armadaxp_machdep.c revision 1.7
1 1.7 matt /* $NetBSD: armadaxp_machdep.c,v 1.7 2014/03/18 06:17:55 matt Exp $ */ 2 1.1 rkujawa /******************************************************************************* 3 1.1 rkujawa Copyright (C) Marvell International Ltd. and its affiliates 4 1.1 rkujawa 5 1.1 rkujawa Developed by Semihalf 6 1.1 rkujawa 7 1.1 rkujawa ******************************************************************************** 8 1.1 rkujawa Marvell BSD License 9 1.1 rkujawa 10 1.1 rkujawa If you received this File from Marvell, you may opt to use, redistribute and/or 11 1.1 rkujawa modify this File under the following licensing terms. 12 1.1 rkujawa Redistribution and use in source and binary forms, with or without modification, 13 1.1 rkujawa are permitted provided that the following conditions are met: 14 1.1 rkujawa 15 1.1 rkujawa * Redistributions of source code must retain the above copyright notice, 16 1.1 rkujawa this list of conditions and the following disclaimer. 17 1.1 rkujawa 18 1.1 rkujawa * Redistributions in binary form must reproduce the above copyright 19 1.1 rkujawa notice, this list of conditions and the following disclaimer in the 20 1.1 rkujawa documentation and/or other materials provided with the distribution. 21 1.1 rkujawa 22 1.1 rkujawa * Neither the name of Marvell nor the names of its contributors may be 23 1.1 rkujawa used to endorse or promote products derived from this software without 24 1.1 rkujawa specific prior written permission. 25 1.1 rkujawa 26 1.1 rkujawa THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND 27 1.1 rkujawa ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED 28 1.1 rkujawa WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE 29 1.1 rkujawa DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR 30 1.1 rkujawa ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES 31 1.1 rkujawa (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; 32 1.1 rkujawa LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON 33 1.1 rkujawa ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 34 1.1 rkujawa (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS 35 1.1 rkujawa SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 36 1.1 rkujawa 37 1.1 rkujawa *******************************************************************************/ 38 1.1 rkujawa 39 1.1 rkujawa #include <sys/cdefs.h> 40 1.7 matt __KERNEL_RCSID(0, "$NetBSD: armadaxp_machdep.c,v 1.7 2014/03/18 06:17:55 matt Exp $"); 41 1.1 rkujawa 42 1.1 rkujawa #include "opt_machdep.h" 43 1.1 rkujawa #include "opt_mvsoc.h" 44 1.1 rkujawa #include "opt_evbarm_boardtype.h" 45 1.1 rkujawa #include "opt_com.h" 46 1.1 rkujawa #include "opt_ddb.h" 47 1.1 rkujawa #include "opt_kgdb.h" 48 1.1 rkujawa #include "opt_pci.h" 49 1.1 rkujawa #include "opt_ipkdb.h" 50 1.1 rkujawa 51 1.1 rkujawa #include <sys/bus.h> 52 1.1 rkujawa #include <sys/param.h> 53 1.1 rkujawa #include <sys/device.h> 54 1.1 rkujawa #include <sys/systm.h> 55 1.1 rkujawa #include <sys/kernel.h> 56 1.1 rkujawa #include <sys/exec.h> 57 1.1 rkujawa #include <sys/proc.h> 58 1.1 rkujawa #include <sys/msgbuf.h> 59 1.1 rkujawa #include <sys/reboot.h> 60 1.1 rkujawa #include <sys/termios.h> 61 1.1 rkujawa #include <sys/ksyms.h> 62 1.1 rkujawa 63 1.1 rkujawa #include <uvm/uvm_extern.h> 64 1.1 rkujawa 65 1.1 rkujawa #include <sys/conf.h> 66 1.1 rkujawa #include <dev/cons.h> 67 1.1 rkujawa #include <dev/md.h> 68 1.1 rkujawa 69 1.1 rkujawa #include <dev/pci/pcireg.h> 70 1.1 rkujawa #include <dev/pci/pcivar.h> 71 1.1 rkujawa #include <machine/pci_machdep.h> 72 1.1 rkujawa 73 1.1 rkujawa #include <machine/db_machdep.h> 74 1.1 rkujawa #include <ddb/db_sym.h> 75 1.1 rkujawa #include <ddb/db_extern.h> 76 1.1 rkujawa #ifdef KGDB 77 1.1 rkujawa #include <sys/kgdb.h> 78 1.1 rkujawa #endif 79 1.1 rkujawa 80 1.1 rkujawa #include <machine/bootconfig.h> 81 1.1 rkujawa #include <machine/autoconf.h> 82 1.1 rkujawa #include <machine/cpu.h> 83 1.1 rkujawa #include <machine/frame.h> 84 1.1 rkujawa #include <arm/armreg.h> 85 1.1 rkujawa #include <arm/undefined.h> 86 1.1 rkujawa 87 1.1 rkujawa #include <arm/arm32/machdep.h> 88 1.1 rkujawa 89 1.1 rkujawa #include <arm/marvell/mvsocreg.h> 90 1.1 rkujawa #include <arm/marvell/mvsocvar.h> 91 1.3 kiyohara #include <arm/marvell/armadaxpreg.h> 92 1.1 rkujawa 93 1.1 rkujawa #include <evbarm/marvell/marvellreg.h> 94 1.1 rkujawa #include <evbarm/marvell/marvellvar.h> 95 1.1 rkujawa 96 1.1 rkujawa #include "mvpex.h" 97 1.1 rkujawa #include "com.h" 98 1.1 rkujawa #if NCOM > 0 99 1.1 rkujawa #include <dev/ic/comreg.h> 100 1.1 rkujawa #include <dev/ic/comvar.h> 101 1.1 rkujawa #endif 102 1.1 rkujawa 103 1.1 rkujawa /* 104 1.1 rkujawa * Address to call from cpu_reset() to reset the machine. 105 1.1 rkujawa * This is machine architecture dependent as it varies depending 106 1.1 rkujawa * on where the ROM appears when you turn the MMU off. 107 1.1 rkujawa */ 108 1.1 rkujawa 109 1.1 rkujawa 110 1.1 rkujawa /* Define various stack sizes in pages */ 111 1.1 rkujawa #define IRQ_STACK_SIZE 1 112 1.1 rkujawa #define ABT_STACK_SIZE 1 113 1.1 rkujawa #ifdef IPKDB 114 1.1 rkujawa #define UND_STACK_SIZE 2 115 1.1 rkujawa #else 116 1.1 rkujawa #define UND_STACK_SIZE 1 117 1.1 rkujawa #endif 118 1.1 rkujawa 119 1.1 rkujawa BootConfig bootconfig; /* Boot config storage */ 120 1.1 rkujawa char *boot_args = NULL; 121 1.1 rkujawa char *boot_file = NULL; 122 1.1 rkujawa 123 1.1 rkujawa extern int KERNEL_BASE_phys[]; 124 1.1 rkujawa 125 1.1 rkujawa /*extern char KERNEL_BASE_phys[];*/ 126 1.1 rkujawa extern char etext[], __data_start[], _edata[], __bss_start[], __bss_end__[]; 127 1.1 rkujawa extern char _end[]; 128 1.1 rkujawa 129 1.1 rkujawa /* 130 1.1 rkujawa * Put some bogus settings of the MEMSTART and MEMSIZE 131 1.1 rkujawa * if they are not defined in kernel configuration file. 132 1.1 rkujawa */ 133 1.1 rkujawa #ifndef MEMSTART 134 1.1 rkujawa #define MEMSTART 0x00000000UL 135 1.1 rkujawa #endif 136 1.1 rkujawa #ifndef MEMSIZE 137 1.1 rkujawa #define MEMSIZE 0x40000000UL 138 1.1 rkujawa #endif 139 1.1 rkujawa 140 1.1 rkujawa #ifndef STARTUP_PAGETABLE_ADDR 141 1.1 rkujawa #define STARTUP_PAGETABLE_ADDR 0x00000000UL 142 1.1 rkujawa #endif 143 1.1 rkujawa 144 1.1 rkujawa /* Physical offset of the kernel from MEMSTART */ 145 1.1 rkujawa #define KERNEL_OFFSET (paddr_t)&KERNEL_BASE_phys 146 1.1 rkujawa /* Kernel base virtual address */ 147 1.1 rkujawa #define KERNEL_TEXT_BASE (KERNEL_BASE + KERNEL_OFFSET) 148 1.1 rkujawa 149 1.1 rkujawa #define KERNEL_VM_BASE (KERNEL_BASE + 0x01000000) 150 1.1 rkujawa #define KERNEL_VM_SIZE 0x10000000 151 1.1 rkujawa 152 1.1 rkujawa /* Prototypes */ 153 1.3 kiyohara extern int armadaxp_l2_init(bus_addr_t); 154 1.1 rkujawa extern void armadaxp_io_coherency_init(void); 155 1.1 rkujawa 156 1.1 rkujawa void consinit(void); 157 1.1 rkujawa #ifdef KGDB 158 1.1 rkujawa static void kgdb_port_init(void); 159 1.1 rkujawa #endif 160 1.1 rkujawa 161 1.1 rkujawa static void axp_device_register(device_t dev, void *aux); 162 1.1 rkujawa 163 1.1 rkujawa static void 164 1.1 rkujawa axp_system_reset(void) 165 1.1 rkujawa { 166 1.5 kiyohara extern vaddr_t misc_base; 167 1.5 kiyohara 168 1.5 kiyohara #define write_miscreg(r, v) (*(volatile uint32_t *)(misc_base + (r)) = (v)) 169 1.5 kiyohara 170 1.1 rkujawa cpu_reset_address = 0; 171 1.1 rkujawa 172 1.1 rkujawa /* Unmask soft reset */ 173 1.5 kiyohara write_miscreg(ARMADAXP_MISC_RSTOUTNMASKR, 174 1.5 kiyohara ARMADAXP_MISC_RSTOUTNMASKR_GLOBALSOFTRSTOUTEN); 175 1.1 rkujawa /* Assert soft reset */ 176 1.5 kiyohara write_miscreg(ARMADAXP_MISC_SSRR, ARMADAXP_MISC_SSRR_GLOBALSOFTRST); 177 1.1 rkujawa 178 1.1 rkujawa while (1); 179 1.1 rkujawa } 180 1.1 rkujawa 181 1.1 rkujawa /* 182 1.1 rkujawa * Static device mappings. These peripheral registers are mapped at 183 1.1 rkujawa * fixed virtual addresses very early in initarm() so that we can use 184 1.1 rkujawa * them while booting the kernel, and stay at the same address 185 1.1 rkujawa * throughout whole kernel's life time. 186 1.1 rkujawa * 187 1.1 rkujawa * We use this table twice; once with bootstrap page table, and once 188 1.1 rkujawa * with kernel's page table which we build up in initarm(). 189 1.1 rkujawa * 190 1.1 rkujawa * Since we map these registers into the bootstrap page table using 191 1.1 rkujawa * pmap_devmap_bootstrap() which calls pmap_map_chunk(), we map 192 1.1 rkujawa * registers segment-aligned and segment-rounded in order to avoid 193 1.1 rkujawa * using the 2nd page tables. 194 1.1 rkujawa */ 195 1.1 rkujawa 196 1.1 rkujawa #define _A(a) ((a) & ~L1_S_OFFSET) 197 1.1 rkujawa #define _S(s) (((s) + L1_S_SIZE - 1) & ~(L1_S_SIZE-1)) 198 1.1 rkujawa 199 1.1 rkujawa static const struct pmap_devmap devmap[] = { 200 1.1 rkujawa { 201 1.1 rkujawa /* Internal registers */ 202 1.1 rkujawa .pd_va = _A(MARVELL_INTERREGS_VBASE), 203 1.1 rkujawa .pd_pa = _A(MARVELL_INTERREGS_PBASE), 204 1.1 rkujawa .pd_size = _S(MARVELL_INTERREGS_SIZE), 205 1.1 rkujawa .pd_prot = VM_PROT_READ|VM_PROT_WRITE, 206 1.1 rkujawa .pd_cache = PTE_NOCACHE 207 1.1 rkujawa }, 208 1.1 rkujawa {0, 0, 0, 0, 0} 209 1.1 rkujawa }; 210 1.1 rkujawa 211 1.1 rkujawa #undef _A 212 1.1 rkujawa #undef _S 213 1.1 rkujawa 214 1.1 rkujawa static inline 215 1.1 rkujawa pd_entry_t * 216 1.1 rkujawa read_ttb(void) 217 1.1 rkujawa { 218 1.1 rkujawa long ttb; 219 1.1 rkujawa 220 1.1 rkujawa __asm volatile("mrc p15, 0, %0, c2, c0, 0" : "=r" (ttb)); 221 1.1 rkujawa 222 1.1 rkujawa return (pd_entry_t *)(ttb & ~((1<<14)-1)); 223 1.1 rkujawa } 224 1.1 rkujawa 225 1.1 rkujawa static int 226 1.1 rkujawa axp_pcie_free_win(void) 227 1.1 rkujawa { 228 1.1 rkujawa int i; 229 1.1 rkujawa /* Find first disabled window */ 230 1.1 rkujawa for (i = 0; i < ARMADAXP_MLMB_NWINDOW; i++) { 231 1.1 rkujawa if ((read_mlmbreg(MVSOC_MLMB_WCR(i)) & 232 1.1 rkujawa MVSOC_MLMB_WCR_WINEN) == 0) { 233 1.1 rkujawa return i; 234 1.1 rkujawa } 235 1.1 rkujawa } 236 1.1 rkujawa /* If there is no free window, return erroneous value */ 237 1.1 rkujawa return (-1); 238 1.1 rkujawa } 239 1.1 rkujawa 240 1.1 rkujawa static void 241 1.1 rkujawa reset_axp_pcie_win(void) 242 1.1 rkujawa { 243 1.1 rkujawa uint32_t target, attr; 244 1.1 rkujawa int memtag = 0, iotag = 0, window, i; 245 1.1 rkujawa uint32_t membase; 246 1.1 rkujawa uint32_t iobase; 247 1.1 rkujawa uint32_t tags[] = { ARMADAXP_TAG_PEX00_MEM, ARMADAXP_TAG_PEX00_IO, 248 1.1 rkujawa ARMADAXP_TAG_PEX01_MEM, ARMADAXP_TAG_PEX01_IO, 249 1.1 rkujawa ARMADAXP_TAG_PEX02_MEM, ARMADAXP_TAG_PEX02_IO, 250 1.1 rkujawa ARMADAXP_TAG_PEX03_MEM, ARMADAXP_TAG_PEX03_IO, 251 1.1 rkujawa ARMADAXP_TAG_PEX2_MEM, ARMADAXP_TAG_PEX2_IO, 252 1.1 rkujawa ARMADAXP_TAG_PEX3_MEM, ARMADAXP_TAG_PEX3_IO}; 253 1.1 rkujawa 254 1.1 rkujawa nwindow = ARMADAXP_MLMB_NWINDOW; 255 1.1 rkujawa nremap = ARMADAXP_MLMB_NREMAP; 256 1.1 rkujawa membase = MARVELL_PEXMEM_PBASE; 257 1.1 rkujawa iobase = MARVELL_PEXIO_PBASE; 258 1.1 rkujawa for (i = 0; i < __arraycount(tags) / 2; i++) { 259 1.1 rkujawa memtag = tags[2 * i]; 260 1.1 rkujawa iotag = tags[(2 * i) + 1]; 261 1.1 rkujawa 262 1.1 rkujawa /* Reset PCI-Express space to window register. */ 263 1.1 rkujawa window = mvsoc_target(memtag, &target, &attr, NULL, NULL); 264 1.1 rkujawa 265 1.1 rkujawa /* Find free window if we've got spurious one */ 266 1.1 rkujawa if (window >= nwindow) { 267 1.1 rkujawa window = axp_pcie_free_win(); 268 1.1 rkujawa /* Just break if there is no free windows left */ 269 1.1 rkujawa if (window < 0) { 270 1.1 rkujawa aprint_error(": no free windows for PEX MEM\n"); 271 1.1 rkujawa break; 272 1.1 rkujawa } 273 1.1 rkujawa } 274 1.1 rkujawa write_mlmbreg(MVSOC_MLMB_WCR(window), 275 1.1 rkujawa MVSOC_MLMB_WCR_WINEN | 276 1.1 rkujawa MVSOC_MLMB_WCR_TARGET(target) | 277 1.1 rkujawa MVSOC_MLMB_WCR_ATTR(attr) | 278 1.1 rkujawa MVSOC_MLMB_WCR_SIZE(MARVELL_PEXMEM_SIZE)); 279 1.1 rkujawa write_mlmbreg(MVSOC_MLMB_WBR(window), 280 1.1 rkujawa membase & MVSOC_MLMB_WBR_BASE_MASK); 281 1.1 rkujawa #ifdef PCI_NETBSD_CONFIGURE 282 1.1 rkujawa if (window < nremap) { 283 1.1 rkujawa write_mlmbreg(MVSOC_MLMB_WRLR(window), 284 1.1 rkujawa membase & MVSOC_MLMB_WRLR_REMAP_MASK); 285 1.1 rkujawa write_mlmbreg(MVSOC_MLMB_WRHR(window), 0); 286 1.1 rkujawa } 287 1.1 rkujawa #endif 288 1.1 rkujawa window = mvsoc_target(iotag, &target, &attr, NULL, NULL); 289 1.1 rkujawa 290 1.1 rkujawa /* Find free window if we've got spurious one */ 291 1.1 rkujawa if (window >= nwindow) { 292 1.1 rkujawa window = axp_pcie_free_win(); 293 1.1 rkujawa /* Just break if there is no free windows left */ 294 1.1 rkujawa if (window < 0) { 295 1.1 rkujawa aprint_error(": no free windows for PEX I/O\n"); 296 1.1 rkujawa break; 297 1.1 rkujawa } 298 1.1 rkujawa } 299 1.1 rkujawa write_mlmbreg(MVSOC_MLMB_WCR(window), 300 1.1 rkujawa MVSOC_MLMB_WCR_WINEN | 301 1.1 rkujawa MVSOC_MLMB_WCR_TARGET(target) | 302 1.1 rkujawa MVSOC_MLMB_WCR_ATTR(attr) | 303 