arm_common.c 6.83 KB
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/*
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 * Copyright (c) 2015-2018, ARM Limited and Contributors. All rights reserved.
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 *
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 * SPDX-License-Identifier: BSD-3-Clause
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 */
#include <arch.h>
#include <arch_helpers.h>
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#include <arm_xlat_tables.h>
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#include <assert.h>
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#include <debug.h>
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#include <mmio.h>
#include <plat_arm.h>
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#include <platform.h>
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#include <platform_def.h>
#include <romlib.h>
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#include <secure_partition.h>
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/* Weak definitions may be overridden in specific ARM standard platform */
#pragma weak plat_get_ns_image_entrypoint
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#pragma weak plat_arm_get_mmap
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/* Conditionally provide a weak definition of plat_get_syscnt_freq2 to avoid
 * conflicts with the definition in plat/common. */
#pragma weak plat_get_syscnt_freq2
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void arm_setup_romlib(void)
{
#if USE_ROMLIB
	if (!rom_lib_init(ROMLIB_VERSION))
		panic();
#endif
}

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/*
 * Set up the page tables for the generic and platform-specific memory regions.
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 * The size of the Trusted SRAM seen by the BL image must be specified as well
 * as an array specifying the generic memory regions which can be;
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 * - Code section;
 * - Read-only data section;
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 * - Coherent memory region, if applicable.
 */
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void __init arm_setup_page_tables(const mmap_region_t bl_regions[],
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			   const mmap_region_t plat_regions[])
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{
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#if LOG_LEVEL >= LOG_LEVEL_VERBOSE
	const mmap_region_t *regions = bl_regions;

	while (regions->size != 0U) {
		VERBOSE("Region: 0x%lx - 0x%lx has attributes 0x%x\n",
				regions->base_va,
				(regions->base_va + regions->size),
				regions->attr);
		regions++;
	}
#endif
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	/*
	 * Map the Trusted SRAM with appropriate memory attributes.
	 * Subsequent mappings will adjust the attributes for specific regions.
	 */
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	mmap_add(bl_regions);
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	/* Now (re-)map the platform-specific memory regions */
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	mmap_add(plat_regions);
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	/* Create the page tables to reflect the above mappings */
	init_xlat_tables();
}
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uintptr_t plat_get_ns_image_entrypoint(void)
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{
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#ifdef PRELOADED_BL33_BASE
	return PRELOADED_BL33_BASE;
#else
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	return PLAT_ARM_NS_IMAGE_OFFSET;
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#endif
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}

/*******************************************************************************
 * Gets SPSR for BL32 entry
 ******************************************************************************/
uint32_t arm_get_spsr_for_bl32_entry(void)
{
	/*
	 * The Secure Payload Dispatcher service is responsible for
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	 * setting the SPSR prior to entry into the BL32 image.
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	 */
	return 0;
}

/*******************************************************************************
 * Gets SPSR for BL33 entry
 ******************************************************************************/
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#ifndef AARCH32
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uint32_t arm_get_spsr_for_bl33_entry(void)
{
	unsigned int mode;
	uint32_t spsr;

	/* Figure out what mode we enter the non-secure world in */
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	mode = EL_IMPLEMENTED(2) ? MODE_EL2 : MODE_EL1;
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	/*
	 * TODO: Consider the possibility of specifying the SPSR in
	 * the FIP ToC and allowing the platform to have a say as
	 * well.
	 */
	spsr = SPSR_64(mode, MODE_SP_ELX, DISABLE_ALL_EXCEPTIONS);
	return spsr;
}
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#else
/*******************************************************************************
 * Gets SPSR for BL33 entry
 ******************************************************************************/
uint32_t arm_get_spsr_for_bl33_entry(void)
{
	unsigned int hyp_status, mode, spsr;

	hyp_status = GET_VIRT_EXT(read_id_pfr1());

	mode = (hyp_status) ? MODE32_hyp : MODE32_svc;

	/*
	 * TODO: Consider the possibility of specifying the SPSR in
	 * the FIP ToC and allowing the platform to have a say as
	 * well.
	 */
	spsr = SPSR_MODE32(mode, plat_get_ns_image_entrypoint() & 0x1,
			SPSR_E_LITTLE, DISABLE_ALL_EXCEPTIONS);
	return spsr;
}
#endif /* AARCH32 */
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/*******************************************************************************
 * Configures access to the system counter timer module.
 ******************************************************************************/
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#ifdef ARM_SYS_TIMCTL_BASE
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void arm_configure_sys_timer(void)
{
	unsigned int reg_val;

