Add IntelFsp2Pkg and IntelFsp2WrapperPkg.

Add FSP2.0 support.
This series of patch is to support FSP2.0 specification at
https://firmware.intel.com/sites/default/files/FSP_EAS_v2.0_Draft%20External.pdf

Some major updates include:
1) One FSP binary is separated to multiple components:
FSP-T, FSP-M, FSP-S, and optional FSP-O.
Each component has its own configuration data region.
2) All FSP-APIs use same UPD format - FSP_UPD_HEADER.
3) Add EnumInitPhaseEndOfFirmware notifyphase.
4) FSP1.1/FSP1.0 compatibility is NOT maintained.
5) We also add rename Fsp* to FspWrapper* in IntelFsp2WrapperPkg,
to indicate that it is for FspWrapper only.

IntelFspPkg and IntelFspWrapperPkg will be deprecated.
The new Intel platform will follow FSP2.0 and use IntelFsp2Pkg
and IntelFsp2WrapperPkg.
The old platform can still use IntelFspPkg and IntelFspWrapperPkg
for compatibility consideration.

Cc: Giri P Mudusuru <giri.p.mudusuru@intel.com>
Cc: Maurice Ma <maurice.ma@intel.com>
Cc: Ravi P Rangarajan <ravi.p.rangarajan@intel.com>
Contributed-under: TianoCore Contribution Agreement 1.0
Signed-off-by: Jiewen Yao <jiewen.yao@intel.com>
Reviewed-by: Giri P Mudusuru <giri.p.mudusuru@intel.com>
Reviewed-by: Maurice Ma <maurice.ma@intel.com>
Reviewed-by: Ravi P Rangarajan <ravi.p.rangarajan@intel.com>
(cherry picked from commit cf1d454983fb4fd3b580a92bd242310467a5eaef)

1 files changed, 230 insertions, 0 deletions

diff --git a/IntelFsp2WrapperPkg/Library/BaseFspWrapperApiLib/X64/Thunk64To32.S b/IntelFsp2WrapperPkg/Library/BaseFspWrapperApiLib/X64/Thunk64To32.S
new file mode 100644
index 0000000000..b6b5c1aca8
--- /dev/null
+++ b/IntelFsp2WrapperPkg/Library/BaseFspWrapperApiLib/X64/Thunk64To32.S
@@ -0,0 +1,230 @@
+#

+# Copyright (c) 2014, Intel Corporation. All rights reserved.<BR>

+# This program and the accompanying materials

+# are licensed and made available under the terms and conditions of the BSD License

+# which accompanies this distribution.  The full text of the license may be found at

+# http://opensource.org/licenses/bsd-license.php.

+#

+# THE PROGRAM IS DISTRIBUTED UNDER THE BSD LICENSE ON AN "AS IS" BASIS,

+# WITHOUT WARRANTIES OR REPRESENTATIONS OF ANY KIND, EITHER EXPRESS OR IMPLIED.

+#

+#

+# Module Name:

+#

+#    Thunk64To32.asm

+#

+# Abstract:

+#

+#   This is the assembly code to transition from long mode to compatibility mode to execute 32-bit code and then

+#   transit back to long mode.

+#

+#-------------------------------------------------------------------------------

+

+#----------------------------------------------------------------------------

+# Procedure:    AsmExecute32BitCode

+#

+# Input:        None

+#

+# Output:       None

+#

+# Prototype:    UINT32

+#               AsmExecute32BitCode (

+#                 IN UINT64           Function,

+#                 IN UINT64           Param1,

+#                 IN UINT64           Param2,

+#                 IN IA32_DESCRIPTOR  *InternalGdtr

+#                 );

+#

+#

+# Description:  A thunk function to execute 32-bit code in long mode.

+#

+#----------------------------------------------------------------------------

+

+ASM_GLOBAL ASM_PFX(AsmExecute32BitCode)

+ASM_PFX(AsmExecute32BitCode):

+    #

+    # save IFLAG and disable it

+    #

+    pushfq

+    cli

+

+    #

+    # save orignal GDTR and CS

+    #

+    movl    %ds, %eax

+    push    %rax

+    movl    %cs, %eax

+    push    %rax

+    subq    $0x10, %rsp

+    sgdt    (%rsp)

+    #

+    # load internal GDT

+    #

+    lgdt    (%r9)

