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1422 1423 1424 1425 1426 1427 1428 1429 1430 1431 1432 1433 1434 1435 1436 1437 1438 1439 1440 1441 1442 | /* * LPCUSB, an USB device driver for LPC microcontrollers * Copyright (C) 2006 Bertrik Sikken (bertrik@sikken.nl) * Copyright (c) 2016 Intel Corporation * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * 3. The name of the author may not be used to endorse or promote products * derived from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ /** * @file * @brief USB device core layer * * This module handles control transfer handler, standard request handler and * USB Interface for customer application. * * Control transfers handler is normally installed on the * endpoint 0 callback. * * Control transfers can be of the following type: * 0 Standard; * 1 Class; * 2 Vendor; * 3 Reserved. * * A callback can be installed for each of these control transfers using * usb_register_request_handler. * When an OUT request arrives, data is collected in the data store provided * with the usb_register_request_handler call. When the transfer is done, the * callback is called. * When an IN request arrives, the callback is called immediately to either * put the control transfer data in the data store, or to get a pointer to * control transfer data. The data is then packetized and sent to the host. * * Standard request handler handles the 'chapter 9' processing, specifically * the standard device requests in table 9-3 from the universal serial bus * specification revision 2.0 */ #include <errno.h> #include <stddef.h> #include <sys/util.h> #include <sys/__assert.h> #include <init.h> #include <drivers/gpio.h> #include <sys/byteorder.h> #include <usb/usb_device.h> #include <usb/usbstruct.h> #include <usb/usb_common.h> #include <usb_descriptor.h> #define LOG_LEVEL CONFIG_USB_DEVICE_LOG_LEVEL #include <logging/log.h> LOG_MODULE_REGISTER(usb_device); #include <usb/bos.h> #include <os_desc.h> #include "usb_transfer.h" #define MAX_DESC_HANDLERS 4 /** Device, interface, endpoint, other */ /* general descriptor field offsets */ #define DESC_bLength 0 /** Length offset */ #define DESC_bDescriptorType 1 /** Descriptor type offset */ /* config descriptor field offsets */ #define CONF_DESC_wTotalLength 2 /** Total length offset */ #define CONF_DESC_bConfigurationValue 5 /** Configuration value offset */ #define CONF_DESC_bmAttributes 7 /** configuration characteristics */ /* interface descriptor field offsets */ #define INTF_DESC_bInterfaceNumber 2 /** Interface number offset */ #define INTF_DESC_bAlternateSetting 3 /** Alternate setting offset */ /* endpoint descriptor field offsets */ #define ENDP_DESC_bEndpointAddress 2 /** Endpoint address offset */ #define ENDP_DESC_bmAttributes 3 /** Bulk or interrupt? */ #define ENDP_DESC_wMaxPacketSize 4 /** Maximum packet size offset */ #define MAX_NUM_REQ_HANDLERS 4 #define MAX_STD_REQ_MSG_SIZE 8 /* Default USB control EP, always 0 and 0x80 */ #define USB_CONTROL_OUT_EP0 0 #define USB_CONTROL_IN_EP0 0x80 /* Linker-defined symbols bound the USB descriptor structs */ extern struct usb_cfg_data __usb_data_start[]; extern struct usb_cfg_data __usb_data_end[]; K_MUTEX_DEFINE(usb_enable_lock); static struct usb_dev_priv { /** Setup packet */ struct usb_setup_packet setup; /** Pointer to data buffer */ u8_t *data_buf; /** Remaining bytes in buffer */ s32_t data_buf_residue; /** Total length of control transfer */ s32_t data_buf_len; /** Zero length packet flag of control transfer */ bool zlp_flag; /** Installed custom request handler */ usb_request_handler custom_req_handler; /** USB stack status callback */ usb_dc_status_callback status_callback; /** USB user status callback */ usb_dc_status_callback user_status_callback; /** Pointer to registered descriptors */ const u8_t *descriptors; /** Array of installed request handler callbacks */ usb_request_handler req_handlers[MAX_NUM_REQ_HANDLERS]; /* Buffer used for storing standard, class and vendor request data */ u8_t req_data[CONFIG_USB_REQUEST_BUFFER_SIZE]; /** Variable to check whether the usb has been enabled */ bool enabled; /** Variable to check whether the usb has been