spm/cactus/cactus_main.c - TF-A/tf-a-tests - TrustedFirmware Git Browser

 /*
  * Copyright (c) 2018-2020, Arm Limited. All rights reserved.
  *
  * SPDX-License-Identifier: BSD-3-Clause
  */

 #include <assert.h>
 #include <debug.h>
 #include <drivers/arm/pl011.h>
 #include <drivers/console.h>
 #include <errno.h>
 #include <lib/aarch64/arch_helpers.h>
 #include <lib/xlat_tables/xlat_tables_v2.h>
 #include <lib/xlat_tables/xlat_mmu_helpers.h>
 #include <plat_arm.h>
 #include <plat/common/platform.h>
 #include <platform_def.h>
 #include <spci_svc.h>
 #include <std_svc.h>

 #include "cactus.h"
 #include "cactus_def.h"

 #include "tftf_lib.h"

 #define SPM_VM_ID_FIRST			(1)

 #define SPM_VM_GET_COUNT		(0xFF01)
 #define SPM_VCPU_GET_COUNT		(0xFF02)
 #define SPM_DEBUG_LOG			(0xBD000000)

 /* Hypervisor ID at physical SPCI instance */
 #define HYP_ID		(0)

 /* By convention, SP IDs (as opposed to VM IDs) have bit 15 set */
 #define SP_ID(x)	(x | (1 << 15))

 typedef unsigned short spci_vm_id_t;
 typedef unsigned short spci_vm_count_t;
 typedef unsigned short spci_vcpu_count_t;

 /* Host machine information injected by the build system in the ELF file. */
 extern const char build_message[];
 extern const char version_string[];

 static spci_vcpu_count_t spm_vcpu_get_count(spci_vm_id_t vm_id)
 {
 	hvc_args args = {
 		.fid = SPM_VCPU_GET_COUNT,
 		.arg1 = vm_id
 	};

 	hvc_ret_values ret = tftf_hvc(&args);

 	return ret.ret0;
 }

 static spci_vm_count_t spm_vm_get_count(void)
 {
 	hvc_args args = {
 		.fid = SPM_VM_GET_COUNT
 	};

 	hvc_ret_values ret = tftf_hvc(&args);

 	return ret.ret0;
 }

 static void spm_debug_log(char c)
 {
 	hvc_args args = {
 		.fid = SPM_DEBUG_LOG,
 		.arg1 = c
 	};

 	(void)tftf_hvc(&args);
 }

 static smc_ret_values spci_id_get(void)
 {
 	smc_args args = {
 		.fid = SPCI_ID_GET
 	};

 	return tftf_smc(&args);
 }

 static smc_ret_values spci_msg_wait(void)
 {
 	smc_args args = {
 		.fid = SPCI_MSG_WAIT
 	};

 	return tftf_smc(&args);
 }

 /* Send response through registers using direct messaging */
 static smc_ret_values spci_msg_send_direct_resp(spci_vm_id_t sender_vm_id,
 					 spci_vm_id_t target_vm_id,
 					 uint32_t message)
 {
 	smc_args args = {
 		.fid = SPCI_MSG_SEND_DIRECT_RESP_SMC32,
 		.arg1 = ((uint32_t)sender_vm_id << 16) | target_vm_id,
 		.arg3 = message
 	};

 	return tftf_smc(&args);
 }

 static smc_ret_values spci_error(int32_t error_code)
 {
 	smc_args args = {
 		.fid = SPCI_ERROR,
 		.arg1 = 0,
 		.arg2 = error_code
 	};

 	return tftf_smc(&args);
 }

 /*
  *
  * Message loop function
  * Notice we cannot use regular print functions because this serves to both
  * "primary" and "secondary" VMs. Secondary VM cannot access UART directly
  * but rather through Hafnium print hypercall.
  *
  */
 static void __dead2 message_loop(spci_vm_id_t vm_id)
 {
 	smc_ret_values spci_ret;
 	uint32_t sp_response;

