rt-thread/bsp/phytium/libraries/standalone/drivers/usb/fusb.c

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/*
* Copyright : (C) 2022 Phytium Information Technology, Inc.
* All Rights Reserved.
*
* This program is OPEN SOURCE software: you can redistribute it and/or modify it
* under the terms of the Phytium Public License as published by the Phytium Technology Co.,Ltd,
* either version 1.0 of the License, or (at your option) any later version.
*
* This program 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 Phytium Public License for more details.
*
*
* FilePath: fusb.c
* Date: 2022-02-11 13:33:11
* LastEditTime: 2022-02-18 09:22:06
* Description:  This file is for implmentation of USB user API
*
* Modify History:
* Ver   Who        Date         Changes
* ----- ------     --------    --------------------------------------
* 1.0 zhugengyu 2022/2/8 init commit
*/
#include <string.h>
#include "fdebug.h"
#include "fsleep.h"
#include "fusb_private.h"
#include "fxhci.h"
#define FUSB_DEBUG_TAG "FUSB"
#define FUSB_ERROR(format, ...) FT_DEBUG_PRINT_E(FUSB_DEBUG_TAG, format, ##__VA_ARGS__)
#define FUSB_WARN(format, ...) FT_DEBUG_PRINT_W(FUSB_DEBUG_TAG, format, ##__VA_ARGS__)
#define FUSB_INFO(format, ...) FT_DEBUG_PRINT_I(FUSB_DEBUG_TAG, format, ##__VA_ARGS__)
#define FUSB_DEBUG(format, ...) FT_DEBUG_PRINT_D(FUSB_DEBUG_TAG, format, ##__VA_ARGS__)
#define FUSB_DR_DESC FUsbGenerateReqType(FUSB_REQ_DEVICE_TO_HOST, FUSB_REQ_TYPE_STANDARD, FUSB_REQ_RECP_DEV)
/*
* Certain Lexar / Micron USB 2.0 disks will fail the FUsbGetDescriptor(FUSB_DESC_TYPE_CONFIG)
* call due to timing issues. Work around this by making extra attempts on
* failure.
*/
#define FUSB_GET_DESCRIPTOR_RETRIES 3
/**
* @name: FUsbCfgInitialize
* @msg: USB实例
* @return {FError}
* @param {FUsb} *instance, USB实例
* @param {const FUsbConfig} *input_config, USB输入配置
* @note PCIE模式下USB Hc实例在PCIE总线发现控制器后创建
*/
FError FUsbCfgInitialize(FUsb *instance, const FUsbConfig *input_config)
{
FASSERT(instance && input_config);
FError ret = FUSB_SUCCESS;
if (input_config != &instance->config)
{
instance->config = *input_config;
}
instance->hc = NULL; /* non usb host attached */
/* create usb hc instance, which will be add as the head of hc list */
if (NULL == FXhciHcInit(instance, instance->config.base_addr))
{
ret = FUSB_ERR_ALLOCATE_FAIL;
}
if (FUSB_SUCCESS == ret)
{
instance->is_ready = FT_COMPONENT_IS_READY;
}
return ret;
}
/**
* @name: FUsbDeInitialize
* @msg: USB实例
* @return {*}
* @param {FUsb} *instance, USB实例
*/
void FUsbDeInitialize(FUsb *instance)
{
FASSERT(instance);
if (FT_COMPONENT_IS_READY != instance->is_ready)
{
FUSB_ERROR("USB not ready !!!");
return;
}
instance->is_ready = 0;
return;
}
/**
* @name: FUsbPoll
* @msg: USB控制器连接的所有设备,
* @return {*}
* @param {FUsb} *instance, USB实例
*/
void FUsbPoll(FUsb *instance)
{
FASSERT(instance);
if (FT_COMPONENT_IS_READY != instance->is_ready)
{
FUSB_ERROR("USB not ready !!!");
return;
}
if (FUsbPollPrepare)
{
FUsbPollPrepare(instance);
}
