13a8c55f6SVarun Wadekar/* 2b0301467SVarun Wadekar * Copyright (c) 2015-2018, ARM Limited and Contributors. All rights reserved. 33a8c55f6SVarun Wadekar * 482cb2c1aSdp-arm * SPDX-License-Identifier: BSD-3-Clause 53a8c55f6SVarun Wadekar */ 63a8c55f6SVarun Wadekar 73a8c55f6SVarun Wadekar#include <arch.h> 83a8c55f6SVarun Wadekar#include <asm_macros.S> 93a8c55f6SVarun Wadekar#include <assert_macros.S> 10b0301467SVarun Wadekar#include <context.h> 113a8c55f6SVarun Wadekar#include <denver.h> 123a8c55f6SVarun Wadekar#include <cpu_macros.S> 133a8c55f6SVarun Wadekar#include <plat_macros.S> 143a8c55f6SVarun Wadekar 15b0301467SVarun Wadekar /* ------------------------------------------------- 16b0301467SVarun Wadekar * CVE-2017-5715 mitigation 17b0301467SVarun Wadekar * 18b0301467SVarun Wadekar * Flush the indirect branch predictor and RSB on 19b0301467SVarun Wadekar * entry to EL3 by issuing a newly added instruction 20b0301467SVarun Wadekar * for Denver CPUs. 21b0301467SVarun Wadekar * 22b0301467SVarun Wadekar * To achieve this without performing any branch 23b0301467SVarun Wadekar * instruction, a per-cpu vbar is installed which 24b0301467SVarun Wadekar * executes the workaround and then branches off to 25b0301467SVarun Wadekar * the corresponding vector entry in the main vector 26b0301467SVarun Wadekar * table. 27b0301467SVarun Wadekar * ------------------------------------------------- 28b0301467SVarun Wadekar */ 29b0301467SVarun Wadekar .globl workaround_bpflush_runtime_exceptions 30b0301467SVarun Wadekar 31b0301467SVarun Wadekarvector_base workaround_bpflush_runtime_exceptions 32b0301467SVarun Wadekar 33b0301467SVarun Wadekar .macro apply_workaround 34b0301467SVarun Wadekar stp x0, x1, [sp, #CTX_GPREGS_OFFSET + CTX_GPREG_X0] 35b0301467SVarun Wadekar 36b0301467SVarun Wadekar /* ------------------------------------------------- 37b0301467SVarun Wadekar * A new write-only system register where a write of 38b0301467SVarun Wadekar * 1 to bit 0 will cause the indirect branch predictor 39b0301467SVarun Wadekar * and RSB to be flushed. 40b0301467SVarun Wadekar * 41b0301467SVarun Wadekar * A write of 0 to bit 0 will be ignored. A write of 42b0301467SVarun Wadekar * 1 to any other bit will cause an MCA. 43b0301467SVarun Wadekar * ------------------------------------------------- 44b0301467SVarun Wadekar */ 45b0301467SVarun Wadekar mov x0, #1 46b0301467SVarun Wadekar msr s3_0_c15_c0_6, x0 47b0301467SVarun Wadekar isb 48b0301467SVarun Wadekar 49b0301467SVarun Wadekar ldp x0, x1, [sp, #CTX_GPREGS_OFFSET + CTX_GPREG_X0] 50b0301467SVarun Wadekar .endm 51b0301467SVarun Wadekar 52b0301467SVarun Wadekar /* --------------------------------------------------------------------- 53b0301467SVarun Wadekar * Current EL with SP_EL0 : 0x0 - 0x200 54b0301467SVarun Wadekar * --------------------------------------------------------------------- 55b0301467SVarun Wadekar */ 56b0301467SVarun Wadekarvector_entry