source: soft/giet_vm/giet_drivers/sdc_driver.h @ 533

Last change on this file since 533 was 529, checked in by alain, 9 years ago

1) Removing the IOC driver (integrated in the FAT library).
2) Simplifying the BDV, HBA, SDC, RDK drivers: they support
only two modes (synchronous => polling / descheduling => IRQ),
and only one access function (for both read/write).
File size: 4.7 KB
Line 
1///////////////////////////////////////////////////////////////////////////////////
2// File     : sdc_driver.h
3// Date     : 31/08/2012
4// Author   : cesar fuguet
5// Copyright (c) UPMC-LIP6
6///////////////////////////////////////////////////////////////////////////////////
7
8#ifndef _GIET_SDC_DRIVER_H_
9#define _GIET_SDC_DRIVER_H_
10
11#include <ioc_driver.h>
12#include <spi_driver.h>
13#include <mapping_info.h>
14
15///////////////////////////////////////////////////////////////////////////////
16// SD card structure definition
17///////////////////////////////////////////////////////////////////////////////
18struct sdcard_dev
19{ 
20    // SPI controller pointer
21    struct spi_dev * spi;
22
23    // block length of the SDCARD
24    unsigned int block_length;
25
26    // access pointer representing the offset in bytes used to read or write in
27    // the SDCARD. This driver is for cards SDSD, therefore this offset must be
28    // multiple of the block length
29    unsigned int access_pointer;
30
31    // slave ID. This ID represents the number of the slave select signal used
32    // in the hardware platform (SPI channel)
33    int slave_id;
34
35    // is the card high capacity ?
36    int sdhc;
37};
38
39///////////////////////////////////////////////////////////////////////////////
40// This function initializes the SPI controller and call sdc_open to
41// initialize  the SD card
42// - channel: channel to initialize (only channel 0 supported)
43// Returns 0 if success, other value if failure
44///////////////////////////////////////////////////////////////////////////////
45unsigned int _sdc_init();
46
47///////////////////////////////////////////////////////////////////////////////
48// Transfer data between the block device and a memory buffer.
49// - use_irq   : not used, as DMA is not supported yet
50// - to_mem    : to memory if non zero
51// - lba       : first block index on the block device
52// - buf_vaddr : base address of the memory buffer
53// - count     : number of blocks to be transfered.
54// Returns 0 if success, > 0 if error.
55///////////////////////////////////////////////////////////////////////////////
56unsigned int _sdc_access( unsigned int       use_irq, 
57                          unsigned int       to_mem,
58                          unsigned int       lba,
59                          unsigned long long buf_vaddr,
60                          unsigned int       count);
61
62///////////////////////////////////////////////////////////////////////////////
63// SD card constants
64///////////////////////////////////////////////////////////////////////////////
65
66// Number of retries after an unacknowledge command
67#define SDCARD_COMMAND_TIMEOUT  100
68
69// This command is a simple SD commmand
70#define SDCARD_CMD              0
71
72// This is an application specific command
73#define SDCARD_ACMD             1
74
75// The transmition is done in the negative edge of the clock
76#define SDCARD_TX_NEGEDGE       0
77
78// The transmition is done in the positive edge of the clock
79#define SDCARD_TX_POSEDGE       1
80
81// The reception is done in the negative edge of the clock
82#define SDCARD_RX_NEGEDGE       0
83
84// The reception is done in the positive edge of the clock
85#define SDCARD_RX_POSEDGE       1
86
87///////////////////////////////////////////////////////////////////////////////
88// SD card macros
89///////////////////////////////////////////////////////////////////////////////
90
91///////////////////////////////////////////////////////////////////////////////
92//   SDCARD_CHECK_R1_VALID()
93// This macro checks if the SD card response is valid
94// - x: SD card response
95// Returns 1 if valid and 0 otherwise
96///////////////////////////////////////////////////////////////////////////////
97#define SDCARD_CHECK_R1_VALID(x)    (~x & SDCARD_R1_RSP_VALID) ? 1 : 0
98
99///////////////////////////////////////////////////////////////////////////////
100//   SDCARD_CHECK_R1_ERROR()
101// This macro checks if there is an error in SD card response
102// - x: SD card response
103// Returns 1 if error and 0 otherwise
104///////////////////////////////////////////////////////////////////////////////
105#define SDCARD_CHECK_R1_ERROR(x)    ( x & 0x7E)                ? 1 : 0
106
107// SD card response 1 (R1) format constants
108#define SDCARD_R1_IN_IDLE_STATE     ( 1 << 0 ) // R1 bit 0
109#define SDCARD_R1_ERASE_RESET       ( 1 << 1 ) // R1 bit 1
110#define SDCARD_R1_ILLEGAL_CMD       ( 1 << 2 ) // R1 bit 2
111#define SDCARD_R1_COM_CRC_ERR       ( 1 << 3 ) // R1 bit 3
112#define SDCARD_R1_ERASE_SEQ_ERR     ( 1 << 4 ) // R1 bit 4
113#define SDCARD_R1_ADDRESS_ERR       ( 1 << 5 ) // R1 bit 5
114#define SDCARD_R1_PARAMETER_ERR     ( 1 << 6 ) // R1 bit 6
115#define SDCARD_R1_RSP_VALID         ( 1 << 7 ) // R1 bit 7
116
117#endif
118
119// Local Variables:
120// tab-width: 4
121// c-basic-offset: 4
122// c-file-offsets:((innamespace . 0)(inline-open . 0))
123// indent-tabs-mode: nil
124// End:
125// vim: filetype=c:expandtab:shiftwidth=4:tabstop=4:softtabstop=4
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