1*c04bd47dSAndrew Jeffery /* 2*c04bd47dSAndrew Jeffery * ASPEED AST2400 Timer 3*c04bd47dSAndrew Jeffery * 4*c04bd47dSAndrew Jeffery * Andrew Jeffery <andrew@aj.id.au> 5*c04bd47dSAndrew Jeffery * 6*c04bd47dSAndrew Jeffery * Copyright (C) 2016 IBM Corp. 7*c04bd47dSAndrew Jeffery * 8*c04bd47dSAndrew Jeffery * This code is licensed under the GPL version 2 or later. See 9*c04bd47dSAndrew Jeffery * the COPYING file in the top-level directory. 10*c04bd47dSAndrew Jeffery */ 11*c04bd47dSAndrew Jeffery 12*c04bd47dSAndrew Jeffery #include "qemu/osdep.h" 13*c04bd47dSAndrew Jeffery #include "hw/ptimer.h" 14*c04bd47dSAndrew Jeffery #include "hw/sysbus.h" 15*c04bd47dSAndrew Jeffery #include "hw/timer/aspeed_timer.h" 16*c04bd47dSAndrew Jeffery #include "qemu-common.h" 17*c04bd47dSAndrew Jeffery #include "qemu/bitops.h" 18*c04bd47dSAndrew Jeffery #include "qemu/main-loop.h" 19*c04bd47dSAndrew Jeffery #include "qemu/timer.h" 20*c04bd47dSAndrew Jeffery #include "trace.h" 21*c04bd47dSAndrew Jeffery 22*c04bd47dSAndrew Jeffery #define TIMER_NR_REGS 4 23*c04bd47dSAndrew Jeffery 24*c04bd47dSAndrew Jeffery #define TIMER_CTRL_BITS 4 25*c04bd47dSAndrew Jeffery #define TIMER_CTRL_MASK ((1 << TIMER_CTRL_BITS) - 1) 26*c04bd47dSAndrew Jeffery 27*c04bd47dSAndrew Jeffery #define TIMER_CLOCK_USE_EXT true 28*c04bd47dSAndrew Jeffery #define TIMER_CLOCK_EXT_HZ 1000000 29*c04bd47dSAndrew Jeffery #define TIMER_CLOCK_USE_APB false 30*c04bd47dSAndrew Jeffery #define TIMER_CLOCK_APB_HZ 24000000 31*c04bd47dSAndrew Jeffery 32*c04bd47dSAndrew Jeffery #define TIMER_REG_STATUS 0 33*c04bd47dSAndrew Jeffery #define TIMER_REG_RELOAD 1 34*c04bd47dSAndrew Jeffery #define TIMER_REG_MATCH_FIRST 2 35*c04bd47dSAndrew Jeffery #define TIMER_REG_MATCH_SECOND 3 36*c04bd47dSAndrew Jeffery 37*c04bd47dSAndrew Jeffery #define TIMER_FIRST_CAP_PULSE 4 38*c04bd47dSAndrew Jeffery 39*c04bd47dSAndrew Jeffery enum timer_ctrl_op { 40*c04bd47dSAndrew Jeffery op_enable = 0, 41*c04bd47dSAndrew Jeffery op_external_clock, 42*c04bd47dSAndrew Jeffery op_overflow_interrupt, 43*c04bd47dSAndrew Jeffery op_pulse_enable 44*c04bd47dSAndrew Jeffery }; 45*c04bd47dSAndrew Jeffery 46*c04bd47dSAndrew Jeffery /** 47*c04bd47dSAndrew Jeffery * Avoid mutual references between AspeedTimerCtrlState and AspeedTimer 48*c04bd47dSAndrew Jeffery * structs, as it's a waste of memory. The ptimer BH callback needs to know 49*c04bd47dSAndrew Jeffery * whether a specific AspeedTimer is enabled, but this information is held in 50*c04bd47dSAndrew Jeffery * AspeedTimerCtrlState. So, provide a helper to hoist ourselves from an 51*c04bd47dSAndrew Jeffery * arbitrary AspeedTimer to AspeedTimerCtrlState. 52*c04bd47dSAndrew Jeffery */ 53*c04bd47dSAndrew Jeffery static inline AspeedTimerCtrlState *timer_to_ctrl(AspeedTimer *t) 54*c04bd47dSAndrew Jeffery { 55*c04bd47dSAndrew Jeffery const AspeedTimer (*timers)[] = (void *)t - (t->id * sizeof(*t)); 56*c04bd47dSAndrew Jeffery return container_of(timers, AspeedTimerCtrlState, timers); 57*c04bd47dSAndrew Jeffery } 58*c04bd47dSAndrew Jeffery 59*c04bd47dSAndrew Jeffery static inline bool timer_ctrl_status(AspeedTimer *t, enum timer_ctrl_op op) 60*c04bd47dSAndrew Jeffery { 61*c04bd47dSAndrew Jeffery return !!