#include <hlib.h>
#include <usb.h>
uint32_t serviceId, xhciEvent;
REQUEST(getBaseAddress, "lspci", "getBaseAddress");
REQUEST(getDeviceClass, "lspci", "getDeviceClass");
REQUEST(enableBusMaster, "lspci", "enableBusMaster");
REQUEST(getPCIInterrupt, "lspci", "getInterrupt");
char *usbReadString(UsbSlot *slot, uint32_t language, uint32_t stringDescriptor,
void *buffer) {
slot->interface->getDescriptor(slot->data, 3 << 8 | stringDescriptor, language,
buffer, 0);
uint32_t length = ((*(uint8_t *)buffer) - 2) / 2;
char *string = malloc(length);
for (uint32_t i = 0; i < length; i++) {
string[i] = ((char *)buffer)[(i + 1) * 2];
}
return string;
}
REQUEST(registerHID, "hid", "registerHID");
REQUEST(registerMassStorage, "usbStorage", "setup");
UsbDescriptor *findDescriptor(UsbDescriptor *start, uint8_t descriptorType) {
UsbDescriptor *result = start;
while (result->descriptorType != descriptorType) {
result = (void *)result + result->size;
}
return result;
}
void setupHID(UsbSlot *slot, UsbInterfaceDescriptor *interface) {
UsbEndpointDescriptor *endpoint = (void *) findDescriptor((void *) interface, 5);
UsbDescriptor *report = requestMemory(1, 0, 0);
slot->interface->getDescriptor(slot->data, 0x22 << 8, 0, report, 1);
uint8_t endpointNumber = endpoint->address & 0xF; // never 0
uint8_t direction = endpoint->address >> 7;
uint8_t endpointIndex = (endpointNumber)*2 - 1 + direction;
// set protocol
slot->interface->command(slot->data, 0x21, 0x0B, 0, 1);
// set IDLE
slot->interface->command(slot->data, 0x21, 0x0A, 0, 1);
// HID id is 0xFFFF0000: endpoint, 0xFFFF: index in a list
registerHID(slot->id | (uint32_t)endpointIndex << 16, U32(getPhysicalAddress(report)));
free(report);
}
uint8_t getEndpointIndex(UsbEndpointDescriptor *endpoint) {
uint8_t endpointNumber = endpoint->address & 0xF; // never 0
uint8_t direction = endpoint->address >> 7;
return (endpointNumber << 1) - 1 + direction;
}
void setupMassStorage(UsbSlot *slot, UsbInterfaceDescriptor *interface) {
UsbEndpointDescriptor *endpoint = (void *) findDescriptor((void *) interface, 5);
uint8_t endpoint1 = getEndpointIndex(endpoint);
endpoint = (void *) findDescriptor((void *) endpoint + endpoint->size, 5);
uint8_t endpoint2 = getEndpointIndex(endpoint);
uint32_t deviceType = interface->subClass & 0xFF | interface->protocol & 0xFF << 8;
uint8_t outEndpoint = endpoint1 & 1 ? endpoint1 : endpoint2;
uint8_t inEndpoint = endpoint1 & 1 ? endpoint2 : endpoint1;
registerMassStorage(slot->id | (uint32_t) inEndpoint << 16, slot->id | (uint32_t) outEndpoint << 16);
}
void setupInterfaces(UsbSlot *slot) {
// only doing blank interface descriptors for now, there are
// also interface assosciations...
// also: only the first interface descriptor is used and set up here...
UsbInterfaceDescriptor *interface = (void *)slot->descriptor + slot->descriptor->size;
slot->interface->setupEndpointsStart(slot->data, slot->descriptor->configurationValue);
UsbInterfaceDescriptor *firstInterface = NULL;
while (U32(interface) < U32(slot->descriptor) + slot->descriptor->totalLength) {
printf("interface %i: %i endpoint(s), class %i, subclass %i\n",
interface->interfaceNumber, interface->endpointCount,
interface->interfaceClass, interface->subClass);
void *nextInterface = (void *)interface + interface->size;
for (uint32_t i = 0; i < interface->endpointCount;) {
UsbEndpointDescriptor *endpoint = nextInterface;
if (endpoint->descriptorType == 5) {
slot->interval = slot->interface->configureEndpoint(slot->data, endpoint);
i++;
}
nextInterface += endpoint->size;
}
if (!firstInterface) {
firstInterface = interface;
}
interface = nextInterface;
}
slot->interface->setupEndpointsEnd(slot->data, slot->descriptor->configurationValue);
if (firstInterface->interfaceClass == 3) {
setupHID(slot, firstInterface);
} else if (firstInterface->interfaceClass == 8) {
setupMassStorage(slot, firstInterface);
}
}
ListElement *usbSlots = NULL;
void resetPort(UsbSlot *slot) {
printf("--------\n");
void *buffer = malloc(4096);
uint32_t portIndex = slot->portIndex;
UsbDeviceDescriptor *descriptor = malloc(sizeof(UsbDeviceDescriptor));
slot->interface->getDescriptor(slot->data, 1 << 8, 0, buffer, 0);
memcpy(buffer, (void *)descriptor, sizeof(UsbDeviceDescriptor));
printf("port %i: usb version %x.%x, %i supported configuration(s)\n",
portIndex, descriptor->usbVersion >> 8,
descriptor->usbVersion & 0xFF, descriptor->configurationCount);
slot->interface->getDescriptor(slot->data, 3 << 8, 0, buffer, 0);
uint32_t language = *((uint16_t *)(buffer + 2));
char *manufacturer = usbReadString(
