diff options
Diffstat (limited to 'board/trab/cmd_trab.c')
| -rw-r--r-- | board/trab/cmd_trab.c | 883 |
1 files changed, 452 insertions, 431 deletions
diff --git a/board/trab/cmd_trab.c b/board/trab/cmd_trab.c index 78e14bdadf9..509e071f4de 100644 --- a/board/trab/cmd_trab.c +++ b/board/trab/cmd_trab.c @@ -21,6 +21,8 @@ * MA 02111-1307 USA */ +#undef DEBUG + #include <common.h> #include <command.h> #include <s3c2400.h> @@ -71,7 +73,7 @@ #define I2C_EEPROM_DEV_ADDR 0x54 /* EEPROM address map */ -#define EE_ADDR_TEST 128 +#define EE_ADDR_TEST 192 #define EE_ADDR_MAX_CYCLES 256 #define EE_ADDR_STATUS 258 #define EE_ADDR_PASS_CYCLES 259 @@ -148,7 +150,7 @@ u16 act_cycle; typedef struct test_function_s { unsigned char *name; - int (*pf)(void); + int (*pf)(void); } test_function_t; /* max number of Burn In Functions */ @@ -160,245 +162,251 @@ test_function_t test_function[BIF_MAX]; int do_burn_in (cmd_tbl_t *cmdtp, int flag, int argc, char *argv[]) { - int i; - int cycle_status; + int i; + int cycle_status; - if (argc > 1) { + if (argc > 1) { printf ("Usage:\n%s\n", cmdtp->usage); return 1; } - led_init (); - global_vars_init (); - test_function_table_init (); - - if (global_vars_write_to_eeprom () != 0) { - printf ("%s: error writing global_vars to eeprom\n", - __FUNCTION__); - return (1); - } - - if (read_max_cycles () != 0) { - printf ("%s: error reading max_cycles from eeprom\n", - __FUNCTION__); - return (1); - } - - if (max_cycles == 0) { - printf ("%s: error, burn in max_cycles = 0\n", __FUNCTION__); - return (1); - } - - status = 0; - for (act_cycle = 1; act_cycle <= max_cycles; act_cycle++) { - - cycle_status = 0; - for (i = 0; i < BIF_MAX; i++) { - - /* call test function */ - if ((*test_function[i].pf)() != 0) { - printf ("error in %s test\n", - test_function[i].name); - - /* is it the first error? */ - if (status == 0) { - status = 1; - first_error_cycle = act_cycle; - - /* do not use error_num 0 */ - first_error_num = i+1; - strncpy (first_error_name, - test_function[i].name, - sizeof (first_error_name)); - led_set (0); - } - cycle_status = 1; - } - } - /* were all tests of actual cycle OK? */ - if (cycle_status == 0) - pass_cycles++; - - /* set status LED if no error is occoured since yet */ - if (status == 0) - led_set (1); - - printf ("%s: cycle %d finished\n", __FUNCTION__, act_cycle); - - /* pause between cycles */ - sdelay (BURN_IN_CYCLE_DELAY); - } - - if (global_vars_write_to_eeprom () != 0) { - led_set (0); - printf ("%s: error writing global_vars to eeprom\n", - __FUNCTION__); - status = 1; - } - - if (status == 0) { - led_blink (); /* endless loop!! */ - return (0); - } else { - led_set (0); - return (1); - } + led_init (); + global_vars_init (); + test_function_table_init (); + + if (global_vars_write_to_eeprom () != 0) { + printf ("%s: error writing global_vars to eeprom\n", + __FUNCTION__); + return (1); + } + + if (read_max_cycles () != 0) { + printf ("%s: error reading max_cycles from eeprom\n", + __FUNCTION__); + return (1); + } + + if (max_cycles == 0) { + printf ("%s: error, burn in max_cycles = 0\n", __FUNCTION__); + return (1); + } + + status = 0; + for (act_cycle = 1; act_cycle <= max_cycles; act_cycle++) { + + cycle_status = 0; + + /* + * avoid timestamp overflow problem after about 68 minutes of + * udelay() time. + */ + reset_timer_masked (); + for (i = 0; i < BIF_MAX; i++) { + + /* call test function */ + if ((*test_function[i].pf)() != 0) { + printf ("error in %s test\n", + test_function[i].name); + + /* is it the first error? */ + if (status == 0) { + status = 1; + first_error_cycle = act_cycle; + + /* do not use error_num 0 */ + first_error_num = i+1; + strncpy (first_error_name, + test_function[i].name, + sizeof (first_error_name)); + led_set (0); + } + cycle_status = 1; + } + } + /* were all tests of actual cycle OK? */ + if (cycle_status == 0) + pass_cycles++; + + /* set status LED if no error is occoured since yet */ + if (status == 0) + led_set (1); + + printf ("%s: cycle %d finished\n", __FUNCTION__, act_cycle); + + /* pause between cycles */ + sdelay (BURN_IN_CYCLE_DELAY); + } + + if (global_vars_write_to_eeprom () != 0) { + led_set (0); + printf ("%s: error writing global_vars to eeprom\n", + __FUNCTION__); + status = 1; + } + + if (status == 0) { + led_blink (); /* endless loop!! */ + return (0); + } else { + led_set (0); + return (1); + } } U_BOOT_CMD( - burn_in, 1, 1, do_burn_in, - "burn_in - start burn-in test application on TRAB\n", - "\n" - " - start burn-in test application\n" - " The burn-in test could took a while to finish!\n" - " The content of the onboard EEPROM is modified!\n" + burn_in, 1, 1, do_burn_in, + "burn_in - start burn-in test application on TRAB\n", + "\n" + " - start burn-in test application\n" + " The burn-in test could took a while to finish!\n" + " The content of the onboard EEPROM is modified!\n" ); int do_dip (cmd_tbl_t *cmdtp, int flag, int argc, char *argv[]) { - int i, dip; + int i, dip; - if (argc > 1) { + if (argc > 1) { printf ("Usage:\n%s\n", cmdtp->usage); return 1; } - if ((dip = read_dip ()) == -1) { - return 1; - } + if ((dip = read_dip ()) == -1) { + return 1; + } - for (i = 0; i < 4; i++) { - if ((dip & (1 << i)) == 0) - printf("0"); - else - printf("1"); - } - printf("\n"); + for (i = 0; i < 4; i++) { + if ((dip & (1 << i)) == 0) + printf("0"); + else + printf("1"); + } + printf("\n"); return 0; } U_BOOT_CMD( - dip, 1, 1, do_dip, - "dip - read dip switch on TRAB\n", - "\n" - " - read state of dip switch (S1) on TRAB board\n" - " read sequence: 1-2-3-4; ON=1; OFF=0; e.g.: \"0100\"\n" + dip, 1, 1, do_dip, + "dip - read dip switch on TRAB\n", + "\n" + " - read state of dip switch (S1) on TRAB board\n" + " read sequence: 1-2-3-4; ON=1; OFF=0; e.g.: \"0100\"\n" ); int do_vcc5v (cmd_tbl_t *cmdtp, int flag, int argc, char *argv[]) { - int vcc5v; + int vcc5v; - if (argc > 1) { + if (argc > 1) { printf ("Usage:\n%s\n", cmdtp->usage); return 1; } - if ((vcc5v = read_vcc5v ()) == -1) { - return (1); - } + if ((vcc5v = read_vcc5v ()) == -1) { + return (1); + } - printf ("%d", (vcc5v / 1000)); - printf (".%d", (vcc5v % 1000) / 100); - printf ("%d V\n", (vcc5v % 100) / 10) ; + printf ("%d", (vcc5v / 1000)); + printf (".%d", (vcc5v % 1000) / 100); + printf ("%d V\n", (vcc5v % 100) / 10) ; return 0; } U_BOOT_CMD( - vcc5v, 1, 1, do_vcc5v, - "vcc5v - read VCC5V on TRAB\n", - "\n" - " - read actual value of voltage VCC5V\n" + vcc5v, 1, 1, do_vcc5v, + "vcc5v - read VCC5V on TRAB\n", + "\n" + " - read actual value of voltage VCC5V\n" ); int do_contact_temp (cmd_tbl_t *cmdtp, int flag, int argc, char *argv[]) { - int contact_temp; + int contact_temp; - if (argc > 1) { + if (argc > 1) { printf ("Usage:\n%s\n", cmdtp->usage); return 1; } - spi_init (); - tsc2000_reg_init (); + spi_init (); + tsc2000_reg_init (); - contact_temp = tsc2000_contact_temp(); - printf ("%d degree C * 100\n", contact_temp) ; + contact_temp = tsc2000_contact_temp(); + printf ("%d degree C * 100\n", contact_temp) ; return 0; } U_BOOT_CMD( - c_temp, 1, 1, do_contact_temp, - "c_temp - read contact temperature on TRAB\n", - "\n" - " - reads the onboard temperature (=contact temperature)\n" + c_temp, 1, 1, do_contact_temp, + "c_temp - read contact temperature on TRAB\n", + "\n" + " - reads the onboard temperature (=contact temperature)\n" ); int do_burn_in_status (cmd_tbl_t *cmdtp, int flag, int argc, char *argv[]) { - if (argc > 1) { + if (argc > 1) { printf ("Usage:\n%s\n", cmdtp->usage); return 1; } - if (i2c_read_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_STATUS, 1, - (unsigned char*) &status, 1)) { - return (1); - } - if (i2c_read_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_PASS_CYCLES, 1, - (unsigned char*) &pass_cycles, 2)) { - return (1); - } - if (i2c_read_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_FIRST_ERROR_CYCLE, - 1, (unsigned char*) &first_error_cycle, 2)) { - return (1); - } - if (i2c_read_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_FIRST_ERROR_NUM, - 1, (unsigned char*) &first_error_num, 1)) { - return (1); - } - if (i2c_read_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_FIRST_ERROR_NAME, - 1, first_error_name, - sizeof (first_error_name))) { - return (1); - } - - if (read_max_cycles () != 0) { - return (1); - } - - printf ("max_cycles = %d\n", max_cycles); - printf ("status = %d\n", status); - printf ("pass_cycles = %d\n", pass_cycles); - printf ("first_error_cycle = %d\n", first_error_cycle); - printf ("first_error_num = %d\n", first_error_num); - printf ("first_error_name = %.*s\n",(int) sizeof(first_error_name), - first_error_name); + if (i2c_read_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_STATUS, 1, + (unsigned char*) &status, 1)) { + return (1); + } + if (i2c_read_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_PASS_CYCLES, 1, + (unsigned char*) &pass_cycles, 2)) { + return (1); + } + if (i2c_read_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_FIRST_ERROR_CYCLE, + 1, (unsigned char*) &first_error_cycle, 2)) { + return (1); + } + if (i2c_read_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_FIRST_ERROR_NUM, + 1, (unsigned char*) &first_error_num, 1)) { + return (1); + } + if (i2c_read_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_FIRST_ERROR_NAME, + 1, first_error_name, + sizeof (first_error_name))) { + return (1); + } + + if (read_max_cycles () != 0) { + return (1); + } + + printf ("max_cycles = %d\n", max_cycles); + printf ("status = %d\n", status); + printf ("pass_cycles = %d\n", pass_cycles); + printf ("first_error_cycle = %d\n", first_error_cycle); + printf ("first_error_num = %d\n", first_error_num); + printf ("first_error_name = %.*s\n",(int) sizeof(first_error_name), + first_error_name); return 0; } U_BOOT_CMD( - bis, 1, 1, do_burn_in_status, - "bis - print burn in status on TRAB\n", - "\n" - " - prints the status variables of the last burn in test\n" - " stored in the onboard EEPROM on TRAB board\n" + bis, 1, 1, do_burn_in_status, + "bis - print burn in status on TRAB\n", + "\n" + " - prints the status variables of the last burn in test\n" + " stored in the onboard EEPROM on TRAB board\n" ); static int read_dip (void) { - unsigned int result = 0; - int adc_val; - int i; + unsigned int result = 0; + int adc_val; + int i; /*********************************************************** DIP switch connection (according to wa4-cpu.sp.301.pdf, page 3): @@ -413,11 +421,11 @@ static int read_dip (void) for (i = 7; i > 3; i--) { - if ((adc_val = adc_read (i)) == -1) { - printf ("%s: Channel %d could not be read\n", - __FUNCTION__, i); - return (-1); - } + if ((adc_val = adc_read (i)) == -1) { + printf ("%s: Channel %d could not be read\n", + __FUNCTION__, i); + return (-1); + } /* * Input voltage (switch open) is 1.8 V. @@ -425,397 +433,410 @@ static int read_dip (void) * Set trigger at halve that value. */ if (adc_val < 368) - result |= (1 << (i-4)); - } - return (result); + result |= (1 << (i-4)); + } + return (result); } static int read_vcc5v (void) { - s32 result; - - /* VCC5V is connected to channel 2 */ - - if ((result = adc_read (2)) == -1) { - printf ("%s: VCC5V could not