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1 /** @file
2   Platform TPM Profile Specification definition for TPM2.0.
3   It covers both FIFO and CRB interface.
4 
5 Copyright (c) 2016, Intel Corporation. All rights reserved.<BR>
6 This program and the accompanying materials
7 are licensed and made available under the terms and conditions of the BSD License
8 which accompanies this distribution.  The full text of the license may be found at
9 http://opensource.org/licenses/bsd-license.php
10 
11 THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
12 WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
13 
14 **/
15 
16 #ifndef _TPM_PTP_H_
17 #define _TPM_PTP_H_
18 
19 //
20 // PTP FIFO definition
21 //
22 
23 //
24 // Set structure alignment to 1-byte
25 //
26 #pragma pack (1)
27 
28 //
29 // Register set map as specified in PTP specification Chapter 5
30 //
31 typedef struct {
32   ///
33   /// Used to gain ownership for this particular port.
34   ///
35   UINT8                             Access;             // 0
36   UINT8                             Reserved1[7];       // 1
37   ///
38   /// Controls interrupts.
39   ///
40   UINT32                            IntEnable;          // 8
41   ///
42   /// SIRQ vector to be used by the TPM.
43   ///
44   UINT8                             IntVector;          // 0ch
45   UINT8                             Reserved2[3];       // 0dh
46   ///
47   /// What caused interrupt.
48   ///
49   UINT32                            IntSts;             // 10h
50   ///
51   /// Shows which interrupts are supported by that particular TPM.
52   ///
53   UINT32                            InterfaceCapability;// 14h
54   ///
55   /// Status Register. Provides status of the TPM.
56   ///
57   UINT8                             Status;             // 18h
58   ///
59   /// Number of consecutive writes that can be done to the TPM.
60   ///
61   UINT16                            BurstCount;         // 19h
62   ///
63   /// Additional Status Register.
64   ///
65   UINT8                             StatusEx;           // 1Bh
66   UINT8                             Reserved3[8];
67   ///
68   /// Read or write FIFO, depending on transaction.
69   ///
70   UINT32                            DataFifo;           // 24h
71   UINT8                             Reserved4[8];       // 28h
72   ///
73   /// Used to identify the Interface types supported by the TPM.
74   ///
75   UINT32                            InterfaceId;        // 30h
76   UINT8                             Reserved5[0x4c];    // 34h
77   ///
78   /// Extended ReadFIFO or WriteFIFO, depending on the current bus cycle (read or write)
79   ///
80   UINT32                            XDataFifo;          // 80h
81   UINT8                             Reserved6[0xe7c];   // 84h
82   ///
83   /// Vendor ID
84   ///
85   UINT16                            Vid;                // 0f00h
86   ///
87   /// Device ID
88   ///
89   UINT16                            Did;                // 0f02h
90   ///
91   /// Revision ID
92   ///
93   UINT8                             Rid;                // 0f04h
94   UINT8                             Reserved[0xfb];     // 0f05h
95 } PTP_FIFO_REGISTERS;
96 
97 //
98 // Restore original structure alignment
99 //
100 #pragma pack ()
101 
102 //
103 // Define pointer types used to access TIS registers on PC
104 //
105 typedef PTP_FIFO_REGISTERS  *PTP_FIFO_REGISTERS_PTR;
106 
107 //
108 // Define bits of FIFO Interface Identifier Register
109 //
110 typedef union {
111   struct {
112     UINT32   InterfaceType:4;
113     UINT32   InterfaceVersion:4;