1.1 rkujawa MVSOC_MLMB_WCR_SIZE(MARVELL_PEXIO_SIZE)); 304 1.1 rkujawa write_mlmbreg(MVSOC_MLMB_WBR(window), 305 1.1 rkujawa iobase & MVSOC_MLMB_WBR_BASE_MASK); 306 1.1 rkujawa #ifdef PCI_NETBSD_CONFIGURE 307 1.1 rkujawa if (window < nremap) { 308 1.1 rkujawa write_mlmbreg(MVSOC_MLMB_WRLR(window), 309 1.1 rkujawa iobase & MVSOC_MLMB_WRLR_REMAP_MASK); 310 1.1 rkujawa write_mlmbreg(MVSOC_MLMB_WRHR(window), 0); 311 1.1 rkujawa } 312 1.1 rkujawa #endif 313 1.1 rkujawa membase += MARVELL_PEXMEM_SIZE; 314 1.1 rkujawa iobase += MARVELL_PEXIO_SIZE; 315 1.1 rkujawa } 316 1.1 rkujawa } 317 1.1 rkujawa 318 1.1 rkujawa /* 319 1.1 rkujawa * u_int initarm(...) 320 1.1 rkujawa * 321 1.1 rkujawa * Initial entry point on startup. This gets called before main() is 322 1.1 rkujawa * entered. 323 1.1 rkujawa * It should be responsible for setting up everything that must be 324 1.1 rkujawa * in place when main is called. 325 1.1 rkujawa * This includes 326 1.1 rkujawa * Taking a copy of the boot configuration structure. 327 1.1 rkujawa * Initialising the physical console so characters can be printed. 328 1.1 rkujawa * Setting up page tables for the kernel 329 1.1 rkujawa * Relocating the kernel to the bottom of physical memory 330 1.1 rkujawa */ 331 1.1 rkujawa u_int 332 1.1 rkujawa initarm(void *arg) 333 1.1 rkujawa { 334 1.1 rkujawa cpu_reset_address = axp_system_reset; 335 1.1 rkujawa 336 1.1 rkujawa mvsoc_bootstrap(MARVELL_INTERREGS_VBASE); 337 1.1 rkujawa 338 1.1 rkujawa /* Set CPU functions */ 339 1.1 rkujawa if (set_cpufuncs()) 340 1.1 rkujawa panic("cpu not recognized!"); 341 1.1 rkujawa 342 1.1 rkujawa /* 343 1.1 rkujawa * Map devices into the initial page table 344 1.1 rkujawa * in order to use early console during initialization process. 345 1.1 rkujawa * consinit is going to use this mapping. 346 1.1 rkujawa */ 347 1.1 rkujawa pmap_devmap_bootstrap((vaddr_t)read_ttb(), devmap); 348 1.1 rkujawa 349 1.1 rkujawa /* Initialize system console */ 350 1.1 rkujawa consinit(); 351 1.1 rkujawa 352 1.1 rkujawa /* Reset PCI-Express space to window register. */ 353 1.1 rkujawa reset_axp_pcie_win(); 354 1.1 rkujawa 355 1.1 rkujawa /* Get CPU, system and timebase frequencies */ 356 1.5 kiyohara extern vaddr_t misc_base; 357 1.5 kiyohara misc_base = MARVELL_INTERREGS_VBASE + ARMADAXP_MISC_BASE; 358 1.1 rkujawa armadaxp_getclks(); 359 1.6 kiyohara mvsoc_clkgating = armadaxp_clkgating; 360 1.1 rkujawa 361 1.1 rkujawa /* Preconfigure interrupts */ 362 1.3 kiyohara armadaxp_intr_bootstrap(MARVELL_INTERREGS_PBASE); 363 1.1 rkujawa 364 1.1 rkujawa #ifdef L2CACHE_ENABLE 365 1.1 rkujawa /* Initialize L2 Cache */ 366 1.3 kiyohara (void)armadaxp_l2_init(MARVELL_INTERREGS_PBASE); 367 1.1 rkujawa #endif 368 1.1 rkujawa 369 1.1 rkujawa #ifdef AURORA_IO_CACHE_COHERENCY 370 1.1 rkujawa /* Initialize cache coherency */ 371 1.1 rkujawa armadaxp_io_coherency_init(); 372 1.1 rkujawa #endif 373 1.1 rkujawa 374 1.1 rkujawa #ifdef KGDB 375 1.1 rkujawa kgdb_port_init(); 376 1.1 rkujawa #endif 377 1.1 rkujawa 378 1.1 rkujawa #ifdef VERBOSE_INIT_ARM 379 1.1 rkujawa /* Talk to the user */ 380 1.1 rkujawa #define BDSTR(s) _BDSTR(s) 381 1.1 rkujawa #define _BDSTR(s) #s 382 1.1 rkujawa printf("\nNetBSD/evbarm (" BDSTR(EVBARM_BOARDTYPE) ") booting ...