1 /******************************************************************************
2 *
3 * Module Name: dmrestag - Add tags to resource descriptors (Application-level)
4 *
5 *****************************************************************************/
6
7 /*
8 * Copyright (C) 2000 - 2015, Intel Corp.
9 * All rights reserved.
10 *
11 * Redistribution and use in source and binary forms, with or without
12 * modification, are permitted provided that the following conditions
13 * are met:
14 * 1. Redistributions of source code must retain the above copyright
15 * notice, this list of conditions, and the following disclaimer,
16 * without modification.
17 * 2. Redistributions in binary form must reproduce at minimum a disclaimer
18 * substantially similar to the "NO WARRANTY" disclaimer below
19 * ("Disclaimer") and any redistribution must be conditioned upon
20 * including a substantially similar Disclaimer requirement for further
21 * binary redistribution.
22 * 3. Neither the names of the above-listed copyright holders nor the names
23 * of any contributors may be used to endorse or promote products derived
24 * from this software without specific prior written permission.
25 *
26 * Alternatively, this software may be distributed under the terms of the
27 * GNU General Public License ("GPL") version 2 as published by the Free
28 * Software Foundation.
29 *
30 * NO WARRANTY
31 * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
32 * "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
33 * LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTIBILITY AND FITNESS FOR
34 * A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
35 * HOLDERS OR CONTRIBUTORS BE LIABLE FOR SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
36 * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
37 * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
38 * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
39 * STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING
40 * IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
41 * POSSIBILITY OF SUCH DAMAGES.
42 */
43
44 #include <contrib/dev/acpica/include/acpi.h>
45 #include <contrib/dev/acpica/include/accommon.h>
46 #include <contrib/dev/acpica/include/acparser.h>
47 #include <contrib/dev/acpica/include/acdisasm.h>
48 #include <contrib/dev/acpica/include/acnamesp.h>
49 #include <contrib/dev/acpica/include/amlcode.h>
50
51 /* This module used for application-level code only */
52
53 #define _COMPONENT ACPI_CA_DISASSEMBLER
54 ACPI_MODULE_NAME ("dmrestag")
55
56 /* Local prototypes */
57
58 static void
59 AcpiDmUpdateResourceName (
60 ACPI_NAMESPACE_NODE *ResourceNode);
61
62 static char *
63 AcpiDmSearchTagList (
64 UINT32 BitIndex,
65 const ACPI_RESOURCE_TAG *TagList);
66
67 static char *
68 AcpiDmGetResourceTag (
69 UINT32 BitIndex,
70 AML_RESOURCE *Resource,
71 UINT8 ResourceIndex);
72
73 static char *
74 AcpiGetTagPathname (
75 ACPI_PARSE_OBJECT *Op,
76 ACPI_NAMESPACE_NODE *BufferNode,
77 ACPI_NAMESPACE_NODE *ResourceNode,
78 UINT32 BitIndex);
79
80 static ACPI_NAMESPACE_NODE *
81 AcpiDmGetResourceNode (
82 ACPI_NAMESPACE_NODE *BufferNode,
83 UINT32 BitIndex);
84
85 static ACPI_STATUS
86 AcpiDmAddResourceToNamespace (
87 UINT8 *Aml,
88 UINT32 Length,
89 UINT32 Offset,
90 UINT8 ResourceIndex,
91 void **Context);
92
93 static void
94 AcpiDmAddResourcesToNamespace (
95 ACPI_NAMESPACE_NODE *BufferNode,
96 ACPI_PARSE_OBJECT *Op);
97
98
99 /******************************************************************************
100 *
101 * Resource Tag tables
102 *
103 * These are the predefined tags that refer to elements of a resource