(timer_to_ctrl(t)->ctrl & BIT(t->id * TIMER_CTRL_BITS + op)); 62*c04bd47dSAndrew Jeffery } 63*c04bd47dSAndrew Jeffery 64*c04bd47dSAndrew Jeffery static inline bool timer_enabled(AspeedTimer *t) 65*c04bd47dSAndrew Jeffery { 66*c04bd47dSAndrew Jeffery return timer_ctrl_status(t, op_enable); 67*c04bd47dSAndrew Jeffery } 68*c04bd47dSAndrew Jeffery 69*c04bd47dSAndrew Jeffery static inline bool timer_overflow_interrupt(AspeedTimer *t) 70*c04bd47dSAndrew Jeffery { 71*c04bd47dSAndrew Jeffery return timer_ctrl_status(t, op_overflow_interrupt); 72*c04bd47dSAndrew Jeffery } 73*c04bd47dSAndrew Jeffery 74*c04bd47dSAndrew Jeffery static inline bool timer_can_pulse(AspeedTimer *t) 75*c04bd47dSAndrew Jeffery { 76*c04bd47dSAndrew Jeffery return t->id >= TIMER_FIRST_CAP_PULSE; 77*c04bd47dSAndrew Jeffery } 78*c04bd47dSAndrew Jeffery 79*c04bd47dSAndrew Jeffery static void aspeed_timer_expire(void *opaque) 80*c04bd47dSAndrew Jeffery { 81*c04bd47dSAndrew Jeffery AspeedTimer *t = opaque; 82*c04bd47dSAndrew Jeffery 83*c04bd47dSAndrew Jeffery /* Only support interrupts on match values of zero for the moment - this is 84*c04bd47dSAndrew Jeffery * sufficient to boot an aspeed_defconfig Linux kernel. 85*c04bd47dSAndrew Jeffery * 86*c04bd47dSAndrew Jeffery * TODO: matching on arbitrary values (see e.g. hw/timer/a9gtimer.c) 87*c04bd47dSAndrew Jeffery */ 88*c04bd47dSAndrew Jeffery bool match = !(t->match[0] && t->match[1]); 89*c04bd47dSAndrew Jeffery bool interrupt = timer_overflow_interrupt(t) || match; 90*c04bd47dSAndrew Jeffery if (timer_enabled(t) && interrupt) { 91*c04bd47dSAndrew Jeffery t->level = !t->level; 92*c04bd47dSAndrew Jeffery qemu_set_irq(t->irq, t->level); 93*c04bd47dSAndrew Jeffery } 94*c04bd47dSAndrew Jeffery } 95*c04bd47dSAndrew Jeffery 96*c04bd47dSAndrew Jeffery static uint64_t aspeed_timer_get_value(AspeedTimer *t, int reg) 97*c04bd47dSAndrew Jeffery { 98*c04bd47dSAndrew Jeffery uint64_t value; 99*c04bd47dSAndrew Jeffery 100*c04bd47dSAndrew Jeffery switch (reg) { 101*c04bd47dSAndrew Jeffery case TIMER_REG_STATUS: 102*c04bd47dSAndrew Jeffery value = ptimer_get_count(t->timer); 103*c04bd47dSAndrew Jeffery break; 104*c04bd47dSAndrew Jeffery case TIMER_REG_RELOAD: 105*c04bd47dSAndrew Jeffery value = t->reload; 106*c04bd47dSAndrew Jeffery break; 107*c04bd47dSAndrew Jeffery case TIMER_REG_MATCH_FIRST: 108*c04bd47dSAndrew Jeffery case TIMER_REG_MATCH_SECOND: 109*c04bd47dSAndrew Jeffery value = t->match[reg - 2]; 110*c04bd47dSAndrew Jeffery break; 111*c04bd47dSAndrew Jeffery default: 112*c04bd47dSAndrew Jeffery qemu_log_mask(LOG_UNIMP, "%s: Programming error: unexpected reg: %d\n", 113*c04bd47dSAndrew Jeffery __func__, reg); 114*c04bd47dSAndrew Jeffery value = 0; 115*c04bd47dSAndrew Jeffery break; 116*c04bd47dSAndrew Jeffery } 117*c04bd47dSAndrew Jeffery return value; 118*c04bd47dSAndrew