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source: trunk/hal/tsar_mips32/drivers/soclib_sdc.c @ 549

Last change on this file since 549 was 543, checked in by nicolas.van.phan@…, 6 years ago

Add untested bare SDC driver (from giet)

Changes some hard-coded definitions in SD card driver

File size: 13.0 KB

Line
1	///////////////////////////////////////////////////////////////////////////////////
2	// File : sdc_driver.c
3	// Date : 31/08/2012
4	// Author : cesar fuguet
5	// Copyright (c) UPMC-LIP6
6	///////////////////////////////////////////////////////////////////////////////////
7
8	//#include <hard_config.h>
9	#include <soclib_sdc.h>
10	//#include <tty0.h>
11	//#include <utils.h>
12	#include <printk.h>
13
14	#define SYSCLK_FREQ (RESET_SYSTEM_CLK * 1000)
15	#define SDCARD_RESET_ITER_MAX 4
16
17	///////////////////////////////////////////////////////////////////////////////
18	// Global variables
19	///////////////////////////////////////////////////////////////////////////////
20
21	__attribute__((section(".kdata")))
22	static struct sdcard_dev sdcard;
23
24	__attribute__((section(".kdata")))
25	static struct spi_dev* spi;
26
27	///////////////////////////////////////////////////////////////////////////////
28	// This function enables SD Card select signal
29	///////////////////////////////////////////////////////////////////////////////
30	static void _sdc_enable()
31	{
32	spi_ss_assert(sdcard.spi, sdcard.slave_id);
33	}
34
35	///////////////////////////////////////////////////////////////////////////////
36	// This function disables SD Card select signal
37	///////////////////////////////////////////////////////////////////////////////
38	static void _sdc_disable()
39	{
40	spi_ss_deassert(sdcard.spi, sdcard.slave_id);
41	}
42
43	///////////////////////////////////////////////////////////////////////////////
44	// This function writes on the SPI tx register to generate SD card clock ticks
45	// - tick_count: number of ticks to generate (1 tick -> 8 clocks)
46	///////////////////////////////////////////////////////////////////////////////
47	static void _sdc_gen_tick(unsigned int tick_count)
48	{
49	register int i = 0;
50	while(i++ < tick_count) spi_put_tx(sdcard.spi, 0xFF, 0);
51	}
52
53	///////////////////////////////////////////////////////////////////////////////
54	// This function changes the SD card access pointer position in terms of
55	// blocks
56	// - lba: number of logical block to move the pointer
57	///////////////////////////////////////////////////////////////////////////////
58	void _sdc_lseek(unsigned int lba)
59	{
60	sdcard.access_pointer = sdcard.block_length * lba;
61	}
62
63	///////////////////////////////////////////////////////////////////////////////
64	// This function gets a byte from the SD card
65	///////////////////////////////////////////////////////////////////////////////
66	static unsigned char _sdc_receive_char()
67	{
68	_sdc_gen_tick(1);
69
70	return spi_get_rx(sdcard.spi, 0);
71	}
72
73	///////////////////////////////////////////////////////////////////////////////
74	// This function returns when a valid response from the SD card is received or
75	// a timeout has been triggered
76	// Returns the SD card response value
77	///////////////////////////////////////////////////////////////////////////////
78	static unsigned char _sdc_wait_response()
79	{
80	unsigned char sdcard_rsp;
81	register int iter;
82
83	iter = 0;
84	sdcard_rsp = _sdc_receive_char();
85	while (
86	(iter < SDCARD_COMMAND_TIMEOUT) &&
87	!SDCARD_CHECK_R1_VALID(sdcard_rsp)
88	)
89	{
90	sdcard_rsp = _sdc_receive_char();
91	iter++;
92	}
93
94	return sdcard_rsp;
95	}
96
97	///////////////////////////////////////////////////////////////////////////////
98	// This function returns when a data block from the SD card is received (data
99	// block start marker received).
