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Added PCI device detection and a start script.

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This commit is contained in:
Patrick 2024-01-22 01:49:02 +01:00
parent 847bf8c84b
commit fa6dab4f88
13 changed files with 581 additions and 65 deletions
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44
bastl/include/string
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@ -87,6 +87,38 @@ public:
return append(other); return append(other);
} }
constexpr bool operator==(const basic_string& other) const noexcept
{
if (size() != other.size()) {
return false;
}
for (size_t idx = 0; idx < size(); ++idx) {
if (at(idx) != other.at(idx)) {
return false;
}
}
return true;
}
constexpr bool operator!=(const basic_string& other) const noexcept
{
return !(*this == other); // NOLINT
}
constexpr bool operator==(const value_type* cStr) const noexcept
{
for (value_type chr : *this)
{
if (*cStr == '\0' || chr != *cStr) {
return false;
}
++cStr;
}
return true;
}
constexpr bool operator!=(const value_type* cStr) const noexcept
{
return !(*this == cStr); // NOLINT
}
[[nodiscard]] constexpr reference operator[](size_type pos) noexcept { return _data[pos]; } [[nodiscard]] constexpr reference operator[](size_type pos) noexcept { return _data[pos]; }
[[nodiscard]] constexpr const_reference operator[](size_type pos) const noexcept { return _data[pos]; } [[nodiscard]] constexpr const_reference operator[](size_type pos) const noexcept { return _data[pos]; }
@ -152,6 +184,18 @@ public:
static inline size_type npos = size_type(-1); static inline size_type npos = size_type(-1);
}; };
using string = basic_string<char>; using string = basic_string<char>;
template<typename CharT, typename Traits = char_traits<CharT>> // TODO: Allocator
constexpr bool operator==(const CharT* cStr, const basic_string<CharT, Traits>& str) noexcept
{
return str == cStr;
}
template<typename CharT, typename Traits = char_traits<CharT>> // TODO: Allocator
constexpr bool operator!=(const CharT* cStr, const basic_string<CharT, Traits>& str) noexcept
{
return str != cStr;
}
} }
#endif // !defined(BAD_APPLE_OS_STRING_INCLUDED) #endif // !defined(BAD_APPLE_OS_STRING_INCLUDED)

8
start.sh Normal file
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@ -0,0 +1,8 @@
#!/bin/bash
qemu-system-x86_64 \
--bios /usr/share/edk2/x64/OVMF.fd \
-vga virtio \
-serial stdio \
-drive if=none,id=stick,format=raw,file=staging/x86_64_iso/fat.img \
-device nec-usb-xhci,id=xhci \
-device usb-storage,bus=xhci.0,drive=stick "$@"

2
targets/_any/SConscript
View File

@ -41,6 +41,8 @@ isr_sources = Split('''
any_target_sources = Split(''' any_target_sources = Split('''
src/app/main.cpp src/app/main.cpp
src/drivers/pci.cpp
src/libs/psf.cpp src/libs/psf.cpp
src/os/draw.cpp src/os/draw.cpp

