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arm-trusted-firmware/plat/arm/common/arm_common.c
Sandrine Bailleux d801a1d035 SPM: Treat SP xlat tables the same as others 
The translation tables allocated for the Secure Partition do not need
to be treated as a special case. They can be put amongst the other
tables mapping BL31's general purpose memory. They will be mapped with
the same attributes as them, which is fine.

The explicit alignment constraint in BL31's linker script to pad the
last page of memory allocated to the Secure Partition's translation
tables is useless too, as page tables are per se pages, thus their
end address is naturally aligned on a page-boundary.

In fact, this patch does not change the existing behaviour. Since
patch 22282bb68a ("SPM: Move all SP-related info to SP context
struct"), the secure_partition.c file has been renamed into sp_xlat.c
but the linker script has not been properly updated. As a result, the
SP translation tables are not specifically put at the start of the
xlat_table linker section, the __SP_IMAGE_XLAT_TABLES_START__/_END__
symbols have the same value, the size of the resulting mmap_region
covering these xlat tables is 0 and so it is ignored.

Change-Id: I4cf0a4cc090298811cca53fc9cee74df0f2b1512
Signed-off-by: Sandrine Bailleux <sandrine.bailleux@arm.com>
2018-06-13 09:19:41 +01:00

247 lines
6.9 KiB
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/*
* Copyright (c) 2015-2018, ARM Limited and Contributors. All rights reserved.
*
* SPDX-License-Identifier: BSD-3-Clause
*/
#include <arch.h>
#include <arch_helpers.h>
#include <arm_xlat_tables.h>
#include <assert.h>
#include <debug.h>
#include <mmio.h>
#include <plat_arm.h>
#include <platform_def.h>
#include <platform.h>
#include <secure_partition.h>
extern const mmap_region_t plat_arm_mmap[];
/* Weak definitions may be overridden in specific ARM standard platform */
#pragma weak plat_get_ns_image_entrypoint
#pragma weak plat_arm_get_mmap
/* Conditionally provide a weak definition of plat_get_syscnt_freq2 to avoid
* conflicts with the definition in plat/common. */
#if ERROR_DEPRECATED
#pragma weak plat_get_syscnt_freq2
#endif
/*
* Set up the page tables for the generic and platform-specific memory regions.
* The extents of the generic memory regions are specified by the function
* arguments and consist of:
* - Trusted SRAM seen by the BL image;
* - Code section;
* - Read-only data section;
* - Coherent memory region, if applicable.
*/
void arm_setup_page_tables(uintptr_t total_base,
size_t total_size,
uintptr_t code_start,
uintptr_t code_limit,
uintptr_t rodata_start,
uintptr_t rodata_limit
#if USE_COHERENT_MEM
,
uintptr_t coh_start,
uintptr_t coh_limit
#endif
)
{
/*
* Map the Trusted SRAM with appropriate memory attributes.
* Subsequent mappings will adjust the attributes for specific regions.
*/
VERBOSE("Trusted SRAM seen by this BL image: %p - %p\n",
(void *) total_base, (void *) (total_base + total_size));
mmap_add_region(total_base, total_base,
total_size,
MT_MEMORY | MT_RW | MT_SECURE);
/* Re-map the code section */
VERBOSE("Code region: %p - %p\n",
(void *) code_start, (void *) code_limit);
mmap_add_region(code_start, code_start,
code_limit - code_start,
MT_CODE | MT_SECURE);
/* Re-map the read-only data section */
VERBOSE("Read-only data region: %p - %p\n",
(void *) rodata_start, (void *) rodata_limit);
mmap_add_region(rodata_start, rodata_start,
rodata_limit - rodata_start,
MT_RO_DATA | MT_SECURE);
#if USE_COHERENT_MEM
/* Re-map the coherent memory region */
VERBOSE("Coherent region: %p - %p\n",
(void *) coh_start, (void *) coh_limit);
mmap_add_region(coh_start, coh_start,
coh_limit - coh_start,
MT_DEVICE | MT_RW | MT_SECURE);
#endif
/* Now (re-)map the platform-specific memory regions */
mmap_add(plat_arm_get_mmap());
/* Create the page tables to reflect the above mappings */
init_xlat_tables();
}
uintptr_t plat_get_ns_image_entrypoint(void)
{
#ifdef PRELOADED_BL33_BASE
return PRELOADED_BL33_BASE;
#else
return PLAT_ARM_NS_IMAGE_OFFSET;
#endif
}
/*******************************************************************************
* Gets SPSR for BL32 entry
******************************************************************************/
uint32_t arm_get_spsr_for_bl32_entry(void)
{
/*
* The Secure Payload Dispatcher service is responsible for
* setting the SPSR prior to entry into the BL32 image.
*/
return 0;
}
/*******************************************************************************
* Gets SPSR for BL33 entry
******************************************************************************/
#ifndef AARCH32
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 */
mode = EL_IMPLEMENTED(2) ? MODE_EL2 : MODE_EL1;
/*
* 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;
}
#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 */
/*******************************************************************************
* Configures access to the system counter timer module.
******************************************************************************/
#ifdef ARM_SYS_TIMCTL_BASE
void arm_configure_sys_timer(void)
{
unsigned int reg_val;
#if ARM_CONFIG_CNTACR
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);
#endif /* ARM_CONFIG_CNTACR */
reg_val = (1 << CNTNSAR_NS_SHIFT(PLAT_ARM_NSTIMER_FRAME_ID));
mmio_write_32(ARM_SYS_TIMCTL_BASE + CNTNSAR, reg_val);
}
#endif /* ARM_SYS_TIMCTL_BASE */
/*******************************************************************************
* Returns ARM platform specific memory map regions.
******************************************************************************/
const mmap_region_t *plat_arm_get_mmap(void)
{
return plat_arm_mmap;
}
#ifdef ARM_SYS_CNTCTL_BASE
unsigned int plat_get_syscnt_freq2(void)
{
unsigned int counter_base_frequency;
/* 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;
}
#endif /* ARM_SYS_CNTCTL_BASE */
#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
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