/* * Copyright (c) 2013 Xilinx Inc. * * SPDX-License-Identifier: GPL-2.0+ */ #include #include #include #include #include #include #define SLCR_LOCK_MAGIC 0x767B #define SLCR_UNLOCK_MAGIC 0xDF0D #define SLCR_USB_L1_SEL 0x04 #define SLCR_IDCODE_MASK 0x1F000 #define SLCR_IDCODE_SHIFT 12 /* * zynq_slcr_mio_get_status - Get the status of MIO peripheral. * * @peri_name: Name of the peripheral for checking MIO status * @get_pins: Pointer to array of get pin for this peripheral * @num_pins: Number of pins for this peripheral * @mask: Mask value * @check_val: Required check value to get the status of periph */ struct zynq_slcr_mio_get_status { const char *peri_name; const int *get_pins; int num_pins; u32 mask; u32 check_val; }; static const int usb0_pins[] = { 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39 }; static const int usb1_pins[] = { 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51 }; static const struct zynq_slcr_mio_get_status mio_periphs[] = { { "usb0", usb0_pins, ARRAY_SIZE(usb0_pins), SLCR_USB_L1_SEL, SLCR_USB_L1_SEL, }, { "usb1", usb1_pins, ARRAY_SIZE(usb1_pins), SLCR_USB_L1_SEL, SLCR_USB_L1_SEL, }, }; static int slcr_lock = 1; /* 1 means locked, 0 means unlocked */ void zynq_slcr_lock(void) { if (!slcr_lock) { writel(SLCR_LOCK_MAGIC, &slcr_base->slcr_lock); slcr_lock = 1; } } void zynq_slcr_unlock(void) { if (slcr_lock) { writel(SLCR_UNLOCK_MAGIC, &slcr_base->slcr_unlock); slcr_lock = 0; } } /* Reset the entire system */ void zynq_slcr_cpu_reset(void) { /* * Unlock the SLCR then reset the system. * Note that this seems to require raw i/o * functions or there's a lockup? */ zynq_slcr_unlock(); /* * Clear 0x0F000000 bits of reboot status register to workaround * the FSBL not loading the bitstream after soft-reboot * This is a temporary solution until we know more. */ clrbits_le32(&slcr_base->reboot_status, 0xF000000); writel(1, &slcr_base->pss_rst_ctrl); } /* Setup clk for network */ void zynq_slcr_gem_clk_setup(u32 gem_id, unsigned long clk_rate) { int ret; zynq_slcr_unlock(); if (gem_id > 1) { printf("Non existing GEM id %d\n", gem_id); goto out; } ret = zynq_clk_set_rate(gem0_clk + gem_id, clk_rate); if (ret) goto out; if (gem_id) { /* Configure GEM_RCLK_CTRL */ writel(1, &slcr_base->gem1_rclk_ctrl); } else { /* Configure GEM_RCLK_CTRL */ writel(1, &slcr_base->gem0_rclk_ctrl); } udelay(100000); out: zynq_slcr_lock(); } void zynq_slcr_devcfg_disable(void) { zynq_slcr_unlock(); /* Disable AXI interface by asserting FPGA resets */ writel(0xF, &slcr_base->fpga_rst_ctrl); /* Set Level Shifters DT618760 */ writel(0xA, &slcr_base->lvl_shftr_en); zynq_slcr_lock(); } void zynq_slcr_devcfg_enable(void) { zynq_slcr_unlock(); /* Set Level Shifters DT618760 */ writel(0xF, &slcr_base->lvl_shftr_en); /* Enable AXI interface by de-asserting FPGA resets */ writel(0x0, &slcr_base->fpga_rst_ctrl); zynq_slcr_lock(); } u32 zynq_slcr_get_boot_mode(void) { /* Get the bootmode register value */ return readl(&slcr_base->boot_mode); } u32 zynq_slcr_get_idcode(void) { return (readl(&slcr_base->pss_idcode) & SLCR_IDCODE_MASK) >> SLCR_IDCODE_SHIFT; } /* * zynq_slcr_get_mio_pin_status - Get the MIO pin status of peripheral. * * @periph: Name of the peripheral * * Returns count to indicate the number of pins configured for the * given @periph. */ int zynq_slcr_get_mio_pin_status(const char *periph) { const struct zynq_slcr_mio_get_status *mio_ptr; int val, i, j; int mio = 0; for (i = 0; i < ARRAY_SIZE(mio_periphs); i++) { if (strcmp(periph, mio_periphs[i].peri_name) == 0) { mio_ptr = &mio_periphs[i]; for (j = 0; j < mio_ptr->num_pins; j++) { val = readl(&slcr_base->mio_pin [mio_ptr->get_pins[j]]); if ((val & mio_ptr->mask) == mio_ptr->check_val) mio++; } break; } } return mio; }