arm32_machdep.c revision 1.135
1 1.135 jmcneill /* $NetBSD: arm32_machdep.c,v 1.135 2020/06/21 17:25:03 jmcneill Exp $ */ 2 1.1 chris 3 1.1 chris /* 4 1.1 chris * Copyright (c) 1994-1998 Mark Brinicombe. 5 1.1 chris * Copyright (c) 1994 Brini. 6 1.1 chris * All rights reserved. 7 1.1 chris * 8 1.1 chris * This code is derived from software written for Brini by Mark Brinicombe 9 1.1 chris * 10 1.1 chris * Redistribution and use in source and binary forms, with or without 11 1.1 chris * modification, are permitted provided that the following conditions 12 1.1 chris * are met: 13 1.1 chris * 1. Redistributions of source code must retain the above copyright 14 1.1 chris * notice, this list of conditions and the following disclaimer. 15 1.1 chris * 2. Redistributions in binary form must reproduce the above copyright 16 1.1 chris * notice, this list of conditions and the following disclaimer in the 17 1.1 chris * documentation and/or other materials provided with the distribution. 18 1.1 chris * 3. All advertising materials mentioning features or use of this software 19 1.1 chris * must display the following acknowledgement: 20 1.1 chris * This product includes software developed by Mark Brinicombe 21 1.1 chris * for the NetBSD Project. 22 1.1 chris * 4. The name of the company nor the name of the author may be used to 23 1.1 chris * endorse or promote products derived from this software without specific 24 1.1 chris * prior written permission. 25 1.1 chris * 26 1.1 chris * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR IMPLIED 27 1.1 chris * WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF 28 1.1 chris * MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 29 1.1 chris * IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, 30 1.1 chris * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES 31 1.1 chris * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR 32 1.1 chris * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 33 1.1 chris * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 34 1.1 chris * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 35 1.1 chris * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 36 1.1 chris * SUCH DAMAGE. 37 1.1 chris * 38 1.76 wiz * Machine dependent functions for kernel setup 39 1.1 chris * 40 1.1 chris * Created : 17/09/94 41 1.1 chris * Updated : 18/04/01 updated for new wscons 42 1.1 chris */ 43 1.37 lukem 44 1.37 lukem #include <sys/cdefs.h> 45 1.135 jmcneill __KERNEL_RCSID(0, "$NetBSD: arm32_machdep.c,v 1.135 2020/06/21 17:25:03 jmcneill Exp $"); 46 1.1 chris 47 1.116 skrll #include "opt_arm_debug.h" 48 1.123 skrll #include "opt_arm_start.h" 49 1.117 skrll #include "opt_fdt.h" 50 1.72 jmmv #include "opt_modular.h" 51 1.1 chris #include "opt_md.h" 52 1.123 skrll #include "opt_multiprocessor.h" 53 1.1 chris 54 1.1 chris #include <sys/param.h> 55 1.131 skrll 56 1.123 skrll #include <sys/atomic.h> 57 1.131 skrll #include <sys/buf.h> 58 1.131 skrll #include <sys/cpu.h> 59 1.131 skrll #include <sys/device.h> 60 1.131 skrll #include <sys/intr.h> 61 1.131 skrll #include <sys/ipi.h> 62 1.75 rmind #include <sys/kauth.h> 63 1.1 chris #include <sys/kernel.h> 64 1.1 chris #include <sys/mbuf.h> 65 1.131 skrll #include <sys/module.h> 66 1.1 chris #include <sys/mount.h> 67 1.1 chris #include <sys/msgbuf.h> 68 1.131 skrll #include <sys/proc.h> 69 1.131 skrll #include <sys/reboot.h> 70 1.1 chris #include <sys/sysctl.h> 71 1.131 skrll #include <sys/systm.h> 72 1.83 matt #include <sys/xcall.h> 73 1.1 chris 74 1.77 skrll #include <uvm/uvm_extern.h> 75 1.77 skrll 76 1.1 chris #include <dev/cons.h> 77 1.75 rmind #include <dev/mm.h> 78 1.1 chris 79 1.96 matt #include <arm/locore.h> 80 1.96 matt 81 1.9 chris #include <arm/arm32/machdep.h> 82 1.81 matt 83 1.1 chris #include <machine/bootconfig.h> 84 1.81 matt #include <machine/pcb.h> 85 1.81 matt 86 1.117 skrll #if defined(FDT) 87 1.117 skrll #include <arm/fdt/arm_fdtvar.h> 88 1.117 skrll #include <arch/evbarm/fdt/platform.h> 89 1.117 skrll #endif 90 1.117 skrll 91 1.116 skrll #ifdef VERBOSE_INIT_ARM 92 1.124 skrll #define VPRINTF(...) printf(__VA_ARGS__) 93 1.124 skrll #ifdef __HAVE_GENERIC_START 94 1.123 skrll void generic_prints(const char *); 95 1.123 skrll void generic_printx(int); 96 1.123 skrll #define VPRINTS(s) generic_prints(s) 97 1.123 skrll #define VPRINTX(x) generic_printx(x) 