114     UINT32   CapLocality:1;
115     UINT32   Reserved1:2;
116     UINT32   CapDataXferSizeSupport:2;
117     UINT32   CapFIFO:1;
118     UINT32   CapCRB:1;
119     UINT32   CapIFRes:2;
120     UINT32   InterfaceSelector:2;
121     UINT32   IntfSelLock:1;
122     UINT32   Reserved2:4;
123     UINT32   Reserved3:8;
124   } Bits;
125   UINT32   Uint32;
126 } PTP_FIFO_INTERFACE_IDENTIFIER;
127 
128 //
129 // Define bits of FIFO Interface Capability Register
130 //
131 typedef union {
132   struct {
133     UINT32   DataAvailIntSupport:1;
134     UINT32   StsValidIntSupport:1;
135     UINT32   LocalityChangeIntSupport:1;
136     UINT32   InterruptLevelHigh:1;
137     UINT32   InterruptLevelLow:1;
138     UINT32   InterruptEdgeRising:1;
139     UINT32   InterruptEdgeFalling:1;
140     UINT32   CommandReadyIntSupport:1;
141     UINT32   BurstCountStatic:1;
142     UINT32   DataTransferSizeSupport:2;
143     UINT32   Reserved:17;
144     UINT32   InterfaceVersion:3;
145     UINT32   Reserved2:1;
146   } Bits;
147   UINT32   Uint32;
148 } PTP_FIFO_INTERFACE_CAPABILITY;
149 
150 ///
151 /// InterfaceVersion
152 ///
153 #define INTERFACE_CAPABILITY_INTERFACE_VERSION_TIS_12  0x0
154 #define INTERFACE_CAPABILITY_INTERFACE_VERSION_TIS_13  0x2
155 #define INTERFACE_CAPABILITY_INTERFACE_VERSION_PTP     0x3
156 
157 
158 //
159 // Define bits of ACCESS and STATUS registers
160 //
161 
162 ///
163 /// This bit is a 1 to indicate that the other bits in this register are valid.
164 ///
165 #define PTP_FIFO_VALID                BIT7
166 ///
167 /// Indicate that this locality is active.
168 ///
169 #define PTP_FIFO_ACC_ACTIVE           BIT5
170 ///
171 /// Set to 1 to indicate that this locality had the TPM taken away while
172 /// this locality had the TIS_PC_ACC_ACTIVE bit set.
173 ///
174 #define PTP_FIFO_ACC_SEIZED           BIT4
175 ///
176 /// Set to 1 to indicate that TPM MUST reset the
177 /// TIS_PC_ACC_ACTIVE bit and remove ownership for localities less than the
178 /// locality that is writing this bit.
179 ///
180 #define PTP_FIFO_ACC_SEIZE            BIT3
181 ///
182 /// When this bit is 1, another locality is requesting usage of the TPM.
183 ///
184 #define PTP_FIFO_ACC_PENDIND          BIT2
185 ///
186 /// Set to 1 to indicate that this locality is requesting to use TPM.
187 ///
188 #define PTP_FIFO_ACC_RQUUSE           BIT1
189 ///
190 /// A value of 1 indicates that a T/OS has not been established on the platform
191 ///
192 #define PTP_FIFO_ACC_ESTABLISH        BIT0
193 
194 ///
195 /// This field indicates that STS_DATA and STS_EXPECT are valid
196 ///
197 #define PTP_FIFO_STS_VALID            BIT7
198 ///
199 /// When this bit is 1, TPM is in the Ready state,
200 /// indicating it is ready to receive a new command.
201 ///
202 #define PTP_FIFO_STS_READY            BIT6
203 ///
204 /// Write a 1 to this bit to cause the TPM to execute that command.
205 ///
206 #define PTP_FIFO_STS_GO               BIT5
207 ///
208 /// This bit indicates that the TPM has data available as a response.
209 ///
210 #define PTP_FIFO_STS_DATA             BIT4
211 ///
212 /// The TPM sets this bit to a value of 1 when it expects another byte of data for a command.
213 ///
214 #define PTP_FIFO_STS_EXPECT           BIT3
215 ///
216 /// Indicates that the TPM has completed all self-test actions following a TPM_ContinueSelfTest command.
217 ///
218 #define PTP_FIFO_STS_SELFTEST_DONE    BIT2
219 ///
220 /// Writes a 1 to this bit to force the TPM to re-send the response.
221 ///
222 #define PTP_FIFO_STS_RETRY            BIT1
223 
224 ///
225 /// TPM Family Identifier.
