1 /* 2 * ASPEED GPIO Controller 3 * 4 * Copyright (C) 2017-2019 IBM Corp. 5 * 6 * SPDX-License-Identifier: GPL-2.0-or-later 7 */ 8 9 #include "qemu/osdep.h" 10 #include "qemu/host-utils.h" 11 #include "qemu/log.h" 12 #include "hw/gpio/aspeed_gpio.h" 13 #include "hw/misc/aspeed_scu.h" 14 #include "qapi/error.h" 15 #include "qapi/visitor.h" 16 #include "hw/irq.h" 17 #include "migration/vmstate.h" 18 #include "trace.h" 19 #include "hw/registerfields.h" 20 21 #define GPIOS_PER_GROUP 8 22 23 /* GPIO Source Types */ 24 #define ASPEED_CMD_SRC_MASK 0x01010101 25 #define ASPEED_SOURCE_ARM 0 26 #define ASPEED_SOURCE_LPC 1 27 #define ASPEED_SOURCE_COPROCESSOR 2 28 #define ASPEED_SOURCE_RESERVED 3 29 30 /* GPIO Interrupt Triggers */ 31 /* 32 * For each set of gpios there are three sensitivity registers that control 33 * the interrupt trigger mode. 34 * 35 * | 2 | 1 | 0 | trigger mode 36 * ----------------------------- 37 * | 0 | 0 | 0 | falling-edge 38 * | 0 | 0 | 1 | rising-edge 39 * | 0 | 1 | 0 | level-low 40 * | 0 | 1 | 1 | level-high 41 * | 1 | X | X | dual-edge 42 */ 43 #define ASPEED_FALLING_EDGE 0 44 #define ASPEED_RISING_EDGE 1 45 #define ASPEED_LEVEL_LOW 2 46 #define ASPEED_LEVEL_HIGH 3 47 #define ASPEED_DUAL_EDGE 4 48 49 /* GPIO Register Address Offsets */ 50 #define GPIO_ABCD_DATA_VALUE (0x000 >> 2) 51 #define GPIO_ABCD_DIRECTION (0x004 >> 2) 52 #define GPIO_ABCD_INT_ENABLE (0x008 >> 2) 53 #define GPIO_ABCD_INT_SENS_0 (0x00C >> 2) 54 #define GPIO_ABCD_INT_SENS_1 (0x010 >> 2) 55 #define GPIO_ABCD_INT_SENS_2 (0x014 >> 2) 56 #define GPIO_ABCD_INT_STATUS (0x018 >> 2) 57 #define GPIO_ABCD_RESET_TOLERANT (0x01C >> 2) 58 #define GPIO_EFGH_DATA_VALUE (0x020 >> 2) 59 #define GPIO_EFGH_DIRECTION (0x024 >> 2) 60 #define GPIO_EFGH_INT_ENABLE (0x028 >> 2) 61 #define GPIO_EFGH_INT_SENS_0 (0x02C >> 2) 62 #define GPIO_EFGH_INT_SENS_1 (0x030 >> 2) 63 #define GPIO_EFGH_INT_SENS_2 (0x034 >> 2) 64 #define GPIO_EFGH_INT_STATUS (0x038 >> 2) 65 #define GPIO_EFGH_RESET_TOLERANT (0x03C >> 2) 66 #define GPIO_ABCD_DEBOUNCE_1 (0x040 >> 2) 67 #define GPIO_ABCD_DEBOUNCE_2 (0x044 >> 2) 68 #define GPIO_EFGH_DEBOUNCE_1 (0x048 >> 2) 69 #define GPIO_EFGH_DEBOUNCE_2 (0x04C >> 2) 70 #define GPIO_DEBOUNCE_TIME_1 (0x050 >> 2) 71 #define GPIO_DEBOUNCE_TIME_2 (0x054 >> 2) 72 #define GPIO_DEBOUNCE_TIME_3 (0x058 >> 2) 73 #define GPIO_ABCD_COMMAND_SRC_0 (0x060 >> 2) 74 #define GPIO_ABCD_COMMAND_SRC_1 (0x064 >> 2) 75 #define GPIO_EFGH_COMMAND_SRC_0 (0x068 >> 2) 76 #define GPIO_EFGH_COMMAND_SRC_1 (0x06C >> 2) 77 #define GPIO_IJKL_DATA_VALUE (0x070 >> 2) 78 #define GPIO_IJKL_DIRECTION (0x074 >> 2) 79 #define GPIO_MNOP_DATA_VALUE (0x078 >> 2) 80 #define GPIO_MNOP_DIRECTION (0x07C >> 2) 81 #define GPIO_QRST_DATA_VALUE (0x080 >> 2) 82 #define GPIO_QRST_DIRECTION (0x084 >> 2) 83 #define GPIO_UVWX_DATA_VALUE (0x088 >> 2) 84 #define GPIO_UVWX_DIRECTION (0x08C >> 2) 85 #define GPIO_IJKL_COMMAND_SRC_0 (0x090 >> 2) 86 #define GPIO_IJKL_COMMAND_SRC_1 (0x094 >> 2) 87 #define GPIO_IJKL_INT_ENABLE (0x098 >> 2) 88 #define GPIO_IJKL_INT_SENS_0 (0x09C >> 2) 89 #define GPIO_IJKL_INT_SENS_1 (0x0A0 >> 2) 90 #define GPIO_IJKL_INT_SENS_2 (0x0A4 >> 2) 91 #define GPIO_IJKL_INT_STATUS (0x0A8 >> 2) 92 #define GPIO_IJKL_RESET_TOLERANT (0x0AC >> 2) 93 #define GPIO_IJKL_DEBOUNCE_1 (0x0B0 >> 2) 94 #define GPIO_IJKL_DEBOUNCE_2 (0x0B4 >> 2) 95 #define GPIO_IJKL_INPUT_MASK (0x0B8 >> 2) 96 #define GPIO_ABCD_DATA_READ (0x0C0 >> 2) 97 #define GPIO_EFGH_DATA_READ (0x0C4 >> 2) 98 #define GPIO_IJKL_DATA_READ (0x0C8 >> 2) 99 #define GPIO_MNOP_DATA_READ (0x0CC >> 2) 100 #define GPIO_QRST_DATA_READ (0x0D0 >> 2) 101 #define GPIO_UVWX_DATA_READ (0x0D4 >> 2) 102 #define GPIO_YZAAAB_DATA_READ (0x0D8 >> 2) 103 #define GPIO_AC_DATA_READ (0x0DC >> 2) 104 #define GPIO_MNOP_COMMAND_SRC_0 (0x0E0 >> 2) 105 #define GPIO_MNOP_COMMAND_SRC_1 (0x0E4 >> 2) 106 #define GPIO_MNOP_INT_ENABLE (0x0E8 >> 2) 107 #define GPIO_MNOP_INT_SENS_0 (0x0EC >> 2) 108 #define GPIO_MNOP_INT_SENS_1 (0x0F0 >> 2) 109 #define GPIO_MNOP_INT_SENS_2 (0x0F4 >> 2) 110 #define GPIO_MNOP_INT_STATUS (0x0F8 >> 2) 111 #define GPIO_MNOP_RESET_TOLERANT (0x0FC >> 2) 112 #define GPIO_MNOP_DEBOUNCE_1 (0x100 >> 2) 113 #define GPIO_MNOP_DEBOUNCE_2 (0x104 >> 2) 114 #define GPIO_MNOP_INPUT_MASK (0x108 >> 2) 115 #define GPIO_QRST_COMMAND_SRC_0 (0x110 >> 2) 116 #define GPIO_QRST_COMMAND_SRC_1 (0x114 >> 2) 117 #define GPIO_QRST_INT_ENABLE (0x118 >> 2) 118 #define GPIO_QRST_INT_SENS_0 (0x11C >> 2) 119 #define GPIO_QRST_INT_SENS_1 (0x120 >> 2) 120 #define GPIO_QRST_INT_SENS_2 (0x124 >> 2) 121 #define GPIO_QRST_INT_STATUS (0x128 >> 2) 122 #define GPIO_QRST_RESET_TOLERANT (0x12C >> 2) 123 #define GPIO_QRST_DEBOUNCE_1 (0x130 >> 2) 124 #define GPIO_QRST_DEBOUNCE_2 (0x134 >> 2) 125 #define GPIO_QRST_INPUT_MASK (0x138 >> 2) 126 #define GPIO_UVWX_COMMAND_SRC_0 (0x140 >> 2) 127 #define GPIO_UVWX_COMMAND_SRC_1 (0x144 >> 2) 128 #define GPIO_UVWX_INT_ENABLE (0x148 >> 2) 129 #define GPIO_UVWX_INT_SENS_0 (0x14C >> 2) 130 #define GPIO_UVWX_INT_SENS_1 (0x150 >> 2) 131 #define GPIO_UVWX_INT_SENS_2 (0x154 >> 2) 132 #define GPIO_UVWX_INT_STATUS (0x158 >> 2) 133 #define GPIO_UVWX_RESET_TOLERANT (0x15C >> 2) 134 #define GPIO_UVWX_DEBOUNCE_1 (0x160 >> 2) 135 #define GPIO_UVWX_DEBOUNCE_2 (0x164 >> 2) 136 #define GPIO_UVWX_INPUT_MASK (0x168 >> 2) 137 #define GPIO_YZAAAB_COMMAND_SRC_0 (0x170 >> 2) 138 #define GPIO_YZAAAB_COMMAND_SRC_1 (0x174 >> 2) 139 #define GPIO_YZAAAB_INT_ENABLE (0x178 >> 2) 140 #define GPIO_YZAAAB_INT_SENS_0 (0x17C >> 2) 141 #define GPIO_YZAAAB_INT_SENS_1 (0x180 >> 2) 142 #define GPIO_YZAAAB_INT_SENS_2 (0x184 >> 2) 143 #define GPIO_YZAAAB_INT_STATUS (0x188 >> 2) 144 #define GPIO_YZAAAB_RESET_TOLERANT (0x18C >> 2) 145 #define GPIO_YZAAAB_DEBOUNCE_1 (0x190 >> 2) 146 #define GPIO_YZAAAB_DEBOUNCE_2 (0x194 >> 2) 147 #define GPIO_YZAAAB_INPUT_MASK (0x198 >> 2) 148 #define GPIO_AC_COMMAND_SRC_0 (0x1A0 >> 2) 149 #define GPIO_AC_COMMAND_SRC_1 (0x1A4 >> 2) 150 #define GPIO_AC_INT_ENABLE (0x1A8 >> 2) 151 #define GPIO_AC_INT_SENS_0 (0x1AC >> 2) 152 #define GPIO_AC_INT_SENS_1 (0x1B0 >> 2) 153 #define GPIO_AC_INT_SENS_2 (0x1B4 >> 2) 154 #define GPIO_AC_INT_STATUS (0x1B8 >> 2) 155 #define GPIO_AC_RESET_TOLERANT (0x1BC >> 2) 156 #define GPIO_AC_DEBOUNCE_1 (0x1C0 >> 2) 157 #define GPIO_AC_DEBOUNCE_2 (0x1C4 >> 2) 158 #define GPIO_AC_INPUT_MASK (0x1C8 >> 2) 159 #define GPIO_ABCD_INPUT_MASK (0x1D0 >> 2) 160 #define GPIO_EFGH_INPUT_MASK (0x1D4 >> 2) 161 #define GPIO_YZAAAB_DATA_VALUE (0x1E0 >> 2) 162 #define GPIO_YZAAAB_DIRECTION (0x1E4 >> 2) 163 #define GPIO_AC_DATA_VALUE (0x1E8 >> 2) 164 #define GPIO_AC_DIRECTION (0x1EC >> 2) 165 #define GPIO_3_3V_MEM_SIZE 0x1F0 166 #define GPIO_3_3V_REG_ARRAY_SIZE (GPIO_3_3V_MEM_SIZE >> 2) 167 168 /* AST2600 only - 1.8V gpios */ 169 /* 170 * The AST2600 two copies of the GPIO controller: the same 3.3V gpios as the 171 * AST2400 (memory offsets 0x0-0x198) and a second controller with 1.8V gpios 172 * (memory offsets 0x800-0x9D4). 