Jeffery } 119*c04bd47dSAndrew Jeffery 120*c04bd47dSAndrew Jeffery static uint64_t aspeed_timer_read(void *opaque, hwaddr offset, unsigned size) 121*c04bd47dSAndrew Jeffery { 122*c04bd47dSAndrew Jeffery AspeedTimerCtrlState *s = opaque; 123*c04bd47dSAndrew Jeffery const int reg = (offset & 0xf) / 4; 124*c04bd47dSAndrew Jeffery uint64_t value; 125*c04bd47dSAndrew Jeffery 126*c04bd47dSAndrew Jeffery switch (offset) { 127*c04bd47dSAndrew Jeffery case 0x30: /* Control Register */ 128*c04bd47dSAndrew Jeffery value = s->ctrl; 129*c04bd47dSAndrew Jeffery break; 130*c04bd47dSAndrew Jeffery case 0x34: /* Control Register 2 */ 131*c04bd47dSAndrew Jeffery value = s->ctrl2; 132*c04bd47dSAndrew Jeffery break; 133*c04bd47dSAndrew Jeffery case 0x00 ... 0x2c: /* Timers 1 - 4 */ 134*c04bd47dSAndrew Jeffery value = aspeed_timer_get_value(&s->timers[(offset >> 4)], reg); 135*c04bd47dSAndrew Jeffery break; 136*c04bd47dSAndrew Jeffery case 0x40 ... 0x8c: /* Timers 5 - 8 */ 137*c04bd47dSAndrew Jeffery value = aspeed_timer_get_value(&s->timers[(offset >> 4) - 1], reg); 138*c04bd47dSAndrew Jeffery break; 139*c04bd47dSAndrew Jeffery /* Illegal */ 140*c04bd47dSAndrew Jeffery case 0x38: 141*c04bd47dSAndrew Jeffery case 0x3C: 142*c04bd47dSAndrew Jeffery default: 143*c04bd47dSAndrew Jeffery qemu_log_mask(LOG_GUEST_ERROR, "%s: Bad offset 0x%" HWADDR_PRIx "\n", 144*c04bd47dSAndrew Jeffery __func__, offset); 145*c04bd47dSAndrew Jeffery value = 0; 146*c04bd47dSAndrew Jeffery break; 147*c04bd47dSAndrew Jeffery } 148*c04bd47dSAndrew Jeffery trace_aspeed_timer_read(offset, size, value); 149*c04bd47dSAndrew Jeffery return value; 150*c04bd47dSAndrew Jeffery } 151*c04bd47dSAndrew Jeffery 152*c04bd47dSAndrew Jeffery static void aspeed_timer_set_value(AspeedTimerCtrlState *s, int timer, int reg, 153*c04bd47dSAndrew Jeffery uint32_t value) 154*c04bd47dSAndrew Jeffery { 155*c04bd47dSAndrew Jeffery AspeedTimer *t; 156*c04bd47dSAndrew Jeffery 157*c04bd47dSAndrew Jeffery trace_aspeed_timer_set_value(timer, reg, value); 158*c04bd47dSAndrew Jeffery t = &s->timers[timer]; 159*c04bd47dSAndrew Jeffery switch (reg) { 160*c04bd47dSAndrew Jeffery case TIMER_REG_STATUS: 161*c04bd47dSAndrew Jeffery if (timer_enabled(t)) { 162*c04bd47dSAndrew Jeffery ptimer_set_count(t->timer, value); 163*c04bd47dSAndrew Jeffery } 164*c04bd47dSAndrew Jeffery break; 165*c04bd47dSAndrew Jeffery case TIMER_REG_RELOAD: 166*c04bd47dSAndrew Jeffery t->reload = value; 167*c04bd47dSAndrew Jeffery ptimer_set_limit(t->timer, value, 1); 168*c04bd47dSAndrew Jeffery break; 169*c04bd47dSAndrew Jeffery case TIMER_REG_MATCH_FIRST: 170*c04bd47dSAndrew Jeffery case TIMER_REG_MATCH_SECOND: 171*c04bd47dSAndrew Jeffery if (value) { 172*c04bd47dSAndrew Jeffery /* Non-zero match values are unsupported. As such an interrupt will 173*c04bd47dSAndrew Jeffery * always be triggered when the timer reaches zero even if the 174*c04bd47dSAndrew Jeffery * overflow interrupt control bit is clear. 