Cleanup xtldr code as it no longer need to initialize CPU structures

2023-01-29 10:59:22 +01:00 · 2023-01-29 10:59:22 +01:00 · df11473eac
commit df11473eac
parent bca7ac41b8
5 changed files with 1 additions and 426 deletions
--- a/xtldr/modules/xtos/CMakeLists.txt
+++ b/xtldr/modules/xtos/CMakeLists.txt
@ -10,8 +10,7 @@ include_directories(
 # Specify list of source code files
 list(APPEND XTLDR_XTOS_SOURCE
    ${XTLDR_SOURCE_DIR}/blproto.c
-    ${XTLDR_XTOS_SOURCE_DIR}/xtos.c
+    ${XTLDR_XTOS_SOURCE_DIR}/xtos.c)
    ${XTLDR_XTOS_SOURCE_DIR}/${ARCH}/cpu.c)
 # Link bootloader executable
 add_executable(xtos ${XTLDR_XTOS_SOURCE})
--- a/xtldr/modules/xtos/amd64/cpu.c
+++ b/xtldr/modules/xtos/amd64/cpu.c
@ -1,60 +0,0 @@
 /**
 * PROJECT:         ExectOS
 * COPYRIGHT:       See COPYING.md in the top level directory
 * FILE:            xtldr/modules/xtos/amd64/cpu.c
 * DESCRIPTION:     XTOS AMD64 processor context
 * DEVELOPERS:      Rafal Kupiec <belliash@codingworkshop.eu.org>
 */
 #include <xtos.h>
 /**
 * Loads previously prepared CPU context and performs architecture-specific tasks needed to boot XTOS.
 *
 * @param Gdt
 *        Supplies a pointer to memory area containing GDT to load.
 *
 * @param Idt
 *        Supplies a pointer to memory area containing IDT to load.
 *
 * @return This routine does not return any value.
 *
 * @since XT 1.0
 */
 XTCDECL
 VOID
 XtpLoadProcessorContext(IN PKGDTENTRY Gdt,
                        IN PKIDTENTRY Idt)
 {
 }
 /**
 * Sets architecture specific processor context.
 *
 * @param MemoryMappings
 *        Supplies a pointer to linked list containing all memory mappings.
 *
 * @param VirtualAddress
 *        Supplies a pointer to the next valid, free and available virtual address.
 *
 * @param Gdt
 *        Supplies a pointer to memory area containing GDT to fill in.
 *
 * @param Idt
 *        Supplies a pointer to memory area containing IDT to fill in.
 *
 * @return This routine returns a status code.
 *
 * @since XT 1.0
 */
 XTCDECL
 EFI_STATUS
 XtpSetProcessorContext(IN PLIST_ENTRY MemoryMappings,
                       IN PVOID *VirtualAddress,
                       OUT PKGDTENTRY *Gdt,
                       OUT PKIDTENTRY *Idt)
 {
    /* Return success */
    return STATUS_EFI_SUCCESS;
 }
--- a/xtldr/modules/xtos/i686/cpu.c
+++ b/xtldr/modules/xtos/i686/cpu.c
@ -1,322 +0,0 @@
 /**
 * PROJECT:         ExectOS
 * COPYRIGHT:       See COPYING.md in the top level directory
 * FILE:            xtldr/modules/xtos/i686/cpu.c
 * DESCRIPTION:     XTOS i686 processor context
 * DEVELOPERS:      Rafal Kupiec <belliash@codingworkshop.eu.org>
 */
 #include <xtos.h>
 /**
 * Fills in an AMD64 GDT entry.
 *
 * @param Gdt
 *        Supplies a pointer to the GDT.
 *
 * @param Selector
 *        Specifies a segment selector of the GDT entry.
 *
 * @param Base
 *        Specifies a base address value of the descriptor.
 *
 * @param Limit
 *        Specifies a descriptor limit.
 *
 * @param Type
 *        Specifies a type of the descriptor.
 *
 * @param Dpl
 *        Specifies the descriptor privilege level.
 *
 * @param SegmentMode
 *        Specifies a segment mode of the descriptor.