173 */ 174 #define GPIO_1_8V_ABCD_DATA_VALUE (0x000 >> 2) 175 #define GPIO_1_8V_ABCD_DIRECTION (0x004 >> 2) 176 #define GPIO_1_8V_ABCD_INT_ENABLE (0x008 >> 2) 177 #define GPIO_1_8V_ABCD_INT_SENS_0 (0x00C >> 2) 178 #define GPIO_1_8V_ABCD_INT_SENS_1 (0x010 >> 2) 179 #define GPIO_1_8V_ABCD_INT_SENS_2 (0x014 >> 2) 180 #define GPIO_1_8V_ABCD_INT_STATUS (0x018 >> 2) 181 #define GPIO_1_8V_ABCD_RESET_TOLERANT (0x01C >> 2) 182 #define GPIO_1_8V_E_DATA_VALUE (0x020 >> 2) 183 #define GPIO_1_8V_E_DIRECTION (0x024 >> 2) 184 #define GPIO_1_8V_E_INT_ENABLE (0x028 >> 2) 185 #define GPIO_1_8V_E_INT_SENS_0 (0x02C >> 2) 186 #define GPIO_1_8V_E_INT_SENS_1 (0x030 >> 2) 187 #define GPIO_1_8V_E_INT_SENS_2 (0x034 >> 2) 188 #define GPIO_1_8V_E_INT_STATUS (0x038 >> 2) 189 #define GPIO_1_8V_E_RESET_TOLERANT (0x03C >> 2) 190 #define GPIO_1_8V_ABCD_DEBOUNCE_1 (0x040 >> 2) 191 #define GPIO_1_8V_ABCD_DEBOUNCE_2 (0x044 >> 2) 192 #define GPIO_1_8V_E_DEBOUNCE_1 (0x048 >> 2) 193 #define GPIO_1_8V_E_DEBOUNCE_2 (0x04C >> 2) 194 #define GPIO_1_8V_DEBOUNCE_TIME_1 (0x050 >> 2) 195 #define GPIO_1_8V_DEBOUNCE_TIME_2 (0x054 >> 2) 196 #define GPIO_1_8V_DEBOUNCE_TIME_3 (0x058 >> 2) 197 #define GPIO_1_8V_ABCD_COMMAND_SRC_0 (0x060 >> 2) 198 #define GPIO_1_8V_ABCD_COMMAND_SRC_1 (0x064 >> 2) 199 #define GPIO_1_8V_E_COMMAND_SRC_0 (0x068 >> 2) 200 #define GPIO_1_8V_E_COMMAND_SRC_1 (0x06C >> 2) 201 #define GPIO_1_8V_ABCD_DATA_READ (0x0C0 >> 2) 202 #define GPIO_1_8V_E_DATA_READ (0x0C4 >> 2) 203 #define GPIO_1_8V_ABCD_INPUT_MASK (0x1D0 >> 2) 204 #define GPIO_1_8V_E_INPUT_MASK (0x1D4 >> 2) 205 #define GPIO_1_8V_MEM_SIZE 0x1D8 206 #define GPIO_1_8V_REG_ARRAY_SIZE (GPIO_1_8V_MEM_SIZE >> 2) 207 208 /* 209 * GPIO index mode support 210 * It only supports write operation 211 */ 212 REG32(GPIO_INDEX_REG, 0x2AC) 213 FIELD(GPIO_INDEX_REG, NUMBER, 0, 8) 214 FIELD(GPIO_INDEX_REG, COMMAND, 12, 1) 215 FIELD(GPIO_INDEX_REG, TYPE, 16, 4) 216 FIELD(GPIO_INDEX_REG, DATA_VALUE, 20, 1) 217 FIELD(GPIO_INDEX_REG, DIRECTION, 20, 1) 218 FIELD(GPIO_INDEX_REG, INT_ENABLE, 20, 1) 219 FIELD(GPIO_INDEX_REG, INT_SENS_0, 21, 1) 220 FIELD(GPIO_INDEX_REG, INT_SENS_1, 22, 1) 221 FIELD(GPIO_INDEX_REG, INT_SENS_2, 23, 1) 222 FIELD(GPIO_INDEX_REG, INT_STATUS, 24, 1) 223 FIELD(GPIO_INDEX_REG, DEBOUNCE_1, 20, 1) 224 FIELD(GPIO_INDEX_REG, DEBOUNCE_2, 21, 1) 225 FIELD(GPIO_INDEX_REG, RESET_TOLERANT, 20, 1) 226 FIELD(GPIO_INDEX_REG, COMMAND_SRC_0, 20, 1) 227 FIELD(GPIO_INDEX_REG, COMMAND_SRC_1, 21, 1) 228 FIELD(GPIO_INDEX_REG, INPUT_MASK, 20, 1) 229 230 /* AST2700 GPIO Register Address Offsets */ 231 REG32(GPIO_2700_DEBOUNCE_TIME_1, 0x000) 232 REG32(GPIO_2700_DEBOUNCE_TIME_2, 0x004) 233 REG32(GPIO_2700_DEBOUNCE_TIME_3, 0x008) 234 REG32(GPIO_2700_INT_STATUS_1, 0x100) 235 REG32(GPIO_2700_INT_STATUS_2, 0x104) 236 REG32(GPIO_2700_INT_STATUS_3, 0x108) 237 REG32(GPIO_2700_INT_STATUS_4, 0x10C) 238 REG32(GPIO_2700_INT_STATUS_5, 0x110) 239 REG32(GPIO_2700_INT_STATUS_6, 0x114) 240 REG32(GPIO_2700_INT_STATUS_7, 0x118) 241 /* GPIOA0 - GPIOAA7 Control Register */ 242 REG32(GPIO_A0_CONTROL, 0x180) 243 SHARED_FIELD(GPIO_CONTROL_OUT_DATA, 0, 1) 244 SHARED_FIELD(GPIO_CONTROL_DIRECTION, 1, 1) 245 SHARED_FIELD(GPIO_CONTROL_INT_ENABLE, 2, 1) 246 SHARED_FIELD(GPIO_CONTROL_INT_SENS_0, 3, 1) 247 SHARED_FIELD(GPIO_CONTROL_INT_SENS_1, 4, 1) 248 SHARED_FIELD(GPIO_CONTROL_INT_SENS_2, 5, 1) 249 SHARED_FIELD(GPIO_CONTROL_RESET_TOLERANCE, 6, 1) 250 SHARED_FIELD(GPIO_CONTROL_DEBOUNCE_1, 7, 1) 251 SHARED_FIELD(GPIO_CONTROL_DEBOUNCE_2, 8, 1) 252 SHARED_FIELD(GPIO_CONTROL_INPUT_MASK, 9, 1) 253 SHARED_FIELD(GPIO_CONTROL_BLINK_COUNTER_1, 10, 1) 254 SHARED_FIELD(GPIO_CONTROL_BLINK_COUNTER_2, 11, 1) 255 SHARED_FIELD(GPIO_CONTROL_INT_STATUS, 12, 1) 256 SHARED_FIELD(GPIO_CONTROL_IN_DATA, 13, 1) 257 SHARED_FIELD(GPIO_CONTROL_RESERVED, 14, 18) 258 REG32(GPIO_AA7_CONTROL, 0x4DC) 259 #define GPIO_2700_MEM_SIZE 0x4E0 260 #define GPIO_2700_REG_ARRAY_SIZE (GPIO_2700_MEM_SIZE >> 2) 261 262 static int aspeed_evaluate_irq(GPIOSets *regs, int gpio_prev_high, int gpio) 263 { 264 uint32_t falling_edge = 0, rising_edge = 0; 265 uint32_t int_trigger = extract32(regs->int_sens_0, gpio, 1) 266 | extract32(regs->int_sens_1, gpio, 1) << 1 267 | extract32(regs->int_sens_2, gpio, 1) << 2; 268 uint32_t gpio_curr_high = extract32(regs->data_value, gpio, 1); 269 uint32_t gpio_int_enabled = extract32(regs->int_enable, gpio, 1); 270 271 if (!gpio_int_enabled) { 272 return 0; 273 } 274 275 /* Detect edges */ 276 if (gpio_curr_high && !gpio_prev_high) { 277 rising_edge = 1; 278 } else if (!gpio_curr_high && gpio_prev_high) { 279 falling_edge = 1; 280 } 281 282 if (((int_trigger == ASPEED_FALLING_EDGE) && falling_edge) || 283 ((int_trigger == ASPEED_RISING_EDGE) && rising_edge) || 284 ((int_trigger == ASPEED_LEVEL_LOW) && !gpio_curr_high) || 285 ((int_trigger == ASPEED_LEVEL_HIGH) && gpio_curr_high) || 286 ((int_trigger >= ASPEED_DUAL_EDGE) && (rising_edge || falling_edge))) 287 { 288 regs->int_status = deposit32(regs->int_status, gpio, 1, 1); 289 return 1; 290 } 291 return 0; 292 } 293 294 #define nested_struct_index(ta, pa, m, tb, pb) \ 295 (pb - ((tb *)(((char *)pa) + offsetof(ta, m)))) 296 297 static ptrdiff_t aspeed_gpio_set_idx(AspeedGPIOState *s, GPIOSets *regs) 298 { 299 return nested_struct_index(AspeedGPIOState, s, sets, GPIOSets, regs); 300 } 301 302 static void aspeed_gpio_update(AspeedGPIOState *s, GPIOSets *regs, 303 uint32_t value, uint32_t mode_mask) 304 { 305 uint32_t input_mask = regs->input_mask; 306 uint32_t direction = regs->direction; 307 uint32_t old = regs->data_value; 308 uint32_t new = value; 309 uint32_t diff; 310 int gpio; 311 312 diff = (old ^ new); 313 diff &= mode_mask; 314 if (diff) { 315 for (gpio = 0; gpio < ASPEED_GPIOS_PER_SET; gpio++) { 316 uint32_t mask = 1U << gpio; 317 318 /* If the gpio needs to be updated... */ 319 if (!(diff & mask)) { 320 continue; 321 } 322 323 /* ...and we're output or not input-masked... */ 324 if (!(direction & mask) && (input_mask & mask)) { 325 continue; 326 } 327 328 /* ...then update the state. */ 329 if (mask & new) { 330 regs->data_value |= mask; 331 } else { 332 regs->data_value &= ~mask; 333 } 334 335 /* If the gpio is set to output... */ 336 if (direction & mask) { 337 /* ...trigger the line-state IRQ */ 338 ptrdiff_t set = aspeed_gpio_set_idx(s, regs); 339 qemu_set_irq(s->gpios[set][gpio], !!(new & mask)); 340 } else { 341 /* ...otherwise if we meet the line's current IRQ policy... */ 342 if (aspeed_evaluate_irq(regs, old & mask, gpio)) { 343 /* ...trigger the VIC IRQ */ 344 s->pending++; 345 } 346 } 347 } 348 } 349 qemu_set_irq(s->irq, !!(s->pending)); 350 } 351 352 static bool aspeed_gpio_get_pin_level(AspeedGPIOState *s, uint32_t set_idx, 353 uint32_t pin) 354 { 355 uint32_t reg_val; 356 uint32_t pin_mask = 1 << pin; 357 358 reg_val = s->sets[set_idx].data_value; 359 360 return !!(reg_val & pin_mask); 361 } 362 363 static void aspeed_gpio_set_pin_level(AspeedGPIOState *s, uint32_t set_idx, 364 uint32_t pin, bool level) 365 { 366 uint32_t value = s->sets[set_idx].data_value; 367 uint32_t pin_mask = 1 << pin; 368 369 if (level) { 370 value |= pin_mask; 371 } else { 372 value &= ~pin_mask; 373 } 374 375 aspeed_gpio_update(s, &s->sets[set_idx], value, 376 ~s->sets[set_idx].direction); 377 } 378 379 /* 380 * | src_1 | src_2 | source | 381 * |-----------------------------| 382 * | 0 | 0 | ARM | 383 * | 0 | 1 | LPC | 384 * | 1 | 0 | Coprocessor| 385 * | 1 | 1 | Reserved | 386 * 387 * Once the source of a set is programmed, corresponding bits in the 388 * data_value, direction, interrupt [enable, sens[0-2]], reset_tol and 389 * debounce registers can only be written by the source. 