIN_PA8, 1); at91_set_gpio_value(AT91_PIN_PA8, 0); at91_mci_hw_init(); #endif #ifdef CONFIG_DM_VIDEO at91sam9g45_lcd_hw_init(); at91_set_A_periph(AT91_PIN_PE6, 1); /* power up */ /* Select the second timing index for board rev 2 */ rev_str = env_get("board_rev"); if (rev_str && !strncmp(rev_str, "2", 1)) { struct udevice *dev; uclass_find_first_device(UCLASS_VIDEO, &dev); if (dev) { struct atmel_lcd_plat *plat = dev_get_plat(dev); plat->timing_index = 1; } } #endif return 0; } int board_late_init(void) { u_int8_t env_enetaddr[8]; char *env_str; char *end; int i; /* * Set MAC address so we do not need to init Ethernet before Linux * boot */ env_str = env_get("ethaddr"); if (env_str) { struct at91_emac *emac = (struct at91_emac *)ATMEL_BASE_EMAC; /* Parse MAC address */ for (i = 0; i < 6; i++) { env_enetaddr[i] = env_str ? hextoul(env_str, &end) : 0; if (env_str) env_str = (*end) ? end+1 : end; } /* Set hardware address */ writel(env_enetaddr[0] | env_enetaddr[1] << 8 | env_enetaddr[2] << 16 | env_enetaddr[3] << 24, &emac->sa2l); writel((env_enetaddr[4] | env_enetaddr[5] << 8), &emac->sa2h); printf("MAC: %s\n", env_get("ethaddr")); } else { /* Not set in environment */ printf("MAC: not set\n"); } #ifdef CONFIG_GURNARD_SPLASH lcd_splash(480, 272); #endif return 0; } #ifndef CONFIG_DM_ETH int board_eth_init(struct bd_info *bis) { return macb_eth_initialize(0, (void *)ATMEL_BASE_EMAC, 0); } #endif int dram_init(void) { gd->ram_size = get_ram_size((void *)CONFIG_SYS_SDRAM_BASE, CONFIG_SYS_SDRAM_SIZE); return 0; } void reset_phy(void) { } static struct atmel_serial_plat at91sam9260_serial_plat = { .base_addr = ATMEL_BASE_DBGU, }; U_BOOT_DRVINFO(at91sam9260_serial) = { .name = "serial_atmel", .plat = &at91sam9260_serial_plat, };