Bug Summary

File:hw/arm/../exynos4210_mct.c
Location:line 1326, column 9
Description:Value stored to 'index' is never read

Annotated Source Code

1/*
2 * Samsung exynos4210 Multi Core timer
3 *
4 * Copyright (c) 2000 - 2011 Samsung Electronics Co., Ltd.
5 * All rights reserved.
6 *
7 * Evgeny Voevodin <e.voevodin@samsung.com>
8 *
9 * This program is free software; you can redistribute it and/or modify it
10 * under the terms of the GNU General Public License as published by the
11 * Free Software Foundation; either version 2 of the License, or (at your
12 * option) any later version.
13 *
14 * This program is distributed in the hope that it will be useful,
15 * but WITHOUT ANY WARRANTY; without even the implied warranty of
16 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
17 * See the GNU General Public License for more details.
18 *
19 * You should have received a copy of the GNU General Public License along
20 * with this program; if not, see <http://www.gnu.org/licenses/>.
21 */
22
23/*
24 * Global Timer:
25 *
26 * Consists of two timers. First represents Free Running Counter and second
27 * is used to measure interval from FRC to nearest comparator.
28 *
29 * 0 UINT64_MAX
30 * | timer0 |
31 * | <-------------------------------------------------------------- |
32 * | --------------------------------------------frc---------------> |
33 * |______________________________________________|__________________|
34 * CMP0 CMP1 CMP2 | CMP3
35 * __| |_
36 * | timer1 |
37 * | -------------> |
38 * frc CMPx
39 *
40 * Problem: when implementing global timer as is, overflow arises.
41 * next_time = cur_time + period * count;
42 * period and count are 64 bits width.
43 * Lets arm timer for MCT_GT_COUNTER_STEP count and update internal G_CNT
44 * register during each event.
45 *
46 * Problem: both timers need to be implemented using MCT_XT_COUNTER_STEP because
47 * local timer contains two counters: TCNT and ICNT. TCNT == 0 -> ICNT--.
48 * IRQ is generated when ICNT riches zero. Implementation where TCNT == 0
49 * generates IRQs suffers from too frequently events. Better to have one
50 * uint64_t counter equal to TCNT*ICNT and arm ptimer.c for a minimum(TCNT*ICNT,
51 * MCT_GT_COUNTER_STEP); (yes, if target tunes ICNT * TCNT to be too low values,
52 * there is no way to avoid frequently events).
53 */
54
55#include "sysbus.h"
56#include "qemu-timer.h"
57#include "qemu-common.h"
58#include "ptimer.h"
59
60#include "exynos4210.h"
61
62//#define DEBUG_MCT
63
64#ifdef DEBUG_MCT
65#define DPRINTF(fmt, ...)do {} while (0) \
66 do { fprintf(stdoutstdout, "MCT: [%24s:%5d] " fmt, __func__, __LINE__66, \
67 ## __VA_ARGS__); } while (0)
68#else
69#define DPRINTF(fmt, ...)do {} while (0) do {} while (0)
70#endif
71
72#define MCT_CFG0x000 0x000
73#define G_CNT_L0x100 0x100
74#define G_CNT_U0x104 0x104
75#define G_CNT_WSTAT0x110 0x110
76#define G_COMP0_L0x200 0x200
77#define G_COMP0_U0x204 0x204
78#define G_COMP0_ADD_INCR0x208 0x208
79#define G_COMP1_L0x210 0x210
80#define G_COMP1_U0x214 0x214
81#define G_COMP1_ADD_INCR0x218 0x218
82#define G_COMP2_L0x220 0x220
83#define G_COMP2_U0x224 0x224
84#define G_COMP2_ADD_INCR0x228 0x228
85#define G_COMP3_L0x230 0x230
86#define G_COMP3_U0x234 0x234
87#define G_COMP3_ADD_INCR0x238 0x238
88#define G_TCON0x240 0x240
89#define G_INT_CSTAT0x244 0x244
90#define G_INT_ENB0x248 0x248
91#define G_WSTAT0x24C 0x24C
92#define L0_TCNTB0x300 0x300
93#define L0_TCNTO0x304 0x304
94#define L0_ICNTB0x308 0x308
95#define L0_ICNTO0x30C 0x30C
96#define L0_FRCNTB0x310 0x310
97#define L0_FRCNTO0x314 0x314
98#define L0_TCON0x320 0x320
99#define L0_INT_CSTAT0x330 0x330
100#define L0_INT_ENB0x334 0x334
101#define L0_WSTAT0x340 0x340
102#define L1_TCNTB0x400 0x400
103#define L1_TCNTO0x404 0x404
104#define L1_ICNTB0x408 0x408
105#define L1_ICNTO0x40C 0x40C
106#define L1_FRCNTB0x410 0x410
107#define L1_FRCNTO0x414 0x414
108#define L1_TCON0x420 0x420
109#define L1_INT_CSTAT0x430 0x430
110#define L1_INT_ENB0x434 0x434
111#define L1_WSTAT0x440 0x440
112
113#define MCT_CFG_GET_PRESCALER(x)((x) & 0xFF) ((x) & 0xFF)
114#define MCT_CFG_GET_DIVIDER(x)(1 << ((x) >> 8 & 7)) (1 << ((x) >> 8 & 7))
115
116#define GET_G_COMP_IDX(offset)(((offset) - 0x200) / 0x10) (((offset) - G_COMP0_L0x200) / 0x10)
117#define GET_G_COMP_ADD_INCR_IDX(offset)(((offset) - 0x208) / 0x10) (((offset) - G_COMP0_ADD_INCR0x208) / 0x10)
118
119#define G_COMP_L(x)(0x200 + (x) * 0x10) (G_COMP0_L0x200 + (x) * 0x10)
120#define G_COMP_U(x)(0x204 + (x) * 0x10) (G_COMP0_U0x204 + (x) * 0x10)
121
122#define G_COMP_ADD_INCR(x)(0x208 + (x) * 0x10) (G_COMP0_ADD_INCR0x208 + (x) * 0x10)
123
124/* MCT bits */
125#define G_TCON_COMP_ENABLE(x)(1 << 2 * (x)) (1 << 2 * (x))
126#define G_TCON_AUTO_ICREMENT(x)(1 << (2 * (x) + 1)) (1 << (2 * (x) + 1))
127#define G_TCON_TIMER_ENABLE(1 << 8) (1 << 8)
128
129#define G_INT_ENABLE(x)(1 << (x)) (1 << (x))
130#define G_INT_CSTAT_COMP(x)(1 << (x)) (1 << (x))
131
132#define G_CNT_WSTAT_L1 1
133#define G_CNT_WSTAT_U2 2
134
135#define G_WSTAT_COMP_L(x)(1 << 4 * (x)) (1 << 4 * (x))
136#define G_WSTAT_COMP_U(x)(1 << ((4 * (x)) + 1)) (1 << ((4 * (x)) + 1))
137#define G_WSTAT_COMP_ADDINCR(x)(1 << ((4 * (x)) + 2)) (1 << ((4 * (x)) + 2))
138#define G_WSTAT_TCON_WRITE(1 << 16) (1 << 16)
139
140#define GET_L_TIMER_IDX(offset)((((offset) & 0xF00) - 0x300) / 0x100) ((((offset) & 0xF00) - L0_TCNTB0x300) / 0x100)
141#define GET_L_TIMER_CNT_REG_IDX(offset, lt_i)(((offset) - (0x300 + 0x100 * (lt_i))) >> 2) \
142 (((offset) - (L0_TCNTB0x300 + 0x100 * (lt_i))) >> 2)
143
144#define L_ICNTB_MANUAL_UPDATE(1 << 31) (1 << 31)
145
146#define L_TCON_TICK_START(1) (1)
147#define L_TCON_INT_START(1 << 1) (1 << 1)
148#define L_TCON_INTERVAL_MODE(1 << 2) (1 << 2)
149#define L_TCON_FRC_START(1 << 3) (1 << 3)
150
151#define L_INT_CSTAT_INTCNT(1 << 0) (1 << 0)
152#define L_INT_CSTAT_FRCCNT(1 << 1) (1 << 1)
153
154#define L_INT_INTENB_ICNTEIE(1 << 0) (1 << 0)
155#define L_INT_INTENB_FRCEIE(1 << 1) (1 << 1)
156
157#define L_WSTAT_TCNTB_WRITE(1 << 0) (1 << 0)
158#define L_WSTAT_ICNTB_WRITE(1 << 1) (1 << 1)
159#define L_WSTAT_FRCCNTB_WRITE(1 << 2) (1 << 2)
160#define L_WSTAT_TCON_WRITE(1 << 3) (1 << 3)
161
162enum LocalTimerRegCntIndexes {
163 L_REG_CNT_TCNTB,
164 L_REG_CNT_TCNTO,
165 L_REG_CNT_ICNTB,
166 L_REG_CNT_ICNTO,
167 L_REG_CNT_FRCCNTB,
168 L_REG_CNT_FRCCNTO,
169
170 L_REG_CNT_AMOUNT
171};
172
173#define MCT_NIRQ6 6
174#define MCT_SFR_SIZE0x444 0x444
175
176#define MCT_GT_CMP_NUM4 4
177
178#define MCT_GT_MAX_VAL(18446744073709551615UL) UINT64_MAX(18446744073709551615UL)
179
180#define MCT_GT_COUNTER_STEP0x100000000ULL 0x100000000ULL
181#define MCT_LT_COUNTER_STEP0x100000000ULL 0x100000000ULL
182#define MCT_LT_CNT_LOW_LIMIT0x100 0x100
183
184/* global timer */
185typedef struct {
186 qemu_irq irq[MCT_GT_CMP_NUM4];
187
188 struct gregs {
189 uint64_t cnt;
190 uint32_t cnt_wstat;
191 uint32_t tcon;
192 uint32_t int_cstat;
193 uint32_t int_enb;
194 uint32_t wstat;
195 uint64_t comp[MCT_GT_CMP_NUM4];
196 uint32_t comp_add_incr[MCT_GT_CMP_NUM4];
197 } reg;
198
199 uint64_t count; /* Value FRC was armed with */
200 int32_t curr_comp; /* Current comparator FRC is running to */