FUsbHc *controller = instance->hc;
if (controller != NULL)
{
int i;
for (i = 0; i < FUSB_MAX_DEV_NUM; i++)
{
if (controller->devices[i] != NULL)
{
controller->devices[i]->poll(controller->devices[i]);
}
}
}
return;
}
/**
* @name: FUsbExit
* @msg: USB控制器
* @return {*}
* @param {FUsb} *instance, USB实例
*/
void FUsbExit(FUsb *instance)
{
FASSERT(instance);
if (FT_COMPONENT_IS_READY != instance->is_ready)
{
FUSB_ERROR("USB not ready !!!");
return;
}
if (FUsbExitPrepare)
{
FUsbExitPrepare(instance);
}
FUsbHc *controller = instance->hc;
if (controller != NULL)
{
FASSERT(controller->shutdown);
controller->shutdown(controller);
FUSB_FREE(instance, instance->hc);
instance->hc = NULL;
}
return;
}
/**
* @name: FUsbMempAllocate
* @msg: USB内存池分配一块内存
* @return {void *} NULL
* @param {FUsb} *instance, USB实例
* @param {size_t} size,
* @param {size_t} align, align字节对齐
*/
void *FUsbMempAllocate(FUsb *instance, size_t size, size_t align)
{
FASSERT(instance);
void *result = NULL;
FUsbMemAllocator *allocator = &(instance->config.allocator);
if (allocator->malloc_align)
{
result = allocator->malloc_align(size, align);
}
return result;
}
/**
* @name: FUsbMempFree
* @msg: USB内存池分配的空间
* @return {*}
* @param {FUsb} *instance, USB实例
* @param {void} *ptr,
*/
void FUsbMempFree(FUsb *instance, void *ptr)
{
FASSERT(instance);
FUsbMemAllocator *allocator = &(instance->config.allocator);
if ((NULL != ptr) && (allocator->free))
{
allocator->free(ptr);
}
return;
}
#ifdef FMEMP_TAG_DEBUG
void *FUsbMempAllocateTag(FUsb *instance, size_t size, size_t align, const char *file, unsigned long line, const char *msg)
{
FASSERT(instance);
void *result = NULL;
FMemp *memp = &instance->memp;
if (FUSB_DEFAULT_ALIGN == align)
{
result = FMempCallocTag(memp, 1, size, file, line, msg);
}
else
{
result = FMempMallocAlignTag(memp, size, align, file, line, msg);
if (NULL != result)
{
memset(result, 0, size);
}
}
return result;
}
void FUsbMempFreeTag(FUsb *instance, void *ptr)
{
FASSERT(instance);
if (NULL != ptr)
{
FMempFreeTag(&instance->memp, ptr);
}
return;
}
#endif
/**
* @name: FUsbAllocateHc
* @msg: USB控制器实例USB实例的Hc链表中
* @return {*}
* @param {FUsb} *instance, USB实例
*/
FUsbHc *FUsbAllocateHc(FUsb *instance)
{
FASSERT(instance);
FUsbHc *controller = FUSB_ALLOCATE(instance, sizeof(FUsbHc), FUSB_DEFAULT_ALIGN);
instance->hc = controller;
return controller;
}
/**
* @name: FUsbDetachHc
* @msg: USB控制器实例USB实例的Hc链表中删去
* @return {*}
* @param {FUsbHc} *controller, USB控制器实例
*/
void FUsbDetachHc(FUsbHc *controller)
{
if (controller == NULL)
{
return;
}
FUsb *instance = controller->usb;
FUsbDetachDev(controller, 0); /* tear down root hub tree */
return;
}
/**
* @name: FUsbFindValidInitFunc
* @msg: USB设备的初始化函数
* @return {*}
* @param {FUsb} *instance, USB实例
* @param {FUsbDevIndex} *index, USB设备的索引
*/
static FUsbDevInitHandler FUsbFindValidInitFunc(FUsb *instance, const FUsbDevIndex *index)
{
FASSERT(instance);
u32 loop;
FUsbDevInitFunc *func;
FUsbDevInitHandler handler = NULL;
for (loop = 0; loop < instance->dev_init_num; loop++)