 *
 * @return This routine does not return any value
 *
 * @since XT 1.0
 */
 XTCDECL
 VOID
 XtpInitializeGdtEntry(IN PKGDTENTRY Gdt,
                      IN USHORT Selector,
                      IN ULONGLONG Base,
                      IN ULONG Limit,
                      IN UCHAR Type,
                      IN UCHAR Dpl,
                      IN UCHAR SegmentMode)
 {
    PKGDTENTRY GdtEntry;
    UCHAR Granularity;
    /* Set the granularity flag depending on descriptor limit */
    if(Limit < 0x100000)
    {
        /* Limit is in 1B blocks */
        Granularity = 0;
    }
    else
    {
        /* Limit is in 4KB blocks */
        Granularity = 1;
        Limit >>= 12;
    }
    /* Get GDT entry */
    GdtEntry = (PKGDTENTRY)((ULONG64)Gdt + (Selector & ~RPL_MASK));
    /* Set GDT descriptor base */
    GdtEntry->BaseLow = Base & 0xFFFF;
    GdtEntry->Bits.BaseMiddle = (Base >> 16) & 0xFF;
    GdtEntry->Bits.BaseHigh = (Base >> 24) & 0xFF;
    /* Set descriptor limit */
    GdtEntry->LimitLow = Limit & 0xFFFF;
    GdtEntry->Bits.LimitHigh = (Limit >> 16) & 0xF;
    /* Initialize GDT entry */
    GdtEntry->Bits.DefaultBig = (SegmentMode & 2);
    GdtEntry->Bits.Dpl = (Dpl & 0x3);
    GdtEntry->Bits.Granularity = Granularity;
    GdtEntry->Bits.Reserved0 = 0;
    GdtEntry->Bits.Present = (Type != 0);
    GdtEntry->Bits.System = 0;
    GdtEntry->Bits.Type = (Type & 0x1F);
 }
 #define PCR_PAGES 7
 /**
 * Initializes GDT, PCR and TSS descriptors.
 *
 * @param MemoryMappings
 *        Supplies a pointer to linked list containing all memory mappings.
 *
 * @param VirtualAddress
 *        Supplies a pointer to the next valid, free and available virtual address.
 *
 * @param Gdt
 *        Supplies a pointer to memory area containing GDT to fill in.
 *
 * @param Idt
 *        Supplies a pointer to memory area containing IDT to fill in.
 *
 * @return This routine returns a status code.
 *
 * @since XT 1.0
 */
 XTCDECL
 EFI_STATUS
 XtpInitializeDescriptors(IN PLIST_ENTRY MemoryMappings,
                         IN PVOID *VirtualAddress,
                         OUT PKGDTENTRY *Gdt,
                         OUT PKIDTENTRY *Idt)
 {
    EFI_PHYSICAL_ADDRESS GdtAddress, IdtAddress, PcrAddress, TssAddress;
    KDESCRIPTOR OriginalIdt;
    PKTSS PhysicalTss, Tss;
    PVOID PhysicalPcr, Pcr;
    PKGDTENTRY GdtEntry;
    PKIDTENTRY IdtEntry;
    EFI_STATUS Status;
    /* Print debug message */
    XtLdrProtocol->DbgPrint(L"Initializing Task State Segment (TSS)\n");
    /* Allocate memory for TSS */
    Status = XtLdrProtocol->AllocatePages(EFI_SIZE_TO_PAGES(sizeof(KTSS)), &TssAddress);
    if(Status != STATUS_EFI_SUCCESS)
    {
        /* Memory allocation failure */
        XtLdrProtocol->DbgPrint(L"Failed to allocate pages for TSS (Status Code: %lx)\n", Status);
        return Status;
    }
    /* Set TSS and fill it with zeroes */
    PhysicalTss = (PKTSS)(UINT_PTR)TssAddress;
    RtlZeroMemory(PhysicalTss, EFI_SIZE_TO_PAGES(sizeof(KTSS)) * EFI_PAGE_SIZE);
    /* Map TSS and set its virtual address */
    XtLdrProtocol->AddVirtualMemoryMapping(MemoryMappings, *VirtualAddress, PhysicalTss,
