| blob | 49828c2707ac184f85c14b38138ebc1794b08184 |
1 /**
2 * imr.c -- Intel Isolated Memory Region driver
3 *
4 * Copyright(c) 2013 Intel Corporation.
5 * Copyright(c) 2015 Bryan O'Donoghue <pure.logic@nexus-software.ie>
6 *
7 * IMR registers define an isolated region of memory that can
8 * be masked to prohibit certain system agents from accessing memory.
9 * When a device behind a masked port performs an access - snooped or
10 * not, an IMR may optionally prevent that transaction from changing
11 * the state of memory or from getting correct data in response to the
12 * operation.
13 *
14 * Write data will be dropped and reads will return 0xFFFFFFFF, the
15 * system will reset and system BIOS will print out an error message to
16 * inform the user that an IMR has been violated.
17 *
18 * This code is based on the Linux MTRR code and reference code from
19 * Intel's Quark BSP EFI, Linux and grub code.
20 *
21 * See quark-x1000-datasheet.pdf for register definitions.
22 * http://www.intel.com/content/dam/www/public/us/en/documents/datasheets/quark-x1000-datasheet.pdf
23 */
27 #include <asm-generic/sections.h>
28 #include <asm/cpu_device_id.h>
29 #include <asm/imr.h>
30 #include <asm/iosf_mbi.h>
31 #include <linux/debugfs.h>
32 #include <linux/init.h>
33 #include <linux/mm.h>
34 #include <linux/types.h>
42 };
46 /*
47 * IMR read/write mask control registers.
48 * See quark-x1000-datasheet.pdf sections 12.7.4.5 and 12.7.4.6 for
49 * bit definitions.
50 *
51 * addr_hi
52 * 31 Lock bit
53 * 30:24 Reserved
54 * 23:2 1 KiB aligned lo address
55 * 1:0 Reserved
56 *
57 * addr_hi
58 * 31:24 Reserved
59 * 23:2 1 KiB aligned hi address
60 * 1:0 Reserved
61 */
62 #define IMR_LOCK BIT(31)
65 u32 addr_lo;
66 u32 addr_hi;
67 u32 rmask;
68 u32 wmask;
69 };
71 #define IMR_NUM_REGS (sizeof(struct imr_regs)/sizeof(u32))
72 #define IMR_SHIFT 8
73 #define imr_to_phys(x) ((x) << IMR_SHIFT)
74 #define phys_to_imr(x) ((x) >> IMR_SHIFT)
76 /**
77 * imr_is_enabled - true if an IMR is enabled false otherwise.
78 *
79 * Determines if an IMR is enabled based on address range and read/write
80 * mask. An IMR set with an address range set to zero and a read/write
81 * access mask set to all is considered to be disabled. An IMR in any
82 * other state - for example set to zero but without read/write access
83 * all is considered to be enabled. This definition of disabled is how
84 * firmware switches off an IMR and is maintained in kernel for
85 * consistency.
86 *
87 * @imr: pointer to IMR descriptor.
88 * @return: true if IMR enabled false if disabled.
89 */
91 {
96 }
98 /**
99 * imr_read - read an IMR at a given index.
100 *
101 * Requires caller to hold imr mutex.
102 *
103 * @idev: pointer to imr_device structure.
104 * @imr_id: IMR entry to read.
105 * @imr: IMR structure representing address and access masks.
106 * @return: 0 on success or error code passed from mbi_iosf on failure.
107 */
109 {
126 }
128 /**
129 * imr_write - write an IMR at a given index.
130 *
131 * Requires caller to hold imr mutex.
132 * Note lock bits need to be written independently of address bits.
133 *
134 * @idev: pointer to imr_device structure.
135 * @imr_id: IMR entry to write.
136 * @imr: IMR structure representing address and access masks.
137 * @return: 0 on success or error code passed from mbi_iosf on failure.
138 */
140 {
165 failed:
166 /*
167 * If writing to the IOSF failed then we're in an unknown state,
168 * likely a very bad state. An IMR in an invalid state will almost
169 * certainly lead to a memory access violation.
170 */
176 }
178 /**
179 * imr_dbgfs_state_show - print state of IMR registers.
180 *
181 * @s: pointer to seq_file for output.
182 * @unused: unused parameter.
183 * @return: 0 on success or error code passed from mbi_iosf on failure.
184 */
186 {
187 phys_addr_t base;
188 phys_addr_t end;
203 /*
204 * Remember to add IMR_ALIGN bytes to size to indicate the
205 * inherent IMR_ALIGN size bytes contained in the masked away
206 * lower ten bits.
207 */
216 }
222 }
226 }
229 /**
230 * imr_debugfs_register - register debugfs hooks.
231 *
232 * @idev: pointer to imr_device structure.
233 * @return: 0 on success - errno on failure.
234 */
236 {
240 }
242 /**
243 * imr_check_params - check passed address range IMR alignment and non-zero size
244 *
245 * @base: base address of intended IMR.
246 * @size: size of intended IMR.
247 * @return: zero on valid range -EINVAL on unaligned base/size.
248 */
250 {
255 }
260 }
262 /**
263 * imr_raw_size - account for the IMR_ALIGN bytes that addr_hi appends.
