branches/azimutz/Chazileon/i386/libsaio/fake_efi.c - Chameleon Svn Source Tree - Chameleon open source boot loader project.

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1	␊
2	/*␊
3	* Copyright 2007 David F. Elliott. All rights reserved.␊
4	*/␊
5	␊
6	#include "libsaio.h"␊
7	#include "boot.h"␊
8	#include "bootstruct.h"␊
9	#include "efi.h"␊
10	#include "acpi.h"␊
11	#include "fake_efi.h"␊
12	#include "efi_tables.h"␊
13	#include "platform.h"␊
14	#include "acpi_patcher.h"␊
15	#include "smbios_patcher.h"␊
16	#include "device_inject.h"␊
17	#include "convert.h"␊
18	#include "pci.h"␊
19	#include "sl.h"␊
20	␊
21	extern struct SMBEntryPoint * getSmbios(int which); // now cached␊
22	extern void setup_pci_devs(pci_dt_t *pci_dt);␊
23	␊
24	/*␊
25	* Modern Darwin kernels require some amount of EFI because Apple machines all␊
26	* have EFI. Modifying the kernel source to not require EFI is of course␊
27	* possible but would have to be maintained as a separate patch because it is␊
28	* unlikely that Apple wishes to add legacy support to their kernel.␊
29	*␊
30	* As you can see from the Apple-supplied code in bootstruct.c, it seems that␊
31	* the intention was clearly to modify this booter to provide EFI-like structures␊
32	* to the kernel rather than modifying the kernel to handle non-EFI stuff.␉ This␊
33	* makes a lot of sense from an engineering point of view as it means the kernel␊
34	* for the as yet unreleased EFI-only Macs could still be booted by the non-EFI␊
35	* DTK systems so long as the kernel checked to ensure the boot tables were␊
36	* filled in appropriately. Modern xnu requires a system table and a runtime␊
37	* services table and performs no checks whatsoever to ensure the pointers to␊
38	* these tables are non-NULL.␉Therefore, any modern xnu kernel will page fault␊
39	* early on in the boot process if the system table pointer is zero.␊
40	*␊
41	* Even before that happens, the tsc_init function in modern xnu requires the FSB␊
42	* Frequency to be a property in the /efi/platform node of the device tree or else␊
43	* it panics the bootstrap process very early on.␊
44	*␊
45	* As of this writing, the current implementation found here is good enough␊
46	* to make the currently available xnu kernel boot without modification on a␊
47	* system with an appropriate processor. With a minor source modification to␊
48	* the tsc_init function to remove the explicit check for Core or Core 2␊
49	* processors the kernel can be made to boot on other processors so long as␊
50	* the code can be executed by the processor and the machine contains the␊
51	* necessary hardware.␊
52	*/␊
53	␊
54	/*==========================================================================␊
55	* Utility function to make a device tree string from an EFI_GUID␊
56	*/␊
57	␊
58	static inline char * mallocStringForGuid(EFI_GUID const *pGuid)␊
59	{␊
60	␉char *string = malloc(37);␊
61	␉efi_guid_unparse_upper(pGuid, string);␊
62	␉return string;␊
63	}␊
64	␊
65	/*==========================================================================␊
66	* Function to map 32 bit physical address to 64 bit virtual address␊
67	*/␊
68	␊
69	static uint64_t ptov64(uint32_t addr)␊
70	{␊
71	␉return ((uint64_t)addr \| 0xFFFFFF8000000000ULL);␊
72	}␊
73	␊
74	/*==========================================================================␊
75	* Fake EFI implementation␊
76	*/␊
77	␊
78	// Identify ourselves as the EFI firmware vendor␊
79	static EFI_CHAR16 const FIRMWARE_VENDOR[] = {'C','h','a','m','e','l','e','o','n','_','2','.','0', 0};␊
80	static EFI_UINT32 const FIRMWARE_REVISION = 132; /* FIXME: Find a constant for this. */␊
81	␊
82	// Default platform system_id (fix by IntVar)␊
83	static EFI_CHAR8 const SYSTEM_ID[] = "0123456789ABCDEF"; //random value gen by uuidgen␊
84	␊
85	// Just a ret instruction␊
86	static uint8_t const VOIDRET_INSTRUCTIONS[] = {0xc3};␊
87	␊
88	// movl $0x80000003,%eax; ret␊
89	static uint8_t const UNSUPPORTEDRET_INSTRUCTIONS[] = {0xb8, 0x03, 0x00, 0x00, 0x80, 0xc3};␊
90	␊
91	EFI_SYSTEM_TABLE_32 *gST32 = NULL; //Azi:efi32/64␊
92	EFI_SYSTEM_TABLE_64 *gST64 = NULL; //␉␉\|\|␊