104 * descriptor. Each name and offset is defined in the ACPI specification.
105 *
106 * Each table entry contains the bit offset of the field and the associated
107 * name.
108 *
109 ******************************************************************************/
110
111 static const ACPI_RESOURCE_TAG AcpiDmIrqTags[] =
112 {
113 {( 1 * 8), ACPI_RESTAG_INTERRUPT},
114 {( 3 * 8) + 0, ACPI_RESTAG_INTERRUPTTYPE},
115 {( 3 * 8) + 3, ACPI_RESTAG_INTERRUPTLEVEL},
116 {( 3 * 8) + 4, ACPI_RESTAG_INTERRUPTSHARE},
117 {0, NULL}
118 };
119
120 static const ACPI_RESOURCE_TAG AcpiDmDmaTags[] =
121 {
122 {( 1 * 8), ACPI_RESTAG_DMA},
123 {( 2 * 8) + 0, ACPI_RESTAG_XFERTYPE},
124 {( 2 * 8) + 2, ACPI_RESTAG_BUSMASTER},
125 {( 2 * 8) + 5, ACPI_RESTAG_DMATYPE},
126 {0, NULL}
127 };
128
129 static const ACPI_RESOURCE_TAG AcpiDmIoTags[] =
130 {
131 {( 1 * 8) + 0, ACPI_RESTAG_DECODE},
132 {( 2 * 8), ACPI_RESTAG_MINADDR},
133 {( 4 * 8), ACPI_RESTAG_MAXADDR},
134 {( 6 * 8), ACPI_RESTAG_ALIGNMENT},
135 {( 7 * 8), ACPI_RESTAG_LENGTH},
136 {0, NULL}
137 };
138
139 static const ACPI_RESOURCE_TAG AcpiDmFixedIoTags[] =
140 {
141 {( 1 * 8), ACPI_RESTAG_BASEADDRESS},
142 {( 3 * 8), ACPI_RESTAG_LENGTH},
143 {0, NULL}
144 };
145
146 static const ACPI_RESOURCE_TAG AcpiDmFixedDmaTags[] =
147 {
148 {( 1 * 8), ACPI_RESTAG_DMA},
149 {( 3 * 8), ACPI_RESTAG_DMATYPE},
150 {( 5 * 8), ACPI_RESTAG_XFERTYPE},
151 {0, NULL}
152 };
153
154 static const ACPI_RESOURCE_TAG AcpiDmMemory24Tags[] =
155 {
156 {( 3 * 8) + 0, ACPI_RESTAG_READWRITETYPE},
157 {( 4 * 8), ACPI_RESTAG_MINADDR},
158 {( 6 * 8), ACPI_RESTAG_MAXADDR},
159 {( 8 * 8), ACPI_RESTAG_ALIGNMENT},
160 {(10 * 8), ACPI_RESTAG_LENGTH},
161 {0, NULL}
162 };
163
164 static const ACPI_RESOURCE_TAG AcpiDmRegisterTags[] =
165 {
166 {( 3 * 8), ACPI_RESTAG_ADDRESSSPACE},
167 {( 4 * 8), ACPI_RESTAG_REGISTERBITWIDTH},
168 {( 5 * 8), ACPI_RESTAG_REGISTERBITOFFSET},
169 {( 6 * 8), ACPI_RESTAG_ACCESSSIZE},
170 {( 7 * 8), ACPI_RESTAG_ADDRESS},
171 {0, NULL}
172 };
173
174 static const ACPI_RESOURCE_TAG AcpiDmMemory32Tags[] =
175 {
176 {( 3 * 8) + 0, ACPI_RESTAG_READWRITETYPE},
177 {( 4 * 8), ACPI_RESTAG_MINADDR},
178 {( 8 * 8), ACPI_RESTAG_MAXADDR},
179 {(12 * 8), ACPI_RESTAG_ALIGNMENT},
180 {(16 * 8), ACPI_RESTAG_LENGTH},
181 {0, NULL}
182 };
183
184 static const ACPI_RESOURCE_TAG AcpiDmFixedMemory32Tags[] =
185 {
186 {( 3 * 8) + 0, ACPI_RESTAG_READWRITETYPE},
187 {( 4 * 8), ACPI_RESTAG_BASEADDRESS},
188 {( 8 * 8), ACPI_RESTAG_LENGTH},
189 {0, NULL}
190 };
191
192 static const ACPI_RESOURCE_TAG AcpiDmInterruptTags[] =
193 {
194 {( 3 * 8) + 1, ACPI_RESTAG_INTERRUPTTYPE},
195 {( 3 * 8) + 2, ACPI_RESTAG_INTERRUPTLEVEL},
196 {( 3 * 8) + 3, ACPI_RESTAG_INTERRUPTSHARE},
197 {( 5 * 8), ACPI_RESTAG_INTERRUPT},
198 {0, NULL}
199 };
200
201 static const ACPI_RESOURCE_TAG AcpiDmAddress16Tags[] =
202 {
203 {( 4 * 8) + 1, ACPI_RESTAG_DECODE},
204 {( 4 * 8) + 2, ACPI_RESTAG_MINTYPE},
205 {( 4 * 8) + 3, ACPI_RESTAG_MAXTYPE},
206 {( 6 * 8), ACPI_RESTAG_GRANULARITY},
207 {( 8 * 8), ACPI_RESTAG_MINADDR},
208 {(10 * 8), ACPI_RESTAG_MAXADDR},
209 {(12 * 8), ACPI_RESTAG_TRANSLATION},
210 {(14 * 8), ACPI_RESTAG_LENGTH},
211 {0, NULL}
212 };
213
214 static const ACPI_RESOURCE_TAG AcpiDmAddress32Tags[] =
215 {
216 {( 4 * 8) + 1, ACPI_RESTAG_DECODE},
217 {( 4 * 8) + 2, ACPI_RESTAG_MINTYPE},
218 {( 4 * 8) + 3, ACPI_RESTAG_MAXTYPE},
219 {( 6 * 8), ACPI_RESTAG_GRANULARITY},
220 {(10 * 8), ACPI_RESTAG_MINADDR},
221 {(14 * 8), ACPI_RESTAG_MAXADDR},
222 {(18 * 8), ACPI_RESTAG_TRANSLATION},
223 {(22 * 8), ACPI_RESTAG_LENGTH},
224 {0, NULL}
225 };
226
227 static const ACPI_RESOURCE_TAG AcpiDmAddress64Tags[] =