253
targets/_any/include/drivers/pci.hpp Normal file
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@ -0,0 +1,253 @@
#pragma once
#if !defined(BAD_APPLE_OS_DRIVERS_PCI_HPP_INCLUDED)
#define BAD_APPLE_OS_DRIVERS_PCI_HPP_INCLUDED
#include <cstdint>
#include <vector>
namespace baos::pci
{
enum class BaseClass : std::uint8_t
{
UNCLASSIFIED = 0x0,
MASS_STORAGE_CONTROLLER = 0x1,
NETWORK_CONTROLLER = 0x2,
DISPLAY_CONTROLLER = 0x3,
MULTIMEDIA_CONTROLLER = 0x4,
MEMORY_CONTROLLER = 0x5,
BRIDGE = 0x6,
SIMPLE_COMMUNICATION_CONTROLLER = 0x7,
BASE_SYSTEM_PERIPHERAL = 0x8,
INPUT_DEVICE_CONTROLLER = 0x9,
DOCKING_STATION = 0xA,
PROCESSOR = 0xB,
SERIAL_BUS_CONTROLLER = 0xC,
WIRELESS_CONTROLLER = 0xD,
INTELLIGENT_CONTROLLER = 0xE,
SATELLITE_COMMUNICATION_CONTROLLER = 0xF,
ENCRYPTION_CONTROLLER = 0x10,
SIGNAL_PROCESSING_CONTROLLER = 0x11,
PROCESSING_ACCELERATOR = 0x12,
NON_ESSENTIAL_INSTRUMENTATION = 0x13,
CO_PROCESSOR = 0x40,
UNASSIGNED = 0xFF
};
enum class SubClass : std::uint8_t
{
// for 0x1 - Mass Storage Controller
IDE_CONTROLLER = 0x1,
FLOPPY_DISK_CONTROLLER = 0x2,
IPI_BUS_CONTROLLER = 0x3,
RAID_CONTROLLER = 0x4,
ATA_CONTROLLER = 0x5,
SERIAL_ATA_CONTROLLER = 0x6,
SERIAL_ATTACHED_SCSI_CONTROLLER = 0x7,
NON_VOLATILE_MEMORY_CONTROLLER = 0x8,
OTHER = 0x80,
// for 0x2 - Network Controller
ETHERNET_CONTROLLER = 0x0,
TOKEN_RING_CONTROLLER = 0x1,
FDDI_CONTROLLER = 0x2,
ATM_CONTROLLER = 0x3,
ISDN_CONTROLLER = 0x4,
WORLDFIP_CONTROLLER = 0x5,
PICMG_CONTROLLER = 0x6,
INFIBAND_CONTROLLER = 0x7,
FABRIC_CONTROLLER = 0x8,
// for 0x3 - Display Controller
VGA_COMPATIBLE_CONTROLLER = 0x0,
XGA_CONTROLLER = 0x1,
NOT_VGA_COMPATIBLE_3D_CONTROLLER = 0x2,
// for 0x4 - Multimedia Controller
MULTIMEDIA_VIDEO_CONTROLLER = 0x0,
MULTIMEDIA_AUDIO_CONTROLLER = 0x1,
COMPUTER_TELEPHONY_DEVICE = 0x2,
AUDIO_DEVICE = 0x3,
// for 0x5 - Memory Controller
RAM_CONTROLLER = 0x0,
FLASH_CONTROLLER = 0x1,
// for 0x6 - Bridge
HOST_BRIDGE = 0x0,
ISA_BRIDGE = 0x1,
EISA_BRIDGE = 0x2,
MCA_BRIDGE = 0x3,
PCI_TO_PCI_BRIDGE = 0x4,
PCMCIA_BRIDGE = 0x5,
NUBUS_BRIDGE = 0x6,
CARDBUS_BRIDGE = 0x7,
RACEWAY_BRIDGE = 0x8,
PCI_TO_PCI_BRIDGE_2 = 0x9,
INFINIBAND_TO_PCI_HOST_BRIDGE = 0xA,
// for 0x7 - Simple Communication Controller
SERIAL_CONTROLLER = 0x0,
PARALLEL_CONTROLLER = 0x1,
MULTIPORT_SERIAL_CONTROLLER = 0x2,
MODEM = 0x3,
IEEE488_CONTROLLER = 0x4,
SMART_CARD_CONTROLLER = 0x5,
// for 0x8 - Base System Peripheral
PIC = 0x1,
DMA_CONTROLLER = 0x1,
TIMER = 0x2,
RTC_CONTROLLER = 0x3,
PCI_HOT_PLUG_CONTROLLER = 0x4,
SD_HOST_CONTROLLER = 0x5,
IOMMU = 0x6,
// for 0x9 - Input Device Controller
KEYBOARD_CONTROLLER = 0x0,
DIGITIZER_PEN = 0x1,
MOUSE_CONTROLLER = 0x2,
SCANNER_CONTROLLER = 0x3,
GAMEPORT_CONTROLLER = 0x4,
// for 0xA - Docking Station
GENERIC = 0x0,
// for 0xB - Processor
_386 = 0x0,
_486 = 0x1,
PENTIUM = 0x2,
PENTIUM_PRO = 0x3,
ALPHA = 0x10,
POWERPC = 0x20,
MIPS = 0x30,
CO_PROCESSOR = 0x40,
// for 0xC - Serial Bus Controller
FIREWIRE_CONTROLLER = 0x0,
ACCESS_BUS_CONTROLLER = 0x1,
SSA = 0x2,
USB_CONTROLLER = 0x3,
FIBRE_CHANNEL = 0x4,
SMBUS_CONTROLLER = 0x5,
INFINIBAND_CONTROLLER = 0x6,
IPMI_INTERFACE = 0x7,
SERCOS_INTERFACE = 0x8,
CANBUS_CONTROLLER = 0x9,
// for 0xD - Wireless Controller
IRDA_COMPATIBLE_CONTROLLER = 0xD,
CONSUMER_IR_CONTROLLER = 0x1,
RF_CONTROLLER = 0x10,
BLUETOOTH_CONTROLLER = 0x11,
BROADBAND_CONTROLLER = 0x12,
ETHERNET_CONTROLLER_8021A = 0x20,
ETHERNET_CONTROLLER_8021B = 0x21,
// for 0xE - Intelligent Controller
I20 = 0x0,
// for 0xF - Satellite Communication Controller
SATELLITE_TV_CONTROLLER = 0x1,
SATELLITE_AUDIO_CONTROLLER = 0x2,
SATELLITE_VOICE_CONTROLLER = 0x3,
SATELLITE_DATA_CONTROLLER = 0x4,
// for 0x10 - Encryption Controller
NETWORK_AND_COMPUTING_EN_DECRYPTION = 0x0,
ENTERTAINMENT_EN_DECRYPTION = 0x10,
// for 0x11 - Signal Processing Controller
DPIO_MODULE = 0x0,
PERFORMANCE_COUNTER = 0x1,
COMMUNICATION_SYNCHRONIZER = 0x10,
SIGNAL_PROCESSING_MANAGEMENT = 0x20
};
enum class HeaderType : std::uint8_t
{
GENERAL_DEVICE = 0x0,
PCI_TO_PCI_BRIDGE = 0x1,
PCI_TO_CARDBUS_BRIDGE = 0x2
};
struct Header
{
std::uint8_t bus;
std::uint8_t device;
std::uint8_t function;
std::uint8_t pad_;
std::uint16_t vendorID;
std::uint16_t deviceID;
std::uint16_t command;
std::uint16_t status;
std::uint8_t revisionID;
std::uint8_t progIf;
SubClass subClass;
BaseClass baseClass;
std::uint8_t cacheLineSize;
std::uint8_t latencyTimer;
HeaderType headerType : 7;
bool multiFunction : 1;
std::uint8_t builtinSelfTest;
} __attribute__((packed));
struct GeneralDeviceHeader : Header
{
std::uint32_t bar0;
std::uint32_t bar1;
std::uint32_t bar2;
std::uint32_t bar3;
std::uint32_t bar4;
std::uint32_t bar5;
std::uint32_t cardbusCISPointer;
std::uint16_t subsystemVendorID;
std::uint16_t subsystemID;
std::uint32_t expansionROMBaseAddress;
std::uint8_t capabilitiesPointer;
std::uint64_t reserved : 56;
std::uint8_t interruptLine;
std::uint8_t interruptPIN;
std::uint8_t minGrant;
std::uint8_t maxLatency;
} __attribute__((packed));
struct PCIToPCIBridgeHeader : Header
{
std::uint32_t bar0;
std::uint32_t bar1;
std::uint8_t primaryBusNumber;
std::uint8_t secondaryBusNumber;
std::uint8_t subordinateBusNumber;
std::uint8_t secondaryLatencyTimer;
std::uint8_t ioBase;
std::uint8_t ioLimit;
std::uint16_t secondaryStatus;
std::uint16_t memoryBase;
std::uint16_t memoryLimit;
std::uint16_t prefetchableMemoryBase;
std::uint16_t prefetchableMemoryLimit;
std::uint32_t prefetchableBaseUpper32;
std::uint32_t prefetchableLimitUpper32;
std::uint16_t ioBaseUpper16;
std::uint16_t ioLimitUpper16;
std::uint8_t capbiliityPointer;
std::uint32_t reserved : 24;
std::uint32_t expansionRomBaseAddress;
std::uint8_t interruptLine;
std::uint8_t interruptPin;
std::uint16_t bridgeControl;
} __attribute__((packed));
[[nodiscard]] std::vector<Header> enumerateDevices() noexcept;
[[nodiscard]] bool getGeneralDeviceHeader(std::uint8_t bus, std::uint8_t device, std::uint8_t function, GeneralDeviceHeader& outHeader) noexcept;
[[nodiscard]] inline bool getGeneralDeviceHeader(const Header& header, GeneralDeviceHeader& outHeader) noexcept
{
return getGeneralDeviceHeader(header.bus, header.device, header.function, outHeader);
}
}
#endif // !defined(BAD_APPLE_OS_DRIVERS_PCI_HPP_INCLUDED)

