blob: 509e071f4de1384f33f2acd37648e9d28f2cb121 [file] [log] [blame]
wdenk4f7cb082003-09-11 23:06:34 +00001/*
2 * (C) Copyright 2003
3 * Martin Krause, TQ-Systems GmbH, martin.krause@tqs.de.
4 *
5 * See file CREDITS for list of people who contributed to this
6 * project.
7 *
8 * This program is free software; you can redistribute it and/or
9 * modify it under the terms of the GNU General Public License as
10 * published by the Free Software Foundation; either version 2 of
11 * the License, or (at your option) any later version.
12 *
13 * This program is distributed in the hope that it will be useful,
14 * but WITHOUT ANY WARRANTY; without even the implied warranty of
15 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
16 * GNU General Public License for more details.
17 *
18 * You should have received a copy of the GNU General Public License
19 * along with this program; if not, write to the Free Software
20 * Foundation, Inc., 59 Temple Place, Suite 330, Boston,
21 * MA 02111-1307 USA
22 */
23
wdenka0ff7f22003-10-09 13:16:55 +000024#undef DEBUG
25
wdenk4f7cb082003-09-11 23:06:34 +000026#include <common.h>
27#include <command.h>
28#include <s3c2400.h>
29
30/*
31 * TRAB board specific commands. Especially commands for burn-in and function
32 * test.
33 */
34#if (CONFIG_COMMANDS & CFG_CMD_BSP)
35
36/* limits for valid range of VCC5V in mV */
37#define VCC5V_MIN 4500
38#define VCC5V_MAX 5500
39
40/*
41 * Test strings for EEPROM test. Length of string 2 must not exceed length of
42 * string 1. Otherwise a buffer overrun could occur!
43 */
44#define EEPROM_TEST_STRING_1 "0987654321 :tset a si siht"
45#define EEPROM_TEST_STRING_2 "this is a test: 1234567890"
46
47/*
48 * min/max limits for valid contact temperature during burn in test (in
49 * degree Centigrade * 100)
50 */
51#define MIN_CONTACT_TEMP -1000
52#define MAX_CONTACT_TEMP +9000
53
54/* blinking frequency of status LED */
55#define LED_BLINK_FREQ 5
56
57/* delay time between burn in cycles in seconds */
58#ifndef BURN_IN_CYCLE_DELAY /* if not defined in include/configs/trab.h */
59#define BURN_IN_CYCLE_DELAY 5
60#endif
61
62/* physical SRAM parameters */
63#define SRAM_ADDR 0x02000000 /* GCS1 */
64#define SRAM_SIZE 0x40000 /* 256 kByte */
65
66/* CPLD-Register for controlling TRAB hardware functions */
67#define CPLD_BUTTONS ((volatile unsigned long *)0x04020000)
68#define CPLD_FILL_LEVEL ((volatile unsigned long *)0x04008000)
69#define CPLD_ROTARY_SWITCH ((volatile unsigned long *)0x04018000)
70#define CPLD_RS485_RE ((volatile unsigned long *)0x04028000)
71
72/* I2C EEPROM device address */
73#define I2C_EEPROM_DEV_ADDR 0x54
74
75/* EEPROM address map */
wdenka0ff7f22003-10-09 13:16:55 +000076#define EE_ADDR_TEST 192
wdenk4f7cb082003-09-11 23:06:34 +000077#define EE_ADDR_MAX_CYCLES 256
78#define EE_ADDR_STATUS 258
79#define EE_ADDR_PASS_CYCLES 259
80#define EE_ADDR_FIRST_ERROR_CYCLE 261
81#define EE_ADDR_FIRST_ERROR_NUM 263
82#define EE_ADDR_FIRST_ERROR_NAME 264
83#define EE_ADDR_ACT_CYCLE 280
84
85/* Bit definitions for ADCCON */
86#define ADC_ENABLE_START 0x1
87#define ADC_READ_START 0x2
88#define ADC_STDBM 0x4
89#define ADC_INP_AIN0 (0x0 << 3)
90#define ADC_INP_AIN1 (0x1 << 3)
91#define ADC_INP_AIN2 (0x2 << 3)
92#define ADC_INP_AIN3 (0x3 << 3)
93#define ADC_INP_AIN4 (0x4 << 3)
94#define ADC_INP_AIN5 (0x5 << 3)
95#define ADC_INP_AIN6 (0x6 << 3)
96#define ADC_INP_AIN7 (0x7 << 3)
97#define ADC_PRSCEN 0x4000
98#define ADC_ECFLG 0x800
99
100/* misc */
101
102/* externals */
103extern int memory_post_tests (unsigned long start, unsigned long size);
104extern int i2c_write (uchar, uint, int , uchar* , int);