228 {
229 {( 4 * 8) + 1, ACPI_RESTAG_DECODE},
230 {( 4 * 8) + 2, ACPI_RESTAG_MINTYPE},
231 {( 4 * 8) + 3, ACPI_RESTAG_MAXTYPE},
232 {( 6 * 8), ACPI_RESTAG_GRANULARITY},
233 {(14 * 8), ACPI_RESTAG_MINADDR},
234 {(22 * 8), ACPI_RESTAG_MAXADDR},
235 {(30 * 8), ACPI_RESTAG_TRANSLATION},
236 {(38 * 8), ACPI_RESTAG_LENGTH},
237 {0, NULL}
238 };
239
240 static const ACPI_RESOURCE_TAG AcpiDmExtendedAddressTags[] =
241 {
242 {( 4 * 8) + 1, ACPI_RESTAG_DECODE},
243 {( 4 * 8) + 2, ACPI_RESTAG_MINTYPE},
244 {( 4 * 8) + 3, ACPI_RESTAG_MAXTYPE},
245 {( 8 * 8), ACPI_RESTAG_GRANULARITY},
246 {(16 * 8), ACPI_RESTAG_MINADDR},
247 {(24 * 8), ACPI_RESTAG_MAXADDR},
248 {(32 * 8), ACPI_RESTAG_TRANSLATION},
249 {(40 * 8), ACPI_RESTAG_LENGTH},
250 {(48 * 8), ACPI_RESTAG_TYPESPECIFICATTRIBUTES},
251 {0, NULL}
252 };
253
254 /* Subtype tables for GPIO descriptors */
255
256 static const ACPI_RESOURCE_TAG AcpiDmGpioIntTags[] =
257 {
258 {( 7 * 8) + 0, ACPI_RESTAG_MODE},
259 {( 7 * 8) + 1, ACPI_RESTAG_POLARITY},
260 {( 7 * 8) + 3, ACPI_RESTAG_INTERRUPTSHARE},
261 {( 9 * 8), ACPI_RESTAG_PINCONFIG},
262 {(10 * 8), ACPI_RESTAG_DRIVESTRENGTH},
263 {(12 * 8), ACPI_RESTAG_DEBOUNCETIME},
264 {0, NULL}
265 };
266
267 static const ACPI_RESOURCE_TAG AcpiDmGpioIoTags[] =
268 {
269 {( 7 * 8) + 0, ACPI_RESTAG_IORESTRICTION},
270 {( 7 * 8) + 3, ACPI_RESTAG_INTERRUPTSHARE},
271 {( 9 * 8), ACPI_RESTAG_PINCONFIG},
272 {(10 * 8), ACPI_RESTAG_DRIVESTRENGTH},
273 {(12 * 8), ACPI_RESTAG_DEBOUNCETIME},
274 {0, NULL}
275 };
276
277 /* Subtype tables for SerialBus descriptors */
278
279 static const ACPI_RESOURCE_TAG AcpiDmI2cSerialBusTags[] =
280 {
281 {( 6 * 8) + 0, ACPI_RESTAG_SLAVEMODE},
282 {( 7 * 8) + 0, ACPI_RESTAG_MODE},
283 {(12 * 8), ACPI_RESTAG_SPEED},
284 {(16 * 8), ACPI_RESTAG_ADDRESS},
285 {0, NULL}
286 };
287
288 static const ACPI_RESOURCE_TAG AcpiDmSpiSerialBusTags[] =
289 {
290 {( 6 * 8) + 0, ACPI_RESTAG_SLAVEMODE},
291 {( 7 * 8) + 0, ACPI_RESTAG_MODE},
292 {( 7 * 8) + 1, ACPI_RESTAG_DEVICEPOLARITY},
293 {(12 * 8), ACPI_RESTAG_SPEED},
294 {(16 * 8), ACPI_RESTAG_LENGTH},
295 {(17 * 8), ACPI_RESTAG_PHASE},
296 {(18 * 8), ACPI_RESTAG_POLARITY},
297 {(19 * 8), ACPI_RESTAG_ADDRESS},
298 {0, NULL}
299 };
300
301 static const ACPI_RESOURCE_TAG AcpiDmUartSerialBusTags[] =
302 {
303 {( 6 * 8) + 0, ACPI_RESTAG_SLAVEMODE}, /* Note: not part of original macro */
304 {( 7 * 8) + 0, ACPI_RESTAG_FLOWCONTROL},
305 {( 7 * 8) + 2, ACPI_RESTAG_STOPBITS},
306 {( 7 * 8) + 4, ACPI_RESTAG_LENGTH},
307 {( 7 * 8) + 7, ACPI_RESTAG_ENDIANNESS},
308 {(12 * 8), ACPI_RESTAG_SPEED},
309 {(16 * 8), ACPI_RESTAG_LENGTH_RX},
310 {(18 * 8), ACPI_RESTAG_LENGTH_TX},
311 {(20 * 8), ACPI_RESTAG_PARITY},
312 {(21 * 8), ACPI_RESTAG_LINE},
313 {0, NULL}
314 };
315
316 /* Subtype tables for Address descriptor type-specific flags */
317
318 static const ACPI_RESOURCE_TAG AcpiDmMemoryFlagTags[] =
319 {
320 {( 5 * 8) + 0, ACPI_RESTAG_READWRITETYPE},
321 {( 5 * 8) + 1, ACPI_RESTAG_MEMTYPE},
322 {( 5 * 8) + 3, ACPI_RESTAG_MEMATTRIBUTES},
323 {( 5 * 8) + 5, ACPI_RESTAG_TYPE},
324 {0, NULL}
325 };
326
327 static const ACPI_RESOURCE_TAG AcpiDmIoFlagTags[] =
328 {
329 {( 5 * 8) + 0, ACPI_RESTAG_RANGETYPE},
330 {( 5 * 8) + 4, ACPI_RESTAG_TYPE},
331 {( 5 * 8) + 5, ACPI_RESTAG_TRANSTYPE},
332 {0, NULL}
333 };
334
335
336 /*
337 * Dispatch table used to obtain the correct tag table for a descriptor.
338 *
339 * A NULL in this table means one of three things:
340 * 1) The descriptor ID is reserved and invalid
341 * 2) The descriptor has no tags associated with it
342 * 3) The descriptor has subtypes and a separate table will be used.