98 1.116 skrll #else 99 1.124 skrll #define VPRINTS(s) __nothing 100 1.124 skrll #define VPRINTX(x) __nothing 101 1.124 skrll #endif 102 1.124 skrll #else 103 1.122 skrll #define VPRINTF(...) __nothing 104 1.123 skrll #define VPRINTS(s) __nothing 105 1.123 skrll #define VPRINTX(x) __nothing 106 1.116 skrll #endif 107 1.116 skrll 108 1.82 matt void (*cpu_reset_address)(void); /* Used by locore */ 109 1.82 matt paddr_t cpu_reset_address_paddr; /* Used by locore */ 110 1.1 chris 111 1.1 chris struct vm_map *phys_map = NULL; 112 1.1 chris 113 1.74 hannken #if defined(MEMORY_DISK_HOOKS) && !defined(MEMORY_DISK_ROOT_SIZE) 114 1.24 jdolecek extern size_t md_root_size; /* Memory disc size */ 115 1.74 hannken #endif /* MEMORY_DISK_HOOKS && !MEMORY_DISK_ROOT_SIZE */ 116 1.1 chris 117 1.1 chris pv_addr_t kernelstack; 118 1.79 matt pv_addr_t abtstack; 119 1.79 matt pv_addr_t fiqstack; 120 1.79 matt pv_addr_t irqstack; 121 1.79 matt pv_addr_t undstack; 122 1.83 matt pv_addr_t idlestack; 123 1.1 chris 124 1.48 christos void * msgbufaddr; 125 1.1 chris extern paddr_t msgbufphys; 126 1.1 chris 127 1.1 chris int kernel_debug = 0; 128 1.99 matt int cpu_printfataltraps = 0; 129 1.90 matt int cpu_fpu_present; 130 1.97 matt int cpu_hwdiv_present; 131 1.91 matt int cpu_neon_present; 132 1.91 matt int cpu_simd_present; 133 1.91 matt int cpu_simdex_present; 134 1.92 matt int cpu_umull_present; 135 1.101 matt int cpu_synchprim_present; 136 1.108 martin int cpu_unaligned_sigbus; 137 1.92 matt const char *cpu_arch = ""; 138 1.91 matt 139 1.91 matt int cpu_instruction_set_attributes[6]; 140 1.91 matt int cpu_memory_model_features[4]; 141 1.91 matt int cpu_processor_features[2]; 142 1.91 matt int cpu_media_and_vfp_features[2]; 143 1.1 chris 144 1.12 reinoud /* exported variable to be filled in by the bootloaders */ 145 1.1 chris char *booted_kernel; 146 1.1 chris 147 1.1 chris /* Prototypes */ 148 1.1 chris 149 1.63 dsl void data_abort_handler(trapframe_t *frame); 150 1.63 dsl void prefetch_abort_handler(trapframe_t *frame); 151 1.63 dsl extern void configure(void); 152 1.1 chris 153 1.1 chris /* 154 1.22 thorpej * arm32_vector_init: 155 1.22 thorpej * 156 1.22 thorpej * Initialize the vector page, and select whether or not to 157 1.22 thorpej * relocate the vectors. 158 1.22 thorpej * 159 1.22 thorpej * NOTE: We expect the vector page to be mapped at its expected 160 1.22 thorpej * destination. 161 1.22 thorpej */ 162 1.22 thorpej void 163 1.22 thorpej arm32_vector_init(vaddr_t va, int which) 164 1.22 thorpej { 165 1.94 matt #if defined(CPU_ARMV7) || defined(CPU_ARM11) || defined(ARM_HAS_VBAR) 166 1.93 matt /* 167 1.93 matt * If this processor has the security extension, don't bother 168 1.93 matt * to move/map the vector page. Simply point VBAR to the copy 169 1.93 matt * that exists in the .text segment. 170 1.93 matt */ 171 1.94 matt #ifndef ARM_HAS_VBAR 172 1.93 matt if (va == ARM_VECTORS_LOW 173 1.95 matt && (armreg_pfr1_read() & ARM_PFR1_SEC_MASK) != 0) { 174 1.94 matt #endif 175 1.93 matt extern const uint32_t page0rel[]; 176 1.93 matt vector_page = (vaddr_t)page0rel; 177 1.93 matt KASSERT((vector_page & 0x1f) == 0); 178 1.93 matt armreg_vbar_write(vector_page); 179 1.116 skrll VPRINTF(" vbar=%p", page0rel); 180 1.93 matt cpu_control(CPU_CONTROL_VECRELOC, 0); 181 1.93 matt return; 182 1.94 matt #ifndef ARM_HAS_VBAR 183 1.93 matt } 184 1.93 matt #endif 185 1.94 matt #endif 186 1.94 matt #ifndef ARM_HAS_VBAR 187 1.83 matt if (CPU_IS_PRIMARY(curcpu())) { 188 1.83 matt extern unsigned int page0[], page0_data[]; 189 1.83 matt unsigned int *vectors = (int *) va; 190 1.83 matt unsigned int *vectors_data = vectors + (page0_data - page0); 191 1.83 matt int vec; 192 1.22 thorpej 193 1.83 matt /* 194 1.83 matt * Loop through the vectors we're taking over, and copy the 195 1.83 matt * vector's insn and data word. 196 1.83 matt */ 197 1.83 matt for (vec = 0; vec < ARM_NVEC; vec++) { 198 1.83 matt if ((which & (1 << vec)) == 0) { 199 1.83 matt /* Don't want to take over this vector. */ 200 1.83 matt continue; 201 1.83 matt } 202 1.83 matt vectors[vec] = page0[vec]; 203 1.83 matt vectors_data[vec] = page0_data[vec]; 204 1.22 thorpej } 205 1.22 thorpej 206 1.83 matt /* Now sync the vectors. */ 207 1.83 matt cpu_icache_sync_range(va, (ARM_NVEC * 2) * sizeof(u_int)); 208 1.22 thorpej 209 1.83 matt vector_page = va; 210 1.83 matt } 211 1.30 scw 212 1.30 scw if (va == ARM_VECTORS_HIGH) { 213 1.30 scw /* 214 1.30 scw * Assume the MD caller knows what it's doing here, and 215 1.30 scw * really does want the vector page relocated. 