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Achin Gupta7aea9082014-02-01 07:51:28 +00001/*
Paul Beesley1fbc97b2019-01-11 18:26:51 +00002 * Copyright (c) 2013-2019, ARM Limited and Contributors. All rights reserved.
Achin Gupta7aea9082014-02-01 07:51:28 +00003 *
dp-armfa3cf0b2017-05-03 09:38:09 +01004 * SPDX-License-Identifier: BSD-3-Clause
Achin Gupta7aea9082014-02-01 07:51:28 +00005 */
6
Antonio Nino Diaze0f90632018-12-14 00:18:21 +00007#include <assert.h>
8#include <stdbool.h>
9#include <string.h>
10
11#include <platform_def.h>
12
Achin Gupta27b895e2014-05-04 18:38:28 +010013#include <arch.h>
Achin Gupta7aea9082014-02-01 07:51:28 +000014#include <arch_helpers.h>
Antonio Nino Diaze0f90632018-12-14 00:18:21 +000015#include <bl31/interrupt_mgmt.h>
16#include <common/bl_common.h>
Dan Handley2bd4ef22014-04-09 13:14:54 +010017#include <context.h>
Antonio Nino Diaze0f90632018-12-14 00:18:21 +000018#include <lib/el3_runtime/context_mgmt.h>
19#include <lib/el3_runtime/pubsub_events.h>
20#include <lib/extensions/amu.h>
21#include <lib/extensions/mpam.h>
22#include <lib/extensions/spe.h>
23#include <lib/extensions/sve.h>
24#include <lib/utils.h>
25#include <plat/common/platform.h>
Antonio Nino Diaz3c817f42018-03-21 10:49:27 +000026#include <smccc_helpers.h>
Achin Gupta7aea9082014-02-01 07:51:28 +000027
Achin Gupta7aea9082014-02-01 07:51:28 +000028
29/*******************************************************************************
30 * Context management library initialisation routine. This library is used by
31 * runtime services to share pointers to 'cpu_context' structures for the secure
32 * and non-secure states. Management of the structures and their associated
33 * memory is not done by the context management library e.g. the PSCI service
34 * manages the cpu context used for entry from and exit to the non-secure state.
35 * The Secure payload dispatcher service manages the context(s) corresponding to
36 * the secure state. It also uses this library to get access to the non-secure
37 * state cpu context pointers.
38 * Lastly, this library provides the api to make SP_EL3 point to the cpu context
39 * which will used for programming an entry into a lower EL. The same context
40 * will used to save state upon exception entry from that EL.
41 ******************************************************************************/
Daniel Boulby5753e492018-09-20 14:12:46 +010042void __init cm_init(void)
Achin Gupta7aea9082014-02-01 07:51:28 +000043{
44 /*
45 * The context management library has only global data to intialize, but
46 * that will be done when the BSS is zeroed out
47 */
48}
49
50/*******************************************************************************
Soby Mathewb0082d22015-04-09 13:40:55 +010051 * The following function initializes the cpu_context 'ctx' for
Andrew Thoelke4e126072014-06-04 21:10:52 +010052 * first use, and sets the initial entrypoint state as specified by the
53 * entry_point_info structure.
54 *
55 * The security state to initialize is determined by the SECURE attribute
Antonio Nino Diaz28dce9e2018-05-22 10:09:10 +010056 * of the entry_point_info.
Andrew Thoelke4e126072014-06-04 21:10:52 +010057 *
Paul Beesley1fbc97b2019-01-11 18:26:51 +000058 * The EE and ST attributes are used to configure the endianness and secure
Soby Mathewb0082d22015-04-09 13:40:55 +010059 * timer availability for the new execution context.
Andrew Thoelke4e126072014-06-04 21:10:52 +010060 *
61 * To prepare the register state for entry call cm_prepare_el3_exit() and
62 * el3_exit(). For Secure-EL1 cm_prepare_el3_exit() is equivalent to
63 * cm_e1_sysreg_context_restore().
64 ******************************************************************************/
Antonio Nino Diaz28dce9e2018-05-22 10:09:10 +010065void cm_setup_context(cpu_context_t *ctx, const entry_point_info_t *ep)
Andrew Thoelke4e126072014-06-04 21:10:52 +010066{
Soby Mathewb0082d22015-04-09 13:40:55 +010067 unsigned int security_state;
David Cunado4168f2f2017-10-02 17:41:39 +010068 uint32_t scr_el3, pmcr_el0;
Andrew Thoelke4e126072014-06-04 21:10:52 +010069 el3_state_t *state;
70 gp_regs_t *gp_regs;
Varun Wadekarb6dd0b32018-05-08 10:52:36 -070071 unsigned long sctlr_elx, actlr_elx;
Andrew Thoelke4e126072014-06-04 21:10:52 +010072
Antonio Nino Diaz864ca6f2018-10-31 15:25:35 +000073 assert(ctx != NULL);
Andrew Thoelke4e126072014-06-04 21:10:52 +010074
Soby Mathewb0082d22015-04-09 13:40:55 +010075 security_state = GET_SECURITY_STATE(ep->h.attr);
76
Andrew Thoelke4e126072014-06-04 21:10:52 +010077 /* Clear any residual register values from the context */
Douglas Raillarda8954fc2017-01-26 15:54:44 +000078 zeromem(ctx, sizeof(*ctx));
Andrew Thoelke4e126072014-06-04 21:10:52 +010079
80 /*
David Cunadofee86532017-04-13 22:38:29 +010081 * SCR_EL3 was initialised during reset sequence in macro
82 * el3_arch_init_common. This code modifies the SCR_EL3 fields that
83 * affect the next EL.
