1
0
Fork 0
mirror of https://gitlab.com/sortix/sortix.git synced 2023-02-13 20:55:38 -05:00
sortix--sortix/sortix/bga.cpp
2012-07-30 19:03:48 +02:00

529 lines
15 KiB
C++

/*******************************************************************************
Copyright(C) Jonas 'Sortie' Termansen 2012.
This file is part of Sortix.
Sortix is free software: you can redistribute it and/or modify it under the
terms of the GNU General Public License as published by the Free Software
Foundation, either version 3 of the License, or (at your option) any later
version.
Sortix is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
FOR A PARTICULAR PURPOSE. See the GNU General Public License for more
details.
You should have received a copy of the GNU General Public License along with
Sortix. If not, see <http://www.gnu.org/licenses/>.
bga.cpp
Driver for the Bochs VBE Extensions.
*******************************************************************************/
#include <sortix/kernel/platform.h>
#include <sortix/kernel/refcount.h>
#include <sortix/kernel/textbuffer.h>
#include <sortix/kernel/video.h>
#include <sortix/kernel/memorymanagement.h>
#include <sortix/kernel/pci.h>
#include <sortix/mman.h>
#include <libmaxsi/error.h>
#include <libmaxsi/memory.h>
#include <libmaxsi/string.h>
#include "x86-family/memorymanagement.h"
#include "lfbtextbuffer.h"
#include "cpu.h"
#include "bga.h"
using namespace Maxsi;
namespace Sortix {
namespace BGA {
const bool TEST_RES_BY_TRYING = false;
const uint16_t VBE_DISPI_INDEX_ID = 0;
const uint16_t VBE_DISPI_INDEX_XRES = 1;
const uint16_t VBE_DISPI_INDEX_YRES = 2;
const uint16_t VBE_DISPI_INDEX_BPP = 3;
const uint16_t VBE_DISPI_INDEX_ENABLE = 4;
const uint16_t VBE_DISPI_INDEX_BANK = 5;
const uint16_t VBE_DISPI_INDEX_VIRT_WIDTH = 6;
const uint16_t VBE_DISPI_INDEX_VIRT_HEIGHT = 7;
const uint16_t VBE_DISPI_INDEX_X_OFFSET = 8;
const uint16_t VBE_DISPI_INDEX_Y_OFFSET = 9;
const uint16_t VBE_DISPI_IOPORT_INDEX = 0x01CE;
const uint16_t VBE_DISPI_IOPORT_DATA = 0x01CF;
const uint16_t VBE_DISPI_BPP_4 = 0x04;
const uint16_t VBE_DISPI_BPP_8 = 0x08;
const uint16_t VBE_DISPI_BPP_15 = 0x0F;
const uint16_t VBE_DISPI_BPP_16 = 0x10;
const uint16_t VBE_DISPI_BPP_24 = 0x18;
const uint16_t VBE_DISPI_BPP_32 = 0x20;
const uint16_t VBE_DISPI_DISABLED = 0x00;
const uint16_t VBE_DISPI_ENABLED = 0x01;
const uint16_t VBE_DISPI_GETCAPS = 0x02;
const uint16_t VBE_DISPI_8BIT_DAC = 0x20;
const uint16_t VBE_DISPI_LFB_ENABLED = 0x40;
const uint16_t VBE_DISPI_NOCLEARMEM = 0x80;
const uint16_t VBE_MIN_SUP_VERSION = 0xB0C0;
const uint16_t VBE_MIN_POS_VERSION = 0xB0C0;
const uint16_t VBE_MAX_POS_VERSION = 0xB0CF;
const size_t VBE_BANK_SIZE = 64UL * 1024UL;
volatile uint8_t* const VBE_VIDEO_MEM = (volatile uint8_t*) 0xA0000;
addr_t DetectBGAFramebuffer()
{
uint32_t devaddr;
pcifind_t pcifind;
// Search for the bochs BGA device and compatible.
Maxsi::Memory::Set(&pcifind, 255, sizeof(pcifind));
pcifind.vendorid = 0x1234;
pcifind.deviceid = 0x1111;
if ( (devaddr = PCI::SearchForDevice(pcifind)) )
return PCI::ParseDevBar0(devaddr);
// Search for a generic VGA compatible device.