216 1.30 scw * 217 1.30 scw * Note: This has to be done here (and not just in 218 1.30 scw * cpu_setup()) because the vector page needs to be 219 1.30 scw * accessible *before* cpu_startup() is called. 220 1.30 scw * Think ddb(9) ... 221 1.32 thorpej * 222 1.32 thorpej * NOTE: If the CPU control register is not readable, 223 1.32 thorpej * this will totally fail! We'll just assume that 224 1.32 thorpej * any system that has high vector support has a 225 1.32 thorpej * readable CPU control register, for now. If we 226 1.32 thorpej * ever encounter one that does not, we'll have to 227 1.32 thorpej * rethink this. 228 1.30 scw */ 229 1.30 scw cpu_control(CPU_CONTROL_VECRELOC, CPU_CONTROL_VECRELOC); 230 1.30 scw } 231 1.94 matt #endif 232 1.22 thorpej } 233 1.22 thorpej 234 1.22 thorpej /* 235 1.1 chris * Debug function just to park the CPU 236 1.1 chris */ 237 1.1 chris 238 1.1 chris void 239 1.65 cegger halt(void) 240 1.1 chris { 241 1.1 chris while (1) 242 1.1 chris cpu_sleep(0); 243 1.1 chris } 244 1.1 chris 245 1.1 chris 246 1.88 jmcneill /* Sync the discs, unmount the filesystems, and adjust the todr */ 247 1.1 chris 248 1.1 chris void 249 1.1 chris bootsync(void) 250 1.1 chris { 251 1.58 matt static bool bootsyncdone = false; 252 1.1 chris 253 1.1 chris if (bootsyncdone) return; 254 1.1 chris 255 1.58 matt bootsyncdone = true; 256 1.1 chris 257 1.1 chris /* Make sure we can still manage to do things */ 258 1.1 chris if (GetCPSR() & I32_bit) { 259 1.1 chris /* 260 1.1 chris * If we get here then boot has been called without RB_NOSYNC 261 1.1 chris * and interrupts were disabled. This means the boot() call 262 1.1 chris * did not come from a user process e.g. shutdown, but must 263 1.1 chris * have come from somewhere in the kernel. 264 1.1 chris */ 265 1.1 chris IRQenable; 266 1.1 chris printf("Warning IRQ's disabled during boot()\n"); 267 1.1 chris } 268 1.1 chris 269 1.1 chris vfs_shutdown(); 270 1.88 jmcneill 271 1.88 jmcneill resettodr(); 272 1.1 chris } 273 1.1 chris 274 1.1 chris /* 275 1.1 chris * void cpu_startup(void) 276 1.1 chris * 277 1.113 skrll * Machine dependent startup code. 278 1.1 chris * 279 1.1 chris */ 280 1.1 chris void 281 1.58 matt cpu_startup(void) 282 1.1 chris { 283 1.42 pk vaddr_t minaddr; 284 1.42 pk vaddr_t maxaddr; 285 1.1 chris 286 1.123 skrll #ifndef __HAVE_GENERIC_START 287 1.43 wiz /* Set the CPU control register */ 288 1.1 chris cpu_setup(boot_args); 289 1.123 skrll #endif 290 1.1 chris 291 1.94 matt #ifndef ARM_HAS_VBAR 292 1.1 chris /* Lock down zero page */ 293 1.22 thorpej vector_page_setprot(VM_PROT_READ); 294 1.94 matt #endif 295 1.1 chris 296 1.1 chris /* 297 1.1 chris * Give pmap a chance to set up a few more things now the vm 298 1.1 chris * is initialised 299 1.1 chris */ 300 1.1 chris pmap_postinit(); 301 1.1 chris 302 1.121 jmcneill #ifdef FDT 303 1.121 jmcneill if (arm_fdt_platform()->ap_startup != NULL) 304 1.121 jmcneill arm_fdt_platform()->ap_startup(); 305 1.121 jmcneill #endif 306 1.121 jmcneill 307 1.1 chris /* 308 1.1 chris * Initialize error message buffer (at end of core). 309 1.1 chris */ 310 1.1 chris 311 1.1 chris /* msgbufphys was setup during the secondary boot strap */ 312 1.103 matt if (!pmap_extract(pmap_kernel(), (vaddr_t)msgbufaddr, NULL)) { 313 1.103 matt for (u_int loop = 0; loop < btoc(MSGBUFSIZE); ++loop) { 314 1.103 matt pmap_kenter_pa((vaddr_t)msgbufaddr + loop * PAGE_SIZE, 315 1.103 matt msgbufphys + loop * PAGE_SIZE, 316 1.103 matt VM_PROT_READ|VM_PROT_WRITE, 0); 317 1.103 matt } 318 1.103 matt } 319 1.5 chris pmap_update(pmap_kernel()); 320 1.1 chris initmsgbuf(msgbufaddr, round_page(MSGBUFSIZE)); 321 1.1 chris 322 1.1 chris /* 323 1.120 skrll * Allocate a submap for physio 324 1.1 chris */ 325 1.42 pk minaddr = 0; 326 1.1 chris phys_map = uvm_km_suballoc(kernel_map, &minaddr, &maxaddr, 327 1.47 thorpej VM_PHYS_SIZE, 0, false, NULL); 328 1.1 chris 329 1.120 skrll banner(); 330 1.1 chris 331 1.114 skrll /* 332 1.114 skrll * This is actually done by initarm_common, but not all ports use it 333 1.114 skrll * yet so do it here to catch them as well 334 1.114 skrll */ 335 1.81 matt