configured */ bool configured; /** Currently selected configuration */ u8_t configuration; /** Remote wakeup feature status */ bool remote_wakeup; } usb_dev; /* * @brief print the contents of a setup packet * * @param [in] setup The setup packet * */ static void usb_print_setup(struct usb_setup_packet *setup) { /* avoid compiler warning if LOG_DBG is not defined */ ARG_UNUSED(setup); LOG_DBG("Setup: %x %x %x %x %x", setup->bmRequestType, setup->bRequest, sys_le16_to_cpu(setup->wValue), sys_le16_to_cpu(setup->wIndex), sys_le16_to_cpu(setup->wLength)); } /* * @brief handle a request by calling one of the installed request handlers * * Local function to handle a request by calling one of the installed request * handlers. In case of data going from host to device, the data is at *ppbData. * In case of data going from device to host, the handler can either choose to * write its data at *ppbData or update the data pointer. * * @param [in] setup The setup packet * @param [in,out] len Pointer to data length * @param [in,out] data Data buffer * * @return true if the request was handles successfully */ static bool usb_handle_request(struct usb_setup_packet *setup, s32_t *len, u8_t **data) { u32_t type = REQTYPE_GET_TYPE(setup->bmRequestType); usb_request_handler handler = usb_dev.req_handlers[type]; if (type >= MAX_NUM_REQ_HANDLERS) { LOG_DBG("Error Incorrect iType %d", type); return false; } if (handler == NULL) { LOG_DBG("No handler for reqtype %d", type); return false; } if ((*handler)(setup, len, data) < 0) { LOG_DBG("Handler Error %d", type); usb_print_setup(setup); return false; } return true; } /* * @brief send next chunk of data (possibly 0 bytes) to host * * @return N/A */ static void usb_data_to_host(u16_t len) { if (usb_dev.zlp_flag == false) { u32_t chunk = usb_dev.data_buf_residue; /*Always EP0 for control*/ usb_write(USB_CONTROL_IN_EP0, usb_dev.data_buf, usb_dev.data_buf_residue, &chunk); usb_dev.data_buf += chunk; usb_dev.data_buf_residue -= chunk; #ifndef CONFIG_USB_DEVICE_DISABLE_ZLP_EPIN_HANDLING /* * Set ZLP flag when host asks for a bigger length and the * last chunk is wMaxPacketSize long, to indicate the last * packet. */ if (!usb_dev.data_buf_residue && len > usb_dev.data_buf_len) { /* Send less data as requested during the Setup stage */ if (!(usb_dev.data_buf_len % USB_MAX_CTRL_MPS)) { /* Transfers a zero-length packet */ LOG_DBG("ZLP, requested %u , length %u ", len, usb_dev.data_buf_len); usb_dev.zlp_flag = true; } } #endif } else { usb_dev.zlp_flag = false; usb_dc_ep_write(USB_CONTROL_IN_EP0, NULL, 0, NULL); } } /* * @brief handle IN/OUT transfers on EP0 * * @param [in] ep Endpoint address * @param [in] ep_status Endpoint status * * @return N/A */ static void usb_handle_control_transfer(u8_t ep, enum usb_dc_ep_cb_status_code ep_status) { u32_t chunk = 0U; struct usb_setup_packet *setup = &usb_dev.setup; LOG_DBG("ep 0x%02x, status 0x%02x", ep, ep_status); if (ep == USB_CONTROL_OUT_EP0 && ep_status == USB_DC_EP_SETUP) { u16_t length; /* * OUT transfer, Setup packet, * reset request message state machine */ if (usb_dc_ep_read(ep, (u8_t *)setup, sizeof(*setup), NULL) < 0) { LOG_DBG("Read Setup Packet failed"); usb_dc_ep_set_stall(USB_CONTROL_IN_EP0); return; } length = sys_le16_to_cpu(setup->wLength); if (length > CONFIG_USB_REQUEST_BUFFER_SIZE) { if (REQTYPE_GET_DIR(setup->bmRequestType) != REQTYPE_DIR_TO_HOST) { LOG_ERR("Request buffer too small"); usb_dc_ep_set_stall(USB_CONTROL_IN_EP0); usb_dc_ep_set_stall(USB_CONTROL_OUT_EP0); return; } } usb_dev.data_buf = usb_dev.req_data; usb_dev.data_buf_residue = length; usb_dev.data_buf_len = length; usb_dev.zlp_flag = false; if (length && REQTYPE_GET_DIR(setup->bmRequestType) == REQTYPE_DIR_TO_DEVICE) { return; } /* Ask installed handler to process request */ if (!usb_handle_request(setup, &usb_dev.data_buf_len, &usb_dev.data_buf)) { LOG_DBG("usb_handle_request failed"); usb_dc_ep_set_stall(USB_CONTROL_IN_EP0); return; } /* Send smallest of requested and offered length */ usb_dev.data_buf_residue = MIN(usb_dev.data_buf_len, length); /* Send first part (possibly a zero-length status message) */ usb_data_to_host(length); } else if (ep == USB_CONTROL_OUT_EP0) { /* OUT transfer, data or status packets */ if (usb_dev.data_buf_residue <= 0) { /* absorb zero-length status message */ if (usb_dc_ep_read(USB_CONTROL_OUT_EP0, usb_dev.data_buf, 0, &chunk) < 0) { LOG_DBG("Read DATA Packet failed"); usb_dc_ep_set_stall(USB_CONTROL_IN_EP0); } return; } if (usb_dc_ep_read(USB_CONTROL_OUT_EP0, usb_dev.data_buf, usb_dev.data_buf_residue, &chunk) < 0) { LOG_DBG("Read DATA Packet failed"); usb_dc_ep_set_stall(USB_CONTROL_IN_EP0); usb_dc_ep_set_stall(USB_CONTROL_OUT_EP0); return; } usb_dev.data_buf += chunk; usb_dev.data_buf_residue -= chunk; if (usb_dev.data_buf_residue == 0) { /* Received all, send data to handler */ usb_dev.data_buf = usb_dev.req_data; if (!usb_handle_request(setup, &usb_dev.data_buf_len, &usb_dev.data_buf)) { LOG_DBG("usb_handle_request1 failed"); usb_dc_ep_set_stall(USB_CONTROL_IN_EP0); return; } /*Send status to host*/ LOG_DBG(">> usb_data_to_host(2)"); usb_data_to_host(sys_le16_to_cpu(setup->wLength)); } } else if (ep == USB_CONTROL_IN_EP0) { /* Send more data if available */ if (usb_dev.data_buf_residue != 0 || usb_dev.zlp_flag == true) { usb_data_to_host(sys_le16_to_cpu(setup->wLength)); } } else { __ASSERT_NO_MSG(false); } } /* * @brief register a callback for handling requests * * @param [in] type Type of request, e.g. REQTYPE_TYPE_STANDARD * @param [in] handler Callback function pointer * * @return N/A */ static void usb_register_request_handler(s32_t type, usb_request_handler handler) { usb_dev.req_handlers[type] = handler; } /* * @brief register a pointer to a descriptor block * * This function registers a pointer to a descriptor block containing all * descriptors for the device. * * @param [in] usb_descriptors The descriptor byte array */ static void usb_register_descriptors(const u8_t *usb_descriptors) { usb_dev.descriptors = usb_descriptors; } /* * @brief get specified USB descriptor * * This function parses the list of installed USB descriptors and attempts * to find the specified USB descriptor. * * @param [in] type_index Type and index of the descriptor * @param [in] lang_id Language ID of the descriptor (currently unused) * @param [out] len Descriptor length * @param [out] data Descriptor data * * @return true if the descriptor was found, false otherwise */ static bool usb_get_descriptor(u16_t type_index, u16_t lang_id, s32_t *len, u8_t **data) { u8_t type = 0U; u8_t index = 0U; u8_t *p = NULL; s32_t cur_index = 0; bool found = false; /*Avoid compiler warning until this is used for something*/ ARG_UNUSED(lang_id); type = GET_DESC_TYPE(type_index); index = GET_DESC_INDEX(type_index); /* * Invalid types of descriptors, * see USB Spec. Revision 2.0, 9.4.3 Get Descriptor */ if ((type == USB_INTERFACE_DESC) || (type == USB_ENDPOINT_DESC) || (type > USB_OTHER_SPEED)) { return false; } p = (u8_t *)usb_dev.descriptors; cur_index = 0; while (p[DESC_bLength] != 0U) { if (p[DESC_bDescriptorType] == type) { if (cur_index == index) { found = true; break; } cur_index++; } /* skip to next descriptor */ p += p[DESC_bLength]; } if (found) { /* set data pointer */ *data = p; /* get length from structure */ if (type == USB_CONFIGURATION_DESC) { /* configuration descriptor is an * exception, length is at offset * 2 and 3 */ *len = (p[CONF_DESC_wTotalLength]) | (p[CONF_DESC_wTotalLength + 1] << 8); } else { /* normally length is at offset 0 */ *len = p[DESC_bLength]; } } else { /* nothing found */ LOG_DBG("Desc %x not found!", type_index); } return found; } /* * @brief configure and enable endpoint * * This function sets endpoint configuration according to one specified in USB * endpoint descriptor and then enables it for data transfers. * * @param [in] ep_desc Endpoint descriptor byte array * * @return true if successfully configured and enabled */ static bool set_endpoint(const struct usb_ep_descriptor *ep_desc) { struct usb_dc_ep_cfg_data ep_cfg; int ret; ep_cfg.ep_addr = ep_desc->bEndpointAddress; ep_cfg.ep_mps = sys_le16_to_cpu(ep_desc->wMaxPacketSize); ep_cfg.ep_type = ep_desc->bmAttributes & USB_EP_TRANSFER_TYPE_MASK; LOG_DBG("Set endpoint 0x%x type %u MPS %u", ep_cfg.ep_addr, ep_cfg.ep_type, ep_cfg.ep_mps); ret = usb_dc_ep_configure(&ep_cfg); if (ret == -EALREADY) { LOG_WRN("Endpoint 0x%02x already configured", ep_cfg.ep_addr); } else if (ret) { LOG_ERR("Failed to configure endpoint 0x%02x", ep_cfg.ep_addr); return false; } ret = usb_dc_ep_enable(ep_cfg.ep_addr); if (ret == -EALREADY) { LOG_WRN("Endpoint 0x%02x already enabled", ep_cfg.ep_addr); } else if (ret) { LOG_ERR("Failed to enable endpoint 0x%02x", ep_cfg.ep_addr); return false; } usb_dev.configured = true; return true; } /* * @brief Disable endpoint for transferring data * * This function cancels transfers that are associated with endpoint and * disabled endpoint itself. * * @param [in] ep_desc Endpoint descriptor byte array * * @return true if successfully deconfigured and disabled */ static bool reset_endpoint(const struct usb_ep_descriptor *ep_desc) { struct usb_dc_ep_cfg_data ep_cfg; int ret; ep_cfg.ep_addr = ep_desc->bEndpointAddress; ep_cfg.ep_type = ep_desc->bmAttributes & USB_EP_TRANSFER_TYPE_MASK; LOG_DBG("Reset endpoint 0x%02x type %u", ep_cfg.ep_addr, ep_cfg.ep_type); usb_cancel_transfer(ep_cfg.ep_addr); ret = usb_dc_ep_disable(ep_cfg.ep_addr); if (ret == -EALREADY) { LOG_WRN("Endpoint 0x%02x already disabled", ep_cfg.ep_addr); } else if (ret) { LOG_ERR("Failed to disable endpoint 0x%02x", ep_cfg.ep_addr); return false; } return true; } static bool usb_eps_reconfigure(struct usb_ep_descriptor *ep_desc, u8_t cur_alt_setting, u8_t alt_setting) { bool ret; if (cur_alt_setting != alt_setting) { LOG_DBG("Disable endpoint 0x%02x", ep_desc->bEndpointAddress); ret = reset_endpoint(ep_desc); } else { LOG_DBG("Enable endpoint 0x%02x", ep_desc->bEndpointAddress); ret = set_endpoint(ep_desc); } return ret; } /* * @brief set USB configuration * * This function configures the device according to the specified configuration * index and alternate setting by parsing the installed USB descriptor list. * A configuration index of 0 unconfigures the device. * * @param [in] config_index Configuration index * @param [in] alt_setting Alternate setting number * * @return true if successfully configured false if error or unconfigured */ static bool usb_set_configuration(u8_t config_index, u8_t alt_setting) { u8_t *p = (u8_t *)usb_dev.descriptors; u8_t cur_alt_setting = 0xFF; u8_t cur_config = 0xFF; bool found = false; if (config_index == 0U) { /* TODO: unconfigure device */ LOG_DBG("Device not configured - invalid configuration"); return true; } /* configure endpoints for this configuration/altsetting */ while (p[DESC_bLength] != 0U) { switch (p[DESC_bDescriptorType]) { case USB_CONFIGURATION_DESC: /* remember current configuration index */ cur_config = p[CONF_DESC_bConfigurationValue]; if (cur_config == config_index) { found = true; } break; case USB_INTERFACE_DESC: /* remember current alternate setting */ cur_alt_setting = p[INTF_DESC_bAlternateSetting]; break; case USB_ENDPOINT_DESC: if ((cur_config != config_index) || (cur_alt_setting != alt_setting)) { break; } found = set_endpoint((struct usb_ep_descriptor *)p); break; default: break; } /* skip to next descriptor */ p += p[DESC_bLength]; } if (usb_dev.status_callback) { usb_dev.status_callback(USB_DC_CONFIGURED, &config_index); } return found; } /* * @brief set USB interface * * @param [in] iface Interface index * @param [in] alt_setting Alternate setting number * * @return true if successfully configured false if error or unconfigured */ static bool usb_set_interface(u8_t iface, u8_t alt_setting) { const u8_t *p = usb_dev.descriptors; const u8_t *if_desc = NULL; struct usb_ep_descriptor *ep; u8_t cur_alt_setting = 0xFF; u8_t cur_iface = 0xFF; bool ret = false; LOG_DBG("iface %u alt_setting %u", iface, alt_setting); while (p[DESC_bLength] != 0U) { switch (p[DESC_bDescriptorType]) { case USB_INTERFACE_DESC: /* remember current alternate setting */ cur_alt_setting = p[INTF_DESC_bAlternateSetting]; cur_iface = p[INTF_DESC_bInterfaceNumber]; if (cur_iface == iface && cur_alt_setting == alt_setting) { if_desc = (void *)p; } LOG_DBG("Current iface %u alt setting %u", cur_iface, cur_alt_setting); break; case USB_ENDPOINT_DESC: if (cur_iface == iface) { ep = (struct usb_ep_descriptor *)p; ret = usb_eps_reconfigure(ep, cur_alt_setting, alt_setting); } break; default: break; } /* skip to next descriptor */ p += p[DESC_bLength]; } if (usb_dev.status_callback) { usb_dev.status_callback(USB_DC_INTERFACE, if_desc); } return ret; } /* * @brief handle a standard device request * * @param [in] setup The setup packet * @param [in,out] len Pointer to data length * @param [in,out] data_buf Data buffer * * @return true if the request was handled successfully */ static bool usb_handle_std_device_req(struct usb_setup_packet *setup, s32_t *len, u8_t **data_buf) { u16_t value = sys_le16_to_cpu(setup->wValue); u16_t index = sys_le16_to_cpu(setup->wIndex); bool ret = true; u8_t *data = *data_buf; switch (setup->bRequest) { case REQ_GET_STATUS: LOG_DBG("REQ_GET_STATUS"); /* bit 0: self-powered */ /* bit 1: remote wakeup */ data[0] = 0U; data[1] = 0U; if (IS_ENABLED(CONFIG_USB_DEVICE_REMOTE_WAKEUP)) { data[0] |= (usb_dev.remote_wakeup ? DEVICE_STATUS_REMOTE_WAKEUP : 0); } *len = 2; break; case REQ_SET_ADDRESS: LOG_DBG("REQ_SET_ADDRESS, addr 0x%x", value); usb_dc_set_address(value); break; case REQ_GET_DESCRIPTOR: LOG_DBG("REQ_GET_DESCRIPTOR"); ret = usb_get_descriptor(value, index, len, data_buf); break; case REQ_GET_CONFIGURATION: LOG_DBG("REQ_GET_CONFIGURATION"); /* indicate if we are configured */ data[0] = usb_dev.configuration; *len = 1; break; case REQ_SET_CONFIGURATION: value &= 0xFF; LOG_DBG("REQ_SET_CONFIGURATION, conf 0x%x", value); if (!usb_set_configuration(value, 0)) { LOG_DBG("USB Set Configuration failed"); ret = false; } else { /* configuration successful, * update current configuration */ usb_dev.configuration = value; } break; case REQ_CLEAR_FEATURE: LOG_DBG("REQ_CLEAR_FEATURE"); ret = false; if (IS_ENABLED(CONFIG_USB_DEVICE_REMOTE_WAKEUP)) { if (value == FEA_REMOTE_WAKEUP) { usb_dev.remote_wakeup = false; ret = true; } } break; case REQ_SET_FEATURE: LOG_DBG("REQ_SET_FEATURE"); ret = false; if (IS_ENABLED(CONFIG_USB_DEVICE_REMOTE_WAKEUP)) { if (value == FEA_REMOTE_WAKEUP) { usb_dev.remote_wakeup = true; ret = true; } } if (value == FEA_TEST_MODE) { /* put TEST_MODE code here */ } break; case REQ_SET_DESCRIPTOR: LOG_DBG("Device req %x not implemented", setup->bRequest); ret = false; break; default: LOG_DBG("Illegal device req %x", setup->bRequest); ret = false; break; } return ret; } /* * @brief handle a standard interface request * * @param [in] setup The setup packet * @param [in,out] len Pointer to data length * @param [in] data_buf Data buffer * * @return true if the request was handled successfully */ static bool usb_handle_std_interface_req(struct usb_setup_packet *setup, s32_t *len, u8_t **data_buf) { u8_t *data = *data_buf; switch (setup->bRequest) { case REQ_GET_STATUS: /* no bits specified */ data[0] = 0U; data[1] = 0U; *len = 2; break; case REQ_CLEAR_FEATURE: case REQ_SET_FEATURE: /* not defined for interface */ return false; case REQ_GET_INTERFACE: /* there is only one interface, return n-1 (= 0) */ data[0] = 0U; *len = 1; break; case REQ_SET_INTERFACE: LOG_DBG("REQ_SET_INTERFACE"); usb_set_interface(sys_le16_to_cpu(setup->wIndex), sys_le16_to_cpu(setup->wValue)); *len = 0; break; default: LOG_DBG("Illegal interface req %d", setup->bRequest); return false; } return true; } /* * @brief handle a standard endpoint request * * @param [in] setup The setup packet * @param [in,out] len Pointer to data length * @param [in] data_buf Data buffer * * @return true if the request was handled successfully */ static bool usb_handle_std_endpoint_req(struct usb_setup_packet *setup, s32_t *len, u8_t **data_buf) { u8_t ep = sys_le16_to_cpu(setup->wIndex); u8_t *data = *data_buf; switch (setup->bRequest) { case REQ_GET_STATUS: /* bit 0 = endpointed halted or not */ usb_dc_ep_is_stalled(ep, &data[0]); data[1] = 0U; *len = 2; break; case REQ_CLEAR_FEATURE: if (sys_le16_to_cpu(setup->wValue) == FEA_ENDPOINT_HALT) { /* clear HALT by unstalling */ LOG_INF("... EP clear halt %x", ep); usb_dc_ep_clear_stall(ep); if (usb_dev.status_callback) { usb_dev.status_callback(USB_DC_CLEAR_HALT, &ep); } break; } /* only ENDPOINT_HALT defined for endpoints */ return false; case REQ_SET_FEATURE: if (sys_le16_to_cpu(setup->wValue) == FEA_ENDPOINT_HALT) { /* set