Maxsi::Memory::Set(&pcifind, 255, sizeof(pcifind));
pcifind.classid = 0x03;
pcifind.subclassid = 0x00;
pcifind.progif = 0x00;
if ( (devaddr = PCI::SearchForDevice(pcifind)) )
return PCI::ParseDevBar0(devaddr);
return 0;
}
uint16_t version;
uint16_t maxbpp;
uint16_t maxxres;
uint16_t maxyres;
uint16_t curbpp;
uint16_t curxres;
uint16_t curyres;
uint16_t curbank;
addr_t bgaframebuffer;
void WriteRegister(uint16_t index, uint16_t value)
{
CPU::OutPortW(VBE_DISPI_IOPORT_INDEX, index);
CPU::OutPortW(VBE_DISPI_IOPORT_DATA, value);
}
uint16_t ReadRegister(uint16_t index)
{
CPU::OutPortW(VBE_DISPI_IOPORT_INDEX, index);
return CPU::InPortW(VBE_DISPI_IOPORT_DATA);
}
uint16_t GetCapability(uint16_t index)
{
uint16_t wasenabled = ReadRegister(VBE_DISPI_INDEX_ENABLE);
WriteRegister(VBE_DISPI_INDEX_ENABLE, wasenabled | VBE_DISPI_GETCAPS);
uint16_t cap = ReadRegister(index);
WriteRegister(VBE_DISPI_INDEX_ENABLE, wasenabled);
return cap;
}
bool SetVideoMode(uint16_t width, uint16_t height, uint16_t depth, bool keep)
{
bool uselinear = true;
WriteRegister(VBE_DISPI_INDEX_ENABLE, VBE_DISPI_DISABLED);
WriteRegister(VBE_DISPI_INDEX_XRES, width);
WriteRegister(VBE_DISPI_INDEX_YRES, height);
WriteRegister(VBE_DISPI_INDEX_BPP, depth);
WriteRegister(VBE_DISPI_INDEX_ENABLE, VBE_DISPI_ENABLED |
(uselinear ? VBE_DISPI_LFB_ENABLED : 0) |
(keep ? VBE_DISPI_NOCLEARMEM : 0));
curbpp = depth;
curxres = width;
curyres = height;
return true;
}
bool IsStandardResolution(uint16_t width, uint16_t height, uint16_t depth)
{
if ( depth != VBE_DISPI_BPP_32 ) { return false; }
if ( width == 800 && height == 600 ) { return true; }
if ( width == 1024 && height == 768 ) { return true; }
if ( width == 1280 && height == 720 ) { return true; }
if ( width == 1280 && height == 1024 ) { return true; }
if ( width == 1600 && height == 900 ) { return true; }
if ( width == 1920 && height == 1080 ) { return true; }
return false;
}
// TODO: Need a better method of detecting available/desired resolutions.
bool SupportsResolution(uint16_t width, uint16_t height, uint16_t depth)
{
if ( !width || !height || !depth ) { return false; }
if ( maxxres < width || maxyres < height || maxbpp < depth ) return false;
if ( width % 8U ) { return false; }
uint16_t wasenabled = ReadRegister(VBE_DISPI_INDEX_ENABLE);
if ( width == curxres && height == curyres && depth == curbpp) return true;
if ( !TEST_RES_BY_TRYING ) { return true; }
SetVideoMode(width, height, depth, true);
uint16_t newxres = ReadRegister(VBE_DISPI_INDEX_XRES);
uint16_t newyres = ReadRegister(VBE_DISPI_INDEX_XRES);
uint16_t newbpp = ReadRegister(VBE_DISPI_INDEX_BPP);
bool result = newxres != curxres || newyres != curyres || newbpp != curbpp;
SetVideoMode(curxres, curyres, curbpp, true);
WriteRegister(VBE_DISPI_INDEX_ENABLE, wasenabled);
return result;
}
class BGADriver : public VideoDriver
{
public:
BGADriver();
virtual ~BGADriver();
public:
virtual bool StartUp();
virtual bool ShutDown();
virtual char* GetCurrentMode() const;
virtual bool SwitchMode(const char* mode);
virtual bool Supports(const char* mode) const;
virtual char** GetModes(size_t* nummodes) const;
virtual off_t FrameSize() const;
virtual ssize_t WriteAt(off_t off, const void* buf, size_t count);
virtual ssize_t ReadAt(off_t off, void* buf, size_t count);
virtual TextBuffer* CreateTextBuffer();
private:
bool MapVideoMemory(size_t size);
bool DetectModes() const;
private:
mutable size_t nummodes;
mutable char** modes;
char* curmode;
size_t lfbmapped;
size_t framesize;
};
BGADriver::BGADriver()
{
nummodes = 0;
modes = NULL;
curmode = NULL;
lfbmapped = 0;
framesize = 0;
}
BGADriver::~BGADriver()
{
MapVideoMemory(0);
for ( size_t i = 0; i < nummodes; i++ )
{
delete[] modes[i];
}
delete[] modes;
delete[] curmode;
}
bool BGADriver::MapVideoMemory(size_t size)
{
size = Page::AlignUp(size);
addr_t phys = bgaframebuffer;
addr_t mapat = Memory::GetVideoMemory();
if ( size == lfbmapped )
return true;
if ( size < lfbmapped )
{
for ( size_t i = size; i < size; i += Page::Size() )
Memory::Unmap(phys + i);
Memory::Flush();
lfbmapped = size;
return true;
}
size_t maxsize = Memory::GetMaxVideoMemorySize();
if ( maxsize < size )
{
Log::PrintF("Error: Insufficient virtual address space for BGA frame "
"of size 0x%zx bytes, only 0x%zx was available.\n", size,
maxsize);
return false;
}
const addr_t mtype = Memory::PAT_WC;
for ( size_t i = lfbmapped; i < size; i += Page::Size() )
if ( !Memory::MapPAT(phys+i, mapat+i, PROT_KWRITE | PROT_KREAD, mtype) )
{
Log::PrintF("Error: Insufficient memory to map BGA framebuffer "
"onto kernel address space: needed 0x%zx bytes but "
"only 0x%zx was available at this point.\n", size, i);
MapVideoMemory(lfbmapped); // Unmap what we added.