100	// It must be called after a read command
101	///////////////////////////////////////////////////////////////////////////////
102	static void _sdc_wait_data_block()
103	{
104	while (_sdc_receive_char() != 0xFE);
105	}
106
107	///////////////////////////////////////////////////////////////////////////////
108	// This function sends a command to the SD card
109	// - index: CMD index
110	// - app: type of command
111	// - args: CMD arguments vector
112	// - crc7: CRC (7 bits) to send
113	///////////////////////////////////////////////////////////////////////////////
114	static int _sdc_send_command ( int index,
115	int app ,
116	void * args ,
117	unsigned crc7 )
118	{
119	unsigned char sdcard_rsp;
120	unsigned char * _args;
121
122	_sdc_gen_tick(5);
123
124	if (app == SDCARD_ACMD)
125	{
126	spi_put_tx(sdcard.spi, 0x40 \| 55 , 0 );// CMD and START bit
127	spi_put_tx(sdcard.spi, 0x00 , 0 );// Argument[0]
128	spi_put_tx(sdcard.spi, 0x00 , 0 );// Argument[1]
129	spi_put_tx(sdcard.spi, 0x00 , 0 );// Argument[2]
130	spi_put_tx(sdcard.spi, 0x00 , 0 );// Argument[3]
131	spi_put_tx(sdcard.spi, 0x01 \| (crc7 << 1), 0 );// END bit
132
133	sdcard_rsp = _sdc_wait_response();
134	if (SDCARD_CHECK_R1_ERROR(sdcard_rsp))
135	{
136	return sdcard_rsp;
137	}
138	}
139
140	_args = (unsigned char *) args;
141
142	_sdc_gen_tick(1);
143
144	spi_put_tx(sdcard.spi, 0x40 \| index , 0 );
145	spi_put_tx(sdcard.spi, _args[0] , 0 );
146	spi_put_tx(sdcard.spi, _args[1] , 0 );
147	spi_put_tx(sdcard.spi, _args[2] , 0 );
148	spi_put_tx(sdcard.spi, _args[3] , 0 );
149	spi_put_tx(sdcard.spi, 0x01 \| (crc7 << 1), 0 );
150
151	return _sdc_wait_response();
152	}
153
154	///////////////////////////////////////////////////////////////////////////////
155	// This function initializes the SD card (reset procedure)
156	// - channel: channel index (only channel 0 is supported)
157	// Returns 0 if success, other value if failure
158	///////////////////////////////////////////////////////////////////////////////
159	static int _sdc_open( unsigned int channel )
160	{
161	unsigned char args[4];
162	unsigned char sdcard_rsp;
163	unsigned int iter, ersp;
164
165	sdcard.spi = spi;
166	sdcard.slave_id = channel;
167
168	// supply SD card ramp up time (min 74 cycles)
169	_sdc_gen_tick(10);
170
171	// Assert slave select signal
172	// Send CMD0 (Reset Command)
173	// Deassert slave select signal
174	_sdc_enable();
175
176	args[0] = 0;
177	args[1] = 0;
178	args[2] = 0;
179	args[3] = 0;
180	sdcard_rsp = _sdc_send_command(0, SDCARD_CMD, args, 0x4A);
181
182	if ( sdcard_rsp != 0x01 )
183	{
184	printk("[SDC ERROR] card CMD0 failed\n");
185	return sdcard_rsp;
186	}
187
188	_sdc_disable();
189
190	// send CMD8. If card is pre-v2, It will reply with illegal command.
191	// Otherwise we announce sdhc support.