93	Node *gEfiConfigurationTableNode = NULL;␊
94	␊
95	extern EFI_STATUS addConfigurationTable(EFI_GUID const pGuid, void table, char const *alias)␊
96	{␊
97	␉EFI_UINTN i = 0; //Azi:efi32/64␊
98	␉␊
99	␉//Azi:efi32/64 - like this, cpu's with em64t will use EFI64 on pre 10.6 systems,␊
100	␉// wich seems to cause no problem. In case it does, force i386 arch.␊
101	␉if (archCpuType == CPU_TYPE_I386)␊
102	␉{␊
103	␉␉i = gST32->NumberOfTableEntries;␊
104	␉}␊
105	␉else␊
106	␉{␊
107	␉␉i = gST64->NumberOfTableEntries;␊
108	␉}␊
109	␉␊
110	␉// We only do adds, not modifications and deletes like InstallConfigurationTable␊
111	␉if (i >= MAX_CONFIGURATION_TABLE_ENTRIES)␊
112	␉␉stop("Ran out of space for configuration tables. Increase the reserved size in the code.\n");␊
113	␉␊
114	␉if (pGuid == NULL)␊
115	␉␉return EFI_INVALID_PARAMETER;␊
116	␉␊
117	␉if (table != NULL)␊
118	␉{␊
119	␉␉// FIXME␊
120	␉␉//((EFI_CONFIGURATION_TABLE_64 )gST->ConfigurationTable)[i].VendorGuid = pGuid;␊
121	␉␉//((EFI_CONFIGURATION_TABLE_64 *)gST->ConfigurationTable)[i].VendorTable = (EFI_PTR64)table;␊
122	␉␉␊
123	␉␉//++gST->NumberOfTableEntries;␊
124	␉␉␊
125	␉␉Node *tableNode = DT__AddChild(gEfiConfigurationTableNode, mallocStringForGuid(pGuid));␊
126	␉␉␊
127	␉␉// Use the pointer to the GUID we just stuffed into the system table␊
128	␉␉DT__AddProperty(tableNode, "guid", sizeof(EFI_GUID), (void*)pGuid);␊
129	␉␉␊
130	␉␉// The "table" property is the 32-bit (in our implementation) physical address of the table␊
131	␉␉DT__AddProperty(tableNode, "table", sizeof(void) 2, table);␊
132	␉␉␊
133	␉␉// Assume the alias pointer is a global or static piece of data␊
134	␉␉if (alias != NULL)␊
135	␉␉␉DT__AddProperty(tableNode, "alias", strlen(alias)+1, (char*)alias);␊
136	␉␉␊
137	␉␉return EFI_SUCCESS;␊
138	␉}␊
139	␉return EFI_UNSUPPORTED;␊
140	}␊
141	␊
142	//Azi: crc32 done in place, on the cases were it wasn't.␊
143	/static inline void fixupEfiSystemTableCRC32(EFI_SYSTEM_TABLE_64 efiSystemTable)␊
144	{␊
145	␉efiSystemTable->Hdr.CRC32 = 0;␊
146	␉efiSystemTable->Hdr.CRC32 = crc32(0L, efiSystemTable, efiSystemTable->Hdr.HeaderSize);␊
147	}*/␊
148	␊
149	/*␊
150	* What we do here is simply allocate a fake EFI system table and a fake EFI␊
151	* runtime services table.␊
152	*␊
153	* Because we build against modern headers with kBootArgsRevision 4 we␊
154	* also take care to set efiMode = 32.␊
155	*/␊
156	␊
157	void setupEfiTables32(void) //Azi:efi32/64␊
158	{␊
159	␉// We use the fake_efi_pages struct so that we only need to do one kernel␊
160	␉// memory allocation for all needed EFI data. Otherwise, small allocations␊
161	␉// like the FIRMWARE_VENDOR string would take up an entire page.␊
162	␉// NOTE WELL: Do NOT assume this struct has any particular layout within itself.␊
163	␉// It is absolutely not intended to be publicly exposed anywhere␊
164	␉// We say pages (plural) although right now we are well within the 1 page size␊
165	␉// and probably will stay that way.␊
166	␉struct fake_efi_pages␊
167	␉{␊
168	␉␉EFI_SYSTEM_TABLE_32 efiSystemTable;␊
169	␉␉EFI_RUNTIME_SERVICES_32 efiRuntimeServices;␊
170	␉␉EFI_CONFIGURATION_TABLE_32 efiConfigurationTable[MAX_CONFIGURATION_TABLE_ENTRIES];␊
171	␉␉EFI_CHAR16 firmwareVendor[sizeof(FIRMWARE_VENDOR)/sizeof(EFI_CHAR16)];␊
172	␉␉uint8_t voidret_instructions[sizeof(VOIDRET_INSTRUCTIONS)/sizeof(uint8_t)];␊
173	␉␉uint8_t unsupportedret_instructions[sizeof(UNSUPPORTEDRET_INSTRUCTIONS)/sizeof(uint8_t)];␊
174	␉};␊
175	␉␊
176	␉struct fake_efi_pages fakeEfiPages = (struct fake_efi_pages)AllocateKernelMemory(sizeof(struct fake_efi_pages));␊
177	␉␊
178	␉// Zero out all the tables in case fields are added later␊
179	␉bzero(fakeEfiPages, sizeof(struct fake_efi_pages));␊
180	␉␊
181	␉// --------------------------------------------------------------------␊
182	␉// Initialize some machine code that will return EFI_UNSUPPORTED for␊
183	␉// functions returning int and simply return for void functions.␊
184	␉memcpy(fakeEfiPages->voidret_instructions, VOIDRET_INSTRUCTIONS, sizeof(VOIDRET_INSTRUCTIONS));␊
185	␉memcpy(fakeEfiPages->unsupportedret_instructions, UNSUPPORTEDRET_INSTRUCTIONS, sizeof(UNSUPPORTEDRET_INSTRUCTIONS));␊