226 /// 00: TPM 1.2 Family
227 /// 01: TPM 2.0 Family
228 ///
229 #define PTP_FIFO_STS_EX_TPM_FAMILY    (BIT2 | BIT3)
230 #define PTP_FIFO_STS_EX_TPM_FAMILY_OFFSET    (2)
231 #define PTP_FIFO_STS_EX_TPM_FAMILY_TPM12    (0)
232 #define PTP_FIFO_STS_EX_TPM_FAMILY_TPM20    (BIT2)
233 ///
234 /// A write of 1 after tpmGo and before dataAvail aborts the currently executing command, resulting in a response of TPM_RC_CANCELLED.
235 /// A write of 1 after dataAvail and before tpmGo is ignored by the TPM.
236 ///
237 #define PTP_FIFO_STS_EX_CANCEL        BIT0
238 
239 
240 //
241 // PTP CRB definition
242 //
243 
244 //
245 // Set structure alignment to 1-byte
246 //
247 #pragma pack (1)
248 
249 //
250 // Register set map as specified in PTP specification Chapter 5
251 //
252 typedef struct {
253   ///
254   /// Used to determine current state of Locality of the TPM.
255   ///
256   UINT32                            LocalityState;             // 0
257   UINT8                             Reserved1[4];              // 4
258   ///
259   /// Used to gain control of the TPM by this Locality.
260   ///
261   UINT32                            LocalityControl;           // 8
262   ///
263   /// Used to determine whether Locality has been granted or Seized.
264   ///
265   UINT32                            LocalityStatus;            // 0ch
266   UINT8                             Reserved2[0x20];           // 10h
267   ///
268   /// Used to identify the Interface types supported by the TPM.
269   ///
270   UINT32                            InterfaceId;               // 30h
271   ///
272   /// Vendor ID
273   ///
274   UINT16                            Vid;                       // 34h
275   ///
276   /// Device ID
277   ///
278   UINT16                            Did;                       // 36h
279   ///
280   /// Optional Register used in low memory environments prior to CRB_DATA_BUFFER availability.
281   ///
282   UINT64                            CrbControlExtension;       // 38h
283   ///
284   /// Register used to initiate transactions for the CRB interface.
285   ///
286   UINT32                            CrbControlRequest;         // 40h
287   ///
288   /// Register used by the TPM to provide status of the CRB interface.
289   ///
290   UINT32                            CrbControlStatus;          // 44h
291   ///
292   /// Register used by software to cancel command processing.
293   ///
294   UINT32                            CrbControlCancel;          // 48h
295   ///
296   /// Register used to indicate presence of command or response data in the CRB buffer.
297   ///
298   UINT32                            CrbControlStart;           // 4Ch
299   ///
300   /// Register used to configure and respond to interrupts.
301   ///
302   UINT32                            CrbInterruptEnable;        // 50h
303   UINT32                            CrbInterruptStatus;        // 54h
304   ///
305   /// Size of the Command buffer.
306   ///
307   UINT32                            CrbControlCommandSize;     // 58h
308   ///
309   /// Command buffer start address
310   ///
311   UINT32                            CrbControlCommandAddressLow;   // 5Ch
312   UINT32                            CrbControlCommandAddressHigh;  // 60h
313   ///
314   /// Size of the Response buffer
315   ///
316   UINT32                            CrbControlResponseSize;    // 64h
317   ///
318   /// Address of the start of the Response buffer
319   ///
320   UINT64                            CrbControlResponseAddrss;  // 68h
321   UINT8                             Reserved4[0x10];           // 70h
322   ///
323   /// Command/Response Data may be defined as large as 3968 (0xF80).