84 *
85 * The following fields are initially set to zero and then updated to
86 * the required value depending on the state of the SPSR_EL3 and the
87 * Security state and entrypoint attributes of the next EL.
Andrew Thoelke4e126072014-06-04 21:10:52 +010088 */
Antonio Nino Diaz864ca6f2018-10-31 15:25:35 +000089 scr_el3 = (uint32_t)read_scr();
Andrew Thoelke4e126072014-06-04 21:10:52 +010090 scr_el3 &= ~(SCR_NS_BIT | SCR_RW_BIT | SCR_FIQ_BIT | SCR_IRQ_BIT |
91 SCR_ST_BIT | SCR_HCE_BIT);
David Cunadofee86532017-04-13 22:38:29 +010092 /*
93 * SCR_NS: Set the security state of the next EL.
94 */
Andrew Thoelke4e126072014-06-04 21:10:52 +010095 if (security_state != SECURE)
96 scr_el3 |= SCR_NS_BIT;
David Cunadofee86532017-04-13 22:38:29 +010097 /*
98 * SCR_EL3.RW: Set the execution state, AArch32 or AArch64, for next
99 * Exception level as specified by SPSR.
100 */
Andrew Thoelke4e126072014-06-04 21:10:52 +0100101 if (GET_RW(ep->spsr) == MODE_RW_64)
102 scr_el3 |= SCR_RW_BIT;
David Cunadofee86532017-04-13 22:38:29 +0100103 /*
104 * SCR_EL3.ST: Traps Secure EL1 accesses to the Counter-timer Physical
105 * Secure timer registers to EL3, from AArch64 state only, if specified
106 * by the entrypoint attributes.
107 */
Antonio Nino Diaz864ca6f2018-10-31 15:25:35 +0000108 if (EP_GET_ST(ep->h.attr) != 0U)
Andrew Thoelke4e126072014-06-04 21:10:52 +0100109 scr_el3 |= SCR_ST_BIT;
110
Julius Wernerc51a2ec2018-08-28 14:45:43 -0700111#if !HANDLE_EA_EL3_FIRST
David Cunadofee86532017-04-13 22:38:29 +0100112 /*
113 * SCR_EL3.EA: Do not route External Abort and SError Interrupt External
114 * to EL3 when executing at a lower EL. When executing at EL3, External
115 * Aborts are taken to EL3.
116 */
Gerald Lejeune632d6df2016-03-22 09:29:23 +0100117 scr_el3 &= ~SCR_EA_BIT;
118#endif
119
Jeenu Viswambharanf00da742017-12-08 12:13:51 +0000120#if FAULT_INJECTION_SUPPORT
121 /* Enable fault injection from lower ELs */
122 scr_el3 |= SCR_FIEN_BIT;
123#endif
124
Antonio Nino Diaz594811b2019-01-31 11:58:00 +0000125#if !CTX_INCLUDE_PAUTH_REGS
126 /*
127 * If the pointer authentication registers aren't saved during world
128 * switches the value of the registers can be leaked from the Secure to
129 * the Non-secure world. To prevent this, rather than enabling pointer
130 * authentication everywhere, we only enable it in the Non-secure world.
131 *
132 * If the Secure world wants to use pointer authentication,
133 * CTX_INCLUDE_PAUTH_REGS must be set to 1.
134 */
135 if (security_state == NON_SECURE)
136 scr_el3 |= SCR_API_BIT | SCR_APK_BIT;
137#endif /* !CTX_INCLUDE_PAUTH_REGS */
138
Masahiro Yamada441bfdd2016-12-25 23:36:24 +0900139#ifdef IMAGE_BL31
Yatharth Kochar6c0566c2015-10-02 17:56:48 +0100140 /*
Paul Beesley1fbc97b2019-01-11 18:26:51 +0000141 * SCR_EL3.IRQ, SCR_EL3.FIQ: Enable the physical FIQ and IRQ routing as
David Cunadofee86532017-04-13 22:38:29 +0100142 * indicated by the interrupt routing model for BL31.
Yatharth Kochar6c0566c2015-10-02 17:56:48 +0100143 */
Andrew Thoelke4e126072014-06-04 21:10:52 +0100144 scr_el3 |= get_scr_el3_from_routing_model(security_state);
Yatharth Kochar6c0566c2015-10-02 17:56:48 +0100145#endif
Andrew Thoelke4e126072014-06-04 21:10:52 +0100146
147 /*
David Cunadofee86532017-04-13 22:38:29 +0100148 * SCR_EL3.HCE: Enable HVC instructions if next execution state is
149 * AArch64 and next EL is EL2, or if next execution state is AArch32 and
150 * next mode is Hyp.