186	␉␊
187	␉// --------------------------------------------------------------------␊
188	␉// System table␊
189	␉EFI_SYSTEM_TABLE_32 *efiSystemTable = gST32 = &fakeEfiPages->efiSystemTable;␊
190	␉efiSystemTable->Hdr.Signature = EFI_SYSTEM_TABLE_SIGNATURE;␊
191	␉efiSystemTable->Hdr.Revision = EFI_SYSTEM_TABLE_REVISION;␊
192	␉efiSystemTable->Hdr.HeaderSize = sizeof(EFI_SYSTEM_TABLE_32);␊
193	␉efiSystemTable->Hdr.CRC32 = 0; // Initialize to zero and then do CRC32␊
194	␉efiSystemTable->Hdr.Reserved = 0;␊
195	␉␊
196	␉efiSystemTable->FirmwareVendor = (EFI_PTR32)&fakeEfiPages->firmwareVendor;␊
197	␉memcpy(fakeEfiPages->firmwareVendor, FIRMWARE_VENDOR, sizeof(FIRMWARE_VENDOR));␊
198	␉efiSystemTable->FirmwareRevision = FIRMWARE_REVISION;␊
199	␉␊
200	␉// XXX: We may need to have basic implementations of ConIn/ConOut/StdErr␊
201	␉// The EFI spec states that all handles are invalid after boot services have been␊
202	␉// exited so we can probably get by with leaving the handles as zero.␊
203	␉efiSystemTable->ConsoleInHandle = 0;␊
204	␉efiSystemTable->ConIn = 0;␊
205	␉␊
206	␉efiSystemTable->ConsoleOutHandle = 0;␊
207	␉efiSystemTable->ConOut = 0;␊
208	␉␊
209	␉efiSystemTable->StandardErrorHandle = 0;␊
210	␉efiSystemTable->StdErr = 0;␊
211	␉␊
212	␉efiSystemTable->RuntimeServices = (EFI_PTR32)&fakeEfiPages->efiRuntimeServices;␊
213	␉␊
214	␉// According to the EFI spec, BootServices aren't valid after the␊
215	␉// boot process is exited so we can probably do without it.␊
216	␉// Apple didn't provide a definition for it in pexpert/i386/efi.h␊
217	␉// so I'm guessing they don't use it.␊
218	␉efiSystemTable->BootServices = 0;␊
219	␉␊
220	␉efiSystemTable->NumberOfTableEntries = 0;␊
221	␉efiSystemTable->ConfigurationTable = (EFI_PTR32)fakeEfiPages->efiConfigurationTable;␊
222	␉␊
223	␉// We're done. Now CRC32 the thing so the kernel will accept it.␊
224	␉// Must be initialized to zero before CRC32, done above.␊
225	␉gST32->Hdr.CRC32 = crc32(0L, gST32, gST32->Hdr.HeaderSize);␊
226	␉␊
227	␉// --------------------------------------------------------------------␊
228	␉// Runtime services␊
229	␉EFI_RUNTIME_SERVICES_32 *efiRuntimeServices = &fakeEfiPages->efiRuntimeServices;␊
230	␉efiRuntimeServices->Hdr.Signature = EFI_RUNTIME_SERVICES_SIGNATURE;␊
231	␉efiRuntimeServices->Hdr.Revision = EFI_RUNTIME_SERVICES_REVISION;␊
232	␉efiRuntimeServices->Hdr.HeaderSize = sizeof(EFI_RUNTIME_SERVICES_32);␊
233	␉efiRuntimeServices->Hdr.CRC32 = 0;␊
234	␉efiRuntimeServices->Hdr.Reserved = 0;␊
235	␉␊
236	␉// There are a number of function pointers in the efiRuntimeServices table.␊
237	␉// These are the Foundation (e.g. core) services and are expected to be present on␊
238	␉// all EFI-compliant machines.␉Some kernel extensions (notably AppleEFIRuntime)␊
239	␉// will call these without checking to see if they are null.␊
240	␉//␊
241	␉// We don't really feel like doing an EFI implementation in the bootloader␊
242	␉// but it is nice if we can at least prevent a complete crash by␊
243	␉// at least providing some sort of implementation until one can be provided␊
244	␉// nicely in a kext.␊
245	␉void (voidret_fp)() = (void)fakeEfiPages->voidret_instructions;␊
246	␉void (unsupportedret_fp)() = (void)fakeEfiPages->unsupportedret_instructions;␊
247	␉efiRuntimeServices->GetTime = (EFI_PTR32)unsupportedret_fp;␊
248	␉efiRuntimeServices->SetTime = (EFI_PTR32)unsupportedret_fp;␊
249	␉efiRuntimeServices->GetWakeupTime = (EFI_PTR32)unsupportedret_fp;␊
250	␉efiRuntimeServices->SetWakeupTime = (EFI_PTR32)unsupportedret_fp;␊
251	␉efiRuntimeServices->SetVirtualAddressMap = (EFI_PTR32)unsupportedret_fp;␊
252	␉efiRuntimeServices->ConvertPointer = (EFI_PTR32)unsupportedret_fp;␊
253	␉efiRuntimeServices->GetVariable = (EFI_PTR32)unsupportedret_fp;␊
254	␉efiRuntimeServices->GetNextVariableName = (EFI_PTR32)unsupportedret_fp;␊
255	␉efiRuntimeServices->SetVariable = (EFI_PTR32)unsupportedret_fp;␊
256	␉efiRuntimeServices->GetNextHighMonotonicCount = (EFI_PTR32)unsupportedret_fp;␊
257	␉efiRuntimeServices->ResetSystem = (EFI_PTR32)voidret_fp;␊
258	␉␊