                                           EFI_SIZE_TO_PAGES(sizeof(KTSS)), LoaderMemoryData);
    Tss = (PKTSS)*VirtualAddress;
    /* Set next valid virtual address */
    *VirtualAddress += EFI_SIZE_TO_PAGES(sizeof(KTSS)) * EFI_PAGE_SIZE;
    /* Print debug message */
    XtLdrProtocol->DbgPrint(L"Initializing Processor Control Region (PCR)\n");
    /* Allocate memory for PCR */
    Status = XtLdrProtocol->AllocatePages(PCR_PAGES, &PcrAddress);
    if(Status != STATUS_EFI_SUCCESS)
    {
        /* Memory allocation failure */
        XtLdrProtocol->DbgPrint(L"Failed to allocate pages for PCR (Status Code: %lx)\n", Status);
        return Status;
    }
    /* Set PCR and fill it with zeroes */
    PhysicalPcr = (PVOID)(UINT_PTR)PcrAddress;
    RtlZeroMemory(PhysicalPcr, PCR_PAGES * EFI_PAGE_SIZE);
    /* Map TSS and set its virtual address */
    XtLdrProtocol->AddVirtualMemoryMapping(MemoryMappings, *VirtualAddress, PhysicalPcr,
                                           PCR_PAGES, LoaderStartupPcrPage);
    Pcr = *VirtualAddress;
    /* Set next valid virtual address */
    *VirtualAddress += PCR_PAGES * EFI_PAGE_SIZE;
    /* Print debug message */
    XtLdrProtocol->DbgPrint(L"Initializing General Descriptor Table (GDT)\n");
    /* Allocate memory for GDT */
    Status = XtLdrProtocol->AllocatePages(EFI_SIZE_TO_PAGES(128 * sizeof(KGDTENTRY)), &GdtAddress);
    if (Status != STATUS_EFI_SUCCESS) {
        /* Memory allocation failure */
        XtLdrProtocol->DbgPrint(L"Failed to allocate pages for GDT (Status Code: %lx)\n", Status);
        return Status;
    }
    /* Set GDT entry and fill it with zeroes */
    GdtEntry = (PKGDTENTRY)(UINT_PTR)GdtAddress;
    RtlZeroMemory(GdtEntry, EFI_SIZE_TO_PAGES(128 * sizeof(KGDTENTRY)) * EFI_PAGE_SIZE);
    /* Initialize GDT entries */
    XtpInitializeGdtEntry(GdtEntry, KGDT_NULL, 0x0, 0x0, 0, KGDT_DPL_SYSTEM, 0);
    XtpInitializeGdtEntry(GdtEntry, KGDT_R0_CODE, 0x0, 0xFFFFFFFF, KGDT_TYPE_CODE, KGDT_DPL_SYSTEM, 2);
    XtpInitializeGdtEntry(GdtEntry, KGDT_R0_DATA, 0x0, 0xFFFFFFFF, KGDT_TYPE_DATA, KGDT_DPL_SYSTEM, 2);
    XtpInitializeGdtEntry(GdtEntry, KGDT_R3_CODE, 0x0, 0xFFFFFFFF, KGDT_TYPE_CODE, KGDT_DPL_USER, 2);
    XtpInitializeGdtEntry(GdtEntry, KGDT_R3_DATA, 0x0, 0xFFFFFFFF, KGDT_TYPE_DATA, KGDT_DPL_USER, 2);
    XtpInitializeGdtEntry(GdtEntry, KGDT_R3_TEB, 0x0, 0xFFF, KGDT_TYPE_DATA | KGDT_DESCRIPTOR_ACCESSED, KGDT_DPL_USER, 2);
    XtpInitializeGdtEntry(GdtEntry, KGDT_R0_LDT, 0x0, 0x0, 0, KGDT_DPL_SYSTEM, 0);
    XtpInitializeGdtEntry(GdtEntry, KGDT_VDM_TILE, 0x0400, 0xFFFF, KGDT_TYPE_DATA, KGDT_DPL_USER, 0);
    XtpInitializeGdtEntry(GdtEntry, KGDT_R0_PCR, (ULONG_PTR)Pcr, 0x1, KGDT_TYPE_DATA, KGDT_DPL_SYSTEM, 2);
    XtpInitializeGdtEntry(GdtEntry, KGDT_SYS_TSS, (ULONG_PTR)Tss, sizeof(KTSS) - 1, I686_TSS, KGDT_DPL_SYSTEM, 0);
    XtpInitializeGdtEntry(GdtEntry, KGDT_DF_TSS, 0x20000, 0xFFFF, I686_TSS, KGDT_DPL_SYSTEM, 0);
    XtpInitializeGdtEntry(GdtEntry, KGDT_NMI_TSS, 0x20000, 0xFFFF, KGDT_TYPE_CODE, KGDT_DPL_SYSTEM, 0);
    /* Map GDT and set its virtual address */
    Status = XtLdrProtocol->AddVirtualMemoryMapping(MemoryMappings, *VirtualAddress, GdtEntry,
