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source: soft/giet_vm/giet_drivers/ioc_driver.c @ 512

Last change on this file since 512 was 496, checked in by alain, 10 years ago
1) Introduce access functions to MMC intrumentation registers. 2) Use _printf for error or debug messages.
File size: 8.9 KB

Rev	Line
[258]	1	///////////////////////////////////////////////////////////////////////////////////
[289]	2	// File : ioc_driver.c
	3	// Date : 23/05/2013
	4	// Author : alain greiner
	5	// Maintainer : cesar fuguet
[258]	6	// Copyright (c) UPMC-LIP6
	7	///////////////////////////////////////////////////////////////////////////////////
[437]	8	// Implementation notes:
[413]	9	// 1) In order to share the code, the two _ioc_read() and _ioc_write() functions
[437]	10	// call the same _ioc_access() function, and this function call the selected
	11	// physical driver (BDV / HBA / SPI / RDK).
[413]	12	// 2) The IOMMU is not supported yet, but the method is the following:
	13	// A fixed size 2 Mbytes vseg is allocated to the IOC peripheral, in the I/O
	14	// virtual space, and the user buffer is dynamically remapped to one single
	15	// big page in the IOMMU page table.
[258]	16	// The user buffer is unmapped by the _ioc_completed() function when
	17	// the transfer is completed.
	18	///////////////////////////////////////////////////////////////////////////////////
	19
	20	#include <giet_config.h>
	21	#include <ioc_driver.h>
[295]	22	#include <bdv_driver.h>
	23	#include <hba_driver.h>
	24	#include <sdc_driver.h>
	25	#include <rdk_driver.h>
[258]	26	#include <utils.h>
[456]	27	#include <tty0.h>
[258]	28	#include <iob_driver.h>
	29	#include <ctx_handler.h>
	30	#include <mmc_driver.h>
	31	#include <vmem.h>
	32
[320]	33	#if !defined( SEG_IOC_BASE )
	34	# error: You must define SEG_IOC_BASE in the hard_config.h file
	35	#endif
	36
[258]	37	#if !defined( USE_IOB )
	38	# error: You must define USE_IOB in the hard_config.h file
	39	#endif
	40
	41	#if !defined(GIET_USE_IOMMU)
	42	# error: You must define GIET_USE_IOMMU in the giet_config.h file
	43	#endif
	44
[295]	45	#if (USE_IOC_BDV + USE_IOC_SPI + USE_IOC_HBA + USE_IOC_RDK) != 1
	46	# error: You must use only one IOC controller type (BDV or SPI or HBA or RDK)
[289]	47	#endif
	48
[295]	49	#if USE_IOC_BDV
[289]	50	# include <bdv_driver.h>
	51	#endif
	52
[295]	53	#if USE_IOC_SPI
[289]	54	# include <sdc_driver.h>
	55	#endif
	56
[295]	57	#if USE_IOC_HBA
[289]	58	# include <hba_driver.h>
	59	#endif
	60
[295]	61	#if USE_IOC_RDK
	62	# include <rdk_driver.h>
	63	#endif
[289]	64
[295]	65	///////////////////////////////////////////////////////////////////////////////
	66	// IOC global variables
	67	///////////////////////////////////////////////////////////////////////////////
	68
[496]	69	__attribute__((section (".kdata")))
	70	volatile unsigned int _ioc_iommu_ix1 = 0;
[258]	71
[496]	72	__attribute__((section (".kdata")))
	73	volatile unsigned int _ioc_iommu_npages;
[258]	74
	75	///////////////////////////////////////////////////////////////////////////////
	76	// This function transfer data between a memory buffer and the block device.
	77	// The buffer lentgth is (count*block_size) bytes.
	78	// Arguments are:
	79	// - to_mem : from external storage to memory when non 0.
[295]	80	// - mode : BOOT_PA / BOOT_VA / KERNEL / USER
[258]	81	// - lba : first block index on the external storage.
	82	// - buf_vaddr : virtual base address of the memory buffer.
	83	// - count : number of blocks to be transfered.
	84	// Returns 0 if success, > 0 if error.