151 */
Antonio Nino Diaz864ca6f2018-10-31 15:25:35 +0000152 if (((GET_RW(ep->spsr) == MODE_RW_64) && (GET_EL(ep->spsr) == MODE_EL2))
153 || ((GET_RW(ep->spsr) != MODE_RW_64)
154 && (GET_M32(ep->spsr) == MODE32_hyp))) {
David Cunadofee86532017-04-13 22:38:29 +0100155 scr_el3 |= SCR_HCE_BIT;
156 }
157
158 /*
159 * Initialise SCTLR_EL1 to the reset value corresponding to the target
160 * execution state setting all fields rather than relying of the hw.
161 * Some fields have architecturally UNKNOWN reset values and these are
162 * set to zero.
Andrew Thoelke4e126072014-06-04 21:10:52 +0100163 *
David Cunadofee86532017-04-13 22:38:29 +0100164 * SCTLR.EE: Endianness is taken from the entrypoint attributes.
Andrew Thoelke4e126072014-06-04 21:10:52 +0100165 *
David Cunadofee86532017-04-13 22:38:29 +0100166 * SCTLR.M, SCTLR.C and SCTLR.I: These fields must be zero (as
167 * required by PSCI specification)
Andrew Thoelke4e126072014-06-04 21:10:52 +0100168 */
Antonio Nino Diaz864ca6f2018-10-31 15:25:35 +0000169 sctlr_elx = (EP_GET_EE(ep->h.attr) != 0U) ? SCTLR_EE_BIT : 0U;
Jens Wiklanderc93c9df2014-09-04 10:23:27 +0200170 if (GET_RW(ep->spsr) == MODE_RW_64)
171 sctlr_elx |= SCTLR_EL1_RES1;
Soby Mathewa993c422016-09-29 14:15:57 +0100172 else {
Soby Mathewa993c422016-09-29 14:15:57 +0100173 /*
David Cunadofee86532017-04-13 22:38:29 +0100174 * If the target execution state is AArch32 then the following
175 * fields need to be set.
176 *
177 * SCTRL_EL1.nTWE: Set to one so that EL0 execution of WFE
178 * instructions are not trapped to EL1.
179 *
180 * SCTLR_EL1.nTWI: Set to one so that EL0 execution of WFI
181 * instructions are not trapped to EL1.
182 *
183 * SCTLR_EL1.CP15BEN: Set to one to enable EL0 execution of the
184 * CP15DMB, CP15DSB, and CP15ISB instructions.
Soby Mathewa993c422016-09-29 14:15:57 +0100185 */
David Cunadofee86532017-04-13 22:38:29 +0100186 sctlr_elx |= SCTLR_AARCH32_EL1_RES1 | SCTLR_CP15BEN_BIT
187 | SCTLR_NTWI_BIT | SCTLR_NTWE_BIT;
Soby Mathewa993c422016-09-29 14:15:57 +0100188 }
189
Louis Mayencourt78a0aed2019-02-20 12:11:41 +0000190#if ERRATA_A75_764081
191 /*
192 * If workaround of errata 764081 for Cortex-A75 is used then set
193 * SCTLR_EL1.IESB to enable Implicit Error Synchronization Barrier.
194 */
195 sctlr_elx |= SCTLR_IESB_BIT;
196#endif
197
David Cunadofee86532017-04-13 22:38:29 +0100198 /*
199 * Store the initialised SCTLR_EL1 value in the cpu_context - SCTLR_EL2
Paul Beesley1fbc97b2019-01-11 18:26:51 +0000200 * and other EL2 registers are set up by cm_prepare_ns_entry() as they
David Cunadofee86532017-04-13 22:38:29 +0100201 * are not part of the stored cpu_context.
202 */
Andrew Thoelke4e126072014-06-04 21:10:52 +0100203 write_ctx_reg(get_sysregs_ctx(ctx), CTX_SCTLR_EL1, sctlr_elx);
204
Varun Wadekarb6dd0b32018-05-08 10:52:36 -0700205 /*
206 * Base the context ACTLR_EL1 on the current value, as it is
207 * implementation defined. The context restore process will write
208 * the value from the context to the actual register and can cause
209 * problems for processor cores that don't expect certain bits to
210 * be zero.
211 */
212 actlr_elx = read_actlr_el1();
213 write_ctx_reg((get_sysregs_ctx(ctx)), (CTX_ACTLR_EL1), (actlr_elx));
214
David Cunado4168f2f2017-10-02 17:41:39 +0100215 if (security_state == SECURE) {
216 /*
217 * Initialise PMCR_EL0 for secure context only, setting all
218 * fields rather than relying on hw. Some fields are
219 * architecturally UNKNOWN on reset.
220 *
221 * PMCR_EL0.LC: Set to one so that cycle counter overflow, that
222 * is recorded in PMOVSCLR_EL0[31], occurs on the increment
223 * that changes PMCCNTR_EL0[63] from 1 to 0.
224 *
225 * PMCR_EL0.DP: Set to one so that the cycle counter,
226 * PMCCNTR_EL0 does not count when event counting is prohibited.
227 *
228 * PMCR_EL0.X: Set to zero to disable export of events.
229 *
230 * PMCR_EL0.D: Set to zero so that, when enabled, PMCCNTR_EL0
231 * counts on every clock cycle.