 	/*
 	 * This initial wait call is necessary to inform SPMD that
 	 * SP initialization has completed. It blocks until receiving
 	 * a direct message request.
 	 */
 	spci_ret = spci_msg_wait();

 	for (;;) {

 		if (spci_ret.ret0 != SPCI_MSG_SEND_DIRECT_REQ_SMC32) {
 			spci_ret = spci_error(-1);
 			continue;
 		}

 		if (spci_ret.ret1 != SP_ID(vm_id)) {
 			spci_ret = spci_error(-2);
 			continue;
 		}

 		if (spci_ret.ret2 != HYP_ID) {
 			spci_ret = spci_error(-3);
 			continue;
 		}

 		/*
 		 * For the sake of testing, add the vm id to the
 		 * received message.
 		 */
 		sp_response = spci_ret.ret3 | vm_id;

 		/*
 		 * Send a response through direct messaging then block
 		 * until receiving a new message request.
 		 */
 		spci_ret = spci_msg_send_direct_resp(SP_ID(vm_id),
 						     HYP_ID, sp_response);
 	}
 }

 static const mmap_region_t cactus_mmap[] __attribute__((used)) = {
 	/* DEVICE0 area includes UART2 necessary to console */
 	MAP_REGION_FLAT(DEVICE0_BASE, DEVICE0_SIZE, MT_DEVICE | MT_RW),
 	{0}
 };

 static void cactus_print_memory_layout(void)
 {
 	NOTICE("Secure Partition memory layout:\n");

 	NOTICE("  Image regions\n");
 	NOTICE("    Text region            : %p - %p\n",
 		(void *)CACTUS_TEXT_START, (void *)CACTUS_TEXT_END);
 	NOTICE("    Read-only data region  : %p - %p\n",
 		(void *)CACTUS_RODATA_START, (void *)CACTUS_RODATA_END);
 	NOTICE("    Data region            : %p - %p\n",
 		(void *)CACTUS_DATA_START, (void *)CACTUS_DATA_END);
 	NOTICE("    BSS region             : %p - %p\n",
 		(void *)CACTUS_BSS_START, (void *)CACTUS_BSS_END);
 	NOTICE("    Total image memory     : %p - %p\n",
 		(void *)CACTUS_IMAGE_BASE,
 		(void *)(CACTUS_IMAGE_BASE + CACTUS_IMAGE_SIZE));
 	NOTICE("  SPM regions\n");
 	NOTICE("    SPM <-> SP buffer      : %p - %p\n",
 		(void *)CACTUS_SPM_BUF_BASE,
 		(void *)(CACTUS_SPM_BUF_BASE + CACTUS_SPM_BUF_SIZE));
 	NOTICE("    NS <-> SP buffer       : %p - %p\n",
 		(void *)CACTUS_NS_BUF_BASE,
 		(void *)(CACTUS_NS_BUF_BASE + CACTUS_NS_BUF_SIZE));
 	NOTICE("  Test regions\n");
 	NOTICE("    Test region            : %p - %p\n",
 		(void *)CACTUS_TEST_MEM_BASE,
 		(void *)(CACTUS_TEST_MEM_BASE + CACTUS_TEST_MEM_SIZE));
 }

 static void cactus_plat_configure_mmu(void)
 {
 	mmap_add_region(CACTUS_TEXT_START,
 			CACTUS_TEXT_START,
 			CACTUS_TEXT_END - CACTUS_TEXT_START,
 			MT_CODE);
 	mmap_add_region(CACTUS_RODATA_START,
 			CACTUS_RODATA_START,
 			CACTUS_RODATA_END - CACTUS_RODATA_START,
 			MT_RO_DATA);
 	mmap_add_region(CACTUS_DATA_START,
 			CACTUS_DATA_START,
 			CACTUS_DATA_END - CACTUS_DATA_START,
 			MT_RW_DATA);
 	mmap_add_region(CACTUS_BSS_START,
 			CACTUS_BSS_START,
 			CACTUS_BSS_END - CACTUS_BSS_START,
 			MT_RW_DATA);

 	mmap_add(cactus_mmap);
 	init_xlat_tables();
 }

 void __dead2 cactus_main(void)
 {
 	assert(IS_IN_EL1() != 0);