192	_sdc_enable();
193	args[0] = 0;
194	args[1] = 0;
195	args[2] = 0x01;
196	args[3] = 0x01;
197	sdcard_rsp = _sdc_send_command(8, SDCARD_CMD, args, 0x63);
198	if (!SDCARD_CHECK_R1_VALID(sdcard_rsp))
199	{
200	printk("[SDC ERROR] card CMD8 failed\n");
201	return sdcard_rsp;
202	}
203	if (!SDCARD_CHECK_R1_ERROR(sdcard_rsp))
204	{
205	// no error, command accepted. get whole reply
206	ersp = _sdc_receive_char();
207	ersp = (ersp << 8) \| _sdc_receive_char();
208	ersp = (ersp << 8) \| _sdc_receive_char();
209	ersp = (ersp << 8) \| _sdc_receive_char();
210	if ((ersp & 0xffff) != 0x0101)
211	{
212	// voltage mismatch
213	printk("[SDC ERROR] card CMD8 mismatch : ersp = %x\n");
214	return sdcard_rsp;
215	}
216	printk("[SDC WARNING] v2 or later ");
217	sdcard.sdhc = 1;
218	}
219	else if ((sdcard_rsp & SDCARD_R1_ILLEGAL_CMD) == 0)
220	{
221	// other error
222	printk("[SDC ERROR] card CMD8 error\n");
223	return sdcard_rsp;
224	}
225	else
226	{
227	sdcard.sdhc = 0;
228	}
229	_sdc_disable();
230
231	// send CMD41, enabling the card
232	_sdc_enable();
233	args[0] = sdcard.sdhc ? 0x40: 0;
234	args[1] = 0;
235	args[2] = 0;
236	args[3] = 0;
237
238	iter = 0;
239	while( iter++ < SDCARD_COMMAND_TIMEOUT )
240	{
241	sdcard_rsp = _sdc_send_command(41, SDCARD_ACMD, args, 0x00);
242	if( sdcard_rsp == 0x01 )
243	{
244	continue;
245	}
246
247	break;
248	}
249
250	_sdc_disable();
251	if (sdcard_rsp)
252	{
253	printk("[SDC ERROR] ACMD41 failed\n");
254	return sdcard_rsp;
255	}
256	if (sdcard.sdhc != 0)
257	{
258	// get the card capacity to see if it's really HC
259	_sdc_enable();
260	args[0] = sdcard.sdhc ? 0x40: 0;
261	args[1] = 0;
262	args[2] = 0;
263	args[3] = 0;
264	sdcard_rsp = _sdc_send_command(58, SDCARD_CMD, args, 0x00);
265	if (sdcard_rsp)
266	{
267	printk("[SDC ERROR] CMD58 failed\n");
268	return sdcard_rsp;
269	}
270	ersp = _sdc_receive_char();
271	ersp = (ersp << 8) \| _sdc_receive_char();
272	ersp = (ersp << 8) \| _sdc_receive_char();
273	ersp = (ersp << 8) \| _sdc_receive_char();
274	if (ersp & 0x40000000)
275	{
276	printk(" SDHC ");
277	}
278	else
279	{
280	sdcard.sdhc = 0;
281	}
282	_sdc_disable();
283	}
284	printk("card detected\n");
285	return 0;
286	}
287
288	///////////////////////////////////////////////////////////////////////////////
289	// This function sets the block size in the SD card.
290	// - len: block size in bytes (only 512 bytes supported)
291	// Returns 0 if success, other value if failure
292	///////////////////////////////////////////////////////////////////////////////
293	static unsigned int _sdc_set_block_size(unsigned int len)
294	{
295	unsigned char args[4];
296	unsigned char sdcard_rsp;
297	register int i;
298
299	// For now, supported block size is 512 bytes
300	if (len != 512) return 1;
301
302	// When using high capacity SDCARD, the block_length is not a number of bytes
303	// but a number of blocks (transfer unit)
304	if (sdcard.sdhc)
305	{
306	sdcard.block_length = len / 512;
307	return 0;
308	}
309
310	for (i = 0; i < 4; i++)
311	{
312	args[i] = (len >> (32 - (i+1)*8)) & 0xFF;
313	}
314
315	_sdc_enable();
316
317	sdcard_rsp = _sdc_send_command(16, SDCARD_CMD, args, 0x00);
318	if ( SDCARD_CHECK_R1_ERROR(sdcard_rsp) )
319	{
320	_sdc_disable();
321	return sdcard_rsp;
322	}
323
324	_sdc_disable();
325
326	sdcard.block_length = len;
327
328	return 0;
329	}
330
331	/////////////////////////////////////////////////////////////////////////////////
332	// Extern functions