50
targets/_any/include/os/port.hpp
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@ -6,7 +6,7 @@
#include <cstdint> #include <cstdint>
#define writePortByte(port, value) \ #define writePort8(port, value) \
{ \ { \
__asm__ __volatile__( \ __asm__ __volatile__( \
"outb %0, %1" \ "outb %0, %1" \
@ -16,7 +16,7 @@
); \ ); \
} }
#define readPortByte(port) \ #define readPort8(port) \
[&]() \ [&]() \
{ \ { \
std::uint8_t value = 0; \ std::uint8_t value = 0; \
@ -28,9 +28,53 @@
return value; \ return value; \
}() }()
#define writePort16(port, value) \
{ \
__asm__ __volatile__( \
"outw %0, %1" \
: \
: "a"(static_cast<std::uint16_t>(value)), \
"Nd"(static_cast<std::uint16_t>(port)) \
); \
}
#define readPort16(port) \
[&]() \
{ \
std::uint16_t value = 0; \
__asm__ __volatile__( \
"inw %1, %0" \
: "=a"(value) \
: "Nd"(static_cast<std::uint16_t>(port)) \
); \
return value; \
}()
#define writePort32(port, value) \
{ \
__asm__ __volatile__( \
"outl %0, %1" \
: \
: "a"(static_cast<std::uint32_t>(value)), \
"Nd"(static_cast<std::uint16_t>(port)) \
); \
}
#define readPort32(port) \
[&]() \
{ \
std::uint32_t value = 0; \
__asm__ __volatile__( \
"inl %1, %0" \
: "=a"(value) \
: "Nd"(static_cast<std::uint32_t>(port)) \
); \
return value; \
}()
inline void ioWait() noexcept inline void ioWait() noexcept
{ {
writePortByte(0x80, 0); writePort8(0x80, 0);
} }
#endif // !defined(BAD_APPLE_OS_PORT_HPP_INCLUDED) #endif // !defined(BAD_APPLE_OS_PORT_HPP_INCLUDED)