be read\n", __FUNCTION__); - return (-1); - } - /* - * Calculate voltage value. Split in two parts because there is no - * floating point support. VCC5V is connected over an resistor divider: - * VCC5V=ADCval*2,5V/1023*(10K+30K)/10K. - */ - result = result * 10 * 1000 / 1023; /* result in mV */ - - return (result); + s32 result; + + /* VCC5V is connected to channel 2 */ + + if ((result = adc_read (2)) == -1) { + printf ("%s: VCC5V could not be read\n", __FUNCTION__); + return (-1); + } + /* + * Calculate voltage value. Split in two parts because there is no + * floating point support. VCC5V is connected over an resistor divider: + * VCC5V=ADCval*2,5V/1023*(10K+30K)/10K. + */ + result = result * 10 * 1000 / 1023; /* result in mV */ + + return (result); } static int test_dip (void) { - static int first_run = 1; - static int first_dip; - - if (first_run) { - if ((first_dip = read_dip ()) == -1) { - return (1); - } - first_run = 0; - debug ("%s: first_dip=%d\n", __FUNCTION__, first_dip); - } - if (first_dip != read_dip ()) { - return (1); - } else { - return (0); - } + static int first_run = 1; + static int first_dip; + + if (first_run) { + if ((first_dip = read_dip ()) == -1) { + return (1); + } + first_run = 0; + debug ("%s: first_dip=%d\n", __FUNCTION__, first_dip); + } + if (first_dip != read_dip ()) { + return (1); + } else { + return (0); + } } static int test_vcc5v (void) { - int vcc5v; + int vcc5v; - if ((vcc5v = read_vcc5v ()) == -1) { - return (1); - } + if ((vcc5v = read_vcc5v ()) == -1) { + return (1); + } - if ((vcc5v > VCC5V_MAX) || (vcc5v < VCC5V_MIN)) { - return (1); - } else { - return (0); - } + if ((vcc5v > VCC5V_MAX) || (vcc5v < VCC5V_MIN)) { + printf ("%s: vcc5v[V/100]=%d\n", __FUNCTION__, vcc5v); + return (1); + } else { + return (0); + } } static int test_rotary_switch (void) { - static int first_run = 1; - static int first_rs; - - if (first_run) { - /* - * clear bits in CPLD, because they have random values after - * power-up or reset. - */ - *CPLD_ROTARY_SWITCH |= (1 << 16) | (1 << 17); - - first_rs = ((*CPLD_ROTARY_SWITCH >> 16) & 0x7); - first_run = 0; - debug ("%s: first_rs=%d\n", __FUNCTION__, first_rs); - } - - if (first_rs != ((*CPLD_ROTARY_SWITCH >> 16) & 0x7)) { - return (1); - } else { - return (0); - } + static int first_run = 1; + static int first_rs; + + if (first_run) { + /* + * clear bits in CPLD, because they have random values after + * power-up or reset. + */ + *CPLD_ROTARY_SWITCH |= (1 << 16) | (1 << 17); + + first_rs = ((*CPLD_ROTARY_SWITCH >> 16) & 0x7); + first_run = 0; + debug ("%s: first_rs=%d\n", __FUNCTION__, first_rs); + } + + if (first_rs != ((*CPLD_ROTARY_SWITCH >> 16) & 0x7)) { + return (1); + } else { + return (0); + } } static int test_sram (void) { - return (memory_post_tests (SRAM_ADDR, SRAM_SIZE)); + return (memory_post_tests (SRAM_ADDR, SRAM_SIZE)); } static int test_eeprom (void) { - unsigned char temp[sizeof (EEPROM_TEST_STRING_1)]; - int result = 0; - - /* write test string 1, read back and verify */ - if (i2c_write_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_TEST, 1, - EEPROM_TEST_STRING_1, - sizeof (EEPROM_TEST_STRING_1))) { - return (1); - } - - if (i2c_read_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_TEST, 1, - temp, sizeof (EEPROM_TEST_STRING_1))) { - return (1); - } - - if (strcmp (temp, EEPROM_TEST_STRING_1) != 0) { - result = 1; - printf ("%s: error; read_str = \"%s\"\n", __FUNCTION__, temp); - } - - /* write test string 2, read back and verify */ - if (result == 0) { - if (i2c_write_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_TEST, 1, - EEPROM_TEST_STRING_2, - sizeof (EEPROM_TEST_STRING_2))) { - return (1); - } - - if (i2c_read_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_TEST, 1, - temp, sizeof (EEPROM_TEST_STRING_2))) { - return (1); - } - - if (strcmp (temp, EEPROM_TEST_STRING_2) != 0) { - result = 1; - printf ("%s: error; read str = \"%s\"\n", - __FUNCTION__, temp); - } - } - return (result); + unsigned char temp[sizeof (EEPROM_TEST_STRING_1)]; + int result = 0; + + /* write test string 1, read back and verify */ + if (i2c_write_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_TEST, 1, + EEPROM_TEST_STRING_1, + sizeof (EEPROM_TEST_STRING_1))) { + return (1); + } + + if (i2c_read_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_TEST, 1, + temp, sizeof (EEPROM_TEST_STRING_1))) { + return (1); + } + + if (strcmp (temp, EEPROM_TEST_STRING_1) != 0) { + result = 1; + printf ("%s: error; read_str = \"%s\"\n", __FUNCTION__, temp); + } + + /* write test string 2, read back and verify */ + if (result == 0) { + if (i2c_write_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_TEST, 1, + EEPROM_TEST_STRING_2, + sizeof (EEPROM_TEST_STRING_2))) { + return (1); + } + + if (i2c_read_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_TEST, 1, + temp, sizeof (EEPROM_TEST_STRING_2))) { + return (1); + } + + if (strcmp (temp, EEPROM_TEST_STRING_2) != 0) { + result = 1; + printf ("%s: error; read str = \"%s\"\n", + __FUNCTION__, temp); + } + } + return (result); } static int test_contact_temp (void) { - int contact_temp; + int contact_temp; - spi_init (); - contact_temp = tsc2000_contact_temp (); + spi_init (); + contact_temp = tsc2000_contact_temp (); - if ((contact_temp < MIN_CONTACT_TEMP) - || (contact_temp > MAX_CONTACT_TEMP)) - return (1); - else - return (0); + if ((contact_temp < MIN_CONTACT_TEMP) + || (contact_temp > MAX_CONTACT_TEMP)) + return (1); + else + return (0); } int i2c_write_multiple (uchar chip, uint addr, int alen, uchar *buffer, int len) { - int i; - - if (alen != 1) { - printf ("%s: addr len other than 1 not supported\n", - __FUNCTION__); - return (1); - } - - for (i = 0; i < len; i++) { - if (i2c_write (chip, addr+i, alen, buffer+i, 1)) { - printf ("%s: could not write to i2c device %d" - ", addr %d\n", __FUNCTION__, chip, addr); - return (1); - } + int i; + + if (alen != 1) { + printf ("%s: addr len other than 1 not supported\n", + __FUNCTION__); + return (1); + } + + for (i = 0; i < len; i++) { + if (i2c_write (chip, addr+i, alen, buffer+i, 1)) { + printf ("%s: could not write to i2c device %d" + ", addr %d\n", __FUNCTION__, chip, addr); + return (1); + } #if 0 - printf ("chip=%#x, addr+i=%#x+%d=%p, alen=%d, *buffer+i=" - "%#x+%d=%p=\"%.1s\"\n", chip, addr, i, addr+i, - alen, buffer, i, buffer+i, buffer+i); + printf ("chip=%#x, addr+i=%#x+%d=%p, alen=%d, *buffer+i=" + "%#x+%d=%p=\"%.1s\"\n", chip, addr, i, addr+i, + alen, buffer, i, buffer+i, buffer+i); #endif - udelay (30000); - } - return (0); + udelay (30000); + } + return (0); } int i2c_read_multiple ( uchar chip, uint addr, int alen, uchar *buffer, int len) { - int i; - - if (alen != 1) { - printf ("%s: addr len other than 1 not supported\n", - __FUNCTION__); - return (1); - } - - for (i = 0; i < len; i++) { - if (i2c_read (chip, addr+i, alen, buffer+i, 1)) { - printf ("%s: could not read from i2c device %#x" - ", addr %d\n", __FUNCTION__, chip, addr); - return (1); - } - } - return (0); + int i; + + if (alen != 1) { + printf ("%s: addr len other than 1 not supported\n", + __FUNCTION__); + return (1); + } + + for (i = 0; i < len; i++) { + if (i2c_read (chip, addr+i, alen, buffer+i, 1)) { + printf ("%s: could not read from i2c device %#x" + ", addr %d\n", __FUNCTION__, chip, addr); + return (1); + } + } + return (0); } static int adc_read (unsigned int channel) { - int j = 1000; /* timeout value