201
202 ptimer_state *ptimer_frc; /* FRC timer */
203
204} Exynos4210MCTGT;
205
206/* local timer */
207typedef struct {
208 int id; /* timer id */
209 qemu_irq irq; /* local timer irq */
210
211 struct tick_timer {
212 uint32_t cnt_run; /* cnt timer is running */
213 uint32_t int_run; /* int timer is running */
214
215 uint32_t last_icnto;
216 uint32_t last_tcnto;
217 uint32_t tcntb; /* initial value for TCNTB */
218 uint32_t icntb; /* initial value for ICNTB */
219
220 /* for step mode */
221 uint64_t distance; /* distance to count to the next event */
222 uint64_t progress; /* progress when counting by steps */
223 uint64_t count; /* count to arm timer with */
224
225 ptimer_state *ptimer_tick; /* timer for tick counter */
226 } tick_timer;
227
228 /* use ptimer.c to represent count down timer */
229
230 ptimer_state *ptimer_frc; /* timer for free running counter */
231
232 /* registers */
233 struct lregs {
234 uint32_t cnt[L_REG_CNT_AMOUNT];
235 uint32_t tcon;
236 uint32_t int_cstat;
237 uint32_t int_enb;
238 uint32_t wstat;
239 } reg;
240
241} Exynos4210MCTLT;
242
243typedef struct Exynos4210MCTState {
244 SysBusDevice busdev;
245 MemoryRegion iomem;
246
247 /* Registers */
248 uint32_t reg_mct_cfg;
249
250 Exynos4210MCTLT l_timer[2];
251 Exynos4210MCTGT g_timer;
252
253 uint32_t freq; /* all timers tick frequency, TCLK */
254} Exynos4210MCTState;
255
256/*** VMState ***/
257static const VMStateDescription vmstate_tick_timer = {
258 .name = "exynos4210.mct.tick_timer",
259 .version_id = 1,
260 .minimum_version_id = 1,
261 .minimum_version_id_old = 1,
262 .fields = (VMStateField[]) {
263 VMSTATE_UINT32(cnt_run, struct tick_timer){ .name = ("cnt_run"), .version_id = (0), .field_exists = (((
void*)0)), .size = sizeof(uint32_t), .info = &(vmstate_info_uint32
), .flags = VMS_SINGLE, .offset = (__builtin_offsetof(struct tick_timer
, cnt_run) + ((uint32_t*)0 - (typeof(((struct tick_timer *)0)
->cnt_run)*)0)), }
,
264 VMSTATE_UINT32(int_run, struct tick_timer){ .name = ("int_run"), .version_id = (0), .field_exists = (((
void*)0)), .size = sizeof(uint32_t), .info = &(vmstate_info_uint32
), .flags = VMS_SINGLE, .offset = (__builtin_offsetof(struct tick_timer
, int_run) + ((uint32_t*)0 - (typeof(((struct tick_timer *)0)
->int_run)*)0)), }
,
265 VMSTATE_UINT32(last_icnto, struct tick_timer){ .name = ("last_icnto"), .version_id = (0), .field_exists = (
((void*)0)), .size = sizeof(uint32_t), .info = &(vmstate_info_uint32
), .flags = VMS_SINGLE, .offset = (__builtin_offsetof(struct tick_timer
, last_icnto) + ((uint32_t*)0 - (typeof(((struct tick_timer *
)0)->last_icnto)*)0)), }
,
266 VMSTATE_UINT32(last_tcnto, struct tick_timer){ .name = ("last_tcnto"), .version_id = (0), .field_exists = (
((void*)0)), .size = sizeof(uint32_t), .info = &(vmstate_info_uint32
), .flags = VMS_SINGLE, .offset = (__builtin_offsetof(struct tick_timer
, last_tcnto) + ((uint32_t*)0 - (typeof(((struct tick_timer *
)0)->last_tcnto)*)0)), }
,
267 VMSTATE_UINT32(tcntb, struct tick_timer){ .name = ("tcntb"), .version_id = (0), .field_exists = (((void
*)0)), .size = sizeof(uint32_t), .info = &(vmstate_info_uint32
), .flags = VMS_SINGLE, .offset = (__builtin_offsetof(struct tick_timer
, tcntb) + ((uint32_t*)0 - (typeof(((struct tick_timer *)0)->
tcntb)*)0)), }
,
268 VMSTATE_UINT32(icntb, struct tick_timer){ .name = ("icntb"), .version_id = (0), .field_exists = (((void
*)0)), .size = sizeof(uint32_t), .info = &(vmstate_info_uint32
), .flags = VMS_SINGLE, .offset = (__builtin_offsetof(struct tick_timer
, icntb) + ((uint32_t*)0 - (typeof(((struct tick_timer *)0)->
icntb)*)0)), }
,
269 VMSTATE_UINT64(distance, struct tick_timer){ .name = ("distance"), .version_id = (0), .field_exists = ((
(void*)0)), .size = sizeof(uint64_t), .info = &(vmstate_info_uint64
), .flags = VMS_SINGLE, .offset = (__builtin_offsetof(struct tick_timer
, distance) + ((uint64_t*)0 - (typeof(((struct tick_timer *)0
)->distance)*)0)), }
,
270 VMSTATE_UINT64(progress, struct tick_timer){ .name = ("progress"), .version_id = (0), .field_exists = ((
(void*)0)), .size = sizeof(uint64_t), .info = &(vmstate_info_uint64
), .flags = VMS_SINGLE, .offset = (__builtin_offsetof(struct tick_timer
, progress) + ((uint64_t*)0 - (typeof(((struct tick_timer *)0
)->progress)*)0)), }
,
271 VMSTATE_UINT64(count, struct tick_timer){ .name = ("count"), .version_id = (0), .field_exists = (((void
*)0)), .size = sizeof(uint64_t), .info = &(vmstate_info_uint64
), .flags = VMS_SINGLE, .offset = (__builtin_offsetof(struct tick_timer
, count) + ((uint64_t*)0 - (typeof(((struct tick_timer *)0)->
count)*)0)), }
,
272 VMSTATE_PTIMER(ptimer_tick, struct tick_timer){ .name = ("ptimer_tick"), .version_id = (1), .vmsd = &vmstate_ptimer
, .size = sizeof(ptimer_state *), .flags = VMS_STRUCT|VMS_POINTER
, .offset = (__builtin_offsetof(struct tick_timer, ptimer_tick
) + ((ptimer_state**)0 - (typeof(((struct tick_timer *)0)->
ptimer_tick)*)0)), }
,
273 VMSTATE_END_OF_LIST(){}
274 }
275};
276
277static const VMStateDescription vmstate_lregs = {
278 .name = "exynos4210.mct.lregs",
279 .version_id = 1,
280 .minimum_version_id = 1,
281 .minimum_version_id_old = 1,
282 .fields = (VMStateField[]) {
283 VMSTATE_UINT32_ARRAY(cnt, struct lregs, L_REG_CNT_AMOUNT){ .name = ("cnt"), .version_id = (0), .num = (L_REG_CNT_AMOUNT
), .info = &(vmstate_info_uint32), .size = sizeof(uint32_t
), .flags = VMS_ARRAY, .offset = (__builtin_offsetof(struct lregs
, cnt) + ((uint32_t(*)[L_REG_CNT_AMOUNT])0 - (typeof(((struct
lregs *)0)->cnt)*)0)), }
,
284 VMSTATE_UINT32(tcon, struct lregs){ .name = ("tcon"), .version_id = (0), .field_exists = (((void
*)0)), .size = sizeof(uint32_t), .info = &(vmstate_info_uint32
), .flags = VMS_SINGLE, .offset = (__builtin_offsetof(struct lregs
, tcon) + ((uint32_t*)0 - (typeof(((struct lregs *)0)->tcon
)*)0)), }
,
285 VMSTATE_UINT32(int_cstat, struct lregs){ .name = ("int_cstat"), .version_id = (0), .field_exists = (
((void*)0)), .size = sizeof(uint32_t), .info = &(vmstate_info_uint32
), .flags = VMS_SINGLE, .offset = (__builtin_offsetof(struct lregs
, int_cstat) + ((uint32_t*)0 - (typeof(((struct lregs *)0)->
int_cstat)*)0)), }
,
286 VMSTATE_UINT32(int_enb, struct lregs){ .name = ("int_enb"), .version_id = (0), .field_exists = (((
void*)0)), .size = sizeof(uint32_t), .info = &(vmstate_info_uint32
), .flags = VMS_SINGLE, .offset = (__builtin_offsetof(struct lregs
, int_enb) + ((uint32_t*)0 - (typeof(((struct lregs *)0)->
int_enb)*)0)), }
,
287 VMSTATE_UINT32(wstat, struct lregs){ .name = ("wstat"), .version_id = (0), .field_exists = (((void
*)0)), .size = sizeof(uint32_t), .info = &(vmstate_info_uint32
), .flags = VMS_SINGLE, .offset = (__builtin_offsetof(struct lregs
, wstat) + ((uint32_t*)0 - (typeof(((struct lregs *)0)->wstat
)*)0)), }
,
288 VMSTATE_END_OF_LIST(){}
289 }
290};
291
292static const VMStateDescription vmstate_exynos4210_mct_lt = {
293 .name = "exynos4210.mct.lt",
294 .version_id = 1,
295 .minimum_version_id = 1,
296 .minimum_version_id_old = 1,
297 .fields = (VMStateField[]) {
298 VMSTATE_INT32(id, Exynos4210MCTLT){ .name = ("id"), .version_id = (0), .field_exists = (((void*