26
targets/_any/include/os/serial.hpp
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@ -19,31 +19,31 @@ inline constexpr std::uint16_t PORT_COM8 = 0x4E8;
[[nodiscard]] inline bool initSerialPort(std::uint16_t port) noexcept [[nodiscard]] inline bool initSerialPort(std::uint16_t port) noexcept
{ {
writePortByte(port + 1, 0x00); // Disable all interrupts writePort8(port + 1, 0x00); // Disable all interrupts
writePortByte(port + 3, 0x80); // Enable DLAB (set baud rate divisor) writePort8(port + 3, 0x80); // Enable DLAB (set baud rate divisor)
writePortByte(port + 0, 0x03); // Set divisor to 3 (lo byte) 38400 baud writePort8(port + 0, 0x03); // Set divisor to 3 (lo byte) 38400 baud
writePortByte(port + 1, 0x00); // (hi byte) writePort8(port + 1, 0x00); // (hi byte)
writePortByte(port + 3, 0x03); // 8 bits, no parity, one stop bit writePort8(port + 3, 0x03); // 8 bits, no parity, one stop bit
writePortByte(port + 2, 0xC7); // Enable FIFO, clear them, with 14-byte threshold writePort8(port + 2, 0xC7); // Enable FIFO, clear them, with 14-byte threshold
writePortByte(port + 4, 0x0B); // IRQs enabled, RTS/DSR set writePort8(port + 4, 0x0B); // IRQs enabled, RTS/DSR set
writePortByte(port + 4, 0x1E); // Set in loopback mode, test the serial chip writePort8(port + 4, 0x1E); // Set in loopback mode, test the serial chip
writePortByte(port + 0, 0xAE); // Test serial chip (send byte 0xAE and check if serial returns same byte) writePort8(port + 0, 0xAE); // Test serial chip (send byte 0xAE and check if serial returns same byte)
// Check if serial is faulty (i.e: not same byte as sent) // Check if serial is faulty (i.e: not same byte as sent)
if(readPortByte(port + 0) != 0xAE) { if(readPort8(port + 0) != 0xAE) {
return false; return false;
} }
// If serial is not faulty set it in normal operation mode // If serial is not faulty set it in normal operation mode
// (not-loopback with IRQs enabled and OUT#1 and OUT#2 bits enabled) // (not-loopback with IRQs enabled and OUT#1 and OUT#2 bits enabled)
writePortByte(port + 4, 0x0F); writePort8(port + 4, 0x0F);
return true; return true;
} }
inline void serialWrite(std::uint16_t port, std::uint8_t data) noexcept inline void serialWrite(std::uint16_t port, std::uint8_t data) noexcept
{ {
while ((readPortByte(port + 5) & 0x20) == 0); while ((readPort8(port + 5) & 0x20) == 0);
writePortByte(port, data); writePort8(port, data);
} }
inline void serialWriteString(std::uint16_t port, const char* str) noexcept inline void serialWriteString(std::uint16_t port, const char* str) noexcept

