1b61d94a1SMarc Bonnici /*
259b7c0a0SJayanth Dodderi Chidanand * Copyright (c) 2017-2024, Arm Limited and Contributors. All rights reserved.
3b61d94a1SMarc Bonnici * Copyright (c) 2021, NVIDIA Corporation. All rights reserved.
4b61d94a1SMarc Bonnici *
5b61d94a1SMarc Bonnici * SPDX-License-Identifier: BSD-3-Clause
6b61d94a1SMarc Bonnici */
7b61d94a1SMarc Bonnici
8b61d94a1SMarc Bonnici #include <assert.h>
9b61d94a1SMarc Bonnici #include <string.h>
10b61d94a1SMarc Bonnici
11b61d94a1SMarc Bonnici #include <arch.h>
12b61d94a1SMarc Bonnici #include <arch_helpers.h>
13b61d94a1SMarc Bonnici #include <context.h>
14b61d94a1SMarc Bonnici #include <common/debug.h>
15b61d94a1SMarc Bonnici #include <lib/el3_runtime/context_mgmt.h>
169ae5f673SLevi Yun #if HOB_LIST
179ae5f673SLevi Yun #include <lib/hob/hob.h>
189ae5f673SLevi Yun #include <lib/hob/hob_guid.h>
199ae5f673SLevi Yun #include <lib/hob/mmram.h>
209ae5f673SLevi Yun #include <lib/hob/mpinfo.h>
219ae5f673SLevi Yun #endif
229ae5f673SLevi Yun #if TRANSFER_LIST
23*b5d0740eSHarrison Mutai #include <transfer_list.h>
249ae5f673SLevi Yun #endif
25b61d94a1SMarc Bonnici #include <lib/xlat_tables/xlat_tables_v2.h>
26b61d94a1SMarc Bonnici #include <platform_def.h>
27b61d94a1SMarc Bonnici #include <plat/common/common_def.h>
28b61d94a1SMarc Bonnici #include <plat/common/platform.h>
29b61d94a1SMarc Bonnici #include <services/spm_mm_partition.h>
30b61d94a1SMarc Bonnici
31b61d94a1SMarc Bonnici #include "spm_common.h"
32b61d94a1SMarc Bonnici #include "spm_mm_private.h"
331132f068SNishant Sharma #include "spm_shim_private.h"
34b61d94a1SMarc Bonnici
359ae5f673SLevi Yun #if HOB_LIST && TRANSFER_LIST
build_sp_boot_hob_list(const spm_mm_boot_info_t * sp_boot_info,uint16_t * hob_table_size)369ae5f673SLevi Yun static struct efi_hob_handoff_info_table *build_sp_boot_hob_list(
379ae5f673SLevi Yun const spm_mm_boot_info_t *sp_boot_info, uint16_t *hob_table_size)
389ae5f673SLevi Yun {
399ae5f673SLevi Yun int ret;
409ae5f673SLevi Yun struct efi_hob_handoff_info_table *hob_table;
419ae5f673SLevi Yun struct efi_guid ns_buf_guid = MM_NS_BUFFER_GUID;
429ae5f673SLevi Yun struct efi_guid mmram_resv_guid = MM_PEI_MMRAM_MEMORY_RESERVE_GUID;
439ae5f673SLevi Yun struct efi_mmram_descriptor *mmram_desc_data;
449ae5f673SLevi Yun uint16_t mmram_resv_data_size;
459ae5f673SLevi Yun struct efi_mmram_hob_descriptor_block *mmram_hob_desc_data;
469ae5f673SLevi Yun uint64_t hob_table_offset;
479ae5f673SLevi Yun
489ae5f673SLevi Yun hob_table_offset = sizeof(struct transfer_list_header) +
499ae5f673SLevi Yun sizeof(struct transfer_list_entry);
509ae5f673SLevi Yun
519ae5f673SLevi Yun *hob_table_size = 0U;
529ae5f673SLevi Yun
539ae5f673SLevi Yun hob_table = create_hob_list(sp_boot_info->sp_mem_base,