struct lwp * const l = &lwp0; 336 1.81 matt struct pcb * const pcb = lwp_getpcb(l); 337 1.114 skrll 338 1.114 skrll /* Zero out the PCB. */ 339 1.114 skrll memset(pcb, 0, sizeof(*pcb)); 340 1.114 skrll 341 1.86 matt pcb->pcb_ksp = uvm_lwp_getuarea(l) + USPACE_SVC_STACK_TOP; 342 1.114 skrll pcb->pcb_ksp -= sizeof(struct trapframe); 343 1.114 skrll 344 1.114 skrll struct trapframe * tf = (struct trapframe *)pcb->pcb_ksp; 345 1.114 skrll 346 1.114 skrll /* Zero out the trapframe. */ 347 1.114 skrll memset(tf, 0, sizeof(*tf)); 348 1.114 skrll lwp_settrapframe(l, tf); 349 1.114 skrll 350 1.114 skrll #if defined(__ARMEB__) 351 1.114 skrll tf->tf_spsr = PSR_USR32_MODE | (CPU_IS_ARMV7_P() ? PSR_E_BIT : 0); 352 1.114 skrll #else 353 1.114 skrll tf->tf_spsr = PSR_USR32_MODE; 354 1.114 skrll #endif 355 1.129 riastrad 356 1.129 riastrad cpu_startup_hook(); 357 1.129 riastrad } 358 1.129 riastrad 359 1.129 riastrad __weak_alias(cpu_startup_hook,cpu_startup_default) 360 1.129 riastrad void 361 1.129 riastrad cpu_startup_default(void) 362 1.129 riastrad { 363 1.1 chris } 364 1.1 chris 365 1.1 chris /* 366 1.1 chris * machine dependent system variables. 367 1.1 chris */ 368 1.39 atatat static int 369 1.39 atatat sysctl_machdep_booted_device(SYSCTLFN_ARGS) 370 1.39 atatat { 371 1.39 atatat struct sysctlnode node; 372 1.39 atatat 373 1.39 atatat if (booted_device == NULL) 374 1.134 skrll return EOPNOTSUPP; 375 1.39 atatat 376 1.39 atatat node = *rnode; 377 1.85 chs node.sysctl_data = __UNCONST(device_xname(booted_device)); 378 1.85 chs node.sysctl_size = strlen(device_xname(booted_device)) + 1; 379 1.134 skrll return sysctl_lookup(SYSCTLFN_CALL(&node)); 380 1.39 atatat } 381 1.1 chris 382 1.39 atatat static int 383 1.39 atatat sysctl_machdep_booted_kernel(SYSCTLFN_ARGS) 384 1.1 chris { 385 1.39 atatat struct sysctlnode node; 386 1.39 atatat 387 1.39 atatat if (booted_kernel == NULL || booted_kernel[0] == '\0') 388 1.134 skrll return EOPNOTSUPP; 389 1.1 chris 390 1.39 atatat node = *rnode; 391 1.39 atatat node.sysctl_data = booted_kernel; 392 1.39 atatat node.sysctl_size = strlen(booted_kernel) + 1; 393 1.134 skrll return sysctl_lookup(SYSCTLFN_CALL(&node)); 394 1.39 atatat } 395 1.25 thorpej 396 1.39 atatat static int 397 1.92 matt sysctl_machdep_cpu_arch(SYSCTLFN_ARGS) 398 1.92 matt { 399 1.92 matt struct sysctlnode node = *rnode; 400 1.92 matt node.sysctl_data = __UNCONST(cpu_arch); 401 1.92 matt node.sysctl_size = strlen(cpu_arch) + 1; 402 1.92 matt return sysctl_lookup(SYSCTLFN_CALL(&node)); 403 1.92 matt } 404 1.92 matt 405 1.92 matt static int 406 1.39 atatat sysctl_machdep_powersave(SYSCTLFN_ARGS) 407 1.39 atatat { 408 1.39 atatat struct sysctlnode node = *rnode; 409 1.39 atatat int error, newval; 410 1.25 thorpej 411 1.39 atatat newval = cpu_do_powersave; 412 1.39 atatat node.sysctl_data = &newval; 413 1.39 atatat if (cpufuncs.cf_sleep == (void *) cpufunc_nullop) 414 1.44 atatat node.sysctl_flags &= ~CTLFLAG_READWRITE; 415 1.39 atatat error = sysctl_lookup(SYSCTLFN_CALL(&node)); 416 1.39 atatat if (error || newp == NULL || newval == cpu_do_powersave) 417 1.134 skrll return error; 418 1.39 atatat 419 1.39 atatat if (newval < 0 || newval > 1) 420 1.134 skrll return EINVAL; 421 1.39 atatat cpu_do_powersave = newval; 422 1.25 thorpej 423 1.134 skrll return 0; 424 1.39 atatat } 425 1.25 thorpej 426 1.39 atatat SYSCTL_SETUP(sysctl_machdep_setup, "sysctl machdep subtree setup") 427 1.39 atatat { 428 1.1 chris 429 1.44 atatat sysctl_createv(clog, 0, NULL, NULL, 430 1.44 atatat CTLFLAG_PERMANENT, 431 1.39 atatat CTLTYPE_NODE, "machdep", NULL, 432 1.39 atatat NULL, 0, NULL, 0, 433 1.39 atatat CTL_MACHDEP, CTL_EOL); 434 1.39 atatat 435 1.44 atatat sysctl_createv(clog, 0, NULL, NULL, 436 1.44 atatat CTLFLAG_PERMANENT|CTLFLAG_READWRITE, 437 1.40 atatat CTLTYPE_INT, "debug", NULL, 438 1.39 atatat NULL, 0, &kernel_debug, 0, 439 1.41 rearnsha CTL_MACHDEP, CPU_DEBUG, CTL_EOL); 440 1.44 atatat sysctl_createv(clog, 0, NULL, NULL, 441 1.44 atatat CTLFLAG_PERMANENT, 442 1.39 atatat CTLTYPE_STRING, "booted_device", NULL, 443 1.39 atatat sysctl_machdep_booted_device, 0, NULL, 0, 444 1.39 atatat CTL_MACHDEP, CPU_BOOTED_DEVICE, CTL_EOL); 445 1.44 atatat sysctl_createv(clog, 0, NULL, NULL, 446 1.44 atatat CTLFLAG_PERMANENT, 447 1.39 atatat CTLTYPE_STRING, "booted_kernel", NULL, 448 1.39 atatat sysctl_machdep_booted_kernel, 