105extern int i2c_read (uchar, uint, int , uchar* , int);
106extern void tsc2000_reg_init (void);
107extern s32 tsc2000_contact_temp (void);
108extern void spi_init(void);
109
110/* function declarations */
111int do_dip (cmd_tbl_t *cmdtp, int flag, int argc, char *argv[]);
112int do_vcc5v (cmd_tbl_t *cmdtp, int flag, int argc, char *argv[]);
113int do_burn_in (cmd_tbl_t *cmdtp, int flag, int argc, char *argv[]);
114int do_contact_temp (cmd_tbl_t *cmdtp, int flag, int argc, char *argv[]);
115int do_burn_in_status (cmd_tbl_t *cmdtp, int flag, int argc, char *argv[]);
wdenkf54ebdf2003-09-17 15:10:32 +0000116int i2c_write_multiple (uchar chip, uint addr, int alen,
117 uchar *buffer, int len);
118int i2c_read_multiple (uchar chip, uint addr, int alen,
119 uchar *buffer, int len);
wdenk4f7cb082003-09-11 23:06:34 +0000120
121/* helper functions */
122static void adc_init (void);
123static int adc_read (unsigned int channel);
124static int read_dip (void);
125static int read_vcc5v (void);
126static int test_dip (void);
127static int test_vcc5v (void);
128static int test_rotary_switch (void);
129static int test_sram (void);
130static int test_eeprom (void);
131static int test_contact_temp (void);
wdenk4f7cb082003-09-11 23:06:34 +0000132static void led_set (unsigned int);
133static void led_blink (void);
134static void led_init (void);
135static void sdelay (unsigned long seconds); /* delay in seconds */
136static int dummy (void);
137static int read_max_cycles(void);
138static void test_function_table_init (void);
139static void global_vars_init (void);
140static int global_vars_write_to_eeprom (void);
141
142/* globals */
143u16 max_cycles;
144u8 status;
145u16 pass_cycles;
146u16 first_error_cycle;
147u8 first_error_num;
148unsigned char first_error_name[16];
149u16 act_cycle;
150
151typedef struct test_function_s {
152 unsigned char *name;
wdenka0ff7f22003-10-09 13:16:55 +0000153 int (*pf)(void);
wdenk4f7cb082003-09-11 23:06:34 +0000154} test_function_t;
155
156/* max number of Burn In Functions */
157#define BIF_MAX 6
158
159/* table with burn in functions */
160test_function_t test_function[BIF_MAX];
161
162
163int do_burn_in (cmd_tbl_t *cmdtp, int flag, int argc, char *argv[])
164{
wdenka0ff7f22003-10-09 13:16:55 +0000165 int i;
166 int cycle_status;
wdenk4f7cb082003-09-11 23:06:34 +0000167
wdenka0ff7f22003-10-09 13:16:55 +0000168 if (argc > 1) {
wdenk4f7cb082003-09-11 23:06:34 +0000169 printf ("Usage:\n%s\n", cmdtp->usage);
170 return 1;
171 }
172
wdenka0ff7f22003-10-09 13:16:55 +0000173 led_init ();
174 global_vars_init ();
175 test_function_table_init ();
wdenk4f7cb082003-09-11 23:06:34 +0000176
wdenka0ff7f22003-10-09 13:16:55 +0000177 if (global_vars_write_to_eeprom () != 0) {
178 printf ("%s: error writing global_vars to eeprom\n",
179 __FUNCTION__);
180 return (1);
181 }
wdenk4f7cb082003-09-11 23:06:34 +0000182
wdenka0ff7f22003-10-09 13:16:55 +0000183 if (read_max_cycles () != 0) {
184 printf ("%s: error reading max_cycles from eeprom\n",
185 __FUNCTION__);
186 return (1);
187 }
wdenk4f7cb082003-09-11 23:06:34 +0000188
wdenka0ff7f22003-10-09 13:16:55 +0000189 if (max_cycles == 0) {
190 printf ("%s: error, burn in max_cycles = 0\n", __FUNCTION__);
191 return (1);
192 }
wdenk4f7cb082003-09-11 23:06:34 +0000193
wdenka0ff7f22003-10-09 13:16:55 +0000194 status = 0;
195 for (act_cycle = 1; act_cycle <= max_cycles; act_cycle++) {
wdenk4f7cb082003-09-11 23:06:34 +0000196
wdenka0ff7f22003-10-09 13:16:55 +0000197 cycle_status = 0;
wdenk4f7cb082003-09-11 23:06:34 +0000198
wdenka0ff7f22003-10-09 13:16:55 +0000199 /*
200 * avoid timestamp overflow problem after about 68 minutes of
201 * udelay() time.