63
targets/_any/src/app/main.cpp
View File

@ -1,6 +1,56 @@
#include <cstdio> #include <cstdio>
#include "drivers/pci.hpp"
#include "drivers/ps2.hpp"
namespace
{
void cmdLspci() noexcept
{
using namespace baos::pci;
std::puts("Enumerating PCI devices.");
GeneralDeviceHeader generalDeviceHeader = {};
for (const Header& header : enumerateDevices())
{
std::printf("Bus %d, Port %d, Function %d: VendorID: 0x%X, DeviceID: 0x%X, Base Class: 0x%X, Sub Class: 0x%X\n",
header.bus, header.device, header.function, header.vendorID, header.deviceID,
static_cast<unsigned>(header.baseClass), static_cast<unsigned>(header.subClass));
if (header.headerType == HeaderType::GENERAL_DEVICE && getGeneralDeviceHeader(header, generalDeviceHeader))
{
std::printf(" BAR0: 0x%X, BAR1: 0x%X, BAR2: 0x%X\n"
" BAR3: 0x%X, BAR4: 0x%X, BAR5: 0x%X\n"
" Subsystem Vendor ID: 0x%X, Subsystem ID: 0x%X\n",
generalDeviceHeader.bar0, generalDeviceHeader.bar1, generalDeviceHeader.bar2,
generalDeviceHeader.bar3, generalDeviceHeader.bar4, generalDeviceHeader.bar5,
generalDeviceHeader.subsystemVendorID, generalDeviceHeader.subsystemID);
}
}
}
void cmdShowKeys() noexcept
{
std::puts("Press CTRL-C to quit.");
while (true)
{
baos::ps2::KeyEvent event;
while (!baos::ps2::readKey(event));
std::printf(
"Key event: scancode=%s(0x%X), down=%s, repeat=%s\n",
baos::ps2::keyName(event.scancode),
static_cast<unsigned>(event.scancode),
event.down ? "true" : "false",
event.repeat ? "true" : "false"
);
if (event.scancode == baos::ps2::Scancode::C && baos::ps2::isKeyDown(baos::ps2::Scancode::LEFT_CONTROL)) {
return;
}
}
}
}
extern "C" void main() extern "C" void main()
{ {
@ -11,6 +61,17 @@ extern "C" void main()
std::printf("> "); std::printf("> ");
std::getline(cmd); std::getline(cmd);
cmd.pop_back(); // pop the \n cmd.pop_back(); // pop the \n
std::printf("Your command: %s\n", cmd.c_str());
if (cmd == "lspci")
{
cmdLspci();
continue;
}
else if (cmd == "show-keys")
{
cmdShowKeys();
continue;
}
std::printf("Unknown command: %s.\n", cmd.c_str());
} }
} }