{
func = &instance->dev_init[loop];
if ((index->category == func->index.category) &&
(index->class == func->index.class) &&
(index->sub_class == func->index.sub_class) &&
(index->protocol == func->index.protocol))
{
handler = func->handler;
}
}
return handler;
}
/**
* @name: FUsbAssignDevInitFunc
* @msg: USB设备的初始化函数USB设备实例时使用
* @return {FError}
* @param {FUsb} *instance, USB实例
* @param {FUsbDevIndex} *index, USB设备的索引
* @param {FUsbDevInitHandler} handler, USB设备的初始化函数
*/
FError FUsbAssignDevInitFunc(FUsb *instance, const FUsbDevIndex *index, FUsbDevInitHandler handler)
{
FASSERT(instance && index && handler);
if (FUSB_MAX_DEV_TYPE_NUM == instance->dev_init_num)
{
return FUSB_ERR_INVALID_PARA;
}
if (NULL != FUsbFindValidInitFunc(instance, index))
{
FUSB_WARN("Will remove device init for class 0x%x", index->class);
}
instance->dev_init[instance->dev_init_num].index = *index;
instance->dev_init[instance->dev_init_num].handler = handler;
instance->dev_init_num++;
return FUSB_SUCCESS;
}
/**
* @name: FUsbInitDevEntry
* @msg: USB设备
* @return {*}
* @param {FUsbHc} *controller, USB Hc
* @param {int} slot_idslot号
*/
FUsbDev *FUsbInitDevEntry(FUsbHc *controller, int slot_id)
{
FASSERT(controller && controller->usb);
FASSERT(FUSB_SLOT_ID_VALID(slot_id));
FUsb *instace = controller->usb;
FUsbDev *dev = FUSB_ALLOCATE(instace, sizeof(FUsbDev), FUSB_DEFAULT_ALIGN);
if (NULL == dev)
{
FUSB_ERROR("No memory to allocate device structure .");
return NULL;
}
if (controller->devices[slot_id] != NULL)
{
FUSB_WARN("Warning: device %d reassigned? ", slot_id);
}
controller->devices[slot_id] = dev;
dev->controller = controller;
dev->address = FUSB_NO_DEV_ADDR;
dev->hub = FUSB_NO_HUB;
dev->port = FUSB_NO_PORT;
dev->init = FUsbNopDevInit;
dev->init(controller->devices[slot_id]);
return dev;
}
/**
* @name: FUsbGetAllDevEntries
* @msg: USB控制器上连接的所有USB设备实例
* @return {size_t} USB设备实例数目
* @param {FUsbHc} *controller, USB控制器实例
* @param {FUsbDev} *devs, USB设备实例的缓冲区
* @param {size_t} max_dev_num, USB设备实例数目
*/
size_t FUsbGetAllDevEntries(FUsbHc *controller, FUsbDev *devs[], size_t max_dev_num)
{
FASSERT(controller && devs && max_dev_num > 0);
size_t loop;
size_t num = 0;
/* loop over all dev address in case there are holes */
for (loop = 0; loop < FUSB_MAX_DEV_NUM; loop++)
{
if (NULL != controller->devices[loop])
{
devs[num] = controller->devices[loop];
num++;
/* get at most max_dev_num device entry before exit */
if (num >= max_dev_num)
{
break;
}
}
}
return num;
}
/**
* @name: FUsbDecodeMaxPacketSz0
* @msg: USB设备速度
* @return {*}
* @param {FUsbSpeed} speed, USB设备速度类型
* @param {u8} bMaxPacketSize0,
*/
int FUsbDecodeMaxPacketSz0(FUsbSpeed speed, u8 bMaxPacketSize0)
{
switch (speed)
{
case FUSB_LOW_SPEED:
if (bMaxPacketSize0 != 8)
{
FUSB_ERROR("Invalid MPS0: 0x%02x ", bMaxPacketSize0);
bMaxPacketSize0 = 8;
}
return bMaxPacketSize0;
case FUSB_FULL_SPEED:
switch (bMaxPacketSize0)
{
case 8:
case 16:
case 32:
case 64:
return bMaxPacketSize0;
default:
