476 lines
11 KiB
C
476 lines
11 KiB
C
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#include "config.h"
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#include "libopenbios/bindings.h"
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#include "drivers/drivers.h"
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#include "libc/byteorder.h"
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#include "libc/vsprintf.h"
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#include "macio.h"
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#include "cuda.h"
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//#define DEBUG_CUDA
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#ifdef DEBUG_CUDA
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#define CUDA_DPRINTF(fmt, args...) \
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do { printk("CUDA - %s: " fmt, __func__ , ##args); } while (0)
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#else
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#define CUDA_DPRINTF(fmt, args...) do { } while (0)
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#endif
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#define IO_CUDA_OFFSET 0x00016000
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#define IO_CUDA_SIZE 0x00002000
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/* VIA registers - spaced 0x200 bytes apart */
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#define RS 0x200 /* skip between registers */
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#define B 0 /* B-side data */
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#define A RS /* A-side data */
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#define DIRB (2*RS) /* B-side direction (1=output) */
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#define DIRA (3*RS) /* A-side direction (1=output) */
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#define T1CL (4*RS) /* Timer 1 ctr/latch (low 8 bits) */
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#define T1CH (5*RS) /* Timer 1 counter (high 8 bits) */
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#define T1LL (6*RS) /* Timer 1 latch (low 8 bits) */
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#define T1LH (7*RS) /* Timer 1 latch (high 8 bits) */
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#define T2CL (8*RS) /* Timer 2 ctr/latch (low 8 bits) */
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#define T2CH (9*RS) /* Timer 2 counter (high 8 bits) */
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#define SR (10*RS) /* Shift register */
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#define ACR (11*RS) /* Auxiliary control register */
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#define PCR (12*RS) /* Peripheral control register */
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#define IFR (13*RS) /* Interrupt flag register */
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#define IER (14*RS) /* Interrupt enable register */
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#define ANH (15*RS) /* A-side data, no handshake */
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/* Bits in B data register: all active low */
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#define TREQ 0x08 /* Transfer request (input) */
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#define TACK 0x10 /* Transfer acknowledge (output) */
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#define TIP 0x20 /* Transfer in progress (output) */
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/* Bits in ACR */
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#define SR_CTRL 0x1c /* Shift register control bits */
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#define SR_EXT 0x0c /* Shift on external clock */
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#define SR_OUT 0x10 /* Shift out if 1 */
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/* Bits in IFR and IER */
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#define IER_SET 0x80 /* set bits in IER */
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#define IER_CLR 0 /* clear bits in IER */
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#define SR_INT 0x04 /* Shift register full/empty */
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#define CUDA_BUF_SIZE 16
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#define ADB_PACKET 0
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#define CUDA_PACKET 1
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/* CUDA commands (2nd byte) */
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#define CUDA_GET_TIME 0x03
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#define CUDA_SET_TIME 0x09
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#define CUDA_POWERDOWN 0x0a
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#define CUDA_RESET_SYSTEM 0x11
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static uint8_t cuda_readb (cuda_t *dev, int reg)
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{
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return *(volatile uint8_t *)(dev->base + reg);
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}
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static void cuda_writeb (cuda_t *dev, int reg, uint8_t val)
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{
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*(volatile uint8_t *)(dev->base + reg) = val;
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}
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static void cuda_wait_irq (cuda_t *dev)
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{
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int val;
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// CUDA_DPRINTF("\n");
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for(;;) {
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val = cuda_readb(dev, IFR);
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cuda_writeb(dev, IFR, val & 0x7f);
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if (val & SR_INT)
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break;
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}
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}
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static int cuda_request (cuda_t *dev, uint8_t pkt_type, const uint8_t *buf,
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int buf_len, uint8_t *obuf)
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{
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int i, obuf_len, val;
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cuda_writeb(dev, ACR, cuda_readb(dev, ACR) | SR_OUT);
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cuda_writeb(dev, SR, pkt_type);
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cuda_writeb(dev, B, cuda_readb(dev, B) & ~TIP);
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if (buf) {
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//CUDA_DPRINTF("Send buf len: %d\n", buf_len);
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/* send 'buf' */
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for(i = 0; i < buf_len; i++) {
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cuda_wait_irq(dev);
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cuda_writeb(dev, SR, buf[i]);
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cuda_writeb(dev, B, cuda_readb(dev, B) ^ TACK);
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}
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}
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cuda_wait_irq(dev);
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cuda_writeb(dev, ACR, cuda_readb(dev, ACR) & ~SR_OUT);
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cuda_readb(dev, SR);
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cuda_writeb(dev, B, cuda_readb(dev, B) | TIP | TACK);
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obuf_len = 0;
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if (obuf) {
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cuda_wait_irq(dev);
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cuda_readb(dev, SR);
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cuda_writeb(dev, B, cuda_readb(dev, B) & ~TIP);
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for(;;) {
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cuda_wait_irq(dev);
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val = cuda_readb(dev, SR);
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if (obuf_len < CUDA_BUF_SIZE)
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obuf[obuf_len++] = val;
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if (cuda_readb(dev, B) & TREQ)
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break;
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cuda_writeb(dev, B, cuda_readb(dev, B) ^ TACK);
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}
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cuda_writeb(dev, B, cuda_readb(dev, B) | TIP | TACK);
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cuda_wait_irq(dev);
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cuda_readb(dev, SR);
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}
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// CUDA_DPRINTF("Got len: %d\n", obuf_len);
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return obuf_len;
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}
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static int cuda_adb_req (void *host, const uint8_t *snd_buf, int len,
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uint8_t *rcv_buf)
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{
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uint8_t buffer[CUDA_BUF_SIZE], *pos;
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// CUDA_DPRINTF("len: %d %02x\n", len, snd_buf[0]);
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len = cuda_request(host, ADB_PACKET, snd_buf, len, buffer);
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if (len > 1 && buffer[0] == ADB_PACKET) {
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/* We handle 2 types of ADB packet here:
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Normal: <type> <status> <data> ...