)0)), .size = sizeof(int32_t), .info = &(vmstate_info_int32
), .flags = VMS_SINGLE, .offset = (__builtin_offsetof(Exynos4210MCTLT
, id) + ((int32_t*)0 - (typeof(((Exynos4210MCTLT *)0)->id)
*)0)), }
,
299 VMSTATE_STRUCT(tick_timer, Exynos4210MCTLT, 0,{ .name = ("tick_timer"), .version_id = (0), .field_exists = (
((void*)0)), .vmsd = &(vmstate_tick_timer), .size = sizeof
(struct tick_timer), .flags = VMS_STRUCT, .offset = (__builtin_offsetof
(Exynos4210MCTLT, tick_timer) + ((struct tick_timer*)0 - (typeof
(((Exynos4210MCTLT *)0)->tick_timer)*)0)), }
300 vmstate_tick_timer,{ .name = ("tick_timer"), .version_id = (0), .field_exists = (
((void*)0)), .vmsd = &(vmstate_tick_timer), .size = sizeof
(struct tick_timer), .flags = VMS_STRUCT, .offset = (__builtin_offsetof
(Exynos4210MCTLT, tick_timer) + ((struct tick_timer*)0 - (typeof
(((Exynos4210MCTLT *)0)->tick_timer)*)0)), }
301 struct tick_timer){ .name = ("tick_timer"), .version_id = (0), .field_exists = (
((void*)0)), .vmsd = &(vmstate_tick_timer), .size = sizeof
(struct tick_timer), .flags = VMS_STRUCT, .offset = (__builtin_offsetof
(Exynos4210MCTLT, tick_timer) + ((struct tick_timer*)0 - (typeof
(((Exynos4210MCTLT *)0)->tick_timer)*)0)), }
,
302 VMSTATE_PTIMER(ptimer_frc, Exynos4210MCTLT){ .name = ("ptimer_frc"), .version_id = (1), .vmsd = &vmstate_ptimer
, .size = sizeof(ptimer_state *), .flags = VMS_STRUCT|VMS_POINTER
, .offset = (__builtin_offsetof(Exynos4210MCTLT, ptimer_frc) +
((ptimer_state**)0 - (typeof(((Exynos4210MCTLT *)0)->ptimer_frc
)*)0)), }
,
303 VMSTATE_STRUCT(reg, Exynos4210MCTLT, 0,{ .name = ("reg"), .version_id = (0), .field_exists = (((void
*)0)), .vmsd = &(vmstate_lregs), .size = sizeof(struct lregs
), .flags = VMS_STRUCT, .offset = (__builtin_offsetof(Exynos4210MCTLT
, reg) + ((struct lregs*)0 - (typeof(((Exynos4210MCTLT *)0)->
reg)*)0)), }
304 vmstate_lregs,{ .name = ("reg"), .version_id = (0), .field_exists = (((void
*)0)), .vmsd = &(vmstate_lregs), .size = sizeof(struct lregs
), .flags = VMS_STRUCT, .offset = (__builtin_offsetof(Exynos4210MCTLT
, reg) + ((struct lregs*)0 - (typeof(((Exynos4210MCTLT *)0)->
reg)*)0)), }
305 struct lregs){ .name = ("reg"), .version_id = (0), .field_exists = (((void
*)0)), .vmsd = &(vmstate_lregs), .size = sizeof(struct lregs
), .flags = VMS_STRUCT, .offset = (__builtin_offsetof(Exynos4210MCTLT
, reg) + ((struct lregs*)0 - (typeof(((Exynos4210MCTLT *)0)->
reg)*)0)), }
,
306 VMSTATE_END_OF_LIST(){}
307 }
308};
309
310static const VMStateDescription vmstate_gregs = {
311 .name = "exynos4210.mct.lregs",
312 .version_id = 1,
313 .minimum_version_id = 1,
314 .minimum_version_id_old = 1,
315 .fields = (VMStateField[]) {
316 VMSTATE_UINT64(cnt, struct gregs){ .name = ("cnt"), .version_id = (0), .field_exists = (((void
*)0)), .size = sizeof(uint64_t), .info = &(vmstate_info_uint64
), .flags = VMS_SINGLE, .offset = (__builtin_offsetof(struct gregs
, cnt) + ((uint64_t*)0 - (typeof(((struct gregs *)0)->cnt)
*)0)), }
,
317 VMSTATE_UINT32(cnt_wstat, struct gregs){ .name = ("cnt_wstat"), .version_id = (0), .field_exists = (
((void*)0)), .size = sizeof(uint32_t), .info = &(vmstate_info_uint32
), .flags = VMS_SINGLE, .offset = (__builtin_offsetof(struct gregs
, cnt_wstat) + ((uint32_t*)0 - (typeof(((struct gregs *)0)->
cnt_wstat)*)0)), }
,
318 VMSTATE_UINT32(tcon, struct gregs){ .name = ("tcon"), .version_id = (0), .field_exists = (((void
*)0)), .size = sizeof(uint32_t), .info = &(vmstate_info_uint32
), .flags = VMS_SINGLE, .offset = (__builtin_offsetof(struct gregs
, tcon) + ((uint32_t*)0 - (typeof(((struct gregs *)0)->tcon
)*)0)), }
,
319 VMSTATE_UINT32(int_cstat, struct gregs){ .name = ("int_cstat"), .version_id = (0), .field_exists = (
((void*)0)), .size = sizeof(uint32_t), .info = &(vmstate_info_uint32
), .flags = VMS_SINGLE, .offset = (__builtin_offsetof(struct gregs
, int_cstat) + ((uint32_t*)0 - (typeof(((struct gregs *)0)->
int_cstat)*)0)), }
,
320 VMSTATE_UINT32(int_enb, struct gregs){ .name = ("int_enb"), .version_id = (0), .field_exists = (((
void*)0)), .size = sizeof(uint32_t), .info = &(vmstate_info_uint32
), .flags = VMS_SINGLE, .offset = (__builtin_offsetof(struct gregs
, int_enb) + ((uint32_t*)0 - (typeof(((struct gregs *)0)->
int_enb)*)0)), }
,
321 VMSTATE_UINT32(wstat, struct gregs){ .name = ("wstat"), .version_id = (0), .field_exists = (((void
*)0)), .size = sizeof(uint32_t), .info = &(vmstate_info_uint32
), .flags = VMS_SINGLE, .offset = (__builtin_offsetof(struct gregs
, wstat) + ((uint32_t*)0 - (typeof(((struct gregs *)0)->wstat
)*)0)), }
,
322 VMSTATE_UINT64_ARRAY(comp, struct gregs, MCT_GT_CMP_NUM){ .name = ("comp"), .version_id = (0), .num = (4), .info = &
(vmstate_info_uint64), .size = sizeof(uint64_t), .flags = VMS_ARRAY
, .offset = (__builtin_offsetof(struct gregs, comp) + ((uint64_t
(*)[4])0 - (typeof(((struct gregs *)0)->comp)*)0)), }
,
323 VMSTATE_UINT32_ARRAY(comp_add_incr, struct gregs,{ .name = ("comp_add_incr"), .version_id = (0), .num = (4), .
info = &(vmstate_info_uint32), .size = sizeof(uint32_t), .
flags = VMS_ARRAY, .offset = (__builtin_offsetof(struct gregs
, comp_add_incr) + ((uint32_t(*)[4])0 - (typeof(((struct gregs
*)0)->comp_add_incr)*)0)), }
324 MCT_GT_CMP_NUM){ .name = ("comp_add_incr"), .version_id = (0), .num = (4), .
info = &(vmstate_info_uint32), .size = sizeof(uint32_t), .
flags = VMS_ARRAY, .offset = (__builtin_offsetof(struct gregs
, comp_add_incr) + ((uint32_t(*)[4])0 - (typeof(((struct gregs
*)0)->comp_add_incr)*)0)), }
,
325 VMSTATE_END_OF_LIST(){}
326 }
327};
328
329static const VMStateDescription vmstate_exynos4210_mct_gt = {
330 .name = "exynos4210.mct.lt",
331 .version_id = 1,
332 .minimum_version_id = 1,
333 .minimum_version_id_old = 1,
334 .fields = (VMStateField[]) {
335 VMSTATE_STRUCT(reg, Exynos4210MCTGT, 0, vmstate_gregs,{ .name = ("reg"), .version_id = (0), .field_exists = (((void
*)0)), .vmsd = &(vmstate_gregs), .size = sizeof(struct gregs
), .flags = VMS_STRUCT, .offset = (__builtin_offsetof(Exynos4210MCTGT
, reg) + ((struct gregs*)0 - (typeof(((Exynos4210MCTGT *)0)->
reg)*)0)), }
336 struct gregs){ .name = ("reg"), .version_id = (0), .field_exists = (((void
*)0)), .vmsd = &(vmstate_gregs), .size = sizeof(struct gregs
), .flags = VMS_STRUCT, .offset = (__builtin_offsetof(Exynos4210MCTGT
, reg) + ((struct gregs*)0 - (typeof(((Exynos4210MCTGT *)0)->
reg)*)0)), }
,
337 VMSTATE_UINT64(count, Exynos4210MCTGT){ .name = ("count"), .version_id = (0), .field_exists = (((void
*)0)), .size = sizeof(uint64_t), .info = &(vmstate_info_uint64
), .flags = VMS_SINGLE, .offset = (__builtin_offsetof(Exynos4210MCTGT
, count) + ((uint64_t*)0 - (typeof(((Exynos4210MCTGT *)0)->
count)*)0)), }
,
338 VMSTATE_INT32(curr_comp, Exynos4210MCTGT){ .name = ("curr_comp"), .version_id = (0), .field_exists = (
((void*)0)), .size = sizeof(int32_t), .info = &(vmstate_info_int32
), .flags = VMS_SINGLE, .offset = (__builtin_offsetof(Exynos4210MCTGT
, curr_comp) + ((int32_t*)0 - (typeof(((Exynos4210MCTGT *)0)->
curr_comp)*)0)), }
,
339 VMSTATE_PTIMER(ptimer_frc, Exynos4210MCTGT){ .name = ("ptimer_frc"), .version_id = (1), .vmsd = &vmstate_ptimer
, .size = sizeof(ptimer_state *), .flags = VMS_STRUCT|VMS_POINTER
