/* * (C) Copyright 2005 * Martin Krause, TQ-Systems GmbH, martin.krause@tqs.de. * * See file CREDITS for list of people who contributed to this * project. * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License as * published by the Free Software Foundation; either version 2 of * the License, or (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, * MA 02111-1307 USA */ /* * SKT52XX specific functions */ /*#define DEBUG*/ #include #include #if (CONFIG_COMMANDS & CFG_CMD_BSP) #if defined (CONFIG_STK52XX) #define DEFAULT_VOL 45 #define DEFAULT_FREQ 500 #define DEFAULT_DURATION 200 #define LEFT 1 #define RIGHT 2 #define LEFT_RIGHT 3 #define BL_OFF 0 #define BL_ON 1 #define SM501_GPIO_CTRL_LOW 0x00000008UL #define SM501_GPIO_CTRL_HIGH 0x0000000CUL #define SM501_POWER_MODE0_GATE 0x00000040UL #define SM501_POWER_MODE1_GATE 0x00000048UL #define POWER_MODE_GATE_GPIO_PWM_I2C 0x00000040UL #define SM501_GPIO_DATA_LOW 0x00010000UL #define SM501_GPIO_DATA_HIGH 0x00010004UL #define SM501_GPIO_DATA_DIR_LOW 0x00010008UL #define SM501_GPIO_DATA_DIR_HIGH 0x0001000CUL #define SM501_PANEL_DISPLAY_CONTROL 0x00080000UL static int i2s_squarewave(unsigned long duration, unsigned int freq, unsigned int channel); static int i2s_sawtooth(unsigned long duration, unsigned int freq, unsigned int channel); static void spi_init(void); static int spi_transmit(unsigned char data); static void pcm1772_write_reg(unsigned char addr, unsigned char data); static void set_attenuation(unsigned char attenuation); static void spi_init(void) { struct mpc5xxx_spi *spi = (struct mpc5xxx_spi*)MPC5XXX_SPI; struct mpc5xxx_gpio *gpio = (struct mpc5xxx_gpio*)MPC5XXX_GPIO; /* PSC3 as SPI and GPIOs */ gpio->port_config &= 0xFFFFF0FF; gpio->port_config |= 0x00000800; /* * Its important to use the correct order when initializing the * registers */ spi->ddr = 0x0F; /* set all SPI pins as output */ spi->pdr = 0x08; /* set SS high */ spi->cr1 = 0x50; /* SPI is master, SS is general purpose output */ spi->cr2 = 0x00; /* normal operation */ spi->brr = 0xFF; /* baud rate: IPB clock / 2048 */ } static int spi_transmit(unsigned char data) { int dummy; struct mpc5xxx_spi *spi = (struct mpc5xxx_spi*)MPC5XXX_SPI; spi->dr = data; /* wait for SPI transmission completed */ while(!(spi->sr & 0x80)) { if (spi->sr & 0x40) /* if write collision occured */ { /* do dummy read to clear status register */ dummy = spi->dr; printf ("SPI write collision\n"); return -1; } } return (spi->dr); } static void pcm1772_write_reg(unsigned char addr, unsigned char data) { struct mpc5xxx_spi *spi = (struct mpc5xxx_spi*)MPC5XXX_SPI; spi->pdr = 0x00; /* Set SS low */ spi_transmit(addr); spi_transmit(data); /* wait some time to meet MS# hold time of PCM1772 */ udelay (1); spi->pdr = 0x08; /* set SS high */ } static void set_attenuation(unsigned char attenuation) { pcm1772_write_reg(0x01, attenuation); /* left channel */ debug ("PCM1772 attenuation left set to %d.\n", attenuation); pcm1772_write_reg(0x02, attenuation); /* right channel */ debug ("PCM1772 attenuation right set to %d.