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	/* Read the frequency of the system counter */
	unsigned int freq_val = plat_get_syscnt_freq2();

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#if ARM_CONFIG_CNTACR
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	reg_val = (1 << CNTACR_RPCT_SHIFT) | (1 << CNTACR_RVCT_SHIFT);
	reg_val |= (1 << CNTACR_RFRQ_SHIFT) | (1 << CNTACR_RVOFF_SHIFT);
	reg_val |= (1 << CNTACR_RWVT_SHIFT) | (1 << CNTACR_RWPT_SHIFT);
	mmio_write_32(ARM_SYS_TIMCTL_BASE + CNTACR_BASE(PLAT_ARM_NSTIMER_FRAME_ID), reg_val);
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#endif /* ARM_CONFIG_CNTACR */
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	reg_val = (1 << CNTNSAR_NS_SHIFT(PLAT_ARM_NSTIMER_FRAME_ID));
	mmio_write_32(ARM_SYS_TIMCTL_BASE + CNTNSAR, reg_val);
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	/*
	 * Initialize CNTFRQ register in CNTCTLBase frame. The CNTFRQ
	 * system register initialized during psci_arch_setup() is different
	 * from this and has to be updated independently.
	 */
	mmio_write_32(ARM_SYS_TIMCTL_BASE + CNTCTLBASE_CNTFRQ, freq_val);

#ifdef PLAT_juno
	/*
	 * Initialize CNTFRQ register in Non-secure CNTBase frame.
	 * This is only required for Juno, because it doesn't follow ARM ARM
	 * in that the value updated in CNTFRQ is not reflected in CNTBASE_CNTFRQ.
	 * Hence update the value manually.
	 */
	mmio_write_32(ARM_SYS_CNT_BASE_NS + CNTBASE_CNTFRQ, freq_val);
#endif
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}
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#endif /* ARM_SYS_TIMCTL_BASE */
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/*******************************************************************************
 * Returns ARM platform specific memory map regions.
 ******************************************************************************/
const mmap_region_t *plat_arm_get_mmap(void)
{
	return plat_arm_mmap;
}
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#ifdef ARM_SYS_CNTCTL_BASE
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unsigned int plat_get_syscnt_freq2(void)
{
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	unsigned int counter_base_frequency;
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	/* Read the frequency from Frequency modes table */
	counter_base_frequency = mmio_read_32(ARM_SYS_CNTCTL_BASE + CNTFID_OFF);

	/* The first entry of the frequency modes table must not be 0 */
	if (counter_base_frequency == 0)
		panic();

	return counter_base_frequency;
}
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#endif /* ARM_SYS_CNTCTL_BASE */
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#if SDEI_SUPPORT
/*
 * Translate SDEI entry point to PA, and perform standard ARM entry point
 * validation on it.
 */
int plat_sdei_validate_entry_point(uintptr_t ep, unsigned int client_mode)
{
	uint64_t par, pa;
	uint32_t scr_el3;

	/* Doing Non-secure address translation requires SCR_EL3.NS set */
	scr_el3 = read_scr_el3();
	write_scr_el3(scr_el3 | SCR_NS_BIT);
	isb();

	assert((client_mode == MODE_EL2) || (client_mode == MODE_EL1));
	if (client_mode == MODE_EL2) {
		/*
		 * Translate entry point to Physical Address using the EL2
		 * translation regime.
		 */
		ats1e2r(ep);
	} else {
		/*
		 * Translate entry point to Physical Address using the EL1&0
		 * translation regime, including stage 2.
		 */
		ats12e1r(ep);
	}
	isb();
	par = read_par_el1();

	/* Restore original SCRL_EL3 */
	write_scr_el3(scr_el3);
	isb();

	/* If the translation resulted in fault, return failure */
	if ((par & PAR_F_MASK) != 0)
		return -1;

	/* Extract Physical Address from PAR */
	pa = (par & (PAR_ADDR_MASK << PAR_ADDR_SHIFT));

	/* Perform NS entry point validation on the physical address */
	return arm_validate_ns_entrypoint(pa);
}
#endif