390 * 391 * Source is ARM by default 392 * only bits 24, 16, 8, and 0 can be set 393 * 394 * we don't currently have a model for the LPC or Coprocessor 395 */ 396 static uint32_t update_value_control_source(GPIOSets *regs, uint32_t old_value, 397 uint32_t value) 398 { 399 int i; 400 int cmd_source; 401 402 /* assume the source is always ARM for now */ 403 int source = ASPEED_SOURCE_ARM; 404 405 uint32_t new_value = 0; 406 407 /* for each group in set */ 408 for (i = 0; i < ASPEED_GPIOS_PER_SET; i += GPIOS_PER_GROUP) { 409 cmd_source = extract32(regs->cmd_source_0, i, 1) 410 | (extract32(regs->cmd_source_1, i, 1) << 1); 411 412 if (source == cmd_source) { 413 new_value |= (0xff << i) & value; 414 } else { 415 new_value |= (0xff << i) & old_value; 416 } 417 } 418 return new_value; 419 } 420 421 static const AspeedGPIOReg aspeed_3_3v_gpios[GPIO_3_3V_REG_ARRAY_SIZE] = { 422 /* Set ABCD */ 423 [GPIO_ABCD_DATA_VALUE] = { 0, gpio_reg_data_value }, 424 [GPIO_ABCD_DIRECTION] = { 0, gpio_reg_direction }, 425 [GPIO_ABCD_INT_ENABLE] = { 0, gpio_reg_int_enable }, 426 [GPIO_ABCD_INT_SENS_0] = { 0, gpio_reg_int_sens_0 }, 427 [GPIO_ABCD_INT_SENS_1] = { 0, gpio_reg_int_sens_1 }, 428 [GPIO_ABCD_INT_SENS_2] = { 0, gpio_reg_int_sens_2 }, 429 [GPIO_ABCD_INT_STATUS] = { 0, gpio_reg_int_status }, 430 [GPIO_ABCD_RESET_TOLERANT] = { 0, gpio_reg_reset_tolerant }, 431 [GPIO_ABCD_DEBOUNCE_1] = { 0, gpio_reg_debounce_1 }, 432 [GPIO_ABCD_DEBOUNCE_2] = { 0, gpio_reg_debounce_2 }, 433 [GPIO_ABCD_COMMAND_SRC_0] = { 0, gpio_reg_cmd_source_0 }, 434 [GPIO_ABCD_COMMAND_SRC_1] = { 0, gpio_reg_cmd_source_1 }, 435 [GPIO_ABCD_DATA_READ] = { 0, gpio_reg_data_read }, 436 [GPIO_ABCD_INPUT_MASK] = { 0, gpio_reg_input_mask }, 437 /* Set EFGH */ 438 [GPIO_EFGH_DATA_VALUE] = { 1, gpio_reg_data_value }, 439 [GPIO_EFGH_DIRECTION] = { 1, gpio_reg_direction }, 440 [GPIO_EFGH_INT_ENABLE] = { 1, gpio_reg_int_enable }, 441 [GPIO_EFGH_INT_SENS_0] = { 1, gpio_reg_int_sens_0 }, 442 [GPIO_EFGH_INT_SENS_1] = { 1, gpio_reg_int_sens_1 }, 443 [GPIO_EFGH_INT_SENS_2] = { 1, gpio_reg_int_sens_2 }, 444 [GPIO_EFGH_INT_STATUS] = { 1, gpio_reg_int_status }, 445 [GPIO_EFGH_RESET_TOLERANT] = { 1, gpio_reg_reset_tolerant }, 446 [GPIO_EFGH_DEBOUNCE_1] = { 1, gpio_reg_debounce_1 }, 447 [GPIO_EFGH_DEBOUNCE_2] = { 1, gpio_reg_debounce_2 }, 448 [GPIO_EFGH_COMMAND_SRC_0] = { 1, gpio_reg_cmd_source_0 }, 449 [GPIO_EFGH_COMMAND_SRC_1] = { 1, gpio_reg_cmd_source_1 }, 450 [GPIO_EFGH_DATA_READ] = { 1, gpio_reg_data_read }, 451 [GPIO_EFGH_INPUT_MASK] = { 1, gpio_reg_input_mask }, 452 /* Set IJKL */ 453 [GPIO_IJKL_DATA_VALUE] = { 2, gpio_reg_data_value }, 454 [GPIO_IJKL_DIRECTION] = { 2, gpio_reg_direction }, 455 [GPIO_IJKL_INT_ENABLE] = { 2, gpio_reg_int_enable }, 456 [GPIO_IJKL_INT_SENS_0] = { 2, gpio_reg_int_sens_0 }, 457 [GPIO_IJKL_INT_SENS_1] = { 2, gpio_reg_int_sens_1 }, 458 [GPIO_IJKL_INT_SENS_2] = { 2, gpio_reg_int_sens_2 }, 459 [GPIO_IJKL_INT_STATUS] = { 2, gpio_reg_int_status }, 460 [GPIO_IJKL_RESET_TOLERANT] = { 2, gpio_reg_reset_tolerant }, 461 [GPIO_IJKL_DEBOUNCE_1] = { 2, gpio_reg_debounce_1 }, 462 [GPIO_IJKL_DEBOUNCE_2] = { 2, gpio_reg_debounce_2 }, 463 [GPIO_IJKL_COMMAND_SRC_0] = { 2, gpio_reg_cmd_source_0 }, 464 [GPIO_IJKL_COMMAND_SRC_1] = { 2, gpio_reg_cmd_source_1 }, 465 [GPIO_IJKL_DATA_READ] = { 2, gpio_reg_data_read }, 466 [GPIO_IJKL_INPUT_MASK] = { 2, gpio_reg_input_mask }, 467 /* Set MNOP */ 468 [GPIO_MNOP_DATA_VALUE] = { 3, gpio_reg_data_value }, 469 [GPIO_MNOP_DIRECTION] = { 3, gpio_reg_direction }, 470 [GPIO_MNOP_INT_ENABLE] = { 3, gpio_reg_int_enable }, 471 [GPIO_MNOP_INT_SENS_0] = { 3, gpio_reg_int_sens_0 }, 472 [GPIO_MNOP_INT_SENS_1] = { 3, gpio_reg_int_sens_1 }, 473 [GPIO_MNOP_INT_SENS_2] = { 3, gpio_reg_int_sens_2 }, 474 [GPIO_MNOP_INT_STATUS] = { 3, gpio_reg_int_status }, 475 [GPIO_MNOP_RESET_TOLERANT] = { 3, gpio_reg_reset_tolerant }, 476 [GPIO_MNOP_DEBOUNCE_1] = { 3, gpio_reg_debounce_1 }, 477 [GPIO_MNOP_DEBOUNCE_2] = { 3, gpio_reg_debounce_2 }, 478 [GPIO_MNOP_COMMAND_SRC_0] = { 3, gpio_reg_cmd_source_0 }, 479 [GPIO_MNOP_COMMAND_SRC_1] = { 3, gpio_reg_cmd_source_1 }, 480 [GPIO_MNOP_DATA_READ] = { 3, gpio_reg_data_read }, 481 [GPIO_MNOP_INPUT_MASK] = { 3, gpio_reg_input_mask }, 482 /* Set QRST */ 483 [GPIO_QRST_DATA_VALUE] = { 4, gpio_reg_data_value }, 484 [GPIO_QRST_DIRECTION] = { 4, gpio_reg_direction }, 485 [GPIO_QRST_INT_ENABLE] = { 4, gpio_reg_int_enable }, 486 [GPIO_QRST_INT_SENS_0] = { 4, gpio_reg_int_sens_0 }, 487 [GPIO_QRST_INT_SENS_1] = { 4, gpio_reg_int_sens_1 }, 488 [GPIO_QRST_INT_SENS_2] = { 4, gpio_reg_int_sens_2 }, 489 [GPIO_QRST_INT_STATUS] = { 4, gpio_reg_int_status }, 490 [GPIO_QRST_RESET_TOLERANT] = { 4, gpio_reg_reset_tolerant }, 491 [GPIO_QRST_DEBOUNCE_1] = { 4, gpio_reg_debounce_1 }, 492 [GPIO_QRST_DEBOUNCE_2] = { 4, gpio_reg_debounce_2 }, 493 [GPIO_QRST_COMMAND_SRC_0] = { 4, gpio_reg_cmd_source_0 }, 494 [GPIO_QRST_COMMAND_SRC_1] = { 4, gpio_reg_cmd_source_1 }, 495 [GPIO_QRST_DATA_READ] = { 4, gpio_reg_data_read }, 496 [GPIO_QRST_INPUT_MASK] = { 4, gpio_reg_input_mask }, 497 /* Set UVWX */ 498 [GPIO_UVWX_DATA_VALUE] = { 5, gpio_reg_data_value }, 499 [GPIO_UVWX_DIRECTION] = { 5, gpio_reg_direction }, 500 [GPIO_UVWX_INT_ENABLE] = { 5, gpio_reg_int_enable }, 501 [GPIO_UVWX_INT_SENS_0] = { 5, gpio_reg_int_sens_0 }, 502 [GPIO_UVWX_INT_SENS_1] = { 5, gpio_reg_int_sens_1 }, 503 [GPIO_UVWX_INT_SENS_2] = { 5, gpio_reg_int_sens_2 }, 504 [GPIO_UVWX_INT_STATUS] = { 5, gpio_reg_int_status }, 505 [GPIO_UVWX_RESET_TOLERANT] = { 5, gpio_reg_reset_tolerant }, 506 [GPIO_UVWX_DEBOUNCE_1] = { 5, gpio_reg_debounce_1 }, 507 [GPIO_UVWX_DEBOUNCE_2] = { 5, gpio_reg_debounce_2 }, 508 [GPIO_UVWX_COMMAND_SRC_0] = { 5, gpio_reg_cmd_source_0 }, 509 [GPIO_UVWX_COMMAND_SRC_1] = { 5, gpio_reg_cmd_source_1 }, 510 [GPIO_UVWX_DATA_READ] = { 5, gpio_reg_data_read }, 511 [GPIO_UVWX_INPUT_MASK] = { 5, gpio_reg_input_mask }, 512 /* Set YZAAAB */ 513 [GPIO_YZAAAB_DATA_VALUE] = { 6, gpio_reg_data_value }, 514 [GPIO_YZAAAB_DIRECTION] = { 6, gpio_reg_direction }, 515 [GPIO_YZAAAB_INT_ENABLE] = { 6, gpio_reg_int_enable }, 516 [GPIO_YZAAAB_INT_SENS_0] = { 6, gpio_reg_int_sens_0 }, 517 [GPIO_YZAAAB_INT_SENS_1] = { 6, gpio_reg_int_sens_1 }, 518 [GPIO_YZAAAB_INT_SENS_2] = { 6, gpio_reg_int_sens_2 }, 519 [GPIO_YZAAAB_INT_STATUS] = { 6, gpio_reg_int_status }, 520 [GPIO_YZAAAB_RESET_TOLERANT] = { 6, gpio_reg_reset_tolerant }, 521 [GPIO_YZAAAB_DEBOUNCE_1] = { 6, gpio_reg_debounce_1 }, 522 [GPIO_YZAAAB_DEBOUNCE_2] = { 6, gpio_reg_debounce_2 }, 523 [GPIO_YZAAAB_COMMAND_SRC_0] = { 6, gpio_reg_cmd_source_0 }, 524 [GPIO_YZAAAB_COMMAND_SRC_1] = { 6, gpio_reg_cmd_source_1 }, 525 [GPIO_YZAAAB_DATA_READ] = { 6, gpio_reg_data_read }, 526 [GPIO_YZAAAB_INPUT_MASK] = { 6, gpio_reg_input_mask }, 527 /* Set AC (ast2500 only) */ 528 [GPIO_AC_DATA_VALUE] = { 7, gpio_reg_data_value }, 529 [GPIO_AC_DIRECTION] = { 7, gpio_reg_direction }, 530 [GPIO_AC_INT_ENABLE] = { 7, gpio_reg_int_enable }, 531 [GPIO_AC_INT_SENS_0] = { 7, gpio_reg_int_sens_0 }, 532 [GPIO_AC_INT_SENS_1] = { 7, gpio_reg_int_sens_1 }, 533 [GPIO_AC_INT_SENS_2] = { 7, gpio_reg_int_sens_2 }, 534 [GPIO_AC_INT_STATUS] = { 7, gpio_reg_int_status }, 535 [GPIO_AC_RESET_TOLERANT] = { 7, gpio_reg_reset_tolerant }, 536 [GPIO_AC_DEBOUNCE_1] = { 7, gpio_reg_debounce_1 }, 537 [GPIO_AC_DEBOUNCE_2] = { 7, gpio_reg_debounce_2 }, 538 [GPIO_AC_COMMAND_SRC_0] = { 7, gpio_reg_cmd_source_0 }, 539 [GPIO_AC_COMMAND_SRC_1] = { 7, gpio_reg_cmd_source_1 }, 540 [GPIO_AC_DATA_READ] = { 7, gpio_reg_data_read }, 541 [GPIO_AC_INPUT_MASK] = { 7, gpio_reg_input_mask }, 542 }; 543 544 static const AspeedGPIOReg aspeed_1_8v_gpios[GPIO_1_8V_REG_ARRAY_SIZE] = { 545 /* 1.8V Set ABCD */ 546 [GPIO_1_8V_ABCD_DATA_VALUE] = {0, gpio_reg_data_value}, 547 [GPIO_1_8V_ABCD_DIRECTION] = {0, gpio_reg_direction}, 548 [GPIO_1_8V_ABCD_INT_ENABLE] = {0, gpio_reg_int_enable}, 549 [GPIO_1_8V_ABCD_INT_SENS_0] = {0, gpio_reg_int_sens_0}, 550 [GPIO_1_8V_ABCD_INT_SENS_1] = {0, gpio_reg_int_sens_1}, 551 [GPIO_1_8V_ABCD_INT_SENS_2] = {0, gpio_reg_int_sens_2}, 552 [GPIO_1_8V_ABCD_INT_STATUS] = {0, gpio_reg_int_status}, 553 [GPIO_1_8V_ABCD_RESET_TOLERANT] = {0, gpio_reg_reset_tolerant}, 554 [GPIO_1_8V_ABCD_DEBOUNCE_1] = {0, gpio_reg_debounce_1}, 555 [GPIO_1_8V_ABCD_DEBOUNCE_2] = {0, gpio_reg_debounce_2}, 556 [GPIO_1_8V_ABCD_COMMAND_SRC_0] = {0, gpio_reg_cmd_source_0}, 557 [GPIO_1_8V_ABCD_COMMAND_SRC_1] = {0, gpio_reg_cmd_source_1}, 558 [GPIO_1_8V_ABCD_DATA_READ] = {0, gpio_reg_data_read}, 559 [GPIO_1_8V_ABCD_INPUT_MASK] = {0, gpio_reg_input_mask}, 560 /* 1.8V Set E */ 561 [GPIO_1_8V_E_DATA_VALUE] = {1, gpio_reg_data_value}, 562 [GPIO_1_8V_E_DIRECTION] = {1, gpio_reg_direction}, 563 [GPIO_1_8V_E_INT_ENABLE] = {1, gpio_reg_int_enable}, 564 [GPIO_1_8V_E_INT_SENS_0] = {1, gpio_reg_int_sens_0}, 565 [GPIO_1_8V_E_INT_SENS_1] = {1, gpio_reg_int_sens_1}, 566 [GPIO_1_8V_E_INT_SENS_2] = {1, gpio_reg_int_sens_2}, 567 [GPIO_1_8V_E_INT_STATUS] = {1, gpio_reg_int_status}, 568 [GPIO_1_8V_E_RESET_TOLERANT] = {1, gpio_reg_reset_tolerant}, 569 [GPIO_1_8V_E_DEBOUNCE_1] = {1, gpio_reg_debounce_1}, 570 [GPIO_1_8V_E_DEBOUNCE_2] = {1, gpio_reg_debounce_2}, 571 [GPIO_1_8V_E_COMMAND_SRC_0] = {1, gpio_reg_cmd_source_0}, 572 [GPIO_1_8V_E_COMMAND_SRC_1] = {1, gpio_reg_cmd_source_1}, 573 [GPIO_1_8V_E_DATA_READ] = {1, gpio_reg_data_read}, 574 [GPIO_1_8V_E_INPUT_MASK] = {1, gpio_reg_input_mask}, 575 }; 576 577 static uint64_t aspeed_gpio_read(void *opaque, hwaddr offset, uint32_t size) 578 { 579 AspeedGPIOState *s = ASPEED_GPIO(opaque); 580 AspeedGPIOClass *agc = ASPEED_GPIO_GET_CLASS(s); 581 uint64_t idx = -1; 582 const AspeedGPIOReg *reg; 583 GPIOSets *set; 584 uint32_t value = 0; 585 uint64_t debounce_value; 586 587 idx = offset >> 2; 588 if (idx >= GPIO_DEBOUNCE_TIME_1 && idx <= GPIO_DEBOUNCE_TIME_3) { 589 idx -= GPIO_DEBOUNCE_TIME_1; 590 debounce_value = (uint64_t) s->debounce_regs[idx]; 591 trace_aspeed_gpio_read(offset, debounce_value); 592 return debounce_value; 593 } 594 595 if (idx >= agc->reg_table_count) { 596 qemu_log_mask(LOG_GUEST_ERROR, "%s: idx 0x%" PRIx64 " out of bounds\n", 597 __func__, idx); 598 return 0; 599 } 600 601 reg = &agc->reg_table[idx]; 602 if (reg->set_idx >= agc->nr_gpio_sets) { 603 qemu_log_mask(LOG_GUEST_ERROR, "%s: no getter for offset 0x%" 604 PRIx64"\n", __func__, offset); 605 return 0; 606 } 607 608 set = &s->sets[reg->set_idx]; 609 switch (reg->type) { 610 case gpio_reg_data_value: 611 value = set->data_value; 612 break; 613 case gpio_reg_direction: 614 value = set->direction; 615 break; 616 case gpio_reg_int_enable: 617 value = set->int_enable; 618 break; 619 case gpio_reg_int_sens_0: 620 value = set->int_sens_0; 621 break; 622 case gpio_reg_int_sens_1: 623 value = set->int_sens_1; 624 break; 625 case gpio_reg_int_sens_2: 626 value = set->int_sens_2; 627 break; 628 case gpio_reg_int_status: 629 value = set->int_status; 630 break; 631 case gpio_reg_reset_tolerant: 632 value = set->reset_tol; 633 break; 634 case gpio_reg_debounce_1: 635 value = set->debounce_1; 636 break; 637 case gpio_reg_debounce_2: 638 value = set->debounce_2; 639 break; 640 case gpio_reg_cmd_source_0: 641 value = set->cmd_source_0; 642 break; 643 case gpio_reg_cmd_source_1: 644 value = set->cmd_source_1; 645 break; 646 case gpio_reg_data_read: 647 value = set->data_read; 648 break; 649 case gpio_reg_input_mask: 650 value = set->input_mask; 651 break; 652 default: 653 qemu_log_mask(LOG_GUEST_ERROR, "%s: no getter for offset 0x%" 654 PRIx64"\n", __func__, offset); 655 return 0; 656 } 657 658 trace_aspeed_gpio_read(offset, value); 659 return value; 660 } 661 662 static void aspeed_gpio_write_index_mode(void *opaque, hwaddr offset, 663 uint64_t data, uint32_t size) 664 { 665 AspeedGPIOState *s = ASPEED_GPIO(opaque); 666 AspeedGPIOClass *agc = ASPEED_GPIO_GET_CLASS(s); 667 const GPIOSetProperties *props; 668 GPIOSets *set; 669 uint32_t reg_idx_number = FIELD_EX32(data, GPIO_INDEX_REG, NUMBER); 670 uint32_t reg_idx_type = FIELD_EX32(data, GPIO_INDEX_REG, TYPE); 671 uint32_t reg_idx_command = FIELD_EX32(data, GPIO_INDEX_REG, COMMAND); 672 uint32_t set_idx = reg_idx_number / ASPEED_GPIOS_PER_SET; 673 uint32_t pin_idx = reg_idx_number % ASPEED_GPIOS_PER_SET; 674 uint32_t group_idx = pin_idx / GPIOS_PER_GROUP; 675 uint32_t reg_value = 0; 676 uint32_t pending = 0; 677 678 set = &s->sets[set_idx]; 679 props = &agc->props[set_idx]; 680 681 if (reg_idx_command) 682 qemu_log_mask(LOG_GUEST_ERROR, "%s: offset 0x%" PRIx64 "data 0x%" 683 PRIx64 "index mode wrong command 0x%x\n", 684 __func__, offset, data, reg_idx_command); 685 686 switch (reg_idx_type) { 687 case gpio_reg_idx_data: 688 reg_value = set->data_read; 689 reg_value = deposit32(reg_value, pin_idx, 1, 690 FIELD_EX32(data, GPIO_INDEX_REG, DATA_VALUE)); 691 reg_value &= props->output; 692 reg_value = update_value_control_source(set, set->data_value, 693 reg_value); 694 set->data_read = reg_value; 695 aspeed_gpio_update(s, set, reg_value, set->direction); 696 return; 697 case gpio_reg_idx_direction: 698 reg_value = set->direction; 699 reg_value = deposit32(reg_value, pin_idx, 1, 700 FIELD_EX32(data, GPIO_INDEX_REG, DIRECTION)); 701 /* 702 * where data is the value attempted to be written to the pin: 703 * pin type | input mask | output mask | expected value 704 * ------------------------------------------------------------ 705 * bidirectional | 1 | 1 | data 706 * input only | 1 | 0 | 0 707 * output only | 0 | 1 | 1 708 * no pin | 0 | 0 | 0 709 * 710 * which is captured by: 711 * data = ( data | ~input) & output; 712 */ 713 reg_value = (reg_value | ~props->input) & props->output; 714 set->direction = update_value_control_source(set, set->direction, 715 reg_value); 716 break; 717 case gpio_reg_idx_interrupt: 718 reg_value = set->int_enable; 719 reg_value = deposit32(reg_value, pin_idx, 1, 720 FIELD_EX32(data, GPIO_INDEX_REG, INT_ENABLE)); 721 set->int_enable = update_value_control_source(set, set->int_enable, 722 reg_value); 723 reg_value = set->int_sens_0; 724 reg_value = deposit32(reg_value, pin_idx, 1, 725 FIELD_EX32(data, GPIO_INDEX_REG, INT_SENS_0)); 726 set->int_sens_0 = update_value_control_source(set, set->int_sens_0, 727 reg_value); 728 reg_value = set->int_sens_1; 729 reg_value = deposit32(reg_value, pin_idx, 1, 730 FIELD_EX32(data, GPIO_INDEX_REG, INT_SENS_1)); 731 set->int_sens_1 = update_value_control_source(set, set->int_sens_1, 732 reg_value); 733 reg_value = set->int_sens_2; 734 reg_value = deposit32(reg_value, pin_idx, 1, 735 FIELD_EX32(data, GPIO_INDEX_REG, INT_SENS_2)); 736 set->int_sens_2 = update_value_control_source(set, set->int_sens_2, 737 reg_value); 738 /* interrupt status */ 739 if (FIELD_EX32(data, GPIO_INDEX_REG, INT_STATUS)) { 740 /* pending is either 1 or 0 for a 1-bit field */ 741 pending = extract32(set->int_status, pin_idx, 1); 742 743 assert(s->pending >= pending); 744 745 /* No change to s->pending if pending is 0 */ 746 s->pending -= pending; 747 748 /* 749 * The write acknowledged the interrupt regardless of whether it 750 * was pending or not. The post-condition is that it mustn't be 751 * pending. Unconditionally clear the status bit. 752 */ 753 set->int_status = deposit32(set->int_status, pin_idx, 1, 0); 754 } 755 break; 756 case gpio_reg_idx_debounce: 757 reg_value = set->debounce_1; 758 reg_value = deposit32(reg_value, pin_idx, 1, 759 FIELD_EX32(data, GPIO_INDEX_REG, DEBOUNCE_1)); 760 set->debounce_1 = update_value_control_source(set, set->debounce_1, 761 reg_value); 762 reg_value = set->debounce_2; 763 reg_value = deposit32(reg_value, pin_idx, 1, 764 FIELD_EX32(data, GPIO_INDEX_REG, DEBOUNCE_2)); 765 set->debounce_2 = update_value_control_source(set, set->debounce_2, 766 reg_value); 767 return; 768 case gpio_reg_idx_tolerance: 769 reg_value = set->reset_tol; 770 reg_value = deposit32(reg_value, pin_idx, 1, 771 FIELD_EX32(data, GPIO_INDEX_REG, RESET_TOLERANT)); 772 set->reset_tol = update_value_control_source(set, set->reset_tol, 773 reg_value); 774 return; 775 case gpio_reg_idx_cmd_src: 776 reg_value = set->cmd_source_0; 777 reg_value = deposit32(reg_value, GPIOS_PER_GROUP * group_idx, 1, 778 FIELD_EX32(data, GPIO_INDEX_REG, COMMAND_SRC_0)); 779 set->cmd_source_0 = reg_value & ASPEED_CMD_SRC_MASK; 780 reg_value = set->cmd_source_1; 781 reg_value = deposit32(reg_value, GPIOS_PER_GROUP * group_idx, 1, 782 FIELD_EX32(data, GPIO_INDEX_REG, COMMAND_SRC_1)); 783 set->cmd_source_1 = reg_value & ASPEED_CMD_SRC_MASK; 784 return; 785 case gpio_reg_idx_input_mask: 786 reg_value = set->input_mask; 787 reg_value = deposit32(reg_value, pin_idx, 1, 788 FIELD_EX32(data, GPIO_INDEX_REG, INPUT_MASK)); 789 /* 790 * feeds into interrupt generation 791 * 0: read from data value reg will be updated 792 * 1: read from data value reg will not be updated 793 */ 794 set->input_mask = reg_value & props->input; 795 break; 796 default: 797 qemu_log_mask(LOG_GUEST_ERROR, "%s: offset 0x%" PRIx64 "data 0x%" 798 PRIx64 "index mode wrong type 0x%x\n", 799 __func__, offset, data, reg_idx_type); 800 return; 801 } 802 aspeed_gpio_update(s, set, set->data_value, UINT32_MAX); 803 return; 804 } 805 806 static void aspeed_gpio_write(void *opaque, hwaddr offset, uint64_t data, 807 uint32_t size) 808 { 809 AspeedGPIOState *s = ASPEED_GPIO(opaque); 810 AspeedGPIOClass *agc = ASPEED_GPIO_GET_CLASS(s); 811 const GPIOSetProperties *props; 812 uint64_t idx = -1; 813 const AspeedGPIOReg *reg; 814 GPIOSets *set; 815 uint32_t cleared; 816 817 trace_aspeed_gpio_write(offset, data); 818 819 idx = offset >> 2; 820 821 /* check gpio index mode */ 822 if (idx == R_GPIO_INDEX_REG) { 823 aspeed_gpio_write_index_mode(opaque, offset, data, size); 824 return; 825 } 826 827 if (idx >= GPIO_DEBOUNCE_TIME_1 && idx <= GPIO_DEBOUNCE_TIME_3) { 828 idx -= GPIO_DEBOUNCE_TIME_1; 829 s->debounce_regs[idx] = (uint32_t) data; 830 return; 831 } 832 833 if (idx >= agc->reg_table_count) { 834 qemu_log_mask(LOG_GUEST_ERROR, "%s: idx 0x%" PRIx64 " out of bounds\n", 835 __func__, idx); 836 return; 837 } 838 839 reg = &agc->reg_table[idx]; 840 if (reg->set_idx >= agc->nr_gpio_sets) { 841 qemu_log_mask(LOG_GUEST_ERROR, "%s: no setter for offset 0x%" 842 PRIx64"\n", __func__, offset); 843 return; 844 } 845 846 set = &s->sets[reg->set_idx]; 847 props = &agc->props[reg->set_idx]; 848 849 switch (reg->type) { 850 case gpio_reg_data_value: 851 data &= props->output; 852 data = update_value_control_source(set, set->data_value, data); 853 set->data_read = data; 854 aspeed_gpio_update(s, set, data, set->direction); 855 return; 856 case gpio_reg_direction: 857 /* 858 * where data is the value attempted to be written to the pin: 859 * pin type | input mask | output mask | expected value 860 * ------------------------------------------------------------ 861 * bidirectional | 1 | 1 | data 862 * input only | 1 | 0 | 0 863 * output only | 0 | 1 | 1 864 * no pin | 0 | 0 | 0 865 * 866 * which is captured by: 867 * data = ( data | ~input) & output; 868 */ 869 data = (data | ~props->input) & props->output; 870 set->direction = update_value_control_source(set, set->direction, data); 871 break; 872 case gpio_reg_int_enable: 873 set->int_enable = update_value_control_source(set, set->int_enable, 874 data); 875 break; 876 case gpio_reg_int_sens_0: 877 set->int_sens_0 = update_value_control_source(set, set->int_sens_0, 878 data); 879 break; 880 case gpio_reg_int_sens_1: 881 set->int_sens_1 = update_value_control_source(set, set->int_sens_1, 882 data); 883 break; 884 case gpio_reg_int_sens_2: 885 set->int_sens_2 = update_value_control_source(set, set->int_sens_2, 886 data); 887 break; 888 case gpio_reg_int_status: 889 cleared = ctpop32(data & set->int_status); 890 if (s->pending && cleared) { 891 assert(s->pending >= cleared); 892 s->pending -= cleared; 893 } 894 set->int_status &= ~data; 895 break; 896 case gpio_reg_reset_tolerant: 897 set->reset_tol = update_value_control_source(set, set->reset_tol, 898 data); 899 return; 900 case gpio_reg_debounce_1: 901 set->debounce_1 = update_value_control_source(set, set->debounce_1, 902 data); 903 return; 904 case gpio_reg_debounce_2: 905 set->debounce_2 = update_value_control_source(set, set->debounce_2, 906 data); 907 return; 908 case gpio_reg_cmd_source_0: 909 set->cmd_source_0 = data & ASPEED_CMD_SRC_MASK; 910 return; 911 case gpio_reg_cmd_source_1: 912 set->cmd_source_1 = data & ASPEED_CMD_SRC_MASK; 913 return; 914 case gpio_reg_data_read: 915 /* Read only register */ 916 return; 917 case gpio_reg_input_mask: 918 /* 919 * feeds into interrupt generation 920 * 0: read from data value reg will be updated 921 * 1: read from data value reg will not be updated 922 */ 923 set->input_mask = data & props->input; 924 break; 925 default: 926 qemu_log_mask(LOG_GUEST_ERROR, "%s: no setter for offset 0x%" 927 PRIx64"\n", __func__, offset); 928 return; 929 } 930 aspeed_gpio_update(s, set, set->data_value, UINT32_MAX); 931 return; 932 } 933 934 static int get_set_idx(AspeedGPIOState *s, const char *group, int *group_idx) 935 { 936 AspeedGPIOClass *agc = ASPEED_GPIO_GET_CLASS(s); 937 int set_idx, g_idx; 938 939 for (set_idx = 0; set_idx < agc->nr_gpio_sets; set_idx++) { 940 const GPIOSetProperties *set_props = &agc->props[set_idx]; 941 for (g_idx = 0; g_idx < ASPEED_GROUPS_PER_SET; g_idx++) { 942 if (!strncmp(group, set_props->group_label[g_idx], strlen(group))) { 943 *group_idx = g_idx; 944 return set_idx; 945 } 946 } 947 } 948 return -1; 949 } 950 951 static void aspeed_gpio_get_pin(Object *obj, Visitor *v, const char *name, 952 void *opaque, Error **errp) 953 { 954 int pin = 0xfff; 955 bool level = true; 956 char group[4]; 957 AspeedGPIOState *s = ASPEED_GPIO(obj); 958 int set_idx, group_idx = 0; 959 960 if (sscanf(name, "gpio%2[A-Z]%1d", group, &pin) != 2) { 961 /* 1.8V gpio */ 962 if (sscanf(name, "gpio%3[18A-E]%1d", group, &pin) != 2) { 963 error_setg(errp, "%s: error reading %s", __func__, name); 964 return; 965 } 966 } 967 set_idx = get_set_idx(s, group, &group_idx); 968 if (set_idx == -1) { 969 error_setg(errp, "%s: invalid group %s", __func__, group); 970 return; 971 } 972 pin = pin + group_idx * GPIOS_PER_GROUP; 973 level = aspeed_gpio_get_pin_level(s, set_idx, pin); 974 visit_type_bool(v, name, &level, errp); 975 } 976 977 static void aspeed_gpio_set_pin(Object *obj, Visitor *v, const char *name, 978 void *opaque, Error **errp) 979 { 980 bool level; 981 int pin = 0xfff; 982 char group[4]; 983 AspeedGPIOState *s = ASPEED_GPIO(obj); 984 int set_idx, group_idx = 0; 985 986 if (!visit_type_bool(v, name, &level, errp)) { 987 return; 988 } 989 if (sscanf(name, "gpio%2[A-Z]%1d", group, &pin) != 2) { 990 /* 1.8V gpio */ 991 if (sscanf(name, "gpio%3[18A-E]%1d", group, &pin) != 2) { 992 error_setg(errp, "%s: error reading %s", __func__, name); 993 return; 994 } 995 } 996 set_idx = get_set_idx(s, group, &group_idx); 997 if (set_idx == -1) { 998 error_setg(errp, "%s: invalid group %s", __func__, group); 999 return; 1000 } 1001 pin = pin + group_idx * GPIOS_PER_GROUP; 1002 aspeed_gpio_set_pin_level(s, set_idx, pin, level); 1003 } 1004 1005 static uint64_t aspeed_gpio_2700_read_control_reg(AspeedGPIOState *s, 1006 uint32_t pin) 1007 { 1008 AspeedGPIOClass *agc = ASPEED_GPIO_GET_CLASS(s); 1009 GPIOSets *set; 1010 uint64_t value = 0; 1011 uint32_t set_idx; 1012 uint32_t pin_idx; 1013 1014 set_idx = pin / ASPEED_GPIOS_PER_SET; 1015 pin_idx = pin % ASPEED_GPIOS_PER_SET; 1016 1017 if (set_idx >= agc->nr_gpio_sets) { 1018 qemu_log_mask(LOG_GUEST_ERROR, "%s: set index: %d, out of bounds\n", 1019 __func__, set_idx); 1020 return 0; 1021 } 1022 1023 set = &s->sets[set_idx]; 1024 value = SHARED_FIELD_DP32(value, GPIO_CONTROL_OUT_DATA, 1025 extract32(set->data_read, pin_idx, 1)); 1026 value = SHARED_FIELD_DP32(value, GPIO_CONTROL_DIRECTION, 1027 extract32(set->direction, pin_idx, 1)); 1028 value = SHARED_FIELD_DP32(value, GPIO_CONTROL_INT_ENABLE, 1029 extract32(set->int_enable, pin_idx, 1)); 1030 value = SHARED_FIELD_DP32(value, GPIO_CONTROL_INT_SENS_0, 1031 extract32(set->int_sens_0, pin_idx, 1)); 1032 value = SHARED_FIELD_DP32(value, GPIO_CONTROL_INT_SENS_1, 1033 extract32(set->int_sens_1, pin_idx, 1)); 1034 value = SHARED_FIELD_DP32(value, GPIO_CONTROL_INT_SENS_2, 1035 extract32(set->int_sens_2, pin_idx, 1)); 1036 value = SHARED_FIELD_DP32(value, GPIO_CONTROL_RESET_TOLERANCE, 1037 extract32(set->reset_tol, pin_idx, 1)); 1038 value = SHARED_FIELD_DP32(value, GPIO_CONTROL_DEBOUNCE_1, 1039 extract32(set->debounce_1, pin_idx, 1)); 1040 value = SHARED_FIELD_DP32(value, GPIO_CONTROL_DEBOUNCE_2, 1041 extract32(set->debounce_2, pin_idx, 1)); 1042 value = SHARED_FIELD_DP32(value, GPIO_CONTROL_INPUT_MASK, 1043 extract32(set->input_mask, pin_idx, 1)); 1044 value = SHARED_FIELD_DP32(value, GPIO_CONTROL_INT_STATUS, 1045 extract32(set->int_status, pin_idx, 1)); 1046 value = SHARED_FIELD_DP32(value, GPIO_CONTROL_IN_DATA, 1047 extract32(set->data_value, pin_idx, 1)); 1048 return value; 1049 } 1050 1051 static void aspeed_gpio_2700_write_control_reg(AspeedGPIOState *s, 1052 uint32_t pin, uint64_t data) 1053 { 1054 AspeedGPIOClass *agc = ASPEED_GPIO_GET_CLASS(s); 1055 const GPIOSetProperties *props; 1056 GPIOSets *set; 1057 uint32_t set_idx; 1058 uint32_t pin_idx; 1059 uint32_t group_value = 0; 1060 uint32_t pending = 0; 1061 1062 set_idx = pin / ASPEED_GPIOS_PER_SET; 1063 pin_idx = pin % ASPEED_GPIOS_PER_SET; 1064 1065 if (set_idx >= agc->nr_gpio_sets) { 1066 qemu_log_mask(LOG_GUEST_ERROR, "%s: set index: %d, out of bounds\n", 1067 __func__, set_idx); 1068 return; 1069 } 1070 1071 set = &s->sets[set_idx]; 1072 props = &agc->props[set_idx]; 1073 1074 /* direction */ 1075 group_value = set->direction; 1076 group_value = deposit32(group_value, pin_idx, 1, 1077 SHARED_FIELD_EX32(data, GPIO_CONTROL_DIRECTION)); 1078 /* 1079 * where data is the value attempted to be written to the pin: 1080 * pin type | input mask | output mask | expected value 1081 * ------------------------------------------------------------ 1082 * bidirectional | 1 | 1 | data 1083 * input only | 1 | 0 | 0 1084 * output only | 0 | 1 | 1 1085 * no pin | 0 | 0 | 0 1086 * 1087 * which is captured by: 1088 * data = ( data | ~input) & output; 1089 */ 1090 group_value = (group_value | ~props->input) & props->output; 1091 set->direction = update_value_control_source(set, set->direction, 1092 group_value); 1093 1094 /* out data */ 1095 group_value = set->data_read; 1096 group_value = deposit32(group_value, pin_idx, 1, 1097 SHARED_FIELD_EX32(data, GPIO_CONTROL_OUT_DATA)); 1098 group_value &= props->output; 1099 group_value = update_value_control_source(set, set->data_read, 1100 group_value); 1101 set->data_read = group_value; 1102 1103 /* interrupt enable */ 1104 group_value = set->int_enable; 1105 group_value = deposit32(group_value, pin_idx, 1, 1106 SHARED_FIELD_EX32(data, GPIO_CONTROL_INT_ENABLE)); 1107 set->int_enable = update_value_control_source(set, set->int_enable, 1108 group_value); 1109 1110 /* interrupt sensitivity type 0 */ 1111 group_value = set->int_sens_0; 1112 group_value = deposit32(group_value, pin_idx, 1, 1113 SHARED_FIELD_EX32(data, GPIO_CONTROL_INT_SENS_0)); 1114 set->int_sens_0 = update_value_control_source(set, set->int_sens_0, 1115 group_value); 1116 1117 /* interrupt sensitivity type 1 */ 1118 group_value = set->int_sens_1; 1119 group_value = deposit32(group_value, pin_idx, 1, 1120 SHARED_FIELD_EX32(data, GPIO_CONTROL_INT_SENS_1)); 1121 set->int_sens_1 = update_value_control_source(set, set->int_sens_1, 1122 group_value); 1123 1124 /* interrupt sensitivity type 2 */ 1125 group_value = set->int_sens_2; 1126 group_value = deposit32(group_value, pin_idx, 1, 1127 SHARED_FIELD_EX32(data, GPIO_CONTROL_INT_SENS_2)); 1128 set->int_sens_2 = update_value_control_source(set, set->int_sens_2, 1129 group_value); 1130 1131 /* reset tolerance enable */ 1132 group_value = set->reset_tol; 1133 group_value = deposit32(group_value, pin_idx, 1, 1134 SHARED_FIELD_EX32(data, GPIO_CONTROL_RESET_TOLERANCE)); 1135 set->reset_tol = update_value_control_source(set, set->reset_tol, 1136 group_value); 1137 1138 /* debounce 1 */ 1139 group_value = set->debounce_1; 1140 group_value = deposit32(group_value, pin_idx, 1, 1141 SHARED_FIELD_EX32(data, GPIO_CONTROL_DEBOUNCE_1)); 1142 set->debounce_1 = update_value_control_source(set, set->debounce_1, 1143 group_value); 1144 1145 /* debounce 2 */ 1146 group_value = set->debounce_2; 1147 group_value = deposit32(group_value, pin_idx, 1, 1148 SHARED_FIELD_EX32(data, GPIO_CONTROL_DEBOUNCE_2)); 1149 set->debounce_2 = update_value_control_source(set, set->debounce_2, 1150 group_value); 1151 1152 /* input mask */ 1153 group_value = set->input_mask; 1154 group_value = deposit32(group_value, pin_idx, 1, 1155 SHARED_FIELD_EX32(data, GPIO_CONTROL_INPUT_MASK)); 1156 /* 1157 * feeds into interrupt generation 1158 * 0: read from data value reg will be updated 1159 * 1: read from data value reg will not be updated 1160 */ 1161 set->input_mask = group_value & props->input; 1162 1163 /* blink counter 1 */ 1164 /* blink counter 2 */ 1165 /* unimplement */ 1166 1167 /* interrupt status */ 1168 if (SHARED_FIELD_EX32(data, GPIO_CONTROL_INT_STATUS)) { 1169 /* pending is either 1 or 0 for a 1-bit field */ 1170 pending = extract32(set->int_status, pin_idx, 1); 1171 1172 assert(s->pending >= pending); 1173 1174 /* No change to s->pending if pending is 0 */ 1175 s->pending -= pending; 1176 1177 /* 1178 * The write acknowledged the interrupt regardless of whether it 1179 * was pending or not. The post-condition is that it mustn't be 1180 * pending. Unconditionally clear the status bit. 1181 */ 1182 set->int_status = deposit32(set->int_status, pin_idx, 1, 0); 1183 } 1184 1185 aspeed_gpio_update(s, set, set->data_value, UINT32_MAX); 