202 */
203 reset_timer_masked ();
204 for (i = 0; i < BIF_MAX; i++) {
wdenk4f7cb082003-09-11 23:06:34 +0000205
wdenka0ff7f22003-10-09 13:16:55 +0000206 /* call test function */
207 if ((*test_function[i].pf)() != 0) {
208 printf ("error in %s test\n",
209 test_function[i].name);
wdenk4f7cb082003-09-11 23:06:34 +0000210
wdenka0ff7f22003-10-09 13:16:55 +0000211 /* is it the first error? */
212 if (status == 0) {
213 status = 1;
214 first_error_cycle = act_cycle;
wdenk4f7cb082003-09-11 23:06:34 +0000215
wdenka0ff7f22003-10-09 13:16:55 +0000216 /* do not use error_num 0 */
217 first_error_num = i+1;
218 strncpy (first_error_name,
219 test_function[i].name,
220 sizeof (first_error_name));
221 led_set (0);
222 }
223 cycle_status = 1;
224 }
225 }
226 /* were all tests of actual cycle OK? */
227 if (cycle_status == 0)
228 pass_cycles++;
wdenk4f7cb082003-09-11 23:06:34 +0000229
wdenka0ff7f22003-10-09 13:16:55 +0000230 /* set status LED if no error is occoured since yet */
231 if (status == 0)
232 led_set (1);
wdenk4f7cb082003-09-11 23:06:34 +0000233
wdenka0ff7f22003-10-09 13:16:55 +0000234 printf ("%s: cycle %d finished\n", __FUNCTION__, act_cycle);
wdenk4f7cb082003-09-11 23:06:34 +0000235
wdenka0ff7f22003-10-09 13:16:55 +0000236 /* pause between cycles */
237 sdelay (BURN_IN_CYCLE_DELAY);
238 }
wdenk4f7cb082003-09-11 23:06:34 +0000239
wdenka0ff7f22003-10-09 13:16:55 +0000240 if (global_vars_write_to_eeprom () != 0) {
241 led_set (0);
242 printf ("%s: error writing global_vars to eeprom\n",
243 __FUNCTION__);
244 status = 1;
245 }
246
247 if (status == 0) {
248 led_blink (); /* endless loop!! */
249 return (0);
250 } else {
251 led_set (0);
252 return (1);
253 }
wdenk4f7cb082003-09-11 23:06:34 +0000254}
255
256U_BOOT_CMD(
wdenka0ff7f22003-10-09 13:16:55 +0000257 burn_in, 1, 1, do_burn_in,
258 "burn_in - start burn-in test application on TRAB\n",
259 "\n"
260 " - start burn-in test application\n"
261 " The burn-in test could took a while to finish!\n"
262 " The content of the onboard EEPROM is modified!\n"
wdenk4f7cb082003-09-11 23:06:34 +0000263);
264
265
266int do_dip (cmd_tbl_t *cmdtp, int flag, int argc, char *argv[])
267{
wdenka0ff7f22003-10-09 13:16:55 +0000268 int i, dip;
wdenk4f7cb082003-09-11 23:06:34 +0000269
wdenka0ff7f22003-10-09 13:16:55 +0000270 if (argc > 1) {
wdenk4f7cb082003-09-11 23:06:34 +0000271 printf ("Usage:\n%s\n", cmdtp->usage);
272 return 1;
273 }
274
wdenka0ff7f22003-10-09 13:16:55 +0000275 if ((dip = read_dip ()) == -1) {
276 return 1;
277 }
wdenk4f7cb082003-09-11 23:06:34 +0000278
wdenka0ff7f22003-10-09 13:16:55 +0000279 for (i = 0; i < 4; i++) {
280 if ((dip & (1 << i)) == 0)
281 printf("0");
282 else
283 printf("1");
284 }
285 printf("\n");
wdenk4f7cb082003-09-11 23:06:34 +0000286
287 return 0;
288}
289
290U_BOOT_CMD(
wdenka0ff7f22003-10-09 13:16:55 +0000291 dip, 1, 1, do_dip,
292 "dip - read dip switch on TRAB\n",
293 "\n"
294 " - read state of dip switch (S1) on TRAB board\n"
295 " read sequence: 1-2-3-4; ON=1; OFF=0; e.g.: \"0100\"\n"
wdenk4f7cb082003-09-11 23:06:34 +0000296);
297
298
299int do_vcc5v (cmd_tbl_t *cmdtp, int flag, int argc, char *argv[])
300{
wdenka0ff7f22003-10-09 13:16:55 +0000301 int vcc5v;
wdenk4f7cb082003-09-11 23:06:34 +0000302
wdenka0ff7f22003-10-09 13:16:55 +0000303 if (argc > 1) {
wdenk4f7cb082003-09-11 23:06:34 +0000304 printf ("Usage:\n%s\n", cmdtp->usage);
305 return 1;
306 }
307
wdenka0ff7f22003-10-09 13:16:55 +0000308 if ((vcc5v = read_vcc5v ()) == -1) {
309 return (1);
310 }
wdenk4f7cb082003-09-11 23:06:34 +0000311
wdenka0ff7f22003-10-09 13:16:55 +0000312 printf ("%d", (vcc5v / 1000));
313 printf (".%d", (vcc5v % 1000) / 100);
314 printf ("%d V\n", (vcc5v % 100) / 10) ;
wdenk4f7cb082003-09-11 23:06:34 +0000315
316 return 0;
317}
318
319U_BOOT_CMD(
wdenka0ff7f22003-10-09 13:16:55 +0000320 vcc5v, 1, 1, do_vcc5v,
321 "vcc5v - read VCC5V on TRAB\n",
322 "\n"
323 " - read actual value of voltage VCC5V\n"