                                                    EFI_SIZE_TO_PAGES(128 * sizeof(KGDTENTRY)), LoaderMemoryData);
    *Gdt = (PKGDTENTRY)*VirtualAddress;
    /* Set next valid virtual address */
    *VirtualAddress += (EFI_SIZE_TO_PAGES(128 * sizeof(KGDTENTRY)) * EFI_PAGE_SIZE);
    /* Print debug message */
    XtLdrProtocol->DbgPrint(L"Initializing Interrupt Descriptor Table (IDT)\n");
    /* Allocate memory for IDT */
    Status = XtLdrProtocol->AllocatePages(EFI_SIZE_TO_PAGES(256 * sizeof(KIDTENTRY)), &IdtAddress);
    if (Status != STATUS_EFI_SUCCESS) {
        /* Memory allocation failure */
        XtLdrProtocol->DbgPrint(L"Failed to allocate pages for IDT (Status Code: %lx)\n", Status);
        return Status;
    }
    /* Set IDT entry and fill it with zeroes */
    IdtEntry = (PKIDTENTRY)(UINT_PTR)IdtAddress;
    RtlZeroMemory(IdtEntry, EFI_SIZE_TO_PAGES(256 * sizeof(KIDTENTRY)) * EFI_PAGE_SIZE);
    /* Stores IDT register into new IDT entry */
    ArStoreInterruptDescriptorTable(&OriginalIdt.Limit);
    RtlCopyMemory(IdtEntry, OriginalIdt.Base, OriginalIdt.Limit + 1);
    /* Map IDT and set its virtual address */
    Status = XtLdrProtocol->AddVirtualMemoryMapping(MemoryMappings, *VirtualAddress, IdtEntry,
                                                    EFI_SIZE_TO_PAGES(256 * sizeof(KIDTENTRY)), LoaderMemoryData);
    *Idt = (PKIDTENTRY)*VirtualAddress;
    /* Set next valid virtual address */
    *VirtualAddress += (EFI_SIZE_TO_PAGES(256 * sizeof(KIDTENTRY)) * EFI_PAGE_SIZE);
    /* Return success */
    return STATUS_EFI_SUCCESS;
 }
 /**
 * Loads previously prepared CPU context and performs architecture-specific tasks needed to boot XTOS.
 *
 * @param Gdt
 *        Supplies a pointer to memory area containing GDT to load.
 *
 * @param Idt
 *        Supplies a pointer to memory area containing IDT to load.
 *
 * @return This routine does not return any value.
 *
 * @since XT 1.0
 */
 XTCDECL
 VOID
 XtpLoadProcessorContext(IN PKGDTENTRY Gdt,
                        IN PKIDTENTRY Idt)
 {
    KDESCRIPTOR GdtDescriptor, IdtDescriptor;
    GdtDescriptor.Base = (PVOID)(ULONG_PTR)Gdt;
    GdtDescriptor.Limit = 128 * sizeof(KGDTENTRY) - 1;
    IdtDescriptor.Base = Idt;
    IdtDescriptor.Limit = 256 * sizeof(KIDTENTRY) - 1;
    /* Load GDT and TSS */
    ArLoadGlobalDescriptorTable(&GdtDescriptor.Limit);
    ArLoadInterruptDescriptorTable(&IdtDescriptor.Limit);
    ArLoadTaskRegister((UINT32)KGDT_SYS_TSS);
    /* Load PCR in FS segment */
    ArLoadSegment(SEGMENT_FS, KGDT_R0_PCR);
    /* Re-enable IDE interrupts */
    HlIoPortOutByte(0x376, 0);
    HlIoPortOutByte(0x3F6, 0);
 }
 /**
 * Sets architecture specific processor context.
 *
 * @param MemoryMappings
 *        Supplies a pointer to linked list containing all memory mappings.
 *
 * @param VirtualAddress
 *        Supplies a pointer to the next valid, free and available virtual address.
 *
 * @param Gdt
 *        Supplies a pointer to memory area containing GDT to fill in.
 *
 * @param Idt
 *        Supplies a pointer to memory area containing IDT to fill in.
 *
 * @return This routine returns a status code.