343 */
344 static const ACPI_RESOURCE_TAG *AcpiGbl_ResourceTags[] =
345 {
346 /* Small descriptors */
347
348 NULL, /* 0x00, Reserved */
349 NULL, /* 0x01, Reserved */
350 NULL, /* 0x02, Reserved */
351 NULL, /* 0x03, Reserved */
352 AcpiDmIrqTags, /* 0x04, ACPI_RESOURCE_NAME_IRQ_FORMAT */
353 AcpiDmDmaTags, /* 0x05, ACPI_RESOURCE_NAME_DMA_FORMAT */
354 NULL, /* 0x06, ACPI_RESOURCE_NAME_START_DEPENDENT */
355 NULL, /* 0x07, ACPI_RESOURCE_NAME_END_DEPENDENT */
356 AcpiDmIoTags, /* 0x08, ACPI_RESOURCE_NAME_IO_PORT */
357 AcpiDmFixedIoTags, /* 0x09, ACPI_RESOURCE_NAME_FIXED_IO_PORT */
358 AcpiDmFixedDmaTags, /* 0x0A, ACPI_RESOURCE_NAME_FIXED_DMA */
359 NULL, /* 0x0B, Reserved */
360 NULL, /* 0x0C, Reserved */
361 NULL, /* 0x0D, Reserved */
362 NULL, /* 0x0E, ACPI_RESOURCE_NAME_SMALL_VENDOR */
363 NULL, /* 0x0F, ACPI_RESOURCE_NAME_END_TAG (not used) */
364
365 /* Large descriptors */
366
367 NULL, /* 0x00, Reserved */
368 AcpiDmMemory24Tags, /* 0x01, ACPI_RESOURCE_NAME_MEMORY_24 */
369 AcpiDmRegisterTags, /* 0x02, ACPI_RESOURCE_NAME_GENERIC_REGISTER */
370 NULL, /* 0x03, Reserved */
371 NULL, /* 0x04, ACPI_RESOURCE_NAME_LARGE_VENDOR */
372 AcpiDmMemory32Tags, /* 0x05, ACPI_RESOURCE_NAME_MEMORY_32 */
373 AcpiDmFixedMemory32Tags, /* 0x06, ACPI_RESOURCE_NAME_FIXED_MEMORY_32 */
374 AcpiDmAddress32Tags, /* 0x07, ACPI_RESOURCE_NAME_DWORD_ADDRESS_SPACE */
375 AcpiDmAddress16Tags, /* 0x08, ACPI_RESOURCE_NAME_WORD_ADDRESS_SPACE */
376 AcpiDmInterruptTags, /* 0x09, ACPI_RESOURCE_NAME_EXTENDED_XRUPT */
377 AcpiDmAddress64Tags, /* 0x0A, ACPI_RESOURCE_NAME_QWORD_ADDRESS_SPACE */
378 AcpiDmExtendedAddressTags, /* 0x0B, ACPI_RESOURCE_NAME_EXTENDED_ADDRESS_SPACE */
379 NULL, /* 0x0C, ACPI_RESOURCE_NAME_GPIO - Use Subtype table below */
380 NULL, /* 0x0D, Reserved */
381 NULL /* 0x0E, ACPI_RESOURCE_NAME_SERIAL_BUS - Use Subtype table below */
382 };
383
384 /* GPIO Subtypes */
385
386 static const ACPI_RESOURCE_TAG *AcpiGbl_GpioResourceTags[] =
387 {
388 AcpiDmGpioIntTags, /* 0x00 Interrupt Connection */
389 AcpiDmGpioIoTags /* 0x01 I/O Connection */
390 };
391
392 /* Serial Bus Subtypes */
393
394 static const ACPI_RESOURCE_TAG *AcpiGbl_SerialResourceTags[] =
395 {
396 NULL, /* 0x00 Reserved */
397 AcpiDmI2cSerialBusTags, /* 0x01 I2C SerialBus */
398 AcpiDmSpiSerialBusTags, /* 0x02 SPI SerialBus */
399 AcpiDmUartSerialBusTags /* 0x03 UART SerialBus */
400 };
401
402 /*
403 * Globals used to generate unique resource descriptor names. We use names that
404 * start with underscore and a prefix letter that is not used by other ACPI
405 * reserved names. To this, we append hex 0x00 through 0xFF. These 5 prefixes
406 * allow for 5*256 = 1280 unique names, probably sufficient for any single ASL
407 * file. If this becomes too small, we can use alpha+numerals for a total
408 * of 5*36*36 = 6480.
409 */
410 #define ACPI_NUM_RES_PREFIX 5
411
412 static UINT32 AcpiGbl_NextResourceId = 0;
413 static UINT8 AcpiGbl_NextPrefix = 0;
414 static char AcpiGbl_Prefix[ACPI_NUM_RES_PREFIX] =
415 {'Y','Z','J','K','X'};
416
417
418 /*******************************************************************************
419 *
420 * FUNCTION: AcpiDmCheckResourceReference
421 *
422 * PARAMETERS: Op - Parse Op for the AML opcode
423 * WalkState - Current walk state (with valid scope)
424 *
425 * RETURN: None
426 *
427 * DESCRIPTION: Convert a reference to a resource descriptor to a symbolic
428 * reference if possible
429 *
430 * NOTE: Bit index is used to transparently handle both resource bit
431 * fields and byte fields.
