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Architecture
Core
Crash
Driver
DriverBinding
BindInput.cpp
BindInterrupt.cpp
BindPCI.cpp
BindProcess.cpp
Driver.cpp
DriverAPI.cpp
api.hpp
Memory
Time
Video
CPU.cpp
Debugger.cpp
Disk.cpp
InterruptsManager.cpp
Lock.cpp
PeripheralComponentInterconnect.cpp
Power.cpp
README.md
Random.cpp
StackCheck.cpp
Symbols.cpp
SystemManagementBIOS.cpp
UndefinedBehaviorSanitization.c
UniversalAsynchronousReceiverTransmitter.cpp
crashhandler.hpp
smbios.hpp
ubsan.h
ExecutionLayer
FileSystem
Files
KernelShell
Library
Modules
Network
Profiling
SystemCalls
Tasking
Tests
Virtualization
include
include_std
.gitignore
DAPI.hpp
Doxyfile
Fex.hpp
Kernel.cpp
KernelConfig.cpp
KernelThread.cpp
LICENSE
Makefile
README.md
dump.sh
ipc.h
kernel.h
syscalls.h
145 lines
4.7 KiB
C++
145 lines
4.7 KiB
C++
/*
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This file is part of Fennix Kernel.
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Fennix Kernel is free software: you can redistribute it and/or
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modify it under the terms of the GNU General Public License as
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published by the Free Software Foundation, either version 3 of
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the License, or (at your option) any later version.
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Fennix Kernel is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with Fennix Kernel. If not, see <https://www.gnu.org/licenses/>.
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*/
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#include "../api.hpp"
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#include <ints.hpp>
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#include <memory.hpp>
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#include <task.hpp>
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#include <lock.hpp>
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#include <printf.h>
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#include <cwalk.h>
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#include <md5.h>
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#include "../../../kernel.h"
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#include "../../../DAPI.hpp"
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#include "../../../Fex.hpp"
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namespace Driver
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{
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DriverCode Driver::DriverLoadBindPCI(uintptr_t DriverAddress, size_t Size, bool IsBuiltIn)
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{
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FexExtended *DrvExtHdr = (FexExtended *)(DriverAddress + EXTENDED_SECTION_ADDRESS);
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if (IsBuiltIn)
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DrvExtHdr = (FexExtended *)(((BuiltInDriverInfo *)DriverAddress)->ExtendedHeader);
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uint16_t SizeOfVendorID = sizeof(DrvExtHdr->Driver.Bind.PCI.VendorID) /
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sizeof(DrvExtHdr->Driver.Bind.PCI.VendorID[0]);
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uint16_t SizeOfDeviceID = sizeof(DrvExtHdr->Driver.Bind.PCI.DeviceID) /
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sizeof(DrvExtHdr->Driver.Bind.PCI.DeviceID[0]);
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for (uint16_t vID = 0; vID < SizeOfVendorID; vID++)
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{
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for (uint16_t dID = 0; dID < SizeOfDeviceID; dID++)
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{
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if (DrvExtHdr->Driver.Bind.PCI.VendorID[vID] == 0 ||
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DrvExtHdr->Driver.Bind.PCI.DeviceID[dID] == 0)
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continue;
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std::vector<PCI::PCIDeviceHeader *> devices =
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PCIManager->FindPCIDevice(DrvExtHdr->Driver.Bind.PCI.VendorID[vID],
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DrvExtHdr->Driver.Bind.PCI.DeviceID[dID]);
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if (devices.size() == 0)
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continue;
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foreach (auto PCIDevice in devices)
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{
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debug("[%ld] VendorID: %#x; DeviceID: %#x",
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devices.size(), PCIDevice->VendorID, PCIDevice->DeviceID);
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Memory::MemMgr *mem = new Memory::MemMgr(nullptr, thisProcess->memDirectory);
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BuiltInDriverInfo *bidi = (BuiltInDriverInfo *)DriverAddress;
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Fex *fex = nullptr;
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if (!IsBuiltIn)
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{
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fex = (Fex *)mem->RequestPages(TO_PAGES(Size + 1));
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memcpy(fex, (void *)DriverAddress, Size);
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debug("Driver allocated at %#lx-%#lx", fex, (uintptr_t)fex + Size);
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}
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else
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fex = (Fex *)bidi->EntryPoint;
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DriverCode ret = CallDriverEntryPoint(fex, IsBuiltIn);
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if (ret != DriverCode::OK)
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{
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delete mem;
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return ret;
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}
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if (IsBuiltIn)
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fex = 0x0; /* Addresses are absolute if built-in. */
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FexExtended *fexE = IsBuiltIn ? (FexExtended *)bidi->ExtendedHeader : (FexExtended *)((uintptr_t)fex + EXTENDED_SECTION_ADDRESS);
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debug("Starting driver %s", fexE->Driver.Name);
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PCIManager->MapPCIAddresses(PCIDevice);
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switch (fexE->Driver.Type)
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{
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case FexDriverType::FexDriverType_Generic:
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case FexDriverType::FexDriverType_Display:
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case FexDriverType::FexDriverType_Network:
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case FexDriverType::FexDriverType_Storage:
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case FexDriverType::FexDriverType_FileSystem:
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case FexDriverType::FexDriverType_Input:
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case FexDriverType::FexDriverType_Audio:
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{
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FexExtended *DriverExtendedHeader = (FexExtended *)mem->RequestPages(TO_PAGES(sizeof(FexExtended) + 1));
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memcpy(DriverExtendedHeader, fexE, sizeof(FexExtended));
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DriverFile DrvFile = {
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.Enabled = true,
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.BuiltIn = IsBuiltIn,
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.DriverUID = this->DriverUIDs - 1,
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.Address = (void *)fex,
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.ExtendedHeaderAddress = (void *)DriverExtendedHeader,
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.InterruptCallback = (void *)((uintptr_t)fex + (uintptr_t)fexE->Driver.InterruptCallback),
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.MemTrk = mem,
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};
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if (fexE->Driver.InterruptCallback)
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DrvFile.InterruptHook[0] = new DriverInterruptHook(((int)((PCI::PCIHeader0 *)PCIDevice)->InterruptLine), DrvFile);
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KernelCallback KCallback{};
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KCallback.RawPtr = PCIDevice;
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KCallback.Reason = CallbackReason::ConfigurationReason;
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DriverCode CallbackRet = ((DriverCode(*)(KernelCallback *))((uintptr_t)fexE->Driver.Callback + (uintptr_t)fex))(&KCallback);
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if (CallbackRet != DriverCode::OK)
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{
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error("Driver %s returned error %d", fexE->Driver.Name, CallbackRet);
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delete mem;
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return CallbackRet;
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}
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Drivers.push_back(DrvFile);
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return DriverCode::OK;
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}
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default:
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{
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warn("Unknown driver type: %d", fexE->Driver.Type);
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delete mem;
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return DriverCode::UNKNOWN_DRIVER_TYPE;
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}
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}
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}
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}
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}
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return DriverCode::PCI_DEVICE_NOT_FOUND;
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}
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}
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