workaround_bpflush_sync_exception_sp_el0 57b0301467SVarun Wadekar b sync_exception_sp_el0 58a9203edaSRoberto Vargasend_vector_entry workaround_bpflush_sync_exception_sp_el0 59b0301467SVarun Wadekar 60b0301467SVarun Wadekarvector_entry workaround_bpflush_irq_sp_el0 61b0301467SVarun Wadekar b irq_sp_el0 62a9203edaSRoberto Vargasend_vector_entry workaround_bpflush_irq_sp_el0 63b0301467SVarun Wadekar 64b0301467SVarun Wadekarvector_entry workaround_bpflush_fiq_sp_el0 65b0301467SVarun Wadekar b fiq_sp_el0 66a9203edaSRoberto Vargasend_vector_entry workaround_bpflush_fiq_sp_el0 67b0301467SVarun Wadekar 68b0301467SVarun Wadekarvector_entry workaround_bpflush_serror_sp_el0 69b0301467SVarun Wadekar b serror_sp_el0 70a9203edaSRoberto Vargasend_vector_entry workaround_bpflush_serror_sp_el0 71b0301467SVarun Wadekar 72b0301467SVarun Wadekar /* --------------------------------------------------------------------- 73b0301467SVarun Wadekar * Current EL with SP_ELx: 0x200 - 0x400 74b0301467SVarun Wadekar * --------------------------------------------------------------------- 75b0301467SVarun Wadekar */ 76b0301467SVarun Wadekarvector_entry workaround_bpflush_sync_exception_sp_elx 77b0301467SVarun Wadekar b sync_exception_sp_elx 78a9203edaSRoberto Vargasend_vector_entry workaround_bpflush_sync_exception_sp_elx 79b0301467SVarun Wadekar 80b0301467SVarun Wadekarvector_entry workaround_bpflush_irq_sp_elx 81b0301467SVarun Wadekar b irq_sp_elx 82a9203edaSRoberto Vargasend_vector_entry workaround_bpflush_irq_sp_elx 83b0301467SVarun Wadekar 84b0301467SVarun Wadekarvector_entry workaround_bpflush_fiq_sp_elx 85b0301467SVarun Wadekar b fiq_sp_elx 86a9203edaSRoberto Vargasend_vector_entry workaround_bpflush_fiq_sp_elx 87b0301467SVarun Wadekar 88b0301467SVarun Wadekarvector_entry workaround_bpflush_serror_sp_elx 89b0301467SVarun Wadekar b serror_sp_elx 90a9203edaSRoberto Vargasend_vector_entry workaround_bpflush_serror_sp_elx 91b0301467SVarun Wadekar 92b0301467SVarun Wadekar /* --------------------------------------------------------------------- 93b0301467SVarun Wadekar * Lower EL using AArch64 : 0x400 - 0x600 94b0301467SVarun Wadekar * --------------------------------------------------------------------- 95b0301467SVarun Wadekar */ 96b0301467SVarun Wadekarvector_entry workaround_bpflush_sync_exception_aarch64 97b0301467SVarun Wadekar apply_workaround 98b0301467SVarun Wadekar b sync_exception_aarch64 99a9203edaSRoberto Vargasend_vector_entry workaround_bpflush_sync_exception_aarch64 100b0301467SVarun Wadekar 101b0301467SVarun Wadekarvector_entry workaround_bpflush_irq_aarch64 102b0301467SVarun Wadekar apply_workaround 103b0301467SVarun Wadekar b irq_aarch64 104a9203edaSRoberto Vargasend_vector_entry workaround_bpflush_irq_aarch64 105b0301467SVarun Wadekar 106b0301467SVarun Wadekarvector_entry workaround_bpflush_fiq_aarch64 107b0301467SVarun Wadekar apply_workaround 108b0301467SVarun Wadekar b fiq_aarch64 109a9203edaSRoberto