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#include "KernelShell.class.h"
#include <DeviceManager/Dev.ns.h>
#include <DeviceManager/Time.ns.h>
#include <MemoryManager/Mem.ns.h>
#include <MemoryManager/PhysMem.ns.h>
#include <VFS/Part.ns.h>
#include <VFS/VFS.ns.h>
#include <FileSystems/RamFS/RamFS.class.h>
void KernelShell::devices(Vector<String>& args) {
Vector<Device*> dev = Dev::findDevices();
*m_vt << " - Detected devices :\n";
for (u32int i = 0; i < dev.size(); i++) {
*m_vt << " - " << dev[i]->getClass();
m_vt->setCursorCol(25);
*m_vt << dev[i]->getName() << "\n";
}
}
void KernelShell::loadkeys(Vector<String>& args) {
if (args.size() == 1) {
*m_vt << "Error : no argument specified.\n";
} else {
if (!Kbd::loadKeymap(args[1])) {
*m_vt << "Error while loading keymap " << args[1] << ".\n";
}
}
}
void KernelShell::free(Vector<String>& args) {
u32int frames = PhysMem::total(), freef = PhysMem::free();
*m_vt << " - Free frames : " << (s32int)freef << " (" << (s32int)(freef * 4 / 1024) << "Mo) of "
<< (s32int)frames << " (" << (s32int)(frames * 4 / 1024) << "Mo).\n";
u32int kh = Mem::kheapSize(), freek = Mem::kheapFree();
*m_vt << " - Kernel heap free : " << (s32int)(freek / 1024 / 1024) << "Mo (" << (s32int)(freek / 1024) <<
"Ko) of " << (s32int)(kh / 1024 / 1024) << "Mo (" << (s32int)(kh / 1024) << "Ko).\n";
}
void KernelShell::uptime(Vector<String>& args) {
*m_vt << " - Uptime : " << (s32int)(Time::uptime()) << "s.\n";
}
void KernelShell::part(Vector<String>& args) {
*m_vt << " * ID\tClass Name\n";
for (u32int i = 0; i < Part::devices.size(); i++) {
*m_vt << " - " << (s32int)i << "\t";
if (Part::devices[i] == 0) {
*m_vt << "[none]\n";
} else {
*m_vt << Part::devices[i]->getClass();
m_vt->setCursorCol(33);
*m_vt << Part::devices[i]->getName() << "\n";
for (u32int j = 0; j < Part::partitions.size(); j++) {
if (Part::partitions[j]->getDevice() == Part::devices[i]) {
*m_vt << "\t - Partition " << (s32int)Part::partitions[j]->getPartNumber() <<
", start at " << (s32int)Part::partitions[j]->getStartBlock() <<
", size " << (s32int)Part::partitions[j]->getBlockCount() << "\n";
}
}
}
}
}
void KernelShell::mount(Vector<String>& args) {
if (args.size() == 1) {
for (u32int i = 0; i < VFS::filesystems.size(); i++) {
*m_vt << VFS::filesystems[i]->getDevDescription() << " on " << VFS::path(VFS::filesystems[i]->getRootNode()) << "\n";
}
} else if (args.size() == 2) {
if (args[1] == "help") {
*m_vt << "Usage: mount [help|<options>]\n" <<
"Options formats :\n" <<
" - <mountpoint>:ramfs\n" <<
" - <mountpoint>:[<dev_class>]:<dev_number>:<part_number>[:<type>[:[ro|rw]]]\n" <<
"You can have a list of available block devices and partitions by typing 'part'.\n";
} else {
if (VFS::mount(args[1], m_vt)) *m_vt << "Ok, filesystem mounted.\n";
}
} else {
*m_vt << "Usage: mount [<device> <mountpoint>\n";
}
}
void KernelShell::readblock(Vector<String>& args) {
if (args.size() == 3) {
Vector<Device*> devcs = Dev::findDevices("block");
u32int id = args[1].toInt(), block = args[2].toInt();
if (id < devcs.size()) {
BlockDevice* bdev = (BlockDevice*)devcs[id];
*m_vt << "Block " << block << " from device " << bdev->getName() << " (" << bdev->getClass() << ")\n";
u8int* buff = (u8int*)Mem::alloc(bdev->blockSize());
bdev->readBlocks(block, 1, buff);
m_vt->hexDump(buff, 32);
Mem::free(buff);
} else {
*m_vt << "Block device #" << id << " does not exist.\n";
}
} else {
*m_vt << "Usage: readblock <dev id> <block id>\n";
}
}
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