432 *
433 ******************************************************************************/
434
435 void
AcpiDmCheckResourceReference(ACPI_PARSE_OBJECT * Op,ACPI_WALK_STATE * WalkState)436 AcpiDmCheckResourceReference (
437 ACPI_PARSE_OBJECT *Op,
438 ACPI_WALK_STATE *WalkState)
439 {
440 ACPI_STATUS Status;
441 ACPI_PARSE_OBJECT *BufferNameOp;
442 ACPI_PARSE_OBJECT *IndexOp;
443 ACPI_NAMESPACE_NODE *BufferNode;
444 ACPI_NAMESPACE_NODE *ResourceNode;
445 const ACPI_OPCODE_INFO *OpInfo;
446 UINT32 BitIndex;
447
448
449 /* We are only interested in the CreateXxxxField opcodes */
450
451 OpInfo = AcpiPsGetOpcodeInfo (Op->Common.AmlOpcode);
452 if (OpInfo->Type != AML_TYPE_CREATE_FIELD)
453 {
454 return;
455 }
456
457 /* Get the buffer term operand */
458
459 BufferNameOp = AcpiPsGetDepthNext (NULL, Op);
460
461 /* Must be a named buffer, not an arg or local or method call */
462
463 if (BufferNameOp->Common.AmlOpcode != AML_INT_NAMEPATH_OP)
464 {
465 return;
466 }
467
468 /* Get the Index term, must be an integer constant to convert */
469
470 IndexOp = BufferNameOp->Common.Next;
471
472 /* Major cheat: The Node field is also used for the Tag ptr. Clear it now */
473
474 IndexOp->Common.Node = NULL;
475
476 OpInfo = AcpiPsGetOpcodeInfo (IndexOp->Common.AmlOpcode);
477 if (OpInfo->ObjectType != ACPI_TYPE_INTEGER)
478 {
479 return;
480 }
481
482 /* Get the bit offset of the descriptor within the buffer */
483
484 if ((Op->Common.AmlOpcode == AML_CREATE_BIT_FIELD_OP) ||
485 (Op->Common.AmlOpcode == AML_CREATE_FIELD_OP))
486 {
487 /* Index operand is a bit offset */
488
489 BitIndex = (UINT32) IndexOp->Common.Value.Integer;
490 }
491 else
492 {
493 /* Index operand is a byte offset, convert to bits */
494
495 BitIndex = (UINT32) ACPI_MUL_8 (IndexOp->Common.Value.Integer);
496 }
497
498 /* Lookup the buffer in the namespace */
499
500 Status = AcpiNsLookup (WalkState->ScopeInfo,
501 BufferNameOp->Common.Value.String, ACPI_TYPE_BUFFER,
502 ACPI_IMODE_EXECUTE, ACPI_NS_SEARCH_PARENT, WalkState,
503 &BufferNode);
504 if (ACPI_FAILURE (Status))
505 {
506 return;
507 }
508
509 /* Validate object type, we must have a buffer */
510
511 if (BufferNode->Type != ACPI_TYPE_BUFFER)
512 {
513 return;
514 }
515
516 /* Find the resource descriptor node corresponding to the index */
517
518 ResourceNode = AcpiDmGetResourceNode (BufferNode, BitIndex);
519 if (!ResourceNode)
520 {
521 return;
522 }
523
524 /* Translate the Index to a resource tag pathname */
525
526 AcpiGetTagPathname (IndexOp, BufferNode, ResourceNode, BitIndex);
527 }
528
529
530 /*******************************************************************************
531 *
532 * FUNCTION: AcpiDmGetResourceNode
533 *
534 * PARAMETERS: BufferNode - Node for the parent buffer
535 * BitIndex - Index into the resource descriptor
536 *
537 * RETURN: Namespace node for the resource descriptor. NULL if not found
538 *
539 * DESCRIPTION: Find a resource descriptor that corresponds to the bit index
540 *
541 ******************************************************************************/
542
543 static ACPI_NAMESPACE_NODE *
AcpiDmGetResourceNode(ACPI_NAMESPACE_NODE * BufferNode,UINT32 BitIndex)544 AcpiDmGetResourceNode (
545 ACPI_NAMESPACE_NODE *BufferNode,
546 UINT32 BitIndex)
547 {
548 ACPI_NAMESPACE_NODE *Node;
549 UINT32 ByteIndex = ACPI_DIV_8 (BitIndex);
550
551
552 /*
553 * Child list contains an entry for each resource descriptor. Find
554 * the descriptor that corresponds to the Index.
555 *
556 * If there are no children, this is not a resource template
557 */
558 Node = BufferNode->Child;
559 while (Node)
560 {
561 /*
562 * Check if the Index falls within this resource.
563 *
564 * Value contains the resource offset, Object contains the resource
565 * length (both in bytes)
566 */
567 if ((ByteIndex >= Node->Value) &&
568 (ByteIndex < (Node->Value + Node->Length)))
569 {
570 return (Node);
571 }
572
573 Node = Node->Peer;
574 }
575
576 return (NULL);
577 }
578
579
580 /*******************************************************************************
581 *
582 * FUNCTION: AcpiGetTagPathname
583 *
584 * PARAMETERS: BufferNode - Node for the parent buffer
585 * ResourceNode - Node for a resource descriptor
586 * BitIndex - Index into the resource descriptor
587 *
588 * RETURN: Full pathname for a resource tag. NULL if no match.
589 * Path is returned in AML (packed) format.