Vargasend_vector_entry workaround_bpflush_fiq_aarch64 110b0301467SVarun Wadekar 111b0301467SVarun Wadekarvector_entry workaround_bpflush_serror_aarch64 112b0301467SVarun Wadekar apply_workaround 113b0301467SVarun Wadekar b serror_aarch64 114a9203edaSRoberto Vargasend_vector_entry workaround_bpflush_serror_aarch64 115b0301467SVarun Wadekar 116b0301467SVarun Wadekar /* --------------------------------------------------------------------- 117b0301467SVarun Wadekar * Lower EL using AArch32 : 0x600 - 0x800 118b0301467SVarun Wadekar * --------------------------------------------------------------------- 119b0301467SVarun Wadekar */ 120b0301467SVarun Wadekarvector_entry workaround_bpflush_sync_exception_aarch32 121b0301467SVarun Wadekar apply_workaround 122b0301467SVarun Wadekar b sync_exception_aarch32 123a9203edaSRoberto Vargasend_vector_entry workaround_bpflush_sync_exception_aarch32 124b0301467SVarun Wadekar 125b0301467SVarun Wadekarvector_entry workaround_bpflush_irq_aarch32 126b0301467SVarun Wadekar apply_workaround 127b0301467SVarun Wadekar b irq_aarch32 128a9203edaSRoberto Vargasend_vector_entry workaround_bpflush_irq_aarch32 129b0301467SVarun Wadekar 130b0301467SVarun Wadekarvector_entry workaround_bpflush_fiq_aarch32 131b0301467SVarun Wadekar apply_workaround 132b0301467SVarun Wadekar b fiq_aarch32 133a9203edaSRoberto Vargasend_vector_entry workaround_bpflush_fiq_aarch32 134b0301467SVarun Wadekar 135b0301467SVarun Wadekarvector_entry workaround_bpflush_serror_aarch32 136b0301467SVarun Wadekar apply_workaround 137b0301467SVarun Wadekar b serror_aarch32 138a9203edaSRoberto Vargasend_vector_entry workaround_bpflush_serror_aarch32 139b0301467SVarun Wadekar 1409f1c5dd1SVarun Wadekar .global denver_disable_dco 1419f1c5dd1SVarun Wadekar 1423a8c55f6SVarun Wadekar /* --------------------------------------------- 1433a8c55f6SVarun Wadekar * Disable debug interfaces 1443a8c55f6SVarun Wadekar * --------------------------------------------- 1453a8c55f6SVarun Wadekar */ 1463a8c55f6SVarun Wadekarfunc denver_disable_ext_debug 1473a8c55f6SVarun Wadekar mov x0, #1 1483a8c55f6SVarun Wadekar msr osdlr_el1, x0 1493a8c55f6SVarun Wadekar isb 1503a8c55f6SVarun Wadekar dsb sy 1513a8c55f6SVarun Wadekar ret 1523a8c55f6SVarun Wadekarendfunc denver_disable_ext_debug 1533a8c55f6SVarun Wadekar 1543a8c55f6SVarun Wadekar /* ---------------------------------------------------- 1553a8c55f6SVarun Wadekar * Enable dynamic code optimizer (DCO) 1563a8c55f6SVarun Wadekar * ---------------------------------------------------- 1573a8c55f6SVarun Wadekar */ 1583a8c55f6SVarun Wadekarfunc denver_enable_dco 1593a8c55f6SVarun Wadekar mrs x0, mpidr_el1 1603a8c55f6SVarun Wadekar and x0, x0, #0xF 1613a8c55f6SVarun Wadekar mov x1, #1 1623a8c55f6SVarun Wadekar lsl x1, x1, x0 1633a8c55f6SVarun Wadekar msr s3_0_c15_c0_2, x1 1643a8c55f6SVarun Wadekar ret 1653a8c55f6SVarun Wadekarendfunc denver_enable_dco 1663a8c55f6SVarun Wadekar 