blob: 4dec47b8e960d25d75244193f38a54dc186ed612 [file] [log] [blame]
// SPDX-License-Identifier: GPL-2.0
/*
* Copyright (C) 2016-2019 Intel Corporation <www.intel.com>
*
*/
#include <mach/base_addr_soc64.h>
#include <asm/io.h>
#include <asm/arch/firewall.h>
#include <asm/arch/system_manager.h>
static void firewall_l4_per_disable(void)
{
const struct socfpga_firwall_l4_per *firwall_l4_per_base =
(struct socfpga_firwall_l4_per *)SOCFPGA_FIREWALL_L4_PER;
u32 i;
const u32 *addr[] = {
&firwall_l4_per_base->nand,
&firwall_l4_per_base->nand_data,
&firwall_l4_per_base->usb0,
&firwall_l4_per_base->usb1,
&firwall_l4_per_base->spim0,
&firwall_l4_per_base->spim1,
&firwall_l4_per_base->emac0,
&firwall_l4_per_base->emac1,
&firwall_l4_per_base->emac2,
&firwall_l4_per_base->sdmmc,
&firwall_l4_per_base->gpio0,
&firwall_l4_per_base->gpio1,
&firwall_l4_per_base->i2c0,
&firwall_l4_per_base->i2c1,
&firwall_l4_per_base->i2c2,
&firwall_l4_per_base->i2c3,
&firwall_l4_per_base->i2c4,
&firwall_l4_per_base->timer0,
&firwall_l4_per_base->timer1,
&firwall_l4_per_base->uart0,
&firwall_l4_per_base->uart1
};
/*
* The following lines of code will enable non-secure access
* to nand, usb, spi, emac, sdmmc, gpio, i2c, timers and uart. This
* is needed as most OS run in non-secure mode. Thus we need to
* enable non-secure access to these peripherals in order for the
* OS to use these peripherals.
*/
for (i = 0; i < ARRAY_SIZE(addr); i++)
writel(FIREWALL_L4_DISABLE_ALL, addr[i]);
}
static void firewall_l4_sys_disable(void)
{
const struct socfpga_firwall_l4_sys *firwall_l4_sys_base =
(struct socfpga_firwall_l4_sys *)SOCFPGA_FIREWALL_L4_SYS;
u32 i;
const u32 *addr[] = {
&firwall_l4_sys_base->dma_ecc,
&firwall_l4_sys_base->emac0rx_ecc,
&firwall_l4_sys_base->emac0tx_ecc,
&firwall_l4_sys_base->emac1rx_ecc,
&firwall_l4_sys_base->emac1tx_ecc,
&firwall_l4_sys_base->emac2rx_ecc,
&firwall_l4_sys_base->emac2tx_ecc,
&firwall_l4_sys_base->nand_ecc,
&firwall_l4_sys_base->nand_read_ecc,
&firwall_l4_sys_base->nand_write_ecc,
&firwall_l4_sys_base->ocram_ecc,
&firwall_l4_sys_base->sdmmc_ecc,
&firwall_l4_sys_base->usb0_ecc,
&firwall_l4_sys_base->usb1_ecc,
&firwall_l4_sys_base->clock_manager,
&firwall_l4_sys_base->io_manager,
&firwall_l4_sys_base->reset_manager,
&firwall_l4_sys_base->system_manager,
&firwall_l4_sys_base->watchdog0,
&firwall_l4_sys_base->watchdog1,
&firwall_l4_sys_base->watchdog2,
&firwall_l4_sys_base->watchdog3
};
for (i = 0; i < ARRAY_SIZE(addr); i++)
writel(FIREWALL_L4_DISABLE_ALL, addr[i]);
}
static void firewall_bridge_disable(void)
{
/* disable lwsocf2fpga and soc2fpga bridge security */
writel(FIREWALL_BRIDGE_DISABLE_ALL, SOCFPGA_FIREWALL_SOC2FPGA);
writel(FIREWALL_BRIDGE_DISABLE_ALL, SOCFPGA_FIREWALL_LWSOC2FPGA);
}
void firewall_setup(void)
{
firewall_l4_per_disable();
firewall_l4_sys_disable();
firewall_bridge_disable();
/* disable SMMU security */
writel(FIREWALL_L4_DISABLE_ALL, SOCFPGA_FIREWALL_TCU);
/* enable non-secure interface to DMA330 DMA and peripherals */
writel(SYSMGR_DMA_IRQ_NS | SYSMGR_DMA_MGR_NS,
socfpga_get_sysmgr_addr() + SYSMGR_SOC64_DMA);
writel(SYSMGR_DMAPERIPH_ALL_NS,
socfpga_get_sysmgr_addr() + SYSMGR_SOC64_DMA_PERIPH);
}