549ae5f673SLevi Yun sp_boot_info->sp_mem_limit - sp_boot_info->sp_mem_base,
559ae5f673SLevi Yun sp_boot_info->sp_shared_buf_base + hob_table_offset,
569ae5f673SLevi Yun sp_boot_info->sp_shared_buf_size);
579ae5f673SLevi Yun if (hob_table == NULL) {
589ae5f673SLevi Yun return NULL;
599ae5f673SLevi Yun }
609ae5f673SLevi Yun
619ae5f673SLevi Yun ret = create_fv_hob(hob_table, sp_boot_info->sp_image_base,
629ae5f673SLevi Yun sp_boot_info->sp_image_size);
639ae5f673SLevi Yun if (ret) {
649ae5f673SLevi Yun return NULL;
659ae5f673SLevi Yun }
669ae5f673SLevi Yun
679ae5f673SLevi Yun ret = create_guid_hob(hob_table, &ns_buf_guid,
689ae5f673SLevi Yun sizeof(struct efi_mmram_descriptor), (void **) &mmram_desc_data);
699ae5f673SLevi Yun if (ret) {
709ae5f673SLevi Yun return NULL;
719ae5f673SLevi Yun }
729ae5f673SLevi Yun
739ae5f673SLevi Yun mmram_desc_data->physical_start = sp_boot_info->sp_ns_comm_buf_base;
749ae5f673SLevi Yun mmram_desc_data->physical_size = sp_boot_info->sp_ns_comm_buf_size;
759ae5f673SLevi Yun mmram_desc_data->cpu_start = sp_boot_info->sp_ns_comm_buf_base;
769ae5f673SLevi Yun mmram_desc_data->region_state = EFI_CACHEABLE | EFI_ALLOCATED;
779ae5f673SLevi Yun
789ae5f673SLevi Yun mmram_resv_data_size = sizeof(struct efi_mmram_hob_descriptor_block) +
799ae5f673SLevi Yun sizeof(struct efi_mmram_descriptor) * sp_boot_info->num_sp_mem_regions;
809ae5f673SLevi Yun
819ae5f673SLevi Yun ret = create_guid_hob(hob_table, &mmram_resv_guid,
829ae5f673SLevi Yun mmram_resv_data_size, (void **) &mmram_hob_desc_data);
839ae5f673SLevi Yun if (ret) {
849ae5f673SLevi Yun return NULL;
859ae5f673SLevi Yun }
869ae5f673SLevi Yun
879ae5f673SLevi Yun *hob_table_size = hob_table->efi_free_memory_bottom -
889ae5f673SLevi Yun (efi_physical_address_t) hob_table;
899ae5f673SLevi Yun
909ae5f673SLevi Yun mmram_hob_desc_data->number_of_mm_reserved_regions = 4U;
919ae5f673SLevi Yun mmram_desc_data = &mmram_hob_desc_data->descriptor[0];
929ae5f673SLevi Yun
939ae5f673SLevi Yun /* First, should be image mm range. */
949ae5f673SLevi Yun mmram_desc_data[0].physical_start = sp_boot_info->sp_image_base;
959ae5f673SLevi Yun mmram_desc_data[0].physical_size = sp_boot_info->sp_image_size;
969ae5f673SLevi Yun mmram_desc_data[0].cpu_start = sp_boot_info->sp_image_base;
979ae5f673SLevi Yun mmram_desc_data[0].region_state = EFI_CACHEABLE | EFI_ALLOCATED;
989ae5f673SLevi Yun
999ae5f673SLevi Yun /* Second, should be shared buffer mm range. */
1009ae5f673SLevi Yun mmram_desc_data[1].physical_start = sp_boot_info->sp_shared_buf_base;
1019ae5f673SLevi Yun mmram_desc_data[1].physical_size = sp_boot_info->sp_shared_buf_size;
1029ae5f673SLevi Yun mmram_desc_data[1].cpu_start = sp_boot_info->sp_shared_buf_base;