232 */
233 pmcr_el0 = ((PMCR_EL0_RESET_VAL | PMCR_EL0_LC_BIT
234 | PMCR_EL0_DP_BIT)
235 & ~(PMCR_EL0_X_BIT | PMCR_EL0_D_BIT));
236 write_ctx_reg(get_sysregs_ctx(ctx), CTX_PMCR_EL0, pmcr_el0);
237 }
238
Andrew Thoelke4e126072014-06-04 21:10:52 +0100239 /* Populate EL3 state so that we've the right context before doing ERET */
240 state = get_el3state_ctx(ctx);
241 write_ctx_reg(state, CTX_SCR_EL3, scr_el3);
242 write_ctx_reg(state, CTX_ELR_EL3, ep->pc);
243 write_ctx_reg(state, CTX_SPSR_EL3, ep->spsr);
244
245 /*
246 * Store the X0-X7 value from the entrypoint into the context
247 * Use memcpy as we are in control of the layout of the structures
248 */
249 gp_regs = get_gpregs_ctx(ctx);
250 memcpy(gp_regs, (void *)&ep->args, sizeof(aapcs64_params_t));
251}
252
253/*******************************************************************************
Dimitris Papastamos1e6f93e2017-11-07 09:55:29 +0000254 * Enable architecture extensions on first entry to Non-secure world.
255 * When EL2 is implemented but unused `el2_unused` is non-zero, otherwise
256 * it is zero.
257 ******************************************************************************/
Antonio Nino Diaz033b4bb2018-10-25 16:52:26 +0100258static void enable_extensions_nonsecure(bool el2_unused)
Dimitris Papastamos1e6f93e2017-11-07 09:55:29 +0000259{
260#if IMAGE_BL31
Dimitris Papastamos5bdbb472017-10-13 12:06:06 +0100261#if ENABLE_SPE_FOR_LOWER_ELS
262 spe_enable(el2_unused);
263#endif
Dimitris Papastamose08005a2017-10-12 13:02:29 +0100264
265#if ENABLE_AMU
266 amu_enable(el2_unused);
267#endif
David Cunadoce88eee2017-10-20 11:30:57 +0100268
269#if ENABLE_SVE_FOR_NS
270 sve_enable(el2_unused);
271#endif
Jeenu Viswambharan2da918c2018-07-31 16:13:33 +0100272
273#if ENABLE_MPAM_FOR_LOWER_ELS
274 mpam_enable(el2_unused);
275#endif
Dimitris Papastamos1e6f93e2017-11-07 09:55:29 +0000276#endif
277}
278
279/*******************************************************************************
Soby Mathewb0082d22015-04-09 13:40:55 +0100280 * The following function initializes the cpu_context for a CPU specified by
281 * its `cpu_idx` for first use, and sets the initial entrypoint state as
282 * specified by the entry_point_info structure.
283 ******************************************************************************/
284void cm_init_context_by_index(unsigned int cpu_idx,
285 const entry_point_info_t *ep)
286{
287 cpu_context_t *ctx;
288 ctx = cm_get_context_by_index(cpu_idx, GET_SECURITY_STATE(ep->h.attr));
Antonio Nino Diaz28dce9e2018-05-22 10:09:10 +0100289 cm_setup_context(ctx, ep);
Soby Mathewb0082d22015-04-09 13:40:55 +0100290}
291
292/*******************************************************************************
293 * The following function initializes the cpu_context for the current CPU
294 * for first use, and sets the initial entrypoint state as specified by the
295 * entry_point_info structure.
296 ******************************************************************************/
297void cm_init_my_context(const entry_point_info_t *ep)
298{
299 cpu_context_t *ctx;
300 ctx = cm_get_context(GET_SECURITY_STATE(ep->h.attr));
Antonio Nino Diaz28dce9e2018-05-22 10:09:10 +0100301 cm_setup_context(ctx, ep);
Soby Mathewb0082d22015-04-09 13:40:55 +0100302}
303
304/*******************************************************************************
Andrew Thoelke4e126072014-06-04 21:10:52 +0100305 * Prepare the CPU system registers for first entry into secure or normal world
306 *
307 * If execution is requested to EL2 or hyp mode, SCTLR_EL2 is initialized
308 * If execution is requested to non-secure EL1 or svc mode, and the CPU supports
309 * EL2 then EL2 is disabled by configuring all necessary EL2 registers.