 	/* Clear BSS */
 	memset((void *)CACTUS_BSS_START,
 	       0, CACTUS_BSS_END - CACTUS_BSS_START);

 	/* Configure and enable Stage-1 MMU, enable D-Cache */
 	cactus_plat_configure_mmu();
 	enable_mmu_el1(0);

 	/* Get current SPCI id */
 	smc_ret_values spci_id_ret = spci_id_get();
 	if (spci_id_ret.ret0 != SPCI_SUCCESS_SMC32) {
 		ERROR("SPCI_ID_GET failed.\n");
 		panic();
 	}

 	spci_vm_id_t spci_id = spci_id_ret.ret2 & 0xffff;
 	if (spci_id > SPM_VM_ID_FIRST) {
 		/* Indicate secondary VM start through debug log hypercall */
 		spm_debug_log('2');
 		spm_debug_log('N');
 		spm_debug_log('D');
 		spm_debug_log('\n');

 		/* Run straight to the message loop */
 		message_loop(spci_id);
 	}

 	/* Next initialization steps only performed by primary VM */

 	console_init(PL011_UART2_BASE,
 		     PL011_UART2_CLK_IN_HZ,
 		     PL011_BAUDRATE);

 	NOTICE("Booting Cactus Secure Partition\n%s\n%s\n",
 	       build_message, version_string);

 	cactus_print_memory_layout();

 	NOTICE("SPCI id: %u\n", spci_id); /* Expect VM id 1 */

 	/* Get number of VMs */
 	NOTICE("VM count: %u\n", spm_vm_get_count());

 	/* Get virtual CPU count for current VM */
 	NOTICE("vCPU count: %u\n", spm_vcpu_get_count(spci_id));

 	/* End up to message loop */
 	message_loop(spci_id);

 	/* Not reached */
 }
	/*
	* Copyright (c) 2018-2020, Arm Limited. All rights reserved.
	*
	* SPDX-License-Identifier: BSD-3-Clause
	*/

	#include <assert.h>
	#include <debug.h>
	#include <drivers/arm/pl011.h>
	#include <drivers/console.h>
	#include <errno.h>
	#include <lib/aarch64/arch_helpers.h>
	#include <lib/xlat_tables/xlat_tables_v2.h>
	#include <lib/xlat_tables/xlat_mmu_helpers.h>
	#include <plat_arm.h>
	#include <plat/common/platform.h>
	#include <platform_def.h>
	#include <spci_svc.h>
	#include <std_svc.h>

	#include "cactus.h"
	#include "cactus_def.h"

	#include "tftf_lib.h"

	#define SPM_VM_ID_FIRST (1)

	#define SPM_VM_GET_COUNT (0xFF01)
	#define SPM_VCPU_GET_COUNT (0xFF02)
	#define SPM_DEBUG_LOG (0xBD000000)

	/* Hypervisor ID at physical SPCI instance */
	#define HYP_ID (0)

	/* By convention, SP IDs (as opposed to VM IDs) have bit 15 set */
	#define SP_ID(x) (x \| (1 << 15))

	typedef unsigned short spci_vm_id_t;
	typedef unsigned short spci_vm_count_t;
	typedef unsigned short spci_vcpu_count_t;