1039ae5f673SLevi Yun mmram_desc_data[1].region_state = EFI_CACHEABLE | EFI_ALLOCATED;
1049ae5f673SLevi Yun
1059ae5f673SLevi Yun /* Ns Buffer mm range */
1069ae5f673SLevi Yun mmram_desc_data[2].physical_start = sp_boot_info->sp_ns_comm_buf_base;
1079ae5f673SLevi Yun mmram_desc_data[2].physical_size = sp_boot_info->sp_ns_comm_buf_size;
1089ae5f673SLevi Yun mmram_desc_data[2].cpu_start = sp_boot_info->sp_ns_comm_buf_base;
1099ae5f673SLevi Yun mmram_desc_data[2].region_state = EFI_CACHEABLE | EFI_ALLOCATED;
1109ae5f673SLevi Yun
1119ae5f673SLevi Yun /* Heap mm range */
1129ae5f673SLevi Yun mmram_desc_data[3].physical_start = sp_boot_info->sp_heap_base;
1139ae5f673SLevi Yun mmram_desc_data[3].physical_size = sp_boot_info->sp_heap_size;
1149ae5f673SLevi Yun mmram_desc_data[3].cpu_start = sp_boot_info->sp_heap_base;
1159ae5f673SLevi Yun mmram_desc_data[3].region_state = EFI_CACHEABLE;
1169ae5f673SLevi Yun
1179ae5f673SLevi Yun return hob_table;
1189ae5f673SLevi Yun }
1199ae5f673SLevi Yun #endif
1209ae5f673SLevi Yun
121b61d94a1SMarc Bonnici /* Setup context of the Secure Partition */
spm_sp_setup(sp_context_t * sp_ctx)122b61d94a1SMarc Bonnici void spm_sp_setup(sp_context_t *sp_ctx)
123b61d94a1SMarc Bonnici {
124b61d94a1SMarc Bonnici cpu_context_t *ctx = &(sp_ctx->cpu_ctx);
12542e35d2fSJayanth Dodderi Chidanand u_register_t sctlr_el1_val;
126b61d94a1SMarc Bonnici /* Pointer to the MP information from the platform port. */
127b61d94a1SMarc Bonnici const spm_mm_boot_info_t *sp_boot_info =
128b61d94a1SMarc Bonnici plat_get_secure_partition_boot_info(NULL);
129b61d94a1SMarc Bonnici
1309ae5f673SLevi Yun #if HOB_LIST && TRANSFER_LIST
1319ae5f673SLevi Yun struct efi_hob_handoff_info_table *hob_table;
1329ae5f673SLevi Yun struct transfer_list_header *sp_boot_tl;
1339ae5f673SLevi Yun struct transfer_list_entry *sp_boot_te;
1349ae5f673SLevi Yun uint16_t hob_table_size;
1359ae5f673SLevi Yun #endif
1369ae5f673SLevi Yun
1379ae5f673SLevi Yun assert(sp_boot_info != NULL);
1389ae5f673SLevi Yun
139b61d94a1SMarc Bonnici /*
140b61d94a1SMarc Bonnici * Initialize CPU context
141b61d94a1SMarc Bonnici * ----------------------
142b61d94a1SMarc Bonnici */
143b61d94a1SMarc Bonnici
144b61d94a1SMarc Bonnici entry_point_info_t ep_info = {0};
145b61d94a1SMarc Bonnici
146b61d94a1SMarc Bonnici SET_PARAM_HEAD(&ep_info, PARAM_EP, VERSION_1, SECURE | EP_ST_ENABLE);
147b61d94a1SMarc Bonnici
148b61d94a1SMarc Bonnici /* Setup entrypoint and SPSR */
149b61d94a1SMarc Bonnici ep_info.pc = sp_boot_info->sp_image_base;
150b61d94a1SMarc Bonnici ep_info.spsr = SPSR_64(MODE_EL0, MODE_SP_EL0, DISABLE_ALL_EXCEPTIONS);
151b61d94a1SMarc Bonnici
152b61d94a1SMarc Bonnici /*
153b61d94a1SMarc Bonnici * X0: Virtual address of a buffer shared between EL3 and Secure EL0.