259	␉// We're done.␉Now CRC32 the thing so the kernel will accept it␊
260	␉efiRuntimeServices->Hdr.CRC32 = crc32(0L, efiRuntimeServices, efiRuntimeServices->Hdr.HeaderSize);␊
261	␉␊
262	␉// --------------------------------------------------------------------␊
263	␉// Finish filling in the rest of the boot args that we need.␊
264	␉bootArgs->efiSystemTable = (uint32_t)efiSystemTable;␊
265	␉bootArgs->efiMode = kBootArgsEfiMode32;␊
266	␉␊
267	␉// The bootArgs structure as a whole is bzero'd so we don't need to fill in␊
268	␉// things like efiRuntimeServices* and what not.␊
269	␉//␊
270	␉// In fact, the only code that seems to use that is the hibernate code so it␊
271	␉// knows not to save the pages.␉ It even checks to make sure its nonzero.␊
272	}␊
273	␊
274	void setupEfiTables64(void) //Azi:efi32/64␊
275	{␊
276	␉// We use the fake_efi_pages struct so that we only need to do one kernel␊
277	␉// memory allocation for all needed EFI data. Otherwise, small allocations␊
278	␉// like the FIRMWARE_VENDOR string would take up an entire page.␊
279	␉// NOTE WELL: Do NOT assume this struct has any particular layout within itself.␊
280	␉// It is absolutely not intended to be publicly exposed anywhere␊
281	␉// We say pages (plural) although right now we are well within the 1 page size␊
282	␉// and probably will stay that way.␊
283	␉␊
284	␉struct fake_efi_pages␊
285	␉{␊
286	␉␉EFI_SYSTEM_TABLE_64 efiSystemTable;␊
287	␉␉EFI_RUNTIME_SERVICES_64 efiRuntimeServices;␊
288	␉␉EFI_CONFIGURATION_TABLE_64 efiConfigurationTable[MAX_CONFIGURATION_TABLE_ENTRIES];␊
289	␉␉EFI_CHAR16 firmwareVendor[sizeof(FIRMWARE_VENDOR)/sizeof(EFI_CHAR16)];␊
290	␉␉uint8_t voidret_instructions[sizeof(VOIDRET_INSTRUCTIONS)/sizeof(uint8_t)];␊
291	␉␉uint8_t unsupportedret_instructions[sizeof(UNSUPPORTEDRET_INSTRUCTIONS)/sizeof(uint8_t)];␊
292	␉};␊
293	␉␊
294	␉struct fake_efi_pages fakeEfiPages = (struct fake_efi_pages)AllocateKernelMemory(sizeof(struct fake_efi_pages));␊
295	␉␊
296	␉// Zero out all the tables in case fields are added later␊
297	␉bzero(fakeEfiPages, sizeof(struct fake_efi_pages));␊
298	␉␊
299	␉// --------------------------------------------------------------------␊
300	␉// Initialize some machine code that will return EFI_UNSUPPORTED for␊
301	␉// functions returning int and simply return for void functions.␊
302	␉memcpy(fakeEfiPages->voidret_instructions, VOIDRET_INSTRUCTIONS, sizeof(VOIDRET_INSTRUCTIONS));␊
303	␉memcpy(fakeEfiPages->unsupportedret_instructions, UNSUPPORTEDRET_INSTRUCTIONS, sizeof(UNSUPPORTEDRET_INSTRUCTIONS));␊
304	␉␊
305	␉// --------------------------------------------------------------------␊
306	␉// System table␊
307	␉EFI_SYSTEM_TABLE_64 *efiSystemTable = gST64 = &fakeEfiPages->efiSystemTable;␊
308	␉efiSystemTable->Hdr.Signature = EFI_SYSTEM_TABLE_SIGNATURE;␊
309	␉efiSystemTable->Hdr.Revision = EFI_SYSTEM_TABLE_REVISION;␊
310	␉efiSystemTable->Hdr.HeaderSize = sizeof(EFI_SYSTEM_TABLE_64);␊
311	␉efiSystemTable->Hdr.CRC32 = 0; // Initialize to zero and then do CRC32␊
312	␉efiSystemTable->Hdr.Reserved = 0;␊
313	␉␊
314	␉efiSystemTable->FirmwareVendor = ptov64((EFI_PTR32)&fakeEfiPages->firmwareVendor);␊
315	␉memcpy(fakeEfiPages->firmwareVendor, FIRMWARE_VENDOR, sizeof(FIRMWARE_VENDOR));␊
316	␉efiSystemTable->FirmwareRevision = FIRMWARE_REVISION;␊
317	␉␊
318	␉// XXX: We may need to have basic implementations of ConIn/ConOut/StdErr␊
319	␉// The EFI spec states that all handles are invalid after boot services have been␊
320	␉// exited so we can probably get by with leaving the handles as zero.␊
321	␉efiSystemTable->ConsoleInHandle = 0;␊
322	␉efiSystemTable->ConIn = 0;␊
323	␉␊
324	␉efiSystemTable->ConsoleOutHandle = 0;␊
325	␉efiSystemTable->ConOut = 0;␊
326	␉␊
327	␉efiSystemTable->StandardErrorHandle = 0;␊
328	␉efiSystemTable->StdErr = 0;␊
329	␉␊
330	␉efiSystemTable->RuntimeServices = ptov64((EFI_PTR32)&fakeEfiPages->efiRuntimeServices);␊
331	␉// According to the EFI spec, BootServices aren't valid after the␊
332	␉// boot process is exited so we can probably do without it.␊
333	␉// Apple didn't provide a definition for it in pexpert/i386/efi.h␊
334	␉// so I'm guessing they don't use it.␊