126
targets/_any/src/drivers/pci.cpp Normal file
View File

@ -0,0 +1,126 @@
#include "drivers/pci.hpp"
#include <bit>
#include <cstring>
#include "os/port.hpp"
namespace baos::pci
{
namespace
{
inline constexpr std::uint16_t PORT_PCI_CONFIG = 0xCF8;
inline constexpr std::uint16_t PORT_PCI_DATA = 0xCFC;
std::uint32_t readConfigLine(std::uint8_t bus, std::uint8_t device, std::uint8_t func, std::uint8_t offset) noexcept
{
struct PciAddress
{
std::uint8_t registerOffset : 8 = 0;
std::uint8_t function : 3 = 0;
std::uint8_t device : 5 = 0;
std::uint8_t bus : 8 = 0;
std::uint8_t reserved : 7 = 0;
bool enable : 1 = 0;
} __attribute__((packed));
const PciAddress address = {
.registerOffset = static_cast<std::uint8_t>(offset & 0xFCu),
.function = func,
.device = device,
.bus = bus,
.enable = true
};
writePort32(PORT_PCI_CONFIG, std::bit_cast<std::uint32_t>(address));
return readPort32(PORT_PCI_DATA);
}
template<typename THeader>
bool getHeader(std::uint8_t bus, std::uint8_t device, std::uint8_t function, THeader& outHeader) noexcept
{
static_assert(sizeof(THeader) % 4 == 0);
std::uint32_t line = readConfigLine(bus, device, function, 0x0);
if (line == 0xFFFFFFFF) {
return false;
}
outHeader.bus = bus;
outHeader.device = device;
outHeader.function = function;
std::memcpy(&outHeader.vendorID, &line, 4);
for (unsigned row = 1; row < sizeof(THeader) / 4; ++row)
{
line = readConfigLine(bus, device, 0, 4 * row);
std::memcpy(reinterpret_cast<std::uint32_t*>(&outHeader.vendorID) + row, &line, 4);
}
return true;
}
void enumerateDevice(const Header& header, std::vector<Header>& outHeaders) noexcept;
void enumerateBusDevices(std::uint8_t bus, std::vector<Header>& outHeaders, std::uint8_t firstDevice = 0) noexcept
{
Header header = {};
for (std::uint8_t device = firstDevice; device < 32; ++device)
{
if (!getHeader(bus, device, 0, header)) {
continue;
}
enumerateDevice(header, outHeaders);
if (header.multiFunction)
{
for (std::uint8_t function = 1; function < 8; ++function)
{
if (!getHeader(bus, device, function, header)) {
continue;
}
enumerateDevice(header, outHeaders);
}
}
}
}
void enumerateDevice(const Header& header, std::vector<Header>& outHeaders) noexcept
{
outHeaders.push_back(header);
if (header.headerType == HeaderType::PCI_TO_PCI_BRIDGE && header.baseClass == BaseClass::BRIDGE && header.subClass == SubClass::PCI_TO_PCI_BRIDGE)
{
// get the bridge header
PCIToPCIBridgeHeader bridgeHeader = {};
if (getHeader(header.bus, header.device, header.function, bridgeHeader))
{
enumerateBusDevices(bridgeHeader.secondaryBusNumber, outHeaders);
}
}
}
}
std::vector<Header> enumerateDevices() noexcept
{
Header header = {};
if (!getHeader(0, 0, 0, header)) {
return {};
}
// also add the controller itself
std::vector<Header> headers;
headers.push_back(header);
enumerateBusDevices(0, headers, /* firstDevice = */ 1);
if (header.multiFunction)
{
for (std::uint8_t function = 1; function < 8; ++function)
{
if (!getHeader(0, 0, function, header)) {
continue;
}
headers.push_back(header);
enumerateBusDevices(function, headers);
}
}
return headers;
}
bool getGeneralDeviceHeader(std::uint8_t bus, std::uint8_t device, std::uint8_t function, GeneralDeviceHeader& outHeader) noexcept
{
return getHeader(bus, device, function, outHeader);
}
}

12
targets/_any/src/drivers/pic.cpp
View File

@ -11,22 +11,22 @@ inline constexpr std::uint8_t PIC_CFG_8086 = 0x01;
void picWriteCmd(std::uint16_t port, std::uint8_t command) noexcept void picWriteCmd(std::uint16_t port, std::uint8_t command) noexcept
{ {
writePortByte(port, command); writePort8(port, command);
} }
[[nodiscard]] std::uint8_t picReadResponse(std::uint8_t port) noexcept [[nodiscard]] std::uint8_t picReadResponse(std::uint8_t port) noexcept
{ {
return readPortByte(port); return readPort8(port);
} }
void picWriteData(std::uint16_t port, std::uint8_t data) noexcept void picWriteData(std::uint16_t port, std::uint8_t data) noexcept
{ {
writePortByte(port + 1, data); writePort8(port + 1, data);
} }
[[nodiscard]] std::uint8_t picReadData(std::uint16_t port) noexcept [[nodiscard]] std::uint8_t picReadData(std::uint16_t port) noexcept
{ {
return readPortByte(port + 1); return readPort8(port + 1);
} }
[[nodiscard]] std::uint16_t readPICIRQRegisters(std::uint8_t readCommand) noexcept [[nodiscard]] std::uint16_t readPICIRQRegisters(std::uint8_t readCommand) noexcept
@ -81,9 +81,9 @@ bool initPICs(std::uint8_t masterOffset, std::uint8_t slaveOffset) noexcept
void sendEndOfInterrupt(std::uint8_t irq) noexcept void sendEndOfInterrupt(std::uint8_t irq) noexcept
{ {
if (irq >= 8) { if (irq >= 8) {
writePortByte(PORT_PIC2, PIC_CMD_EOI); writePort8(PORT_PIC2, PIC_CMD_EOI);
} }
writePortByte(PORT_PIC1, PIC_CMD_EOI); writePort8(PORT_PIC1, PIC_CMD_EOI);
} }
void maskIRQ(std::uint8_t irq) noexcept void maskIRQ(std::uint8_t irq) noexcept

