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1 /** @file
2   Intel FSP API definition from Intel Firmware Support Package External
3   Architecture Specification v2.0.
4 
5   Copyright (c) 2014 - 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 _FSP_API_H_
17 #define _FSP_API_H_
18 
19 ///
20 /// FSP Reset Status code
21 /// These are defined in FSP EAS v2.0 section 11.2.2 - OEM Status Code
22 /// @{
23 #define FSP_STATUS_RESET_REQUIRED_COLD         0x40000001
24 #define FSP_STATUS_RESET_REQUIRED_WARM         0x40000002
25 #define FSP_STATUS_RESET_REQUIRED_3            0x40000003
26 #define FSP_STATUS_RESET_REQUIRED_4            0x40000004
27 #define FSP_STATUS_RESET_REQUIRED_5            0x40000005
28 #define FSP_STATUS_RESET_REQUIRED_6            0x40000006
29 #define FSP_STATUS_RESET_REQUIRED_7            0x40000007
30 #define FSP_STATUS_RESET_REQUIRED_8            0x40000008
31 /// @}
32 
33 #pragma pack(1)
34 ///
35 /// FSP_UPD_HEADER Configuration.
36 ///
37 typedef struct {
38   ///
39   /// UPD Region Signature. This signature will be
40   /// "XXXXXX_T" for FSP-T
41   /// "XXXXXX_M" for FSP-M
42   /// "XXXXXX_S" for FSP-S
43   /// Where XXXXXX is an unique signature
44   ///
45   UINT64                      Signature;
46   ///
47   /// Revision of the Data structure. For FSP v2.0 value is 1.
48   ///
49   UINT8                       Revision;
50   UINT8                       Reserved[23];
51 } FSP_UPD_HEADER;
52 
53 ///
54 /// FSPM_ARCH_UPD Configuration.
55 ///
56 typedef struct {
57   ///
58   /// Revision of the structure. For FSP v2.0 value is 1.
59   ///
60   UINT8                       Revision;
61   UINT8                       Reserved[3];
62   ///
63   /// Pointer to the non-volatile storage (NVS) data buffer.
64   /// If it is NULL it indicates the NVS data is not available.
65   ///
66   VOID                        *NvsBufferPtr;
67   ///
68   /// Pointer to the temporary stack base address to be
69   /// consumed inside FspMemoryInit() API.
70   ///
71   VOID                        *StackBase;
72   ///
73   /// Temporary stack size to be consumed inside
74   /// FspMemoryInit() API.
75   ///
76   UINT32                      StackSize;
77   ///
78   /// Size of memory to be reserved by FSP below "top
79   /// of low usable memory" for bootloader usage.
80   ///
81   UINT32                      BootLoaderTolumSize;
82   ///
83   /// Current boot mode.
84   ///
85   UINT32                      BootMode;
86   UINT8                       Reserved1[8];
87 } FSPM_ARCH_UPD;
88 
89 ///
90 /// FSPT_UPD_COMMON Configuration.
91 ///
92 typedef struct {
93   ///
94   /// FSP_UPD_HEADER Configuration.
95   ///
96   FSP_UPD_HEADER              FspUpdHeader;
97 } FSPT_UPD_COMMON;
98 
99 ///
100 /// FSPM_UPD_COMMON Configuration.
101 ///
102 typedef struct {
103   ///
104   /// FSP_UPD_HEADER Configuration.
105   ///
106   FSP_UPD_HEADER              FspUpdHeader;
107   ///
108   /// FSPM_ARCH_UPD Configuration.
109   ///
110   FSPM_ARCH_UPD               FspmArchUpd;
111 } FSPM_UPD_COMMON;
112 
113 ///
114 /// FSPS_UPD_COMMON Configuration.
115 ///
116 typedef struct {
117   ///
118   /// FSP_UPD_HEADER Configuration.
119   ///
120   FSP_UPD_HEADER              FspUpdHeader;
121 } FSPS_UPD_COMMON;
122 
123 ///
124 /// Enumeration of FSP_INIT_PHASE for NOTIFY_PHASE.
125 ///
126 typedef enum {
127   ///
128   /// This stage is notified when the bootloader completes the
129   /// PCI enumeration and the resource allocation for the
130   /// PCI devices is complete.
131   ///
132   EnumInitPhaseAfterPciEnumeration = 0x20,
133   ///
134   /// This stage is notified just before the bootloader hand-off
135   /// to the OS loader.
136   ///
137   EnumInitPhaseReadyToBoot         = 0x40,
138   ///
139   /// This stage is notified just before the firmware/Preboot
140   /// environment transfers management of all system resources
141   /// to the OS or next level execution environment.
142   ///
143   EnumInitPhaseEndOfFirmware       = 0xF0
144 } FSP_INIT_PHASE;
145 
146 ///
147 /// Definition of NOTIFY_PHASE_PARAMS.
148 ///
149 typedef struct {
150   ///
151   /// Notification phase used for NotifyPhase API
152   ///
153   FSP_INIT_PHASE     Phase;
154 } NOTIFY_PHASE_PARAMS;
155 
156 #pragma pack()
157 
158 /**
159   This FSP API is called soon after coming out of reset and before memory and stack is
160   available. This FSP API will load the microcode update, enable code caching for the
161   region specified by the boot loader and also setup a temporary stack to be used until
162   main memory is initialized.
163 
164   A hardcoded stack can be set up with the following values, and the "esp" register
165   initialized to point to this hardcoded stack.
166   1. The return address where the FSP will return control after setting up a temporary
167      stack.
168   2. A pointer to the input parameter structure
169 
170   However, since the stack is in ROM and not writeable, this FSP API cannot be called
171   using the "call" instruction, but needs to be jumped to.
172 
173   @param[in] FsptUpdDataPtr     Pointer to the FSPT_UPD data structure.