	/* Host machine information injected by the build system in the ELF file. */
	extern const char build_message[];
	extern const char version_string[];

	static spci_vcpu_count_t spm_vcpu_get_count(spci_vm_id_t vm_id)
	{
	hvc_args args = {
	.fid = SPM_VCPU_GET_COUNT,
	.arg1 = vm_id
	};

	hvc_ret_values ret = tftf_hvc(&args);

	return ret.ret0;
	}

	static spci_vm_count_t spm_vm_get_count(void)
	{
	hvc_args args = {
	.fid = SPM_VM_GET_COUNT
	};

	hvc_ret_values ret = tftf_hvc(&args);

	return ret.ret0;
	}

	static void spm_debug_log(char c)
	{
	hvc_args args = {
	.fid = SPM_DEBUG_LOG,
	.arg1 = c
	};

	(void)tftf_hvc(&args);
	}

	static smc_ret_values spci_id_get(void)
	{
	smc_args args = {
	.fid = SPCI_ID_GET
	};

	return tftf_smc(&args);
	}

	static smc_ret_values spci_msg_wait(void)
	{
	smc_args args = {
	.fid = SPCI_MSG_WAIT
	};

	return tftf_smc(&args);
	}

	/* Send response through registers using direct messaging */
	static smc_ret_values spci_msg_send_direct_resp(spci_vm_id_t sender_vm_id,
	spci_vm_id_t target_vm_id,
	uint32_t message)
	{
	smc_args args = {
	.fid = SPCI_MSG_SEND_DIRECT_RESP_SMC32,
	.arg1 = ((uint32_t)sender_vm_id << 16) \| target_vm_id,
	.arg3 = message
	};

	return tftf_smc(&args);
	}

	static smc_ret_values spci_error(int32_t error_code)
	{
	smc_args args = {
	.fid = SPCI_ERROR,
	.arg1 = 0,
	.arg2 = error_code
	};

	return tftf_smc(&args);
	}

	/*
	*
	* Message loop function
	* Notice we cannot use regular print functions because this serves to both
	* "primary" and "secondary" VMs. Secondary VM cannot access UART directly
	* but rather through Hafnium print hypercall.
	*
	*/
	static void __dead2 message_loop(spci_vm_id_t vm_id)
	{
	smc_ret_values spci_ret;
	uint32_t sp_response;

	/*
	* This initial wait call is necessary to inform SPMD that
	* SP initialization has completed. It blocks until receiving
	* a direct message request.
	*/
	spci_ret = spci_msg_wait();

	for (;;) {

	if (spci_ret.ret0 != SPCI_MSG_SEND_DIRECT_REQ_SMC32) {
	spci_ret = spci_error(-1);
	continue;
	}

	if (spci_ret.ret1 != SP_ID(vm_id)) {
	spci_ret = spci_error(-2);
	continue;
	}

	if (spci_ret.ret2 != HYP_ID) {
	spci_ret = spci_error(-3);
	continue;
	}

	/*
	* For the sake of testing, add the vm id to the
	* received message.
	*/
	sp_response = spci_ret.ret3 \| vm_id;

	/*
	* Send a response through direct messaging then block
	* until receiving a new message request.
	*/
	spci_ret = spci_msg_send_direct_resp(SP_ID(vm_id),
	HYP_ID, sp_response);
	}
	}

	static const mmap_region_t cactus_mmap[] __attribute__((used)) = {
	/* DEVICE0 area includes UART2 necessary to console */
	MAP_REGION_FLAT(DEVICE0_BASE, DEVICE0_SIZE, MT_DEVICE \| MT_RW),
	{0}
	};

	static void cactus_print_memory_layout(void)
	{
	NOTICE("Secure Partition memory layout:\n");

