• Home
  • Line#
  • Scopes#
  • Navigate#
  • Raw
  • Download
1 /** @file
2   Public include file for Local APIC library.
3 
4   Local APIC library assumes local APIC is enabled. It does not
5   handles cases where local APIC is disabled.
6 
7   Copyright (c) 2010 - 2015, Intel Corporation. All rights reserved.<BR>
8   This program and the accompanying materials
9   are licensed and made available under the terms and conditions of the BSD License
10   which accompanies this distribution.  The full text of the license may be found at
11   http://opensource.org/licenses/bsd-license.php
12 
13   THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,
14   WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.
15 
16 **/
17 
18 #ifndef __LOCAL_APIC_LIB_H__
19 #define __LOCAL_APIC_LIB_H__
20 
21 #define LOCAL_APIC_MODE_XAPIC   0x1  ///< xAPIC mode.
22 #define LOCAL_APIC_MODE_X2APIC  0x2  ///< x2APIC mode.
23 
24 /**
25   Retrieve the base address of local APIC.
26 
27   @return The base address of local APIC.
28 
29 **/
30 UINTN
31 EFIAPI
32 GetLocalApicBaseAddress (
33   VOID
34   );
35 
36 /**
37   Set the base address of local APIC.
38 
39   If BaseAddress is not aligned on a 4KB boundary, then ASSERT().
40 
41   @param[in] BaseAddress   Local APIC base address to be set.
42 
43 **/
44 VOID
45 EFIAPI
46 SetLocalApicBaseAddress (
47   IN UINTN                BaseAddress
48   );
49 
50 /**
51   Get the current local APIC mode.
52 
53   If local APIC is disabled, then ASSERT.
54 
55   @retval LOCAL_APIC_MODE_XAPIC  current APIC mode is xAPIC.
56   @retval LOCAL_APIC_MODE_X2APIC current APIC mode is x2APIC.
57 **/
58 UINTN
59 EFIAPI
60 GetApicMode (
61   VOID
62   );
63 
64 /**
65   Set the current local APIC mode.
66 
67   If the specified local APIC mode is not valid, then ASSERT.
68   If the specified local APIC mode can't be set as current, then ASSERT.
69 
70   @param ApicMode APIC mode to be set.
71 
72   @note  This API must not be called from an interrupt handler or SMI handler.
73          It may result in unpredictable behavior.
74 **/
75 VOID
76 EFIAPI
77 SetApicMode (
78   IN UINTN  ApicMode
79   );
80 
81 /**
82   Get the initial local APIC ID of the executing processor assigned by hardware upon power on or reset.
83 
84   In xAPIC mode, the initial local APIC ID may be different from current APIC ID.
85   In x2APIC mode, the local APIC ID can't be changed and there is no concept of initial APIC ID. In this case,
86   the 32-bit local APIC ID is returned as initial APIC ID.
87 
88   @return  32-bit initial local APIC ID of the executing processor.
89 **/
90 UINT32
91 EFIAPI
92 GetInitialApicId (
93   VOID
94   );
95 
96 /**
97   Get the local APIC ID of the executing processor.
98 
99   @return  32-bit local APIC ID of the executing processor.
100 **/
101 UINT32
102 EFIAPI
103 GetApicId (
104   VOID
105   );
106 
107 /**
108   Get the value of the local APIC version register.
109 
110   @return  the value of the local APIC version register.
111 **/
112 UINT32
113 EFIAPI
114 GetApicVersion (
115   VOID
116   );
117 
118 /**
119   Send a Fixed IPI to a specified target processor.
120 
121   This function returns after the IPI has been accepted by the target processor.
122 
123   @param  ApicId   The local APIC ID of the target processor.
124   @param  Vector   The vector number of the interrupt being sent.
125 **/
126 VOID
127 EFIAPI
128 SendFixedIpi (
129   IN UINT32          ApicId,
130   IN UINT8           Vector
131   );
132 
133 /**
134   Send a Fixed IPI to all processors excluding self.
135 
136   This function returns after the IPI has been accepted by the target processors.
137 
138   @param  Vector   The vector number of the interrupt being sent.
139 **/
140 VOID
141 EFIAPI
142 SendFixedIpiAllExcludingSelf (
143   IN UINT8           Vector
144   );
145 
146 /**
147   Send a SMI IPI to a specified target processor.
148 
149   This function returns after the IPI has been accepted by the target processor.
150 
151   @param  ApicId   Specify the local APIC ID of the target processor.