310 * For all entries, the EL1 registers are initialized from the cpu_context
311 ******************************************************************************/
312void cm_prepare_el3_exit(uint32_t security_state)
313{
dp-armee3457b2017-05-23 09:32:49 +0100314 uint32_t sctlr_elx, scr_el3, mdcr_el2;
Andrew Thoelke4e126072014-06-04 21:10:52 +0100315 cpu_context_t *ctx = cm_get_context(security_state);
Antonio Nino Diaz033b4bb2018-10-25 16:52:26 +0100316 bool el2_unused = false;
Antonio Nino Diaz864ca6f2018-10-31 15:25:35 +0000317 uint64_t hcr_el2 = 0U;
Andrew Thoelke4e126072014-06-04 21:10:52 +0100318
Antonio Nino Diaz864ca6f2018-10-31 15:25:35 +0000319 assert(ctx != NULL);
Andrew Thoelke4e126072014-06-04 21:10:52 +0100320
321 if (security_state == NON_SECURE) {
Antonio Nino Diaz864ca6f2018-10-31 15:25:35 +0000322 scr_el3 = (uint32_t)read_ctx_reg(get_el3state_ctx(ctx),
323 CTX_SCR_EL3);
324 if ((scr_el3 & SCR_HCE_BIT) != 0U) {
Andrew Thoelke4e126072014-06-04 21:10:52 +0100325 /* Use SCTLR_EL1.EE value to initialise sctlr_el2 */
Antonio Nino Diaz864ca6f2018-10-31 15:25:35 +0000326 sctlr_elx = (uint32_t)read_ctx_reg(get_sysregs_ctx(ctx),
327 CTX_SCTLR_EL1);
Ken Kuang00eac152017-08-23 16:03:29 +0800328 sctlr_elx &= SCTLR_EE_BIT;
Andrew Thoelke4e126072014-06-04 21:10:52 +0100329 sctlr_elx |= SCTLR_EL2_RES1;
Louis Mayencourt78a0aed2019-02-20 12:11:41 +0000330#if ERRATA_A75_764081
331 /*
332 * If workaround of errata 764081 for Cortex-A75 is used
333 * then set SCTLR_EL2.IESB to enable Implicit Error
334 * Synchronization Barrier.
335 */
336 sctlr_elx |= SCTLR_IESB_BIT;
337#endif
Andrew Thoelke4e126072014-06-04 21:10:52 +0100338 write_sctlr_el2(sctlr_elx);
Antonio Nino Diaz864ca6f2018-10-31 15:25:35 +0000339 } else if (el_implemented(2) != EL_IMPL_NONE) {
Antonio Nino Diaz033b4bb2018-10-25 16:52:26 +0100340 el2_unused = true;
Dimitris Papastamos1e6f93e2017-11-07 09:55:29 +0000341
David Cunadofee86532017-04-13 22:38:29 +0100342 /*
343 * EL2 present but unused, need to disable safely.
344 * SCTLR_EL2 can be ignored in this case.
345 *
Jeenu Viswambharancbad6612018-08-15 14:29:29 +0100346 * Set EL2 register width appropriately: Set HCR_EL2
347 * field to match SCR_EL3.RW.
David Cunadofee86532017-04-13 22:38:29 +0100348 */
Antonio Nino Diaz864ca6f2018-10-31 15:25:35 +0000349 if ((scr_el3 & SCR_RW_BIT) != 0U)
Jeenu Viswambharancbad6612018-08-15 14:29:29 +0100350 hcr_el2 |= HCR_RW_BIT;
351
352 /*
353 * For Armv8.3 pointer authentication feature, disable
354 * traps to EL2 when accessing key registers or using
355 * pointer authentication instructions from lower ELs.
356 */
357 hcr_el2 |= (HCR_API_BIT | HCR_APK_BIT);
358
359 write_hcr_el2(hcr_el2);
Andrew Thoelke4e126072014-06-04 21:10:52 +0100360
David Cunadofee86532017-04-13 22:38:29 +0100361 /*
362 * Initialise CPTR_EL2 setting all fields rather than
363 * relying on the hw. All fields have architecturally
364 * UNKNOWN reset values.
365 *
366 * CPTR_EL2.TCPAC: Set to zero so that Non-secure EL1
367 * accesses to the CPACR_EL1 or CPACR from both
368 * Execution states do not trap to EL2.
369 *
370 * CPTR_EL2.TTA: Set to zero so that Non-secure System
371 * register accesses to the trace registers from both
372 * Execution states do not trap to EL2.
373 *
374 * CPTR_EL2.TFP: Set to zero so that Non-secure accesses
375 * to SIMD and floating-point functionality from both
376 * Execution states do not trap to EL2.
377 */
378 write_cptr_el2(CPTR_EL2_RESET_VAL &
379 ~(CPTR_EL2_TCPAC_BIT | CPTR_EL2_TTA_BIT
380 | CPTR_EL2_TFP_BIT));
Andrew Thoelke4e126072014-06-04 21:10:52 +0100381
David Cunadofee86532017-04-13 22:38:29 +0100382 /*
Paul Beesley1fbc97b2019-01-11 18:26:51 +0000383 * Initialise CNTHCTL_EL2. All fields are
David Cunadofee86532017-04-13 22:38:29 +0100384 * architecturally UNKNOWN on reset and are set to zero
385 * except for field(s) listed below.
386 *
387 * CNTHCTL_EL2.EL1PCEN: Set to one to disable traps to
388 * Hyp mode of Non-secure EL0 and EL1 accesses to the
389 * physical timer registers.
390 *
391 * CNTHCTL_EL2.EL1PCTEN: Set to one to disable traps to
392 * Hyp mode of Non-secure EL0 and EL1 accesses to the
393 * physical counter registers.
394 */
395 write_cnthctl_el2(CNTHCTL_RESET_VAL |
396 EL1PCEN_BIT | EL1PCTEN_BIT);
Andrew Thoelke4e126072014-06-04 21:10:52 +0100397
David Cunadofee86532017-04-13 22:38:29 +0100398 /*
399 * Initialise CNTVOFF_EL2 to zero as it resets to an
400 * architecturally UNKNOWN value.