return false;
}
Memory::Flush();
lfbmapped = size;
return true;
}
bool BGADriver::StartUp()
{
if ( !modes && !DetectModes() ) { return false; }
return true;
}
bool BGADriver::ShutDown()
{
MapVideoMemory(0);
if ( curmode )
{
delete[] curmode; curmode = NULL;
Error::Set(ENOSYS);
return false; // TODO: Return to VGA Text Mode.
}
return true;
}
char* BGADriver::GetCurrentMode() const
{
if ( !curmode ) { Error::Set(EINVAL); return NULL; }
return String::Clone(curmode);
}
bool BGADriver::SwitchMode(const char* mode)
{
bool result = false;
char* modeclone = String::Clone(mode);
char* xstr = NULL;
char* ystr = NULL;
char* bppstr = NULL;
if ( !ReadParamString(mode, "width", &xstr, "height", &ystr,
"bpp", &bppstr, "STOP") ) { return false; }
uint16_t xres = xstr ? Maxsi::String::ToInt(xstr) : 0;
uint16_t yres = ystr ? Maxsi::String::ToInt(ystr) : 0;
uint16_t bpp = bppstr ? Maxsi::String::ToInt(bppstr) : 32;
size_t newframesize = (size_t) xres * (size_t) yres * (size_t) bpp/8UL;
// If the current resolution uses more memory than the new one, keep it
// around in case setting the video mode failed.
if ( MapVideoMemory(newframesize < lfbmapped ? lfbmapped : newframesize) &&
SetVideoMode(xres, yres, bpp, false) )
{
delete[] curmode;
curmode = modeclone;
modeclone = NULL;
// We can now truncate the amount of memory to what we really need.
MapVideoMemory(framesize = newframesize);
result = true;
}
delete[] xstr;
delete[] ystr;
delete[] bppstr;
delete[] modeclone;
return result;
}
bool BGADriver::Supports(const char* mode) const
{
char* xstr = NULL;
char* ystr = NULL;
char* bppstr = NULL;
if ( !ReadParamString(mode, "width", &xstr, "height", &ystr,
"bpp", &bppstr, NULL, NULL) ) { return false; }
uint16_t xres = xstr ? Maxsi::String::ToInt(xstr) : 0;
uint16_t yres = ystr ? Maxsi::String::ToInt(ystr) : 0;
uint16_t bpp = bppstr ? Maxsi::String::ToInt(bppstr) : 0;
bool result = SupportsResolution(xres, yres, bpp);
delete[] xstr;
delete[] ystr;
delete[] bppstr;
return result;
}
char** BGADriver::GetModes(size_t* retnum) const
{
if ( !modes && !DetectModes() ) { return NULL; }
char** result = new char*[nummodes];
if ( !result ) { return NULL; }
for ( size_t i = 0; i < nummodes; i++ )
{
result[i] = String::Clone(modes[i]);
if ( !result[i] )
{
for ( size_t n = 0; n < i; i++ ) { delete[] result[n]; }
delete[] result;
return NULL;
}
}
*retnum = nummodes;
return result;
}
off_t BGADriver::FrameSize() const
{
return curxres * curyres * (curbpp / 8UL);
}
ssize_t BGADriver::WriteAt(off_t off, const void* buf, size_t count)
{
uint8_t* frame = (uint8_t*) Memory::GetVideoMemory();
if ( (off_t) framesize <= off )
return 0;
if ( framesize < off + count )
count = off - framesize;
Maxsi::Memory::Copy(frame + off, buf, count);
return count;
}
ssize_t BGADriver::ReadAt(off_t off, void* buf, size_t count)
{
const uint8_t* frame = (const uint8_t*) Memory::GetVideoMemory();
if ( (off_t) framesize <= off )
return 0;
if ( framesize < off + count )
count = off - framesize;
Maxsi::Memory::Copy(buf, frame + off, count);
return count;
}
bool BGADriver::DetectModes() const
{
nummodes = 0;
unsigned bpp = VBE_DISPI_BPP_32;
for ( unsigned w = 0; w < maxxres; w += 4U )
{
for ( unsigned h = 0; h < maxyres; h += 4UL )
{
if ( !IsStandardResolution(w, h, bpp) ) { continue; }