590 *
591 * DESCRIPTION: Convert a BitIndex into a symbolic resource tag (full pathname)
592 *
593 ******************************************************************************/
594
595 static char *
AcpiGetTagPathname(ACPI_PARSE_OBJECT * IndexOp,ACPI_NAMESPACE_NODE * BufferNode,ACPI_NAMESPACE_NODE * ResourceNode,UINT32 BitIndex)596 AcpiGetTagPathname (
597 ACPI_PARSE_OBJECT *IndexOp,
598 ACPI_NAMESPACE_NODE *BufferNode,
599 ACPI_NAMESPACE_NODE *ResourceNode,
600 UINT32 BitIndex)
601 {
602 ACPI_STATUS Status;
603 UINT32 ResourceBitIndex;
604 UINT8 ResourceTableIndex;
605 ACPI_SIZE RequiredSize;
606 char *Pathname;
607 AML_RESOURCE *Aml;
608 ACPI_PARSE_OBJECT *Op;
609 char *InternalPath;
610 char *Tag;
611
612
613 /* Get the Op that contains the actual buffer data */
614
615 Op = BufferNode->Op->Common.Value.Arg;
616 Op = Op->Common.Next;
617 if (!Op)
618 {
619 return (NULL);
620 }
621
622 /* Get the individual resource descriptor and validate it */
623
624 Aml = ACPI_CAST_PTR (AML_RESOURCE,
625 &Op->Named.Data[ResourceNode->Value]);
626
627 Status = AcpiUtValidateResource (NULL, Aml, &ResourceTableIndex);
628 if (ACPI_FAILURE (Status))
629 {
630 return (NULL);
631 }
632
633 /* Get offset into this descriptor (from offset into entire buffer) */
634
635 ResourceBitIndex = BitIndex - ACPI_MUL_8 (ResourceNode->Value);
636
637 /* Get the tag associated with this resource descriptor and offset */
638
639 Tag = AcpiDmGetResourceTag (ResourceBitIndex, Aml, ResourceTableIndex);
640 if (!Tag)
641 {
642 return (NULL);
643 }
644
645 /*
646 * Now that we know that we have a reference that can be converted to a
647 * symbol, change the name of the resource to a unique name.
648 */
649 AcpiDmUpdateResourceName (ResourceNode);
650
651 /* Get the full pathname to the parent buffer */
652
653 RequiredSize = AcpiNsBuildNormalizedPath (BufferNode, NULL, 0, FALSE);
654 if (!RequiredSize)
655 {
656 return (NULL);
657 }
658
659 Pathname = ACPI_ALLOCATE_ZEROED (RequiredSize + ACPI_PATH_SEGMENT_LENGTH);
660 if (!Pathname)
661 {
662 return (NULL);
663 }
664
665 (void) AcpiNsBuildNormalizedPath (BufferNode, Pathname,
666 RequiredSize, FALSE);
667
668 /*
669 * Create the full path to the resource and tag by: remove the buffer name,
670 * append the resource descriptor name, append a dot, append the tag name.
671 *
672 * TBD: Always using the full path is a bit brute force, the path can be
673 * often be optimized with carats (if the original buffer namepath is a
674 * single nameseg). This doesn't really matter, because these paths do not
675 * end up in the final compiled AML, it's just an appearance issue for the
676 * disassembled code.
677 */
678 Pathname[strlen (Pathname) - ACPI_NAME_SIZE] = 0;
679 strncat (Pathname, ResourceNode->Name.Ascii, ACPI_NAME_SIZE);
680 strcat (Pathname, ".");
681 strncat (Pathname, Tag, ACPI_NAME_SIZE);
682
683 /* Internalize the namepath to AML format */
684
685 AcpiNsInternalizeName (Pathname, &InternalPath);
686 ACPI_FREE (Pathname);
687
688 /* Update the Op with the symbol */
689
690 AcpiPsInitOp (IndexOp, AML_INT_NAMEPATH_OP);
691 IndexOp->Common.Value.String = InternalPath;
692
693 /* We will need the tag later. Cheat by putting it in the Node field */
694
695 IndexOp->Common.Node = ACPI_CAST_PTR (ACPI_NAMESPACE_NODE, Tag);
696 return (InternalPath);
697 }
698
699
700 /*******************************************************************************
701 *
702 * FUNCTION: AcpiDmUpdateResourceName
703 *
704 * PARAMETERS: ResourceNode - Node for a resource descriptor
705 *
706 * RETURN: Stores new name in the ResourceNode
707 *
708 * DESCRIPTION: Create a new, unique name for a resource descriptor. Used by
709 * both the disassembly of the descriptor itself and any symbolic
710 * references to the descriptor. Ignored if a unique name has
711 * already been assigned to the resource.
712 *
713 * NOTE: Single threaded, suitable for applications only!