\n"); 383 1.1 rkujawa #endif 384 1.1 rkujawa 385 1.1 rkujawa 386 1.1 rkujawa #ifdef VERBOSE_INIT_ARM 387 1.1 rkujawa printf("initarm: Configuring system ...\n"); 388 1.1 rkujawa #endif 389 1.1 rkujawa /* Fake bootconfig structure for the benefit of pmap.c. */ 390 1.1 rkujawa bootconfig.dramblocks = 1; 391 1.1 rkujawa bootconfig.dram[0].address = MEMSTART; 392 1.1 rkujawa bootconfig.dram[0].pages = MEMSIZE / PAGE_SIZE; 393 1.1 rkujawa 394 1.1 rkujawa physical_start = bootconfig.dram[0].address; 395 1.1 rkujawa physical_end = physical_start + (bootconfig.dram[0].pages * PAGE_SIZE); 396 1.1 rkujawa 397 1.1 rkujawa arm32_bootmem_init(0, physical_end, (uintptr_t) KERNEL_BASE_phys); 398 1.1 rkujawa arm32_kernel_vm_init(KERNEL_VM_BASE, ARM_VECTORS_LOW, 0, 399 1.1 rkujawa devmap, false); 400 1.1 rkujawa 401 1.1 rkujawa /* we've a specific device_register routine */ 402 1.1 rkujawa evbarm_device_register = axp_device_register; 403 1.1 rkujawa 404 1.1 rkujawa return initarm_common(KERNEL_VM_BASE, KERNEL_VM_SIZE, NULL, 0); 405 1.1 rkujawa } 406 1.1 rkujawa 407 1.1 rkujawa #ifndef CONSADDR 408 1.1 rkujawa #error Specify the address of the UART with the CONSADDR option. 409 1.1 rkujawa #endif 410 1.1 rkujawa #ifndef CONSPEED 411 1.1 rkujawa #define CONSPEED B115200 412 1.1 rkujawa #endif 413 1.1 rkujawa #ifndef CONMODE 414 1.1 rkujawa #define CONMODE ((TTYDEF_CFLAG & ~(CSIZE | CSTOPB | PARENB)) | CS8) /* 8N1 */ 415 1.1 rkujawa #endif 416 1.1 rkujawa #ifndef CONSFREQ 417 1.7 matt #define CONSFREQ 0 418 1.1 rkujawa #endif 419 1.1 rkujawa static const int comcnspeed = CONSPEED; 420 1.1 rkujawa static const int comcnfreq = CONSFREQ; 421 1.1 rkujawa static const tcflag_t comcnmode = CONMODE; 422 1.1 rkujawa static const bus_addr_t comcnaddr = (bus_addr_t)CONSADDR; 423 1.1 rkujawa 424 1.1 rkujawa void 425 1.1 rkujawa consinit(void) 426 1.1 rkujawa { 427 1.1 rkujawa static bool consinit_called = false; 428 1.1 rkujawa 429 1.1 rkujawa if (consinit_called) 430 1.1 rkujawa return; 431 1.1 rkujawa consinit_called = true; 432 1.1 rkujawa 433 1.1 rkujawa #if NCOM > 0 434 1.1 rkujawa extern int mvuart_cnattach(bus_space_tag_t, bus_addr_t, int, 435 1.1 rkujawa uint32_t, int); 436 1.1 rkujawa 437 1.1 rkujawa if (mvuart_cnattach(&mvsoc_bs_tag, comcnaddr, comcnspeed, 438 1.7 matt comcnfreq ? comcnfreq : mvTclk , comcnmode)) 439 1.1 rkujawa panic("Serial console can not be initialized."); 440 1.1 rkujawa #endif 441 1.1 rkujawa } 442 1.1 rkujawa 443 1.1 rkujawa #ifdef KGDB 444 1.1 rkujawa #ifndef KGDB_DEVADDR 445 1.1 rkujawa #error Specify the address of the kgdb UART with the KGDB_DEVADDR option. 446 1.1 rkujawa #endif 447 1.1 rkujawa #ifndef KGDB_DEVRATE 448 1.1 rkujawa #define KGDB_DEVRATE B115200 449 1.1 rkujawa #endif 450 1.1 rkujawa #define MVUART_SIZE 0x20 451 1.1 rkujawa 452 1.1 rkujawa #ifndef KGDB_DEVMODE 453 1.1 rkujawa #define KGDB_DEVMODE ((TTYDEF_CFLAG & ~(CSIZE | CSTOPB | PARENB)) | CS8) /* 8N1 */ 454 1.1 rkujawa #endif 455 1.1 rkujawa static const vaddr_t comkgdbaddr = KGDB_DEVADDR; 456 1.1 rkujawa static const int comkgdbspeed = KGDB_DEVRATE; 457 1.1 rkujawa static const int comkgdbmode = KGDB_DEVMODE; 458 1.1 rkujawa 459 1.1 rkujawa void 460 1.1 rkujawa static