wdenk4f7cb082003-09-11 23:06:34 +0000324);
325
326
327int do_contact_temp (cmd_tbl_t *cmdtp, int flag, int argc, char *argv[])
328{
wdenka0ff7f22003-10-09 13:16:55 +0000329 int contact_temp;
wdenk4f7cb082003-09-11 23:06:34 +0000330
wdenka0ff7f22003-10-09 13:16:55 +0000331 if (argc > 1) {
wdenk4f7cb082003-09-11 23:06:34 +0000332 printf ("Usage:\n%s\n", cmdtp->usage);
333 return 1;
334 }
335
wdenka0ff7f22003-10-09 13:16:55 +0000336 spi_init ();
337 tsc2000_reg_init ();
wdenk4f7cb082003-09-11 23:06:34 +0000338
wdenka0ff7f22003-10-09 13:16:55 +0000339 contact_temp = tsc2000_contact_temp();
340 printf ("%d degree C * 100\n", contact_temp) ;
wdenk4f7cb082003-09-11 23:06:34 +0000341
342 return 0;
343}
344
345U_BOOT_CMD(
wdenka0ff7f22003-10-09 13:16:55 +0000346 c_temp, 1, 1, do_contact_temp,
347 "c_temp - read contact temperature on TRAB\n",
348 "\n"
349 " - reads the onboard temperature (=contact temperature)\n"
wdenk4f7cb082003-09-11 23:06:34 +0000350);
351
352
353int do_burn_in_status (cmd_tbl_t *cmdtp, int flag, int argc, char *argv[])
354{
wdenka0ff7f22003-10-09 13:16:55 +0000355 if (argc > 1) {
wdenk4f7cb082003-09-11 23:06:34 +0000356 printf ("Usage:\n%s\n", cmdtp->usage);
357 return 1;
358 }
359
wdenka0ff7f22003-10-09 13:16:55 +0000360 if (i2c_read_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_STATUS, 1,
361 (unsigned char*) &status, 1)) {
362 return (1);
363 }
364 if (i2c_read_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_PASS_CYCLES, 1,
365 (unsigned char*) &pass_cycles, 2)) {
366 return (1);
367 }
368 if (i2c_read_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_FIRST_ERROR_CYCLE,
369 1, (unsigned char*) &first_error_cycle, 2)) {
370 return (1);
371 }
372 if (i2c_read_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_FIRST_ERROR_NUM,
373 1, (unsigned char*) &first_error_num, 1)) {
374 return (1);
375 }
376 if (i2c_read_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_FIRST_ERROR_NAME,
377 1, first_error_name,
378 sizeof (first_error_name))) {
379 return (1);
380 }
wdenk4f7cb082003-09-11 23:06:34 +0000381
wdenka0ff7f22003-10-09 13:16:55 +0000382 if (read_max_cycles () != 0) {
383 return (1);
384 }
wdenk4f7cb082003-09-11 23:06:34 +0000385
wdenka0ff7f22003-10-09 13:16:55 +0000386 printf ("max_cycles = %d\n", max_cycles);
387 printf ("status = %d\n", status);
388 printf ("pass_cycles = %d\n", pass_cycles);
389 printf ("first_error_cycle = %d\n", first_error_cycle);
390 printf ("first_error_num = %d\n", first_error_num);
391 printf ("first_error_name = %.*s\n",(int) sizeof(first_error_name),
392 first_error_name);
wdenk4f7cb082003-09-11 23:06:34 +0000393
394 return 0;
395}
396
397U_BOOT_CMD(
wdenka0ff7f22003-10-09 13:16:55 +0000398 bis, 1, 1, do_burn_in_status,
399 "bis - print burn in status on TRAB\n",
400 "\n"
401 " - prints the status variables of the last burn in test\n"
402 " stored in the onboard EEPROM on TRAB board\n"
wdenk4f7cb082003-09-11 23:06:34 +0000403);
404
405static int read_dip (void)
406{
wdenka0ff7f22003-10-09 13:16:55 +0000407 unsigned int result = 0;
408 int adc_val;
409 int i;
wdenk4f7cb082003-09-11 23:06:34 +0000410
411 /***********************************************************
412 DIP switch connection (according to wa4-cpu.sp.301.pdf, page 3):
413 SW1 - AIN4
414 SW2 - AIN5
415 SW3 - AIN6
416 SW4 - AIN7
417
418 "On" DIP switch position short-circuits the voltage from
419 the input channel (i.e. '0' conversion result means "on").
420 *************************************************************/
421
422 for (i = 7; i > 3; i--) {
423
wdenka0ff7f22003-10-09 13:16:55 +0000424 if ((adc_val = adc_read (i)) == -1) {
425 printf ("%s: Channel %d could not be read\n",
426 __FUNCTION__, i);
427 return (-1);
428 }
wdenk4f7cb082003-09-11 23:06:34 +0000429
430 /*
431 * Input voltage (switch open) is 1.8 V.
432 * (Vin_High/VRef)*adc_res = (1,8V/2,5V)*1023) = 736
433 * Set trigger at halve that value.