	85	///////////////////////////////////////////////////////////////////////////////
	86	static unsigned int _ioc_access( unsigned int to_mem,
[295]	87	unsigned int channel,
[258]	88	unsigned int mode,
	89	unsigned int lba,
	90	unsigned int buf_vaddr,
	91	unsigned int count)
	92	{
	93
	94	#if GIET_DEBUG_IOC_DRIVER
[295]	95	unsigned int procid = _get_procid();
[426]	96	unsigned int x = procid >> (Y_WIDTH + P_WIDTH);
	97	unsigned int y = (procid >> P_WIDTH) & ((1<<Y_WIDTH)-1);
	98	unsigned int p = procid & ((1<<P_WIDTH)-1);
[496]	99	_printf("\n[IOC DEBUG] _ioc_access() : P[%d,%d,%d] enters at cycle %d\n"
	100	" - channel = %d\n"
	101	" - mode = %d\n"
	102	" - vaddr = %x\n"
	103	" - sectors = %d\n"
	104	" - lba = %x\n",
	105	x, y , p, _get_proctime(), channel, mode, buf_vaddr, count, lba );
[258]	106	#endif
	107
	108	unsigned int error; // return value
	109	unsigned int pt_vbase; // page table vbase address
[413]	110	unsigned int ppn; // user buffer first page PPN
	111	unsigned int flags; // user buffer protection flags
	112	paddr_t buf_paddr; // user buffer physical address (if no IOMMU),
[258]	113
	114	// check buffer alignment
	115	if ((unsigned int) buf_vaddr & 0x3)
	116	{
[437]	117	_puts("\n[IOC ERROR] in _ioc_access() : buffer not word aligned\n");
[295]	118	_exit();
[258]	119	}
	120
[295]	121	// check channel
	122	if ( (USE_IOC_HBA == 0) && (channel > 0) )
	123	{
[437]	124	_puts("\n[IOC ERROR] in _ioc_access() : channel must be 0 when HBA not used\n");
[295]	125	_exit();
	126	}
	127
[258]	128	unsigned int length = count << 9; // count * 512 bytes
	129
[295]	130	// computing memory buffer physical address
[496]	131	if ( (mode == IOC_BOOT_MODE) && ((_get_mmu_mode() & 0x4) == 0) ) // identity
[258]	132	{
	133	buf_paddr = (paddr_t)buf_vaddr;
	134	}
[496]	135	else // V2P translation required
[258]	136	{
	137	// get page table virtual address
	138	pt_vbase = _get_context_slot(CTX_PTAB_ID);
	139
[413]	140	// get user buffer first page ppn and flags
[481]	141	_v2p_translate( (page_table_t*)pt_vbase,
	142	buf_vaddr >> 12,
	143	&ppn,
	144	&flags );
	145
[413]	146	// check access rights
	147	if ( (mode == IOC_USER_MODE) && ((flags & PTE_U) == 0) )
	148	{
[437]	149	_puts("\n[IOC ERROR] in _ioc_access() : buffer not user accessible\n");
[413]	150	_exit();
	151	}
[258]	152
[413]	153	if ( ((flags & PTE_W) == 0 ) && to_mem )
	154	{
[437]	155	_puts("\n[IOC ERROR] in _ioc_access() : buffer not writable\n");
[413]	156	_exit();
	157	}
[258]	158
[413]	159	buf_paddr = (((paddr_t)ppn) << 12) \| (buf_vaddr & 0xFFF);
[258]	160	}
	161
[413]	162	// cache coherence for both L1 & L2 caches
[258]	163
	164	if ( to_mem ) // memory write : invalidate data caches
	165	{
[413]	166	// L1 cache (only if L1 cache coherence not guaranteed by hardware)
	167	if ( GIET_NO_HARD_CC ) _dcache_buf_invalidate( buf_vaddr, length );
[258]	168
[413]	169	// L2 cache (only if we use an IO-Bridge component in architecture))
[297]	170	if ( USE_IOB ) _mmc_inval( buf_paddr, length );
[258]	171	}
	172	else // memory read : update data caches
	173	{
[295]	174	// L1 cache : nothing to do for L1 write-through
[258]	175
[413]	176	// L2 cache (only if we use an IO-Bridge component in architecture))