0, NULL, 0, 449 1.39 atatat CTL_MACHDEP, CPU_BOOTED_KERNEL, CTL_EOL); 450 1.44 atatat sysctl_createv(clog, 0, NULL, NULL, 451 1.44 atatat CTLFLAG_PERMANENT, 452 1.39 atatat CTLTYPE_STRUCT, "console_device", NULL, 453 1.39 atatat sysctl_consdev, 0, NULL, sizeof(dev_t), 454 1.39 atatat CTL_MACHDEP, CPU_CONSDEV, CTL_EOL); 455 1.44 atatat sysctl_createv(clog, 0, NULL, NULL, 456 1.92 matt CTLFLAG_PERMANENT, 457 1.92 matt CTLTYPE_STRING, "cpu_arch", NULL, 458 1.92 matt sysctl_machdep_cpu_arch, 0, NULL, 0, 459 1.92 matt CTL_MACHDEP, CTL_CREATE, CTL_EOL); 460 1.92 matt sysctl_createv(clog, 0, NULL, NULL, 461 1.44 atatat CTLFLAG_PERMANENT|CTLFLAG_READWRITE, 462 1.39 atatat CTLTYPE_INT, "powersave", NULL, 463 1.39 atatat sysctl_machdep_powersave, 0, &cpu_do_powersave, 0, 464 1.39 atatat CTL_MACHDEP, CPU_POWERSAVE, CTL_EOL); 465 1.90 matt sysctl_createv(clog, 0, NULL, NULL, 466 1.91 matt CTLFLAG_PERMANENT|CTLFLAG_IMMEDIATE, 467 1.91 matt CTLTYPE_INT, "cpu_id", NULL, 468 1.91 matt NULL, curcpu()->ci_arm_cpuid, NULL, 0, 469 1.91 matt CTL_MACHDEP, CTL_CREATE, CTL_EOL); 470 1.91 matt #ifdef FPU_VFP 471 1.91 matt sysctl_createv(clog, 0, NULL, NULL, 472 1.91 matt CTLFLAG_PERMANENT|CTLFLAG_READONLY, 473 1.91 matt CTLTYPE_INT, "fpu_id", NULL, 474 1.132 skrll NULL, 0, &cpu_info_store[0].ci_vfp_id, 0, 475 1.91 matt CTL_MACHDEP, CTL_CREATE, CTL_EOL); 476 1.91 matt #endif 477 1.91 matt sysctl_createv(clog, 0, NULL, NULL, 478 1.90 matt CTLFLAG_PERMANENT|CTLFLAG_READONLY, 479 1.90 matt CTLTYPE_INT, "fpu_present", NULL, 480 1.90 matt NULL, 0, &cpu_fpu_present, 0, 481 1.90 matt CTL_MACHDEP, CTL_CREATE, CTL_EOL); 482 1.91 matt sysctl_createv(clog, 0, NULL, NULL, 483 1.91 matt CTLFLAG_PERMANENT|CTLFLAG_READONLY, 484 1.97 matt CTLTYPE_INT, "hwdiv_present", NULL, 485 1.97 matt NULL, 0, &cpu_hwdiv_present, 0, 486 1.97 matt CTL_MACHDEP, CTL_CREATE, CTL_EOL); 487 1.97 matt sysctl_createv(clog, 0, NULL, NULL, 488 1.97 matt CTLFLAG_PERMANENT|CTLFLAG_READONLY, 489 1.91 matt CTLTYPE_INT, "neon_present", NULL, 490 1.91 matt NULL, 0, &cpu_neon_present, 0, 491 1.91 matt CTL_MACHDEP, CTL_CREATE, CTL_EOL); 492 1.91 matt sysctl_createv(clog, 0, NULL, NULL, 493 1.91 matt CTLFLAG_PERMANENT|CTLFLAG_READONLY, 494 1.91 matt CTLTYPE_STRUCT, "id_isar", NULL, 495 1.91 matt NULL, 0, 496 1.91 matt cpu_instruction_set_attributes, 497 1.91 matt sizeof(cpu_instruction_set_attributes), 498 1.91 matt CTL_MACHDEP, CTL_CREATE, CTL_EOL); 499 1.91 matt sysctl_createv(clog, 0, NULL, NULL, 500 1.91 matt CTLFLAG_PERMANENT|CTLFLAG_READONLY, 501 1.91 matt CTLTYPE_STRUCT, "id_mmfr", NULL, 502 1.91 matt NULL, 0, 503 1.91 matt cpu_memory_model_features, 504 1.91 matt sizeof(cpu_memory_model_features), 505 1.91 matt CTL_MACHDEP, CTL_CREATE, CTL_EOL); 506 1.91 matt sysctl_createv(clog, 0, NULL, NULL, 507 1.91 matt CTLFLAG_PERMANENT|CTLFLAG_READONLY, 508 1.91 matt CTLTYPE_STRUCT, "id_pfr", NULL, 509 1.91 matt NULL, 0, 510 1.91 matt cpu_processor_features, 511 1.91 matt sizeof(cpu_processor_features), 512 1.91 matt CTL_MACHDEP, CTL_CREATE, CTL_EOL); 513 1.91 matt sysctl_createv(clog, 0, NULL, NULL, 514 1.91 matt CTLFLAG_PERMANENT|CTLFLAG_READONLY, 515 1.91 matt CTLTYPE_STRUCT, "id_mvfr", NULL, 516 1.91 matt NULL, 0, 517 1.91 matt cpu_media_and_vfp_features, 518 1.91 matt sizeof(cpu_media_and_vfp_features), 519 1.91 matt CTL_MACHDEP, CTL_CREATE, CTL_EOL); 520 1.91 matt sysctl_createv(clog, 0, NULL, NULL, 521 1.91 matt CTLFLAG_PERMANENT|CTLFLAG_READONLY, 522 1.91 matt CTLTYPE_INT, "simd_present", NULL, 523 1.91 matt NULL, 0, &cpu_simd_present, 0, 524 1.91 matt CTL_MACHDEP, CTL_CREATE, CTL_EOL); 525 1.91 matt sysctl_createv(clog, 0, NULL, NULL, 526 1.91 matt CTLFLAG_PERMANENT|CTLFLAG_READONLY, 527 1.91 matt CTLTYPE_INT, "simdex_present", NULL, 528 1.91 matt NULL, 0, &cpu_simdex_present, 0, 529 1.91 matt CTL_MACHDEP, CTL_CREATE, CTL_EOL); 530 1.99 matt sysctl_createv(clog, 0, NULL, NULL, 531 1.101 matt CTLFLAG_PERMANENT|CTLFLAG_READONLY, 532 1.101 matt CTLTYPE_INT, "synchprim_present", NULL, 533 1.101 matt NULL, 0, &cpu_synchprim_present, 0, 534 1.101 matt CTL_MACHDEP, CTL_CREATE, CTL_EOL); 535 1.101 matt sysctl_createv(clog, 0, NULL, NULL, 536 1.99 matt CTLFLAG_PERMANENT|CTLFLAG_READWRITE, 537 1.99 matt CTLTYPE_INT, "printfataltraps", NULL, 538 1.99 matt NULL, 0, &cpu_printfataltraps, 0, 539 1.99 matt CTL_MACHDEP, CTL_CREATE, CTL_EOL); 540 