34
targets/_any/src/drivers/ps2.cpp
View File

@ -360,7 +360,7 @@ inline bool waitForResponse(unsigned tries = -1) noexcept
{ {
for (unsigned t = 0; t < tries; ++t) for (unsigned t = 0; t < tries; ++t)
{ {
if (readPortByte(PORT_PS2_STATUS) & FLAG_PS2_OUTPUT_FULL) { if (readPort8(PORT_PS2_STATUS) & FLAG_PS2_OUTPUT_FULL) {
return true; return true;
} }
} }
@ -369,27 +369,27 @@ inline bool waitForResponse(unsigned tries = -1) noexcept
inline void waitForInputFree() noexcept inline void waitForInputFree() noexcept
{ {
while (readPortByte(PORT_PS2_STATUS) & FLAG_PS2_INPUT_FULL); while (readPort8(PORT_PS2_STATUS) & FLAG_PS2_INPUT_FULL);
} }
inline std::uint8_t cmdWithResponse(std::uint8_t cmd) noexcept inline std::uint8_t cmdWithResponse(std::uint8_t cmd) noexcept
{ {
writePortByte(PORT_PS2_STATUS, cmd); writePort8(PORT_PS2_STATUS, cmd);
waitForResponse(); waitForResponse();
return readPortByte(PORT_PS2_DATA); return readPort8(PORT_PS2_DATA);
} }
inline void cmdWithData(std::uint8_t cmd, std::uint8_t data) noexcept inline void cmdWithData(std::uint8_t cmd, std::uint8_t data) noexcept
{ {
writePortByte(PORT_PS2_STATUS, cmd); writePort8(PORT_PS2_STATUS, cmd);
waitForInputFree(); waitForInputFree();
writePortByte(PORT_PS2_DATA, data); writePort8(PORT_PS2_DATA, data);
} }
inline void sendToFirstDevice(std::uint8_t cmd) noexcept inline void sendToFirstDevice(std::uint8_t cmd) noexcept
{ {
waitForInputFree(); waitForInputFree();
writePortByte(PORT_PS2_DATA, cmd); writePort8(PORT_PS2_DATA, cmd);
} }
inline void sendToSecondDevice(std::uint8_t cmd) noexcept inline void sendToSecondDevice(std::uint8_t cmd) noexcept
@ -401,11 +401,11 @@ inline void sendToSecondDevice(std::uint8_t cmd) noexcept
bool initialize() noexcept bool initialize() noexcept
{ {
// disable PS2 // disable PS2
writePortByte(PORT_PS2_STATUS, PS2_CMD_DISABLE_FIRST); writePort8(PORT_PS2_STATUS, PS2_CMD_DISABLE_FIRST);
writePortByte(PORT_PS2_STATUS, PS2_CMD_DISABLE_SECOND); writePort8(PORT_PS2_STATUS, PS2_CMD_DISABLE_SECOND);
// flush output register // flush output register
readPortByte(PORT_PS2_DATA); readPort8(PORT_PS2_DATA);
// read configuration // read configuration
std::uint8_t config = cmdWithResponse(PS2_CMD_READ_CONF_BYTE); std::uint8_t config = cmdWithResponse(PS2_CMD_READ_CONF_BYTE);
@ -432,11 +432,11 @@ bool initialize() noexcept
bool dualChannel = false; bool dualChannel = false;
if ((config & PS2_CONFIGFLAG_CLOCK_SECOND) != 0) // it may be if ((config & PS2_CONFIGFLAG_CLOCK_SECOND) != 0) // it may be
{ {
writePortByte(PORT_PS2_STATUS, PS2_CMD_ENABLE_SECOND); writePort8(PORT_PS2_STATUS, PS2_CMD_ENABLE_SECOND);
dualChannel = (cmdWithResponse(PS2_CMD_READ_CONF_BYTE) & PS2_CONFIGFLAG_CLOCK_SECOND) == 0; dualChannel = (cmdWithResponse(PS2_CMD_READ_CONF_BYTE) & PS2_CONFIGFLAG_CLOCK_SECOND) == 0;
if (dualChannel) if (dualChannel)
{ {
writePortByte(PORT_PS2_STATUS, PS2_CMD_DISABLE_SECOND); writePort8(PORT_PS2_STATUS, PS2_CMD_DISABLE_SECOND);
} }
} }
@ -451,9 +451,9 @@ bool initialize() noexcept
} }
// enable devices // enable devices
writePortByte(PORT_PS2_STATUS, PS2_CMD_ENABLE_FIRST); writePort8(PORT_PS2_STATUS, PS2_CMD_ENABLE_FIRST);
if (dualChannel) { if (dualChannel) {
writePortByte(PORT_PS2_STATUS, PS2_CMD_ENABLE_SECOND); writePort8(PORT_PS2_STATUS, PS2_CMD_ENABLE_SECOND);
} }
// enable interrupts // enable interrupts
@ -468,7 +468,7 @@ bool initialize() noexcept
bool firstOk = false; bool firstOk = false;
while (waitForResponse(10)) while (waitForResponse(10))
{ {
const std::uint8_t response = readPortByte(PORT_PS2_DATA); const std::uint8_t response = readPort8(PORT_PS2_DATA);
if (response == PS2_RESPONSE_SELFTEST_FAILED) { if (response == PS2_RESPONSE_SELFTEST_FAILED) {
return false; return false;
} }
@ -483,7 +483,7 @@ bool initialize() noexcept
bool secondOk = false; bool secondOk = false;
while (waitForResponse(10)) while (waitForResponse(10))
{ {
const std::uint8_t response = readPortByte(PORT_PS2_DATA); const std::uint8_t response = readPort8(PORT_PS2_DATA);
if (response == PS2_RESPONSE_SELFTEST_FAILED) { if (response == PS2_RESPONSE_SELFTEST_FAILED) {
return false; return false;
} }
@ -501,7 +501,7 @@ __attribute__((interrupt))
void isrKeyboard(InterruptFrame* interruptFrame) noexcept void isrKeyboard(InterruptFrame* interruptFrame) noexcept
{ {
(void) interruptFrame; (void) interruptFrame;
const std::uint8_t data = readPortByte(PORT_PS2_DATA); const std::uint8_t data = readPort8(PORT_PS2_DATA);
if (data != 0) if (data != 0)
{ {
pushKey(data); pushKey(data);