154b61d94a1SMarc Bonnici * The buffer will be mapped in the Secure EL1 translation regime
155b61d94a1SMarc Bonnici * with Normal IS WBWA attributes and RO data and Execute Never
156b61d94a1SMarc Bonnici * instruction access permissions.
157b61d94a1SMarc Bonnici *
158b61d94a1SMarc Bonnici * X1: Size of the buffer in bytes
159b61d94a1SMarc Bonnici *
160b61d94a1SMarc Bonnici * X2: cookie value (Implementation Defined)
161b61d94a1SMarc Bonnici *
162b61d94a1SMarc Bonnici * X3: cookie value (Implementation Defined)
163b61d94a1SMarc Bonnici *
164b61d94a1SMarc Bonnici * X4 to X7 = 0
165b61d94a1SMarc Bonnici */
166b61d94a1SMarc Bonnici ep_info.args.arg0 = sp_boot_info->sp_shared_buf_base;
167b61d94a1SMarc Bonnici ep_info.args.arg1 = sp_boot_info->sp_shared_buf_size;
168b61d94a1SMarc Bonnici ep_info.args.arg2 = PLAT_SPM_COOKIE_0;
169b61d94a1SMarc Bonnici ep_info.args.arg3 = PLAT_SPM_COOKIE_1;
170b61d94a1SMarc Bonnici
171b61d94a1SMarc Bonnici cm_setup_context(ctx, &ep_info);
172b61d94a1SMarc Bonnici
173b61d94a1SMarc Bonnici /*
174b61d94a1SMarc Bonnici * SP_EL0: A non-zero value will indicate to the SP that the SPM has
175b61d94a1SMarc Bonnici * initialized the stack pointer for the current CPU through
176b61d94a1SMarc Bonnici * implementation defined means. The value will be 0 otherwise.
177b61d94a1SMarc Bonnici */
178b61d94a1SMarc Bonnici write_ctx_reg(get_gpregs_ctx(ctx), CTX_GPREG_SP_EL0,
179b61d94a1SMarc Bonnici sp_boot_info->sp_stack_base + sp_boot_info->sp_pcpu_stack_size);
180b61d94a1SMarc Bonnici
181b61d94a1SMarc Bonnici /*
182b61d94a1SMarc Bonnici * Setup translation tables
183b61d94a1SMarc Bonnici * ------------------------
184b61d94a1SMarc Bonnici */
185b61d94a1SMarc Bonnici
186b61d94a1SMarc Bonnici #if ENABLE_ASSERTIONS
187b61d94a1SMarc Bonnici
188b61d94a1SMarc Bonnici /* Get max granularity supported by the platform. */
189b61d94a1SMarc Bonnici unsigned int max_granule = xlat_arch_get_max_supported_granule_size();
190b61d94a1SMarc Bonnici
191b61d94a1SMarc Bonnici VERBOSE("Max translation granule size supported: %u KiB\n",
192b61d94a1SMarc Bonnici max_granule / 1024U);
193b61d94a1SMarc Bonnici
194b61d94a1SMarc Bonnici unsigned int max_granule_mask = max_granule - 1U;
195b61d94a1SMarc Bonnici
196b61d94a1SMarc Bonnici /* Base must be aligned to the max granularity */
197b61d94a1SMarc Bonnici assert((sp_boot_info->sp_ns_comm_buf_base & max_granule_mask) == 0);
198b61d94a1SMarc Bonnici
199b61d94a1SMarc Bonnici /* Size must be a multiple of the max granularity */
200b61d94a1SMarc Bonnici assert((sp_boot_info->sp_ns_comm_buf_size & max_granule_mask) == 0);