175*c04bd47dSAndrew Jeffery */ 176*c04bd47dSAndrew Jeffery qemu_log_mask(LOG_UNIMP, "%s: Match value unsupported by device: " 177*c04bd47dSAndrew Jeffery "0x%" PRIx32 "\n", __func__, value); 178*c04bd47dSAndrew Jeffery } else { 179*c04bd47dSAndrew Jeffery t->match[reg - 2] = value; 180*c04bd47dSAndrew Jeffery } 181*c04bd47dSAndrew Jeffery break; 182*c04bd47dSAndrew Jeffery default: 183*c04bd47dSAndrew Jeffery qemu_log_mask(LOG_UNIMP, "%s: Programming error: unexpected reg: %d\n", 184*c04bd47dSAndrew Jeffery __func__, reg); 185*c04bd47dSAndrew Jeffery break; 186*c04bd47dSAndrew Jeffery } 187*c04bd47dSAndrew Jeffery } 188*c04bd47dSAndrew Jeffery 189*c04bd47dSAndrew Jeffery /* Control register operations are broken out into helpers that can be 190*c04bd47dSAndrew Jeffery * explictly called on aspeed_timer_reset(), but also from 191*c04bd47dSAndrew Jeffery * aspeed_timer_ctrl_op(). 192*c04bd47dSAndrew Jeffery */ 193*c04bd47dSAndrew Jeffery 194*c04bd47dSAndrew Jeffery static void aspeed_timer_ctrl_enable(AspeedTimer *t, bool enable) 195*c04bd47dSAndrew Jeffery { 196*c04bd47dSAndrew Jeffery trace_aspeed_timer_ctrl_enable(t->id, enable); 197*c04bd47dSAndrew Jeffery if (enable) { 198*c04bd47dSAndrew Jeffery ptimer_run(t->timer, 0); 199*c04bd47dSAndrew Jeffery } else { 200*c04bd47dSAndrew Jeffery ptimer_stop(t->timer); 201*c04bd47dSAndrew Jeffery ptimer_set_limit(t->timer, t->reload, 1); 202*c04bd47dSAndrew Jeffery } 203*c04bd47dSAndrew Jeffery } 204*c04bd47dSAndrew Jeffery 205*c04bd47dSAndrew Jeffery static void aspeed_timer_ctrl_external_clock(AspeedTimer *t, bool enable) 206*c04bd47dSAndrew Jeffery { 207*c04bd47dSAndrew Jeffery trace_aspeed_timer_ctrl_external_clock(t->id, enable); 208*c04bd47dSAndrew Jeffery if (enable) { 209*c04bd47dSAndrew Jeffery ptimer_set_freq(t->timer, TIMER_CLOCK_EXT_HZ); 210*c04bd47dSAndrew Jeffery } else { 211*c04bd47dSAndrew Jeffery ptimer_set_freq(t->timer, TIMER_CLOCK_APB_HZ); 212*c04bd47dSAndrew Jeffery } 213*c04bd47dSAndrew Jeffery } 214*c04bd47dSAndrew Jeffery 215*c04bd47dSAndrew Jeffery static void aspeed_timer_ctrl_overflow_interrupt(AspeedTimer *t, bool enable) 216*c04bd47dSAndrew Jeffery { 217*c04bd47dSAndrew Jeffery trace_aspeed_timer_ctrl_overflow_interrupt(t->id, enable); 218*c04bd47dSAndrew Jeffery } 219*c04bd47dSAndrew Jeffery 220*c04bd47dSAndrew Jeffery static void aspeed_timer_ctrl_pulse_enable(AspeedTimer *t, bool enable) 221*c04bd47dSAndrew Jeffery { 222*c04bd47dSAndrew Jeffery if (timer_can_pulse(t)) { 223*c04bd47dSAndrew Jeffery trace_aspeed_timer_ctrl_pulse_enable(t->id, enable); 224*c04bd47dSAndrew Jeffery } else { 225*c04bd47dSAndrew Jeffery qemu_log_mask(LOG_GUEST_ERROR, 226*c04bd47dSAndrew Jeffery "%s: Timer does not support pulse mode\n", __func__); 227*c04bd47dSAndrew Jeffery } 228*c04bd47dSAndrew Jeffery } 229*c04bd47dSAndrew Jeffery 230*c04bd47dSAndrew Jeffery /** 231*c04bd47dSAndrew Jeffery * Given the actions are fixed in number and completely described in helper 232*c04bd47dSAndrew Jeffery * functions, dispatch with a lookup table rather than manage control flow with 233*c04bd47dSAndrew Jeffery * a switch statement. 