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iPod Classic: update timer API using 32-bit timers.

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Change-Id: I49dab8ae955a339ad0a27402fa21caa411c4ecf6
Reviewed-on: http://gerrit.rockbox.org/1032
Reviewed-by: Marcin Bukat <marcin.bukat@gmail.com>
This commit is contained in:
Cástor Muñoz 2014-11-10 02:39:16 +01:00 committed by Marcin Bukat
parent 229a02a4ee
commit 57969698ce
3 changed files with 69 additions and 47 deletions
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32
firmware/export/s5l8702.h
View file

@ -28,8 +28,6 @@
#define REG16_PTR_T volatile uint16_t * #define REG16_PTR_T volatile uint16_t *
#define REG32_PTR_T volatile uint32_t * #define REG32_PTR_T volatile uint32_t *
#define TIMER_FREQ 54000000
#define CACHEALIGN_BITS (5) /* 2^5 = 32 bytes */ #define CACHEALIGN_BITS (5) /* 2^5 = 32 bytes */
#define DRAM_ORIG 0x08000000 #define DRAM_ORIG 0x08000000
@ -65,6 +63,34 @@
/////TIMER///// /////TIMER/////
/* 16/32-bit timers:
*
* - Timers A..D: 16-bit counter, very similar to 16-bit timers described
* in S5L8700 DS, it seems that the timers C and D are disabled or not
* implemented.
*
* - Timers E..H: 32-bit counter, they are like 16-bit timers, but the
* interrupt status for all 32-bit timers is located in TSTAT register.
*
* - Clock source configuration:
*
* TCON[10:8] (Tx_CS) TCON[6]=0 TCON[6]=1
* ------------------ --------- ---------
* 000 PCLK / 2 ECLK / 2
* 001 PCLK / 4 ECLK / 4
* 010 PCLK / 16 ECLK / 16
* 011 PCLK / 64 ECLK / 64
* 10x (timers E..H) PCLK ECLK
* 10x (timers A..D) Ext. Clock 0 Ext. Clock 0
* 11x Ext. Clock 1 Ext. Clock 1
*
* On Classic:
* - Ext. Clock 0: not connected or disabled
* - Ext. Clock 1: 32768 Hz, external OSC1?, PMU?
* - ECLK: 12 MHz, external OSC0?
*/
#define TIMER_FREQ 12000000 /* ECLK */
#define TACON (*((uint32_t volatile*)(0x3C700000))) #define TACON (*((uint32_t volatile*)(0x3C700000)))
#define TACMD (*((uint32_t volatile*)(0x3C700004))) #define TACMD (*((uint32_t volatile*)(0x3C700004)))
#define TADATA0 (*((uint32_t volatile*)(0x3C700008))) #define TADATA0 (*((uint32_t volatile*)(0x3C700008)))
@ -113,6 +139,7 @@
#define THDATA1 (*((uint32_t volatile*)(0x3C70010C))) #define THDATA1 (*((uint32_t volatile*)(0x3C70010C)))
#define THPRE (*((uint32_t volatile*)(0x3C700110))) #define THPRE (*((uint32_t volatile*)(0x3C700110)))
#define THCNT (*((uint32_t volatile*)(0x3C700114))) #define THCNT (*((uint32_t volatile*)(0x3C700114)))
#define TSTAT (*((uint32_t volatile*)(0x3C700118)))
#define USEC_TIMER TECNT #define USEC_TIMER TECNT
@ -816,6 +843,7 @@ struct dma_lli
/////INTERRUPTS///// /////INTERRUPTS/////
#define IRQ_TIMER32 7
#define IRQ_TIMER 8 #define IRQ_TIMER 8
#define IRQ_USB_FUNC 19 #define IRQ_USB_FUNC 19
#define IRQ_DMAC(d) 16 + d #define IRQ_DMAC(d) 16 + d