for wait loop in us */ - S3C2400_ADC *padc; - - padc = S3C2400_GetBase_ADC(); - channel &= 0x7; + int j = 1000; /* timeout value for wait loop in us */ + int result; + S3C2400_ADC *padc; - adc_init (); + padc = S3C2400_GetBase_ADC(); + channel &= 0x7; - debug ("%s: adccon %#x\n", __FUNCTION__, padc->ADCCON); + adc_init (); - padc->ADCCON &= ~ADC_STDBM; /* select normal mode */ + padc->ADCCON &= ~ADC_STDBM; /* select normal mode */ padc->ADCCON &= ~(0x7 << 3); /* clear the channel bits */ - padc->ADCCON |= ((channel << 3) | ADC_ENABLE_START); + padc->ADCCON |= ((channel << 3) | ADC_ENABLE_START); - debug ("%s: reading ch %d, addcon %#x\n", __FUNCTION__, - (padc->ADCCON >> 3) & 0x7, padc->ADCCON); + while (j--) { + if ((padc->ADCCON & ADC_ENABLE_START) == 0) + break; + udelay (1); + } + + if (j == 0) { + printf("%s: ADC timeout\n", __FUNCTION__); + padc->ADCCON |= ADC_STDBM; /* select standby mode */ + return -1; + } - while (j--) { - if ((padc->ADCCON & ADC_ENABLE_START) == 0) - break; - udelay (1); - } + result = padc->ADCDAT & 0x3FF; - if (j == 0) { - printf("%s: ADC timeout\n", __FUNCTION__); - padc->ADCCON |= ADC_STDBM; /* select standby mode */ - return -1; - } + padc->ADCCON |= ADC_STDBM; /* select standby mode */ - padc->ADCCON |= ADC_STDBM; /* select standby mode */ + debug ("%s: channel %d, result[DIGIT]=%d\n", __FUNCTION__, + (padc->ADCCON >> 3) & 0x7, result); - debug ("%s: return %#x, adccon %#x\n", __FUNCTION__, - padc->ADCDAT & 0x3FF, padc->ADCCON); + /* + * Wait for ADC to be ready for next conversion. This delay value was + * estimated, because the datasheet does not specify a value. + */ + udelay (1000); - return (padc->ADCDAT & 0x3FF); + return (result); } static void adc_init (void) { - S3C2400_ADC *padc; + S3C2400_ADC *padc; - padc = S3C2400_GetBase_ADC(); + padc = S3C2400_GetBase_ADC(); padc->ADCCON &= ~(0xff << 6); /* clear prescaler bits */ padc->ADCCON |= ((65 << 6) | ADC_PRSCEN); /* set prescaler */ - return; + /* + * Wait some time to avoid problem with very first call of + * adc_read(). Without this delay, sometimes the first read + * adc value is 0. Perhaps because the adjustment of prescaler + * takes some clock cycles? + */ + udelay (1000); + + return; } static void led_set (unsigned int state) { - S3C24X0_GPIO * const gpio = S3C24X0_GetBase_GPIO(); - - led_init (); - - switch (state) { - case 0: /* turn LED off */ - gpio->PADAT |= (1 << 12); - break; - case 1: /* turn LED on */ - gpio->PADAT &= ~(1 << 12); - break; - default: - } + S3C24X0_GPIO * const gpio = S3C24X0_GetBase_GPIO(); + + led_init (); + + switch (state) { + case 0: /* turn LED off */ + gpio->PADAT |= (1 << 12); + break; + case 1: /* turn LED on */ + gpio->PADAT &= ~(1 << 12); + break; + default: + } } static void led_blink (void) { - led_init (); - - /* blink LED. This function does not return! */ - while (1) { - led_set (1); - udelay (1000000 / LED_BLINK_FREQ / 2); - led_set (0); - udelay (1000000 / LED_BLINK_FREQ / 2); - } + led_init (); + + /* blink LED. This function does not return! */ + while (1) { + led_set (1); + udelay (1000000 / LED_BLINK_FREQ / 2); + led_set (0); + udelay (1000000 / LED_BLINK_FREQ / 2); + } } static void led_init (void) { - S3C24X0_GPIO * const gpio = S3C24X0_GetBase_GPIO(); + S3C24X0_GPIO * const gpio = S3C24X0_GetBase_GPIO(); - /* configure GPA12 as output and set to High -> LED off */ - gpio->PACON &= ~(1 << 12); - gpio->PADAT |= (1 << 12); + /* configure GPA12 as output and set to High -> LED off */ + gpio->PACON &= ~(1 << 12); + gpio->PADAT |= (1 << 12); } static void sdelay (unsigned long seconds) { - unsigned long i; + unsigned long i; - for (i = 0; i < seconds; i++) { - udelay (1000000); - } + for (i = 0; i < seconds; i++) { + udelay (1000000); + } } static int global_vars_write_to_eeprom (void) { - if (i2c_write_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_STATUS, 1, - (unsigned char*) &status, 1)) { - return (1); - } - if (i2c_write_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_PASS_CYCLES, 1, - (unsigned char*) &pass_cycles, 2)) { - return (1); - } - if (i2c_write_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_FIRST_ERROR_CYCLE, - 1, (unsigned char*) &first_error_cycle, 2)) { - return (1); - } - if (i2c_write_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_FIRST_ERROR_NUM, - 1, (unsigned char*) &first_error_num, 1)) { - return (1); - } - if (i2c_write_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_FIRST_ERROR_NAME, - 1, first_error_name, - sizeof(first_error_name))) { - return (1); - } - return (0); + if (i2c_write_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_STATUS, 1, + (unsigned char*) &status, 1)) { + return (1); + } + if (i2c_write_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_PASS_CYCLES, 1, + (unsigned char*) &pass_cycles, 2)) { + return (1); + } + if (i2c_write_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_FIRST_ERROR_CYCLE, + 1, (unsigned char*) &first_error_cycle, 2)) { + return (1); + } + if (i2c_write_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_FIRST_ERROR_NUM, + 1, (unsigned char*) &first_error_num, 1)) { + return (1); + } + if (i2c_write_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_FIRST_ERROR_NAME, + 1, first_error_name, + sizeof(first_error_name))) { + return (1); + } + return (0); } static void global_vars_init (void) { - status = 1; /* error */ - pass_cycles = 0; - first_error_cycle = 0; - first_error_num = 0; - first_error_name[0] = '\0'; - act_cycle = 0; - max_cycles = 0; + status = 1; /* error */ + pass_cycles = 0; + first_error_cycle = 0; + first_error_num = 0; + first_error_name[0] = '\0'; + act_cycle = 0; + max_cycles = 0; } static void test_function_table_init (void) { - int i; + int i; - for (i = 0; i < BIF_MAX; i++) + for (i = 0; i < BIF_MAX; i++) test_function[i].pf = dummy; - /* - * the length of "name" must not exceed 16, including the '\0' - * termination. See also the EEPROM address map. - */ - test_function[0].pf = test_dip; - test_function[0].name = "dip"; + /* + * the length of "name" must not exceed 16, including the '\0' + * termination. See also the EEPROM address map. + */ + test_function[0].pf = test_dip; + test_function[0].name = "dip"; - test_function[1].pf = test_vcc5v; - test_function[1].name = "vcc5v"; + test_function[1].pf = test_vcc5v; + test_function[1].name = "vcc5v"; - test_function[2].pf = test_rotary_switch; - test_function[2].name = "rotary_switch"; + test_function[2].pf = test_rotary_switch; + test_function[2].name = "rotary_switch"; - test_function[3].pf = test_sram; - test_function[3].name = "sram"; + test_function[3].pf = test_sram; + test_function[3].name = "sram"; - test_function[4].pf = test_eeprom; - test_function[4].name = "eeprom"; + test_function[4].pf = test_eeprom; + test_function[4].name = "eeprom"; - test_function[5].pf = test_contact_temp; - test_function[5].name = "contact_temp"; + test_function[5].pf = test_contact_temp; + test_function[5].name = "contact_temp"; } static int read_max_cycles (void) { - if (i2c_read_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_MAX_CYCLES, 1, - (unsigned char *) &max_cycles, 2) != 0) { - return (1); - } + if (i2c_read_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_MAX_CYCLES, 1, + (unsigned char *) &max_cycles, 2) != 0) { + return (1); + } - return (0); + return (0); } static int dummy(void) { - return (0); + return (0); } #endif /* CFG_CMD_BSP */ |