1673a8c55f6SVarun Wadekar /* ---------------------------------------------------- 1683a8c55f6SVarun Wadekar * Disable dynamic code optimizer (DCO) 1693a8c55f6SVarun Wadekar * ---------------------------------------------------- 1703a8c55f6SVarun Wadekar */ 1713a8c55f6SVarun Wadekarfunc denver_disable_dco 1723a8c55f6SVarun Wadekar 1733a8c55f6SVarun Wadekar /* turn off background work */ 1743a8c55f6SVarun Wadekar mrs x0, mpidr_el1 1753a8c55f6SVarun Wadekar and x0, x0, #0xF 1763a8c55f6SVarun Wadekar mov x1, #1 1773a8c55f6SVarun Wadekar lsl x1, x1, x0 1783a8c55f6SVarun Wadekar lsl x2, x1, #16 1793a8c55f6SVarun Wadekar msr s3_0_c15_c0_2, x2 1803a8c55f6SVarun Wadekar isb 1813a8c55f6SVarun Wadekar 1823a8c55f6SVarun Wadekar /* wait till the background work turns off */ 1833a8c55f6SVarun Wadekar1: mrs x2, s3_0_c15_c0_2 1843a8c55f6SVarun Wadekar lsr x2, x2, #32 1853a8c55f6SVarun Wadekar and w2, w2, 0xFFFF 1863a8c55f6SVarun Wadekar and x2, x2, x1 1873a8c55f6SVarun Wadekar cbnz x2, 1b 1883a8c55f6SVarun Wadekar 1893a8c55f6SVarun Wadekar ret 1903a8c55f6SVarun Wadekarendfunc denver_disable_dco 1913a8c55f6SVarun Wadekar 192*83353962SVarun Wadekarfunc check_errata_cve_2017_5715 193*83353962SVarun Wadekar mov x0, #ERRATA_MISSING 194*83353962SVarun Wadekar#if WORKAROUND_CVE_2017_5715 195*83353962SVarun Wadekar /* 196*83353962SVarun Wadekar * Check if the CPU supports the special instruction 197*83353962SVarun Wadekar * required to flush the indirect branch predictor and 198*83353962SVarun Wadekar * RSB. Support for this operation can be determined by 199*83353962SVarun Wadekar * comparing bits 19:16 of ID_AFR0_EL1 with 0b0001. 200*83353962SVarun Wadekar */ 201*83353962SVarun Wadekar mrs x1, id_afr0_el1 202*83353962SVarun Wadekar mov x2, #0x10000 203*83353962SVarun Wadekar and x1, x1, x2 204*83353962SVarun Wadekar cbz x1, 1f 205*83353962SVarun Wadekar mov x0, #ERRATA_APPLIES 206*83353962SVarun Wadekar1: 207*83353962SVarun Wadekar#endif 208*83353962SVarun Wadekar ret 209*83353962SVarun Wadekarendfunc check_errata_cve_2017_5715 210*83353962SVarun Wadekar 2113a8c55f6SVarun Wadekar /* ------------------------------------------------- 2123a8c55f6SVarun Wadekar * The CPU Ops reset function for Denver. 2133a8c55f6SVarun Wadekar * ------------------------------------------------- 2143a8c55f6SVarun Wadekar */ 2153a8c55f6SVarun Wadekarfunc denver_reset_func 2163a8c55f6SVarun Wadekar 2173a8c55f6SVarun Wadekar mov x19, x30 2183a8c55f6SVarun Wadekar 219b0301467SVarun Wadekar#if IMAGE_BL31 && WORKAROUND_CVE_2017_5715 220b0301467SVarun Wadekar /* 221b0301467SVarun Wadekar * Check if the CPU supports the special instruction 222b0301467SVarun Wadekar * required to flush the indirect branch predictor and 223b0301467SVarun Wadekar * RSB. Support for this operation can be determined by 224b0301467SVarun Wadekar * comparing bits 19:16 of ID_AFR0_EL1 with 0b0001. 