201b61d94a1SMarc Bonnici
202b61d94a1SMarc Bonnici #endif /* ENABLE_ASSERTIONS */
203b61d94a1SMarc Bonnici
204b61d94a1SMarc Bonnici /* This region contains the exception vectors used at S-EL1. */
205b61d94a1SMarc Bonnici const mmap_region_t sel1_exception_vectors =
206b61d94a1SMarc Bonnici MAP_REGION_FLAT(SPM_SHIM_EXCEPTIONS_START,
207b61d94a1SMarc Bonnici SPM_SHIM_EXCEPTIONS_SIZE,
208b61d94a1SMarc Bonnici MT_CODE | MT_SECURE | MT_PRIVILEGED);
209b61d94a1SMarc Bonnici mmap_add_region_ctx(sp_ctx->xlat_ctx_handle,
210b61d94a1SMarc Bonnici &sel1_exception_vectors);
211b61d94a1SMarc Bonnici
212b61d94a1SMarc Bonnici mmap_add_ctx(sp_ctx->xlat_ctx_handle,
213b61d94a1SMarc Bonnici plat_get_secure_partition_mmap(NULL));
214b61d94a1SMarc Bonnici
215b61d94a1SMarc Bonnici init_xlat_tables_ctx(sp_ctx->xlat_ctx_handle);
216b61d94a1SMarc Bonnici
217b61d94a1SMarc Bonnici /*
218b61d94a1SMarc Bonnici * MMU-related registers
219b61d94a1SMarc Bonnici * ---------------------
220b61d94a1SMarc Bonnici */
221b61d94a1SMarc Bonnici xlat_ctx_t *xlat_ctx = sp_ctx->xlat_ctx_handle;
222b61d94a1SMarc Bonnici
223b61d94a1SMarc Bonnici uint64_t mmu_cfg_params[MMU_CFG_PARAM_MAX];
224b61d94a1SMarc Bonnici
225b61d94a1SMarc Bonnici setup_mmu_cfg((uint64_t *)&mmu_cfg_params, 0, xlat_ctx->base_table,
226b61d94a1SMarc Bonnici xlat_ctx->pa_max_address, xlat_ctx->va_max_address,
227b61d94a1SMarc Bonnici EL1_EL0_REGIME);
228b61d94a1SMarc Bonnici
22942e35d2fSJayanth Dodderi Chidanand write_el1_ctx_common(get_el1_sysregs_ctx(ctx), mair_el1,
230b61d94a1SMarc Bonnici mmu_cfg_params[MMU_CFG_MAIR]);
231a0d9a973SJayanth Dodderi Chidanand write_ctx_tcr_el1_reg_errata(ctx, mmu_cfg_params[MMU_CFG_TCR]);
232b61d94a1SMarc Bonnici
23342e35d2fSJayanth Dodderi Chidanand write_el1_ctx_common(get_el1_sysregs_ctx(ctx), ttbr0_el1,
234b61d94a1SMarc Bonnici mmu_cfg_params[MMU_CFG_TTBR0]);
235b61d94a1SMarc Bonnici
236b61d94a1SMarc Bonnici /* Setup SCTLR_EL1 */
237a0d9a973SJayanth Dodderi Chidanand sctlr_el1_val = read_ctx_sctlr_el1_reg_errata(ctx);
238b61d94a1SMarc Bonnici
23942e35d2fSJayanth Dodderi Chidanand sctlr_el1_val |=
240b61d94a1SMarc Bonnici /*SCTLR_EL1_RES1 |*/
241b61d94a1SMarc Bonnici /* Don't trap DC CVAU, DC CIVAC, DC CVAC, DC CVAP, or IC IVAU */
242b61d94a1SMarc Bonnici SCTLR_UCI_BIT |
243b61d94a1SMarc Bonnici /* RW regions at xlat regime EL1&0 are forced to be XN. */
244b61d94a1SMarc Bonnici SCTLR_WXN_BIT |
245b61d94a1SMarc Bonnici /* Don't trap to EL1 execution of WFI or WFE at EL0. */
246b61d94a1SMarc Bonnici SCTLR_NTWI_BIT | SCTLR_NTWE_BIT |
247b61d94a1SMarc Bonnici /* Don't trap to EL1 accesses to CTR_EL0 from EL0. */