, .offset = (__builtin_offsetof(Exynos4210MCTGT, ptimer_frc) +
((ptimer_state**)0 - (typeof(((Exynos4210MCTGT *)0)->ptimer_frc
)*)0)), }
,
340 VMSTATE_END_OF_LIST(){}
341 }
342};
343
344static const VMStateDescription vmstate_exynos4210_mct_state = {
345 .name = "exynos4210.mct",
346 .version_id = 1,
347 .minimum_version_id = 1,
348 .minimum_version_id_old = 1,
349 .fields = (VMStateField[]) {
350 VMSTATE_UINT32(reg_mct_cfg, Exynos4210MCTState){ .name = ("reg_mct_cfg"), .version_id = (0), .field_exists =
(((void*)0)), .size = sizeof(uint32_t), .info = &(vmstate_info_uint32
), .flags = VMS_SINGLE, .offset = (__builtin_offsetof(Exynos4210MCTState
, reg_mct_cfg) + ((uint32_t*)0 - (typeof(((Exynos4210MCTState
*)0)->reg_mct_cfg)*)0)), }
,
351 VMSTATE_STRUCT_ARRAY(l_timer, Exynos4210MCTState, 2, 0,{ .name = ("l_timer"), .num = (2), .field_exists = (((void*)0
)), .version_id = (0), .vmsd = &(vmstate_exynos4210_mct_lt
), .size = sizeof(Exynos4210MCTLT), .flags = VMS_STRUCT|VMS_ARRAY
, .offset = (__builtin_offsetof(Exynos4210MCTState, l_timer) +
((Exynos4210MCTLT(*)[2])0 - (typeof(((Exynos4210MCTState *)0
)->l_timer)*)0)),}
352 vmstate_exynos4210_mct_lt, Exynos4210MCTLT){ .name = ("l_timer"), .num = (2), .field_exists = (((void*)0
)), .version_id = (0), .vmsd = &(vmstate_exynos4210_mct_lt
), .size = sizeof(Exynos4210MCTLT), .flags = VMS_STRUCT|VMS_ARRAY
, .offset = (__builtin_offsetof(Exynos4210MCTState, l_timer) +
((Exynos4210MCTLT(*)[2])0 - (typeof(((Exynos4210MCTState *)0
)->l_timer)*)0)),}
,
353 VMSTATE_STRUCT(g_timer, Exynos4210MCTState, 0,{ .name = ("g_timer"), .version_id = (0), .field_exists = (((
void*)0)), .vmsd = &(vmstate_exynos4210_mct_gt), .size = sizeof
(Exynos4210MCTGT), .flags = VMS_STRUCT, .offset = (__builtin_offsetof
(Exynos4210MCTState, g_timer) + ((Exynos4210MCTGT*)0 - (typeof
(((Exynos4210MCTState *)0)->g_timer)*)0)), }
354 vmstate_exynos4210_mct_gt, Exynos4210MCTGT){ .name = ("g_timer"), .version_id = (0), .field_exists = (((
void*)0)), .vmsd = &(vmstate_exynos4210_mct_gt), .size = sizeof
(Exynos4210MCTGT), .flags = VMS_STRUCT, .offset = (__builtin_offsetof
(Exynos4210MCTState, g_timer) + ((Exynos4210MCTGT*)0 - (typeof
(((Exynos4210MCTState *)0)->g_timer)*)0)), }
,
355 VMSTATE_UINT32(freq, Exynos4210MCTState){ .name = ("freq"), .version_id = (0), .field_exists = (((void
*)0)), .size = sizeof(uint32_t), .info = &(vmstate_info_uint32
), .flags = VMS_SINGLE, .offset = (__builtin_offsetof(Exynos4210MCTState
, freq) + ((uint32_t*)0 - (typeof(((Exynos4210MCTState *)0)->
freq)*)0)), }
,
356 VMSTATE_END_OF_LIST(){}
357 }
358};
359
360static void exynos4210_mct_update_freq(Exynos4210MCTState *s);
361
362/*
363 * Set counter of FRC global timer.
364 */
365static void exynos4210_gfrc_set_count(Exynos4210MCTGT *s, uint64_t count)
366{
367 s->count = count;
368 DPRINTF("global timer frc set count 0x%llx\n", count)do {} while (0);
369 ptimer_set_count(s->ptimer_frc, count);
370}
371
372/*
373 * Get counter of FRC global timer.
374 */
375static uint64_t exynos4210_gfrc_get_count(Exynos4210MCTGT *s)
376{
377 uint64_t count = 0;
378 count = ptimer_get_count(s->ptimer_frc);
379 if (!count) {
380 /* Timer event was generated and s->reg.cnt holds adequate value */
381 return s->reg.cnt;
382 }
383 count = s->count - count;
384 return s->reg.cnt + count;
385}
386
387/*
388 * Stop global FRC timer
389 */
390static void exynos4210_gfrc_stop(Exynos4210MCTGT *s)
391{
392 DPRINTF("global timer frc stop\n")do {} while (0);
393
394 ptimer_stop(s->ptimer_frc);
395}
396
397/*
398 * Start global FRC timer
399 */
400static void exynos4210_gfrc_start(Exynos4210MCTGT *s)
401{
402 DPRINTF("global timer frc start\n")do {} while (0);
403
404 ptimer_run(s->ptimer_frc, 1);
405}
406
407/*
408 * Find next nearest Comparator. If current Comparator value equals to other
409 * Comparator value, skip them both
410 */
411static int32_t exynos4210_gcomp_find(Exynos4210MCTState *s)
412{
413 int res;
414 int i;
415 int enabled;
416 uint64_t min;
417 int min_comp_i;
418 uint64_t gfrc;
419 uint64_t distance;
420 uint64_t distance_min;
421 int comp_i;
422
423 /* get gfrc count */
424 gfrc = exynos4210_gfrc_get_count(&s->g_timer);
425
426 min = UINT64_MAX(18446744073709551615UL);
427 distance_min = UINT64_MAX(18446744073709551615UL);
428 comp_i = MCT_GT_CMP_NUM4;
429 min_comp_i = MCT_GT_CMP_NUM4;
430 enabled = 0;
431
432 /* lookup for nearest comparator */
433 for (i = 0; i < MCT_GT_CMP_NUM4; i++) {
434
435 if (s->g_timer.reg.tcon & G_TCON_COMP_ENABLE(i)(1 << 2 * (i))) {
436
437 enabled = 1;
438
439 if (s->g_timer.reg.comp[i] > gfrc) {
440 /* Comparator is upper then FRC */
441 distance = s->g_timer.reg.comp[i] - gfrc;
442
443 if (distance <= distance_min) {
444 distance_min = distance;
445 comp_i = i;
446 }
447 } else {
448 /* Comparator is below FRC, find the smallest */
449
450 if (s->g_timer.reg.comp[i] <= min) {
451 min = s->g_timer.reg.comp[i];
452 min_comp_i = i;
453 }
454 }
455 }
456 }
457
458 if (!enabled) {
459 /* All Comparators disabled */
460 res = -1;
461 } else if (comp_i < MCT_GT_CMP_NUM4) {
462 /* Found upper Comparator */
463 res = comp_i;
464 } else {
465 /* All Comparators are below or equal to FRC */
466 res = min_comp_i;
467 }
468
469 DPRINTF("found comparator %d: comp 0x%llx distance 0x%llx, gfrc 0x%llx\n",do {} while (0)
470 res,do {} while (0)
471 s->g_timer.reg.comp[res],do {} while (0)
472 distance_min,do {} while (0)
473 gfrc)do {} while (0);
474
475 return res;
476}
477
478/*
479 * Get distance to nearest Comparator
480 */
481static uint64_t exynos4210_gcomp_get_distance(Exynos4210MCTState *s, int32_t id)
482{
483 if (id == -1) {
484 /* no enabled Comparators, choose max distance */
485 return MCT_GT_COUNTER_STEP0x100000000ULL;
486 }
487 if (s->g_timer.reg.comp[id] - s->g_timer.reg.cnt < MCT_GT_COUNTER_STEP0x100000000ULL) {
488 return s->g_timer.reg.comp[id] - s->g_timer.reg.cnt;
489 } else {
490 return MCT_GT_COUNTER_STEP0x100000000ULL;
491 }
492}
493
494/*
495 * Restart global FRC timer
496 */
497static void exynos4210_gfrc_restart(Exynos4210MCTState *s)
498{
499 uint64_t distance;
500
501 exynos4210_gfrc_stop(&s->g_timer);
502
503 s->g_timer.curr_comp = exynos4210_gcomp_find(s);
504
505 distance = exynos4210_gcomp_get_distance(s, s->g_timer.curr_comp);
506
507 if (distance > MCT_GT_COUNTER_STEP0x100000000ULL || !distance) {
508 distance = MCT_GT_COUNTER_STEP0x100000000ULL;
509 }
510
511 exynos4210_gfrc_set_count(&s->g_timer, distance);
512 exynos4210_gfrc_start(&s->g_timer);
513}
514
515/*
516 * Raise global timer CMP IRQ
517 */
518static void exynos4210_gcomp_raise_irq(void *opaque, uint32_t id)
519{
520 Exynos4210MCTGT *s = opaque;
521
522 /* If CSTAT is pending and IRQ is enabled */
523 if ((s->reg.int_cstat & G_INT_CSTAT_COMP(id)(1 << (id))) &&
524 (s->reg.int_enb & G_INT_ENABLE(id)(1 << (id)))) {
525 DPRINTF("gcmp timer[%d] IRQ\n", id)do {} while (0);
526 qemu_irq_raise(s->irq[id]);
527 }
528}
529
530/*
531 * Lower global timer CMP IRQ
532 */
533static void exynos4210_gcomp_lower_irq(void *opaque, uint32_t id)
534{
535 Exynos4210MCTGT *s = opaque;
536 qemu_irq_lower(s->irq[id]);
537}
538
539/*
540 * Global timer FRC event handler.