234*c04bd47dSAndrew Jeffery */ 235*c04bd47dSAndrew Jeffery static void (*const ctrl_ops[])(AspeedTimer *, bool) = { 236*c04bd47dSAndrew Jeffery [op_enable] = aspeed_timer_ctrl_enable, 237*c04bd47dSAndrew Jeffery [op_external_clock] = aspeed_timer_ctrl_external_clock, 238*c04bd47dSAndrew Jeffery [op_overflow_interrupt] = aspeed_timer_ctrl_overflow_interrupt, 239*c04bd47dSAndrew Jeffery [op_pulse_enable] = aspeed_timer_ctrl_pulse_enable, 240*c04bd47dSAndrew Jeffery }; 241*c04bd47dSAndrew Jeffery 242*c04bd47dSAndrew Jeffery /** 243*c04bd47dSAndrew Jeffery * Conditionally affect changes chosen by a timer's control bit. 244*c04bd47dSAndrew Jeffery * 245*c04bd47dSAndrew Jeffery * The aspeed_timer_ctrl_op() interface is convenient for the 246*c04bd47dSAndrew Jeffery * aspeed_timer_set_ctrl() function as the "no change" early exit can be 247*c04bd47dSAndrew Jeffery * calculated for all operations, which cleans up the caller code. However the 248*c04bd47dSAndrew Jeffery * interface isn't convenient for the reset function where we want to enter a 249*c04bd47dSAndrew Jeffery * specific state without artificially constructing old and new values that 250*c04bd47dSAndrew Jeffery * will fall through the change guard (and motivates extracting the actions 251*c04bd47dSAndrew Jeffery * out to helper functions). 252*c04bd47dSAndrew Jeffery * 253*c04bd47dSAndrew Jeffery * @t: The timer to manipulate 254*c04bd47dSAndrew Jeffery * @op: The type of operation to be performed 255*c04bd47dSAndrew Jeffery * @old: The old state of the timer's control bits 256*c04bd47dSAndrew Jeffery * @new: The incoming state for the timer's control bits 257*c04bd47dSAndrew Jeffery */ 258*c04bd47dSAndrew Jeffery static void aspeed_timer_ctrl_op(AspeedTimer *t, enum timer_ctrl_op op, 259*c04bd47dSAndrew Jeffery uint8_t old, uint8_t new) 260*c04bd47dSAndrew Jeffery { 261*c04bd47dSAndrew Jeffery const uint8_t mask = BIT(op); 262*c04bd47dSAndrew Jeffery const bool enable = !!(new & mask); 263*c04bd47dSAndrew Jeffery const bool changed = ((old ^ new) & mask); 264*c04bd47dSAndrew Jeffery if (!changed) { 265*c04bd47dSAndrew Jeffery return; 266*c04bd47dSAndrew Jeffery } 267*c04bd47dSAndrew Jeffery ctrl_ops[op](t, enable); 268*c04bd47dSAndrew Jeffery } 269*c04bd47dSAndrew Jeffery 270*c04bd47dSAndrew Jeffery static void aspeed_timer_set_ctrl(AspeedTimerCtrlState *s, uint32_t reg) 271*c04bd47dSAndrew Jeffery { 272*c04bd47dSAndrew Jeffery int i; 273*c04bd47dSAndrew Jeffery int shift; 274*c04bd47dSAndrew Jeffery uint8_t t_old, t_new; 275*c04bd47dSAndrew Jeffery AspeedTimer *t; 276*c04bd47dSAndrew Jeffery const uint8_t enable_mask = BIT(op_enable); 277*c04bd47dSAndrew Jeffery 278*c04bd47dSAndrew Jeffery /* Handle a dependency between the 'enable' and remaining three 279*c04bd47dSAndrew Jeffery * configuration bits - i.e. if more than one bit in the control set has 280*c04bd47dSAndrew Jeffery * changed, including the 'enable' bit, then we want