248b61d94a1SMarc Bonnici SCTLR_UCT_BIT |
249b61d94a1SMarc Bonnici /* Don't trap to EL1 execution of DZ ZVA at EL0. */
250b61d94a1SMarc Bonnici SCTLR_DZE_BIT |
251b61d94a1SMarc Bonnici /* Enable SP Alignment check for EL0 */
252b61d94a1SMarc Bonnici SCTLR_SA0_BIT |
253b61d94a1SMarc Bonnici /* Don't change PSTATE.PAN on taking an exception to EL1 */
254b61d94a1SMarc Bonnici SCTLR_SPAN_BIT |
255b61d94a1SMarc Bonnici /* Allow cacheable data and instr. accesses to normal memory. */
256b61d94a1SMarc Bonnici SCTLR_C_BIT | SCTLR_I_BIT |
257b61d94a1SMarc Bonnici /* Enable MMU. */
258b61d94a1SMarc Bonnici SCTLR_M_BIT
259b61d94a1SMarc Bonnici ;
260b61d94a1SMarc Bonnici
26142e35d2fSJayanth Dodderi Chidanand sctlr_el1_val &= ~(
262b61d94a1SMarc Bonnici /* Explicit data accesses at EL0 are little-endian. */
263b61d94a1SMarc Bonnici SCTLR_E0E_BIT |
264b61d94a1SMarc Bonnici /*
265b61d94a1SMarc Bonnici * Alignment fault checking disabled when at EL1 and EL0 as
266b61d94a1SMarc Bonnici * the UEFI spec permits unaligned accesses.
267b61d94a1SMarc Bonnici */
268b61d94a1SMarc Bonnici SCTLR_A_BIT |
269b61d94a1SMarc Bonnici /* Accesses to DAIF from EL0 are trapped to EL1. */
270b61d94a1SMarc Bonnici SCTLR_UMA_BIT
271b61d94a1SMarc Bonnici );
272b61d94a1SMarc Bonnici
27359b7c0a0SJayanth Dodderi Chidanand /* Store the initialised SCTLR_EL1 value in the cpu_context */
274a0d9a973SJayanth Dodderi Chidanand write_ctx_sctlr_el1_reg_errata(ctx, sctlr_el1_val);
275b61d94a1SMarc Bonnici
276b61d94a1SMarc Bonnici /*
277b61d94a1SMarc Bonnici * Setup other system registers
278b61d94a1SMarc Bonnici * ----------------------------
279b61d94a1SMarc Bonnici */
280b61d94a1SMarc Bonnici
281b61d94a1SMarc Bonnici /* Shim Exception Vector Base Address */
28242e35d2fSJayanth Dodderi Chidanand write_el1_ctx_common(get_el1_sysregs_ctx(ctx), vbar_el1,
283b61d94a1SMarc Bonnici SPM_SHIM_EXCEPTIONS_PTR);
284b61d94a1SMarc Bonnici
28542e35d2fSJayanth Dodderi Chidanand write_el1_ctx_arch_timer(get_el1_sysregs_ctx(ctx), cntkctl_el1,
286b61d94a1SMarc Bonnici EL0PTEN_BIT | EL0VTEN_BIT | EL0PCTEN_BIT | EL0VCTEN_BIT);
287b61d94a1SMarc Bonnici
288b61d94a1SMarc Bonnici /*
289b61d94a1SMarc Bonnici * FPEN: Allow the Secure Partition to access FP/SIMD registers.
290b61d94a1SMarc Bonnici * Note that SPM will not do any saving/restoring of these registers on
291b61d94a1SMarc Bonnici * behalf of the SP. This falls under the SP's responsibility.
292b61d94a1SMarc Bonnici * TTA: Enable access to trace registers.
293b61d94a1SMarc Bonnici * ZEN (v8.2): Trap SVE instructions and access to SVE registers.