541 * Each event occurs when internal counter reaches counter + MCT_GT_COUNTER_STEP
542 * Every time we arm global FRC timer to count for MCT_GT_COUNTER_STEP value
543 */
544static void exynos4210_gfrc_event(void *opaque)
545{
546 Exynos4210MCTState *s = (Exynos4210MCTState *)opaque;
547 int i;
548 uint64_t distance;
549
550 DPRINTF("\n")do {} while (0);
551
552 s->g_timer.reg.cnt += s->g_timer.count;
553
554 /* Process all comparators */
555 for (i = 0; i < MCT_GT_CMP_NUM4; i++) {
556
557 if (s->g_timer.reg.cnt == s->g_timer.reg.comp[i]) {
558 /* reached nearest comparator */
559
560 s->g_timer.reg.int_cstat |= G_INT_CSTAT_COMP(i)(1 << (i));
561
562 /* Auto increment */
563 if (s->g_timer.reg.tcon & G_TCON_AUTO_ICREMENT(i)(1 << (2 * (i) + 1))) {
564 s->g_timer.reg.comp[i] += s->g_timer.reg.comp_add_incr[i];
565 }
566
567 /* IRQ */
568 exynos4210_gcomp_raise_irq(&s->g_timer, i);
569 }
570 }
571
572 /* Reload FRC to reach nearest comparator */
573 s->g_timer.curr_comp = exynos4210_gcomp_find(s);
574 distance = exynos4210_gcomp_get_distance(s, s->g_timer.curr_comp);
575 if (distance > MCT_GT_COUNTER_STEP0x100000000ULL) {
576 distance = MCT_GT_COUNTER_STEP0x100000000ULL;
577 }
578 exynos4210_gfrc_set_count(&s->g_timer, distance);
579
580 exynos4210_gfrc_start(&s->g_timer);
581
582 return;
583}
584
585/*
586 * Get counter of FRC local timer.
587 */
588static uint64_t exynos4210_lfrc_get_count(Exynos4210MCTLT *s)
589{
590 return ptimer_get_count(s->ptimer_frc);
591}
592
593/*
594 * Set counter of FRC local timer.
595 */
596static void exynos4210_lfrc_update_count(Exynos4210MCTLT *s)
597{
598 if (!s->reg.cnt[L_REG_CNT_FRCCNTB]) {
599 ptimer_set_count(s->ptimer_frc, MCT_LT_COUNTER_STEP0x100000000ULL);
600 } else {
601 ptimer_set_count(s->ptimer_frc, s->reg.cnt[L_REG_CNT_FRCCNTB]);
602 }
603}
604
605/*
606 * Start local FRC timer
607 */
608static void exynos4210_lfrc_start(Exynos4210MCTLT *s)
609{
610 ptimer_run(s->ptimer_frc, 1);
611}
612
613/*
614 * Stop local FRC timer
615 */
616static void exynos4210_lfrc_stop(Exynos4210MCTLT *s)
617{
618 ptimer_stop(s->ptimer_frc);
619}
620
621/*
622 * Local timer free running counter tick handler
623 */
624static void exynos4210_lfrc_event(void *opaque)
625{
626 Exynos4210MCTLT * s = (Exynos4210MCTLT *)opaque;
627
628 /* local frc expired */
629
630 DPRINTF("\n")do {} while (0);
631
632 s->reg.int_cstat |= L_INT_CSTAT_FRCCNT(1 << 1);
633
634 /* update frc counter */
635 exynos4210_lfrc_update_count(s);
636
637 /* raise irq */
638 if (s->reg.int_enb & L_INT_INTENB_FRCEIE(1 << 1)) {
639 qemu_irq_raise(s->irq);
640 }
641
642 /* we reached here, this means that timer is enabled */
643 exynos4210_lfrc_start(s);
644}
645
646static uint32_t exynos4210_ltick_int_get_cnto(struct tick_timer *s);
647static uint32_t exynos4210_ltick_cnt_get_cnto(struct tick_timer *s);
648static void exynos4210_ltick_recalc_count(struct tick_timer *s);
649
650/*
651 * Action on enabling local tick int timer
652 */
653static void exynos4210_ltick_int_start(struct tick_timer *s)
654{
655 if (!s->int_run) {
656 s->int_run = 1;
657 }
658}
659
660/*
661 * Action on disabling local tick int timer
662 */
663static void exynos4210_ltick_int_stop(struct tick_timer *s)
664{
665 if (s->int_run) {
666 s->last_icnto = exynos4210_ltick_int_get_cnto(s);
667 s->int_run = 0;
668 }
669}
670
671/*
672 * Get count for INT timer
673 */
674static uint32_t exynos4210_ltick_int_get_cnto(struct tick_timer *s)
675{
676 uint32_t icnto;
677 uint64_t remain;
678 uint64_t count;
679 uint64_t counted;
680 uint64_t cur_progress;
681
682 count = ptimer_get_count(s->ptimer_tick);
683 if (count) {
684 /* timer is still counting, called not from event */
685 counted = s->count - ptimer_get_count(s->ptimer_tick);
686 cur_progress = s->progress + counted;
687 } else {
688 /* timer expired earlier */
689 cur_progress = s->progress;
690 }
691
692 remain = s->distance - cur_progress;
693
694 if (!s->int_run) {
695 /* INT is stopped. */
696 icnto = s->last_icnto;
697 } else {
698 /* Both are counting */
699 icnto = remain / s->tcntb;
700 }
701
702 return icnto;
703}
704
705/*
706 * Start local tick cnt timer.
707 */
708static void exynos4210_ltick_cnt_start(struct tick_timer *s)
709{
710 if (!s->cnt_run) {
711
712 exynos4210_ltick_recalc_count(s);
713 ptimer_set_count(s->ptimer_tick, s->count);
714 ptimer_run(s->ptimer_tick, 1);
715
716 s->cnt_run = 1;
717 }
718}
719
720/*
721 * Stop local tick cnt timer.
722 */
723static void exynos4210_ltick_cnt_stop(struct tick_timer *s)
724{
725 if (s->cnt_run) {
726
727 s->last_tcnto = exynos4210_ltick_cnt_get_cnto(s);
728
729 if (s->int_run) {
730 exynos4210_ltick_int_stop(s);
731 }
732
733 ptimer_stop(s->ptimer_tick);
734
735 s->cnt_run = 0;
736 }
737}
738
739/*
740 * Get counter for CNT timer
741 */
742static uint32_t exynos4210_ltick_cnt_get_cnto(struct tick_timer *s)
743{
744 uint32_t tcnto;
745 uint32_t icnto;
746 uint64_t remain;
747 uint64_t counted;
748 uint64_t count;
749 uint64_t cur_progress;
750
751 count = ptimer_get_count(s->ptimer_tick);
752 if (count) {
753 /* timer is still counting, called not from event */
754 counted = s->count - ptimer_get_count(s->ptimer_tick);
755 cur_progress = s->progress + counted;
756 } else {
757 /* timer expired earlier */
758 cur_progress = s->progress;
759 }
760
761 remain = s->distance - cur_progress;
762
763 if (!s->cnt_run) {
764 /* Both are stopped. */
765 tcnto = s->last_tcnto;
766 } else if (!s->int_run) {
767 /* INT counter is stopped, progress is by CNT timer */
768 tcnto = remain % s->tcntb;
769 } else {
770 /* Both are counting */
771 icnto = remain / s->tcntb;
772 if (icnto) {
773 tcnto = remain % (icnto * s->tcntb);
774 } else {
775 tcnto = remain % s->tcntb;
776 }
777 }
778
779 return tcnto;
780}
781
782/*
783 * Set new values of counters for CNT and INT timers
784 */
785static void exynos4210_ltick_set_cntb(struct tick_timer *s, uint32_t new_cnt,
786 uint32_t new_int)
787{
788 uint32_t cnt_stopped = 0;
789 uint32_t int_stopped = 0;
790
791 if (s->cnt_run) {
792 exynos4210_ltick_cnt_stop(s);
793 cnt_stopped = 1;
794 }
795
796 if (s->int_run) {
797 exynos4210_ltick_int_stop(s);
798 int_stopped = 1;
799 }
800
801 s->tcntb = new_cnt + 1;
802 s->icntb = new_int + 1;
803
804 if (cnt_stopped) {
805 exynos4210_ltick_cnt_start(s);
806 }
807 if (int_stopped) {
808 exynos4210_ltick_int_start(s);
809 }
810
811}
812
813/*
814 * Calculate new counter value for tick timer
815 */
816static void exynos4210_ltick_recalc_count(struct tick_timer *s)
817{
818 uint64_t to_count;
819
820 if ((s->cnt_run && s->last_tcnto) || (s->int_run && s->last_icnto)) {
821 /*
822 * one or both timers run and not counted to the end;
823 * distance is not passed, recalculate with last_tcnto * last_icnto
824 */
825
826 if (s->last_tcnto) {
827 to_count = s->last_tcnto * s->last_icnto;
828 } else {
829 to_count = s->last_icnto;
830 }
831 } else {
832 /* distance is passed, recalculate with tcnto * icnto */
833 if (s->icntb) {
834 s->distance = s->tcntb * s->icntb;
835 } else {
836 s->distance = s->tcntb;
837 }
838
839 to_count = s->distance;
840 s->progress = 0;
841 }
842
843 if (to_count > MCT_LT_COUNTER_STEP0x100000000ULL) {
844 /* count by step */
845 s->count = MCT_LT_COUNTER_STEP0x100000000ULL;
846 } else {
847 s->count = to_count;
848 }
849}
850
851/*
852 * Initialize tick_timer
853 */
854static void exynos4210_ltick_timer_init(struct tick_timer *s)
855{
856 exynos4210_ltick_int_stop(s);
857 exynos4210_ltick_cnt_stop(s);
858
859 s->count = 0;
860 s->distance = 0;
861 s->progress = 0;
862 s->icntb = 0;
863 s->tcntb = 0;
864}
865
866/*
867 * tick_timer event.
868 * Raises when abstract tick_timer expires.
869 */
870static void exynos4210_ltick_timer_event(struct tick_timer *s)
871{
872 s->progress += s->count;
873}
874
875/*
876 * Local timer tick counter handler.
877 * Don't use reloaded timers. If timer counter = zero
878 * then handler called but after handler finished no
879 * timer reload occurs.