HALT by stalling */ LOG_INF("--- EP SET halt %x", ep); usb_dc_ep_set_stall(ep); if (usb_dev.status_callback) { usb_dev.status_callback(USB_DC_SET_HALT, &ep); } break; } /* only ENDPOINT_HALT defined for endpoints */ return false; case REQ_SYNCH_FRAME: LOG_DBG("EP req %d not implemented", setup->bRequest); return false; default: LOG_DBG("Illegal EP req %d", setup->bRequest); return false; } return true; } /* * @brief default handler for standard ('chapter 9') requests * * If a custom request handler was installed, this handler is called first. * * @param [in] setup The setup packet * @param [in,out] len Pointer to data length * @param [in] data_buf Data buffer * * @return true if the request was handled successfully */ static int usb_handle_standard_request(struct usb_setup_packet *setup, s32_t *len, u8_t **data_buf) { int rc = 0; if (!usb_handle_bos(setup, len, data_buf)) { return 0; } if (!usb_handle_os_desc(setup, len, data_buf)) { return 0; } /* try the custom request handler first */ if (usb_dev.custom_req_handler && !usb_dev.custom_req_handler(setup, len, data_buf)) { return 0; } switch (REQTYPE_GET_RECIP(setup->bmRequestType)) { case REQTYPE_RECIP_DEVICE: if (usb_handle_std_device_req(setup, len, data_buf) == false) { rc = -EINVAL; } break; case REQTYPE_RECIP_INTERFACE: if (usb_handle_std_interface_req(setup, len, data_buf) == false) { rc = -EINVAL; } break; case REQTYPE_RECIP_ENDPOINT: if (usb_handle_std_endpoint_req(setup, len, data_buf) == false) { rc = -EINVAL; } break; default: rc = -EINVAL; } return rc; } /* * @brief Registers a callback for custom device requests * * In usb_register_custom_req_handler, the custom request handler gets a first * chance at handling the request before it is handed over to the 'chapter 9' * request handler. * * This can be used for example in HID devices, where a REQ_GET_DESCRIPTOR * request is sent to an interface, which is not covered by the 'chapter 9' * specification. * * @param [in] handler Callback function pointer */ static void usb_register_custom_req_handler(usb_request_handler handler) { usb_dev.custom_req_handler = handler; } /* * @brief register a callback for device status * * This function registers a callback for device status. The registered callback * is used to report changes in the status of the device controller. * * @param [in] cb Callback function pointer */ static void usb_register_status_callback(usb_dc_status_callback cb) { usb_dev.status_callback = cb; } static int foreach_ep(int (* endpoint_callback)(const struct usb_ep_cfg_data *)) { size_t size = (__usb_data_end - __usb_data_start); for (size_t i = 0; i < size; i++) { struct usb_cfg_data *cfg = &__usb_data_start[i]; struct usb_ep_cfg_data *ep_data = cfg->endpoint; for (u8_t n = 0; n < cfg->num_endpoints; n++) { int ret; ret = endpoint_callback(&ep_data[n]); if (ret < 0) { return ret; } } } return 0; } static int disable_interface_ep(const struct usb_ep_cfg_data *ep_data) { return usb_dc_ep_disable(ep_data->ep_addr); } static void forward_status_cb(enum usb_dc_status_code status, const u8_t *param) { size_t size = (__usb_data_end - __usb_data_start); if (status == USB_DC_DISCONNECTED || status == USB_DC_SUSPEND) { if (usb_dev.configured) { usb_cancel_transfers(); if (status == USB_DC_DISCONNECTED) { foreach_ep(disable_interface_ep); usb_dev.configured = false; } } } for (size_t i = 0; i < size; i++) { struct usb_cfg_data *cfg = &__usb_data_start[i]; if (cfg->cb_usb_status) { cfg->cb_usb_status(cfg, status, param); } } if (usb_dev.user_status_callback) { usb_dev.user_status_callback(status, param); } } /** * @brief turn on/off USB VBUS voltage * * To utilize this in the devicetree the chosen node should have a * zephyr,usb-device property that points to the usb device controller node. * Additionally the usb device controller node should have a vbus-gpios * property that has the GPIO details. * * Something like: * * chosen { * zephyr,usb-device = &usbd; * }; * * usbd: usbd { * vbus-gpios = <&gpio1 5 GPIO_ACTIVE_HIGH>; * }; * * @param on Set to false to turn off and to true to turn on VBUS * * @return 0 on success, negative errno code on fail */ static int usb_vbus_set(bool on) { #define USB_DEV_NODE DT_CHOSEN(zephyr_usb_device) #if DT_HAS_NODE_STATUS_OKAY(USB_DEV_NODE) && \ DT_NODE_HAS_PROP(USB_DEV_NODE, vbus_gpios) int ret = 0; struct device *gpio_dev; gpio_dev = device_get_binding(DT_LABEL(USB_DEV_NODE)); if (!gpio_dev) { LOG_DBG("USB requires GPIO. Cannot find %s!", DT_LABEL(USB_DEV_NODE)); return -ENODEV; } /* Enable USB IO */ ret = gpio_pin_configure(gpio_dev, DT_GPIO_PIN(USB_DEV_NODE, vbus_gpios), GPIO_OUTPUT | DT_GPIO_FLAGS(USB_DEV_NODE, vbus_gpios)); if (ret) { return ret; } ret = gpio_pin_set(gpio_dev, DT_GPIO_PIN(USB_DEV_NODE, vbus_gpios), on == true ? 