401 */
Soby Mathewfeddfcf2014-08-29 14:41:58 +0100402 write_cntvoff_el2(0);
403
David Cunadofee86532017-04-13 22:38:29 +0100404 /*
405 * Set VPIDR_EL2 and VMPIDR_EL2 to match MIDR_EL1 and
406 * MPIDR_EL1 respectively.
407 */
Andrew Thoelke4e126072014-06-04 21:10:52 +0100408 write_vpidr_el2(read_midr_el1());
409 write_vmpidr_el2(read_mpidr_el1());
Sandrine Bailleux8b0eafe2015-11-25 17:00:44 +0000410
411 /*
David Cunadofee86532017-04-13 22:38:29 +0100412 * Initialise VTTBR_EL2. All fields are architecturally
413 * UNKNOWN on reset.
414 *
415 * VTTBR_EL2.VMID: Set to zero. Even though EL1&0 stage
416 * 2 address translation is disabled, cache maintenance
417 * operations depend on the VMID.
418 *
419 * VTTBR_EL2.BADDR: Set to zero as EL1&0 stage 2 address
420 * translation is disabled.
Sandrine Bailleux8b0eafe2015-11-25 17:00:44 +0000421 */
David Cunadofee86532017-04-13 22:38:29 +0100422 write_vttbr_el2(VTTBR_RESET_VAL &
423 ~((VTTBR_VMID_MASK << VTTBR_VMID_SHIFT)
424 | (VTTBR_BADDR_MASK << VTTBR_BADDR_SHIFT)));
425
David Cunado5f55e282016-10-31 17:37:34 +0000426 /*
David Cunadofee86532017-04-13 22:38:29 +0100427 * Initialise MDCR_EL2, setting all fields rather than
428 * relying on hw. Some fields are architecturally
429 * UNKNOWN on reset.
430 *
431 * MDCR_EL2.TDRA: Set to zero so that Non-secure EL0 and
432 * EL1 System register accesses to the Debug ROM
433 * registers are not trapped to EL2.
434 *
435 * MDCR_EL2.TDOSA: Set to zero so that Non-secure EL1
436 * System register accesses to the powerdown debug
437 * registers are not trapped to EL2.
438 *
439 * MDCR_EL2.TDA: Set to zero so that System register
440 * accesses to the debug registers do not trap to EL2.
441 *
442 * MDCR_EL2.TDE: Set to zero so that debug exceptions
443 * are not routed to EL2.
444 *
445 * MDCR_EL2.HPME: Set to zero to disable EL2 Performance
446 * Monitors.
447 *
448 * MDCR_EL2.TPM: Set to zero so that Non-secure EL0 and
449 * EL1 accesses to all Performance Monitors registers
450 * are not trapped to EL2.
451 *
452 * MDCR_EL2.TPMCR: Set to zero so that Non-secure EL0
453 * and EL1 accesses to the PMCR_EL0 or PMCR are not
454 * trapped to EL2.
455 *
456 * MDCR_EL2.HPMN: Set to value of PMCR_EL0.N which is the
457 * architecturally-defined reset value.
David Cunado5f55e282016-10-31 17:37:34 +0000458 */
dp-armee3457b2017-05-23 09:32:49 +0100459 mdcr_el2 = ((MDCR_EL2_RESET_VAL |
David Cunadofee86532017-04-13 22:38:29 +0100460 ((read_pmcr_el0() & PMCR_EL0_N_BITS)
461 >> PMCR_EL0_N_SHIFT)) &
462 ~(MDCR_EL2_TDRA_BIT | MDCR_EL2_TDOSA_BIT
463 | MDCR_EL2_TDA_BIT | MDCR_EL2_TDE_BIT
464 | MDCR_EL2_HPME_BIT | MDCR_EL2_TPM_BIT
465 | MDCR_EL2_TPMCR_BIT));
dp-armee3457b2017-05-23 09:32:49 +0100466
dp-armee3457b2017-05-23 09:32:49 +0100467 write_mdcr_el2(mdcr_el2);
468
David Cunadoc14b08e2016-11-25 00:21:59 +0000469 /*
David Cunadofee86532017-04-13 22:38:29 +0100470 * Initialise HSTR_EL2. All fields are architecturally
471 * UNKNOWN on reset.
472 *
473 * HSTR_EL2.T<n>: Set all these fields to zero so that
474 * Non-secure EL0 or EL1 accesses to System registers
475 * do not trap to EL2.
David Cunadoc14b08e2016-11-25 00:21:59 +0000476 */
David Cunadofee86532017-04-13 22:38:29 +0100477 write_hstr_el2(HSTR_EL2_RESET_VAL & ~(HSTR_EL2_T_MASK));
David Cunadoc14b08e2016-11-25 00:21:59 +0000478 /*
David Cunadofee86532017-04-13 22:38:29 +0100479 * Initialise CNTHP_CTL_EL2. All fields are
480 * architecturally UNKNOWN on reset.
481 *
482 * CNTHP_CTL_EL2:ENABLE: Set to zero to disable the EL2
483 * physical timer and prevent timer interrupts.