264 *
265 * IMR addr_hi has a built in offset of plus IMR_ALIGN (0x400) bytes from the
266 * value in the register. We need to subtract IMR_ALIGN bytes from input sizes
267 * as a result.
268 *
269 * @size: input size bytes.
270 * @return: reduced size.
271 */
273 {
275 }
277 /**
278 * imr_address_overlap - detects an address overlap.
279 *
280 * @addr: address to check against an existing IMR.
281 * @imr: imr being checked.
282 * @return: true for overlap false for no overlap.
283 */
285 {
287 }
289 /**
290 * imr_add_range - add an Isolated Memory Region.
291 *
292 * @base: physical base address of region aligned to 1KiB.
293 * @size: physical size of region in bytes must be aligned to 1KiB.
294 * @read_mask: read access mask.
295 * @write_mask: write access mask.
296 * @return: zero on success or negative value indicating error.
297 */
300 {
301 phys_addr_t end;
316 /* Tweak the size value. */
320 /*
321 * Check for reserved IMR value common to firmware, kernel and grub
322 * indicating a disabled IMR.
323 */
333 /*
334 * Find a free IMR while checking for an existing overlapping range.
335 * Note there's no restriction in silicon to prevent IMR overlaps.
336 * For the sake of simplicity and ease in defining/debugging an IMR
337 * memory map we exclude IMR overlaps.
338 */
345 /* Find overlap @ base or end of requested range. */
354 }
355 }
357 /* Error out if we have no free IMR entries. */
361 }
366 /* Enable IMR at specified range and access mask. */
374 /*
375 * In the highly unlikely event iosf_mbi_write failed
376 * attempt to rollback the IMR setup skipping the trapping
377 * of further IOSF write failures.
378 */
384 }
385 failed:
388 }
391 /**
392 * __imr_remove_range - delete an Isolated Memory Region.
393 *
394 * This function allows you to delete an IMR by its index specified by reg or
395 * by address range specified by base and size respectively. If you specify an
396 * index on its own the base and size parameters are ignored.
397 * imr_remove_range(0, base, size); delete IMR at index 0 base/size ignored.
398 * imr_remove_range(-1, base, size); delete IMR from base to base+size.
399 *
400 * @reg: imr index to remove.
401 * @base: physical base address of region aligned to 1 KiB.
402 * @size: physical size of region in bytes aligned to 1 KiB.
403 * @return: -EINVAL on invalid range or out or range id
404 * -ENODEV if reg is valid but no IMR exists or is locked
405 * 0 on success.
406 */
408 {
409 phys_addr_t end;
420 /*
421 * Validate address range if deleting by address, else we are
422 * deleting by index where base and size will be ignored.
423 */
428 }
430 /* Tweak the size value. */
437 /* If a specific IMR is given try to use it. */
445 }
448 /* Search for match based on address range. */
462 }
463 }
464 }
469 }
473 /* Tear down the IMR. */
481 failed:
484 }
486 /**
487 * imr_remove_range - delete an Isolated Memory Region by address
488 *
489 * This function allows you to delete an IMR by an address range specified
490 * by base and size respectively.
491 * imr_remove_range(base, size); delete IMR from base to base+size.
492 *
493 * @base: physical base address of region aligned to 1 KiB.
494 * @size: physical size of region in bytes aligned to 1 KiB.
495 * @return: -EINVAL on invalid range or out or range id
496 * -ENODEV if reg is valid but no IMR exists or is locked
497 * 0 on success.
498 */
500 {
502 }
505 /**
506 * imr_clear - delete an Isolated Memory Region by index
507 *
508 * This function allows you to delete an IMR by an address range specified
509 * by the index of the IMR. Useful for initial sanitization of the IMR
510 * address map.
511 * imr_ge(base, size); delete IMR from base to base+size.
512 *
513 * @reg: imr index to remove.
514 * @return: -EINVAL on invalid range or out or range id
515 * -ENODEV if reg is valid but no IMR exists or is locked
516 * 0 on success.
517 */
519 {
521 }
523 /**
524 * imr_fixup_memmap - Tear down IMRs used during bootup.
525 *
526 * BIOS and Grub both setup IMRs around compressed kernel, initrd memory
527 * that need to be removed before the kernel hands out one of the IMR
528 * encased addresses to a downstream DMA agent such as the SD or Ethernet.
529 * IMRs on Galileo are setup to immediately reset the system on violation.
530 * As a result if you're running a root filesystem from SD - you'll need
531 * the boot-time IMRs torn down or you'll find seemingly random resets when
532 * using your filesystem.
533 *
534 * @idev: pointer to imr_device structure.
535 * @return:
536 */
538 {
545 /* Tear down all existing unlocked IMRs. */
552 /*
553 * Setup an unlocked IMR around the physical extent of the kernel
554 * from the beginning of the .text secton to the end of the
555 * .rodata section as one physically contiguous block.
556 *
557 * We don't round up @size since it is already PAGE_SIZE aligned.
558 * See vmlinux.lds.S for details.
559 */
567 }
569 }
573 {}
574 };
576 /**
577 * imr_init - entry point for IMR driver.
578 *
579 * return: -ENODEV for no IMR support 0 if good to go.
580 */
582 {
599 }