armadaxp.c revision 1.4
1 1.4 kiyohara /* $NetBSD: armadaxp.c,v 1.4 2013/11/20 12:16:47 kiyohara 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 1.4 kiyohara __KERNEL_RCSID(0, "$NetBSD: armadaxp.c,v 1.4 2013/11/20 12:16:47 kiyohara Exp $"); 41 1.1 rkujawa 42 1.1 rkujawa #define _INTR_PRIVATE 43 1.1 rkujawa 44 1.1 rkujawa #include "opt_mvsoc.h" 45 1.1 rkujawa 46 1.1 rkujawa #include <sys/param.h> 47 1.1 rkujawa #include <sys/bus.h> 48 1.1 rkujawa 49 1.1 rkujawa #include <machine/intr.h> 50 1.1 rkujawa 51 1.1 rkujawa #include <arm/pic/picvar.h> 52 1.1 rkujawa #include <arm/pic/picvar.h> 53 1.1 rkujawa 54 1.1 rkujawa #include <arm/armreg.h> 55 1.1 rkujawa #include <arm/cpu.h> 56 1.1 rkujawa #include <arm/cpufunc.h> 57 1.1 rkujawa 58 1.1 rkujawa #include <arm/marvell/mvsocreg.h> 59 1.1 rkujawa #include <arm/marvell/mvsocvar.h> 60 1.3 kiyohara #include <arm/marvell/armadaxpreg.h> 61 1.1 rkujawa 62 1.1 rkujawa #include <dev/marvell/marvellreg.h> 63 1.1 rkujawa 64 1.1 rkujawa #define EXTRACT_CPU_FREQ_FIELD(sar) (((0x01 & (sar >> 52)) << 3) | \ 65 1.1 rkujawa (0x07 & (sar >> 21))) 66 1.1 rkujawa #define EXTRACT_FAB_FREQ_FIELD(sar) (((0x01 & (sar >> 51)) << 4) | \ 67 1.1 rkujawa (0x0F & (sar >> 24))) 68 1.1 rkujawa 69 1.1 rkujawa #define MPIC_WRITE(reg, val) (bus_space_write_4(&mvsoc_bs_tag, \ 70 1.1 rkujawa mpic_handle, reg, val)) 71 1.1 rkujawa #define MPIC_CPU_WRITE(reg, val) (bus_space_write_4(&mvsoc_bs_tag, \ 72 1.1 rkujawa mpic_cpu_handle, reg, val)) 73 1.1 rkujawa 74 1.1 rkujawa #define MPIC_READ(reg) (bus_space_read_4(&mvsoc_bs_tag, \ 75 1.1 rkujawa mpic_handle, reg)) 76 1.1 rkujawa #define MPIC_CPU_READ(reg) (bus_space_read_4(&mvsoc_bs_tag, \ 77 1.1 rkujawa mpic_cpu_handle, reg)) 78 1.1 rkujawa 79 1.1 rkujawa #define L2_WRITE(reg, val) (bus_space_write_4(&mvsoc_bs_tag, \ 80 1.1 rkujawa l2_handle, reg, val)) 81 1.1 rkujawa #define L2_READ(reg) (bus_space_read_4(&mvsoc_bs_tag, \ 82 1.1 rkujawa l2_handle, reg)) 83 1.1 rkujawa bus_space_handle_t mpic_cpu_handle; 84 1.1 rkujawa static bus_space_handle_t mpic_handle, l2_handle; 85 1.1 rkujawa int l2cache_state = 0; 86 1.1 rkujawa int iocc_state = 0; 87 1.1 rkujawa 88 1.1 rkujawa extern void (*mvsoc_intr_init)(void); 89 1.1 rkujawa static void armadaxp_intr_init(void); 90 1.1 rkujawa 91 1.1 rkujawa static void armadaxp_pic_unblock_irqs(struct pic_softc *, size_t, uint32_t); 92 1.1 rkujawa static void armadaxp_pic_block_irqs(struct pic_softc *, size_t, uint32_t); 93 1.1 rkujawa static void armadaxp_pic_establish_irq(struct pic_softc *, struct intrsource *); 94 1.4 kiyohara static void armadaxp_pic_set_priority(struct pic_softc *, int); 95 1.1 rkujawa 