152 **/
153 VOID
154 EFIAPI
155 SendSmiIpi (
156   IN UINT32          ApicId
157   );
158 
159 /**
160   Send a SMI IPI to all processors excluding self.
161 
162   This function returns after the IPI has been accepted by the target processors.
163 **/
164 VOID
165 EFIAPI
166 SendSmiIpiAllExcludingSelf (
167   VOID
168   );
169 
170 /**
171   Send an INIT IPI to a specified target processor.
172 
173   This function returns after the IPI has been accepted by the target processor.
174 
175   @param  ApicId   Specify the local APIC ID of the target processor.
176 **/
177 VOID
178 EFIAPI
179 SendInitIpi (
180   IN UINT32          ApicId
181   );
182 
183 /**
184   Send an INIT IPI to all processors excluding self.
185 
186   This function returns after the IPI has been accepted by the target processors.
187 **/
188 VOID
189 EFIAPI
190 SendInitIpiAllExcludingSelf (
191   VOID
192   );
193 
194 /**
195   Send an INIT-Start-up-Start-up IPI sequence to a specified target processor.
196 
197   This function returns after the IPI has been accepted by the target processor.
198 
199   if StartupRoutine >= 1M, then ASSERT.
200   if StartupRoutine is not multiple of 4K, then ASSERT.
201 
202   @param  ApicId          Specify the local APIC ID of the target processor.
203   @param  StartupRoutine  Points to a start-up routine which is below 1M physical
204                           address and 4K aligned.
205 **/
206 VOID
207 EFIAPI
208 SendInitSipiSipi (
209   IN UINT32          ApicId,
210   IN UINT32          StartupRoutine
211   );
212 
213 /**
214   Send an INIT-Start-up-Start-up IPI sequence to all processors excluding self.
215 
216   This function returns after the IPI has been accepted by the target processors.
217 
218   if StartupRoutine >= 1M, then ASSERT.
219   if StartupRoutine is not multiple of 4K, then ASSERT.
220 
221   @param  StartupRoutine    Points to a start-up routine which is below 1M physical
222                             address and 4K aligned.
223 **/
224 VOID
225 EFIAPI
226 SendInitSipiSipiAllExcludingSelf (
227   IN UINT32          StartupRoutine
228   );
229 
230 /**
231   Initialize the state of the SoftwareEnable bit in the Local APIC
232   Spurious Interrupt Vector register.
233 
234   @param  Enable  If TRUE, then set SoftwareEnable to 1
235                   If FALSE, then set SoftwareEnable to 0.
236 
237 **/
238 VOID
239 EFIAPI
240 InitializeLocalApicSoftwareEnable (
241   IN BOOLEAN  Enable
242   );
243 
244 /**
245   Programming Virtual Wire Mode.
246 
247   This function programs the local APIC for virtual wire mode following
248   the example described in chapter A.3 of the MP 1.4 spec.
249 
250   IOxAPIC is not involved in this type of virtual wire mode.
251 **/
252 VOID
253 EFIAPI
254 ProgramVirtualWireMode (
255   VOID
256   );
257 
258 /**
259   Disable LINT0 & LINT1 interrupts.
260 
261   This function sets the mask flag in the LVT LINT0 & LINT1 registers.
262 **/
263 VOID
264 EFIAPI
265 DisableLvtInterrupts (
266   VOID
267   );
268 
269 /**
270   Read the initial count value from the init-count register.
271 
272   @return The initial count value read from the init-count register.
273 **/
274 UINT32
275 EFIAPI
276 GetApicTimerInitCount (
277   VOID
278   );
279 
280 /**
281   Read the current count value from the current-count register.
282 
283   @return The current count value read from the current-count register.
284 **/
285 UINT32
286 EFIAPI
287 GetApicTimerCurrentCount (
288   VOID
289   );
290 
291 /**
292   Initialize the local APIC timer.
293 
294   The local APIC timer is initialized and enabled.
295 
296   @param DivideValue   The divide value for the DCR. It is one of 1,2,4,8,16,32,64,128.
297                        If it is 0, then use the current divide value in the DCR.
298   @param InitCount     The initial count value.
299   @param PeriodicMode  If TRUE, timer mode is peridoic. Othewise, timer mode is one-shot.
300   @param Vector        The timer interrupt vector number.
301 **/
302 VOID
303 EFIAPI
304 InitializeApicTimer (
305   IN UINTN   DivideValue,
306   IN UINT32  InitCount,
307   IN BOOLEAN PeriodicMode,
308   IN UINT8   Vector
309   );
310 
311 /**
312   Get the state of the local APIC timer.
313 
314   @param DivideValue   Return the divide value for the DCR. It is one of 1,2,4,8,16,32,64,128.