4
targets/_any/src/os/interrupt.cpp
View File

@ -17,9 +17,9 @@ struct InterruptPrinter
void putchar(char chr) noexcept // NOLINT void putchar(char chr) noexcept // NOLINT
{ {
if (chr == '\n') { if (chr == '\n') {
writePortByte(PORT_COM1, '\r'); writePort8(PORT_COM1, '\r');
} }
writePortByte(PORT_COM1, static_cast<std::uint8_t>(chr)); writePort8(PORT_COM1, static_cast<std::uint8_t>(chr));
} }
}; };

11
targets/_any/src/os/tty.cpp
View File

@ -17,21 +17,10 @@ size_t gTerminalColumn = 0;
size_t gTerminalWidth = 0; size_t gTerminalWidth = 0;
size_t gTerminalHeight = 0; size_t gTerminalHeight = 0;
VgaDoubleColor gTerminalColor = VgaDoubleColor(); VgaDoubleColor gTerminalColor = VgaDoubleColor();
// uint16_t* gTerminalBuffer = reinterpret_cast<uint16_t*>(0xB8000);
std::vector<VgaCharacter> gTerminalBuffer; std::vector<VgaCharacter> gTerminalBuffer;
psf::Font gTerminalFont; psf::Font gTerminalFont;
std::string gReadBuffer; std::string gReadBuffer;
constexpr uint8_t vgaEntryColor(VgaDoubleColor color)
{
return static_cast<uint8_t>(color.foreground) | static_cast<uint8_t>(color.background) << 4;
}
constexpr uint16_t vgaEntry(const unsigned char chr, const VgaDoubleColor color)
{
return static_cast<uint16_t>(chr) | static_cast<uint16_t>(vgaEntryColor(color) << 8);
}
void newline() void newline()
{ {
gTerminalColumn = 0; gTerminalColumn = 0;

13
targets/x86_64/src/kernel/startup.cpp
View File

@ -7,6 +7,7 @@
#include "os/draw.hpp" #include "os/draw.hpp"
#include "os/serial.hpp" #include "os/serial.hpp"
#include "os/tty.hpp" #include "os/tty.hpp"
#include "drivers/pci.hpp"
#include "drivers/pic.hpp" #include "drivers/pic.hpp"
#include "drivers/ps2.hpp" #include "drivers/ps2.hpp"
#include "./x86_64.hpp" #include "./x86_64.hpp"
@ -245,18 +246,6 @@ void kernel_main()
// __enterUsermode(SEGIDX_USER_CODE, SEGIDX_USER_DATA, &tss.rsp0, &main); // __enterUsermode(SEGIDX_USER_CODE, SEGIDX_USER_DATA, &tss.rsp0, &main);
main(); // for now run it in kernel mode, user mode doesn't work yet main(); // for now run it in kernel mode, user mode doesn't work yet
while (true)
{
ps2::KeyEvent event;
while (!ps2::readKey(event));
std::printf(
"Key event: scancode=%s(0x%X), down=%s, repeat=%s\n",
ps2::keyName(event.scancode),
static_cast<unsigned>(event.scancode),
event.down ? "true" : "false",
event.repeat ? "true" : "false"
);
}
} }