96 1.4 kiyohara static int armadaxp_find_pending_irqs(void); 97 1.4 kiyohara static void armadaxp_pic_block_irq(struct pic_softc *, size_t); 98 1.1 rkujawa void armadaxp_io_coherency_init(void); 99 1.3 kiyohara int armadaxp_l2_init(bus_addr_t); 100 1.1 rkujawa 101 1.1 rkujawa struct vco_freq_ratio { 102 1.1 rkujawa uint8_t vco_cpu; /* VCO to CLK0(CPU) clock ratio */ 103 1.1 rkujawa uint8_t vco_l2c; /* VCO to NB(L2 cache) clock ratio */ 104 1.1 rkujawa uint8_t vco_hcl; /* VCO to HCLK(DDR controller) clock ratio */ 105 1.1 rkujawa uint8_t vco_ddr; /* VCO to DR(DDR memory) clock ratio */ 106 1.1 rkujawa }; 107 1.1 rkujawa 108 1.1 rkujawa static struct vco_freq_ratio freq_conf_table[] = { 109 1.1 rkujawa /*00*/ { 1, 1, 4, 2 }, 110 1.1 rkujawa /*01*/ { 1, 2, 2, 2 }, 111 1.1 rkujawa /*02*/ { 2, 2, 6, 3 }, 112 1.1 rkujawa /*03*/ { 2, 2, 3, 3 }, 113 1.1 rkujawa /*04*/ { 1, 2, 3, 3 }, 114 1.1 rkujawa /*05*/ { 1, 2, 4, 2 }, 115 1.1 rkujawa /*06*/ { 1, 1, 2, 2 }, 116 1.1 rkujawa /*07*/ { 2, 3, 6, 6 }, 117 1.1 rkujawa /*08*/ { 2, 3, 5, 5 }, 118 1.1 rkujawa /*09*/ { 1, 2, 6, 3 }, 119 1.1 rkujawa /*10*/ { 2, 4, 10, 5 }, 120 1.1 rkujawa /*11*/ { 1, 3, 6, 6 }, 121 1.1 rkujawa /*12*/ { 1, 2, 5, 5 }, 122 1.1 rkujawa /*13*/ { 1, 3, 6, 3 }, 123 1.1 rkujawa /*14*/ { 1, 2, 5, 5 }, 124 1.1 rkujawa /*15*/ { 2, 2, 5, 5 }, 125 1.1 rkujawa /*16*/ { 1, 1, 3, 3 }, 126 1.1 rkujawa /*17*/ { 2, 5, 10, 10 }, 127 1.1 rkujawa /*18*/ { 1, 3, 8, 4 }, 128 1.1 rkujawa /*19*/ { 1, 1, 2, 1 }, 129 1.1 rkujawa /*20*/ { 2, 3, 6, 3 }, 130 1.1 rkujawa /*21*/ { 1, 2, 8, 4 }, 131 1.1 rkujawa /*22*/ { 2, 5, 10, 5 } 132 1.1 rkujawa }; 133 1.1 rkujawa 134 1.1 rkujawa static uint16_t cpu_clock_table[] = { 135 1.1 rkujawa 1000, 1066, 1200, 1333, 1500, 1666, 1800, 2000, 600, 667, 800, 1600, 136 1.1 rkujawa 2133, 2200, 2400 }; 137 1.1 rkujawa 138 1.1 rkujawa static struct pic_ops armadaxp_picops = { 139 1.1 rkujawa .pic_unblock_irqs = armadaxp_pic_unblock_irqs, 140 1.1 rkujawa .pic_block_irqs = armadaxp_pic_block_irqs, 141 1.1 rkujawa .pic_establish_irq = armadaxp_pic_establish_irq, 142 1.4 kiyohara .pic_set_priority = armadaxp_pic_set_priority, 143 1.1 rkujawa }; 144 1.1 rkujawa 145 1.1 rkujawa static struct pic_softc armadaxp_pic = { 146 1.1 rkujawa .pic_ops = &armadaxp_picops, 147 1.1 rkujawa .pic_name = "armadaxp", 148 1.1 rkujawa }; 149 1.1 rkujawa 150 1.1 rkujawa /* 151 1.1 rkujawa * armadaxp_intr_bootstrap: 152 1.1 rkujawa * 153 1.1 rkujawa * Initialize the rest of the interrupt subsystem, making it 154 1.1 rkujawa * ready to handle interrupts from devices. 