RTEMS 6.1-rc4
Loading...
Searching...
No Matches
flashPgmPvt.h
1#ifndef FLASH_GLUE_INTERFACE_H
2#define FLASH_GLUE_INTERFACE_H
3
4
5/* Trivial flash programmer (for restrictions see below) */
6
7/* Author: Till Straumann <strauman@slac.stanford.edu>, 2006 */
8
9/* DO NOT INCLUDE THIS HEADER FROM APPLICATION CODE */
10
11/*
12 * Glue interface -- to be used only internally by BSP
13 * and chip drivers:
14 * - BSP provides info about what chip drivers to use
15 * as well as 'wiring' info (how many devices are
16 * operated in parallel etc).
17 * - Chip drivers provide low-level 'methods' / 'ops'
18 * for performing basic operations which are used
19 * by the code in 'flash.c'.
20 */
21
22/* To keep things simple, this API makes a few assumptions about the
23 * hardware:
24 *
25 * - devices operate with 16-bit data width
26 * - two devices are used in parallel (stride 4) to
27 * provide 32-bit data. I.e., the devices are
28 * organized like this:
29 * unsigned short flash[FLASH_SIZE][2];
30 * - no endianness issues (i.e., flash endianness == CPU endianness)
31 * - fixed block size
32 * - fixed buffer size
33 * - all devices in a bank are identical
34 * - NOT THREAD SAFE; no locking scheme is implemented.
35 * - cannot copy within same flash bank.
36 * - write-timeout uses polling/busy-wait
37 *
38 * FIXME: code should be revised to remove assumptions on stride and 16-bit
39 * width to make it more generic.
40 */
41
42/*
43 * Authorship
44 * ----------
45 * This software was created by
46 * Till Straumann <strauman@slac.stanford.edu>, 2005-2007,
47 * Stanford Linear Accelerator Center, Stanford University.
48 *
49 * Acknowledgement of sponsorship
50 * ------------------------------
51 * The software was produced by
52 * the Stanford Linear Accelerator Center, Stanford University,
53 * under Contract DE-AC03-76SFO0515 with the Department of Energy.
54 *
55 * Government disclaimer of liability
56 * ----------------------------------
57 * Neither the United States nor the United States Department of Energy,
58 * nor any of their employees, makes any warranty, express or implied, or
59 * assumes any legal liability or responsibility for the accuracy,
60 * completeness, or usefulness of any data, apparatus, product, or process
61 * disclosed, or represents that its use would not infringe privately owned
62 * rights.
63 *
64 * Stanford disclaimer of liability
65 * --------------------------------
66 * Stanford University makes no representations or warranties, express or
67 * implied, nor assumes any liability for the use of this software.
68 *
69 * Stanford disclaimer of copyright
70 * --------------------------------
71 * Stanford University, owner of the copyright, hereby disclaims its
72 * copyright and all other rights in this software. Hence, anyone may
73 * freely use it for any purpose without restriction.
74 *
75 * Maintenance of notices
76 * ----------------------
77 * In the interest of clarity regarding the origin and status of this
78 * SLAC software, this and all the preceding Stanford University notices
79 * are to remain affixed to any copy or derivative of this software made
80 * or distributed by the recipient and are to be affixed to any copy of
81 * software made or distributed by the recipient that contains a copy or
82 * derivative of this software.
83 *
84 * ------------------ SLAC Software Notices, Set 4 OTT.002a, 2004 FEB 03
85 */
86
87#include <stdint.h>
88
89#define NumberOf(arr) (sizeof(arr)/sizeof(arr[0]))
90
91#define FLASH_STRIDE(b) 4 /* bytes; currently fixed */
92#define FLASH_WIDTH(b) ((b)->width)
93#define FLASH_NDEVS(b) (FLASH_STRIDE(b)/FLASH_WIDTH(b))
94
95/* Type declarations */
96
97/* Registers */
98typedef uint8_t _u8_a_t __attribute__((may_alias));
99typedef uint16_t _u16_a_t __attribute__((may_alias));
100typedef uint32_t _u32_a_t __attribute__((may_alias));
101
102/* Register addresses */
103typedef volatile _u8_a_t *A8;
104typedef volatile _u16_a_t *A16;
105typedef volatile _u32_a_t *A32;
106
107struct flash_bank_ops;
108
109/*
110 * Description of a flash bank. Multiple
111 * devices that are used in parallel to
112 * make up words of FLASH_STRIDE bytes
113 * are a 'physical' bank.
114 *
115 * A bank can even be a 'logical' bank
116 * if it includes chip-select logic, i.e.,
117 * int can contain multiple adjacent
118 * 'physical' banks
119 *
120 * The BSP must provide an array of 'bankdesc'
121 * structs and it must initialize the fields
122 *
123 * 'start'
124 * size of bank; may be set to zero to instruct
125 * the driver to scan a bank of 'max_size' for
126 * devices (i.e., bank may not be fully populated)
127 * 'max_size'
128 * size of fully populated bank (defines address range
129 * that is scanned for devices).
130 * If 'max_size' is negative then scanning starts from
131 * the top rather than from the bottom.
132 * 'width'
133 * width of a single device (in bytes). E.g., if
134 * 2 16-bit devices are used to form a (ATM fixed)
135 * stride of 4 then 'width = 2'. If four 8-bit
136 * devices are employed then 'width=1'.