294b61d94a1SMarc Bonnici */
29542e35d2fSJayanth Dodderi Chidanand write_el1_ctx_common(get_el1_sysregs_ctx(ctx), cpacr_el1,
296b61d94a1SMarc Bonnici CPACR_EL1_FPEN(CPACR_EL1_FP_TRAP_NONE));
297b61d94a1SMarc Bonnici
298b61d94a1SMarc Bonnici /*
299b61d94a1SMarc Bonnici * Prepare information in buffer shared between EL3 and S-EL0
300b61d94a1SMarc Bonnici * ----------------------------------------------------------
301b61d94a1SMarc Bonnici */
3029ae5f673SLevi Yun #if HOB_LIST && TRANSFER_LIST
3039ae5f673SLevi Yun sp_boot_tl = transfer_list_init((void *) sp_boot_info->sp_shared_buf_base,
3049ae5f673SLevi Yun sp_boot_info->sp_shared_buf_size);
3059ae5f673SLevi Yun assert(sp_boot_tl != NULL);
306b61d94a1SMarc Bonnici
3079ae5f673SLevi Yun hob_table = build_sp_boot_hob_list(sp_boot_info, &hob_table_size);
3089ae5f673SLevi Yun assert(hob_table != NULL);
3099ae5f673SLevi Yun
3109ae5f673SLevi Yun transfer_list_update_checksum(sp_boot_tl);
3119ae5f673SLevi Yun
3129ae5f673SLevi Yun sp_boot_te = transfer_list_add(sp_boot_tl, TL_TAG_HOB_LIST,
3139ae5f673SLevi Yun hob_table_size, hob_table);
3149ae5f673SLevi Yun if (sp_boot_te == NULL) {
3159ae5f673SLevi Yun ERROR("Failed to add HOB list to xfer list\n");
3169ae5f673SLevi Yun }
3179ae5f673SLevi Yun
3189ae5f673SLevi Yun transfer_list_set_handoff_args(sp_boot_tl, &ep_info);
3199ae5f673SLevi Yun
3209ae5f673SLevi Yun transfer_list_dump(sp_boot_tl);
3219ae5f673SLevi Yun
3229ae5f673SLevi Yun write_ctx_reg(get_gpregs_ctx(ctx), CTX_GPREG_X0,
3239ae5f673SLevi Yun ep_info.args.arg0);
3249ae5f673SLevi Yun write_ctx_reg(get_gpregs_ctx(ctx), CTX_GPREG_X1,
3259ae5f673SLevi Yun ep_info.args.arg1);
3269ae5f673SLevi Yun write_ctx_reg(get_gpregs_ctx(ctx), CTX_GPREG_X2,
3279ae5f673SLevi Yun ep_info.args.arg2);
3289ae5f673SLevi Yun write_ctx_reg(get_gpregs_ctx(ctx), CTX_GPREG_X3,
3299ae5f673SLevi Yun ep_info.args.arg3);
3309ae5f673SLevi Yun #else
331b61d94a1SMarc Bonnici void *shared_buf_ptr = (void *) sp_boot_info->sp_shared_buf_base;
332b61d94a1SMarc Bonnici
333b61d94a1SMarc Bonnici /* Copy the boot information into the shared buffer with the SP. */
334b61d94a1SMarc Bonnici assert((uintptr_t)shared_buf_ptr + sizeof(spm_mm_boot_info_t)
335b61d94a1SMarc Bonnici <= (sp_boot_info->sp_shared_buf_base + sp_boot_info->sp_shared_buf_size));
336b61d94a1SMarc Bonnici
337b61d94a1SMarc Bonnici assert(sp_boot_info->sp_shared_buf_base <=
338b61d94a1SMarc Bonnici (UINTPTR_MAX - sp_boot_info->sp_shared_buf_size + 1));
339b61d94a1SMarc Bonnici
340b61d94a1SMarc Bonnici
341b61d94a1SMarc Bonnici memcpy((void *) shared_buf_ptr, (const void *) sp_boot_info,
342b61d94a1SMarc Bonnici sizeof(spm_mm_boot_info_t));
343b61d94a1SMarc Bonnici
344b61d94a1SMarc Bonnici /* Pointer to the MP information from the platform port. */
345b61d94a1SMarc Bonnici spm_mm_mp_info_t *sp_mp_info =
346b61d94a1SMarc Bonnici ((spm_mm_boot_info_t *) shared_buf_ptr)->mp_info;
347b61d94a1SMarc Bonnici
348b61d94a1SMarc Bonnici assert(sp_mp_info != NULL);
349b61d94a1SMarc Bonnici
350b61d94a1SMarc Bonnici /*
351b61d94a1SMarc Bonnici * Point the shared buffer MP information pointer to where the info will
352b61d94a1SMarc Bonnici * be populated, just after the boot info.