FUSB_ERROR("Invalid MPS0: 0x%02x ", bMaxPacketSize0);
return 8;
}
case FUSB_HIGH_SPEED:
if (bMaxPacketSize0 != 64)
{
FUSB_ERROR("Invalid MPS0: 0x%02x ", bMaxPacketSize0);
bMaxPacketSize0 = 64;
}
return bMaxPacketSize0;
case FUSB_SUPER_SPEED:
/* Intentional fallthrough */
case FUSB_SUPER_SPEED_PLUS:
if (bMaxPacketSize0 != 9)
{
FUSB_ERROR("Invalid MPS0: 0x%02x ", bMaxPacketSize0);
bMaxPacketSize0 = 9;
}
return 1 << bMaxPacketSize0;
default:
return 8;
}
}
/**
* @name: FUsbSetFeature
* @msg: USB主机请求使//
* @return {FUsbTransCode} 00
* @param {FUsbDev} *dev, USB设备实例
* @param {int} endp, (0x00)//
* @param {int} feature, 使
* @param {int} rtype, FUsbGenerateReqType生成
*/
FUsbTransCode FUsbSetFeature(FUsbDev *dev, int endp, int feature, int rtype)
{
FASSERT(dev && dev->controller && dev->controller->control);
FUsbDevReq dr;
dr.bmRequestType = rtype;
dr.data_dir = FUSB_REQ_HOST_TO_DEVICE;
dr.bRequest = FUSB_SET_FEATURE;
dr.wValue = feature;
dr.wIndex = endp;
dr.wLength = 0;
return dev->controller->control(dev, FUSB_OUT, sizeof(dr), &dr, 0, NULL);
}
/**
* @name: FUsbGetStatus
* @msg: USB主机请求//
* @return {FUsbTransCode} 00
* @param {FUsbDev} *dev, USB设备实例
* @param {int} intf(0x00)//
* @param {int} rtype, FUsbGenerateReqType生成
* @param {int} len, Data Stage的数据长度
* @param {void} *data, Data Stage的数据缓冲区
*/
FUsbTransCode FUsbGetStatus(FUsbDev *dev, int intf, int rtype, int len, void *data)
{
FASSERT(dev && dev->controller && dev->controller->control);
FUsbDevReq dr;
dr.bmRequestType = rtype;
dr.data_dir = FUSB_REQ_DEVICE_TO_HOST;
dr.bRequest = FUSB_GET_STATUS;
dr.wValue = 0;
dr.wIndex = intf;
dr.wLength = len;
return dev->controller->control(dev, FUSB_IN, sizeof(dr), &dr, len, data);
}
/**
* @name: FUsbGetDescriptor
* @msg: USB主机请求
* @return {FUsbTransCode} 00
* @param {FUsbDev} *dev, USB设备实例
* @param {int} rtype, FUsbGenerateReqType生成
* @param {FUsbDescriptorType} desc_type,
* @param {int} desc_idx,
* @param {void} *data, Data Stage的数据缓冲区
* @param {size_t} len, Data Stage的数据长度
*/
FUsbTransCode FUsbGetDescriptor(FUsbDev *dev, int rtype, FUsbDescriptorType desc_type, int desc_idx, void *data,
size_t len)
{
FASSERT(dev && dev->controller && dev->controller->control);
FUsbDevReq dr;
int fail_tries = 0;
FUsbTransCode ret = FUSB_CC_ZERO_BYTES;
while (fail_tries++ < FUSB_GET_DESCRIPTOR_RETRIES)
{
dr.bmRequestType = rtype;
dr.bRequest = FUSB_GET_DESCRIPTOR;
dr.wValue = desc_type << 8 | desc_idx;
dr.wIndex = 0;
dr.wLength = len;
ret = dev->controller->control(dev, FUSB_IN,
sizeof(dr), &dr, len, data);
if (ret == (int)len)
{
break;
}
fsleep_microsec(10);
}
return ret;
}
/**
* @name: FUsbGetStringDescriptor
* @msg: USB主机请求
* @return {int} 00
* @param {FUsbDev} *dev, USB设备实例
* @param {int} rtype, FUsbGenerateReqType生成
* @param {int} desc_type,
* @param {int} desc_idx,
* @param {int} lang_id,
* @param {void} *data, Data Stage的数据缓冲区
* @param {size_t} len, Data Stage的数据长度
*/
FUsbTransCode FUsbGetStringDescriptor(FUsbDev *dev, int rtype, FUsbDescriptorType desc_type, int desc_idx, int lang_id, void *data, size_t len)