kgdb_port_init(void) 461 1.1 rkujawa { 462 1.1 rkujawa static int kgdbsinit_called = 0; 463 1.1 rkujawa 464 1.1 rkujawa if (kgdbsinit_called != 0) 465 1.1 rkujawa return; 466 1.1 rkujawa kgdbsinit_called = 1; 467 1.1 rkujawa 468 1.1 rkujawa if (com_kgdb_attach(&mvsoc_bs_tag, comkgdbaddr, comkgdbspeed, 469 1.1 rkujawa MVUART_SIZE, COM_TYPE_16550_NOERS, comkgdbmode)) 470 1.1 rkujawa panic("KGDB uart can not be initialized."); 471 1.1 rkujawa } 472 1.1 rkujawa #endif 473 1.1 rkujawa 474 1.1 rkujawa #if NMVPEX > 0 475 1.1 rkujawa static void 476 1.1 rkujawa marvell_startend_by_tag(int tag, uint64_t *start, uint64_t *end) 477 1.1 rkujawa { 478 1.1 rkujawa 479 1.1 rkujawa uint32_t base, size; 480 1.1 rkujawa int win; 481 1.1 rkujawa 482 1.1 rkujawa win = mvsoc_target(tag, NULL, NULL, &base, &size); 483 1.1 rkujawa if (size != 0) { 484 1.1 rkujawa if (win < nremap) 485 1.1 rkujawa *start = read_mlmbreg(MVSOC_MLMB_WRLR(win)) | 486 1.1 rkujawa ((read_mlmbreg(MVSOC_MLMB_WRHR(win)) << 16) << 16); 487 1.1 rkujawa else 488 1.1 rkujawa *start = base; 489 1.1 rkujawa *end = *start + size - 1; 490 1.1 rkujawa } else 491 1.1 rkujawa *start = *end = 0; 492 1.1 rkujawa } 493 1.1 rkujawa #endif 494 1.1 rkujawa 495 1.1 rkujawa static void 496 1.1 rkujawa axp_device_register(device_t dev, void *aux) 497 1.1 rkujawa { 498 1.1 rkujawa prop_dictionary_t dict = device_properties(dev); 499 1.1 rkujawa 500 1.1 rkujawa #if NCOM > 0 501 1.1 rkujawa if (device_is_a(dev, "com") && 502 1.1 rkujawa device_is_a(device_parent(dev), "mvsoc")) 503 1.1 rkujawa prop_dictionary_set_uint32(dict, "frequency", mvTclk); 504 1.1 rkujawa #endif 505 1.1 rkujawa 506 1.1 rkujawa #if NMVPEX > 0 507 1.1 rkujawa extern struct bus_space 508 1.1 rkujawa armadaxp_pex00_io_bs_tag, armadaxp_pex00_mem_bs_tag, 509 1.1 rkujawa armadaxp_pex01_io_bs_tag, armadaxp_pex01_mem_bs_tag, 510 1.1 rkujawa armadaxp_pex02_io_bs_tag, armadaxp_pex02_mem_bs_tag, 511 1.1 rkujawa armadaxp_pex03_io_bs_tag, armadaxp_pex03_mem_bs_tag, 512 1.1 rkujawa armadaxp_pex2_io_bs_tag, armadaxp_pex2_mem_bs_tag, 513 1.1 rkujawa armadaxp_pex3_io_bs_tag, armadaxp_pex3_mem_bs_tag; 514 1.1 rkujawa extern struct arm32_pci_chipset arm32_mvpex0_chipset, 515 1.1 rkujawa arm32_mvpex1_chipset, arm32_mvpex2_chipset, 516 1.1 rkujawa arm32_mvpex3_chipset, arm32_mvpex4_chipset, 517 1.1 rkujawa arm32_mvpex5_chipset; 518 1.1 rkujawa 519 1.1 rkujawa struct marvell_attach_args *mva = aux; 520 1.1 rkujawa 521 1.1 rkujawa if (device_is_a(dev, "mvpex")) { 522 1.1 rkujawa struct bus_space *mvpex_io_bs_tag, *mvpex_mem_bs_tag; 523 1.1 rkujawa struct arm32_pci_chipset *arm32_mvpex_chipset; 524 1.1 rkujawa prop_data_t io_bs_tag, mem_bs_tag, pc; 525 1.1 rkujawa uint64_t start, end; 526 1.1 rkujawa int iotag, memtag; 527 1.1 rkujawa 528 1.1 rkujawa if (mva->mva_offset == MVSOC_PEX_BASE) { 529 1.1 rkujawa mvpex_io_bs_tag = &armadaxp_pex00_io_bs_tag; 530 1.1 rkujawa mvpex_mem_bs_tag = &armadaxp_pex00_mem_bs_tag; 531 1.1 rkujawa arm32_mvpex_chipset = &arm32_mvpex0_chipset; 532 1.1 rkujawa iotag = ARMADAXP_TAG_PEX00_IO; 533 1.1 rkujawa memtag = ARMADAXP_TAG_PEX00_MEM; 534 1.1 rkujawa } else if (mva->mva_offset == MVSOC_PEX_BASE + 0x4000) { 535 1.1 rkujawa mvpex_io_bs_tag = &armadaxp_pex01_io_bs_tag; 