if ( !SupportsResolution(w, h, bpp) ) { continue; }
nummodes++;
}
}
modes = new char*[nummodes];
if ( !modes ) { return false; }
Maxsi::Memory::Set(modes, 0, sizeof(char*) * nummodes);
size_t curmodeid = 0;
for ( unsigned w = 0; w < maxxres; w += 4U )
{
for ( unsigned h = 0; h < maxyres; h += 4UL )
{
if ( !IsStandardResolution(w, h, bpp) ) { continue; }
if ( !SupportsResolution(w, h, bpp) ) { continue; }
char bppstr[64];
char xresstr[64];
char yresstr[64];
bppstr[String::ConvertUInt32(bpp, bppstr)] = 0;
xresstr[String::ConvertUInt32(w, xresstr)] = 0;
yresstr[String::ConvertUInt32(h, yresstr)] = 0;
char* modestr = String::Combine(6, "width=", xresstr, ",height=",
yresstr, ",bpp=", bppstr);
if ( !modestr ) { return false; }
modes[curmodeid++] = modestr;
}
}
return true;
}
TextBuffer* BGADriver::CreateTextBuffer()
{
uint8_t* lfb = (uint8_t*) Memory::GetVideoMemory();
uint32_t lfbformat = curbpp;
size_t scansize = curxres * curbpp / 8UL;
return CreateLFBTextBuffer(lfb, lfbformat, curxres, curyres, scansize);
}
static uint16_t ProbeBGAVersion()
{
// First see if the register is in the legal range.
uint16_t ver = ReadRegister(VBE_DISPI_INDEX_ID);
if ( ver < VBE_MIN_POS_VERSION )
return 0;
if ( ver > VBE_MAX_POS_VERSION )
return 0;
// The bootloader or BIOS may have set the current version to less than what
// really is supported. If we a version number to the register, we can read
// it back only if it is supported.
// If the register accepts an invalid version number, don't trust it and we
// may be in danger if an unrelated type of register is using this IO port.
// Since that is unlikely, just assume we got a real BGA device.
WriteRegister(VBE_DISPI_INDEX_ID, 0xFFFF);
if ( ReadRegister(VBE_DISPI_INDEX_ID) == 0xFFFF )
{
WriteRegister(VBE_DISPI_INDEX_ID, ver);
Log::PrintF("Warning: Found what appears to be BGA hardware, but it "
"behaves differently when attempting to scan what version "
"it conforms to. ");
if ( ver < VBE_MIN_SUP_VERSION )
{
Log::PrintF("The hardware is by default set to an old unsupported "
"version, this driver will not use it.\n");
return 0;
}
Log::PrintF("The driver will use this hardware (even though it may not "
"be BGA hardware) and bad things may happen.\n");
return ver;
}
// Attempt to query all possible version ids.
for ( uint16_t i = ver; i < VBE_MAX_POS_VERSION; i++ )
{
WriteRegister(VBE_DISPI_INDEX_ID, i);
if ( ReadRegister(VBE_DISPI_INDEX_ID) == i )
ver = i;
}
return ver;
}
void Init()
{
if ( !(version = ProbeBGAVersion()) )
return;
curbpp = 0;
curxres = 0;
curyres = 0;
curbank = 0xFFFF;
maxbpp = GetCapability(VBE_DISPI_INDEX_BPP);
maxxres = GetCapability(VBE_DISPI_INDEX_XRES);
maxyres = GetCapability(VBE_DISPI_INDEX_YRES);
if ( !(bgaframebuffer = DetectBGAFramebuffer()) )
{
Log::PrintF("BGA support detected but no PCI device could be found "
"determines the location of the framebuffer. Rather than "
"guessing it is at 0xE0000000, this driver shuts down to "
"avoid corrupting possible memory there.\n");
return;
}
BGADriver* bgadriver = new BGADriver;
if ( !bgadriver )
{
Log::PrintF("Unable to allocate BGA driver, but hardware present\n");
return;
}
if ( !Video::RegisterDriver("bga", bgadriver) )
{
Log::PrintF("Unable to register BGA driver, but hardware present\n");
delete bgadriver;
return;
}
}
} // namespace BGA
} // namespace Sortix