{
FASSERT(dev && dev->controller && dev->controller->control);
FUsbDevReq dr;
int fail_tries = 0;
FUsbTransCode ret = FUSB_CC_ZERO_BYTES;
while (fail_tries++ < FUSB_GET_DESCRIPTOR_RETRIES)
{
dr.bmRequestType = rtype;
dr.bRequest = FUSB_GET_DESCRIPTOR;
dr.wValue = desc_type << 8 | desc_idx;
dr.wIndex = lang_id;
dr.wLength = len;
ret = dev->controller->control(dev, FUSB_IN, sizeof(dr), &dr, len, data);
if (ret == (int)len)
{
break;
}
fsleep_microsec(10);
}
return ret;
}
/**
* @name: FUsbSetConfiguration
* @msg: USB主机请求
* @return {FUsbTransCode} 00
* @param {FUsbDev} *dev, USB设备实例
*/
FUsbTransCode FUsbSetConfiguration(FUsbDev *dev)
{
FASSERT(dev && dev->controller && dev->controller->control);
FUsbDevReq dr;
dr.bmRequestType = 0;
dr.bRequest = FUSB_SET_CONFIGURATION;
dr.wValue = dev->configuration->bConfigurationValue;
dr.wIndex = 0;
dr.wLength = 0;
return dev->controller->control(dev, FUSB_OUT, sizeof(dr), &dr, 0, NULL);
}
/**
* @name: FUsbClearFeature
* @msg: USB主机请求使//
* @return {FUsbTransCode} 00
* @param {FUsbDev} *dev, USB设备实例
* @param {int} endp, (0x00)//
* @param {int} feature
* @param {int} rtype, FUsbGenerateReqType生成
*/
FUsbTransCode FUsbClearFeature(FUsbDev *dev, int endp, int feature, int rtype)
{
FASSERT(dev && dev->controller && dev->controller->control);
FUsbDevReq dr;
dr.bmRequestType = rtype;
dr.data_dir = FUSB_REQ_HOST_TO_DEVICE;
dr.bRequest = FUSB_CLEAR_FEATURE;
dr.wValue = feature;
dr.wIndex = endp;
dr.wLength = 0;
return dev->controller->control(dev, FUSB_OUT, sizeof(dr), &dr, 0, NULL) < 0;
}
/**
* @name: FUsbSpeedtoDefaultMaxPacketSz
* @msg:
* @return {int}
* @param {FUsbSpeed} speed,
*/
int FUsbSpeedtoDefaultMaxPacketSz(FUsbSpeed speed)
{
switch (speed)
{
case FUSB_LOW_SPEED:
return 8;
case FUSB_FULL_SPEED:
case FUSB_HIGH_SPEED:
return 64;
case FUSB_SUPER_SPEED:
/* Intentional fallthrough */
case FUSB_SUPER_SPEED_PLUS:
default:
return 512;
}
}
/**
* @name: FUsbDecodeInterval
* @msg: USB传输间隔时间
* @return {int} , 0
* @param {FUsbSpeed} speed, USB设备速度类型
* @param {FUsbEpType} type,
* @param {unsigned char} bInterval,
*/
static int FUsbDecodeInterval(FUsbSpeed speed, const FUsbEpType type, const unsigned char bInterval)
{
/* Normalize bInterval to log2 of microframes */
#define LOG2(a) ((sizeof(unsigned) << 3) - __builtin_clz(a) - 1)
switch (speed)
{
case FUSB_LOW_SPEED:
switch (type)
{
case FUSB_ISOCHRONOUS_EP:
case FUSB_INTERRUPT_EP:
return LOG2(bInterval) + 3;
default:
return 0;
}
case FUSB_FULL_SPEED:
switch (type)
{
case FUSB_ISOCHRONOUS_EP:
return (bInterval - 1) + 3;
case FUSB_INTERRUPT_EP:
return LOG2(bInterval) + 3;
default:
return 0;
}
case FUSB_HIGH_SPEED:
switch (type)
{
case FUSB_ISOCHRONOUS_EP:
case FUSB_INTERRUPT_EP:
return bInterval - 1;
default:
return LOG2(bInterval);
}
case FUSB_SUPER_SPEED:
/* Intentional fallthrough */
case FUSB_SUPER_SPEED_PLUS:
switch (type)
{
case FUSB_ISOCHRONOUS_EP:
case FUSB_INTERRUPT_EP:
return bInterval - 1;
default:
return 0;
}
default:
return 0;
}