335	␉efiSystemTable->BootServices = 0;␊
336	␉␊
337	␉efiSystemTable->NumberOfTableEntries = 0;␊
338	␉efiSystemTable->ConfigurationTable = ptov64((EFI_PTR32)fakeEfiPages->efiConfigurationTable);␊
339	␉␊
340	␉// We're done.␉Now CRC32 the thing so the kernel will accept it␊
341	␉gST64->Hdr.CRC32 = crc32(0L, gST64, gST64->Hdr.HeaderSize);␊
342	␉␊
343	␉// --------------------------------------------------------------------␊
344	␉// Runtime services␊
345	␉EFI_RUNTIME_SERVICES_64 *efiRuntimeServices = &fakeEfiPages->efiRuntimeServices;␊
346	␉efiRuntimeServices->Hdr.Signature = EFI_RUNTIME_SERVICES_SIGNATURE;␊
347	␉efiRuntimeServices->Hdr.Revision = EFI_RUNTIME_SERVICES_REVISION;␊
348	␉efiRuntimeServices->Hdr.HeaderSize = sizeof(EFI_RUNTIME_SERVICES_64);␊
349	␉efiRuntimeServices->Hdr.CRC32 = 0;␊
350	␉efiRuntimeServices->Hdr.Reserved = 0;␊
351	␉␊
352	␉// There are a number of function pointers in the efiRuntimeServices table.␊
353	␉// These are the Foundation (e.g. core) services and are expected to be present on␊
354	␉// all EFI-compliant machines.␉Some kernel extensions (notably AppleEFIRuntime)␊
355	␉// will call these without checking to see if they are null.␊
356	␉//␊
357	␉// We don't really feel like doing an EFI implementation in the bootloader␊
358	␉// but it is nice if we can at least prevent a complete crash by␊
359	␉// at least providing some sort of implementation until one can be provided␊
360	␉// nicely in a kext.␊
361	␉␊
362	␉void (voidret_fp)() = (void)fakeEfiPages->voidret_instructions;␊
363	␉void (unsupportedret_fp)() = (void)fakeEfiPages->unsupportedret_instructions;␊
364	␉efiRuntimeServices->GetTime = ptov64((EFI_PTR32)unsupportedret_fp);␊
365	␉efiRuntimeServices->SetTime = ptov64((EFI_PTR32)unsupportedret_fp);␊
366	␉efiRuntimeServices->GetWakeupTime = ptov64((EFI_PTR32)unsupportedret_fp);␊
367	␉efiRuntimeServices->SetWakeupTime = ptov64((EFI_PTR32)unsupportedret_fp);␊
368	␉efiRuntimeServices->SetVirtualAddressMap = ptov64((EFI_PTR32)unsupportedret_fp);␊
369	␉efiRuntimeServices->ConvertPointer = ptov64((EFI_PTR32)unsupportedret_fp);␊
370	␉efiRuntimeServices->GetVariable = ptov64((EFI_PTR32)unsupportedret_fp);␊
371	␉efiRuntimeServices->GetNextVariableName = ptov64((EFI_PTR32)unsupportedret_fp);␊
372	␉efiRuntimeServices->SetVariable = ptov64((EFI_PTR32)unsupportedret_fp);␊
373	␉efiRuntimeServices->GetNextHighMonotonicCount = ptov64((EFI_PTR32)unsupportedret_fp);␊
374	␉efiRuntimeServices->ResetSystem = ptov64((EFI_PTR32)voidret_fp);␊
375	␉␊
376	␉// We're done.␉Now CRC32 the thing so the kernel will accept it␊
377	␉efiRuntimeServices->Hdr.CRC32 = crc32(0L, efiRuntimeServices, efiRuntimeServices->Hdr.HeaderSize);␊
378	␉␊
379	␉// --------------------------------------------------------------------␊
380	␉// Finish filling in the rest of the boot args that we need.␊
381	␉bootArgs->efiSystemTable = (uint32_t)efiSystemTable;␊
382	␉bootArgs->efiMode = kBootArgsEfiMode64;␊
383	␉␊
384	␉// The bootArgs structure as a whole is bzero'd so we don't need to fill in␊
385	␉// things like efiRuntimeServices* and what not.␊
386	␉//␊
387	␉// In fact, the only code that seems to use that is the hibernate code so it␊
388	␉// knows not to save the pages.␉ It even checks to make sure its nonzero.␊
389	}␊
390	␊
391	/*␊
392	* In addition to the EFI tables there is also the EFI device tree node.␊
393	* In particular, we need /efi/platform to have an FSBFrequency key. Without it,␊
394	* the tsc_init function will panic very early on in kernel startup, before␊
395	* the console is available.␊
396	*/␊
397	␊
398	/*==========================================================================␊
399	* FSB Frequency detection␊
400	*/␊
401	␊
402	// These should be const but DT__AddProperty takes char*␊
403	static const char const TSC_Frequency_prop[] = "TSCFrequency";␊
404	static const char const FSB_Frequency_prop[] = "FSBFrequency";␊
405	static const char const CPU_Frequency_prop[] = "CPUFrequency";␊
406	␊
407	/*==========================================================================␊
408	* SMBIOS␊
409	*/␊
410	␊
411	static uint64_t smbios_p; //Azi: asereBLN␊