\n", attenuation); } void amplifier_init(void) { static int init_done = 0; int i; struct mpc5xxx_gpio *gpio = (struct mpc5xxx_gpio*)MPC5XXX_GPIO; /* Do this only once, because of the long time delay */ if (!init_done) { /* configure PCM1772 audio format as I2S */ pcm1772_write_reg(0x03, 0x01); /* enable audio amplifier */ gpio->sint_gpioe |= 0x02; /* PSC3_5 as GPIO */ gpio->sint_ode &= ~0x02; /* PSC3_5 is not open Drain */ gpio->sint_dvo &= ~0x02; /* PSC3_5 is LOW */ gpio->sint_ddr |= 0x02; /* PSC3_5 as output */ /* * wait some time to allow amplifier to recover from shutdown * mode. */ for(i = 0; i < 350; i++) udelay(1000); /* * The used amplifier (LM4867) has a so called "pop and click" * elmination filter. The input signal of the amplifier must * exceed a certain level once after power up to activate the * generation of the output signal. This is achieved by * sending a low frequent (nearly inaudible) sawtooth with a * sufficient signal level. */ set_attenuation(50); i2s_sawtooth (200, 5, LEFT_RIGHT); init_done = 1; } } static void i2s_init(void) { unsigned long i; struct mpc5xxx_psc *psc = (struct mpc5xxx_psc*)MPC5XXX_PSC2;; struct mpc5xxx_gpio *gpio = (struct mpc5xxx_gpio*)MPC5XXX_GPIO; gpio->port_config |= 0x00000070; /* PSC2 ports as Codec with MCLK */ psc->command = (PSC_RX_DISABLE | PSC_TX_DISABLE); psc->sicr = 0x22E00000; /* 16 bit data; I2S */ *(vu_long *)(CFG_MBAR + 0x22C) = 0x805d; /* PSC2 CDM MCLK config; MCLK * 5.617 MHz */ *(vu_long *)(CFG_MBAR + 0x214) |= 0x00000040; /* CDM clock enable * register */ psc->ccr = 0x1F03; /* 16 bit data width; 5.617MHz MCLK */ psc->ctur = 0x0F; /* 16 bit frame width */ for(i=0;i<128;i++) { psc->psc_buffer_32 = 0; /* clear tx fifo */ } } static int i2s_play_wave(unsigned long addr, unsigned long len) { unsigned long i; unsigned char *wave_file = (uchar *)addr + 44; /* quick'n dirty: skip * wav header*/ unsigned char swapped[4]; struct mpc5xxx_psc *psc = (struct mpc5xxx_psc*)MPC5XXX_PSC2; /* * play wave file in memory; bytes/words are be swapped */ psc->command = (PSC_RX_ENABLE | PSC_TX_ENABLE); for(i = 0;i < (len / 4); i++) { swapped[3]=*wave_file++; swapped[2]=*wave_file++; swapped[1]=*wave_file++; swapped[0]=*wave_file++; psc->psc_buffer_32 = *((unsigned long*)swapped); while (psc->tfnum > 400) { if(ctrlc()) return 0; } } while (psc->tfnum > 0); /* wait for fifo empty */ udelay (100); psc->command = (PSC_RX_DISABLE | PSC_TX_DISABLE); return 0; } static int i2s_sawtooth(unsigned long duration, unsigned int freq, unsigned int channel) { long i,j; unsigned long data; struct mpc5xxx_psc *psc = (struct mpc5xxx_psc*)MPC5XXX_PSC2; psc->command = (PSC_RX_ENABLE | PSC_TX_ENABLE); /* * Generate sawtooth. Start with middle level up to highest level. Then * go to lowest level and back to middle level. */ for(j = 0; j < ((duration * freq) / 1000); j++) { for(i = 0; i <= 0x7FFF; i += (0x7FFF/(44100/(freq*4)))) { data = (i & 0xFFFF); /* data format: right data left data) */ if (channel == LEFT_RIGHT) data |= (data<<16); if (channel == RIGHT) data = (data<<16); psc->psc_buffer_32 = data; while (psc->tfnum > 400); } for(i = 0x7FFF; i >= -0x7FFF; i -= (0xFFFF/(44100/(freq*2)))) { data = (i & 0xFFFF); /* data format: right data left data) */ if (channel == LEFT_RIGHT) data |= (data<<16); if (channel == RIGHT) data = (data<<16); psc->psc_buffer_32 = data; while (psc->tfnum > 400); } for(i = -0x7FFF; i <= 0; i += (0x7FFF/(44100/(freq*4)))) { data = (i & 0xFFFF); /* data format: right data left data) */ if (channel == LEFT_RIGHT) data |= (data<<16); if (channel == RIGHT) data = (data<<16); psc->psc_buffer_32 = data; while (psc->tfnum > 400); } } while (psc->tfnum > 0); /* wait for fifo empty */ udelay (100); psc->command = (PSC_RX_DISABLE | PSC_TX_DISABLE); return 0; } static int i2s_squarewave(unsigned long duration, unsigned int freq, unsigned int channel) { long i,j; unsigned long data; struct mpc5xxx_psc *psc = (struct mpc5xxx_psc*)MPC5XXX_PSC2; psc->command = (PSC_RX_ENABLE | PSC_TX_ENABLE); /* * Generate sqarewave. Start with high level, duty cycle 1:1. */ for(j = 0; j < ((duration * freq) / 1000); j++) { for(i = 0; i < (44100/(freq*2)); i ++) { data = 0x7FFF; /* data format: right data left data) */ if (channel == LEFT_RIGHT) data |= (data<<16); if (channel == RIGHT) data = (data<<16); psc->psc_buffer_32 = data; while (psc->tfnum > 400); } for(i = 0; i < (44100/(freq*2)); i ++) { data = 0x8000; /* data format: right data left data) */ if (channel == LEFT_RIGHT) data |= (data<<16); if (channel == RIGHT) data = (data<<16); psc->psc_buffer_32 = data; while (psc->tfnum > 400); } } while (psc->tfnum > 0); /* wait for fifo empty */ udelay (100); psc->command = (PSC_RX_DISABLE | PSC_TX_DISABLE); return 0; } static int cmd_sound(cmd_tbl_t *cmdtp, int flag, int argc, char *argv[]) { unsigned long reg, val, duration; char *tmp; unsigned int freq, channel; unsigned char volume; int rcode = 1; #ifdef CONFIG_STK52XX_REV100 printf ("Revision 100 of STK52XX not supported!\n"); return 1; #endif spi_init(); i2s_init(); amplifier_init(); if ((tmp = getenv ("volume")) != NULL) { volume = simple_strtoul (tmp, NULL, 10); } else { volume = DEFAULT_VOL; } set_attenuation(volume); switch (argc) { case 0: case 1: printf ("Usage:\n%s\n", cmdtp->usage); return 1; case 2: if (strncmp(argv[1],"saw",3) == 0) { printf ("Play sawtooth\n"); rcode = i2s_sawtooth (DEFAULT_DURATION, DEFAULT_FREQ, LEFT_RIGHT); return rcode; } else if (strncmp(argv[1],"squ",3) == 0) { printf ("Play squarewave\n"); rcode = i2s_squarewave (DEFAULT_DURATION, DEFAULT_FREQ, LEFT_RIGHT); return rcode; } printf ("Usage:\n%s\n", cmdtp->usage); return 1; case 3: if (strncmp(argv[1],"saw",3) == 0) { duration = simple_strtoul(argv[2], NULL, 10); printf ("Play sawtooth\n"); rcode = i2s_sawtooth (duration, DEFAULT_FREQ, LEFT_RIGHT); return rcode; } else if (strncmp(argv[1],"squ",3) == 0) { duration = simple_strtoul(argv[2], NULL, 10); printf ("Play squarewave\n"); rcode = i2s_squarewave (duration, DEFAULT_FREQ, LEFT_RIGHT); return rcode; } printf ("Usage:\n%s\n", cmdtp->usage); return 1; case 4: if (strncmp(argv[1],"saw",3) == 0) { duration = simple_strtoul(argv[2], NULL, 10); freq = (unsigned int)simple_strtoul(argv[3], NULL, 10); printf ("Play sawtooth\n"); rcode = i2s_sawtooth (duration, freq, LEFT_RIGHT); return rcode; } else if (strncmp(argv[1],"squ",3) == 0) { duration = simple_strtoul(argv[2], NULL, 10); freq = (unsigned int)simple_strtoul(argv[3], NULL, 10); printf ("Play squarewave\n"); rcode = i2s_squarewave (duration, freq, LEFT_RIGHT); return