880 */
881static void exynos4210_ltick_event(void *opaque)
882{
883 Exynos4210MCTLT * s = (Exynos4210MCTLT *)opaque;
884 uint32_t tcnto;
885 uint32_t icnto;
886#ifdef DEBUG_MCT
887 static uint64_t time1[2] = {0};
888 static uint64_t time2[2] = {0};
889#endif
890
891 /* Call tick_timer event handler, it will update its tcntb and icntb. */
892 exynos4210_ltick_timer_event(&s->tick_timer);
893
894 /* get tick_timer cnt */
895 tcnto = exynos4210_ltick_cnt_get_cnto(&s->tick_timer);
896
897 /* get tick_timer int */
898 icnto = exynos4210_ltick_int_get_cnto(&s->tick_timer);
899
900 /* raise IRQ if needed */
901 if (!icnto && s->reg.tcon & L_TCON_INT_START(1 << 1)) {
902 /* INT counter enabled and expired */
903
904 s->reg.int_cstat |= L_INT_CSTAT_INTCNT(1 << 0);
905
906 /* raise interrupt if enabled */
907 if (s->reg.int_enb & L_INT_INTENB_ICNTEIE(1 << 0)) {
908#ifdef DEBUG_MCT
909 time2[s->id] = qemu_get_clock_ns(vm_clock);
910 DPRINTF("local timer[%d] IRQ: %llx\n", s->id,do {} while (0)
911 time2[s->id] - time1[s->id])do {} while (0);
912 time1[s->id] = time2[s->id];
913#endif
914 qemu_irq_raise(s->irq);
915 }
916
917 /* reload ICNTB */
918 if (s->reg.tcon & L_TCON_INTERVAL_MODE(1 << 2)) {
919 exynos4210_ltick_set_cntb(&s->tick_timer,
920 s->reg.cnt[L_REG_CNT_TCNTB],
921 s->reg.cnt[L_REG_CNT_ICNTB]);
922 }
923 } else {
924 /* reload TCNTB */
925 if (!tcnto) {
926 exynos4210_ltick_set_cntb(&s->tick_timer,
927 s->reg.cnt[L_REG_CNT_TCNTB],
928 icnto);
929 }
930 }
931
932 /* start tick_timer cnt */
933 exynos4210_ltick_cnt_start(&s->tick_timer);
934
935 /* start tick_timer int */
936 exynos4210_ltick_int_start(&s->tick_timer);
937}
938
939/* update timer frequency */
940static void exynos4210_mct_update_freq(Exynos4210MCTState *s)
941{
942 uint32_t freq = s->freq;
943 s->freq = 24000000 /
944 ((MCT_CFG_GET_PRESCALER(s->reg_mct_cfg)((s->reg_mct_cfg) & 0xFF)+1) *
945 MCT_CFG_GET_DIVIDER(s->reg_mct_cfg)(1 << ((s->reg_mct_cfg) >> 8 & 7)));
946
947 if (freq != s->freq) {
948 DPRINTF("freq=%dHz\n", s->freq)do {} while (0);
949
950 /* global timer */
951 ptimer_set_freq(s->g_timer.ptimer_frc, s->freq);
952
953 /* local timer */
954 ptimer_set_freq(s->l_timer[0].tick_timer.ptimer_tick, s->freq);
955 ptimer_set_freq(s->l_timer[0].ptimer_frc, s->freq);
956 ptimer_set_freq(s->l_timer[1].tick_timer.ptimer_tick, s->freq);
957 ptimer_set_freq(s->l_timer[1].ptimer_frc, s->freq);
958 }
959}
960
961/* set defaul_timer values for all fields */
962static void exynos4210_mct_reset(DeviceState *d)
963{
964 Exynos4210MCTState *s = (Exynos4210MCTState *)d;
965 uint32_t i;
966
967 s->reg_mct_cfg = 0;
968
969 /* global timer */
970 memset(&s->g_timer.reg, 0, sizeof(s->g_timer.reg));
971 exynos4210_gfrc_stop(&s->g_timer);
972
973 /* local timer */
974 memset(s->l_timer[0].reg.cnt, 0, sizeof(s->l_timer[0].reg.cnt));
975 memset(s->l_timer[1].reg.cnt, 0, sizeof(s->l_timer[1].reg.cnt));
976 for (i = 0; i < 2; i++) {
977 s->l_timer[i].reg.int_cstat = 0;
978 s->l_timer[i].reg.int_enb = 0;
979 s->l_timer[i].reg.tcon = 0;
980 s->l_timer[i].reg.wstat = 0;
981 s->l_timer[i].tick_timer.count = 0;
982 s->l_timer[i].tick_timer.distance = 0;
983 s->l_timer[i].tick_timer.progress = 0;
984 ptimer_stop(s->l_timer[i].ptimer_frc);
985
986 exynos4210_ltick_timer_init(&s->l_timer[i].tick_timer);
987 }
988
989 exynos4210_mct_update_freq(s);
990
991}
992
993/* Multi Core Timer read */
994static uint64_t exynos4210_mct_read(void *opaque, target_phys_addr_t offset,
995 unsigned size)
996{
997 Exynos4210MCTState *s = (Exynos4210MCTState *)opaque;
998 int index;
999 int shift;
1000 uint64_t count;
1001 uint32_t value;
1002 int lt_i;
1003
1004 switch (offset) {
1005
1006 case MCT_CFG0x000:
1007 value = s->reg_mct_cfg;
1008 break;
1009
1010 case G_CNT_L0x100: case G_CNT_U0x104:
1011 shift = 8 * (offset & 0x4);
1012 count = exynos4210_gfrc_get_count(&s->g_timer);
1013 value = UINT32_MAX(4294967295U) & (count >> shift);
1014 DPRINTF("read FRC=0x%llx\n", count)do {} while (0);
1015 break;
1016
1017 case G_CNT_WSTAT0x110:
1018 value = s->g_timer.reg.cnt_wstat;
1019 break;
1020
1021 case G_COMP_L(0)(0x200 + (0) * 0x10): case G_COMP_L(1)(0x200 + (1) * 0x10): case G_COMP_L(2)(0x200 + (2) * 0x10): case G_COMP_L(3)(0x200 + (3) * 0x10):
1022 case G_COMP_U(0)(0x204 + (0) * 0x10): case G_COMP_U(1)(0x204 + (1) * 0x10): case G_COMP_U(2)(0x204 + (2) * 0x10): case G_COMP_U(3)(0x204 + (3) * 0x10):
1023 index = GET_G_COMP_IDX(offset)(((offset) - 0x200) / 0x10);
1024 shift = 8 * (offset & 0x4);
1025 value = UINT32_MAX(4294967295U) & (s->g_timer.reg.comp[index] >> shift);
1026 break;
1027
1028 case G_TCON0x240:
1029 value = s->g_timer.reg.tcon;
1030 break;
1031
1032 case G_INT_CSTAT0x244:
1033 value = s->g_timer.reg.int_cstat;
1034 break;
1035
1036 case G_INT_ENB0x248:
1037 value = s->g_timer.reg.int_enb;
1038 break;
1039 break;
1040 case G_WSTAT0x24C:
1041 value = s->g_timer.reg.wstat;
1042 break;
1043
1044 case G_COMP0_ADD_INCR0x208: case G_COMP1_ADD_INCR0x218:
1045 case G_COMP2_ADD_INCR0x228: case G_COMP3_ADD_INCR0x238:
1046 value = s->g_timer.reg.comp_add_incr[GET_G_COMP_ADD_INCR_IDX(offset)(((offset) - 0x208) / 0x10)];
1047 break;
1048
1049 /* Local timers */
1050 case L0_TCNTB0x300: case L0_ICNTB0x308: case L0_FRCNTB0x310:
1051 case L1_TCNTB0x400: case L1_ICNTB0x408: case L1_FRCNTB0x410:
1052 lt_i = GET_L_TIMER_IDX(offset)((((offset) & 0xF00) - 0x300) / 0x100);
1053 index = GET_L_TIMER_CNT_REG_IDX(offset, lt_i)(((offset) - (0x300 + 0x100 * (lt_i))) >> 2);
1054 value = s->l_timer[lt_i].reg.cnt[index];
1055 break;
1056
1057 case L0_TCNTO0x304: case L1_TCNTO0x404:
1058 lt_i = GET_L_TIMER_IDX(offset)((((offset) & 0xF00) - 0x300) / 0x100);
1059
1060 value = exynos4210_ltick_cnt_get_cnto(&s->l_timer[lt_i].tick_timer);
1061 DPRINTF("local timer[%d] read TCNTO %x\n", lt_i, value)do {} while (0);
1062 break;
1063
1064 case L0_ICNTO0x30C: case L1_ICNTO0x40C:
1065 lt_i = GET_L_TIMER_IDX(offset)((((offset) & 0xF00) - 0x300) / 0x100);
1066
1067 value = exynos4210_ltick_int_get_cnto(&s->l_timer[lt_i].tick_timer);
1068 DPRINTF("local timer[%d] read ICNTO %x\n", lt_i, value)do {} while (0);
1069 break;
1070
1071 case L0_FRCNTO0x314: case L1_FRCNTO0x414:
1072 lt_i = GET_L_TIMER_IDX(offset)((((offset) & 0xF00) - 0x300) / 0x100);
1073
1074 value = exynos4210_lfrc_get_count(&s->l_timer[lt_i]);
1075
1076 break;
1077
1078 case L0_TCON0x320: case L1_TCON0x420:
1079 lt_i = ((offset & 0xF00) - L0_TCNTB0x300) / 0x100;
1080 value = s->l_timer[lt_i].reg.tcon;
1081 break;
1082
1083 case L0_INT_CSTAT0x330: case L1_INT_CSTAT0x430:
1084 lt_i = ((offset & 0xF00) - L0_TCNTB0x300) / 0x100;
1085 value = s->l_timer[lt_i].reg.int_cstat;
1086 break;
1087
1088 case L0_INT_ENB0x334: case L1_INT_ENB0x434:
1089 lt_i = ((offset & 0xF00) - L0_TCNTB0x300) / 0x100;
1090 value = s->l_timer[lt_i].reg.int_enb;
1091 break;
1092
1093 case L0_WSTAT0x340: case L1_WSTAT0x440:
1094 lt_i = ((offset & 0xF00) - L0_TCNTB0x300) / 0x100;
1095 value = s->l_timer[lt_i].reg.wstat;
1096 break;
1097
1098 default:
1099 hw_error("exynos4210.mct: bad read offset "
1100 TARGET_FMT_plx"%08x" "\n", offset);