137 * 'knownVendors'
138 * array of vendors descriptions to use for scanning
139 * the bank.
140 *
141 */
142struct bankdesc {
143 uint32_t start; /* start of bank (CPU address) */
144 uint32_t size; /* in bytes (figured out automatically) */
145 int max_size; /* in case multiple banks are adjacent;
146 * if max_size < 0 then the bank is scanned
147 * backwards (from top->bottom) for devices
148 */
149 int width; /* FIXME there might be implicit assumptions still
150 * that width == 2
151 */
152 struct vendesc *knownVendors;
153 /* TODO: we assume identical devices within a bank... */
154
155 /* The next three variables cache information obtained
156 * from the applicable vendor and device descriptions.
157 * They are written by BSP_flashCheckId().
158 */
159 uint32_t fblksz; /* block size in bytes; includes counting
160 * parallel 16-bit devices, i.e., if a
161 * single device has a block-size of xxx
162 * then fblksz = xxx*ndevs.
163 */
164 struct devdesc *dd;
165 struct flash_bank_ops *ops;
166};
167
168struct devdesc {
169 uint32_t id; /* numerical ID (matched against
170 * ID read from device).
171 */
172 char *name; /* informational name */
173 uint32_t size; /* bytes */
174 uint32_t bufsz; /* size of write buffer (bytes) */
175 uint32_t fblksz; /* sector/block size (bytes) */
176};
177
178struct vendesc {
179 uint32_t id; /* numerical ID (matched against
180 * ID read from device).
181 */
182 char *name; /* informational name */
183
184 /* array of supported devices;
185 * the 'ops' specified below
186 * are used to access these devices
187 */
188 struct devdesc *known_devs;
189 /* access methods for talking to
190 * devices associated with this
191 * vendor description.
192 */
193 struct flash_bank_ops *ops;
194};
195
196/* Device Access Methods ('ops'); these must be
197 * implemented by low-level chip drivers
198 */
199
201/* Read vendor/device ID; Return 0 on success, nonzero if unable to read id */
202 int (*get_id)(struct bankdesc *b, uint32_t addr, uint32_t *pVendorId, uint32_t *pDeviceId);
203/* Unlock block holding 'addr'ess
204 *
205 * NOTES: - device switched back to array mode on exit.
206 * - 'addr' must be 32-bit aligned.
207 */
208
209 void (*unlock_block)(struct bankdesc *b, uint32_t addr);
210/* Lock block holding 'addr'ess
211 *
212 * NOTES: - device switched back to array mode on exit.
213 * - 'addr' must be 32-bit aligned.
214 */
215
216 void (*lock_block)(struct bankdesc *b, uint32_t addr);
217/* Erase single block holding 'addr'ess. The routine may
218 * assume that the address is block/sector aligned.
219 *
220 * RETURNS: zero on error, device status on failure.
221 *
222 * NOTES: - device switched back to array mode on exit.
223 * - 'addr' must be 32-bit aligned.
224 */
225 int (*erase_block)(struct bankdesc *b, uint32_t addr);
226/* Query the status of the device and assert it's readiness
227 * leave off in array-reading mode.
228 *
229 * RETURNS: 0 on success, error status (result of status query) on error.
230 *
231 * NOTES: - error message is printed to stderr.
232 * - device switched back to array mode on exit.
233 * - 'addr' must be 32-bit aligned.
234 */
235 uint32_t (*check_ready)(struct bankdesc *b, uint32_t addr);
236/* Dump status bits (F_CMD_RD_STA results);
237 * 'verbose' prints non-error bits, too
238 */
239 void (*print_stat)(struct bankdesc *b, uint32_t sta, int verbose);
240/* Switch to array mode; 'addr' can be assumed to be stride-aligned */
241 void (*array_mode)(struct bankdesc *b, uint32_t addr);
242/* Write N bytes from 'src' to flash:
243 * 'src[0] .. src[N-1]' -> addr[0]..addr[N-1].
244 * N may be assumed to be a multiple of 'stride'
245 * RETURNS: failure status or zero on success.
246 */
247 uint32_t (*write_line)(struct bankdesc *b, uint32_t addr, const char *src, uint32_t N);
248};
249
250/* BSP ops (detect banks, handle write-protection on board);
251 * these must be implemented by the BSP.
252 */
253
255/* Return descriptor for bank # 'bank' or NULL (invalid arg) */
256 struct bankdesc *(*bankcheck)(int bank, int quiet);
257/* set (enbl:1), clear (enbl:0) or query (enbl:-1)
258 * on-board write protection.
259 *
260 * RETURNS 0 on success, nonzero on error.
261 */
262 int (*flash_wp)(int bank, int enbl);
263/* read a running us clock (for polling timeout) */
264 uint32_t (*read_us_timer)(void);
265};
266
267/* This must be provided by the BSP */
268extern struct flash_bsp_ops BSP_flashBspOps;
269
270/* Available low-level flash drivers, so far */
271extern struct vendesc BSP_flash_vendor_intel[];
272extern struct vendesc BSP_flash_vendor_spansion[];
273
274#endif
Definition: xnandpsu_onfi.h:185
Definition: flashPgmPvt.h:142
Definition: flashPgmPvt.h:168
Definition: flashPgmPvt.h:200
Definition: flashPgmPvt.h:254
Definition: flashPgmPvt.h:178