353b61d94a1SMarc Bonnici */
354b61d94a1SMarc Bonnici ((spm_mm_boot_info_t *) shared_buf_ptr)->mp_info =
355b61d94a1SMarc Bonnici (spm_mm_mp_info_t *) ((uintptr_t)shared_buf_ptr
356b61d94a1SMarc Bonnici + sizeof(spm_mm_boot_info_t));
357b61d94a1SMarc Bonnici
358b61d94a1SMarc Bonnici /*
359b61d94a1SMarc Bonnici * Update the shared buffer pointer to where the MP information for the
360b61d94a1SMarc Bonnici * payload will be populated
361b61d94a1SMarc Bonnici */
362b61d94a1SMarc Bonnici shared_buf_ptr = ((spm_mm_boot_info_t *) shared_buf_ptr)->mp_info;
363b61d94a1SMarc Bonnici
364b61d94a1SMarc Bonnici /*
365b61d94a1SMarc Bonnici * Copy the cpu information into the shared buffer area after the boot
366b61d94a1SMarc Bonnici * information.
367b61d94a1SMarc Bonnici */
368b61d94a1SMarc Bonnici assert(sp_boot_info->num_cpus <= PLATFORM_CORE_COUNT);
369b61d94a1SMarc Bonnici
370b61d94a1SMarc Bonnici assert((uintptr_t)shared_buf_ptr
371b61d94a1SMarc Bonnici <= (sp_boot_info->sp_shared_buf_base + sp_boot_info->sp_shared_buf_size -
372b61d94a1SMarc Bonnici (sp_boot_info->num_cpus * sizeof(*sp_mp_info))));
373b61d94a1SMarc Bonnici
374b61d94a1SMarc Bonnici memcpy(shared_buf_ptr, (const void *) sp_mp_info,
375b61d94a1SMarc Bonnici sp_boot_info->num_cpus * sizeof(*sp_mp_info));
376b61d94a1SMarc Bonnici
377b61d94a1SMarc Bonnici /*
378b61d94a1SMarc Bonnici * Calculate the linear indices of cores in boot information for the
379b61d94a1SMarc Bonnici * secure partition and flag the primary CPU
380b61d94a1SMarc Bonnici */
381b61d94a1SMarc Bonnici sp_mp_info = (spm_mm_mp_info_t *) shared_buf_ptr;
382b61d94a1SMarc Bonnici
383b61d94a1SMarc Bonnici for (unsigned int index = 0; index < sp_boot_info->num_cpus; index++) {
384b61d94a1SMarc Bonnici u_register_t mpidr = sp_mp_info[index].mpidr;
385b61d94a1SMarc Bonnici
386b61d94a1SMarc Bonnici sp_mp_info[index].linear_id = plat_core_pos_by_mpidr(mpidr);
387b61d94a1SMarc Bonnici if (plat_my_core_pos() == sp_mp_info[index].linear_id)
388b61d94a1SMarc Bonnici sp_mp_info[index].flags |= MP_INFO_FLAG_PRIMARY_CPU;
389b61d94a1SMarc Bonnici }
3909ae5f673SLevi Yun #endif
391b61d94a1SMarc Bonnici }
392