David Cunadoc14b08e2016-11-25 00:21:59 +0000484 */
David Cunadofee86532017-04-13 22:38:29 +0100485 write_cnthp_ctl_el2(CNTHP_CTL_RESET_VAL &
486 ~(CNTHP_CTL_ENABLE_BIT));
Andrew Thoelke4e126072014-06-04 21:10:52 +0100487 }
Dimitris Papastamos1e6f93e2017-11-07 09:55:29 +0000488 enable_extensions_nonsecure(el2_unused);
Andrew Thoelke4e126072014-06-04 21:10:52 +0100489 }
490
Dimitris Papastamosa7921b92017-10-13 15:27:58 +0100491 cm_el1_sysregs_context_restore(security_state);
492 cm_set_next_eret_context(security_state);
Andrew Thoelke4e126072014-06-04 21:10:52 +0100493}
494
495/*******************************************************************************
Soby Mathew2ed46e92014-07-04 16:02:26 +0100496 * The next four functions are used by runtime services to save and restore
497 * EL1 context on the 'cpu_context' structure for the specified security
Achin Gupta7aea9082014-02-01 07:51:28 +0000498 * state.
499 ******************************************************************************/
Achin Gupta7aea9082014-02-01 07:51:28 +0000500void cm_el1_sysregs_context_save(uint32_t security_state)
501{
Dan Handleye2712bc2014-04-10 15:37:22 +0100502 cpu_context_t *ctx;
Achin Gupta7aea9082014-02-01 07:51:28 +0000503
Andrew Thoelkea2f65532014-05-14 17:09:32 +0100504 ctx = cm_get_context(security_state);
Antonio Nino Diaz864ca6f2018-10-31 15:25:35 +0000505 assert(ctx != NULL);
Achin Gupta7aea9082014-02-01 07:51:28 +0000506
507 el1_sysregs_context_save(get_sysregs_ctx(ctx));
Dimitris Papastamosa7921b92017-10-13 15:27:58 +0100508
509#if IMAGE_BL31
510 if (security_state == SECURE)
511 PUBLISH_EVENT(cm_exited_secure_world);
512 else
513 PUBLISH_EVENT(cm_exited_normal_world);
514#endif
Achin Gupta7aea9082014-02-01 07:51:28 +0000515}
516
517void cm_el1_sysregs_context_restore(uint32_t security_state)
518{
Dan Handleye2712bc2014-04-10 15:37:22 +0100519 cpu_context_t *ctx;
Achin Gupta7aea9082014-02-01 07:51:28 +0000520
Andrew Thoelkea2f65532014-05-14 17:09:32 +0100521 ctx = cm_get_context(security_state);
Antonio Nino Diaz864ca6f2018-10-31 15:25:35 +0000522 assert(ctx != NULL);
Achin Gupta7aea9082014-02-01 07:51:28 +0000523
524 el1_sysregs_context_restore(get_sysregs_ctx(ctx));
Dimitris Papastamosa7921b92017-10-13 15:27:58 +0100525
526#if IMAGE_BL31
527 if (security_state == SECURE)
528 PUBLISH_EVENT(cm_entering_secure_world);
529 else
530 PUBLISH_EVENT(cm_entering_normal_world);
531#endif
Achin Gupta7aea9082014-02-01 07:51:28 +0000532}
533
534/*******************************************************************************
Andrew Thoelke4e126072014-06-04 21:10:52 +0100535 * This function populates ELR_EL3 member of 'cpu_context' pertaining to the
536 * given security state with the given entrypoint
Jeenu Viswambharancaa84932014-02-06 10:36:15 +0000537 ******************************************************************************/
Soby Mathewa0fedc42016-06-16 14:52:04 +0100538void cm_set_elr_el3(uint32_t security_state, uintptr_t entrypoint)
Jeenu Viswambharancaa84932014-02-06 10:36:15 +0000539{
Dan Handleye2712bc2014-04-10 15:37:22 +0100540 cpu_context_t *ctx;
541 el3_state_t *state;
Jeenu Viswambharancaa84932014-02-06 10:36:15 +0000542
Andrew Thoelkea2f65532014-05-14 17:09:32 +0100543 ctx = cm_get_context(security_state);
Antonio Nino Diaz864ca6f2018-10-31 15:25:35 +0000544 assert(ctx != NULL);
Jeenu Viswambharancaa84932014-02-06 10:36:15 +0000545
Andrew Thoelke4e126072014-06-04 21:10:52 +0100546 /* Populate EL3 state so that ERET jumps to the correct entry */
Jeenu Viswambharancaa84932014-02-06 10:36:15 +0000547 state = get_el3state_ctx(ctx);
Jeenu Viswambharancaa84932014-02-06 10:36:15 +0000548 write_ctx_reg(state, CTX_ELR_EL3, entrypoint);
Jeenu Viswambharancaa84932014-02-06 10:36:15 +0000549}
550
551/*******************************************************************************
Andrew Thoelke4e126072014-06-04 21:10:52 +0100552 * This function populates ELR_EL3 and SPSR_EL3 members of 'cpu_context'
553 * pertaining to the given security state
Achin Gupta607084e2014-02-09 18:24:19 +0000554 ******************************************************************************/
Andrew Thoelke4e126072014-06-04 21:10:52 +0100555void cm_set_elr_spsr_el3(uint32_t security_state,
Soby Mathewa0fedc42016-06-16 14:52:04 +0100556 uintptr_t entrypoint, uint32_t spsr)
Achin Gupta607084e2014-02-09 18:24:19 +0000557{
Dan Handleye2712bc2014-04-10 15:37:22 +0100558 cpu_context_t *ctx;
559 el3_state_t *state;
Achin Gupta607084e2014-02-09 18:24:19 +0000560
Andrew Thoelkea2f65532014-05-14 17:09:32 +0100561 ctx = cm_get_context(security_state);
Antonio Nino Diaz864ca6f2018-10-31 15:25:35 +0000562 assert(ctx != NULL);
Achin Gupta607084e2014-02-09 18:24:19 +0000563
564 /* Populate EL3 state so that ERET jumps to the correct entry */
565 state = get_el3state_ctx(ctx);
566 write_ctx_reg(state, CTX_ELR_EL3, entrypoint);
Andrew Thoelke4e126072014-06-04 21:10:52 +0100567 write_ctx_reg(state, CTX_SPSR_EL3, spsr);
Achin Gupta607084e2014-02-09 18:24:19 +0000568}
569
570/*******************************************************************************
Achin Gupta27b895e2014-05-04 18:38:28 +0100571 * This function updates a single bit in the SCR_EL3 member of the 'cpu_context'
572 * pertaining to the given security state using the value and bit position
573 * specified in the parameters. It preserves all other bits.