+    #

+    # Save general purpose register and rflag register

+    #

+    pushfq

+    push    %rdi

+    push    %rsi

+    push    %rbp

+    push    %rbx

+

+    #

+    # save CR3

+    #

+    movq    %cr3, %rax

+    movq    %rax, %rbp

+

+    #

+    # Prepare the CS and return address for the transition from 32-bit to 64-bit mode

+    #

+    movq    $0x10, %rax              # load long mode selector

+    shl     $32, %rax

+    lea     ReloadCS(%rip), %r9   #Assume the ReloadCS is under 4G

+    orq     %r9, %rax

+    push    %rax

+    #

+    # Save parameters for 32-bit function call

+    #

+    movq    %r8, %rax

+    shl     $32, %rax

+    orq     %rdx, %rax

+    push    %rax

+    #

+    # save the 32-bit function entry and the return address into stack which will be

+    # retrieve in compatibility mode.

+    #

+    lea     ReturnBack(%rip), %rax   #Assume the ReloadCS is under 4G

+    shl     $32, %rax

+    orq     %rcx, %rax

+    push    %rax

+

+    #

+    # let rax save DS

+    #

+    movq    $0x18, %rax

+

+    #

+    # Change to Compatible Segment

+    #

+    movq    $8, %rcx               # load compatible mode selector

+    shl     $32, %rcx

+    lea     Compatible(%rip), %rdx # assume address < 4G

+    orq     %rdx, %rcx

+    push    %rcx

+    .byte   0xcb                # retf

+

+Compatible:

+    # reload DS/ES/SS to make sure they are correct referred to current GDT

+    movw    %ax, %ds

+    movw    %ax, %es

+    movw    %ax, %ss

+

+    #

+    # Disable paging

+    #

+    movq    %cr0, %rcx

+    btc     $31, %ecx

+    movq    %rcx, %cr0

+    #

+    # Clear EFER.LME

+    #

+    movl    $0xC0000080, %ecx

+    rdmsr

+    btc     $8, %eax

+    wrmsr

+

+# Now we are in protected mode

+    #

+    # Call 32-bit function. Assume the function entry address and parameter value is less than 4G

+    #

+    pop    %rax                 # Here is the function entry

+    #

+    # Now the parameter is at the bottom of the stack,  then call in to IA32 function.

+    #

+    jmp   *%rax

+ReturnBack:

+    movl  %eax, %ebx            # save return status

+    pop   %rcx                  # drop param1

+    pop   %rcx                  # drop param2

+

+    #

+    # restore CR4

+    #

+    movq    %cr4, %rax

+    bts     $5, %eax

+    movq    %rax, %cr4

+

+    #

+    # restore CR3

+    #

+    movl    %ebp, %eax

+    movq    %rax, %cr3

+

+    #

+    # Set EFER.LME to re-enable ia32-e

+    #

+    movl    $0xC0000080, %ecx

+    rdmsr

+    bts     $8, %eax

+    wrmsr

+    #

+    # Enable paging

+    #

+    movq    %cr0, %rax

+    bts     $31, %eax

+    mov     %rax, %cr0

+# Now we are in compatible mode

+

+    #

+    # Reload cs register

+    #

+    .byte   0xcb                # retf

+ReloadCS:

+    #

+    # Now we're in Long Mode

+    #

+    #

+    # Restore C register and eax hold the return status from 32-bit function.

+    # Note: Do not touch rax from now which hold the return value from IA32 function

+    #

+    movl    %ebx, %eax # put return status to EAX

+    pop     %rbx

+    pop     %rbp

+    pop     %rsi

+    pop     %rdi

+    popfq

+    #

+    # Switch to orignal GDT and CS. here rsp is pointer to the orignal GDT descriptor.

+    #

+    lgdt    (%rsp)

+    #

+    # drop GDT descriptor in stack

+    #

+    addq    $0x10, %rsp

+    #

+    # switch to orignal CS and GDTR

+    #

+    pop     %r9                 # get  CS

+    shl     $32, %r9            # rcx[32..47] <- Cs

+    lea     ReturnToLongMode(%rip), %rcx

+    orq     %r9, %rcx

+    push    %rcx

+    .byte   0xcb                # retf

+ReturnToLongMode:

+    #

+    # Reload original DS/ES/SS

+    #

+    pop     %rcx

+    movl    %ecx, %ds

+    movl    %ecx, %es

+    movl    %ecx, %ss

+

+    #

+    # Restore IFLAG

+    #

+    popfq

+

+    ret

+