434 */
435 if (adc_val < 368)
wdenka0ff7f22003-10-09 13:16:55 +0000436 result |= (1 << (i-4));
437 }
438 return (result);
wdenk4f7cb082003-09-11 23:06:34 +0000439}
440
441
442static int read_vcc5v (void)
443{
wdenka0ff7f22003-10-09 13:16:55 +0000444 s32 result;
wdenk4f7cb082003-09-11 23:06:34 +0000445
wdenka0ff7f22003-10-09 13:16:55 +0000446 /* VCC5V is connected to channel 2 */
wdenk4f7cb082003-09-11 23:06:34 +0000447
wdenka0ff7f22003-10-09 13:16:55 +0000448 if ((result = adc_read (2)) == -1) {
449 printf ("%s: VCC5V could not be read\n", __FUNCTION__);
450 return (-1);
451 }
452 /*
453 * Calculate voltage value. Split in two parts because there is no
454 * floating point support. VCC5V is connected over an resistor divider:
455 * VCC5V=ADCval*2,5V/1023*(10K+30K)/10K.
456 */
457 result = result * 10 * 1000 / 1023; /* result in mV */
wdenk4f7cb082003-09-11 23:06:34 +0000458
wdenka0ff7f22003-10-09 13:16:55 +0000459 return (result);
wdenk4f7cb082003-09-11 23:06:34 +0000460}
461
462
463static int test_dip (void)
464{
wdenka0ff7f22003-10-09 13:16:55 +0000465 static int first_run = 1;
466 static int first_dip;
wdenk4f7cb082003-09-11 23:06:34 +0000467
wdenka0ff7f22003-10-09 13:16:55 +0000468 if (first_run) {
469 if ((first_dip = read_dip ()) == -1) {
470 return (1);
471 }
472 first_run = 0;
473 debug ("%s: first_dip=%d\n", __FUNCTION__, first_dip);
474 }
475 if (first_dip != read_dip ()) {
476 return (1);
477 } else {
478 return (0);
479 }
wdenk4f7cb082003-09-11 23:06:34 +0000480}
481
482
483static int test_vcc5v (void)
484{
wdenka0ff7f22003-10-09 13:16:55 +0000485 int vcc5v;
wdenk4f7cb082003-09-11 23:06:34 +0000486
wdenka0ff7f22003-10-09 13:16:55 +0000487 if ((vcc5v = read_vcc5v ()) == -1) {
488 return (1);
489 }
wdenk4f7cb082003-09-11 23:06:34 +0000490
wdenka0ff7f22003-10-09 13:16:55 +0000491 if ((vcc5v > VCC5V_MAX) || (vcc5v < VCC5V_MIN)) {
492 printf ("%s: vcc5v[V/100]=%d\n", __FUNCTION__, vcc5v);
493 return (1);
494 } else {
495 return (0);
496 }
wdenk4f7cb082003-09-11 23:06:34 +0000497}
498
499
500static int test_rotary_switch (void)
501{
wdenka0ff7f22003-10-09 13:16:55 +0000502 static int first_run = 1;
503 static int first_rs;
wdenk4f7cb082003-09-11 23:06:34 +0000504
wdenka0ff7f22003-10-09 13:16:55 +0000505 if (first_run) {
506 /*
507 * clear bits in CPLD, because they have random values after
508 * power-up or reset.
509 */
510 *CPLD_ROTARY_SWITCH |= (1 << 16) | (1 << 17);
wdenk4f7cb082003-09-11 23:06:34 +0000511
wdenka0ff7f22003-10-09 13:16:55 +0000512 first_rs = ((*CPLD_ROTARY_SWITCH >> 16) & 0x7);
513 first_run = 0;
514 debug ("%s: first_rs=%d\n", __FUNCTION__, first_rs);
515 }
wdenk4f7cb082003-09-11 23:06:34 +0000516
wdenka0ff7f22003-10-09 13:16:55 +0000517 if (first_rs != ((*CPLD_ROTARY_SWITCH >> 16) & 0x7)) {
518 return (1);
519 } else {
520 return (0);
521 }
wdenk4f7cb082003-09-11 23:06:34 +0000522}
523
524
525static int test_sram (void)
526{
wdenka0ff7f22003-10-09 13:16:55 +0000527 return (memory_post_tests (SRAM_ADDR, SRAM_SIZE));
wdenk4f7cb082003-09-11 23:06:34 +0000528}
529
530
531static int test_eeprom (void)
532{
wdenka0ff7f22003-10-09 13:16:55 +0000533 unsigned char temp[sizeof (EEPROM_TEST_STRING_1)];
534 int result = 0;
wdenk4f7cb082003-09-11 23:06:34 +0000535