225b0301467SVarun Wadekar */ 226b0301467SVarun Wadekar mrs x0, id_afr0_el1 227b0301467SVarun Wadekar mov x1, #0x10000 228b0301467SVarun Wadekar and x0, x0, x1 229b0301467SVarun Wadekar cmp x0, #0 230b0301467SVarun Wadekar adr x1, workaround_bpflush_runtime_exceptions 231b0301467SVarun Wadekar mrs x2, vbar_el3 232b0301467SVarun Wadekar csel x0, x1, x2, ne 233b0301467SVarun Wadekar msr vbar_el3, x0 234b0301467SVarun Wadekar#endif 235b0301467SVarun Wadekar 2363a8c55f6SVarun Wadekar /* ---------------------------------------------------- 2373a8c55f6SVarun Wadekar * Enable dynamic code optimizer (DCO) 2383a8c55f6SVarun Wadekar * ---------------------------------------------------- 2393a8c55f6SVarun Wadekar */ 2403a8c55f6SVarun Wadekar bl denver_enable_dco 2413a8c55f6SVarun Wadekar 2423a8c55f6SVarun Wadekar ret x19 2433a8c55f6SVarun Wadekarendfunc denver_reset_func 2443a8c55f6SVarun Wadekar 2453a8c55f6SVarun Wadekar /* ---------------------------------------------------- 2463a8c55f6SVarun Wadekar * The CPU Ops core power down function for Denver. 2473a8c55f6SVarun Wadekar * ---------------------------------------------------- 2483a8c55f6SVarun Wadekar */ 2493a8c55f6SVarun Wadekarfunc denver_core_pwr_dwn 2503a8c55f6SVarun Wadekar 2513a8c55f6SVarun Wadekar mov x19, x30 2523a8c55f6SVarun Wadekar 2533a8c55f6SVarun Wadekar /* --------------------------------------------- 2543a8c55f6SVarun Wadekar * Force the debug interfaces to be quiescent 2553a8c55f6SVarun Wadekar * --------------------------------------------- 2563a8c55f6SVarun Wadekar */ 2573a8c55f6SVarun Wadekar bl denver_disable_ext_debug 2583a8c55f6SVarun Wadekar 2593a8c55f6SVarun Wadekar ret x19 2603a8c55f6SVarun Wadekarendfunc denver_core_pwr_dwn 2613a8c55f6SVarun Wadekar 2623a8c55f6SVarun Wadekar /* ------------------------------------------------------- 2633a8c55f6SVarun Wadekar * The CPU Ops cluster power down function for Denver. 2643a8c55f6SVarun Wadekar * ------------------------------------------------------- 2653a8c55f6SVarun Wadekar */ 2663a8c55f6SVarun Wadekarfunc denver_cluster_pwr_dwn 2673a8c55f6SVarun Wadekar ret 2683a8c55f6SVarun Wadekarendfunc denver_cluster_pwr_dwn 2693a8c55f6SVarun Wadekar 270*83353962SVarun Wadekar#if REPORT_ERRATA 271*83353962SVarun Wadekar /* 272*83353962SVarun Wadekar * Errata printing function for Denver. Must follow AAPCS. 273*83353962SVarun Wadekar */ 274*83353962SVarun Wadekarfunc denver_errata_report 275*83353962SVarun Wadekar stp x8, x30, [sp, #-16]! 276*83353962SVarun Wadekar 277*83353962SVarun Wadekar bl cpu_get_rev_var 278*83353962SVarun Wadekar mov x8, x0 279*83353962SVarun Wadekar 280*83353962SVarun Wadekar /* 281*83353962SVarun Wadekar * Report all errata. The revision-variant information is passed to 282*83353962SVarun Wadekar * checking functions of each errata. 