rcode; } else if (strcmp(argv[1],"pcm1772") == 0) { reg = simple_strtoul(argv[2], NULL, 10); val = simple_strtoul(argv[3], NULL, 10); printf("Set PCM1772 %lu. %lu\n", reg, val); pcm1772_write_reg((uchar)reg, (uchar)val); return 0; } printf ("Usage:\n%s\n", cmdtp->usage); return 1; case 5: if (strncmp(argv[1],"saw",3) == 0) { duration = simple_strtoul(argv[2], NULL, 10); freq = (unsigned int)simple_strtoul(argv[3], NULL, 10); if (strncmp(argv[4],"l",1) == 0) channel = LEFT; else if (strncmp(argv[4],"r",1) == 0) channel = RIGHT; else channel = LEFT_RIGHT; printf ("Play squarewave\n"); rcode = i2s_sawtooth (duration, freq, channel); return rcode; } else if (strncmp(argv[1],"squ",3) == 0) { duration = simple_strtoul(argv[2], NULL, 10); freq = (unsigned int)simple_strtoul(argv[3], NULL, 10); if (strncmp(argv[4],"l",1) == 0) channel = LEFT; else if (strncmp(argv[4],"r",1) == 0) channel = RIGHT; else channel = LEFT_RIGHT; printf ("Play squarewave\n"); rcode = i2s_squarewave (duration, freq, channel); return rcode; } printf ("Usage:\n%s\n", cmdtp->usage); return 1; } printf ("Usage:\nsound cmd [arg1] [arg2] ...\n"); return 1; } static int cmd_wav(cmd_tbl_t *cmdtp, int flag, int argc, char *argv[]) { unsigned long length, addr; unsigned char volume; int rcode = 1; char *tmp; #ifdef CONFIG_STK52XX_REV100 printf ("Revision 100 of STK52XX not supported!\n"); return 1; #endif spi_init(); i2s_init(); amplifier_init(); switch (argc) { case 3: length = simple_strtoul(argv[2], NULL, 16); addr = simple_strtoul(argv[1], NULL, 16); break; case 2: if ((tmp = getenv ("filesize")) != NULL) { length = simple_strtoul (tmp, NULL, 16); } else { puts ("No filesize provided\n"); return 1; } addr = simple_strtoul(argv[1], NULL, 16); case 1: if ((tmp = getenv ("filesize")) != NULL) { length = simple_strtoul (tmp, NULL, 16); } else { puts ("No filesize provided\n"); return 1; } if ((tmp = getenv ("loadaddr")) != NULL) { addr = simple_strtoul (tmp, NULL, 16); } else { puts ("No loadaddr provided\n"); return 1; } break; default: printf("Usage:\nwav usage); return 1; } if ((tmp = getenv ("volume")) != NULL) { volume = simple_strtoul (tmp, NULL, 10); } else { volume = DEFAULT_VOL; } set_attenuation(volume); printf("Beep on "); if (channel == LEFT) printf ("left "); else if (channel == RIGHT) printf ("right "); else printf ("left and right "); printf ("channel\n"); rcode = i2s_squarewave (DEFAULT_DURATION, DEFAULT_FREQ, channel); return rcode; } void led_init(void) { struct mpc5xxx_gpio *gpio = (struct mpc5xxx_gpio *)MPC5XXX_GPIO; struct mpc5xxx_gpt_0_7 *gpt = (struct mpc5xxx_gpt_0_7 *)MPC5XXX_GPT; /* configure PSC3 for SPI and GPIO */ gpio->port_config &= ~(0x00000F00); gpio->port_config |= 0x00000800; gpio->simple_gpioe &= ~(0x00000F00); gpio->simple_gpioe |= 0x00000F00; gpio->simple_ddr &= ~(0x00000F00); gpio->simple_ddr |= 0x00000F00; /* configure timer 4-7 for simple GPIO output */ gpt->gpt4.emsr |= 0x00000024; gpt->gpt5.emsr |= 0x00000024; gpt->gpt6.emsr |= 0x00000024; gpt->gpt7.emsr |= 0x00000024; /* enable SM501 GPIO control (in both power modes) */ *(vu_long *) (SM501_MMIO_BASE+SM501_POWER_MODE0_GATE) |= POWER_MODE_GATE_GPIO_PWM_I2C; *(vu_long *) (SM501_MMIO_BASE+SM501_POWER_MODE1_GATE) |= POWER_MODE_GATE_GPIO_PWM_I2C; /* configure SM501 gpio pins 24-27 as output */ *(vu_long *) (SM501_MMIO_BASE+SM501_GPIO_CTRL_LOW) &= ~(0xF << 24); *(vu_long *) (SM501_MMIO_BASE+SM501_GPIO_DATA_DIR_LOW) |= (0xF << 24); /* configure SM501 gpio pins 48-51 as output */ *(vu_long *) (SM501_MMIO_BASE+SM501_GPIO_DATA_DIR_HIGH) |= (0xF << 16); } /* * return 1 if led number unknown * return 0 else */ int do_led(char *argv[]) { struct mpc5xxx_gpio *gpio = (struct mpc5xxx_gpio *)MPC5XXX_GPIO; struct mpc5xxx_gpt_0_7 *gpt = (struct mpc5xxx_gpt_0_7 *)MPC5XXX_GPT; switch (simple_strtoul(argv[2], NULL, 10)) { case 0: if (strcmp (argv[3], "on") == 0) { gpio->simple_dvo |= (1 << 8); } else { gpio->simple_dvo &= ~(1 << 8); } break; case 1: if (strcmp (argv[3], "on") == 0) { gpio->simple_dvo |= (1 << 9); } else { gpio->simple_dvo &= ~(1 << 9); } break; case 2: if (strcmp (argv[3], "on") == 0) { gpio->simple_dvo |= (1 << 10); } else { gpio->simple_dvo &= ~(1 << 10); } break; case 3: if (strcmp (argv[3], "on") == 0) { gpio->simple_dvo |= (1 << 11); } else { gpio->simple_dvo &= ~(1 << 11); } break; case 4: if (strcmp (argv[3], "on") == 0) { gpt->gpt4.emsr |= (1 << 4); } else { gpt->gpt4.emsr &= ~(1 << 4); } break; case 5: if (strcmp (argv[3], "on") == 0) { gpt->gpt5.emsr |= (1 << 4); } else { gpt->gpt5.emsr &= ~(1 << 4); } break; case 6: if (strcmp (argv[3], "on") == 0) { gpt->gpt6.emsr |= (1 << 4); } else { gpt->gpt6.emsr &= ~(1 << 4); } break; case 7: if (strcmp (argv[3], "on") == 0) { gpt->gpt7.emsr |= (1 << 4); } else { gpt->gpt7.emsr &= ~(1 << 4); } break; case 24: if (strcmp (argv[3], "on") == 0) { *(vu_long *) (SM501_MMIO_BASE+SM501_GPIO_DATA_LOW) |= (0x1 << 24); } else { *(vu_long *) (SM501_MMIO_BASE+SM501_GPIO_DATA_LOW) &= ~(0x1 << 24); } break; case 25: if (strcmp (argv[3], "on") == 0) { *(vu_long *) (SM501_MMIO_BASE+SM501_GPIO_DATA_LOW) |= (0x1 << 25); } else { *(vu_long *) (SM501_MMIO_BASE+SM501_GPIO_DATA_LOW) &= ~(0x1 << 25); } break; case 26: if (strcmp (argv[3], "on") == 0) { *(vu_long *) (SM501_MMIO_BASE+SM501_GPIO_DATA_LOW) |= (0x1 << 26); } else { *(vu_long *) (SM501_MMIO_BASE+SM501_GPIO_DATA_LOW) &= ~(0x1 << 26); } break; case 27: if (strcmp (argv[3], "on") == 0) { *(vu_long *) (SM501_MMIO_BASE+SM501_GPIO_DATA_LOW) |= (0x1 << 27); } else { *(vu_long *) (SM501_MMIO_BASE+SM501_GPIO_DATA_LOW) &= ~(0x1 << 27); } break; case 48: if (strcmp (argv[3], "on") == 0) { *(vu_long *) (SM501_MMIO_BASE+SM501_GPIO_DATA_HIGH) |= (0x1 << 16); } else { *(vu_long *) (SM501_MMIO_BASE+SM501_GPIO_DATA_HIGH) &= ~(0x1 << 16); } break; case 49: if (strcmp (argv[3], "on") == 0) { *(vu_long *) (SM501_MMIO_BASE+SM501_GPIO_DATA_HIGH) |= (0x1 << 17); } else { *(vu_long *) (SM501_MMIO_BASE+SM501_GPIO_DATA_HIGH) &= ~(0x1 << 17); } break; case 50: if (strcmp (argv[3], "on") == 0) { *(vu_long *) (SM501_MMIO_BASE+SM501_GPIO_DATA_HIGH) |= (0x1 << 18); } else { *(vu_long *) (SM501_MMIO_BASE+SM501_GPIO_DATA_HIGH) &= ~(0x1 << 18); } break; case 51: if (strcmp (argv[3], "on") == 0) { *(vu_long *) (SM501_MMIO_BASE+SM501_GPIO_DATA_HIGH) |= (0x1 << 19); } else { *(vu_long *) (SM501_MMIO_BASE+SM501_GPIO_DATA_HIGH) &= ~(0x1 << 19); } break; default: printf ("%s: invalid led number %s\n", __FUNCTION__, argv[2]); return 1; } return 0; } /* * return 1 on CAN initialization failure * return 0 if no failure */ int can_init(void) { static int init_done = 0; int i; struct mpc5xxx_mscan *can1 = (struct mpc5xxx_mscan *)(CFG_MBAR + 0x0900); struct mpc5xxx_mscan *can2 = (struct mpc5xxx_mscan *)(CFG_MBAR + 0x0980); /* GPIO configuration of the CAN pins is done in TQM5200.h */ if (!init_done) { /* init CAN 1 */ can1->canctl1 |= 0x80; /* CAN enable */ udelay(100); i = 0; can1->canctl0 |= 0x02; /* sleep mode */ /* wait until sleep mode reached */ while (!(can1->canctl1 & 0x02)) { udelay(10); i++; if (i == 10) { printf ("%s: CAN1 initialize error, " "can not enter sleep mode!\n", __FUNCTION__); return 1; } } i = 0; can1->canctl0 = 0x01; /* enter init mode */ /* wait until init mode reached */ while (!(can1->canctl1 & 0x01)) { udelay(10); i++; if (i == 10) { printf ("%s: CAN1 initialize error, " "can not enter init mode!\n", __FUNCTION__); return 1; } } can1->canctl1 = 0x80; can1->canctl1 |= 0x40; can1->canbtr0 = 0x0F; can1->canbtr1 = 0x7F; can1->canidac &= ~(0x30); can1->canidar1 = 0x00; can1->canidar3 = 0x00; can1->canidar5 = 0x00; can1->canidar7 = 0x00; can1->canidmr0 = 0xFF; can1->canidmr1 = 0xFF; can1->canidmr2 = 0xFF; can1->canidmr3 = 0xFF; can1->canidmr4 = 0xFF; can1->canidmr5 = 0xFF; can1->canidmr6 = 0xFF; can1->canidmr7 = 0xFF; i = 0; can1->canctl0 &= ~(0x01); /* leave init mode */ can1->canctl0 &= ~(0x02); /* wait until init and sleep mode left */ while ((can1->canctl1 & 0x01) || (can1->canctl1 & 0x02)) { udelay(10); i++; if (i == 10) { printf ("%s: CAN1 initialize error, " "can not leave init/sleep mode!\n", __FUNCTION__); return 1; } } /* init CAN 2 */ can2->canctl1 |= 0x80; /* CAN enable */ udelay(100); i = 0; can2->canctl0 |= 0x02; /* sleep mode */ /* wait until sleep mode reached */ while (!(can2->canctl1 & 0x02)) { udelay(10); i++; if (i == 10) { printf ("%s: CAN2 initialize error, " "can not enter sleep mode!\n", __FUNCTION__); return 1; } } i = 0; can2->canctl0 = 0x01; /* enter init mode */ /* wait until init mode reached */ while (!(can2->canctl1 & 0x01)) { udelay(10); i++; if (i == 10) { printf ("%s: CAN2 initialize error, " "can not enter init mode!\n", __FUNCTION__); return 1; } } can2->canctl1 = 0x80; can2->canctl1 |= 0x40; can2->canbtr0 = 0x0F; can2->canbtr1 = 0x7F; can2->canidac &= ~(0x30); can2->canidar1 = 0x00; can2->canidar3 = 0x00; can2->canidar5 = 0x00; can2->canidar7 = 0x00; can2->canidmr0 = 0xFF; can2->canidmr1 = 0xFF; can2->canidmr2 = 0xFF; can2->canidmr3 = 0xFF; can2->canidmr4 = 0xFF; can2->canidmr5 = 0xFF; can2->canidmr6 = 0xFF; can2->canidmr7 = 0xFF; can2->canctl0 &= ~(0x01); /* leave init mode */ can2->canctl0 &= ~(0x02); i = 0; /* wait until init mode left */ while ((can2->canctl1 & 0x01) || (can2->canctl1 & 0x02)) { udelay(10); i++; if (i == 10) { printf ("%s: CAN2 initialize error, " "can not leave init/sleep mode!