#undef LOG2
}
/**
* @name: FUsbSetAddress
* @msg: USB设备的描述符信息USB设备类型完成配置和初始化
* @return {FUsbDevAddr} USB设备分配的地址-1USB设备初始化失败
* @param {FUsbHc} *controller, USB控制器实例
* @param {FUsbSpeed} speed, USB设备速度类型
* @param {int} hubport, USB设备连接的Hub端口号
* @param {int} hubaddr, USB设备连接Hub的地址
*/
static FUsbDevAddr FUsbSetAddress(FUsbHc *controller, FUsbSpeed speed, int hubport, int hubaddr)
{
FASSERT(controller);
FUsbDev *dev = controller->set_address(controller, speed,
hubport, hubaddr);
FUsbDevIndex index;
FUsbDevInitHandler init_handler = NULL;
FUsb *instace = controller->usb;
FASSERT(instace);
if (NULL == dev)
{
FUSB_INFO("Set address failed.");
return FUSB_NO_DEV_ADDR;
}
FASSERT(NULL == dev->descriptor);
dev->descriptor = FUSB_ALLOCATE(instace, sizeof(*dev->descriptor), FUSB_DEFAULT_ALIGN);
if ((NULL == dev->descriptor) || FUsbGetDescriptor(dev, FUSB_DR_DESC, FUSB_DESC_TYPE_DEVICE, 0,
dev->descriptor, sizeof(*dev->descriptor)) != sizeof(*dev->descriptor))
{
FUSB_INFO("FUsbGetDescriptor(FUSB_DESC_TYPE_DEVICE) failed.");
FUsbDetachDev(controller, dev->address);
return FUSB_NO_DEV_ADDR;
}
FUSB_INFO("Found device (0x%04x:0x%04x, USB %x.%x, MPS0: %d) ",
dev->descriptor->idVendor, dev->descriptor->idProduct,
dev->descriptor->bcdUSB >> 8, dev->descriptor->bcdUSB & 0xff,
dev->endpoints[0].maxpacketsize);
FUSB_INFO("Device has %d configurations.",
dev->descriptor->bNumConfigurations);
if (dev->descriptor->bNumConfigurations == 0)
{
/* device isn't usable */
FUSB_INFO("No usable configuration!");
FUsbDetachDev(controller, dev->address);
return FUSB_NO_DEV_ADDR;
}
u16 buf[2];
if (FUsbGetDescriptor(dev, FUSB_DR_DESC, FUSB_DESC_TYPE_CONFIG, 0, buf, sizeof(buf)) != sizeof(buf))
{
FUSB_INFO("First FUsbGetDescriptor(FUSB_DESC_TYPE_CONFIG) failed.");
FUsbDetachDev(controller, dev->address);
return FUSB_NO_DEV_ADDR;
}
/* workaround for some USB devices: wait until they're ready, or
* they send a NAK when they're not allowed to do. 1ms is enough */
fsleep_millisec(1);
FASSERT(NULL == dev->configuration);
dev->configuration = FUSB_ALLOCATE(instace, buf[1], FUSB_DEFAULT_ALIGN);
if (NULL == dev->configuration)
{
FUSB_INFO("Could not allocate %d bytes for FUSB_DESC_TYPE_CONFIG.", buf[1]);
FUsbDetachDev(controller, dev->address);
return FUSB_NO_DEV_ADDR;
}
if (FUsbGetDescriptor(dev, FUSB_DR_DESC, FUSB_DESC_TYPE_CONFIG, 0, dev->configuration,
buf[1]) != buf[1])
{
FUSB_INFO("FUsbGetDescriptor(FUSB_DESC_TYPE_CONFIG) failed.");
FUsbDetachDev(controller, dev->address);
return FUSB_NO_DEV_ADDR;
}
FUsbConfigurationDescriptor *cd = dev->configuration;
if (cd->wTotalLength != buf[1])
{
FUSB_INFO("Configuration descriptor size changed, aborting.");
FUsbDetachDev(controller, dev->address);
return FUSB_NO_DEV_ADDR;
}
/*
* If the device is not well known (ifnum == -1), we use the first
* interface we encounter, as there was no need to implement something
* else for the time being. If you need it, see the SetInterface and
* GetInterface functions in the USB specification and set it yourself.