714 *
715 ******************************************************************************/
716
717 static void
AcpiDmUpdateResourceName(ACPI_NAMESPACE_NODE * ResourceNode)718 AcpiDmUpdateResourceName (
719 ACPI_NAMESPACE_NODE *ResourceNode)
720 {
721 char Name[ACPI_NAME_SIZE];
722
723
724 /* Ignore if a unique name has already been assigned */
725
726 if (ResourceNode->Name.Integer != ACPI_DEFAULT_RESNAME)
727 {
728 return;
729 }
730
731 /* Generate a new ACPI name for the descriptor */
732
733 Name[0] = '_';
734 Name[1] = AcpiGbl_Prefix[AcpiGbl_NextPrefix];
735 Name[2] = AcpiUtHexToAsciiChar ((UINT64) AcpiGbl_NextResourceId, 4);
736 Name[3] = AcpiUtHexToAsciiChar ((UINT64) AcpiGbl_NextResourceId, 0);
737
738 /* Update globals for next name */
739
740 AcpiGbl_NextResourceId++;
741 if (AcpiGbl_NextResourceId >= 256)
742 {
743 AcpiGbl_NextResourceId = 0;
744 AcpiGbl_NextPrefix++;
745 if (AcpiGbl_NextPrefix > ACPI_NUM_RES_PREFIX)
746 {
747 AcpiGbl_NextPrefix = 0;
748 }
749 }
750
751 /* Change the resource descriptor name */
752
753 ResourceNode->Name.Integer = *ACPI_CAST_PTR (UINT32, &Name[0]);
754 }
755
756
757 /*******************************************************************************
758 *
759 * FUNCTION: AcpiDmGetResourceTag
760 *
761 * PARAMETERS: BitIndex - Index into the resource descriptor
762 * Resource - Pointer to the raw resource data
763 * ResourceIndex - Index correspoinding to the resource type
764 *
765 * RETURN: Pointer to the resource tag (ACPI_NAME). NULL if no match.
766 *
767 * DESCRIPTION: Convert a BitIndex into a symbolic resource tag.
768 *
769 * Note: ResourceIndex should be previously validated and guaranteed to ve
770 * valid.
771 *
772 ******************************************************************************/
773
774 static char *
AcpiDmGetResourceTag(UINT32 BitIndex,AML_RESOURCE * Resource,UINT8 ResourceIndex)775 AcpiDmGetResourceTag (
776 UINT32 BitIndex,
777 AML_RESOURCE *Resource,
778 UINT8 ResourceIndex)
779 {
780 const ACPI_RESOURCE_TAG *TagList;
781 char *Tag = NULL;
782
783
784 /* Get the tag list for this resource descriptor type */
785
786 TagList = AcpiGbl_ResourceTags[ResourceIndex];
787
788 /*
789 * Handle descriptors that have multiple subtypes
790 */
791 switch (Resource->DescriptorType)
792 {
793 case ACPI_RESOURCE_NAME_ADDRESS16:
794 case ACPI_RESOURCE_NAME_ADDRESS32:
795 case ACPI_RESOURCE_NAME_ADDRESS64:
796 case ACPI_RESOURCE_NAME_EXTENDED_ADDRESS64:
797 /*
798 * Subtype differentiation is the flags.
799 * Kindof brute force, but just blindly search for an index match
800 */
801 if (Resource->Address.ResourceType == ACPI_ADDRESS_TYPE_MEMORY_RANGE)
802 {
803 Tag = AcpiDmSearchTagList (BitIndex, AcpiDmMemoryFlagTags);
804 }
805 else if (Resource->Address.ResourceType == ACPI_ADDRESS_TYPE_IO_RANGE)
806 {
807 Tag = AcpiDmSearchTagList (BitIndex, AcpiDmIoFlagTags);
808 }
809
810 /* If we found a match, all done. Else, drop to normal search below */
811
812 if (Tag)
813 {
814 return (Tag);
815 }
816 break;
817
818 case ACPI_RESOURCE_NAME_GPIO:
819
820 /* GPIO connection has 2 subtypes: Interrupt and I/O */
821
822 if (Resource->Gpio.ConnectionType > AML_RESOURCE_MAX_GPIOTYPE)
823 {
824 return (NULL);
825 }
826
827 TagList = AcpiGbl_GpioResourceTags[Resource->Gpio.ConnectionType];
828 break;
829
830 case ACPI_RESOURCE_NAME_SERIAL_BUS:
831
832 /* SerialBus has 3 subtypes: I2C, SPI, and UART */
833
834 if ((Resource->CommonSerialBus.Type == 0) ||
835 (Resource->CommonSerialBus.Type > AML_RESOURCE_MAX_SERIALBUSTYPE))
836 {
837 return (NULL);
838 }
839
840 TagList = AcpiGbl_SerialResourceTags[Resource->CommonSerialBus.Type];
841 break;
842
843 default:
844
845 break;
846 }
847
848 /* Search for a match against the BitIndex */
849
850 if (TagList)
851 {
852 Tag = AcpiDmSearchTagList (BitIndex, TagList);
853 }
854
855 return (Tag);
856 }
857
858
859 /*******************************************************************************
860 *
861 * FUNCTION: AcpiDmSearchTagList
862 *
863 * PARAMETERS: BitIndex - Index into the resource descriptor
864 * TagList - List to search
865 *
866 * RETURN: Pointer to a tag (ACPI_NAME). NULL if no match found.
867 *
868 * DESCRIPTION: Search a tag list for a match to the input BitIndex. Matches
869 * a fixed offset to a symbolic resource tag name.
870 *
871 ******************************************************************************/
872
873 static char *
AcpiDmSearchTagList(UINT32 BitIndex,const ACPI_RESOURCE_TAG * TagList)874 AcpiDmSearchTagList (
875 UINT32 BitIndex,
876 const ACPI_RESOURCE_TAG *TagList)
877 {
878
879 /*
880 * Walk the null-terminated tag list to find a matching bit offset.
881 * We are looking for an exact match.
882 */
883 for ( ; TagList->Tag; TagList++)
884 {
885 if (BitIndex == TagList->BitIndex)
886 {
887 return (TagList->Tag);
888 }
889 }
890
891 /* A matching offset was not found */
892
893 return (NULL);
894 }
895
896
897 /*******************************************************************************
898 *
899 * FUNCTION: AcpiDmFindResources
900 *
901 * PARAMETERS: Root - Root of the parse tree
902 *
903 * RETURN: None
904 *
905 * DESCRIPTION: Add all ResourceTemplate declarations to the namespace. Each
906 * resource descriptor in each template is given a node -- used
907 * for later conversion of resource references to symbolic refs.