\n", __FUNCTION__); return 1; } } init_done = 1; } return 0; } /* * return 1 on CAN failure * return 0 if no failure */ int do_can(char *argv[]) { int i; struct mpc5xxx_mscan *can1 = (struct mpc5xxx_mscan *)(CFG_MBAR + 0x0900); struct mpc5xxx_mscan *can2 = (struct mpc5xxx_mscan *)(CFG_MBAR + 0x0980); /* send a message on CAN1 */ can1->cantbsel = 0x01; can1->cantxfg.idr[0] = 0x55; can1->cantxfg.idr[1] = 0x00; can1->cantxfg.idr[1] &= ~0x8; can1->cantxfg.idr[1] &= ~0x10; can1->cantxfg.dsr[0] = 0xCC; can1->cantxfg.dlr = 1; can1->cantxfg.tbpr = 0; can1->cantflg = 0x01; i = 0; while ((can1->cantflg & 0x01) == 0) { i++; if (i == 10) { printf ("%s: CAN1 send timeout, " "can not send message!\n", __FUNCTION__); return 1; } udelay(1000); } udelay(1000); i = 0; while (!(can2->canrflg & 0x01)) { i++; if (i == 10) { printf ("%s: CAN2 receive timeout, " "no message received!\n", __FUNCTION__); return 1; } udelay(1000); } if (can2->canrxfg.dsr[0] != 0xCC) { printf ("%s: CAN2 receive error, " "data mismatch!\n", __FUNCTION__); return 1; } /* send a message on CAN2 */ can2->cantbsel = 0x01; can2->cantxfg.idr[0] = 0x55; can2->cantxfg.idr[1] = 0x00; can2->cantxfg.idr[1] &= ~0x8; can2->cantxfg.idr[1] &= ~0x10; can2->cantxfg.dsr[0] = 0xCC; can2->cantxfg.dlr = 1; can2->cantxfg.tbpr = 0; can2->cantflg = 0x01; i = 0; while ((can2->cantflg & 0x01) == 0) { i++; if (i == 10) { printf ("%s: CAN2 send error, " "can not send message!\n", __FUNCTION__); return 1; } udelay(1000); } udelay(1000); i = 0; while (!(can1->canrflg & 0x01)) { i++; if (i == 10) { printf ("%s: CAN1 receive timeout, " "no message received!\n", __FUNCTION__); return 1; } udelay(1000); } if (can1->canrxfg.dsr[0] != 0xCC) { printf ("%s: CAN1 receive error 0x%02x\n", __FUNCTION__, (can1->canrxfg.dsr[0])); return 1; } return 0; } /* * return 1 if rs232 port unknown * return 2 on txd/rxd failure (only rs232 2) * return 3 on rts/cts failure * return 0 if no failure */ int do_rs232(char *argv[]) { int error_status = 0; struct mpc5xxx_gpio *gpio = (struct mpc5xxx_gpio *)MPC5XXX_GPIO; struct mpc5xxx_psc *psc1 = (struct mpc5xxx_psc *)MPC5XXX_PSC1; switch (simple_strtoul(argv[2], NULL, 10)) { case 1: /* check RTS <-> CTS loop */ /* set rts to 0 */ psc1->op1 |= 0x01; /* wait some time before requesting status */ udelay(10); /* check status at cts */ if ((psc1->ip & 0x01) != 0) { error_status = 3; printf ("%s: failure at rs232_1, cts status is %d " "(should be 0)\n", __FUNCTION__, (psc1->ip & 0x01)); } /* set rts to 1 */ psc1->op0 |= 0x01; /* wait some time before requesting status */ udelay(10); /* check status at cts */ if ((psc1->ip & 0x01) != 1) { error_status = 3; printf ("%s: failure at rs232_1, cts status is %d " "(should be 1)\n", __FUNCTION__, (psc1->ip & 0x01)); } break; case 2: /* set PSC3_0, PSC3_2 as output and PSC3_1, PSC3_3 as input */ gpio->simple_ddr &= ~(0x00000F00); gpio->simple_ddr |= 0x00000500; /* check TXD <-> RXD loop */ /* set TXD to 1 */ gpio->simple_dvo |= (1 << 8); /* wait some time before requesting status */ udelay(10); if ((gpio->simple_ival & 0x00000200) != 0x00000200) { error_status = 2; printf ("%s: failure at rs232_2, rxd status is %d " "(should be 1)\n", __FUNCTION__, (gpio->simple_ival & 0x00000200) >> 9); } /* set TXD to 0 */ gpio->simple_dvo &= ~(1 << 8); /* wait some time before requesting status */ udelay(10); if ((gpio->simple_ival & 0x00000200) != 0x00000000) { error_status = 2; printf ("%s: failure at rs232_2, rxd