536 1.1 rkujawa mvpex_mem_bs_tag = &armadaxp_pex01_mem_bs_tag; 537 1.1 rkujawa arm32_mvpex_chipset = &arm32_mvpex1_chipset; 538 1.1 rkujawa iotag = ARMADAXP_TAG_PEX01_IO; 539 1.1 rkujawa memtag = ARMADAXP_TAG_PEX01_MEM; 540 1.1 rkujawa } else if (mva->mva_offset == MVSOC_PEX_BASE + 0x8000) { 541 1.1 rkujawa mvpex_io_bs_tag = &armadaxp_pex02_io_bs_tag; 542 1.1 rkujawa mvpex_mem_bs_tag = &armadaxp_pex02_mem_bs_tag; 543 1.1 rkujawa arm32_mvpex_chipset = &arm32_mvpex2_chipset; 544 1.1 rkujawa iotag = ARMADAXP_TAG_PEX02_IO; 545 1.1 rkujawa memtag = ARMADAXP_TAG_PEX02_MEM; 546 1.1 rkujawa } else if (mva->mva_offset == MVSOC_PEX_BASE + 0xc000) { 547 1.1 rkujawa mvpex_io_bs_tag = &armadaxp_pex03_io_bs_tag; 548 1.1 rkujawa mvpex_mem_bs_tag = &armadaxp_pex03_mem_bs_tag; 549 1.1 rkujawa arm32_mvpex_chipset = &arm32_mvpex3_chipset; 550 1.1 rkujawa iotag = ARMADAXP_TAG_PEX03_IO; 551 1.1 rkujawa memtag = ARMADAXP_TAG_PEX03_MEM; 552 1.1 rkujawa } else if (mva->mva_offset == MVSOC_PEX_BASE + 0x2000) { 553 1.1 rkujawa mvpex_io_bs_tag = &armadaxp_pex2_io_bs_tag; 554 1.1 rkujawa mvpex_mem_bs_tag = &armadaxp_pex2_mem_bs_tag; 555 1.1 rkujawa arm32_mvpex_chipset = &arm32_mvpex4_chipset; 556 1.1 rkujawa iotag = ARMADAXP_TAG_PEX2_IO; 557 1.1 rkujawa memtag = ARMADAXP_TAG_PEX2_MEM; 558 1.1 rkujawa } else { 559 1.1 rkujawa mvpex_io_bs_tag = &armadaxp_pex3_io_bs_tag; 560 1.1 rkujawa mvpex_mem_bs_tag = &armadaxp_pex3_mem_bs_tag; 561 1.1 rkujawa arm32_mvpex_chipset = &arm32_mvpex5_chipset; 562 1.1 rkujawa iotag = ARMADAXP_TAG_PEX3_IO; 563 1.1 rkujawa memtag = ARMADAXP_TAG_PEX3_MEM; 564 1.1 rkujawa } 565 1.1 rkujawa 566 1.1 rkujawa arm32_mvpex_chipset->pc_conf_v = device_private(dev); 567 1.1 rkujawa arm32_mvpex_chipset->pc_intr_v = device_private(dev); 568 1.1 rkujawa 569 1.1 rkujawa io_bs_tag = prop_data_create_data_nocopy( 570 1.1 rkujawa mvpex_io_bs_tag, sizeof(struct bus_space)); 571 1.1 rkujawa KASSERT(io_bs_tag != NULL); 572 1.1 rkujawa prop_dictionary_set(dict, "io-bus-tag", io_bs_tag); 573 1.1 rkujawa prop_object_release(io_bs_tag); 574 1.1 rkujawa mem_bs_tag = prop_data_create_data_nocopy( 575 1.1 rkujawa mvpex_mem_bs_tag, sizeof(struct bus_space)); 576 1.1 rkujawa KASSERT(mem_bs_tag != NULL); 577 1.1 rkujawa prop_dictionary_set(dict, "mem-bus-tag", mem_bs_tag); 578 1.1 rkujawa prop_object_release(mem_bs_tag); 579 1.1 rkujawa 580 1.1 rkujawa pc = prop_data_create_data_nocopy(arm32_mvpex_chipset, 581 1.1 rkujawa sizeof(struct arm32_pci_chipset)); 582 1.1 rkujawa KASSERT(pc != NULL); 583 1.1 rkujawa prop_dictionary_set(dict, "pci-chipset", pc); 584 1.1 rkujawa prop_object_release(pc); 585 1.1 rkujawa 586 1.1 rkujawa marvell_startend_by_tag(iotag, &start, &end); 587 1.1 rkujawa prop_dictionary_set_uint64(dict, "iostart", start); 588 1.1 rkujawa prop_dictionary_set_uint64(dict, "ioend", end); 589 1.1 rkujawa marvell_startend_by_tag(memtag, &start, &end); 590 1.1 rkujawa prop_dictionary_set_uint64(dict, "memstart", start); 591 1.1 rkujawa prop_dictionary_set_uint64(dict, "memend", end); 592 1.1 rkujawa prop_dictionary_set_uint32(dict, 593 1.1 rkujawa "cache-line-size", arm_dcache_align); 594 1.1 rkujawa } 595 1.1 rkujawa #endif 596 1.1 rkujawa } 597
Indexes created Sat Sep 27 22:09:54 GMT 2025