[297]	177	if ( USE_IOB ) _mmc_sync( buf_paddr, length );
[258]	178	}
	179
[295]	180	// select the proper physical device
	181
[413]	182	#if ( USE_IOC_BDV )
[295]	183	if (to_mem) error = _bdv_read ( mode, lba, buf_paddr, count);
	184	else error = _bdv_write( mode, lba, buf_paddr, count);
	185	#elif ( USE_IOC_SPI )
	186	if (to_mem) error = _sdc_read (mode, lba, buf_paddr, count);
	187	else error = _sdc_write(mode, lba, buf_paddr, count);
	188	#elif ( USE_IOC_HBA )
	189	if (to_mem) error = _hba_read (channel, mode, lba, buf_paddr, count);
	190	else error = _hba_write(channel, mode, lba, buf_paddr, count);
	191	#elif ( USE_IOC_RDK )
	192	if (to_mem) error = _rdk_read (lba, buf_vaddr, count);
	193	else error = _rdk_write(lba, buf_vaddr, count);
	194	#endif
	195
[258]	196	return error;
	197	} // end _ioc_access()
	198
[413]	199	//////////////////////////////////////////////
[289]	200	unsigned int _ioc_init( unsigned int channel )
[258]	201	{
[295]	202
	203	#if ( USE_IOC_BDV )
	204
	205	return _bdv_init();
	206
	207	#elif ( USE_IOC_SPI )
	208
	209	return _sdc_init();
	210
	211	#elif ( USE_IOC_HBA )
	212
[289]	213	return _hba_init( channel );
[295]	214
	215	#elif ( USE_IOC_RDK )
	216
	217	return _rdk_init();
	218
[289]	219	#endif
[295]	220
[258]	221	}
	222
[413]	223	//////////////////////////////////////////////
[295]	224	unsigned int _ioc_read( unsigned int channel,
	225	unsigned int mode,
[258]	226	unsigned int lba,
	227	void* buffer,
	228	unsigned int count)
	229	{
	230	return _ioc_access( 1, // read access
[295]	231	channel,
[258]	232	mode,
	233	lba,
	234	(unsigned int) buffer,
	235	count );
	236	}
	237
[413]	238	//////////////////////////////////////////////
[295]	239	unsigned int _ioc_write( unsigned int channel,
	240	unsigned int mode,
[258]	241	unsigned int lba,
	242	const void* buffer,
	243	unsigned int count )
	244	{
	245	return _ioc_access( 0, // write access
[295]	246	channel,
[258]	247	mode,
	248	lba,
	249	(unsigned int) buffer,
	250	count );
	251	}
	252
[413]	253	/////////////////////////////////////////////////////
[295]	254	unsigned int _ioc_get_status( unsigned int channel )
[258]	255	{
[295]	256
	257	#if ( USE_IOC_BDV )
	258
	259	return _bdv_get_status( );
	260
	261	#elif ( USE_IOC_SPI )
	262
	263	return _sdc_get_status( );
	264
	265	#elif ( USE_IOC_HBA )
	266
	267	return _hba_get_status( channel );
	268
	269	#elif ( USE_IOC_RDK )
	270
[496]	271	return _rdk_get_status();
[295]	272
[289]	273	#endif
[295]	274
[258]	275	}
	276
[413]	277	//////////////////////////////////
[258]	278	unsigned int _ioc_get_block_size()
	279	{
[295]	280
	281	#if ( USE_IOC_BDV )
	282
[289]	283	return _bdv_get_block_size();
[295]	284
	285	#elif ( USE_IOC_SPI )
	286
[289]	287	return _sdc_get_block_size();
[295]	288
	289	#elif ( USE_IOC_HBA )
	290
[289]	291	return _hba_get_block_size();
[295]	292
	293	#elif ( USE_IOC_RDK )
	294
	295	return 512;
	296
[289]	297	#endif
[295]	298
[258]	299	}
	300
	301
	302	// Local Variables:
	303	// tab-width: 4
	304	// c-basic-offset: 4
	305	// c-file-offsets:((innamespace . 0)(inline-open . 0))
	306	// indent-tabs-mode: nil
	307	// End:
	308	// vim: filetype=c:expandtab:shiftwidth=4:tabstop=4:softtabstop=4
	309

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