*/
FUSB_INFO("Device has %x interfaces.", cd->bNumInterfaces);
u8 *end = (void *)dev->configuration + cd->wTotalLength;
FUsbInterfaceDescriptor *intf;
u8 *ptr;
/* Find our interface (or the first good one if we don't know) */
for (ptr = (void *)dev->configuration + sizeof(*cd);; ptr += ptr[0])
{
if (ptr + 2 > end || !ptr[0] || ptr + ptr[0] > end)
{
FUSB_INFO("Couldn't find usable FUSB_DESC_TYPE_INTERFACE.");
FUsbDetachDev(controller, dev->address);
return FUSB_NO_DEV_ADDR;
}
if (ptr[1] != FUSB_DESC_TYPE_INTERFACE)
{
continue;
}
intf = (void *)ptr;
if (intf->bLength != sizeof(*intf))
{
FUSB_INFO("Skipping broken FUSB_DESC_TYPE_INTERFACE.");
continue;
}
FUSB_INFO("Interface %d: class 0x%x, sub 0x%x. proto 0x%x.",
intf->bInterfaceNumber, intf->bInterfaceClass,
intf->bInterfaceSubClass, intf->bInterfaceProtocol);
ptr += sizeof(*intf);
break;
}
/* Gather up all endpoints belonging to this interface */
dev->num_endp = 1;
for (; ptr + 2 <= end && ptr[0] && ptr + ptr[0] <= end; ptr += ptr[0])
{
if (ptr[1] == FUSB_DESC_TYPE_INTERFACE || ptr[1] == FUSB_DESC_TYPE_CONFIG ||
(size_t)dev->num_endp >= ARRAY_SIZE(dev->endpoints))
{
break;
}
if (ptr[1] != FUSB_DESC_TYPE_ENDPOINT)
{
continue;
}
FUsbEndpointDescriptor *desc = (void *)ptr;
static const char *transfertypes[4] =
{
"control", "isochronous", "bulk", "interrupt"
};
FUSB_INFO(" #Endpoint %d (%s), max packet size %x, type %s ",
desc->bEndpointAddress & 0x7f,
(desc->bEndpointAddress & 0x80) ? "in" : "out",
desc->wMaxPacketSize,
transfertypes[desc->bmAttributes & 0x3]);
FUsbEndpoint *ep = &dev->endpoints[dev->num_endp++];
ep->dev = dev;
ep->endpoint = desc->bEndpointAddress;
ep->toggle = 0;
ep->maxpacketsize = desc->wMaxPacketSize;
ep->direction = (desc->bEndpointAddress & 0x80) ? FUSB_IN : FUSB_OUT;
ep->type = desc->bmAttributes & 0x3;
ep->interval = FUsbDecodeInterval(dev->speed, ep->type,
desc->bInterval);
}
if ((controller->finish_device_config &&
controller->finish_device_config(dev)) ||
FUsbSetConfiguration(dev) < 0)
{
FUSB_INFO("Could not finalize device configuration. ");
FUsbDetachDev(controller, dev->address);
return FUSB_NO_DEV_ADDR;
}
int class = dev->descriptor->bDeviceClass;
if (class == 0)
{
class = intf->bInterfaceClass;
}
switch (class)
{
case FUSB_AUDIO_DEVICE:
FUSB_INFO("Audio Class ");
break;
case FUSB_COMM_DEVICE:
FUSB_INFO("Communication Class ");
break;
case FUSB_HID_DEVICE:
FUSB_INFO("HID Class ");
break;
case FUSB_PHYSICAL_DEVICE:
FUSB_INFO("Physical Class");
break;
case FUSB_IMAGE_DEVICE:
FUSB_INFO("Camera Class ");
break;
case FUSB_PRINTER_DEVICE:
FUSB_INFO("Printer Class");
break;
case FUSB_MASS_STORAGE_DEVICE:
FUSB_INFO("Mass Storage Class ");
break;
case FUSB_HUB_DEVICE:
FUSB_INFO("Hub Class ");
break;
default:
FUSB_ERROR("Unsupported Class %x ", class);
break;
}
index.category = FUSB_STANDARD_INTERFACE;
index.class = class;
index.sub_class = intf->bInterfaceSubClass;
index.protocol = intf->bInterfaceProtocol;
FUSB_INFO("Class: 0x%x sub-class: 0x%x, protocol: 0x%x.",
index.class, index.sub_class, index.protocol);
init_handler = FUsbFindValidInitFunc(instace, &index);
if (NULL != init_handler)
{
dev->init = init_handler;
dev->class = (FUsbDevClass)class;
}
else
{
FUSB_WARN("Init function for the device not found, use generic one instead !!!");
dev->init = FUsbGenericDevInit;
}
return dev->address;
}
/**
* @name: FUsbDetachDev
* @msg: USB主机移除指定USB设备(USB设备驱动使用)
* @return {*}
* @param {FUsbHc} *controller, USB控制器实例
* @param {int} devno, USB设备索引
* @note Should be called by the hub drivers whenever a physical detach occurs
* and can be called by USB class drivers if they are unsatisfied with a
* malfunctioning device.