status is %d " "(should be 0)\n", __FUNCTION__, (gpio->simple_ival & 0x00000200) >> 9); } /* check RTS <-> CTS loop */ /* set RTS to 1 */ gpio->simple_dvo |= (1 << 10); /* wait some time before requesting status */ udelay(10); if ((gpio->simple_ival & 0x00000800) != 0x00000800) { error_status = 3; printf ("%s: failure at rs232_2, cts status is %d " "(should be 1)\n", __FUNCTION__, (gpio->simple_ival & 0x00000800) >> 11); } /* set RTS to 0 */ gpio->simple_dvo &= ~(1 << 10); /* wait some time before requesting status */ udelay(10); if ((gpio->simple_ival & 0x00000800) != 0x00000000) { error_status = 3; printf ("%s: failure at rs232_2, cts status is %d " "(should be 0)\n", __FUNCTION__, (gpio->simple_ival & 0x00000800) >> 11); } /* set PSC3_0, PSC3_1, PSC3_2 and PSC3_3 as output */ gpio->simple_ddr &= ~(0x00000F00); gpio->simple_ddr |= 0x00000F00; break; default: printf ("%s: invalid rs232 number %s\n", __FUNCTION__, argv[2]); error_status = 1; break; } return error_status; } static void sm501_backlight (unsigned int state) { if (state == BL_ON) { *(vu_long *)(SM501_MMIO_BASE+SM501_PANEL_DISPLAY_CONTROL) |= (1 << 26) | (1 << 27); } else if (state == BL_OFF) *(vu_long *)(SM501_MMIO_BASE+SM501_PANEL_DISPLAY_CONTROL) &= ~((1 << 26) | (1 << 27)); } int cmd_fkt(cmd_tbl_t *cmdtp, int flag, int argc, char *argv[]) { int rcode; #ifdef CONFIG_STK52XX_REV100 printf ("Revision 100 of STK52XX not supported!\n"); return 1; #endif led_init(); can_init(); switch (argc) { case 0: case 1: break; case 2: if (strncmp (argv[1], "can", 3) == 0) { rcode = do_can (argv); if (rcode == 0) printf ("OK\n"); else printf ("Error\n"); return rcode; } break; case 3: if (strncmp (argv[1], "rs232", 3) == 0) { rcode = do_rs232 (argv); if (rcode == 0) printf ("OK\n"); else printf ("Error\n"); return rcode; } else if (strncmp (argv[1], "backlight", 4) == 0) { if (strncmp (argv[2], "on", 2) == 0) { sm501_backlight (BL_ON); return 0; } else if (strncmp (argv[2], "off", 3) == 0) { sm501_backlight (BL_OFF); return 0; } } break; case 4: if (strcmp (argv[1], "led") == 0) { return (do_led (argv)); } break; default: break; } printf ("Usage:\nfkt cmd [arg1] [arg2] ...\n"); return 1; } U_BOOT_CMD( sound , 5, 1, cmd_sound, "sound - Sound sub-system\n", "saw [duration] [freq] [channel]\n" " - generate sawtooth for 'duration' ms with frequency 'freq'\n" " on left \"l\" or right \"r\" channel\n" "sound square [duration] [freq] [channel]\n" " - generate squarewave for 'duration' ms with frequency 'freq'\n" " on left \"l\" or right \"r\" channel\n" "pcm1772 reg val\n" ); U_BOOT_CMD( wav , 3, 1, cmd_wav, "wav - play wav file\n", "[addr] [bytes]\n" " - play wav file at address 'addr' with length 'bytes'\n" ); U_BOOT_CMD( beep , 2, 1, cmd_beep, "beep - play short beep\n", "[channel]\n" " - play short beep on \"l\"eft or \"r\"ight channel\n" ); U_BOOT_CMD( fkt , 4, 1, cmd_fkt, "fkt - Function test routines\n", "led number on/off\n" " - 'number's like printed on SKT52XX board\n" "fkt can\n" " - loopback plug for X83 required\n" "fkt rs232 number\n" " - loopback plug(s) for X2 required\n" "fkt backlight on/off\n" " - switch backlight on or off\n" ); #endif /* CONFIG_STK52XX */ #endif /* CFG_CMD_BSP */