412	␊
413	// From Foundation/Efi/Guid/Smbios/SmBios.c␊
414	EFI_GUID const gEfiSmbiosTableGuid = EFI_SMBIOS_TABLE_GUID;␊
415	␊
416	#define SMBIOS_RANGE_START␉␉0x000F0000␊
417	#define SMBIOS_RANGE_END␉␉0x000FFFFF␊
418	␊
419	// '_SM_' in little endian:␊
420	#define SMBIOS_ANCHOR_UINT32_LE 0x5f4d535f␊
421	␊
422	#define EFI_ACPI_TABLE_GUID \␊
423	{ \␊
424	␉0xeb9d2d30, 0x2d88, 0x11d3, { 0x9a, 0x16, 0x0, 0x90, 0x27, 0x3f, 0xc1, 0x4d } \␊
425	}␊
426	␊
427	#define EFI_ACPI_20_TABLE_GUID \␊
428	{ \␊
429	␉0x8868e871, 0xe4f1, 0x11d3, { 0xbc, 0x22, 0x0, 0x80, 0xc7, 0x3c, 0x88, 0x81 } \␊
430	}␊
431	␊
432	EFI_GUID gEfiAcpiTableGuid = EFI_ACPI_TABLE_GUID;␊
433	EFI_GUID gEfiAcpi20TableGuid = EFI_ACPI_20_TABLE_GUID;␊
434	␊
435	/*==========================================================================␊
436	* Fake EFI implementation␊
437	*/␊
438	␊
439	// These should be const but DT__AddProperty takes char*␊
440	static const char const FIRMWARE_REVISION_PROP[] = "firmware-revision";␊
441	static const char const FIRMWARE_ABI_PROP[] = "firmware-abi";␊
442	static const char const FIRMWARE_VENDOR_PROP[] = "firmware-vendor";␊
443	static const char const FIRMWARE_ABI_32_PROP_VALUE[] = "EFI32"; //Azi:efi32/64␊
444	static const char const FIRMWARE_ABI_64_PROP_VALUE[] = "EFI64"; //␉␉\|\|␊
445	static const char const SYSTEM_ID_PROP[] = "system-id";␊
446	static const char const SYSTEM_SERIAL_PROP[] = "SystemSerialNumber";␊
447	static const char const SYSTEM_TYPE_PROP[] = "system-type";␊
448	static const char const MODEL_PROP[] = "Model";␊
449	␊
450	/*␊
451	* Get an smbios option string option to convert to EFI_CHAR16 string␊
452	*/␊
453	␊
454	static EFI_CHAR16* getSmbiosChar16(const char * key, size_t* len)␊
455	{␊
456	␉const char␉*src = getStringForKey(key, &bootInfo->smbiosConfig);␊
457	␉EFI_CHAR16* dst = 0;␊
458	␉size_t␉␉ i = 0;␊
459	␉␊
460	␉if (!key \|\| !(*key) \|\| !len \|\| !src) return 0;␊
461	␉␊
462	␉*len = strlen(src);␊
463	␉dst = (EFI_CHAR16) malloc( ((len)+1) * 2 );␊
464	␉for (; i < (*len); i++) dst[i] = src[i];␊
465	␉dst[(*len)] = '\0';␊
466	␉len = ((len)+1)*2; // return the CHAR16 bufsize in cluding zero terminated CHAR16␊
467	␉return dst;␊
468	}␊
469	␊
470	/*␊
471	* Get the SystemID from the bios dmi info␊
472	*/␊
473	␊
474	static␉EFI_CHAR8* getSmbiosUUID()␊
475	{␊
476	␉static EFI_CHAR8␉␉ uuid[UUID_LEN];␊
477	␉int␉␉␉␉␉␉ i, isZero, isOnes;␊
478	␉struct SMBEntryPoint␉*smbios;␊
479	␉SMBByte␉␉␉␉␉*p;␊
480	␉␊
481	␉smbios = getSmbios(SMBIOS_PATCHED); // checks for _SM_ anchor and table header checksum␊
482	␉if (smbios==NULL) return 0; // getSmbios() return a non null value if smbios is found␊
483	␉␊
484	␉p = (SMBByte*) FindFirstDmiTableOfType(1, 0x19); // Type 1: (3.3.2) System Information␊
485	␉if (p==NULL) return NULL;␊
486	␉␊
487	␉verbose("Found SMBIOS System Information Table 1\n");␊
488	␉p += 8;␊
489	␉␊
490	␉for (i=0, isZero=1, isOnes=1; i<UUID_LEN; i++)␊
491	␉{␊
492	␉␉if (p[i] != 0x00) isZero = 0;␊
493	␉␉if (p[i] != 0xff) isOnes = 0;␊
494	␉}␊
495	␉␊
496	␉if (isZero \|\| isOnes) // empty or setable means: no uuid present␊
497	␉{␊
498	␉␉verbose("No UUID present in SMBIOS System Information Table\n");␊
499	␉␉return 0;␊
500	␉}␊
501	␉␊
502	␉memcpy(uuid, p, UUID_LEN);␊
503	␉return uuid;␊
504	}␊
505	␊
506	/*␊
507	* return a binary UUID value from the overriden SystemID and SMUUID if found, ␊
508	* or from the bios if not, or from a fixed value if no bios value is found ␊
509	*/␊
510	␊
511	static EFI_CHAR8* getSystemID()␊
512	{␊
513	␉// unable to determine UUID for host. Error: 35 fix␊
514	␉// Rek: new SMsystemid option conforming to smbios notation standards, this option should␊
515	␉// belong to smbios config only ...␊
516	␉const char *sysId = getStringForKey(kSystemIDKey, &bootInfo->bootConfig);␊
517	␉EFI_CHAR8* ret = getUUIDFromString(sysId);␊
518	␊
519	␉if (!sysId \|\| !ret) // try bios dmi info UUID extraction␊
520	␉{␊
521	␉␉ret = getSmbiosUUID();␊
522	␉␉sysId = 0;␊
523	␉}␊
524	␉␊
525	␉if (!ret) // no bios dmi UUID available, set a fixed value for system-id␊
526	␉␉ret=getUUIDFromString((sysId = (const char*) SYSTEM_ID));␊
527	␉␊