155 1.1 rkujawa */ 156 1.1 rkujawa void 157 1.3 kiyohara armadaxp_intr_bootstrap(bus_addr_t pbase) 158 1.1 rkujawa { 159 1.1 rkujawa int i; 160 1.1 rkujawa 161 1.1 rkujawa /* Map MPIC base and MPIC percpu base registers */ 162 1.3 kiyohara if (bus_space_map(&mvsoc_bs_tag, pbase + ARMADAXP_MLMB_MPIC_BASE, 163 1.3 kiyohara 0x500, 0, &mpic_handle) != 0) 164 1.1 rkujawa panic("%s: Could not map MPIC registers", __func__); 165 1.3 kiyohara if (bus_space_map(&mvsoc_bs_tag, pbase + ARMADAXP_MLMB_MPIC_CPU_BASE, 166 1.3 kiyohara 0x800, 0, &mpic_cpu_handle) != 0) 167 1.1 rkujawa panic("%s: Could not map MPIC percpu registers", __func__); 168 1.1 rkujawa 169 1.1 rkujawa /* Disable all interrupts */ 170 1.1 rkujawa for (i = 0; i < 116; i++) 171 1.1 rkujawa MPIC_WRITE(ARMADAXP_MLMB_MPIC_ICE, i); 172 1.1 rkujawa 173 1.1 rkujawa mvsoc_intr_init = armadaxp_intr_init; 174 1.1 rkujawa } 175 1.1 rkujawa 176 1.1 rkujawa static void 177 1.1 rkujawa armadaxp_intr_init(void) 178 1.1 rkujawa { 179 1.1 rkujawa int ctrl; 180 1.1 rkujawa 181 1.1 rkujawa /* Get max interrupts */ 182 1.1 rkujawa armadaxp_pic.pic_maxsources = 183 1.1 rkujawa ((MPIC_READ(ARMADAXP_MLMB_MPIC_CTRL) >> 2) & 0x7FF); 184 1.1 rkujawa 185 1.1 rkujawa if (!armadaxp_pic.pic_maxsources) 186 1.1 rkujawa armadaxp_pic.pic_maxsources = 116; 187 1.1 rkujawa 188 1.1 rkujawa pic_add(&armadaxp_pic, 0); 189 1.1 rkujawa 190 1.1 rkujawa ctrl = MPIC_READ(ARMADAXP_MLMB_MPIC_CTRL); 191 1.1 rkujawa /* Enable IRQ prioritization */ 192 1.1 rkujawa ctrl |= (1 << 0); 193 1.1 rkujawa MPIC_WRITE(ARMADAXP_MLMB_MPIC_CTRL, ctrl); 194 1.4 kiyohara 195 1.4 kiyohara find_pending_irqs = armadaxp_find_pending_irqs; 196 1.1 rkujawa } 197 1.1 rkujawa 198 1.1 rkujawa static void 199 1.1 rkujawa armadaxp_pic_unblock_irqs(struct pic_softc *pic, size_t irqbase, 200 1.1 rkujawa uint32_t irq_mask) 201 1.1 rkujawa { 202 1.1 rkujawa int n; 203 1.1 rkujawa 204 1.1 rkujawa while (irq_mask != 0) { 205 1.1 rkujawa n = ffs(irq_mask) - 1; 206 1.1 rkujawa KASSERT(pic->pic_maxsources >= n + irqbase); 207 1.1 rkujawa MPIC_WRITE(ARMADAXP_MLMB_MPIC_ISE, n + irqbase); 208 1.1 rkujawa MPIC_CPU_WRITE(ARMADAXP_MLMB_MPIC_ICM, n + irqbase); 209 1.1 rkujawa if ((n + irqbase) == 0) 210 1.1 rkujawa MPIC_CPU_WRITE(ARMADAXP_MLMB_MPIC_DOORBELL_MASK, 211 1.1 rkujawa 0xffffffff); 212 1.1 rkujawa irq_mask &= ~__BIT(n); 213 1.1 rkujawa } 214 1.1 rkujawa } 215 1.1 rkujawa 216 1.1 rkujawa static void 217 1.1 rkujawa armadaxp_pic_block_irqs(struct pic_softc *pic, size_t irqbase, 218 1.1 rkujawa uint32_t irq_mask) 219 1.1 rkujawa { 220 1.1 rkujawa int n; 221 1.1 rkujawa 222 1.1 rkujawa while (irq_mask != 0) { 223 1.1 rkujawa n = ffs(irq_mask) - 1; 224 1.1 rkujawa KASSERT(pic->pic_maxsources >= n + irqbase); 