1 #ifndef LINUX_MMC_IOCTL_H
2 #define LINUX_MMC_IOCTL_H
3 
4 #include <linux/types.h>
5 
6 struct mmc_ioc_cmd {
7 	/* Implies direction of data.  true = write, false = read */
8 	int write_flag;
9 
10 	/* Application-specific command.  true = precede with CMD55 */
11 	int is_acmd;
12 
13 	__u32 opcode;
14 	__u32 arg;
15 	__u32 response[4];  /* CMD response */
16 	unsigned int flags;
17 	unsigned int blksz;
18 	unsigned int blocks;
19 
20 	/*
21 	 * Sleep at least postsleep_min_us useconds, and at most
22 	 * postsleep_max_us useconds *after* issuing command.  Needed for
23 	 * some read commands for which cards have no other way of indicating
24 	 * they're ready for the next command (i.e. there is no equivalent of
25 	 * a "busy" indicator for read operations).
26 	 */
27 	unsigned int postsleep_min_us;
28 	unsigned int postsleep_max_us;
29 
30 	/*
31 	 * Override driver-computed timeouts.  Note the difference in units!
32 	 */
33 	unsigned int data_timeout_ns;
34 	unsigned int cmd_timeout_ms;
35 
36 	/*
37 	 * For 64-bit machines, the next member, ``__u64 data_ptr``, wants to
38 	 * be 8-byte aligned.  Make sure this struct is the same size when
39 	 * built for 32-bit.
40 	 */
41 	__u32 __pad;
42 
43 	/* DAT buffer */
44 	__u64 data_ptr;
45 };
46 #define mmc_ioc_cmd_set_data(ic, ptr) ic.data_ptr = (__u64)(unsigned long) ptr
47 
48 #define MMC_IOC_CMD _IOWR(MMC_BLOCK_MAJOR, 0, struct mmc_ioc_cmd)
49 
50 /**
51  * There are four request types that are applicable for rpmb accesses- two
52  * under read category and two under write. They are
53  *
54  *  Reads
55  *  -------
56  *  1. Read Write Counter
57  *  2. Authenticated data read
58  *
59  *
60  *  Writes
61  *  -------
62  *  1. Provision RPMB key (though it might be done in a secure environment)
63  *  2. Authenticated data write
64  *
65  *  While its given that the rpmb data frames are going to have that
66  *  information encoded in it and the frames should be generated by a secure
67  *  piece of code, the request types can be classified as above.
68  *
69  *  So here are the set of commands that should be executed atomically in the
70  *  ioctl for rpmb read operation
71  *  1. Switch partition
72  *  2. Set block count
73  *  3. Write data frame - CMD25 to write the rpmb data frame
74  *  4. Set block count
75  *  5. Read the data - CMD18 to do the actual read
76  *
77  *  Similarly for rpmb write operation, these are the commands that should be
78  *  executed atomically in the ioctl for rpmb write operation
79  *  1. Switch partition
80  *  2. Set block count
81  *  3. Write data frame - CMD25 to write the rpmb data frame with data
82  *  4. Set block count
83  *  5. Read the data - CMD25 to write rpmb data frame indicating that rpmb
84  *     result register is about to be read
85  *  6. Set block count
86  *  7. Read rpmb result - CMD18 to read the rpmb result register
87  *
88  * Each of the above commands should be sent individually via struct mmc_ioc_cmd
89  * and fields like is_acmd that are not needed for rpmb operations will be
90  * ignored.
91  */
92 #define MMC_IOC_MAX_RPMB_CMD	3
93 struct mmc_ioc_rpmb {
94 	struct mmc_ioc_cmd cmds[MMC_IOC_MAX_RPMB_CMD];
95 };
96 
97 /*
98  * This ioctl is meant for use with rpmb partitions. This is needed since the
99  * access procedure for this particular partition is different from regular
100  * or normal partitions.
101  */
102 #define MMC_IOC_RPMB_CMD _IOWR(MMC_BLOCK_MAJOR, 0, struct mmc_ioc_rpmb)
103 
104 /*
105  * Since this ioctl is only meant to enhance (and not replace) normal access
106  * to the mmc bus device, an upper data transfer limit of MMC_IOC_MAX_BYTES
107  * is enforced per ioctl call.  For larger data transfers, use the normal
108  * block device operations.
109  */
110 #define MMC_IOC_MAX_BYTES  (512L * 256)
111 #endif /* LINUX_MMC_IOCTL_H */
112