1.108 martin cpu_unaligned_sigbus = !CPU_IS_ARMV6_P() && !CPU_IS_ARMV7_P(); 541 1.108 martin sysctl_createv(clog, 0, NULL, NULL, 542 1.108 martin CTLFLAG_PERMANENT|CTLFLAG_READONLY, 543 1.108 martin CTLTYPE_INT, "unaligned_sigbus", 544 1.108 martin SYSCTL_DESCR("Do SIGBUS for fixed unaligned accesses"), 545 1.108 martin NULL, 0, &cpu_unaligned_sigbus, 0, 546 1.108 martin CTL_MACHDEP, CTL_CREATE, CTL_EOL); 547 1.1 chris } 548 1.1 chris 549 1.1 chris void 550 1.64 dsl parse_mi_bootargs(char *args) 551 1.1 chris { 552 1.1 chris int integer; 553 1.1 chris 554 1.1 chris if (get_bootconf_option(args, "single", BOOTOPT_TYPE_BOOLEAN, &integer) 555 1.1 chris || get_bootconf_option(args, "-s", BOOTOPT_TYPE_BOOLEAN, &integer)) 556 1.1 chris if (integer) 557 1.1 chris boothowto |= RB_SINGLE; 558 1.1 chris if (get_bootconf_option(args, "kdb", BOOTOPT_TYPE_BOOLEAN, &integer) 559 1.89 skrll || get_bootconf_option(args, "-k", BOOTOPT_TYPE_BOOLEAN, &integer) 560 1.89 skrll || get_bootconf_option(args, "-d", BOOTOPT_TYPE_BOOLEAN, &integer)) 561 1.1 chris if (integer) 562 1.1 chris boothowto |= RB_KDB; 563 1.1 chris if (get_bootconf_option(args, "ask", BOOTOPT_TYPE_BOOLEAN, &integer) 564 1.1 chris || get_bootconf_option(args, "-a", BOOTOPT_TYPE_BOOLEAN, &integer)) 565 1.1 chris if (integer) 566 1.1 chris boothowto |= RB_ASKNAME; 567 1.1 chris 568 1.1 chris /* if (get_bootconf_option(args, "nbuf", BOOTOPT_TYPE_INT, &integer)) 569 1.1 chris bufpages = integer;*/ 570 1.1 chris 571 1.74 hannken #if defined(MEMORY_DISK_HOOKS) && !defined(MEMORY_DISK_ROOT_SIZE) 572 1.1 chris if (get_bootconf_option(args, "memorydisc", BOOTOPT_TYPE_INT, &integer) 573 1.1 chris || get_bootconf_option(args, "memorydisk", BOOTOPT_TYPE_INT, &integer)) { 574 1.24 jdolecek md_root_size = integer; 575 1.24 jdolecek md_root_size *= 1024; 576 1.24 jdolecek if (md_root_size < 32*1024) 577 1.24 jdolecek md_root_size = 32*1024; 578 1.24 jdolecek if (md_root_size > 2048*1024) 579 1.24 jdolecek md_root_size = 2048*1024; 580 1.1 chris } 581 1.74 hannken #endif /* MEMORY_DISK_HOOKS && !MEMORY_DISK_ROOT_SIZE */ 582 1.1 chris 583 1.1 chris if (get_bootconf_option(args, "quiet", BOOTOPT_TYPE_BOOLEAN, &integer) 584 1.1 chris || get_bootconf_option(args, "-q", BOOTOPT_TYPE_BOOLEAN, &integer)) 585 1.1 chris if (integer) 586 1.1 chris boothowto |= AB_QUIET; 587 1.1 chris if (get_bootconf_option(args, "verbose", BOOTOPT_TYPE_BOOLEAN, &integer) 588 1.1 chris || get_bootconf_option(args, "-v", BOOTOPT_TYPE_BOOLEAN, &integer)) 589 1.1 chris if (integer) 590 1.1 chris boothowto |= AB_VERBOSE; 591 1.109 bouyer if (get_bootconf_option(args, "debug", BOOTOPT_TYPE_BOOLEAN, &integer) 592 1.109 bouyer || get_bootconf_option(args, "-x", BOOTOPT_TYPE_BOOLEAN, &integer)) 593 1.109 bouyer if (integer) 594 1.109 bouyer boothowto |= AB_DEBUG; 595 1.1 chris } 596 1.49 yamt 597 1.56 matt #ifdef __HAVE_FAST_SOFTINTS 598 1.56 matt #if IPL_SOFTSERIAL != IPL_SOFTNET + 1 599 1.56 matt #error IPLs are screwed up 600 1.58 matt #elif IPL_SOFTNET != IPL_SOFTBIO + 1 601 1.58 matt #error IPLs are screwed up 602 1.58 matt #elif IPL_SOFTBIO != IPL_SOFTCLOCK + 1 603 1.56 matt #error IPLs are screwed up 604 1.58 matt #elif !(IPL_SOFTCLOCK > IPL_NONE) 605 1.56 matt #error IPLs are screwed up 606 1.58 matt #elif (IPL_NONE != 0) 607 1.56 matt #error IPLs are screwed up 608 1.56 matt #endif 609 1.58 matt 610 1.83 matt #ifndef __HAVE_PIC_FAST_SOFTINTS 611 1.56 matt #define SOFTINT2IPLMAP \ 612 1.58 matt (((IPL_SOFTSERIAL - IPL_SOFTCLOCK) << (SOFTINT_SERIAL * 4)) | \ 613 1.58 matt ((IPL_SOFTNET - IPL_SOFTCLOCK) << (SOFTINT_NET * 4)) | \ 614 1.58 matt ((IPL_SOFTBIO - IPL_SOFTCLOCK) << (SOFTINT_BIO * 4)) | \ 615 1.58 matt ((IPL_SOFTCLOCK - IPL_SOFTCLOCK) << (SOFTINT_CLOCK * 4))) 616 1.56 matt #define SOFTINT2IPL(l) ((SOFTINT2IPLMAP >> ((l) * 4)) & 0x0f) 617 1.56 matt 618 1.56 matt /* 619 1.56 matt * This returns a mask of softint IPLs that be dispatch at <ipl> 620 1.59 matt * SOFTIPLMASK(IPL_NONE) = 0x0000000f 621 1.59 matt * SOFTIPLMASK(IPL_SOFTCLOCK) = 0x0000000e 622 1.59 matt * SOFTIPLMASK(IPL_SOFTBIO) = 0x0000000c 623 1.59 matt * SOFTIPLMASK(IPL_SOFTNET) = 0x00000008 624 1.59 matt * SOFTIPLMASK(IPL_SOFTSERIAL) = 0x00000000 625 1.56 matt */ 626 1.78 skrll #define SOFTIPLMASK(ipl) ((0x0f << (ipl)) & 0x0f) 627 1.56 matt 628 1.56 matt void softint_switch(lwp_t *, int); 629 1.56 matt 