528	␉verbose("Customizing SystemID with : %s\n", getStringFromUUID(ret)); // apply a nice formatting to the displayed output␊
529	␉return ret;␊
530	}␊
531	␊
532	/*␊
533	* Must be called AFTER setup Acpi because we need to take care of correct␊
534	* facp content to reflect in ioregs␊
535	*/␊
536	␊
537	void setupSystemType()␊
538	{␊
539	␉Node *node = DT__FindNode("/", false);␊
540	␉if (node == 0) stop("Couldn't get root node");␊
541	␉// we need to write this property after facp parsing␊
542	␉// Export system-type only if it has been overrriden by the SystemType option␊
543	␉DT__AddProperty(node, SYSTEM_TYPE_PROP, sizeof(Platform.Type), &Platform.Type);␊
544	}␊
545	␊
546	void setupEfiDeviceTree(void)␊
547	{␊
548	␉EFI_CHAR8*␉ ret = 0;␊
549	␉EFI_CHAR16* ret16 = 0;␊
550	␉size_t␉␉ len = 0;␊
551	␉Node␉␉*node;␊
552	␉␊
553	␉node = DT__FindNode("/", false);␊
554	␉␊
555	␉if (node == 0) stop("Couldn't get root node");␊
556	␉␊
557	␉// We could also just do DT__FindNode("/efi/platform", true)␊
558	␉// But I think eventually we want to fill stuff in the efi node␊
559	␉// too so we might as well create it so we have a pointer for it too.␊
560	␉node = DT__AddChild(node, "efi");␊
561	␉␊
562	␉if (archCpuType == CPU_TYPE_I386) //Azi:efi32/64␊
563	␉{␊
564	␉␉DT__AddProperty(node, FIRMWARE_ABI_PROP, sizeof(FIRMWARE_ABI_32_PROP_VALUE), (char*)FIRMWARE_ABI_32_PROP_VALUE);␊
565	␉}␊
566	␉else␊
567	␉{␊
568	␉␉DT__AddProperty(node, FIRMWARE_ABI_PROP, sizeof(FIRMWARE_ABI_64_PROP_VALUE), (char*)FIRMWARE_ABI_64_PROP_VALUE);␊
569	␉}␊
570	␉␊
571	␉DT__AddProperty(node, FIRMWARE_REVISION_PROP, sizeof(FIRMWARE_REVISION), (EFI_UINT32*)&FIRMWARE_REVISION);␊
572	␉DT__AddProperty(node, FIRMWARE_VENDOR_PROP, sizeof(FIRMWARE_VENDOR), (EFI_CHAR16*)FIRMWARE_VENDOR);␊
573	␉␊
574	␉// TODO: Fill in other efi properties if necessary␊
575	␉␊
576	␉// Set up the /efi/runtime-services table node similar to the way a child node of configuration-table␊
577	␉// is set up. That is, name and table properties␊
578	␉Node *runtimeServicesNode = DT__AddChild(node, "runtime-services");␊
579	␉␊
580	␉if (archCpuType == CPU_TYPE_I386) //Azi:efi32/64␊
581	␉{␊
582	␉␉// The value of the table property is the 32-bit physical address for the RuntimeServices table.␊
583	␉␉// Since the EFI system table already has a pointer to it, we simply use the address of that pointer␊
584	␉␉// for the pointer to the property data. Warning.. DT finalization calls free on that but we're not␊
585	␉␉// the only thing to use a non-malloc'd pointer for something in the DT␊
586	␉␉␊
587	␉␉DT__AddProperty(runtimeServicesNode, "table", sizeof(uint64_t), &gST32->RuntimeServices);␊
588	␉}␊
589	␉else␊
590	␉{␊
591	␉␉DT__AddProperty(runtimeServicesNode, "table", sizeof(uint64_t), &gST64->RuntimeServices);␊
592	␉}␊
593	␉␊
594	␉// Set up the /efi/configuration-table node which will eventually have several child nodes for␊
595	␉// all of the configuration tables needed by various kernel extensions.␊
596	␉gEfiConfigurationTableNode = DT__AddChild(node, "configuration-table");␊
597	␉␊
598	␉// Now fill in the /efi/platform Node␊
599	␉Node *efiPlatformNode = DT__AddChild(node, "platform");␊
600	␉␊
601	␉// NOTE WELL: If you do add FSB Frequency detection, make sure to store␊
602	␉// the value in the fsbFrequency global and not an malloc'd pointer␊
603	␉// because the DT_AddProperty function does not copy its args.␊
604	␉␊
605	␉//Azi: the next 3 are never constant between boots!!␊
606	␉if (Platform.CPU.FSBFrequency != 0)␊
607	␉␉DT__AddProperty(efiPlatformNode, FSB_Frequency_prop, sizeof(uint64_t), &Platform.CPU.FSBFrequency);␊
608	␉␊
609	␉// Export TSC and CPU frequencies for use by the kernel or KEXTs␊
610	␉if (Platform.CPU.TSCFrequency != 0)␊
611	␉␉DT__AddProperty(efiPlatformNode, TSC_Frequency_prop, sizeof(uint64_t), &Platform.CPU.TSCFrequency);␊
612	␉␊
613	␉if (Platform.CPU.CPUFrequency != 0)␊
614	␉␉DT__AddProperty(efiPlatformNode, CPU_Frequency_prop, sizeof(uint64_t), &Platform.CPU.CPUFrequency);␊
615	␉␊
616	␉// Export system-id. Can be disabled with SystemId=No in com.apple.Boot.plist␊
617	␉if ((ret=getSystemID()))␊