either disable the 281*c04bd47dSAndrew Jeffery * timer and perform configuration, or perform configuration and then 282*c04bd47dSAndrew Jeffery * enable the timer 283*c04bd47dSAndrew Jeffery */ 284*c04bd47dSAndrew Jeffery for (i = 0; i < ASPEED_TIMER_NR_TIMERS; i++) { 285*c04bd47dSAndrew Jeffery t = &s->timers[i]; 286*c04bd47dSAndrew Jeffery shift = (i * TIMER_CTRL_BITS); 287*c04bd47dSAndrew Jeffery t_old = (s->ctrl >> shift) & TIMER_CTRL_MASK; 288*c04bd47dSAndrew Jeffery t_new = (reg >> shift) & TIMER_CTRL_MASK; 289*c04bd47dSAndrew Jeffery 290*c04bd47dSAndrew Jeffery /* If we are disabling, do so first */ 291*c04bd47dSAndrew Jeffery if ((t_old & enable_mask) && !(t_new & enable_mask)) { 292*c04bd47dSAndrew Jeffery aspeed_timer_ctrl_enable(t, false); 293*c04bd47dSAndrew Jeffery } 294*c04bd47dSAndrew Jeffery aspeed_timer_ctrl_op(t, op_external_clock, t_old, t_new); 295*c04bd47dSAndrew Jeffery aspeed_timer_ctrl_op(t, op_overflow_interrupt, t_old, t_new); 296*c04bd47dSAndrew Jeffery aspeed_timer_ctrl_op(t, op_pulse_enable, t_old, t_new); 297*c04bd47dSAndrew Jeffery /* If we are enabling, do so last */ 298*c04bd47dSAndrew Jeffery if (!(t_old & enable_mask) && (t_new & enable_mask)) { 299*c04bd47dSAndrew Jeffery aspeed_timer_ctrl_enable(t, true); 300*c04bd47dSAndrew Jeffery } 301*c04bd47dSAndrew Jeffery } 302*c04bd47dSAndrew Jeffery s->ctrl = reg; 303*c04bd47dSAndrew Jeffery } 304*c04bd47dSAndrew Jeffery 305*c04bd47dSAndrew Jeffery static void aspeed_timer_set_ctrl2(AspeedTimerCtrlState *s, uint32_t value) 306*c04bd47dSAndrew Jeffery { 307*c04bd47dSAndrew Jeffery trace_aspeed_timer_set_ctrl2(value); 308*c04bd47dSAndrew Jeffery } 309*c04bd47dSAndrew Jeffery 310*c04bd47dSAndrew Jeffery static void aspeed_timer_write(void *opaque, hwaddr offset, uint64_t value, 311*c04bd47dSAndrew Jeffery unsigned size) 312*c04bd47dSAndrew Jeffery { 313*c04bd47dSAndrew Jeffery const uint32_t tv = (uint32_t)(value & 0xFFFFFFFF); 314*c04bd47dSAndrew Jeffery const int reg = (offset & 0xf) / 4; 315*c04bd47dSAndrew Jeffery AspeedTimerCtrlState *s = opaque; 316*c04bd47dSAndrew Jeffery 317*c04bd47dSAndrew Jeffery switch (offset) { 318*c04bd47dSAndrew Jeffery /* Control Registers */ 319*c04bd47dSAndrew Jeffery case 0x30: 320*c04bd47dSAndrew Jeffery aspeed_timer_set_ctrl(s, tv); 321*c04bd47dSAndrew Jeffery break; 322*c04bd47dSAndrew Jeffery case 0x34: 323*c04bd47dSAndrew Jeffery aspeed_timer_set_ctrl2(s, tv); 324*c04bd47dSAndrew Jeffery break; 325*c04bd47dSAndrew Jeffery /* Timer Registers */ 326*c04bd47dSAndrew Jeffery case 0x00 ... 0x2c: 327*c04bd47dSAndrew Jeffery aspeed_timer_set_value(s, (offset >> TIMER_NR_REGS), reg, tv); 328*c04bd47dSAndrew Jeffery break; 329*c04bd47dSAndrew Jeffery case 0x40 ... 