wdenka0ff7f22003-10-09 13:16:55 +0000536 /* write test string 1, read back and verify */
537 if (i2c_write_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_TEST, 1,
538 EEPROM_TEST_STRING_1,
539 sizeof (EEPROM_TEST_STRING_1))) {
540 return (1);
541 }
wdenk4f7cb082003-09-11 23:06:34 +0000542
wdenka0ff7f22003-10-09 13:16:55 +0000543 if (i2c_read_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_TEST, 1,
544 temp, sizeof (EEPROM_TEST_STRING_1))) {
545 return (1);
546 }
wdenk4f7cb082003-09-11 23:06:34 +0000547
wdenka0ff7f22003-10-09 13:16:55 +0000548 if (strcmp (temp, EEPROM_TEST_STRING_1) != 0) {
549 result = 1;
550 printf ("%s: error; read_str = \"%s\"\n", __FUNCTION__, temp);
551 }
wdenk4f7cb082003-09-11 23:06:34 +0000552
wdenka0ff7f22003-10-09 13:16:55 +0000553 /* write test string 2, read back and verify */
554 if (result == 0) {
555 if (i2c_write_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_TEST, 1,
556 EEPROM_TEST_STRING_2,
557 sizeof (EEPROM_TEST_STRING_2))) {
558 return (1);
559 }
wdenk4f7cb082003-09-11 23:06:34 +0000560
wdenka0ff7f22003-10-09 13:16:55 +0000561 if (i2c_read_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_TEST, 1,
562 temp, sizeof (EEPROM_TEST_STRING_2))) {
563 return (1);
564 }
wdenk4f7cb082003-09-11 23:06:34 +0000565
wdenka0ff7f22003-10-09 13:16:55 +0000566 if (strcmp (temp, EEPROM_TEST_STRING_2) != 0) {
567 result = 1;
568 printf ("%s: error; read str = \"%s\"\n",
569 __FUNCTION__, temp);
570 }
571 }
572 return (result);
wdenk4f7cb082003-09-11 23:06:34 +0000573}
574
575
576static int test_contact_temp (void)
577{
wdenka0ff7f22003-10-09 13:16:55 +0000578 int contact_temp;
wdenk4f7cb082003-09-11 23:06:34 +0000579
wdenka0ff7f22003-10-09 13:16:55 +0000580 spi_init ();
581 contact_temp = tsc2000_contact_temp ();
wdenk4f7cb082003-09-11 23:06:34 +0000582
wdenka0ff7f22003-10-09 13:16:55 +0000583 if ((contact_temp < MIN_CONTACT_TEMP)
584 || (contact_temp > MAX_CONTACT_TEMP))
585 return (1);
586 else
587 return (0);
wdenk4f7cb082003-09-11 23:06:34 +0000588}
589
590
wdenkf54ebdf2003-09-17 15:10:32 +0000591int i2c_write_multiple (uchar chip, uint addr, int alen,
592 uchar *buffer, int len)
wdenk4f7cb082003-09-11 23:06:34 +0000593{
wdenka0ff7f22003-10-09 13:16:55 +0000594 int i;
wdenk4f7cb082003-09-11 23:06:34 +0000595
wdenka0ff7f22003-10-09 13:16:55 +0000596 if (alen != 1) {
597 printf ("%s: addr len other than 1 not supported\n",
598 __FUNCTION__);
599 return (1);
600 }
wdenk4f7cb082003-09-11 23:06:34 +0000601
wdenka0ff7f22003-10-09 13:16:55 +0000602 for (i = 0; i < len; i++) {
603 if (i2c_write (chip, addr+i, alen, buffer+i, 1)) {
604 printf ("%s: could not write to i2c device %d"
605 ", addr %d\n", __FUNCTION__, chip, addr);
606 return (1);
607 }
wdenk4f7cb082003-09-11 23:06:34 +0000608#if 0
wdenka0ff7f22003-10-09 13:16:55 +0000609 printf ("chip=%#x, addr+i=%#x+%d=%p, alen=%d, *buffer+i="
610 "%#x+%d=%p=\"%.1s\"\n", chip, addr, i, addr+i,
611 alen, buffer, i, buffer+i, buffer+i);
wdenk4f7cb082003-09-11 23:06:34 +0000612#endif
613
wdenka0ff7f22003-10-09 13:16:55 +0000614 udelay (30000);
615 }
616 return (0);
wdenk4f7cb082003-09-11 23:06:34 +0000617}
618
619
wdenkf54ebdf2003-09-17 15:10:32 +0000620int i2c_read_multiple ( uchar chip, uint addr, int alen,