 *
 * @since XT 1.0
 */
 XTCDECL
 EFI_STATUS
 XtpSetProcessorContext(IN PLIST_ENTRY MemoryMappings,
                       IN PVOID *VirtualAddress,
                       OUT PKGDTENTRY *Gdt,
                       OUT PKIDTENTRY *Idt)
 {
    EFI_STATUS Status;
    /* Print debug message */
    XtLdrProtocol->DbgPrint(L"Setting processor context\n");
    /* Disable interrupts */
    ArClearInterruptFlag();
    /* Initialize GDT */
    Status = XtpInitializeDescriptors(MemoryMappings, VirtualAddress, Gdt, Idt);
    if(Status != STATUS_EFI_SUCCESS)
    {
        /* GDT initialization failure */
        XtLdrProtocol->DbgPrint(L"Failed to initialize GDT (Status Code: %lx)\n", Status);
        return Status;
    }
    /* Return success */
    return STATUS_EFI_SUCCESS;
 }
--- a/xtldr/modules/xtos/includes/xtos.h
+++ b/xtldr/modules/xtos/includes/xtos.h
@ -28,22 +28,6 @@ EFI_STATUS
 XtpBootSequence(IN PEFI_FILE_HANDLE BootDir,
                IN PXT_BOOT_PROTOCOL_PARAMETERS Parameters);
 XTCDECL
 VOID
 XtpInitializeGdtEntry(IN PKGDTENTRY Gdt,
                      IN USHORT Selector,
                      IN ULONGLONG Base,
                      IN ULONG Limit,
                      IN UCHAR Type,
                      IN UCHAR Dpl,
                      IN UCHAR SegmentMode);
 XTCDECL
 EFI_STATUS
 XtpInitializeDescriptors(IN PLIST_ENTRY MemoryMappings,
                         IN PVOID *VirtualAddress,
                         OUT PKGDTENTRY *Gdt,
                         OUT PKIDTENTRY *Idt);
 XTCDECL
 EFI_STATUS
@ -58,18 +42,6 @@ XtpLoadModule(IN PEFI_FILE_HANDLE BootDir,
              IN LOADER_MEMORY_TYPE MemoryType,
              OUT PPECOFF_IMAGE_CONTEXT *ImageContext);
 XTCDECL
 VOID
 XtpLoadProcessorContext(IN PKGDTENTRY Gdt,
                        IN PKIDTENTRY Idt);
 XTCDECL
 EFI_STATUS
 XtpSetProcessorContext(IN PLIST_ENTRY MemoryMappings,
                       IN PVOID *VirtualAddress,
                       OUT PKGDTENTRY *Gdt,
                       OUT PKIDTENTRY *Idt);
 XTCDECL
 EFI_STATUS
 BlXtLdrModuleMain(IN EFI_HANDLE ImageHandle,
--- a/xtldr/modules/xtos/xtos.c
+++ b/xtldr/modules/xtos/xtos.c
@ -188,8 +188,6 @@ XtpBootSequence(IN PEFI_FILE_HANDLE BootDir,
    LIST_ENTRY MemoryMappings;
    ULONG KernelStackPages;
    EFI_STATUS Status;
    PKGDTENTRY Gdt;
    PKIDTENTRY Idt;
    /* Initialize XTOS startup sequence */
    XtLdrProtocol->DbgPrint(L"Initializing XTOS startup sequence\n");
@ -259,15 +257,6 @@ XtpBootSequence(IN PEFI_FILE_HANDLE BootDir,
                                           KernelStackPages, LoaderStartupKernelStack);
    VirtualAddress += (KernelStackPages * EFI_PAGE_SIZE);
    /* Set processor context */
    Status = XtpSetProcessorContext(&MemoryMappings, &VirtualAddress, &Gdt, &Idt);
    if(Status != STATUS_EFI_SUCCESS)
    {
        /* Failed to set processor context */
        XtLdrProtocol->DbgPrint(L"Failed to set processor context (Status Code: %lx)\n", Status);
        return Status;
    }
    /* Enable paging */
    EfiSystemTable->BootServices->HandleProtocol(EfiImageHandle, &LoadedImageGuid, (PVOID*)&ImageProtocol);
    Status = XtLdrProtocol->EnablePaging(&MemoryMappings, VirtualAddress, ImageProtocol, &XtPageMap);
@ -278,9 +267,6 @@ XtpBootSequence(IN PEFI_FILE_HANDLE BootDir,
        return Status;
    }
    /* Load processor context */
    XtpLoadProcessorContext(Gdt, Idt);
    /* Call XTOS kernel */
    XtLdrProtocol->DbgPrint(L"Booting the XTOS kernel\n");
    KernelEntryPoint(KernelParameters);