27
firmware/target/arm/s5l8702/system-s5l8702.c
View file

@ -39,15 +39,14 @@ default_interrupt(INT_IRQ3);
default_interrupt(INT_IRQ4); default_interrupt(INT_IRQ4);
default_interrupt(INT_IRQ5); default_interrupt(INT_IRQ5);
default_interrupt(INT_IRQ6); default_interrupt(INT_IRQ6);
default_interrupt(INT_IRQ7); default_interrupt(INT_TIMERE); /* IRQ7: 32-bit timers */
default_interrupt(INT_TIMERA);
default_interrupt(INT_TIMERB);
default_interrupt(INT_TIMERC);
default_interrupt(INT_TIMERD);
default_interrupt(INT_TIMERE);
default_interrupt(INT_TIMERF); default_interrupt(INT_TIMERF);
default_interrupt(INT_TIMERG); default_interrupt(INT_TIMERG);
default_interrupt(INT_TIMERH); default_interrupt(INT_TIMERH);
default_interrupt(INT_TIMERA); /* IRQ8: 16-bit timers */
default_interrupt(INT_TIMERB);
default_interrupt(INT_TIMERC);
default_interrupt(INT_TIMERD);
default_interrupt(INT_IRQ9); default_interrupt(INT_IRQ9);
default_interrupt(INT_IRQ10); default_interrupt(INT_IRQ10);
default_interrupt(INT_IRQ11); default_interrupt(INT_IRQ11);
@ -129,9 +128,16 @@ void INT_TIMER()
if (TBCON & (TBCON >> 4) & 0x7000) INT_TIMERB(); if (TBCON & (TBCON >> 4) & 0x7000) INT_TIMERB();
if (TCCON & (TCCON >> 4) & 0x7000) INT_TIMERC(); if (TCCON & (TCCON >> 4) & 0x7000) INT_TIMERC();
if (TDCON & (TDCON >> 4) & 0x7000) INT_TIMERD(); if (TDCON & (TDCON >> 4) & 0x7000) INT_TIMERD();
if (TFCON & (TFCON >> 4) & 0x7000) INT_TIMERF(); }
if (TGCON & (TGCON >> 4) & 0x7000) INT_TIMERG();
if (THCON & (THCON >> 4) & 0x7000) INT_TIMERH(); void INT_TIMER32(void) ICODE_ATTR;
void INT_TIMER32()
{
uint32_t tstat = TSTAT;
/*if ((TECON >> 12) & 0x7 & (tstat >> 24)) INT_TIMERE();*/
if ((TFCON >> 12) & 0x7 & (tstat >> 16)) INT_TIMERF();
if ((TGCON >> 12) & 0x7 & (tstat >> 8)) INT_TIMERG();
if ((THCON >> 12) & 0x7 & tstat) INT_TIMERH();
} }
void INT_DMAC0(void) ICODE_ATTR; void INT_DMAC0(void) ICODE_ATTR;
@ -164,7 +170,7 @@ void INT_DMAC1()
static void (* const irqvector[])(void) = static void (* const irqvector[])(void) =
{ {
INT_IRQ0,INT_IRQ1,INT_IRQ2,INT_IRQ3,INT_IRQ4,INT_IRQ5,INT_IRQ6,INT_IRQ7, INT_IRQ0,INT_IRQ1,INT_IRQ2,INT_IRQ3,INT_IRQ4,INT_IRQ5,INT_IRQ6,INT_TIMER32,
INT_TIMER,INT_IRQ9,INT_IRQ10,INT_IRQ11,INT_IRQ12,INT_IRQ13,INT_IRQ14,INT_IRQ15, INT_TIMER,INT_IRQ9,INT_IRQ10,INT_IRQ11,INT_IRQ12,INT_IRQ13,INT_IRQ14,INT_IRQ15,
INT_DMAC0,INT_DMAC1,INT_IRQ18,INT_USB_FUNC,INT_IRQ20,INT_IRQ21,INT_IRQ22,INT_WHEEL, INT_DMAC0,INT_DMAC1,INT_IRQ18,INT_USB_FUNC,INT_IRQ20,INT_IRQ21,INT_IRQ22,INT_WHEEL,
INT_IRQ24,INT_IRQ25,INT_IRQ26,INT_IRQ27,INT_IRQ28,INT_ATA,INT_IRQ30,INT_IRQ31, INT_IRQ24,INT_IRQ25,INT_IRQ26,INT_IRQ27,INT_IRQ28,INT_ATA,INT_IRQ30,INT_IRQ31,
@ -220,6 +226,7 @@ void system_init(void)
VIC0INTENABLE = 1 << IRQ_WHEEL; VIC0INTENABLE = 1 << IRQ_WHEEL;
VIC0INTENABLE = 1 << IRQ_ATA; VIC0INTENABLE = 1 << IRQ_ATA;
VIC1INTENABLE = 1 << (IRQ_MMC - 32); VIC1INTENABLE = 1 << (IRQ_MMC - 32);
VIC0INTENABLE = 1 << IRQ_TIMER32;
} }
void system_reboot(void) void system_reboot(void)