621 uchar *buffer, int len)
wdenk4f7cb082003-09-11 23:06:34 +0000622{
wdenka0ff7f22003-10-09 13:16:55 +0000623 int i;
wdenk4f7cb082003-09-11 23:06:34 +0000624
wdenka0ff7f22003-10-09 13:16:55 +0000625 if (alen != 1) {
626 printf ("%s: addr len other than 1 not supported\n",
627 __FUNCTION__);
628 return (1);
629 }
wdenk4f7cb082003-09-11 23:06:34 +0000630
wdenka0ff7f22003-10-09 13:16:55 +0000631 for (i = 0; i < len; i++) {
632 if (i2c_read (chip, addr+i, alen, buffer+i, 1)) {
633 printf ("%s: could not read from i2c device %#x"
634 ", addr %d\n", __FUNCTION__, chip, addr);
635 return (1);
636 }
637 }
638 return (0);
wdenk4f7cb082003-09-11 23:06:34 +0000639}
640
641
642static int adc_read (unsigned int channel)
643{
wdenka0ff7f22003-10-09 13:16:55 +0000644 int j = 1000; /* timeout value for wait loop in us */
645 int result;
646 S3C2400_ADC *padc;
wdenk4f7cb082003-09-11 23:06:34 +0000647
wdenka0ff7f22003-10-09 13:16:55 +0000648 padc = S3C2400_GetBase_ADC();
649 channel &= 0x7;
wdenk4f7cb082003-09-11 23:06:34 +0000650
wdenka0ff7f22003-10-09 13:16:55 +0000651 adc_init ();
wdenk4f7cb082003-09-11 23:06:34 +0000652
wdenka0ff7f22003-10-09 13:16:55 +0000653 padc->ADCCON &= ~ADC_STDBM; /* select normal mode */
wdenk4f7cb082003-09-11 23:06:34 +0000654 padc->ADCCON &= ~(0x7 << 3); /* clear the channel bits */
wdenka0ff7f22003-10-09 13:16:55 +0000655 padc->ADCCON |= ((channel << 3) | ADC_ENABLE_START);
wdenk4f7cb082003-09-11 23:06:34 +0000656
wdenka0ff7f22003-10-09 13:16:55 +0000657 while (j--) {
658 if ((padc->ADCCON & ADC_ENABLE_START) == 0)
659 break;
660 udelay (1);
661 }
wdenk4f7cb082003-09-11 23:06:34 +0000662
wdenka0ff7f22003-10-09 13:16:55 +0000663 if (j == 0) {
664 printf("%s: ADC timeout\n", __FUNCTION__);
665 padc->ADCCON |= ADC_STDBM; /* select standby mode */
666 return -1;
667 }
wdenk4f7cb082003-09-11 23:06:34 +0000668
wdenka0ff7f22003-10-09 13:16:55 +0000669 result = padc->ADCDAT & 0x3FF;
wdenk4f7cb082003-09-11 23:06:34 +0000670
wdenka0ff7f22003-10-09 13:16:55 +0000671 padc->ADCCON |= ADC_STDBM; /* select standby mode */
wdenk4f7cb082003-09-11 23:06:34 +0000672
wdenka0ff7f22003-10-09 13:16:55 +0000673 debug ("%s: channel %d, result[DIGIT]=%d\n", __FUNCTION__,
674 (padc->ADCCON >> 3) & 0x7, result);
wdenk4f7cb082003-09-11 23:06:34 +0000675
wdenka0ff7f22003-10-09 13:16:55 +0000676 /*
677 * Wait for ADC to be ready for next conversion. This delay value was
678 * estimated, because the datasheet does not specify a value.
679 */
680 udelay (1000);
681
682 return (result);
wdenk4f7cb082003-09-11 23:06:34 +0000683}
684
685
686static void adc_init (void)
687{
wdenka0ff7f22003-10-09 13:16:55 +0000688 S3C2400_ADC *padc;
wdenk4f7cb082003-09-11 23:06:34 +0000689
wdenka0ff7f22003-10-09 13:16:55 +0000690 padc = S3C2400_GetBase_ADC();
wdenk4f7cb082003-09-11 23:06:34 +0000691
692 padc->ADCCON &= ~(0xff << 6); /* clear prescaler bits */
693 padc->ADCCON |= ((65 << 6) | ADC_PRSCEN); /* set prescaler */
694
wdenka0ff7f22003-10-09 13:16:55 +0000695 /*
696 * Wait some time to avoid problem with very first call of
697 * adc_read(). Without this delay, sometimes the first read
698 * adc value is 0. Perhaps because the adjustment of prescaler
699 * takes some clock cycles?