225 1.1 rkujawa MPIC_WRITE(ARMADAXP_MLMB_MPIC_ICE, n + irqbase); 226 1.1 rkujawa MPIC_CPU_WRITE(ARMADAXP_MLMB_MPIC_ISM, n + irqbase); 227 1.1 rkujawa irq_mask &= ~__BIT(n); 228 1.1 rkujawa } 229 1.1 rkujawa } 230 1.1 rkujawa 231 1.1 rkujawa static void 232 1.1 rkujawa armadaxp_pic_establish_irq(struct pic_softc *pic, struct intrsource *is) 233 1.1 rkujawa { 234 1.1 rkujawa int tmp; 235 1.1 rkujawa KASSERT(pic->pic_maxsources >= is->is_irq); 236 1.1 rkujawa tmp = MPIC_READ(ARMADAXP_MLMB_MPIC_ISCR_BASE + is->is_irq * 4); 237 1.1 rkujawa /* Clear previous priority */ 238 1.1 rkujawa tmp &= ~(0xf << MPIC_ISCR_SHIFT); 239 1.1 rkujawa MPIC_WRITE(ARMADAXP_MLMB_MPIC_ISCR_BASE + is->is_irq * 4, 240 1.1 rkujawa tmp | (is->is_ipl << MPIC_ISCR_SHIFT)); 241 1.1 rkujawa } 242 1.1 rkujawa 243 1.4 kiyohara static void 244 1.4 kiyohara armadaxp_pic_set_priority(struct pic_softc *pic, int ipl) 245 1.4 kiyohara { 246 1.4 kiyohara int ctp; 247 1.4 kiyohara 248 1.4 kiyohara ctp = MPIC_CPU_READ(ARMADAXP_MLMB_MPIC_CTP); 249 1.4 kiyohara ctp &= ~(0xf << MPIC_CTP_SHIFT); 250 1.4 kiyohara ctp |= (ipl << MPIC_CTP_SHIFT); 251 1.4 kiyohara MPIC_CPU_WRITE(ARMADAXP_MLMB_MPIC_CTP, ctp); 252 1.4 kiyohara } 253 1.4 kiyohara 254 1.4 kiyohara static int 255 1.4 kiyohara armadaxp_find_pending_irqs(void) 256 1.1 rkujawa { 257 1.1 rkujawa struct intrsource *is; 258 1.1 rkujawa int irq; 259 1.1 rkujawa 260 1.1 rkujawa irq = MPIC_CPU_READ(ARMADAXP_MLMB_MPIC_IIACK) & 0x3ff; 261 1.1 rkujawa 262 1.1 rkujawa /* Is it a spurious interrupt ?*/ 263 1.1 rkujawa if (irq == 0x3ff) 264 1.4 kiyohara return 0; 265 1.1 rkujawa is = armadaxp_pic.pic_sources[irq]; 266 1.4 kiyohara if (is == NULL) { 267 1.4 kiyohara printf("stray interrupt: %d\n", irq); 268 1.4 kiyohara return 0; 269 1.1 rkujawa } 270 1.4 kiyohara 271 1.4 kiyohara armadaxp_pic_block_irq(&armadaxp_pic, irq); 272 1.4 kiyohara pic_mark_pending(&armadaxp_pic, irq); 273 1.4 kiyohara 274 1.4 kiyohara return is->is_ipl; 275 1.4 kiyohara } 276 1.4 kiyohara 277 1.4 kiyohara static void 278 1.4 kiyohara armadaxp_pic_block_irq(struct pic_softc *pic, size_t irq) 279 1.4 kiyohara { 280 1.4 kiyohara 281 1.4 kiyohara KASSERT(pic->pic_maxsources >= irq); 282 1.4 kiyohara MPIC_WRITE(ARMADAXP_MLMB_MPIC_ICE, irq); 283 1.4 kiyohara MPIC_CPU_WRITE(ARMADAXP_MLMB_MPIC_ISM, irq); 284 1.1 rkujawa } 285 1.1 rkujawa 286 1.1 rkujawa /* 287 1.1 rkujawa * Clock functions 288 1.1 rkujawa */ 289 1.1 rkujawa 290 1.1 rkujawa void 291 1.1 rkujawa armadaxp_getclks(void) 292 1.1 rkujawa { 293 1.1 rkujawa uint64_t sar_reg; 294 1.1 rkujawa uint8_t sar_cpu_freq, sar_fab_freq, array_size; 295 1.1 rkujawa 296 1.1 rkujawa if (cputype == CPU_ID_MV88SV584X_V7) 297 1.1 rkujawa mvTclk = 250000000; /* 250 MHz */ 298 1.1 rkujawa else 299 1.1 rkujawa mvTclk = 200000000; /* 200 MHz */ 300 1.1 rkujawa 301 1.1 rkujawa sar_reg = (read_miscreg(ARMADAXP_MISC_SAR_HI) << 31) | 302 1.1 rkujawa read_miscreg(ARMADAXP_MISC_SAR_LO); 303 1.1 rkujawa 304 1.1 rkujawa sar_cpu_freq = EXTRACT_CPU_FREQ_FIELD(sar_reg); 305 1.1 rkujawa sar_fab_freq = EXTRACT_FAB_FREQ_FIELD(sar_reg); 306 1.1 rkujawa 307 1.1 rkujawa /* Check if CPU frequency field has correct value */ 308 1.1 rkujawa array_size = sizeof(cpu_clock_table) / sizeof(cpu_clock_table[0]); 309 1.1 rkujawa if (sar_cpu_freq >= array_size) 310 1.1 rkujawa panic("Reserved value in cpu frequency configuration field: " 311 1.1 rkujawa "%d", sar_cpu_freq); 312 1.1 rkujawa 313 1.1 rkujawa /* Check if fabric frequency field has correct value */ 314 1.1 rkujawa array_size = sizeof(freq_conf_table) / sizeof(freq_conf_table[0]); 315 1.1 rkujawa if (sar_fab_freq >= array_size) 316 1.1 rkujawa panic("Reserved value in fabric frequency configuration field: " 317 1.1 rkujawa "%d", sar_fab_freq); 318 1.1 rkujawa 319 1.1 rkujawa /* Get CPU clock frequency */ 320 1.1 rkujawa mvPclk = cpu_clock_table[sar_cpu_freq] * 321 1.1 rkujawa freq_conf_table[sar_fab_freq].vco_cpu; 322 1.1 rkujawa 323 1.1 rkujawa /* Get L2CLK clock frequency and use as system clock (mvSysclk) */ 324 1.1 rkujawa mvSysclk = mvPclk / freq_conf_table[sar_fab_freq].vco_l2c; 325 1.1 rkujawa 326 1.1 rkujawa /* Round mvSysclk value to integer MHz */ 327 1.1 rkujawa if (((mvPclk % freq_conf_table[sar_fab_freq].vco_l2c) * 10 / 328 1.1 rkujawa freq_conf_table[sar_fab_freq].vco_l2c) >= 5) 329 1.1 rkujawa mvSysclk++; 330 1.1 rkujawa 331 1.1 rkujawa mvPclk = mvPclk * 1000000; 332 1.1 rkujawa mvSysclk = mvSysclk * 1000000; 333 1.1 rkujawa } 334 1.1 rkujawa 335 1.1 rkujawa /* 336 1.1 rkujawa * L2 Cache initialization 337 1.1 rkujawa */ 338 1.1 rkujawa 339 1.1 rkujawa int 340 1.3 kiyohara armadaxp_l2_init(bus_addr_t pbase) 341 1.1 rkujawa { 342 1.1 rkujawa u_int32_t reg; 343 1.1 rkujawa int ret; 344 1.1 rkujawa 345 1.1 rkujawa /* Map L2 space */ 346 1.3 kiyohara ret = bus_space_map(&mvsoc_bs_tag, pbase + ARMADAXP_L2_BASE, 347 1.3 kiyohara 0x1000, 0, &l2_handle); 348 1.1 rkujawa if (ret) { 349 1.1 rkujawa printf("%s: Cannot map L2 register space, ret:%d\n", 350 1.1 rkujawa __func__, ret); 351 1.1 rkujawa return (-1); 352 1.1 rkujawa } 353 1.1 rkujawa 354 1.1 rkujawa /* Set L2 policy */ 355 1.1 rkujawa reg = L2_READ(ARMADAXP_L2_AUX_CTRL); 356 1.1 rkujawa reg &= ~(L2_WBWT_MODE_MASK); 357 1.1 rkujawa reg &= ~(L2_REP_STRAT_MASK); 358 1.1 rkujawa reg |= L2_REP_STRAT_SEMIPLRU; 359 1.1 rkujawa L2_WRITE(ARMADAXP_L2_AUX_CTRL, reg); 360 1.1 rkujawa 361 1.1 rkujawa /* Invalidate L2 cache */ 362 1.1 rkujawa L2_WRITE(ARMADAXP_L2_INV_WAY, L2_ALL_WAYS); 363 1.1 rkujawa 364 1.1 rkujawa /* Clear pending L2 interrupts */ 365 1.1 rkujawa L2_WRITE(ARMADAXP_L2_INT_CAUSE, 0x1ff); 366 1.1 rkujawa 367 1.1 rkujawa /* Enable Cache and TLB maintenance broadcast */ 368 1.1 rkujawa __asm__ __volatile__ ("mrc p15, 1, %0, c15, c2, 0" : "=r"(reg)); 369 1.1 rkujawa reg |= (1 << 8); 370 1.1 rkujawa __asm__ __volatile__ ("mcr p15, 1, %0, c15, c2, 0" : :"r"(reg)); 371 1.1 rkujawa 372 1.1 rkujawa /* 373 1.1 rkujawa * Set the Point of Coherency and Point of Unification to DRAM. 374 1.1 rkujawa * This is a reset value but anyway, configure this just in case. 375 1.1 rkujawa */ 376 1.1 rkujawa reg = read_mlmbreg(ARMADAXP_L2_CFU); 377 1.1 rkujawa reg |= (1 << 17) | (1 << 18); 378 1.1 rkujawa write_mlmbreg(ARMADAXP_L2_CFU, reg); 379 1.1 rkujawa 380 1.1 rkujawa /* Enable L2 cache */ 381 1.1 rkujawa reg = L2_READ(ARMADAXP_L2_CTRL); 382 1.1 rkujawa L2_WRITE(ARMADAXP_L2_CTRL, reg | L2_ENABLE); 383 1.1 rkujawa 384 1.1 rkujawa /* Mark as enabled */ 385 1.1 rkujawa l2cache_state = 1; 386 1.1 rkujawa 387 1.1 rkujawa #ifdef DEBUG 388 1.1 rkujawa /* Configure and enable counter */ 389 1.1 rkujawa L2_WRITE(ARMADAXP_L2_CNTR_CONF(0), 0xf0000 | (4 << 2)); 390 1.1 rkujawa L2_WRITE(ARMADAXP_L2_CNTR_CONF(1), 0xf0000 | (2 << 2)); 391 1.1 rkujawa L2_WRITE(ARMADAXP_L2_CNTR_CTRL, 0x303); 392 1.1 rkujawa #endif 393 1.1 rkujawa 394 1.1 rkujawa return (0); 395 1.1 rkujawa } 396 1.1 rkujawa 397 1.1 rkujawa void 398 1.1 rkujawa armadaxp_io_coherency_init(void) 399 1.1 rkujawa { 400 1.1 rkujawa uint32_t reg; 401 1.1 rkujawa 402 1.1 rkujawa /* set CIB read snoop command to ReadUnique */ 403 1.1 rkujawa reg = read_mlmbreg(MVSOC_MLMB_CIB_CTRL_CFG); 404 1.1 rkujawa reg &= ~(7 << 16); 405 1.1 rkujawa reg |= (7 << 16); 406 1.1 rkujawa write_mlmbreg(MVSOC_MLMB_CIB_CTRL_CFG, reg); 407 1.1 rkujawa /* enable CPUs in SMP group on Fabric coherency */ 408 1.1 rkujawa reg = read_mlmbreg(MVSOC_MLMB_COHERENCY_FABRIC_CTRL); 409 1.1 rkujawa reg &= ~(0x3 << 24); 410 1.1 rkujawa reg |= (1 << 24); 411 1.1 rkujawa write_mlmbreg(MVSOC_MLMB_COHERENCY_FABRIC_CTRL, reg); 412 1.1 rkujawa 413 1.1 rkujawa reg = read_mlmbreg(MVSOC_MLMB_COHERENCY_FABRIC_CFG); 414 1.1 rkujawa reg &= ~(0x3 << 24); 415 1.1 rkujawa reg |= (1 << 24); 416 1.1 rkujawa write_mlmbreg(MVSOC_MLMB_COHERENCY_FABRIC_CFG, reg); 417 1.1 rkujawa 418 1.1 rkujawa /* Mark as enabled */ 419 1.1 rkujawa iocc_state = 1; 420 1.1 rkujawa } 421
Indexes created Fri Sep 26 20:09:58 GMT 2025