324   ///
325   UINT8                             CrbDataBuffer[0xF80];      // 80h
326 } PTP_CRB_REGISTERS;
327 
328 //
329 // Define pointer types used to access CRB registers on PTP
330 //
331 typedef PTP_CRB_REGISTERS  *PTP_CRB_REGISTERS_PTR;
332 
333 //
334 // Define bits of CRB Interface Identifier Register
335 //
336 typedef union {
337   struct {
338     UINT32   InterfaceType:4;
339     UINT32   InterfaceVersion:4;
340     UINT32   CapLocality:1;
341     UINT32   Reserved1:2;
342     UINT32   CapDataXferSizeSupport:2;
343     UINT32   CapFIFO:1;
344     UINT32   CapCRB:1;
345     UINT32   CapIFRes:2;
346     UINT32   InterfaceSelector:2;
347     UINT32   IntfSelLock:1;
348     UINT32   Reserved2:4;
349     UINT32   Rid:8;
350   } Bits;
351   UINT32   Uint32;
352 } PTP_CRB_INTERFACE_IDENTIFIER;
353 
354 ///
355 /// InterfaceType
356 ///
357 #define PTP_INTERFACE_IDENTIFIER_INTERFACE_TYPE_FIFO  0x0
358 #define PTP_INTERFACE_IDENTIFIER_INTERFACE_TYPE_CRB   0x1
359 #define PTP_INTERFACE_IDENTIFIER_INTERFACE_TYPE_TIS   0xF
360 
361 ///
362 /// InterfaceVersion
363 ///
364 #define PTP_INTERFACE_IDENTIFIER_INTERFACE_VERSION_FIFO  0x0
365 #define PTP_INTERFACE_IDENTIFIER_INTERFACE_VERSION_CRB   0x1
366 
367 ///
368 /// InterfaceSelector
369 ///
370 #define PTP_INTERFACE_IDENTIFIER_INTERFACE_SELECTOR_FIFO  0x0
371 #define PTP_INTERFACE_IDENTIFIER_INTERFACE_SELECTOR_CRB   0x1
372 
373 //
374 // Define bits of Locality State Register
375 //
376 
377 ///
378 /// This bit indicates whether all other bits of this register contain valid values, if it is a 1.
379 ///
380 #define PTP_CRB_LOCALITY_STATE_TPM_REG_VALID_STATUS       BIT7
381 
382 ///
383 /// 000 - Locality 0
384 /// 001 - Locality 1
385 /// 010 - Locality 2
386 /// 011 - Locality 3
387 /// 100 - Locality 4
388 ///
389 #define PTP_CRB_LOCALITY_STATE_ACTIVE_LOCALITY_MASK       (BIT2 | BIT3 | BIT4)
390 #define PTP_CRB_LOCALITY_STATE_ACTIVE_LOCALITY_0          (0)
391 #define PTP_CRB_LOCALITY_STATE_ACTIVE_LOCALITY_1          (BIT2)
392 #define PTP_CRB_LOCALITY_STATE_ACTIVE_LOCALITY_2          (BIT3)
393 #define PTP_CRB_LOCALITY_STATE_ACTIVE_LOCALITY_3          (BIT2 | BIT3)
394 #define PTP_CRB_LOCALITY_STATE_ACTIVE_LOCALITY_4          (BIT4)
395 
396 ///
397 /// A 0 indicates to the host that no locality is assigned.
398 /// A 1 indicates a locality has been assigned.
399 ///
400 #define PTP_CRB_LOCALITY_STATE_LOCALITY_ASSIGNED          BIT1
401 
402 ///
403 /// The TPM clears this bit to 0 upon receipt of _TPM_Hash_End
404 /// The TPM sets this bit to a 1 when the TPM_LOC_CTRL_x.resetEstablishment field is set to 1.
405 ///
406 #define PTP_CRB_LOCALITY_STATE_TPM_ESTABLISHED            BIT0
407 
408 //
409 // Define bits of Locality Control Register
410 //
411 
412 ///
413 /// Writes (1): Reset TPM_LOC_STATE_x.tpmEstablished bit if the write occurs from Locality 3 or 4.
414 ///
415 #define PTP_CRB_LOCALITY_CONTROL_RESET_ESTABLISHMENT_BIT  BIT3
416 
417 ///
418 /// Writes (1): The TPM gives control of the TPM to the locality setting this bit if it is the higher priority locality.
419 ///
420 #define PTP_CRB_LOCALITY_CONTROL_SEIZE                    BIT2
421 
422 ///
423 /// Writes (1): The active Locality is done with the TPM.