0x8c: 330*c04bd47dSAndrew Jeffery aspeed_timer_set_value(s, (offset >> TIMER_NR_REGS) - 1, reg, tv); 331*c04bd47dSAndrew Jeffery break; 332*c04bd47dSAndrew Jeffery /* Illegal */ 333*c04bd47dSAndrew Jeffery case 0x38: 334*c04bd47dSAndrew Jeffery case 0x3C: 335*c04bd47dSAndrew Jeffery default: 336*c04bd47dSAndrew Jeffery qemu_log_mask(LOG_GUEST_ERROR, "%s: Bad offset 0x%" HWADDR_PRIx "\n", 337*c04bd47dSAndrew Jeffery __func__, offset); 338*c04bd47dSAndrew Jeffery break; 339*c04bd47dSAndrew Jeffery } 340*c04bd47dSAndrew Jeffery } 341*c04bd47dSAndrew Jeffery 342*c04bd47dSAndrew Jeffery static const MemoryRegionOps aspeed_timer_ops = { 343*c04bd47dSAndrew Jeffery .read = aspeed_timer_read, 344*c04bd47dSAndrew Jeffery .write = aspeed_timer_write, 345*c04bd47dSAndrew Jeffery .endianness = DEVICE_LITTLE_ENDIAN, 346*c04bd47dSAndrew Jeffery .valid.min_access_size = 4, 347*c04bd47dSAndrew Jeffery .valid.max_access_size = 4, 348*c04bd47dSAndrew Jeffery .valid.unaligned = false, 349*c04bd47dSAndrew Jeffery }; 350*c04bd47dSAndrew Jeffery 351*c04bd47dSAndrew Jeffery static void aspeed_init_one_timer(AspeedTimerCtrlState *s, uint8_t id) 352*c04bd47dSAndrew Jeffery { 353*c04bd47dSAndrew Jeffery QEMUBH *bh; 354*c04bd47dSAndrew Jeffery AspeedTimer *t = &s->timers[id]; 355*c04bd47dSAndrew Jeffery 356*c04bd47dSAndrew Jeffery t->id = id; 357*c04bd47dSAndrew Jeffery bh = qemu_bh_new(aspeed_timer_expire, t); 358*c04bd47dSAndrew Jeffery t->timer = ptimer_init(bh); 359*c04bd47dSAndrew Jeffery } 360*c04bd47dSAndrew Jeffery 361*c04bd47dSAndrew Jeffery static void aspeed_timer_realize(DeviceState *dev, Error **errp) 362*c04bd47dSAndrew Jeffery { 363*c04bd47dSAndrew Jeffery int i; 364*c04bd47dSAndrew Jeffery SysBusDevice *sbd = SYS_BUS_DEVICE(dev); 365*c04bd47dSAndrew Jeffery AspeedTimerCtrlState *s = ASPEED_TIMER(dev); 366*c04bd47dSAndrew Jeffery 367*c04bd47dSAndrew Jeffery for (i = 0; i < ASPEED_TIMER_NR_TIMERS; i++) { 368*c04bd47dSAndrew Jeffery aspeed_init_one_timer(s, i); 369*c04bd47dSAndrew Jeffery sysbus_init_irq(sbd, &s->timers[i].irq); 370*c04bd47dSAndrew Jeffery } 371*c04bd47dSAndrew Jeffery memory_region_init_io(&s->iomem, OBJECT(s), &aspeed_timer_ops, s, 372*c04bd47dSAndrew Jeffery TYPE_ASPEED_TIMER, 0x1000); 373*c04bd47dSAndrew Jeffery sysbus_init_mmio(sbd, &s->iomem); 374*c04bd47dSAndrew Jeffery } 375*c04bd47dSAndrew Jeffery 376*c04bd47dSAndrew Jeffery static void aspeed_timer_reset(DeviceState *dev) 377*c04bd47dSAndrew Jeffery { 378*c04bd47dSAndrew Jeffery int i; 379*c04bd47dSAndrew Jeffery AspeedTimerCtrlState *s = ASPEED_TIMER(dev); 380*c04bd47dSAndrew Jeffery 381*c04bd47dSAndrew Jeffery for (i = 0; i < ASPEED_TIMER_NR_TIMERS; i++) { 382*c04bd47dSAndrew Jeffery AspeedTimer *t = &s->timers[i]; 383*c04bd47dSAndrew Jeffery /* Explictly call helpers to avoid any conditional behaviour through 384*c04bd47dSAndrew Jeffery * aspeed_timer_set_ctrl(). 