1101 break;
1102 }
1103 return value;
1104}
1105
1106/* MCT write */
1107static void exynos4210_mct_write(void *opaque, target_phys_addr_t offset,
1108 uint64_t value, unsigned size)
1109{
1110 Exynos4210MCTState *s = (Exynos4210MCTState *)opaque;
1111 int index; /* index in buffer which represents register set */
1112 int shift;
1113 int lt_i;
1114 uint64_t new_frc;
1115 uint32_t i;
1116 uint32_t old_val;
1117#ifdef DEBUG_MCT
1118 static uint32_t icntb_max[2] = {0};
1119 static uint32_t icntb_min[2] = {UINT32_MAX(4294967295U), UINT32_MAX(4294967295U)};
1120 static uint32_t tcntb_max[2] = {0};
1121 static uint32_t tcntb_min[2] = {UINT32_MAX(4294967295U), UINT32_MAX(4294967295U)};
1122#endif
1123
1124 new_frc = s->g_timer.reg.cnt;
1125
1126 switch (offset) {
1127
1128 case MCT_CFG0x000:
1129 s->reg_mct_cfg = value;
1130 exynos4210_mct_update_freq(s);
1131 break;
1132
1133 case G_CNT_L0x100:
1134 case G_CNT_U0x104:
1135 if (offset == G_CNT_L0x100) {
1136
1137 DPRINTF("global timer write to reg.cntl %llx\n", value)do {} while (0);
1138
1139 new_frc = (s->g_timer.reg.cnt & (uint64_t)UINT32_MAX(4294967295U) << 32) + value;
1140 s->g_timer.reg.cnt_wstat |= G_CNT_WSTAT_L1;
1141 }
1142 if (offset == G_CNT_U0x104) {
1143
1144 DPRINTF("global timer write to reg.cntu %llx\n", value)do {} while (0);
1145
1146 new_frc = (s->g_timer.reg.cnt & UINT32_MAX(4294967295U)) +
1147 ((uint64_t)value << 32);
1148 s->g_timer.reg.cnt_wstat |= G_CNT_WSTAT_U2;
1149 }
1150
1151 s->g_timer.reg.cnt = new_frc;
1152 exynos4210_gfrc_restart(s);
1153 break;
1154
1155 case G_CNT_WSTAT0x110:
1156 s->g_timer.reg.cnt_wstat &= ~(value);
1157 break;
1158
1159 case G_COMP_L(0)(0x200 + (0) * 0x10): case G_COMP_L(1)(0x200 + (1) * 0x10): case G_COMP_L(2)(0x200 + (2) * 0x10): case G_COMP_L(3)(0x200 + (3) * 0x10):
1160 case G_COMP_U(0)(0x204 + (0) * 0x10): case G_COMP_U(1)(0x204 + (1) * 0x10): case G_COMP_U(2)(0x204 + (2) * 0x10): case G_COMP_U(3)(0x204 + (3) * 0x10):
1161 index = GET_G_COMP_IDX(offset)(((offset) - 0x200) / 0x10);
1162 shift = 8 * (offset & 0x4);
1163 s->g_timer.reg.comp[index] =
1164 (s->g_timer.reg.comp[index] &
1165 (((uint64_t)UINT32_MAX(4294967295U) << 32) >> shift)) +
1166 (value << shift);
1167
1168 DPRINTF("comparator %d write 0x%llx val << %d\n", index, value, shift)do {} while (0);
1169
1170 if (offset&0x4) {
1171 s->g_timer.reg.wstat |= G_WSTAT_COMP_U(index)(1 << ((4 * (index)) + 1));
1172 } else {
1173 s->g_timer.reg.wstat |= G_WSTAT_COMP_L(index)(1 << 4 * (index));
1174 }
1175
1176 exynos4210_gfrc_restart(s);
1177 break;
1178
1179 case G_TCON0x240:
1180 old_val = s->g_timer.reg.tcon;
1181 s->g_timer.reg.tcon = value;
1182 s->g_timer.reg.wstat |= G_WSTAT_TCON_WRITE(1 << 16);
1183
1184 DPRINTF("global timer write to reg.g_tcon %llx\n", value)do {} while (0);
1185
1186 /* Start FRC if transition from disabled to enabled */
1187 if ((value & G_TCON_TIMER_ENABLE(1 << 8)) > (old_val &
1188 G_TCON_TIMER_ENABLE(1 << 8))) {
1189 exynos4210_gfrc_start(&s->g_timer);
1190 }
1191 if ((value & G_TCON_TIMER_ENABLE(1 << 8)) < (old_val &
1192 G_TCON_TIMER_ENABLE(1 << 8))) {
1193 exynos4210_gfrc_stop(&s->g_timer);
1194 }
1195
1196 /* Start CMP if transition from disabled to enabled */
1197 for (i = 0; i < MCT_GT_CMP_NUM4; i++) {
1198 if ((value & G_TCON_COMP_ENABLE(i)(1 << 2 * (i))) != (old_val &
1199 G_TCON_COMP_ENABLE(i)(1 << 2 * (i)))) {
1200 exynos4210_gfrc_restart(s);
1201 }
1202 }
1203 break;
1204
1205 case G_INT_CSTAT0x244:
1206 s->g_timer.reg.int_cstat &= ~(value);
1207 for (i = 0; i < MCT_GT_CMP_NUM4; i++) {
1208 if (value & G_INT_CSTAT_COMP(i)(1 << (i))) {
1209 exynos4210_gcomp_lower_irq(&s->g_timer, i);
1210 }
1211 }
1212 break;
1213
1214 case G_INT_ENB0x248:
1215
1216 /* Raise IRQ if transition from disabled to enabled and CSTAT pending */
1217 for (i = 0; i < MCT_GT_CMP_NUM4; i++) {
1218 if ((value & G_INT_ENABLE(i)(1 << (i))) > (s->g_timer.reg.tcon &
1219 G_INT_ENABLE(i)(1 << (i)))) {
1220 if (s->g_timer.reg.int_cstat & G_INT_CSTAT_COMP(i)(1 << (i))) {
1221 exynos4210_gcomp_raise_irq(&s->g_timer, i);
1222 }
1223 }
1224
1225 if ((value & G_INT_ENABLE(i)(1 << (i))) < (s->g_timer.reg.tcon &
1226 G_INT_ENABLE(i)(1 << (i)))) {
1227 exynos4210_gcomp_lower_irq(&s->g_timer, i);
1228 }
1229 }
1230
1231 DPRINTF("global timer INT enable %llx\n", value)do {} while (0);
1232 s->g_timer.reg.int_enb = value;
1233 break;
1234
1235 case G_WSTAT0x24C:
1236 s->g_timer.reg.wstat &= ~(value);
1237 break;
1238
1239 case G_COMP0_ADD_INCR0x208: case G_COMP1_ADD_INCR0x218:
1240 case G_COMP2_ADD_INCR0x228: case G_COMP3_ADD_INCR0x238:
1241 index = GET_G_COMP_ADD_INCR_IDX(offset)(((offset) - 0x208) / 0x10);
1242 s->g_timer.reg.comp_add_incr[index] = value;
1243 s->g_timer.reg.wstat |= G_WSTAT_COMP_ADDINCR(index)(1 << ((4 * (index)) + 2));
1244 break;
1245
1246 /* Local timers */
1247 case L0_TCON0x320: case L1_TCON0x420:
1248 lt_i = GET_L_TIMER_IDX(offset)((((offset) & 0xF00) - 0x300) / 0x100);
1249 old_val = s->l_timer[lt_i].reg.tcon;
1250
1251 s->l_timer[lt_i].reg.wstat |= L_WSTAT_TCON_WRITE(1 << 3);
1252 s->l_timer[lt_i].reg.tcon = value;
1253
1254 /* Stop local CNT */
1255 if ((value & L_TCON_TICK_START(1)) <
1256 (old_val & L_TCON_TICK_START(1))) {
1257 DPRINTF("local timer[%d] stop cnt\n", lt_i)do {} while (0);
1258 exynos4210_ltick_cnt_stop(&s->l_timer[lt_i].tick_timer);
1259 }
1260
1261 /* Stop local INT */
1262 if ((value & L_TCON_INT_START(1 << 1)) <
1263 (old_val & L_TCON_INT_START(1 << 1))) {
1264 DPRINTF("local timer[%d] stop int\n", lt_i)do {} while (0);
1265 exynos4210_ltick_int_stop(&s->l_timer[lt_i].tick_timer);
1266 }
1267
1268 /* Start local CNT */
1269 if ((value & L_TCON_TICK_START(1)) >
1270 (old_val & L_TCON_TICK_START(1))) {
1271 DPRINTF("local timer[%d] start cnt\n", lt_i)do {} while (0);
1272 exynos4210_ltick_cnt_start(&s->l_timer[lt_i].tick_timer);
1273 }
1274
1275 /* Start local INT */
1276 if ((value & L_TCON_INT_START(1 << 1)) >
1277 (old_val & L_TCON_INT_START(1 << 1))) {
1278 DPRINTF("local timer[%d] start int\n", lt_i)do {} while (0);
1279 exynos4210_ltick_int_start(&s->l_timer[lt_i].tick_timer);
1280 }
1281
1282 /* Start or Stop local FRC if TCON changed */
1283 if ((value & L_TCON_FRC_START(1 << 3)) >
1284 (s->l_timer[lt_i].reg.tcon & L_TCON_FRC_START(1 << 3))) {
1285 DPRINTF("local timer[%d] start frc\n", lt_i)do {} while (0);
1286 exynos4210_lfrc_start(&s->l_timer[lt_i]);
1287 }
1288 if ((value & L_TCON_FRC_START(1 << 3)) <
1289 (s->l_timer[lt_i].reg.tcon & L_TCON_FRC_START(1 << 3))) {
1290 DPRINTF("local timer[%d] stop frc\n", lt_i)do {} while (0);
1291 exynos4210_lfrc_stop(&s->l_timer[lt_i]);
1292 }
1293 break;
1294
1295 case L0_TCNTB0x300: case L1_TCNTB0x400:
1296
1297 lt_i = GET_L_TIMER_IDX(offset)((((offset) & 0xF00) - 0x300) / 0x100);
1298 index = GET_L_TIMER_CNT_REG_IDX(offset, lt_i)(((offset) - (0x300 + 0x100 * (lt_i))) >> 2);
1299
1300 /*
1301 * TCNTB is updated to internal register only after CNT expired.
1302 * Due to this we should reload timer to nearest moment when CNT is
1303 * expired and then in event handler update tcntb to new TCNTB value.