333	/////////////////////////////////////////////////////////////////////////////////
334
335	////////////////////////
336	unsigned int _sdc_init()
337	{
338	spi = (struct spi_dev*)SEG_IOC_BASE;
339
340	// initializing the SPI controller
341	_spi_init (
342	spi ,
343	200000 , /*< SPI_clk: 200 Khz /
344	SYSCLK_FREQ , /*< Sys_clk /
345	8 , /*< Charlen: 8 /
346	SPI_TX_NEGEDGE,
347	SPI_RX_POSEDGE
348	);
349
350	// initializing the SD Card
351	unsigned int iter = 0;
352	unsigned char sdcard_rsp;
353	unsigned int i;
354
355	while(1)
356	{
357	printk("[SDC WARNING] Trying to initialize SD card...\n");
358
359	sdcard_rsp = _sdc_open( 0 ); // only channel 0
360	if (sdcard_rsp == 0)
361	{
362	printk("OK\n");
363	break;
364	}
365
366	printk("KO\n");
367
368	for (i = 0; i < 1000; i++);
369
370	if (++iter >= SDCARD_RESET_ITER_MAX)
371	{
372	assert( false, __FUNCTION__, "\n[SDC ERROR] During SD card reset / card response = %x \n", sdcard_rsp);
373	}
374	}
375
376	// set the block length of the SD Card
377	sdcard_rsp = _sdc_set_block_size(512);
378	if (sdcard_rsp)
379	{
380	assert( false, __FUNCTION__, "[SDC ERROR] During SD card block size initialization\n");
381	}
382
383	// incrementing SDCARD clock frequency for normal function
384	_spi_init (
385	spi ,
386	10000000 , // SPI_clk 10 Mhz
387	SYSCLK_FREQ , // Sys_clk
388	-1 , // Charlen: 8
389	-1 ,
390	-1
391	);
392
393	printk("[SDC WARNING] Finish SD card initialization\n\r");
394
395	return 0;
396	} // end _sdc_init()
397
398
399	/////////////////////////////////////////////////////
400	unsigned int _sdc_access( unsigned int use_irq, // unused
401	unsigned int to_mem,
402	unsigned int lba,
403	unsigned long long buf_paddr,
404	unsigned int count )
405	{
406	unsigned char args[4];
407	unsigned char sdcard_rsp;
408	unsigned int i;
409	unsigned int curr = lba;
410	unsigned int last = lba + count;
411
412	if ( to_mem ) // read access
413	{
414	for ( ; curr < last ; curr++ )
415	{
416	_sdc_lseek(curr);
417
418	for (i = 0; i < 4; i++)
419	{
420	args[i] = (sdcard.access_pointer >> (32 - (i+1)*8)) & 0xFF;
421	}
422
423	_sdc_enable();
424
425	sdcard_rsp = _sdc_send_command(17, SDCARD_CMD, args, 0x00);
426	if ( SDCARD_CHECK_R1_ERROR(sdcard_rsp) )
427	{
428	_sdc_disable();
429	return sdcard_rsp;
430	}
431
432	_sdc_wait_data_block();
433
434	if (spi_get_data(sdcard.spi, buf_paddr, 512 ))
435	{
436	_sdc_disable();
437	return 1;
438	}
439
440	// Get the CRC16 (comes at the end of the data block)
441	_sdc_receive_char(); // first byte
442	_sdc_receive_char(); // second byte
443
444	_sdc_disable();
445
446	buf_paddr += 512;
447	}
448	}
449	else // write access
450	{
451	assert( false, __FUNCTION__, "[SDC ERROR] function _sdc_write() not iplemented yet\n");
452	}
453
454	return 0;
455	} // _end sdc_access()
456
457	///////////////////////////////////////////////////////////////////////////////
458	// This ISR handles the IRQ generated by a SDC controler
459	///////////////////////////////////////////////////////////////////////////////
460	void _sdc_isr( unsigned int irq_type,
461	unsigned int irq_id,
462	unsigned int channel )
463	{
464	assert( false, __FUNCTION__, "\n[GIET ERROR] _sdc_isr() not implemented\n");
465	}
466
467	// Local Variables:
468	// tab-width: 4
469	// c-basic-offset: 4
470	// c-file-offsets:((innamespace . 0)(inline-open . 0))
471	// indent-tabs-mode: nil
472	// End:
473	// vim: filetype=c:expandtab:shiftwidth=4:tabstop=4:softtabstop=4

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