385*c04bd47dSAndrew Jeffery */ 386*c04bd47dSAndrew Jeffery aspeed_timer_ctrl_enable(t, false); 387*c04bd47dSAndrew Jeffery aspeed_timer_ctrl_external_clock(t, TIMER_CLOCK_USE_APB); 388*c04bd47dSAndrew Jeffery aspeed_timer_ctrl_overflow_interrupt(t, false); 389*c04bd47dSAndrew Jeffery aspeed_timer_ctrl_pulse_enable(t, false); 390*c04bd47dSAndrew Jeffery t->level = 0; 391*c04bd47dSAndrew Jeffery t->reload = 0; 392*c04bd47dSAndrew Jeffery t->match[0] = 0; 393*c04bd47dSAndrew Jeffery t->match[1] = 0; 394*c04bd47dSAndrew Jeffery } 395*c04bd47dSAndrew Jeffery s->ctrl = 0; 396*c04bd47dSAndrew Jeffery s->ctrl2 = 0; 397*c04bd47dSAndrew Jeffery } 398*c04bd47dSAndrew Jeffery 399*c04bd47dSAndrew Jeffery static const VMStateDescription vmstate_aspeed_timer = { 400*c04bd47dSAndrew Jeffery .name = "aspeed.timer", 401*c04bd47dSAndrew Jeffery .version_id = 1, 402*c04bd47dSAndrew Jeffery .minimum_version_id = 1, 403*c04bd47dSAndrew Jeffery .fields = (VMStateField[]) { 404*c04bd47dSAndrew Jeffery VMSTATE_UINT8(id, AspeedTimer), 405*c04bd47dSAndrew Jeffery VMSTATE_INT32(level, AspeedTimer), 406*c04bd47dSAndrew Jeffery VMSTATE_PTIMER(timer, AspeedTimer), 407*c04bd47dSAndrew Jeffery VMSTATE_UINT32(reload, AspeedTimer), 408*c04bd47dSAndrew Jeffery VMSTATE_UINT32_ARRAY(match, AspeedTimer, 2), 409*c04bd47dSAndrew Jeffery VMSTATE_END_OF_LIST() 410*c04bd47dSAndrew Jeffery } 411*c04bd47dSAndrew Jeffery }; 412*c04bd47dSAndrew Jeffery 413*c04bd47dSAndrew Jeffery static const VMStateDescription vmstate_aspeed_timer_state = { 414*c04bd47dSAndrew Jeffery .name = "aspeed.timerctrl", 415*c04bd47dSAndrew Jeffery .version_id = 1, 416*c04bd47dSAndrew Jeffery .minimum_version_id = 1, 417*c04bd47dSAndrew Jeffery .fields = (VMStateField[]) { 418*c04bd47dSAndrew Jeffery VMSTATE_UINT32(ctrl, AspeedTimerCtrlState), 419*c04bd47dSAndrew Jeffery VMSTATE_UINT32(ctrl2, AspeedTimerCtrlState), 420*c04bd47dSAndrew Jeffery VMSTATE_STRUCT_ARRAY(timers, AspeedTimerCtrlState, 421*c04bd47dSAndrew Jeffery ASPEED_TIMER_NR_TIMERS, 1, vmstate_aspeed_timer, 422*c04bd47dSAndrew Jeffery AspeedTimer), 423*c04bd47dSAndrew Jeffery VMSTATE_END_OF_LIST() 424*c04bd47dSAndrew Jeffery } 425*c04bd47dSAndrew Jeffery }; 426*c04bd47dSAndrew Jeffery 427*c04bd47dSAndrew Jeffery static void timer_class_init(ObjectClass *klass, void *data) 428*c04bd47dSAndrew Jeffery { 429*c04bd47dSAndrew Jeffery DeviceClass *dc = DEVICE_CLASS(klass); 430*c04bd47dSAndrew Jeffery 431*c04bd47dSAndrew Jeffery dc->realize = aspeed_timer_realize; 432*c04bd47dSAndrew Jeffery dc->reset = aspeed_timer_reset; 433*c04bd47dSAndrew Jeffery dc->desc = "ASPEED Timer"; 434*c04bd47dSAndrew Jeffery dc->vmsd = &vmstate_aspeed_timer_state; 435*c04bd47dSAndrew Jeffery } 436*c04bd47dSAndrew Jeffery 437*c04bd47dSAndrew Jeffery static const TypeInfo aspeed_timer_info = { 438*c04bd47dSAndrew Jeffery .name = TYPE_ASPEED_TIMER, 439*c04bd47dSAndrew Jeffery .parent = TYPE_SYS_BUS_DEVICE, 440*c04bd47dSAndrew Jeffery .instance_size = sizeof(AspeedTimerCtrlState), 441*c04bd47dSAndrew Jeffery .class_init = timer_class_init, 442*c04bd47dSAndrew Jeffery }; 443*c04bd47dSAndrew Jeffery 444*c04bd47dSAndrew Jeffery static void aspeed_timer_register_types(void) 445*c04bd47dSAndrew Jeffery { 446*c04bd47dSAndrew Jeffery type_register_static(&aspeed_timer_info); 447*c04bd47dSAndrew Jeffery } 448*c04bd47dSAndrew Jeffery 449*c04bd47dSAndrew Jeffery type_init(aspeed_timer_register_types) 450