slot, language, descriptor->manufacturerStringDescriptor, buffer);
printf("port %i: manufacturer: %s, ", portIndex, manufacturer);
free(manufacturer);
char *device = usbReadString(slot, language,
descriptor->deviceStringDescriptor, buffer);
printf("device: %s, ", device);
free(device);
char *serial = usbReadString(
slot, language, descriptor->serialNumberStringDescriptor, buffer);
printf("serial: %s\n", serial);
free(serial);
slot->interface->getDescriptor(slot->data, 2 << 8, 0, buffer, 0);
UsbConfigurationDescriptor *configurationBuffer = buffer;
UsbConfigurationDescriptor *configuration = malloc(configurationBuffer->totalLength);
memcpy(buffer, configuration, configurationBuffer->totalLength);
char *configurationString = usbReadString(
slot, language, configuration->configurationString, buffer);
printf("port %i: %i interfaces, configuration %s, %i bytes\n",
slot->portIndex, configuration->interfaceCount, configurationString,
configuration->totalLength);
slot->id = listCount(usbSlots);
listAdd(&usbSlots, slot);
slot->descriptor = configuration;
setupInterfaces(slot);
}
extern UsbHostControllerInterface xhci;
UsbHostControllerInterface *interfaces[] = {
&xhci,
};
void checkDevice(uint32_t pciDevice, uint32_t deviceClass) {
for (uint32_t i = 0; i < sizeof(interfaces) / sizeof(interfaces[0]); i++) {
UsbHostControllerInterface *interface = interfaces[i];
if (deviceClass != interface->pciClass) {
continue;
}
enableBusMaster(pciDevice, 0);
uint32_t interrupt = getPCIInterrupt(pciDevice, 0);
// I don't know why
void *(*initialize)(uint32_t, uint32_t, uint32_t) =
interface->initialize;
UsbHostController *controller =
initialize(pciDevice, U32(getBaseAddress(pciDevice, 0)), interrupt);
foreach (controller->slots, UsbSlot *, slot, { resetPort(slot); })
;
}
}
bool initialized = false;
void hidNormal(uint32_t slotId, void *bufferPhysical) {
UsbSlot *usbSlot = listGet(usbSlots, slotId & 0xFFFF);
usbSlot->interface->doNormal(usbSlot->data, bufferPhysical, slotId >> 16);
// data is returned to buffer
}
void storageWrite(uint32_t slotId, void *buffer) {
uint32_t *bufferHere = requestMemory(1, NULL, buffer);
uint32_t size = *bufferHere;
UsbSlot *usbSlot = listGet(usbSlots, slotId & 0xFFFF);
void (*write)(void *, void *, uint32_t, uint32_t) = usbSlot->interface->writeNormal;
write(usbSlot->data, buffer + 4, slotId >> 16, size);
}
void storageRead(uint32_t slotId, void *buffer) {
uint32_t *bufferHere = requestMemory(1, NULL, buffer);
uint32_t size = *bufferHere;
UsbSlot *usbSlot = listGet(usbSlots, slotId & 0xFFFF);
void (*read)(void *, void *, uint32_t, uint32_t) = usbSlot->interface->readNormal;
read(usbSlot->data, buffer + 4, slotId >> 16, size);
}
uint32_t hidInterval(uint32_t slotId) {
UsbSlot *usbSlot = listGet(usbSlots, slotId & 0xFFFF);
return usbSlot->interval;
}
typedef union {
uint32_t value;
struct {
uint8_t class, subClass, protocol;
} __attribute__((packed)) types;
} UsbInterfaceType;
uint32_t getType(uint32_t slotId) {
UsbSlot *usbSlot = listGet(usbSlots, slotId & 0xFFFF);
uint8_t endpoint = (slotId >> 16) + 1;
uint8_t address = endpoint >> 1 | ((endpoint & 1) << 7);
UsbInterfaceDescriptor *interface = (void *)usbSlot->descriptor + usbSlot->descriptor->size;
while (U32(interface) < U32(usbSlot->descriptor) + usbSlot->descriptor->totalLength) {
void *nextInterface = (void *)interface + interface->size;
for (uint32_t i = 0; i < interface->endpointCount;) {
UsbEndpointDescriptor *endpoint = nextInterface;
if (endpoint->descriptorType == 5) {
if (endpoint->address == address) {
UsbInterfaceType result = {
.types = {
.class = interface->interfaceClass,
.subClass = interface->subClass,
.protocol = interface->protocol,
}
};
return result.value;
}
i++;
}
nextInterface += endpoint->size;
}
interface = nextInterface;
}
return -1;
}
void initialize() {
serviceId = getServiceId();
// xhciEvent will carry data corresponding to the data in the xhci event
// code will be used to identify an event
xhciEvent = createEvent("xhciEvent");
loadFromInitrd("hid");
loadFromInitrd("usbStorage");
createFunction("hid_normal", (void *)hidNormal);
createFunction("hid_interval", (void *)hidInterval);
createFunction("storage_out", (void *)storageWrite);
createFunction("storage_in", (void *)storageRead);
createFunction("get_type", (void *)getType);
for (uint32_t i = 0;; i++) {
uint32_t class = getDeviceClass(i, 0);
if (!class) {
// pci should assign device ids in order of valid devices to be enumerable
break;
}
checkDevice(i, class);
}
}
int32_t main() {
if (!initialized) {
fork(initialize, NULL, NULL, NULL);
// initialize();
initialized = true;
}
}
biosfood