574 ******************************************************************************/
575void cm_write_scr_el3_bit(uint32_t security_state,
576 uint32_t bit_pos,
577 uint32_t value)
578{
579 cpu_context_t *ctx;
580 el3_state_t *state;
581 uint32_t scr_el3;
582
Andrew Thoelkea2f65532014-05-14 17:09:32 +0100583 ctx = cm_get_context(security_state);
Antonio Nino Diaz864ca6f2018-10-31 15:25:35 +0000584 assert(ctx != NULL);
Achin Gupta27b895e2014-05-04 18:38:28 +0100585
586 /* Ensure that the bit position is a valid one */
Antonio Nino Diaz864ca6f2018-10-31 15:25:35 +0000587 assert(((1U << bit_pos) & SCR_VALID_BIT_MASK) != 0U);
Achin Gupta27b895e2014-05-04 18:38:28 +0100588
589 /* Ensure that the 'value' is only a bit wide */
Antonio Nino Diaz864ca6f2018-10-31 15:25:35 +0000590 assert(value <= 1U);
Achin Gupta27b895e2014-05-04 18:38:28 +0100591
592 /*
593 * Get the SCR_EL3 value from the cpu context, clear the desired bit
594 * and set it to its new value.
595 */
596 state = get_el3state_ctx(ctx);
Antonio Nino Diaz864ca6f2018-10-31 15:25:35 +0000597 scr_el3 = (uint32_t)read_ctx_reg(state, CTX_SCR_EL3);
598 scr_el3 &= ~(1U << bit_pos);
Achin Gupta27b895e2014-05-04 18:38:28 +0100599 scr_el3 |= value << bit_pos;
600 write_ctx_reg(state, CTX_SCR_EL3, scr_el3);
601}
602
603/*******************************************************************************
604 * This function retrieves SCR_EL3 member of 'cpu_context' pertaining to the
605 * given security state.
606 ******************************************************************************/
607uint32_t cm_get_scr_el3(uint32_t security_state)
608{
609 cpu_context_t *ctx;
610 el3_state_t *state;
611
Andrew Thoelkea2f65532014-05-14 17:09:32 +0100612 ctx = cm_get_context(security_state);
Antonio Nino Diaz864ca6f2018-10-31 15:25:35 +0000613 assert(ctx != NULL);
Achin Gupta27b895e2014-05-04 18:38:28 +0100614
615 /* Populate EL3 state so that ERET jumps to the correct entry */
616 state = get_el3state_ctx(ctx);
Antonio Nino Diaz864ca6f2018-10-31 15:25:35 +0000617 return (uint32_t)read_ctx_reg(state, CTX_SCR_EL3);
Achin Gupta27b895e2014-05-04 18:38:28 +0100618}
619
620/*******************************************************************************
Jeenu Viswambharancaa84932014-02-06 10:36:15 +0000621 * This function is used to program the context that's used for exception
622 * return. This initializes the SP_EL3 to a pointer to a 'cpu_context' set for
623 * the required security state
Achin Gupta7aea9082014-02-01 07:51:28 +0000624 ******************************************************************************/
625void cm_set_next_eret_context(uint32_t security_state)
626{
Dan Handleye2712bc2014-04-10 15:37:22 +0100627 cpu_context_t *ctx;
Jeenu Viswambharancaa84932014-02-06 10:36:15 +0000628
Andrew Thoelkea2f65532014-05-14 17:09:32 +0100629 ctx = cm_get_context(security_state);
Antonio Nino Diaz864ca6f2018-10-31 15:25:35 +0000630 assert(ctx != NULL);
Achin Gupta7aea9082014-02-01 07:51:28 +0000631
Andrew Thoelke4e126072014-06-04 21:10:52 +0100632 cm_set_next_context(ctx);
Achin Gupta7aea9082014-02-01 07:51:28 +0000633}