630 1.56 matt void 631 1.56 matt softint_trigger(uintptr_t mask) 632 1.56 matt { 633 1.56 matt curcpu()->ci_softints |= mask; 634 1.56 matt } 635 1.56 matt 636 1.56 matt void 637 1.56 matt softint_init_md(lwp_t *l, u_int level, uintptr_t *machdep) 638 1.56 matt { 639 1.83 matt lwp_t ** lp = &l->l_cpu->ci_softlwps[level]; 640 1.56 matt KASSERT(*lp == NULL || *lp == l); 641 1.56 matt *lp = l; 642 1.56 matt *machdep = 1 << SOFTINT2IPL(level); 643 1.59 matt KASSERT(level != SOFTINT_CLOCK || *machdep == (1 << (IPL_SOFTCLOCK - IPL_SOFTCLOCK))); 644 1.59 matt KASSERT(level != SOFTINT_BIO || *machdep == (1 << (IPL_SOFTBIO - IPL_SOFTCLOCK))); 645 1.59 matt KASSERT(level != SOFTINT_NET || *machdep == (1 << (IPL_SOFTNET - IPL_SOFTCLOCK))); 646 1.59 matt KASSERT(level != SOFTINT_SERIAL || *machdep == (1 << (IPL_SOFTSERIAL - IPL_SOFTCLOCK))); 647 1.56 matt } 648 1.53 mrg 649 1.56 matt void 650 1.56 matt dosoftints(void) 651 1.56 matt { 652 1.56 matt struct cpu_info * const ci = curcpu(); 653 1.56 matt const int opl = ci->ci_cpl; 654 1.56 matt const uint32_t softiplmask = SOFTIPLMASK(opl); 655 1.56 matt 656 1.77 skrll splhigh(); 657 1.56 matt for (;;) { 658 1.56 matt u_int softints = ci->ci_softints & softiplmask; 659 1.59 matt KASSERT((softints != 0) == ((ci->ci_softints >> opl) != 0)); 660 1.77 skrll KASSERT(opl == IPL_NONE || (softints & (1 << (opl - IPL_SOFTCLOCK))) == 0); 661 1.77 skrll if (softints == 0) { 662 1.77 skrll splx(opl); 663 1.56 matt return; 664 1.77 skrll } 665 1.56 matt #define DOSOFTINT(n) \ 666 1.77 skrll if (ci->ci_softints & (1 << (IPL_SOFT ## n - IPL_SOFTCLOCK))) { \ 667 1.58 matt ci->ci_softints &= \ 668 1.58 matt ~(1 << (IPL_SOFT ## n - IPL_SOFTCLOCK)); \ 669 1.56 matt softint_switch(ci->ci_softlwps[SOFTINT_ ## n], \ 670 1.56 matt IPL_SOFT ## n); \ 671 1.56 matt continue; \ 672 1.56 matt } 673 1.56 matt DOSOFTINT(SERIAL); 674 1.56 matt DOSOFTINT(NET); 675 1.56 matt DOSOFTINT(BIO); 676 1.56 matt DOSOFTINT(CLOCK); 677 1.56 matt panic("dosoftints wtf (softints=%u?, ipl=%d)", softints, opl); 678 1.56 matt } 679 1.53 mrg } 680 1.83 matt #endif /* !__HAVE_PIC_FAST_SOFTINTS */ 681 1.56 matt #endif /* __HAVE_FAST_SOFTINTS */ 682 1.72 jmmv 683 1.72 jmmv #ifdef MODULAR 684 1.72 jmmv /* 685 1.72 jmmv * Push any modules loaded by the boot loader. 686 1.72 jmmv */ 687 1.72 jmmv void 688 1.72 jmmv module_init_md(void) 689 1.72 jmmv { 690 1.135 jmcneill #ifdef FDT 691 1.135 jmcneill arm_fdt_module_init(); 692 1.135 jmcneill #endif 693 1.72 jmmv } 694 1.72 jmmv #endif /* MODULAR */ 695 1.75 rmind 696 1.75 rmind int 697 1.75 rmind mm_md_physacc(paddr_t pa, vm_prot_t prot) 698 1.75 rmind { 699 1.110 ryo if (pa >= physical_start && pa < physical_end) 700 1.110 ryo return 0; 701 1.75 rmind 702 1.110 ryo return kauth_authorize_machdep(kauth_cred_get(), 703 1.110 ryo KAUTH_MACHDEP_UNMANAGEDMEM, NULL, NULL, NULL, NULL); 704 1.75 rmind } 705 1.83 matt 706 1.83 matt #ifdef __HAVE_CPU_UAREA_ALLOC_IDLELWP 707 1.83 matt vaddr_t 708 1.83 matt cpu_uarea_alloc_idlelwp(struct cpu_info *ci) 709 1.83 matt { 710 1.125 skrll const vaddr_t va = idlestack.pv_va + cpu_index(ci) * USPACE; 711 1.83 matt // printf("%s: %s: va=%lx\n", __func__, ci->ci_data.cpu_name, va); 712 1.83 matt return va; 713 1.83 matt } 714 1.83 matt #endif 715 1.83 matt 716 1.83 matt #ifdef MULTIPROCESSOR 717 1.123 skrll /* 718 1.123 skrll * Initialise a secondary processor. 719 1.123 skrll * 720 1.123 skrll * printf isn't available to us for a number of reasons. 721 1.123 skrll * 722 1.126 skrll * - kprint_init has been called and printf will try to take locks which we 723 1.126 skrll * can't do just yet because bootstrap translation tables do not allowing 724 1.126 skrll * caching. 725 1.123 skrll * 726 1.123 skrll * - kmutex(9) relies on curcpu which isn't setup yet. 727 1.123 skrll * 728 1.123 skrll */ 729 1.123 skrll void 730 1.125 skrll cpu_init_secondary_processor(int cpuindex) 731 1.123 skrll { 732 1.130 msaitoh // pmap_kernel has been successfully built and we can switch to it 733 1.123 skrll cpu_domains(DOMAIN_DEFAULT); 734 1.123 skrll cpu_idcache_wbinv_all(); 735 1.123 skrll 736 1.125 skrll VPRINTS("index: "); 737 1.125 skrll VPRINTX(cpuindex); 738 1.123 skrll VPRINTS(" ttb"); 739 1.123 skrll 740 1.123 skrll cpu_setup(boot_args); 741 1.123 skrll 742 1.123 skrll #ifdef ARM_MMU_EXTENDED 743 1.123 skrll /* 744 1.123 skrll * TTBCR should have been initialized by the MD start code. 745 1.123 skrll */ 746 1.123 skrll KASSERT((armreg_contextidr_read() & 0xff) == 0); 747 1.123 skrll KASSERT(armreg_ttbcr_read() == __SHIFTIN(1, TTBCR_S_N)); 748 1.123 skrll /* 749 1.123 skrll * Disable lookups via TTBR0 until there is an activated pmap. 750 1.123 skrll */ 751 1.123 skrll 752 1.123 skrll armreg_ttbcr_write(armreg_ttbcr_read() | TTBCR_S_PD0); 753 1.123 skrll cpu_setttb(pmap_kernel()->pm_l1_pa , KERNEL_PID); 754 1.123 skrll arm_isb(); 755 1.123 skrll #else 756 1.123 skrll cpu_setttb(pmap_kernel()->pm_l1->l1_physaddr, true); 757 1.123 skrll #endif 758 1.123 skrll 759 1.123 skrll cpu_tlb_flushID(); 760 1.123 skrll 761 1.123 skrll VPRINTS(" (TTBR0="); 762 1.123 skrll VPRINTX(armreg_ttbr_read()); 763 1.123 skrll VPRINTS(")"); 764 1.123 skrll 765 1.123 skrll #ifdef ARM_MMU_EXTENDED 766 1.123 skrll VPRINTS(" (TTBR1="); 767 1.123 skrll VPRINTX(armreg_ttbr1_read()); 768 1.123 skrll VPRINTS(")"); 769 1.123 skrll VPRINTS(" (TTBCR="); 770 1.123 skrll VPRINTX(armreg_ttbcr_read()); 771 1.125 skrll VPRINTS(")"); 772 1.123 skrll #endif 773 1.123 skrll 774 1.132 skrll VPRINTS(" hatched|="); 775 1.132 skrll VPRINTX(__BIT(cpuindex)); 776 1.125 skrll VPRINTS("\n\r"); 777 1.123 skrll 778 1.132 skrll cpu_set_hatched(cpuindex); 779 1.127 skrll 780 1.127 skrll /* return to assembly to wait for cpu_boot_secondary_processors */ 781 1.123 skrll } 782 1.123 skrll 783 1.83 matt void 784 1.83 matt xc_send_ipi(struct cpu_info *ci) 785 1.83 matt { 786 1.83 matt KASSERT(kpreempt_disabled()); 787 1.83 matt KASSERT(curcpu() != ci); 788 1.83 matt 789 1.102 matt intr_ipi_send(ci != NULL ? ci->ci_kcpuset : NULL, IPI_XCALL); 790 1.83 matt } 791 1.105 rmind 792 1.105 rmind void 793 1.105 rmind cpu_ipi(struct cpu_info *ci) 794 1.105 rmind { 795 1.105 rmind KASSERT(kpreempt_disabled()); 796 1.105 rmind KASSERT(curcpu() != ci); 797 1.105 rmind 798 1.105 rmind intr_ipi_send(ci != NULL ? ci->ci_kcpuset : NULL, IPI_GENERIC); 799 1.105 rmind } 800 1.105 rmind 801 1.83 matt #endif /* MULTIPROCESSOR */ 802 1.87 matt 803 1.87 matt #ifdef __HAVE_MM_MD_DIRECT_MAPPED_PHYS 804 1.87 matt bool 805 1.87 matt mm_md_direct_mapped_phys(paddr_t pa, vaddr_t *vap) 806 1.87 matt { 807 1.104 matt bool rv; 808 1.104 matt vaddr_t va = pmap_direct_mapped_phys(pa, &rv, 0); 809 1.104 matt if (rv) { 810 1.104 matt *vap = va; 811 1.87 matt } 812 1.104 matt return rv; 813 1.87 matt } 814 1.87 matt #endif 815 1.111 skrll 816 1.111 skrll bool 817 1.111 skrll mm_md_page_color(paddr_t pa, int *colorp) 818 1.111 skrll { 819 1.112 mrg #if (ARM_MMU_V6 + ARM_MMU_V7) != 0 820 1.111 skrll *colorp = atop(pa & arm_cache_prefer_mask); 821 1.111 skrll 822 1.111 skrll return arm_cache_prefer_mask ? false : true; 823 1.112 mrg #else 824 1.112 mrg *colorp = 0; 825 1.112 mrg 826 1.112 mrg return true; 827 1.112 mrg #endif 828 1.111 skrll } 829 1.117 skrll 830 1.117 skrll #if defined(FDT) 831 1.117 skrll extern char KERNEL_BASE_phys[]; 832 1.117 skrll #define KERNEL_BASE_PHYS ((paddr_t)KERNEL_BASE_phys) 833 1.117 skrll 834 1.117 skrll void 835 1.117 skrll cpu_kernel_vm_init(paddr_t memory_start, psize_t memory_size) 836 1.117 skrll { 837 1.117 skrll const struct arm_platform *plat = arm_fdt_platform(); 838 1.117 skrll 839 1.117 skrll #ifdef __HAVE_MM_MD_DIRECT_MAPPED_PHYS 840 1.117 skrll const bool mapallmem_p = true; 841 1.117 skrll #ifndef PMAP_NEED_ALLOC_POOLPAGE 842 1.117 skrll if (memory_size > KERNEL_VM_BASE - KERNEL_BASE) { 843 1.117 skrll VPRINTF("%s: dropping RAM size from %luMB to %uMB\n", 844 1.117 skrll __func__, (unsigned long) (memory_size >> 20), 845 1.117 skrll (KERNEL_VM_BASE - KERNEL_BASE) >> 20); 846 1.117 skrll memory_size = KERNEL_VM_BASE - KERNEL_BASE; 847 1.117 skrll } 848 1.117 skrll #endif 849 1.117 skrll #else 850 1.117 skrll const bool mapallmem_p = false; 851 1.117 skrll #endif 852 1.117 skrll 853 1.123 skrll VPRINTF("%s: kernel phys start %" PRIxPADDR " end %" PRIxPADDR "\n", 854 1.128 skrll __func__, memory_start, memory_start + memory_size); 855 1.123 skrll 856 1.117 skrll arm32_bootmem_init(memory_start, memory_size, KERNEL_BASE_PHYS); 857 1.117 skrll arm32_kernel_vm_init(KERNEL_VM_BASE, ARM_VECTORS_HIGH, 0, 858 1.118 skrll plat->ap_devmap(), mapallmem_p); 859 1.117 skrll } 860 1.117 skrll #endif 861 1.117 skrll 862
Indexes created Sun Sep 28 16:09:52 GMT 2025