1186 return; 1187 } 1188 1189 static uint64_t aspeed_gpio_2700_read(void *opaque, hwaddr offset, 1190 uint32_t size) 1191 { 1192 AspeedGPIOState *s = ASPEED_GPIO(opaque); 1193 AspeedGPIOClass *agc = ASPEED_GPIO_GET_CLASS(s); 1194 GPIOSets *set; 1195 uint64_t value; 1196 uint64_t reg; 1197 uint32_t pin; 1198 uint32_t idx; 1199 1200 reg = offset >> 2; 1201 1202 if (reg >= agc->reg_table_count) { 1203 qemu_log_mask(LOG_GUEST_ERROR, 1204 "%s: offset 0x%" PRIx64 " out of bounds\n", 1205 __func__, offset); 1206 return 0; 1207 } 1208 1209 switch (reg) { 1210 case R_GPIO_2700_DEBOUNCE_TIME_1 ... R_GPIO_2700_DEBOUNCE_TIME_3: 1211 idx = reg - R_GPIO_2700_DEBOUNCE_TIME_1; 1212 1213 if (idx >= ASPEED_GPIO_NR_DEBOUNCE_REGS) { 1214 qemu_log_mask(LOG_GUEST_ERROR, 1215 "%s: debounce index: %d, out of bounds\n", 1216 __func__, idx); 1217 return 0; 1218 } 1219 1220 value = (uint64_t) s->debounce_regs[idx]; 1221 break; 1222 case R_GPIO_2700_INT_STATUS_1 ... R_GPIO_2700_INT_STATUS_7: 1223 idx = reg - R_GPIO_2700_INT_STATUS_1; 1224 1225 if (idx >= agc->nr_gpio_sets) { 1226 qemu_log_mask(LOG_GUEST_ERROR, 1227 "%s: interrupt status index: %d, out of bounds\n", 1228 __func__, idx); 1229 return 0; 1230 } 1231 1232 set = &s->sets[idx]; 1233 value = (uint64_t) set->int_status; 1234 break; 1235 case R_GPIO_A0_CONTROL ... R_GPIO_AA7_CONTROL: 1236 pin = reg - R_GPIO_A0_CONTROL; 1237 1238 if (pin >= agc->nr_gpio_pins) { 1239 qemu_log_mask(LOG_GUEST_ERROR, "%s: invalid pin number: %d\n", 1240 __func__, pin); 1241 return 0; 1242 } 1243 1244 value = aspeed_gpio_2700_read_control_reg(s, pin); 1245 break; 1246 default: 1247 qemu_log_mask(LOG_GUEST_ERROR, "%s: no getter for offset 0x%" 1248 PRIx64"\n", __func__, offset); 1249 return 0; 1250 } 1251 1252 trace_aspeed_gpio_read(offset, value); 1253 return value; 1254 } 1255 1256 static void aspeed_gpio_2700_write(void *opaque, hwaddr offset, 1257 uint64_t data, uint32_t size) 1258 { 1259 AspeedGPIOState *s = ASPEED_GPIO(opaque); 1260 AspeedGPIOClass *agc = ASPEED_GPIO_GET_CLASS(s); 1261 uint64_t reg; 1262 uint32_t pin; 1263 uint32_t idx; 1264 1265 trace_aspeed_gpio_write(offset, data); 1266 1267 reg = offset >> 2; 1268 1269 if (reg >= agc->reg_table_count) { 1270 qemu_log_mask(LOG_GUEST_ERROR, 1271 "%s: offset 0x%" PRIx64 " out of bounds\n", 1272 __func__, offset); 1273 return; 1274 } 1275 1276 switch (reg) { 1277 case R_GPIO_2700_DEBOUNCE_TIME_1 ... R_GPIO_2700_DEBOUNCE_TIME_3: 1278 idx = reg - R_GPIO_2700_DEBOUNCE_TIME_1; 1279 1280 if (idx >= ASPEED_GPIO_NR_DEBOUNCE_REGS) { 1281 qemu_log_mask(LOG_GUEST_ERROR, 1282 "%s: debounce index: %d out of bounds\n", 1283 __func__, idx); 1284 return; 1285 } 1286 1287 s->debounce_regs[idx] = (uint32_t) data; 1288 break; 1289 case R_GPIO_A0_CONTROL ... R_GPIO_AA7_CONTROL: 1290 pin = reg - R_GPIO_A0_CONTROL; 1291 1292 if (pin >= agc->nr_gpio_pins) { 1293 qemu_log_mask(LOG_GUEST_ERROR, "%s: invalid pin number: %d\n", 1294 __func__, pin); 1295 return; 1296 } 1297 1298 if (SHARED_FIELD_EX32(data, GPIO_CONTROL_RESERVED)) { 1299 qemu_log_mask(LOG_GUEST_ERROR, "%s: invalid reserved data: 0x%" 1300 PRIx64"\n", __func__, data); 1301 return; 1302 } 1303 1304 aspeed_gpio_2700_write_control_reg(s, pin, data); 1305 break; 1306 default: 1307 qemu_log_mask(LOG_GUEST_ERROR, "%s: no setter for offset 0x%" 1308 PRIx64"\n", __func__, offset); 1309 break; 1310 } 1311 1312 return; 1313 } 1314 1315 /* Setup functions */ 1316 static const GPIOSetProperties ast2400_set_props[ASPEED_GPIO_MAX_NR_SETS] = { 1317 [0] = {0xffffffff, 0xffffffff, {"A", "B", "C", "D"} }, 1318 [1] = {0xffffffff, 0xffffffff, {"E", "F", "G", "H"} }, 1319 [2] = {0xffffffff, 0xffffffff, {"I", "J", "K", "L"} }, 1320 [3] = {0xffffffff, 0xffffffff, {"M", "N", "O", "P"} }, 1321 [4] = {0xffffffff, 0xffffffff, {"Q", "R", "S", "T"} }, 1322 [5] = {0xffffffff, 0x0000ffff, {"U", "V", "W", "X"} }, 1323 [6] = {0x0000000f, 0x0fffff0f, {"Y", "Z", "AA", "AB"} }, 1324 }; 1325 1326 static const GPIOSetProperties ast2500_set_props[ASPEED_GPIO_MAX_NR_SETS] = { 1327 [0] = {0xffffffff, 0xffffffff, {"A", "B", "C", "D"} }, 1328 [1] = {0xffffffff, 0xffffffff, {"E", "F", "G", "H"} }, 1329 [2] = {0xffffffff, 0xffffffff, {"I", "J", "K", "L"} }, 1330 [3] = {0xffffffff, 0xffffffff, {"M", "N", "O", "P"} }, 1331 [4] = {0xffffffff, 0xffffffff, {"Q", "R", "S", "T"} }, 1332 [5] = {0xffffffff, 0x0000ffff, {"U", "V", "W", "X"} }, 1333 [6] = {0x0fffffff, 0x0fffffff, {"Y", "Z", "AA", "AB"} }, 1334 [7] = {0x000000ff, 0x000000ff, {"AC"} }, 1335 }; 1336 1337 static GPIOSetProperties ast2600_3_3v_set_props[ASPEED_GPIO_MAX_NR_SETS] = { 1338 [0] = {0xffffffff, 0xffffffff, {"A", "B", "C", "D"} }, 1339 [1] = {0xffffffff, 0xffffffff, {"E", "F", "G", "H"} }, 1340 [2] = {0xffffffff, 0xffffffff, {"I", "J", "K", "L"} }, 1341 [3] = {0xffffffff, 0xffffffff, {"M", "N", "O", "P"} }, 1342 [4] = {0xffffffff, 0x00ffffff, {"Q", "R", "S", "T"} }, 1343 [5] = {0xffffffff, 0xffffff00, {"U", "V", "W", "X"} }, 1344 [6] = {0x0000ffff, 0x0000ffff, {"Y", "Z"} }, 1345 }; 1346 1347 static GPIOSetProperties ast2600_1_8v_set_props[ASPEED_GPIO_MAX_NR_SETS] = { 1348 [0] = {0xffffffff, 0xffffffff, {"18A", "18B", "18C", "18D"} }, 1349 [1] = {0x0000000f, 0x0000000f, {"18E"} }, 1350 }; 1351 1352 static GPIOSetProperties ast1030_set_props[ASPEED_GPIO_MAX_NR_SETS] = { 1353 [0] = {0xffffffff, 0xffffffff, {"A", "B", "C", "D"} }, 1354 [1] = {0xffffffff, 0xffffffff, {"E", "F", "G", "H"} }, 1355 [2] = {0xffffffff, 0xffffffff, {"I", "J", "K", "L"} }, 1356 [3] = {0xffffff3f, 0xffffff3f, {"M", "N", "O", "P"} }, 1357 [4] = {0xff060c1f, 0x00060c1f, {"Q", "R", "S", "T"} }, 1358 [5] = {0x000000ff, 0x00000000, {"U"} }, 1359 }; 1360 1361 static GPIOSetProperties ast2700_set_props[ASPEED_GPIO_MAX_NR_SETS] = { 1362 [0] = {0xffffffff, 0xffffffff, {"A", "B", "C", "D"} }, 1363 [1] = {0x0fffffff, 0x0fffffff, {"E", "F", "G", "H"} }, 1364 [2] = {0xffffffff, 0xffffffff, {"I", "J", "K", "L"} }, 1365 [3] = {0xffffffff, 0xffffffff, {"M", "N", "O", "P"} }, 1366 [4] = {0xffffffff, 0xffffffff, {"Q", "R", "S", "T"} }, 1367 [5] = {0xffffffff, 0xffffffff, {"U", "V", "W", "X"} }, 1368 [6] = {0x00ffffff, 0x00ffffff, {"Y", "Z", "AA"} }, 1369 }; 1370 1371 static const MemoryRegionOps aspeed_gpio_ops = { 1372 .read = aspeed_gpio_read, 1373 .write = aspeed_gpio_write, 1374 .endianness = DEVICE_LITTLE_ENDIAN, 1375 .valid.min_access_size = 1, 1376 .valid.max_access_size = 4, 1377 }; 1378 1379 static const MemoryRegionOps aspeed_gpio_2700_ops = { 1380 .read = aspeed_gpio_2700_read, 1381 .write = aspeed_gpio_2700_write, 1382 .endianness = DEVICE_LITTLE_ENDIAN, 1383 .valid.min_access_size = 1, 1384 .valid.max_access_size = 4, 1385 }; 1386 1387 static void aspeed_gpio_reset(DeviceState *dev) 1388 { 1389 AspeedGPIOState *s = ASPEED_GPIO(dev); 1390 1391 /* TODO: respect the reset tolerance registers */ 1392 memset(s->sets, 0, sizeof(s->sets)); 1393 } 1394 1395 static void aspeed_gpio_realize(DeviceState *dev, Error **errp) 1396 { 1397 AspeedGPIOState *s = ASPEED_GPIO(dev); 1398 SysBusDevice *sbd = SYS_BUS_DEVICE(dev); 1399 AspeedGPIOClass *agc = ASPEED_GPIO_GET_CLASS(s); 1400 1401 /* Interrupt parent line */ 1402 sysbus_init_irq(sbd, &s->irq); 1403 1404 /* Individual GPIOs */ 1405 for (int i = 0; i < ASPEED_GPIO_MAX_NR_SETS; i++) { 1406 const GPIOSetProperties *props = &agc->props[i]; 1407 uint32_t skip = ~(props->input | props->output); 1408 for (int j = 0; j < ASPEED_GPIOS_PER_SET; j++) { 1409 if (skip >> j & 1) { 1410 continue; 1411 } 1412 sysbus_init_irq(sbd, &s->gpios[i][j]); 1413 } 1414 } 1415 1416 memory_region_init_io(&s->iomem, OBJECT(s), agc->reg_ops, s, 1417 TYPE_ASPEED_GPIO, agc->mem_size); 1418 1419 sysbus_init_mmio(sbd, &s->iomem); 1420 } 1421 1422 static void aspeed_gpio_init(Object *obj) 1423 { 1424 AspeedGPIOState *s = ASPEED_GPIO(obj); 1425 AspeedGPIOClass *agc = ASPEED_GPIO_GET_CLASS(s); 1426 1427 for (int i = 0; i < ASPEED_GPIO_MAX_NR_SETS; i++) { 1428 const GPIOSetProperties *props = &agc->props[i]; 1429 uint32_t skip = ~(props->input | props->output); 1430 for (int j = 0; j < ASPEED_GPIOS_PER_SET; j++) { 1431 if (skip >> j & 1) { 1432 continue; 1433 } 1434 int group_idx = j / GPIOS_PER_GROUP; 1435 int pin_idx = j % GPIOS_PER_GROUP; 1436 const char *group = &props->group_label[group_idx][0]; 1437 char *name = g_strdup_printf("gpio%s%d", group, pin_idx); 1438 object_property_add(obj, name, "bool", aspeed_gpio_get_pin, 1439 aspeed_gpio_set_pin, NULL, NULL); 1440 g_free(name); 1441 } 1442 } 1443 } 1444 1445 static const VMStateDescription vmstate_gpio_regs = { 1446 .name = TYPE_ASPEED_GPIO"/regs", 1447 .version_id = 1, 1448 .minimum_version_id = 1, 1449 .fields = (const VMStateField[]) { 1450 VMSTATE_UINT32(data_value, GPIOSets), 1451 VMSTATE_UINT32(data_read, GPIOSets), 1452 VMSTATE_UINT32(direction, GPIOSets), 1453 VMSTATE_UINT32(int_enable, GPIOSets), 1454 VMSTATE_UINT32(int_sens_0, GPIOSets), 1455 VMSTATE_UINT32(int_sens_1, GPIOSets), 1456 VMSTATE_UINT32(int_sens_2, GPIOSets), 1457 VMSTATE_UINT32(int_status, GPIOSets), 1458 VMSTATE_UINT32(reset_tol, GPIOSets), 1459 VMSTATE_UINT32(cmd_source_0, GPIOSets), 1460 VMSTATE_UINT32(cmd_source_1, GPIOSets), 1461 VMSTATE_UINT32(debounce_1, GPIOSets), 1462 VMSTATE_UINT32(debounce_2, GPIOSets), 1463 VMSTATE_UINT32(input_mask, GPIOSets), 1464 VMSTATE_END_OF_LIST(), 1465 } 1466 }; 1467 1468 static const VMStateDescription vmstate_aspeed_gpio = { 1469 .name = TYPE_ASPEED_GPIO, 1470 .version_id = 1, 1471 .minimum_version_id = 1, 1472 .fields = (const VMStateField[]) { 1473 VMSTATE_STRUCT_ARRAY(sets, AspeedGPIOState, ASPEED_GPIO_MAX_NR_SETS, 1474 1, vmstate_gpio_regs, GPIOSets), 1475 VMSTATE_UINT32_ARRAY(debounce_regs, AspeedGPIOState, 1476 ASPEED_GPIO_NR_DEBOUNCE_REGS), 1477 VMSTATE_END_OF_LIST(), 1478 } 1479 }; 1480 1481 static void aspeed_gpio_class_init(ObjectClass *klass, void *data) 1482 { 1483 DeviceClass *dc = DEVICE_CLASS(klass); 1484 1485 dc->realize = aspeed_gpio_realize; 1486 device_class_set_legacy_reset(dc, aspeed_gpio_reset); 1487 dc->desc = "Aspeed GPIO Controller"; 1488 dc->vmsd = &vmstate_aspeed_gpio; 1489 } 1490 1491 static void aspeed_gpio_ast2400_class_init(ObjectClass *klass, void *data) 1492 { 1493 AspeedGPIOClass *agc = ASPEED_GPIO_CLASS(klass); 1494 1495 agc->props = ast2400_set_props; 1496 agc->nr_gpio_pins = 216; 1497 agc->nr_gpio_sets = 7; 1498 agc->reg_table = aspeed_3_3v_gpios; 1499 agc->reg_table_count = GPIO_3_3V_REG_ARRAY_SIZE; 1500 agc->mem_size = 0x1000; 1501 agc->reg_ops = &aspeed_gpio_ops; 1502 } 1503 1504 static void aspeed_gpio_2500_class_init(ObjectClass *klass, void *data) 1505 { 1506 AspeedGPIOClass *agc = ASPEED_GPIO_CLASS(klass); 1507 1508 agc->props = ast2500_set_props; 1509 agc->nr_gpio_pins = 228; 1510 agc->nr_gpio_sets = 8; 1511 agc->reg_table = aspeed_3_3v_gpios; 1512 agc->reg_table_count = GPIO_3_3V_REG_ARRAY_SIZE; 1513 agc->mem_size = 0x1000; 1514 agc->reg_ops = &aspeed_gpio_ops; 1515 } 1516 1517 static void aspeed_gpio_ast2600_3_3v_class_init(ObjectClass *klass, void *data) 1518 { 1519 AspeedGPIOClass *agc = ASPEED_GPIO_CLASS(klass); 1520 1521 agc->props = ast2600_3_3v_set_props; 1522 agc->nr_gpio_pins = 208; 1523 agc->nr_gpio_sets = 7; 1524 agc->reg_table = aspeed_3_3v_gpios; 1525 agc->reg_table_count = GPIO_3_3V_REG_ARRAY_SIZE; 1526 agc->mem_size = 0x800; 1527 agc->reg_ops = &aspeed_gpio_ops; 1528 } 1529 1530 static void aspeed_gpio_ast2600_1_8v_class_init(ObjectClass *klass, void *data) 1531 { 1532 AspeedGPIOClass *agc = ASPEED_GPIO_CLASS(klass); 1533 1534 agc->props = ast2600_1_8v_set_props; 1535 agc->nr_gpio_pins = 36; 1536 agc->nr_gpio_sets = 2; 1537 agc->reg_table = aspeed_1_8v_gpios; 1538 agc->reg_table_count = GPIO_1_8V_REG_ARRAY_SIZE; 1539 agc->mem_size = 0x800; 1540 agc->reg_ops = &aspeed_gpio_ops; 1541 } 1542 1543 static void aspeed_gpio_1030_class_init(ObjectClass *klass, void *data) 1544 { 1545 AspeedGPIOClass *agc = ASPEED_GPIO_CLASS(klass); 1546 1547 agc->props = ast1030_set_props; 1548 agc->nr_gpio_pins = 151; 1549 agc->nr_gpio_sets = 6; 1550 agc->reg_table = aspeed_3_3v_gpios; 1551 agc->reg_table_count = GPIO_3_3V_REG_ARRAY_SIZE; 1552 agc->mem_size = 0x1000; 1553 agc->reg_ops = &aspeed_gpio_ops; 1554 } 1555 1556 static void aspeed_gpio_2700_class_init(ObjectClass *klass, void *data) 1557 { 1558 AspeedGPIOClass *agc = ASPEED_GPIO_CLASS(klass); 1559 1560 agc->props = ast2700_set_props; 1561 agc->nr_gpio_pins = 216; 1562 agc->nr_gpio_sets = 7; 1563 agc->reg_table_count = GPIO_2700_REG_ARRAY_SIZE; 1564 agc->mem_size = 0x1000; 1565 agc->reg_ops = &aspeed_gpio_2700_ops; 1566 } 1567 1568 static const TypeInfo aspeed_gpio_info = { 1569 .name = TYPE_ASPEED_GPIO, 1570 .parent = TYPE_SYS_BUS_DEVICE, 1571 .instance_size = sizeof(AspeedGPIOState), 1572 .class_size = sizeof(AspeedGPIOClass), 1573 .class_init = aspeed_gpio_class_init, 1574 .abstract = true, 1575 }; 1576 1577 static const TypeInfo aspeed_gpio_ast2400_info = { 1578 .name = TYPE_ASPEED_GPIO "-ast2400", 1579 .parent = TYPE_ASPEED_GPIO, 1580 .class_init = aspeed_gpio_ast2400_class_init, 1581 .instance_init = aspeed_gpio_init, 1582 }; 1583 1584 static const TypeInfo aspeed_gpio_ast2500_info = { 1585 .name = TYPE_ASPEED_GPIO "-ast2500", 1586 .parent = TYPE_ASPEED_GPIO, 1587 .class_init = aspeed_gpio_2500_class_init, 1588 .instance_init = aspeed_gpio_init, 1589 }; 1590 1591 static const TypeInfo aspeed_gpio_ast2600_3_3v_info = { 1592 .name = TYPE_ASPEED_GPIO "-ast2600", 1593 .parent = TYPE_ASPEED_GPIO, 1594 .class_init = aspeed_gpio_ast2600_3_3v_class_init, 1595 .instance_init = aspeed_gpio_init, 1596 }; 1597 1598 static const TypeInfo aspeed_gpio_ast2600_1_8v_info = { 1599 .name = TYPE_ASPEED_GPIO "-ast2600-1_8v", 1600 .parent = TYPE_ASPEED_GPIO, 1601 .class_init = aspeed_gpio_ast2600_1_8v_class_init, 1602 .instance_init = aspeed_gpio_init, 1603 }; 1604 1605 static const TypeInfo aspeed_gpio_ast1030_info = { 1606 .name = TYPE_ASPEED_GPIO "-ast1030", 1607 .parent = TYPE_ASPEED_GPIO, 1608 .class_init = aspeed_gpio_1030_class_init, 1609 .instance_init = aspeed_gpio_init, 1610 }; 1611 1612 static const TypeInfo aspeed_gpio_ast2700_info = { 1613 .name = TYPE_ASPEED_GPIO "-ast2700", 1614 .parent = TYPE_ASPEED_GPIO, 1615 .class_init = aspeed_gpio_2700_class_init, 1616 .instance_init = aspeed_gpio_init, 1617 }; 1618 1619 static void aspeed_gpio_register_types(void) 1620 { 1621 type_register_static(&aspeed_gpio_info); 1622 type_register_static(&aspeed_gpio_ast2400_info); 1623 type_register_static(&aspeed_gpio_ast2500_info); 1624 type_register_static(&aspeed_gpio_ast2600_3_3v_info); 1625 type_register_static(&aspeed_gpio_ast2600_1_8v_info); 1626 type_register_static(&aspeed_gpio_ast1030_info); 1627 type_register_static(&aspeed_gpio_ast2700_info); 1628 } 1629 1630 type_init(aspeed_gpio_register_types); 1631