174 
175   @retval EFI_SUCCESS           Temporary RAM was initialized successfully.
176   @retval EFI_INVALID_PARAMETER Input parameters are invalid.
177   @retval EFI_UNSUPPORTED       The FSP calling conditions were not met.
178   @retval EFI_DEVICE_ERROR      Temp RAM initialization failed.
179 
180   If this function is successful, the FSP initializes the ECX and EDX registers to point to
181   a temporary but writeable memory range available to the boot loader and returns with
182   FSP_SUCCESS in register EAX. Register ECX points to the start of this temporary
183   memory range and EDX points to the end of the range. Boot loader is free to use the
184   whole range described. Typically the boot loader can reload the ESP register to point
185   to the end of this returned range so that it can be used as a standard stack.
186 **/
187 typedef
188 EFI_STATUS
189 (EFIAPI *FSP_TEMP_RAM_INIT) (
190   IN  VOID    *FsptUpdDataPtr
191   );
192 
193 /**
194   This FSP API is used to notify the FSP about the different phases in the boot process.
195   This allows the FSP to take appropriate actions as needed during different initialization
196   phases. The phases will be platform dependent and will be documented with the FSP
197   release. The current FSP supports two notify phases:
198     Post PCI enumeration
199     Ready To Boot
200 
201   @param[in] NotifyPhaseParamPtr Address pointer to the NOTIFY_PHASE_PRAMS
202 
203   @retval EFI_SUCCESS           The notification was handled successfully.
204   @retval EFI_UNSUPPORTED       The notification was not called in the proper order.
205   @retval EFI_INVALID_PARAMETER The notification code is invalid.
206 **/
207 typedef
208 EFI_STATUS
209 (EFIAPI *FSP_NOTIFY_PHASE) (
210   IN NOTIFY_PHASE_PARAMS *NotifyPhaseParamPtr
211   );
212 
213 /**
214   This FSP API is called after TempRamInit and initializes the memory.
215   This FSP API accepts a pointer to a data structure that will be platform dependent
216   and defined for each FSP binary. This will be documented in Integration guide with
217   each FSP release.
218   After FspMemInit completes its execution, it passes the pointer to the HobList and
219   returns to the boot loader from where it was called. BootLoader is responsible to
220   migrate it's stack and data to Memory.
221   FspMemoryInit, TempRamExit and FspSiliconInit APIs provide an alternate method to
222   complete the silicon initialization and provides bootloader an opportunity to get
223   control after system memory is available and before the temporary RAM is torn down.
224 
225   @param[in]  FspmUpdDataPtr          Pointer to the FSPM_UPD data sructure.
226   @param[out] HobListPtr              Pointer to receive the address of the HOB list.
227 
228   @retval EFI_SUCCESS                 FSP execution environment was initialized successfully.
229   @retval EFI_INVALID_PARAMETER       Input parameters are invalid.
230   @retval EFI_UNSUPPORTED             The FSP calling conditions were not met.
231   @retval EFI_DEVICE_ERROR            FSP initialization failed.
232   @retval EFI_OUT_OF_RESOURCES        Stack range requested by FSP is not met.
233   @retval FSP_STATUS_RESET_REQUIREDx  A reset is reuired. These status codes will not be returned during S3.
234 **/
235 typedef
236 EFI_STATUS
237 (EFIAPI *FSP_MEMORY_INIT) (
238   IN  VOID    *FspmUpdDataPtr,
239   OUT VOID    **HobListPtr
240   );
241 
242 
243 /**
244   This FSP API is called after FspMemoryInit API. This FSP API tears down the temporary
245   memory setup by TempRamInit API. This FSP API accepts a pointer to a data structure
246   that will be platform dependent and defined for each FSP binary. This will be
247   documented in Integration Guide.
248   FspMemoryInit, TempRamExit and FspSiliconInit APIs provide an alternate method to
249   complete the silicon initialization and provides bootloader an opportunity to get
250   control after system memory is available and before the temporary RAM is torn down.
251 
252   @param[in] TempRamExitParamPtr Pointer to the Temp Ram Exit parameters structure.
253                                  This structure is normally defined in the Integration Guide.
254                                  And if it is not defined in the Integration Guide, pass NULL.
255 
256   @retval EFI_SUCCESS            FSP execution environment was initialized successfully.
257   @retval EFI_INVALID_PARAMETER  Input parameters are invalid.
258   @retval EFI_UNSUPPORTED        The FSP calling conditions were not met.
259   @retval EFI_DEVICE_ERROR       FSP initialization failed.
260 **/
261 typedef
262 EFI_STATUS
263 (EFIAPI *FSP_TEMP_RAM_EXIT) (
264   IN  VOID    *TempRamExitParamPtr
265   );
266 
267 
268 /**
269   This FSP API is called after TempRamExit API.
270   FspMemoryInit, TempRamExit and FspSiliconInit APIs provide an alternate method to complete the
271   silicon initialization.
272 
273   @param[in] FspsUpdDataPtr     Pointer to the FSPS_UPD data structure.
274                                 If NULL, FSP will use the default parameters.
275 
276   @retval EFI_SUCCESS                 FSP execution environment was initialized successfully.
277   @retval EFI_INVALID_PARAMETER       Input parameters are invalid.
278   @retval EFI_UNSUPPORTED             The FSP calling conditions were not met.
279   @retval EFI_DEVICE_ERROR            FSP initialization failed.
280   @retval FSP_STATUS_RESET_REQUIREDx  A reset is reuired. These status codes will not be returned during S3.
281 **/
282 typedef
283 EFI_STATUS
284 (EFIAPI *FSP_SILICON_INIT) (
285   IN  VOID    *FspsUpdDataPtr
286   );
287 
288 #endif
289