283*83353962SVarun Wadekar */ 284*83353962SVarun Wadekar report_errata WORKAROUND_CVE_2017_5715, denver, cve_2017_5715 285*83353962SVarun Wadekar 286*83353962SVarun Wadekar ldp x8, x30, [sp], #16 287*83353962SVarun Wadekar ret 288*83353962SVarun Wadekarendfunc denver_errata_report 289*83353962SVarun Wadekar#endif 290*83353962SVarun Wadekar 2913a8c55f6SVarun Wadekar /* --------------------------------------------- 2923a8c55f6SVarun Wadekar * This function provides Denver specific 2933a8c55f6SVarun Wadekar * register information for crash reporting. 2943a8c55f6SVarun Wadekar * It needs to return with x6 pointing to 2953a8c55f6SVarun Wadekar * a list of register names in ascii and 2963a8c55f6SVarun Wadekar * x8 - x15 having values of registers to be 2973a8c55f6SVarun Wadekar * reported. 2983a8c55f6SVarun Wadekar * --------------------------------------------- 2993a8c55f6SVarun Wadekar */ 3003a8c55f6SVarun Wadekar.section .rodata.denver_regs, "aS" 3013a8c55f6SVarun Wadekardenver_regs: /* The ascii list of register names to be reported */ 3023a8c55f6SVarun Wadekar .asciz "actlr_el1", "" 3033a8c55f6SVarun Wadekar 3043a8c55f6SVarun Wadekarfunc denver_cpu_reg_dump 3053a8c55f6SVarun Wadekar adr x6, denver_regs 3063a8c55f6SVarun Wadekar mrs x8, ACTLR_EL1 3073a8c55f6SVarun Wadekar ret 3083a8c55f6SVarun Wadekarendfunc denver_cpu_reg_dump 3093a8c55f6SVarun Wadekar 310*83353962SVarun Wadekardeclare_cpu_ops_wa denver, DENVER_MIDR_PN0, \ 311e956e228SVarun Wadekar denver_reset_func, \ 312*83353962SVarun Wadekar check_errata_cve_2017_5715, \ 313*83353962SVarun Wadekar CPU_NO_EXTRA2_FUNC, \ 314e956e228SVarun Wadekar denver_core_pwr_dwn, \ 315e956e228SVarun Wadekar denver_cluster_pwr_dwn 316e956e228SVarun Wadekar 317*83353962SVarun Wadekardeclare_cpu_ops_wa denver, DENVER_MIDR_PN1, \ 318e956e228SVarun Wadekar denver_reset_func, \ 319*83353962SVarun Wadekar check_errata_cve_2017_5715, \ 320*83353962SVarun Wadekar CPU_NO_EXTRA2_FUNC, \ 321e956e228SVarun Wadekar denver_core_pwr_dwn, \ 322e956e228SVarun Wadekar denver_cluster_pwr_dwn 323e956e228SVarun Wadekar 324*83353962SVarun Wadekardeclare_cpu_ops_wa denver, DENVER_MIDR_PN2, \ 325e956e228SVarun Wadekar denver_reset_func, \ 326*83353962SVarun Wadekar check_errata_cve_2017_5715, \ 327*83353962SVarun Wadekar CPU_NO_EXTRA2_FUNC, \ 328e956e228SVarun Wadekar denver_core_pwr_dwn, \ 329e956e228SVarun Wadekar denver_cluster_pwr_dwn 330e956e228SVarun Wadekar 331*83353962SVarun Wadekardeclare_cpu_ops_wa denver, DENVER_MIDR_PN3, \ 332e956e228SVarun Wadekar denver_reset_func, \ 333*83353962SVarun Wadekar check_errata_cve_2017_5715, \ 334*83353962SVarun Wadekar CPU_NO_EXTRA2_FUNC, \ 335e956e228SVarun Wadekar denver_core_pwr_dwn, \ 336e956e228SVarun Wadekar denver_cluster_pwr_dwn 337e956e228SVarun Wadekar 338*83353962SVarun Wadekardeclare_cpu_ops_wa denver, DENVER_MIDR_PN4, \ 3395dd9dbb5SJeenu Viswambharan denver_reset_func, \ 340*83353962SVarun Wadekar check_errata_cve_2017_5715, \ 341*83353962SVarun Wadekar CPU_NO_EXTRA2_FUNC, \ 3425dd9dbb5SJeenu Viswambharan denver_core_pwr_dwn, \ 3435dd9dbb5SJeenu Viswambharan denver_cluster_pwr_dwn 344