700 */
701 udelay (1000);
702
703 return;
wdenk4f7cb082003-09-11 23:06:34 +0000704}
705
706
707static void led_set (unsigned int state)
708{
wdenka0ff7f22003-10-09 13:16:55 +0000709 S3C24X0_GPIO * const gpio = S3C24X0_GetBase_GPIO();
wdenk4f7cb082003-09-11 23:06:34 +0000710
wdenka0ff7f22003-10-09 13:16:55 +0000711 led_init ();
wdenk4f7cb082003-09-11 23:06:34 +0000712
wdenka0ff7f22003-10-09 13:16:55 +0000713 switch (state) {
714 case 0: /* turn LED off */
715 gpio->PADAT |= (1 << 12);
716 break;
717 case 1: /* turn LED on */
718 gpio->PADAT &= ~(1 << 12);
719 break;
720 default:
721 }
wdenk4f7cb082003-09-11 23:06:34 +0000722}
723
724static void led_blink (void)
725{
wdenka0ff7f22003-10-09 13:16:55 +0000726 led_init ();
wdenk4f7cb082003-09-11 23:06:34 +0000727
wdenka0ff7f22003-10-09 13:16:55 +0000728 /* blink LED. This function does not return! */
729 while (1) {
730 led_set (1);
731 udelay (1000000 / LED_BLINK_FREQ / 2);
732 led_set (0);
733 udelay (1000000 / LED_BLINK_FREQ / 2);
734 }
wdenk4f7cb082003-09-11 23:06:34 +0000735}
736
737
738static void led_init (void)
739{
wdenka0ff7f22003-10-09 13:16:55 +0000740 S3C24X0_GPIO * const gpio = S3C24X0_GetBase_GPIO();
wdenk4f7cb082003-09-11 23:06:34 +0000741
wdenka0ff7f22003-10-09 13:16:55 +0000742 /* configure GPA12 as output and set to High -> LED off */
743 gpio->PACON &= ~(1 << 12);
744 gpio->PADAT |= (1 << 12);
wdenk4f7cb082003-09-11 23:06:34 +0000745}
746
747
748static void sdelay (unsigned long seconds)
749{
wdenka0ff7f22003-10-09 13:16:55 +0000750 unsigned long i;
wdenk4f7cb082003-09-11 23:06:34 +0000751
wdenka0ff7f22003-10-09 13:16:55 +0000752 for (i = 0; i < seconds; i++) {
753 udelay (1000000);
754 }
wdenk4f7cb082003-09-11 23:06:34 +0000755}
756
757
758static int global_vars_write_to_eeprom (void)
759{
wdenka0ff7f22003-10-09 13:16:55 +0000760 if (i2c_write_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_STATUS, 1,
761 (unsigned char*) &status, 1)) {
762 return (1);
763 }
764 if (i2c_write_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_PASS_CYCLES, 1,
765 (unsigned char*) &pass_cycles, 2)) {
766 return (1);
767 }
768 if (i2c_write_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_FIRST_ERROR_CYCLE,
769 1, (unsigned char*) &first_error_cycle, 2)) {
770 return (1);
771 }
772 if (i2c_write_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_FIRST_ERROR_NUM,
773 1, (unsigned char*) &first_error_num, 1)) {
774 return (1);
775 }
776 if (i2c_write_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_FIRST_ERROR_NAME,
777 1, first_error_name,
778 sizeof(first_error_name))) {
779 return (1);
780 }
781 return (0);
wdenk4f7cb082003-09-11 23:06:34 +0000782}
783
784static void global_vars_init (void)
785{
wdenka0ff7f22003-10-09 13:16:55 +0000786 status = 1; /* error */
787 pass_cycles = 0;
788 first_error_cycle = 0;
789 first_error_num = 0;
790 first_error_name[0] = '\0';
791 act_cycle = 0;
792 max_cycles = 0;
wdenk4f7cb082003-09-11 23:06:34 +0000793}
794
795
796static void test_function_table_init (void)
797{
wdenka0ff7f22003-10-09 13:16:55 +0000798 int i;
wdenk4f7cb082003-09-11 23:06:34 +0000799
wdenka0ff7f22003-10-09 13:16:55 +0000800 for (i = 0; i < BIF_MAX; i++)
wdenk4f7cb082003-09-11 23:06:34 +0000801 test_function[i].pf = dummy;
802
wdenka0ff7f22003-10-09 13:16:55 +0000803 /*
804 * the length of "name" must not exceed 16, including the '\0'
805 * termination. See also the EEPROM address map.
806 */
807 test_function[0].pf = test_dip;
808 test_function[0].name = "dip";
wdenk4f7cb082003-09-11 23:06:34 +0000809
wdenka0ff7f22003-10-09 13:16:55 +0000810 test_function[1].pf = test_vcc5v;
811 test_function[1].name = "vcc5v";
wdenk4f7cb082003-09-11 23:06:34 +0000812
wdenka0ff7f22003-10-09 13:16:55 +0000813 test_function[2].pf = test_rotary_switch;
814 test_function[2].name = "rotary_switch";
wdenk4f7cb082003-09-11 23:06:34 +0000815
wdenka0ff7f22003-10-09 13:16:55 +0000816 test_function[3].pf = test_sram;
817 test_function[3].name = "sram";
wdenk4f7cb082003-09-11 23:06:34 +0000818
wdenka0ff7f22003-10-09 13:16:55 +0000819 test_function[4].pf = test_eeprom;
820 test_function[4].name = "eeprom";
wdenk4f7cb082003-09-11 23:06:34 +0000821
wdenka0ff7f22003-10-09 13:16:55 +0000822 test_function[5].pf = test_contact_temp;
823 test_function[5].name = "contact_temp";
wdenk4f7cb082003-09-11 23:06:34 +0000824}
825
826
827static int read_max_cycles (void)
828{
wdenka0ff7f22003-10-09 13:16:55 +0000829 if (i2c_read_multiple (I2C_EEPROM_DEV_ADDR, EE_ADDR_MAX_CYCLES, 1,
830 (unsigned char *) &max_cycles, 2) != 0) {
831 return (1);
832 }
wdenk4f7cb082003-09-11 23:06:34 +0000833
wdenka0ff7f22003-10-09 13:16:55 +0000834 return (0);
wdenk4f7cb082003-09-11 23:06:34 +0000835}
836
837static int dummy(void)
838{
wdenka0ff7f22003-10-09 13:16:55 +0000839 return (0);
wdenk4f7cb082003-09-11 23:06:34 +0000840}
841
842#endif /* CFG_CMD_BSP */