618	␉␉DT__AddProperty(efiPlatformNode, SYSTEM_ID_PROP, UUID_LEN, (EFI_UINT32*) ret);␊
619	␊
620	␉ // Export SystemSerialNumber if present␊
621	␉if ((ret16=getSmbiosChar16("SMserial", &len)))␊
622	␉␉DT__AddProperty(efiPlatformNode, SYSTEM_SERIAL_PROP, len, ret16);␊
623	␉␊
624	␉// Export Model if present␊
625	␉if ((ret16=getSmbiosChar16("SMproductname", &len)))␊
626	␉␉DT__AddProperty(efiPlatformNode, MODEL_PROP, len, ret16);␊
627	␉␊
628	␉// Fill /efi/device-properties node.␊
629	␉setupDeviceProperties(node);␊
630	}␊
631	␊
632	/*␊
633	* Load the smbios.plist override config file if any␊
634	*/␊
635	␊
636	static void setupSmbiosConfigFile(const char * filename) //Azi:searchalgo␊
637	{␊
638	␉char␉␉dirSpecExtraSmbios[128] = ""; //Azi:alloc␊
639	␉const char *override_pathfile = NULL;␊
640	␉int␉␉␉len = 0, fd = 0;␊
641	␉extern char gMacOSVersion;␊
642	␉extern void scan_mem();␊
643	␉␊
644	␉// Take in account user overriding␊
645	␉if (getValueForKey(kSMBIOSKey, &override_pathfile, &len, &bootInfo->bootConfig))␊
646	␉{␊
647	␉␉// Specify a path to a file, e.g. /Extra/test.plist␊
648	␉␉sprintf(dirSpecExtraSmbios, override_pathfile);␊
649	␉␉fd = loadConfigFile(dirSpecExtraSmbios, &bootInfo->smbiosConfig);␊
650	␉␉if (fd >= 0) goto success_fd;␊
651	␉}␊
652	␉␊
653	␉// Check drivers.c, LoadDrivers, for more comments on these.␊
654	␉␊
655	␉sprintf(dirSpecExtraSmbios, "rd(0,0)/%s", filename);␊
656	␉fd = loadConfigFile(dirSpecExtraSmbios, &bootInfo->smbiosConfig);␊
657	␉if (fd >= 0) goto success_fd;␊
658	␉␊
659	␉sprintf(dirSpecExtraSmbios, "bt(0,0)/Extra/%s/%s", &gMacOSVersion, filename);␊
660	␉fd = loadConfigFile(dirSpecExtraSmbios, &bootInfo->smbiosConfig);␊
661	␉if (fd >= 0) goto success_fd;␊
662	␉␊
663	␉// Removed /Extra path from search algo. If needed can be specified on override key!␊
664	␉␊
665	␉sprintf(dirSpecExtraSmbios, "bt(0,0)/Extra/%s", filename);␊
666	␉fd = loadConfigFile(dirSpecExtraSmbios, &bootInfo->smbiosConfig);␊
667	␉if (fd >= 0) goto success_fd;␊
668	␉␊
669	␉if (loadConfigFile(dirSpecExtraSmbios, &bootInfo->smbiosConfig) == -1)␊
670	␉{␊
671	␉␉verbose("No SMBIOS replacement found\n");␊
672	␉}␊
673	␉␊
674	␉// get a chance to scan mem dynamically if user asks for it while having the config options loaded as well,␊
675	␉// as opposed to when it was in scan_platform(); also load the orig. smbios so that we can access dmi info without␊
676	␉// patching the smbios yet␊
677	success_fd:␊
678	␉getSmbios(SMBIOS_ORIGINAL);␊
679	␉scan_mem(); ␊
680	␉smbios_p = (EFI_PTR32)getSmbios(SMBIOS_PATCHED);␉// process smbios asap␊
681	}␊
682	␊
683	/*␊
684	* Installs all the needed configuration table entries␊
685	*/␊
686	␊
687	static void setupEfiConfigurationTable()␊
688	{␊
689	␉// reminder: EFI_PTR64␊
690	␉smbios_p = (EFI_PTR32)getSmbios(SMBIOS_PATCHED);␊
691	␉␊
692	␉addConfigurationTable(&gEfiSmbiosTableGuid, &smbios_p, "SMBIOS_P"); //Azi:efi32/64 - give an "alias" to this stuff :)␊
693	␉␊
694	␉// Setup ACPI with DSDT overrides (mackerintel's patch)␊
695	␉setupAcpi();␊
696	␉␊
697	␉// We've obviously changed the count.. so fix up the CRC32␊
698	␉if (archCpuType == CPU_TYPE_I386) //Azi:efi32/64␊
699	␉{␊
700	␉␉gST32->Hdr.CRC32 = 0;␊
701	␉␉gST32->Hdr.CRC32 = crc32(0L, gST32, gST32->Hdr.HeaderSize);␊
702	␉}␊
703	␉else␊
704	␉{␊
705	␉␉gST64->Hdr.CRC32 = 0;␊
706	␉␉gST64->Hdr.CRC32 = crc32(0L, gST64, gST64->Hdr.HeaderSize);␊
707	␉}␊
708	}␊
709	␊
710	/*␊
711	* Entrypoint from boot.c␊
712	*/␊
713	␊
714	void setupFakeEfi(void)␊
715	{␊
716	␉// Generate efi device strings ␊
717	␉setup_pci_devs(root_pci_dev);␊
718	␉␊
719	␉// load smbios.plist file if any␊
720	␉setupSmbiosConfigFile("smbios.plist"); //Azi: smbios plist default name.␊
721	␉␊
722	␉// Initialize the base table␊
723	␉if (archCpuType == CPU_TYPE_I386) //Azi:efi32/64␊
724	␉{␊
725	␉␉setupEfiTables32();␊
726	␉}␊
727	␉else␊
728	␉{␊
729	␉␉setupEfiTables64();␊
730	␉}␊
731	␉␊
732	␉// Initialize the device tree␊
733	␉setupEfiDeviceTree();␊
734	␉␊
735	␉// Add configuration table entries to both the services table and the device tree␊
736	␉setupEfiConfigurationTable();␊
737	}␊
738	␊
739

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