	NOTICE(" Image regions\n");
	NOTICE(" Text region : %p - %p\n",
	(void )CACTUS_TEXT_START, (void )CACTUS_TEXT_END);
	NOTICE(" Read-only data region : %p - %p\n",
	(void )CACTUS_RODATA_START, (void )CACTUS_RODATA_END);
	NOTICE(" Data region : %p - %p\n",
	(void )CACTUS_DATA_START, (void )CACTUS_DATA_END);
	NOTICE(" BSS region : %p - %p\n",
	(void )CACTUS_BSS_START, (void )CACTUS_BSS_END);
	NOTICE(" Total image memory : %p - %p\n",
	(void *)CACTUS_IMAGE_BASE,
	(void *)(CACTUS_IMAGE_BASE + CACTUS_IMAGE_SIZE));
	NOTICE(" SPM regions\n");
	NOTICE(" SPM <-> SP buffer : %p - %p\n",
	(void *)CACTUS_SPM_BUF_BASE,
	(void *)(CACTUS_SPM_BUF_BASE + CACTUS_SPM_BUF_SIZE));
	NOTICE(" NS <-> SP buffer : %p - %p\n",
	(void *)CACTUS_NS_BUF_BASE,
	(void *)(CACTUS_NS_BUF_BASE + CACTUS_NS_BUF_SIZE));
	NOTICE(" Test regions\n");
	NOTICE(" Test region : %p - %p\n",
	(void *)CACTUS_TEST_MEM_BASE,
	(void *)(CACTUS_TEST_MEM_BASE + CACTUS_TEST_MEM_SIZE));
	}

	static void cactus_plat_configure_mmu(void)
	{
	mmap_add_region(CACTUS_TEXT_START,
	CACTUS_TEXT_START,
	CACTUS_TEXT_END - CACTUS_TEXT_START,
	MT_CODE);
	mmap_add_region(CACTUS_RODATA_START,
	CACTUS_RODATA_START,
	CACTUS_RODATA_END - CACTUS_RODATA_START,
	MT_RO_DATA);
	mmap_add_region(CACTUS_DATA_START,
	CACTUS_DATA_START,
	CACTUS_DATA_END - CACTUS_DATA_START,
	MT_RW_DATA);
	mmap_add_region(CACTUS_BSS_START,
	CACTUS_BSS_START,
	CACTUS_BSS_END - CACTUS_BSS_START,
	MT_RW_DATA);

	mmap_add(cactus_mmap);
	init_xlat_tables();
	}

	void __dead2 cactus_main(void)
	{
	assert(IS_IN_EL1() != 0);

	/* Clear BSS */
	memset((void *)CACTUS_BSS_START,
	0, CACTUS_BSS_END - CACTUS_BSS_START);

	/* Configure and enable Stage-1 MMU, enable D-Cache */
	cactus_plat_configure_mmu();
	enable_mmu_el1(0);

	/* Get current SPCI id */
	smc_ret_values spci_id_ret = spci_id_get();
	if (spci_id_ret.ret0 != SPCI_SUCCESS_SMC32) {
	ERROR("SPCI_ID_GET failed.\n");
	panic();
	}

	spci_vm_id_t spci_id = spci_id_ret.ret2 & 0xffff;
	if (spci_id > SPM_VM_ID_FIRST) {
	/* Indicate secondary VM start through debug log hypercall */
	spm_debug_log('2');
	spm_debug_log('N');
	spm_debug_log('D');
	spm_debug_log('\n');

	/* Run straight to the message loop */
	message_loop(spci_id);
	}

	/* Next initialization steps only performed by primary VM */

	console_init(PL011_UART2_BASE,
	PL011_UART2_CLK_IN_HZ,
	PL011_BAUDRATE);

	NOTICE("Booting Cactus Secure Partition\n%s\n%s\n",
	build_message, version_string);

	cactus_print_memory_layout();

	NOTICE("SPCI id: %u\n", spci_id); /* Expect VM id 1 */

	/* Get number of VMs */
	NOTICE("VM count: %u\n", spm_vm_get_count());

	/* Get virtual CPU count for current VM */
	NOTICE("vCPU count: %u\n", spm_vcpu_get_count(spci_id));

	/* End up to message loop */
	message_loop(spci_id);

	/* Not reached */
	}