*/
void FUsbDetachDev(FUsbHc *controller, int devno)
{
FUsb *instace = controller->usb;
/* check if device exists, as we may have
been called yet by the USB class driver */
if (controller->devices[devno])
{
controller->devices[devno]->destroy(controller->devices[devno]);
if (controller->destroy_device)
{
controller->destroy_device(controller, devno);
}
FUSB_FREE(instace, controller->devices[devno]->descriptor);
controller->devices[devno]->descriptor = NULL;
FUSB_FREE(instace, controller->devices[devno]->configuration);
controller->devices[devno]->configuration = NULL;
/* Tear down the device itself *after* destroy_device()
* has had a chance to interrogate it. */
FUSB_FREE(instace, controller->devices[devno]);
controller->devices[devno] = NULL;
}
return;
}
/**
* @name: FUsbAttachDev
* @msg: USB主机添加USB设备(USB设备驱动使用)
* @return {FUsbDevAddr} USB设备地址
* @param {FUsbHc} *controller, USB控制器实例
* @param {int} hubaddress, Hub地址
* @param {int} port, Port
* @param {FUsbSpeed} speed, USB设备的设置速度类型
*/
FUsbDevAddr FUsbAttachDev(FUsbHc *controller, int hubaddress, int port, FUsbSpeed speed)
{
static const char *speeds[] = {"FULL", "LOW", "HIGH", "SUPER", "ULTRA-SUPER"};
FUSB_INFO("%s-Speed Device ", ((size_t)speed < sizeof(speeds) / sizeof(char *))
? speeds[speed]
: "Unkonwn");
FUsbDevAddr newdev = FUsbSetAddress(controller, speed, port, hubaddress);
if (newdev == FUSB_NO_DEV_ADDR)
{
return FUSB_NO_DEV_ADDR;
}
FUsbDev *newdev_t = controller->devices[newdev];
/* determine responsible driver - current done in set_address */
newdev_t->init(newdev_t);
/* init() may have called FUsbDetachDev() yet, so check */
return controller->devices[newdev] ? newdev : FUSB_NO_DEV_ADDR;
}
/**
* @name: FUsbGenericDestory
* @msg: USB设备去初始化函数
* @return {*}
* @param {FUsbDev} *dev, USB设备实例
*/
static void FUsbGenericDestory(FUsbDev *dev)
{
if (FUsbGenericRemove)
{
FUsbGenericRemove(dev);
}
return;
}
/**
* @name: FUsbGenericDevInit
* @msg: USB设备初始化函数
* @return {*}
* @param {FUsbDev} *dev, USB设备实例
*/
void FUsbGenericDevInit(FUsbDev *dev)
{
dev->data = NULL;
dev->destroy = FUsbGenericDestory;
if (FUsbGenericCreate)
{
FUsbGenericCreate(dev);
}
if (dev->data == NULL)
{
FUSB_INFO("Detaching device not used by payload.");
FUsbDetachDev(dev->controller, dev->address);
}
return;
}