57
firmware/target/arm/s5l8702/timer-s5l8702.c
View file

@ -26,13 +26,11 @@
#include "system.h" #include "system.h"
#include "timer.h" #include "timer.h"
//TODO: This needs calibration once we figure out the clocking void INT_TIMERF(void)
void INT_TIMERC(void)
{ {
/* clear interrupt */ /* clear interrupt */
TCCON = TCCON; TSTAT = (0x07 << 16);
if (pfn_timer != NULL) { if (pfn_timer != NULL) {
pfn_timer(); pfn_timer();
} }
@ -40,12 +38,8 @@ void INT_TIMERC(void)
bool timer_set(long cycles, bool start) bool timer_set(long cycles, bool start)
{ {
static const int cs_table[] = {1, 2, 4, 6}; /* stop timer */
int prescale, cs; TFCMD = (0 << 0); /* TF_ENABLE */
long count;
/* stop and clear timer */
TCCMD = (1 << 1); /* TD_CLR */
/* optionally unregister any previously registered timer user */ /* optionally unregister any previously registered timer user */
if (start) { if (start) {
@ -55,40 +49,33 @@ bool timer_set(long cycles, bool start)
} }
} }
/* scale the count down with the clock select */ /* There is an odd behaviour when the 32-bit timers are launched
for (cs = 0; cs < 4; cs++) { for the first time, the interrupt status bits are set and an
count = cycles >> cs_table[cs]; unexpected interrupt is generated if they are enabled. A way to
if ((count < 65536) || (cs == 3)) { workaround this is to write the data registers before clearing
break; the counter. */
} TFDATA0 = cycles;
} TFCMD = (1 << 1); /* TF_CLR */
/* scale the count down with the prescaler */
prescale = 1;
while (count >= 65536) {
count >>= 1;
prescale <<= 1;
}
/* configure timer */ /* configure timer */
TCCON = (1 << 12) | /* TD_INT0_EN */ TFCON = (1 << 12) | /* TF_INT0_EN */
(cs << 8) | /* TS_CS */ (4 << 8) | /* TF_CS, 4 = ECLK / 1 */
(0 << 4); /* TD_MODE_SEL, 0 = interval mode */ (1 << 6) | /* use ECLK (12MHz) */
TCPRE = prescale - 1; (0 << 4); /* TF_MODE_SEL, 0 = interval mode */
TCDATA0 = count; TFPRE = 0; /* no prescaler */
TCCMD = (1 << 0); /* TD_ENABLE */
TFCMD = (1 << 0); /* TF_ENABLE */
return true; return true;
} }
bool timer_start(void) bool timer_start(void)
{ {
TCCMD = (1 << 0); /* TD_ENABLE */ TFCMD = (1 << 0); /* TF_ENABLE */
return true; return true;
} }
void timer_stop(void) void timer_stop(void)
{ {
TCCMD = (0 << 0); /* TD_ENABLE */ TFCMD = (0 << 0); /* TF_ENABLE */
} }