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Error : <type> <status> <cmd> (<data> ...)
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Ideally we should use buffer[1] (status) to determine whether this
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is a normal or error packet but this requires a corresponding fix
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in QEMU <= 2.4. Hence we temporarily handle it this way to ease
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the transition. */
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if (len > 2 && buffer[2] == snd_buf[0]) {
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/* Error */
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pos = buffer + 3;
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len -= 3;
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} else {
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/* Normal */
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pos = buffer + 2;
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len -= 2;
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}
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} else {
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pos = buffer + 1;
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len = -1;
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}
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memcpy(rcv_buf, pos, len);
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return len;
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}
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DECLARE_UNNAMED_NODE(ob_cuda, 0, sizeof(int));
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static cuda_t *main_cuda;
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static void
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ppc32_reset_all(void)
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{
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uint8_t cmdbuf[2], obuf[64];
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cmdbuf[0] = CUDA_RESET_SYSTEM;
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cuda_request(main_cuda, CUDA_PACKET, cmdbuf, sizeof(cmdbuf), obuf);
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}
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static void
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ppc32_poweroff(void)
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{
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uint8_t cmdbuf[2], obuf[64];
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cmdbuf[0] = CUDA_POWERDOWN;
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cuda_request(main_cuda, CUDA_PACKET, cmdbuf, sizeof(cmdbuf), obuf);
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}
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static void
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ob_cuda_open(int *idx)
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{
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RET(-1);
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}
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static void
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ob_cuda_close(int *idx)
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{
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}
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NODE_METHODS(ob_cuda) = {
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{ "open", ob_cuda_open },
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{ "close", ob_cuda_close },
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};
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DECLARE_UNNAMED_NODE(rtc, 0, sizeof(int));
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static void
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rtc_open(int *idx)
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{
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RET(-1);
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}
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/*
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* get-time ( -- second minute hour day month year )
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*
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*/
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static const int days_month[12] =
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{ 31, 28, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 };
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static const int days_month_leap[12] =
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{ 31, 29, 31, 30, 31, 30, 31, 31, 30, 31, 30, 31 };
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static inline int is_leap(int year)
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{
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return ((year % 4 == 0) && (year % 100 != 0)) || (year % 400 == 0);
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}
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static void
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rtc_get_time(int *idx)
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{
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uint8_t cmdbuf[2], obuf[64];
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ucell second, minute, hour, day, month, year;
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uint32_t now;
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int current;
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const int *days;
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cmdbuf[0] = CUDA_GET_TIME;
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cuda_request(main_cuda, CUDA_PACKET, cmdbuf, sizeof(cmdbuf), obuf);
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/* seconds since 01/01/1904 */
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now = (obuf[3] << 24) + (obuf[4] << 16) + (obuf[5] << 8) + obuf[6];
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second = now % 60;
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now /= 60;
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minute = now % 60;
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now /= 60;
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hour = now % 24;
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now /= 24;
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year = now * 100 / 36525;
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now -= year * 36525 / 100;
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year += 1904;
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days = is_leap(year) ? days_month_leap : days_month;
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current = 0;
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month = 0;
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while (month < 12) {
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if (now <= current + days[month]) {
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break;
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}
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current += days[month];
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month++;
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}
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month++;
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day = now - current;
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PUSH(second);
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PUSH(minute);
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PUSH(hour);
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PUSH(day);
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PUSH(month);
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PUSH(year);
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}
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/*
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* set-time ( second minute hour day month year -- )
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*
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*/
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static void
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rtc_set_time(int *idx)
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{
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uint8_t cmdbuf[5], obuf[3];
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ucell second, minute, hour, day, month, year;
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const int *days;
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uint32_t now;
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unsigned int nb_days;
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int i;
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year = POP();
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month = POP();
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day = POP();
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hour = POP();
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minute = POP();