908 *
909 ******************************************************************************/
910
911 void
AcpiDmFindResources(ACPI_PARSE_OBJECT * Root)912 AcpiDmFindResources (
913 ACPI_PARSE_OBJECT *Root)
914 {
915 ACPI_PARSE_OBJECT *Op = Root;
916 ACPI_PARSE_OBJECT *Parent;
917
918
919 /* Walk the entire parse tree */
920
921 while (Op)
922 {
923 /* We are interested in Buffer() declarations */
924
925 if (Op->Common.AmlOpcode == AML_BUFFER_OP)
926 {
927 /* And only declarations of the form Name (XXXX, Buffer()... ) */
928
929 Parent = Op->Common.Parent;
930 if (Parent->Common.AmlOpcode == AML_NAME_OP)
931 {
932 /*
933 * If the buffer is a resource template, add the individual
934 * resource descriptors to the namespace, as children of the
935 * buffer node.
936 */
937 if (ACPI_SUCCESS (AcpiDmIsResourceTemplate (NULL, Op)))
938 {
939 Op->Common.DisasmOpcode = ACPI_DASM_RESOURCE;
940 AcpiDmAddResourcesToNamespace (Parent->Common.Node, Op);
941 }
942 }
943 }
944
945 Op = AcpiPsGetDepthNext (Root, Op);
946 }
947 }
948
949
950 /*******************************************************************************
951 *
952 * FUNCTION: AcpiDmAddResourcesToNamespace
953 *
954 * PARAMETERS: BufferNode - Node for the parent buffer
955 * Op - Parse op for the buffer
956 *
957 * RETURN: None
958 *
959 * DESCRIPTION: Add an entire resource template to the namespace. Each
960 * resource descriptor is added as a namespace node.
961 *
962 ******************************************************************************/
963
964 static void
AcpiDmAddResourcesToNamespace(ACPI_NAMESPACE_NODE * BufferNode,ACPI_PARSE_OBJECT * Op)965 AcpiDmAddResourcesToNamespace (
966 ACPI_NAMESPACE_NODE *BufferNode,
967 ACPI_PARSE_OBJECT *Op)
968 {
969 ACPI_PARSE_OBJECT *NextOp;
970
971
972 /* Get to the ByteData list */
973
974 NextOp = Op->Common.Value.Arg;
975 NextOp = NextOp->Common.Next;
976 if (!NextOp)
977 {
978 return;
979 }
980
981 /* Set Node and Op to point to each other */
982
983 BufferNode->Op = Op;
984 Op->Common.Node = BufferNode;
985
986 /*
987 * Insert each resource into the namespace
988 * NextOp contains the Aml pointer and the Aml length
989 */
990 AcpiUtWalkAmlResources (NULL, (UINT8 *) NextOp->Named.Data,
991 (ACPI_SIZE) NextOp->Common.Value.Integer,
992 AcpiDmAddResourceToNamespace, (void **) BufferNode);
993 }
994
995
996 /*******************************************************************************
997 *
998 * FUNCTION: AcpiDmAddResourceToNamespace
999 *
1000 * PARAMETERS: ACPI_WALK_AML_CALLBACK
1001 * BufferNode - Node for the parent buffer
1002 *
1003 * RETURN: Status
1004 *
1005 * DESCRIPTION: Add one resource descriptor to the namespace as a child of the
1006 * parent buffer. The same name is used for each descriptor. This
1007 * is changed later to a unique name if the resource is actually
1008 * referenced by an AML operator.
1009 *
1010 ******************************************************************************/
1011
1012 static ACPI_STATUS
AcpiDmAddResourceToNamespace(UINT8 * Aml,UINT32 Length,UINT32 Offset,UINT8 ResourceIndex,void ** Context)1013 AcpiDmAddResourceToNamespace (
1014 UINT8 *Aml,
1015 UINT32 Length,
1016 UINT32 Offset,
1017 UINT8 ResourceIndex,
1018 void **Context)
1019 {
1020 ACPI_STATUS Status;
1021 ACPI_GENERIC_STATE ScopeInfo;
1022 ACPI_NAMESPACE_NODE *Node;
1023
1024
1025 /* TBD: Don't need to add descriptors that have no tags defined? */
1026
1027 /* Add the resource to the namespace, as child of the buffer */
1028
1029 ScopeInfo.Scope.Node = ACPI_CAST_PTR (ACPI_NAMESPACE_NODE, Context);
1030 Status = AcpiNsLookup (&ScopeInfo, "_TMP", ACPI_TYPE_LOCAL_RESOURCE,
1031 ACPI_IMODE_LOAD_PASS2,
1032 ACPI_NS_NO_UPSEARCH | ACPI_NS_DONT_OPEN_SCOPE | ACPI_NS_PREFIX_IS_SCOPE,
1033 NULL, &Node);
1034 if (ACPI_FAILURE (Status))
1035 {
1036 return (AE_OK);
1037 }
1038
1039 /* Set the name to the default, changed later if resource is referenced */
1040
1041 Node->Name.Integer = ACPI_DEFAULT_RESNAME;
1042
1043 /* Save the offset of the descriptor (within the original buffer) */
1044
1045 Node->Value = Offset;
1046 Node->Length = Length;
1047 return (AE_OK);
1048 }
1049