315   @param PeriodicMode  Return the timer mode. If TRUE, timer mode is peridoic. Othewise, timer mode is one-shot.
316   @param Vector        Return the timer interrupt vector number.
317 **/
318 VOID
319 EFIAPI
320 GetApicTimerState (
321   OUT UINTN    *DivideValue  OPTIONAL,
322   OUT BOOLEAN  *PeriodicMode  OPTIONAL,
323   OUT UINT8    *Vector  OPTIONAL
324   );
325 
326 /**
327   Enable the local APIC timer interrupt.
328 **/
329 VOID
330 EFIAPI
331 EnableApicTimerInterrupt (
332   VOID
333   );
334 
335 /**
336   Disable the local APIC timer interrupt.
337 **/
338 VOID
339 EFIAPI
340 DisableApicTimerInterrupt (
341   VOID
342   );
343 
344 /**
345   Get the local APIC timer interrupt state.
346 
347   @retval TRUE  The local APIC timer interrupt is enabled.
348   @retval FALSE The local APIC timer interrupt is disabled.
349 **/
350 BOOLEAN
351 EFIAPI
352 GetApicTimerInterruptState (
353   VOID
354   );
355 
356 /**
357   Send EOI to the local APIC.
358 **/
359 VOID
360 EFIAPI
361 SendApicEoi (
362   VOID
363   );
364 
365 /**
366   Get the 32-bit address that a device should use to send a Message Signaled
367   Interrupt (MSI) to the Local APIC of the currently executing processor.
368 
369   @return 32-bit address used to send an MSI to the Local APIC.
370 **/
371 UINT32
372 EFIAPI
373 GetApicMsiAddress (
374   VOID
375   );
376 
377 /**
378   Get the 64-bit data value that a device should use to send a Message Signaled
379   Interrupt (MSI) to the Local APIC of the currently executing processor.
380 
381   If Vector is not in range 0x10..0xFE, then ASSERT().
382   If DeliveryMode is not supported, then ASSERT().
383 
384   @param  Vector          The 8-bit interrupt vector associated with the MSI.
385                           Must be in the range 0x10..0xFE
386   @param  DeliveryMode    A 3-bit value that specifies how the recept of the MSI
387                           is handled.  The only supported values are:
388                             0: LOCAL_APIC_DELIVERY_MODE_FIXED
389                             1: LOCAL_APIC_DELIVERY_MODE_LOWEST_PRIORITY
390                             2: LOCAL_APIC_DELIVERY_MODE_SMI
391                             4: LOCAL_APIC_DELIVERY_MODE_NMI
392                             5: LOCAL_APIC_DELIVERY_MODE_INIT
393                             7: LOCAL_APIC_DELIVERY_MODE_EXTINT
394 
395   @param  LevelTriggered  TRUE specifies a level triggered interrupt.
396                           FALSE specifies an edge triggered interrupt.
397   @param  AssertionLevel  Ignored if LevelTriggered is FALSE.
398                           TRUE specifies a level triggered interrupt that active
399                           when the interrupt line is asserted.
400                           FALSE specifies a level triggered interrupt that active
401                           when the interrupt line is deasserted.
402 
403   @return 64-bit data value used to send an MSI to the Local APIC.
404 **/
405 UINT64
406 EFIAPI
407 GetApicMsiValue (
408   IN UINT8    Vector,
409   IN UINTN    DeliveryMode,
410   IN BOOLEAN  LevelTriggered,
411   IN BOOLEAN  AssertionLevel
412   );
413 
414 /**
415   Get Package ID/Core ID/Thread ID of a processor.
416 
417   The algorithm assumes the target system has symmetry across physical
418   package  boundaries with respect to the number of logical processors
419   per package,  number of cores per package.
420 
421   @param[in]  InitialApicId  Initial APIC ID of the target logical processor.
422   @param[out]  Package       Returns the processor package ID.
423   @param[out]  Core          Returns the processor core ID.
424   @param[out]  Thread        Returns the processor thread ID.
425 **/
426 VOID
427 EFIAPI
428 GetProcessorLocationByApicId (
429   IN  UINT32  InitialApicId,
430   OUT UINT32  *Package  OPTIONAL,
431   OUT UINT32  *Core    OPTIONAL,
432   OUT UINT32  *Thread  OPTIONAL
433   );
434 
435 #endif
436 
437