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second = POP();
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days = is_leap(year) ? days_month_leap : days_month;
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nb_days = (year - 1904) * 36525 / 100 + day;
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for (i = 0; i < month - 1; i++)
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nb_days += days[i];
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now = (((nb_days * 24) + hour) * 60 + minute) * 60 + second;
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cmdbuf[0] = CUDA_SET_TIME;
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cmdbuf[1] = now >> 24;
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cmdbuf[2] = now >> 16;
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cmdbuf[3] = now >> 8;
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cmdbuf[4] = now;
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cuda_request(main_cuda, CUDA_PACKET, cmdbuf, sizeof(cmdbuf), obuf);
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}
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NODE_METHODS(rtc) = {
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{ "open", rtc_open },
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{ "get-time", rtc_get_time },
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{ "set-time", rtc_set_time },
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};
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static void
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rtc_init(char *path)
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{
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phandle_t aliases;
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char buf[128];
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push_str(path);
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fword("find-device");
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fword("new-device");
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push_str("rtc");
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fword("device-name");
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push_str("rtc");
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fword("device-type");
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push_str("rtc");
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fword("encode-string");
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push_str("compatible");
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fword("property");
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BIND_NODE_METHODS(get_cur_dev(), rtc);
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fword("finish-device");
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aliases = find_dev("/aliases");
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snprintf(buf, sizeof(buf), "%s/rtc", path);
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set_property(aliases, "rtc", buf, strlen(buf) + 1);
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}
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static void
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powermgt_init(char *path)
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{
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push_str(path);
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fword("find-device");
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fword("new-device");
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push_str("power-mgt");
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fword("device-name");
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push_str("power-mgt");
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fword("device-type");
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push_str("min-consumption-pwm-led");
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fword("encode-string");
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push_str("mgt-kind");
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fword("property");
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push_str("cuda");
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fword("encode-string");
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push_str("compatible");
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fword("property");
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BIND_NODE_METHODS(get_cur_dev(), rtc);
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fword("finish-device");
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}
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cuda_t *cuda_init (const char *path, phys_addr_t base)
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{
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cuda_t *cuda;
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char buf[64];
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phandle_t ph, aliases;
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int props[2];
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base += IO_CUDA_OFFSET;
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CUDA_DPRINTF(" base=" FMT_plx "\n", base);
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cuda = malloc(sizeof(cuda_t));
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if (cuda == NULL)
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return NULL;
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fword("new-device");
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push_str("via-cuda");
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fword("device-name");
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push_str("via-cuda");
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fword("device-type");
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push_str("cuda");
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fword("encode-string");
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push_str("compatible");
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fword("property");
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PUSH(1);
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fword("encode-int");
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push_str("#address-cells");
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fword("property");
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PUSH(0);
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fword("encode-int");
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push_str("#size-cells");
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fword("property");
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PUSH(IO_CUDA_OFFSET);
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fword("encode-int");
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PUSH(IO_CUDA_SIZE);
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fword("encode-int");
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fword("encode+");
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push_str("reg");
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fword("property");
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ph = get_cur_dev();
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/* on newworld machines the cuda is on interrupt 0x19 */
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props[0] = 0x19;
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props[1] = 0;
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NEWWORLD(set_property(ph, "interrupts", (char *)props, sizeof(props)));
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NEWWORLD(set_int_property(ph, "#interrupt-cells", 2));
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/* we emulate an oldworld hardware, so we must use
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* non-standard oldworld property (needed by linux 2.6.18)
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*/
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OLDWORLD(set_int_property(ph, "AAPL,interrupts", 0x12));
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BIND_NODE_METHODS(get_cur_dev(), ob_cuda);
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aliases = find_dev("/aliases");
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|
snprintf(buf, sizeof(buf), "%s/via-cuda", path);
|
||
|
set_property(aliases, "via-cuda", buf, strlen(buf) + 1);
|
||
|
|
||
|
cuda->base = base;
|
||
|
cuda_writeb(cuda, B, cuda_readb(cuda, B) | TREQ | TIP);
|
||
|
#ifdef CONFIG_DRIVER_ADB
|
||
|
cuda->adb_bus = adb_bus_new(cuda, &cuda_adb_req);
|
||
|
if (cuda->adb_bus == NULL) {
|
||
|
free(cuda);
|
||
|
return NULL;
|
||
|
}
|
||
|
adb_bus_init(buf, cuda->adb_bus);
|
||
|
#endif
|
||
|
|
||
|
rtc_init(buf);
|
||
|
powermgt_init(buf);
|
||
|
|
||
|
main_cuda = cuda;
|
||
|
|
||
|
fword("finish-device");
|
||
|
|
||
|
bind_func("ppc32-power-off", ppc32_poweroff);
|
||
|
feval("['] ppc32-power-off to power-off");
|
||
|
bind_func("ppc32-reset-all", ppc32_reset_all);
|
||
|
feval("['] ppc32-reset-all to reset-all");
|
||
|
|
||
|
return cuda;
|
||
|
}
|