1 : 0); if (ret) { return ret; } #endif return 0; } int usb_deconfig(void) { /* unregister descriptors */ usb_register_descriptors(NULL); /* unegister standard request handler */ usb_register_request_handler(REQTYPE_TYPE_STANDARD, NULL); /* unregister class request handlers for each interface*/ usb_register_request_handler(REQTYPE_TYPE_CLASS, NULL); /* unregister class request handlers for each interface*/ usb_register_custom_req_handler(NULL); /* unregister status callback */ usb_register_status_callback(NULL); /* unregister user status callback */ usb_dev.user_status_callback = NULL; /* Reset USB controller */ usb_dc_reset(); return 0; } int usb_disable(void) { int ret; if (usb_dev.enabled != true) { /*Already disabled*/ return 0; } ret = usb_dc_detach(); if (ret < 0) { return ret; } /* Disable VBUS if needed */ usb_vbus_set(false); usb_dev.enabled = false; return 0; } int usb_write(u8_t ep, const u8_t *data, u32_t data_len, u32_t *bytes_ret) { int tries = CONFIG_USB_NUMOF_EP_WRITE_RETRIES; int ret; do { ret = usb_dc_ep_write(ep, data, data_len, bytes_ret); if (ret == -EAGAIN) { LOG_WRN("Failed to write endpoint buffer 0x%02x", ep); k_yield(); } } while (ret == -EAGAIN && tries--); return ret; } int usb_read(u8_t ep, u8_t *data, u32_t max_data_len, u32_t *ret_bytes) { return usb_dc_ep_read(ep, data, max_data_len, ret_bytes); } int usb_ep_set_stall(u8_t ep) { return usb_dc_ep_set_stall(ep); } int usb_ep_clear_stall(u8_t ep) { return usb_dc_ep_clear_stall(ep); } int usb_ep_read_wait(u8_t ep, u8_t *data, u32_t max_data_len, u32_t *ret_bytes) { return usb_dc_ep_read_wait(ep, data, max_data_len, ret_bytes); } int usb_ep_read_continue(u8_t ep) { return usb_dc_ep_read_continue(ep); } int usb_wakeup_request(void) { if (IS_ENABLED(CONFIG_USB_DEVICE_REMOTE_WAKEUP)) { if (usb_dev.remote_wakeup) { return usb_dc_wakeup_request(); } return -EACCES; } else { return -ENOTSUP; } } /* * The functions class_handler(), custom_handler() and vendor_handler() * go through the interfaces one after the other and compare the * bInterfaceNumber with the wIndex and and then call the appropriate * callback of the USB function. * Note, a USB function can have more than one interface and the * request does not have to be directed to the first interface (unlikely). * These functions can be simplified and moved to usb_handle_request() * when legacy initialization throgh the usb_set_config() and * usb_enable() is no longer needed. */ static int class_handler(struct usb_setup_packet *pSetup, s32_t *len, u8_t **data) { size_t size = (__usb_data_end - __usb_data_start); const struct usb_if_descriptor *if_descr; struct usb_interface_cfg_data *iface; LOG_DBG("bRequest 0x%x, wIndex 0x%x", pSetup->bRequest, sys_le16_to_cpu(pSetup->wIndex)); for (size_t i = 0; i < size; i++) { iface = &(__usb_data_start[i].interface); if_descr = __usb_data_start[i].interface_descriptor; /* * Wind forward until it is within the range * of the current descriptor. */ if ((u8_t *)if_descr < usb_dev.descriptors) { continue; } if ((iface->class_handler) && (if_descr->bInterfaceNumber == (sys_le16_to_cpu(pSetup->wIndex) & 0xFF))) { return iface->class_handler(pSetup, len, data); } } return -ENOTSUP; } static int custom_handler(struct usb_setup_packet *pSetup, s32_t *len, u8_t **data) { size_t size = (__usb_data_end - __usb_data_start); const struct usb_if_descriptor *if_descr; struct usb_interface_cfg_data *iface; LOG_DBG("bRequest 0x%x, wIndex 0x%x", pSetup->bRequest, sys_le16_to_cpu(pSetup->wIndex)); for (size_t i = 0; i < size; i++) { iface = &(__usb_data_start[i].interface); if_descr = __usb_data_start[i].interface_descriptor; /* * Wind forward until it is within the range * of the current descriptor. */ if ((u8_t *)if_descr < usb_dev.descriptors) { continue; } /* An exception for AUDIO_CLASS is temporary and shall not be * considered as valid solution for other classes. */ if (iface->custom_handler && (if_descr->bInterfaceNumber == sys_le16_to_cpu(pSetup->wIndex) || if_descr->bInterfaceClass == AUDIO_CLASS)) { return iface->custom_handler(pSetup, len, data); } } return -ENOTSUP; } static int vendor_handler(struct usb_setup_packet *pSetup, s32_t *len, u8_t **data) { size_t size = (__usb_data_end - __usb_data_start); struct usb_interface_cfg_data *iface; LOG_DBG("bRequest 0x%x, wIndex 0x%x", pSetup->bRequest, sys_le16_to_cpu(pSetup->wIndex)); if (usb_os_desc_enabled()) { if (!usb_handle_os_desc_feature(pSetup, len, data)) { return 0; } } for (size_t i = 0; i < size; i++) { iface = &(__usb_data_start[i].interface); if (iface->vendor_handler) { if (!iface->vendor_handler(pSetup, len, data)) { return 0; } } } return -ENOTSUP; } static int composite_setup_ep_cb(void) { size_t size = (__usb_data_end - __usb_data_start); struct usb_ep_cfg_data *ep_data; for (size_t i = 0; i < size; i++) { ep_data = __usb_data_start[i].endpoint; for (u8_t n = 0; n < __usb_data_start[i].num_endpoints; n++) { LOG_DBG("set cb, ep: 0x%x", ep_data[n].ep_addr); if (usb_dc_ep_set_callback(ep_data[n].ep_addr, ep_data[n].ep_cb)) { return -1; } } } return 0; } int usb_set_config(const u8_t *device_descriptor) { /* register descriptors */ usb_register_descriptors(device_descriptor); /* register standard request handler */ usb_register_request_handler(REQTYPE_TYPE_STANDARD, usb_handle_standard_request); /* register class request handlers for each interface*/ usb_register_request_handler(REQTYPE_TYPE_CLASS, class_handler); /* register vendor request handler */ usb_register_request_handler(REQTYPE_TYPE_VENDOR, vendor_handler); /* register class request handlers for each interface*/ usb_register_custom_req_handler(custom_handler); return 0; } int usb_enable(usb_dc_status_callback status_cb) { int ret; struct usb_dc_ep_cfg_data ep0_cfg; /* Prevent from calling usb_enable form different contex. * This should only be called once. */ LOG_DBG("lock usb_enable_lock mutex"); k_mutex_lock(&usb_enable_lock, K_FOREVER); if (usb_dev.enabled == true) { ret = 0; goto out; } /* Enable VBUS if needed */ ret = usb_vbus_set(true); if (ret < 0) { goto out; } usb_dev.user_status_callback = status_cb; usb_register_status_callback(forward_status_cb); usb_dc_set_status_callback(forward_status_cb); ret = usb_dc_attach(); if (ret < 0) { goto out; } ret = usb_transfer_init(); if (ret < 0) { goto out; } /* Configure control EP */ ep0_cfg.ep_mps = USB_MAX_CTRL_MPS; ep0_cfg.ep_type = USB_DC_EP_CONTROL; ep0_cfg.ep_addr = USB_CONTROL_OUT_EP0; ret = usb_dc_ep_configure(&ep0_cfg); if (ret < 0) { goto out; } ep0_cfg.ep_addr = USB_CONTROL_IN_EP0; ret = usb_dc_ep_configure(&ep0_cfg); if (ret < 0) { goto out; } /* Register endpoint 0 handlers*/ ret = usb_dc_ep_set_callback(USB_CONTROL_OUT_EP0, usb_handle_control_transfer); if (ret < 0) { goto out; } ret = usb_dc_ep_set_callback(USB_CONTROL_IN_EP0, usb_handle_control_transfer); if (ret < 0) { goto out; } /* Register endpoint handlers*/ ret = composite_setup_ep_cb(); if (ret < 0) { goto out; } /* Enable control EP */ ret = usb_dc_ep_enable(USB_CONTROL_OUT_EP0); if (ret < 0) { goto out; } ret = usb_dc_ep_enable(USB_CONTROL_IN_EP0); if (ret < 0) { goto out; } usb_dev.enabled = true; ret = 0; out: LOG_DBG("unlock usb_enable_lock mutex"); k_mutex_unlock(&usb_enable_lock); return ret; } /* * This function configures the USB device stack based on USB descriptor and * usb_cfg_data. */ static int usb_device_init(struct device *dev) { u8_t *device_descriptor; if (usb_dev.enabled == true) { return 0; } /* register device descriptor */ device_descriptor = usb_get_device_descriptor(); if (!device_descriptor) { LOG_ERR("Failed to configure USB device stack"); return -1; } usb_set_config(device_descriptor); return 0; } SYS_INIT(usb_device_init, POST_KERNEL, CONFIG_KERNEL_INIT_PRIORITY_DEVICE); |