424 ///
425 #define PTP_CRB_LOCALITY_CONTROL_RELINQUISH               BIT1
426 
427 ///
428 /// Writes (1): Interrupt the TPM and generate a locality arbitration algorithm.
429 ///
430 #define PTP_CRB_LOCALITY_CONTROL_REQUEST_ACCESS           BIT0
431 
432 //
433 // Define bits of Locality Status Register
434 //
435 
436 ///
437 /// 0: A higher locality has not initiated a Seize arbitration process.
438 /// 1: A higher locality has Seized the TPM from this locality.
439 ///
440 #define PTP_CRB_LOCALITY_STATUS_BEEN_SEIZED               BIT1
441 
442 ///
443 /// 0: Locality has not been granted to the TPM.
444 /// 1: Locality has been granted access to the TPM
445 ///
446 #define PTP_CRB_LOCALITY_STATUS_GRANTED                   BIT0
447 
448 //
449 // Define bits of CRB Control Area Request Register
450 //
451 
452 ///
453 /// Used by Software to indicate transition the TPM to and from the Idle state
454 /// 1: Set by Software to indicate response has been read from the response buffer and TPM can transition to Idle
455 /// 0: Cleared to 0 by TPM to acknowledge the request when TPM enters Idle state.
456 /// TPM SHALL complete this transition within TIMEOUT_C.
457 ///
458 #define PTP_CRB_CONTROL_AREA_REQUEST_GO_IDLE              BIT1
459 
460 ///
461 /// Used by Software to request the TPM transition to the Ready State.
462 /// 1: Set to 1 by Software to indicate the TPM should be ready to receive a command.
463 /// 0: Cleared to 0 by TPM to acknowledge the request.
464 /// TPM SHALL complete this transition within TIMEOUT_C.
465 ///
466 #define PTP_CRB_CONTROL_AREA_REQUEST_COMMAND_READY        BIT0
467 
468 //
469 // Define bits of CRB Control Area Status Register
470 //
471 
472 ///
473 /// Used by TPM to indicate it is in the Idle State
474 /// 1: Set by TPM when in the Idle State
475 /// 0: Cleared by TPM on receipt of TPM_CRB_CTRL_REQ_x.cmdReady when TPM transitions to the Ready State.
476 /// SHALL be cleared by TIMEOUT_C.
477 ///
478 #define PTP_CRB_CONTROL_AREA_STATUS_TPM_IDLE              BIT1
479 
480 ///
481 /// Used by the TPM to indicate current status.
482 /// 1: Set by TPM to indicate a FATAL Error
483 /// 0: Indicates TPM is operational
484 ///
485 #define PTP_CRB_CONTROL_AREA_STATUS_TPM_STATUS            BIT0
486 
487 //
488 // Define bits of CRB Control Cancel Register
489 //
490 
491 ///
492 /// Used by software to cancel command processing Reads return correct value
493 /// Writes (0000 0001h): Cancel a command
494 /// Writes (0000 0000h): Clears field when command has been cancelled
495 ///
496 #define PTP_CRB_CONTROL_CANCEL                            BIT0
497 
498 //
499 // Define bits of CRB Control Start Register
500 //
501 
502 ///
503 /// When set by software, indicates a command is ready for processing.
504 /// Writes (0000 0001h): TPM transitions to Command Execution
505 /// Writes (0000 0000h): TPM clears this field and transitions to Command Completion
506 ///
507 #define PTP_CRB_CONTROL_START                             BIT0
508 
509 //
510 // Restore original structure alignment
511 //
512 #pragma pack ()
513 
514 //
515 // Default TimeOut value
516 //
517 #define PTP_TIMEOUT_A               (750 * 1000)   // 750ms
518 #define PTP_TIMEOUT_B               (2000 * 1000)  // 2s
519 #define PTP_TIMEOUT_C               (200 * 1000)   // 200ms
520 #define PTP_TIMEOUT_D               (30 * 1000)    // 30ms
521 
522 #endif