1304 */
1305 exynos4210_ltick_set_cntb(&s->l_timer[lt_i].tick_timer, value,
1306 s->l_timer[lt_i].tick_timer.icntb);
1307
1308 s->l_timer[lt_i].reg.wstat |= L_WSTAT_TCNTB_WRITE(1 << 0);
1309 s->l_timer[lt_i].reg.cnt[L_REG_CNT_TCNTB] = value;
1310
1311#ifdef DEBUG_MCT
1312 if (tcntb_min[lt_i] > value) {
1313 tcntb_min[lt_i] = value;
1314 }
1315 if (tcntb_max[lt_i] < value) {
1316 tcntb_max[lt_i] = value;
1317 }
1318 DPRINTF("local timer[%d] TCNTB write %llx; max=%x, min=%x\n",do {} while (0)
1319 lt_i, value, tcntb_max[lt_i], tcntb_min[lt_i])do {} while (0);
1320#endif
1321 break;
1322
1323 case L0_ICNTB0x308: case L1_ICNTB0x408:
1324
1325 lt_i = GET_L_TIMER_IDX(offset)((((offset) & 0xF00) - 0x300) / 0x100);
1326 index = GET_L_TIMER_CNT_REG_IDX(offset, lt_i)(((offset) - (0x300 + 0x100 * (lt_i))) >> 2);
Value stored to 'index' is never read
1327
1328 s->l_timer[lt_i].reg.wstat |= L_WSTAT_ICNTB_WRITE(1 << 1);
1329 s->l_timer[lt_i].reg.cnt[L_REG_CNT_ICNTB] = value &
1330 ~L_ICNTB_MANUAL_UPDATE(1 << 31);
1331
1332 /*
1333 * We need to avoid too small values for TCNTB*ICNTB. If not, IRQ event
1334 * could raise too fast disallowing QEMU to execute target code.
1335 */
1336 if (s->l_timer[lt_i].reg.cnt[L_REG_CNT_ICNTB] *
1337 s->l_timer[lt_i].reg.cnt[L_REG_CNT_TCNTB] < MCT_LT_CNT_LOW_LIMIT0x100) {
1338 if (!s->l_timer[lt_i].reg.cnt[L_REG_CNT_TCNTB]) {
1339 s->l_timer[lt_i].reg.cnt[L_REG_CNT_ICNTB] =
1340 MCT_LT_CNT_LOW_LIMIT0x100;
1341 } else {
1342 s->l_timer[lt_i].reg.cnt[L_REG_CNT_ICNTB] =
1343 MCT_LT_CNT_LOW_LIMIT0x100 /
1344 s->l_timer[lt_i].reg.cnt[L_REG_CNT_TCNTB];
1345 }
1346 }
1347
1348 if (value & L_ICNTB_MANUAL_UPDATE(1 << 31)) {
1349 exynos4210_ltick_set_cntb(&s->l_timer[lt_i].tick_timer,
1350 s->l_timer[lt_i].tick_timer.tcntb,
1351 s->l_timer[lt_i].reg.cnt[L_REG_CNT_ICNTB]);
1352 }
1353
1354#ifdef DEBUG_MCT
1355 if (icntb_min[lt_i] > value) {
1356 icntb_min[lt_i] = value;
1357 }
1358 if (icntb_max[lt_i] < value) {
1359 icntb_max[lt_i] = value;
1360 }
1361DPRINTF("local timer[%d] ICNTB write %llx; max=%x, min=%x\n\n",do {} while (0)
1362 lt_i, value, icntb_max[lt_i], icntb_min[lt_i])do {} while (0);
1363#endif
1364break;
1365
1366 case L0_FRCNTB0x310: case L1_FRCNTB0x410:
1367
1368 lt_i = GET_L_TIMER_IDX(offset)((((offset) & 0xF00) - 0x300) / 0x100);
1369 index = GET_L_TIMER_CNT_REG_IDX(offset, lt_i)(((offset) - (0x300 + 0x100 * (lt_i))) >> 2);
1370
1371 DPRINTF("local timer[%d] FRCNTB write %llx\n", lt_i, value)do {} while (0);
1372
1373 s->l_timer[lt_i].reg.wstat |= L_WSTAT_FRCCNTB_WRITE(1 << 2);
1374 s->l_timer[lt_i].reg.cnt[L_REG_CNT_FRCCNTB] = value;
1375
1376 break;
1377
1378 case L0_TCNTO0x304: case L1_TCNTO0x404:
1379 case L0_ICNTO0x30C: case L1_ICNTO0x40C:
1380 case L0_FRCNTO0x314: case L1_FRCNTO0x414:
1381 fprintf(stderrstderr, "\n[exynos4210.mct: write to RO register "
1382 TARGET_FMT_plx"%08x" "]\n\n", offset);
1383 break;
1384
1385 case L0_INT_CSTAT0x330: case L1_INT_CSTAT0x430:
1386 lt_i = GET_L_TIMER_IDX(offset)((((offset) & 0xF00) - 0x300) / 0x100);
1387
1388 DPRINTF("local timer[%d] CSTAT write %llx\n", lt_i, value)do {} while (0);
1389
1390 s->l_timer[lt_i].reg.int_cstat &= ~value;
1391 if (!s->l_timer[lt_i].reg.int_cstat) {
1392 qemu_irq_lower(s->l_timer[lt_i].irq);
1393 }
1394 break;
1395
1396 case L0_INT_ENB0x334: case L1_INT_ENB0x434:
1397 lt_i = GET_L_TIMER_IDX(offset)((((offset) & 0xF00) - 0x300) / 0x100);
1398 old_val = s->l_timer[lt_i].reg.int_enb;
1399
1400 /* Raise Local timer IRQ if cstat is pending */
1401 if ((value & L_INT_INTENB_ICNTEIE(1 << 0)) > (old_val & L_INT_INTENB_ICNTEIE(1 << 0))) {
1402 if (s->l_timer[lt_i].reg.int_cstat & L_INT_CSTAT_INTCNT(1 << 0)) {
1403 qemu_irq_raise(s->l_timer[lt_i].irq);
1404 }
1405 }
1406
1407 s->l_timer[lt_i].reg.int_enb = value;
1408
1409 break;
1410
1411 case L0_WSTAT0x340: case L1_WSTAT0x440:
1412 lt_i = GET_L_TIMER_IDX(offset)((((offset) & 0xF00) - 0x300) / 0x100);
1413
1414 s->l_timer[lt_i].reg.wstat &= ~value;
1415 break;
1416
1417 default:
1418 hw_error("exynos4210.mct: bad write offset "
1419 TARGET_FMT_plx"%08x" "\n", offset);
1420 break;
1421 }
1422}
1423
1424static const MemoryRegionOps exynos4210_mct_ops = {
1425 .read = exynos4210_mct_read,
1426 .write = exynos4210_mct_write,
1427 .endianness = DEVICE_NATIVE_ENDIAN,
1428};
1429
1430/* MCT init */
1431static int exynos4210_mct_init(SysBusDevice *dev)
1432{
1433 int i;
1434 Exynos4210MCTState *s = FROM_SYSBUS(Exynos4210MCTState, dev)( __extension__ ( { char __attribute__((unused)) offset_must_be_zero
[ -__builtin_offsetof(Exynos4210MCTState, busdev)]; ({ const typeof
(((Exynos4210MCTState *) 0)->busdev) *__mptr = (dev); (Exynos4210MCTState
*) ((char *) __mptr - __builtin_offsetof(Exynos4210MCTState,
busdev));});}))
;
1435 QEMUBH *bh[2];
1436
1437 /* Global timer */
1438 bh[0] = qemu_bh_new(exynos4210_gfrc_event, s);
1439 s->g_timer.ptimer_frc = ptimer_init(bh[0]);
1440 memset(&s->g_timer.reg, 0, sizeof(struct gregs));
1441
1442 /* Local timers */
1443 for (i = 0; i < 2; i++) {
1444 bh[0] = qemu_bh_new(exynos4210_ltick_event, &s->l_timer[i]);
1445 bh[1] = qemu_bh_new(exynos4210_lfrc_event, &s->l_timer[i]);
1446 s->l_timer[i].tick_timer.ptimer_tick = ptimer_init(bh[0]);
1447 s->l_timer[i].ptimer_frc = ptimer_init(bh[1]);
1448 s->l_timer[i].id = i;
1449 }
1450
1451 /* IRQs */
1452 for (i = 0; i < MCT_GT_CMP_NUM4; i++) {
1453 sysbus_init_irq(dev, &s->g_timer.irq[i]);
1454 }
1455 for (i = 0; i < 2; i++) {
1456 sysbus_init_irq(dev, &s->l_timer[i].irq);
1457 }
1458
1459 memory_region_init_io(&s->iomem, &exynos4210_mct_ops, s, "exynos4210-mct",
1460 MCT_SFR_SIZE0x444);
1461 sysbus_init_mmio(dev, &s->iomem);
1462
1463 return 0;
1464}
1465
1466static void exynos4210_mct_class_init(ObjectClass *klass, void *data)
1467{
1468 DeviceClass *dc = DEVICE_CLASS(klass)((DeviceClass *)object_class_dynamic_cast_assert(((ObjectClass
*)((klass))), ("device")))
;
1469 SysBusDeviceClass *k = SYS_BUS_DEVICE_CLASS(klass)((SysBusDeviceClass *)object_class_dynamic_cast_assert(((ObjectClass
*)((klass))), ("sys-bus-device")))
;
1470
1471 k->init = exynos4210_mct_init;
1472 dc->reset = exynos4210_mct_reset;
1473 dc->vmsd = &vmstate_exynos4210_mct_state;
1474}
1475
1476static TypeInfo exynos4210_mct_info = {
1477 .name = "exynos4210.mct",
1478 .parent = TYPE_SYS_BUS_DEVICE"sys-bus-device",
1479 .instance_size = sizeof(Exynos4210MCTState),
1480 .class_init = exynos4210_mct_class_init,
1481};
1482
1483static void exynos4210_mct_register_types(void)
1484{
1485 type_register_static(&exynos4210_mct_info);
1486}
1487
1488type_init(exynos4210_mct_register_types)static void __attribute__((constructor)) do_qemu_init_exynos4210_mct_register_types
(void) { register_module_init(exynos4210_mct_register_types, MODULE_INIT_QOM
); }