/* * This file is part of the flashrom project. * * Copyright (C) 2020, Google Inc. All rights reserved. * * This program 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 2 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 * GNU General Public License for more details. */ #ifndef USB_DEVICE_H #define USB_DEVICE_H /* * USB device matching framework * * This can be used to match a USB device by a number of different parameters. * The parameters can be passed on the command line and defaults can be set * by the programmer. */ #include #include #include /* * The LIBUSB_ERROR macro converts a libusb failure code into an error code that * flashrom recognizes. It does so without displaying an error code allowing us * to compare error codes against the library enumeration values. */ #define LIBUSB_ERROR(eror_code) (0x20000 | -eror_code) /* * The LIBUSB macro converts a libusb failure code into an error code that * flashrom recognizes. It also displays additional libusb specific * information about the failure. */ #define LIBUSB(expression) \ ({ \ int libusb_error__ = (expression); \ \ if (libusb_error__ < 0) { \ msg_perr("libusb error: %s:%d %s\n", \ __FILE__, \ __LINE__, \ libusb_error_name(libusb_error__)); \ libusb_error__ = LIBUSB_ERROR(libusb_error__); \ } else { \ libusb_error__ = 0; \ } \ \ libusb_error__; \ }) /* * Returns true if the error code falls within the range of valid libusb * error codes. */ static inline bool usb_device_is_libusb_error(int error_code) { return (0x20000 <= error_code && error_code < 0x20064); } /* * A USB match and associated value struct are used to encode the information * about a device against which we wish to match. If the value of a * usb_match_value has been set then a device must match that value. The name * of the usb_match_value is used to fetch the programmer parameter from the * flashrom command line and is the same as the name of the corresponding * field in usb_match. */ struct usb_match_value { char const *name; int value; int set; }; struct usb_match { struct usb_match_value bus; struct usb_match_value address; struct usb_match_value vid; struct usb_match_value pid; struct usb_match_value serial; struct usb_match_value config; struct usb_match_value interface; struct usb_match_value altsetting; struct usb_match_value class; struct usb_match_value subclass; struct usb_match_value protocol; }; /* * Initialize a usb_match structure so that each value's name matches the * values name in the usb_match structure (so bus.name == "bus"...), and * look for each value in the flashrom command line via * extract_programmer_param. If the value is found convert it to an integer * using strtol, accepting hex, decimal and octal encoding. */ void usb_match_init(struct usb_match *match); /* * Add a default value to a usb_match_value. This must be done after calling * usb_match_init. If usb_match_init already set the value of a usb_match_value * we do nothing, otherwise set the value to default_value. This ensures that * parameters passed on the command line override defaults. */ void usb_match_value_default(struct usb_match_value *match, long int default_value); /* * The usb_device structure is an entry in a linked list of devices that were * matched by usb_device_find. */ struct usb_device { struct libusb_device *device; struct libusb_config_descriptor *config_descriptor; struct libusb_interface_descriptor const *interface_descriptor; /* * Initially NULL, the libusb_device_handle is only valid once the * usb_device has been successfully passed to usb_device_show or * usb_device_claim. */ struct libusb_device_handle *handle; /* * Link to next device, or NULL */ struct usb_device *next; }; /* * Find and return a list of all compatible devices. Each device is added to * the list with its first valid configuration and interface. If an alternate * configuration (config, interface, altsetting...) is desired the specifics * can be supplied as programmer parameters. * * Return: * 0: At least one matching device was found. * 1: No matching devices were found. */ int usb_device_find(struct usb_match const *match, struct usb_device **devices); /* * Display the devices bus and address as well as its product string. The * underlying libusb device is opened if it is not already open. * * Return: * 0: The device information was displayed. * non-zero: There was a failure while displaying the device information. */ int usb_device_show(char const *prefix, struct usb_device *device); /* * Open the underlying libusb device, set its config, claim the interface and * select the correct alternate interface. * * Return: * 0: The device was successfully claimed. * non-zero: There was a failure while trying to claim the device. */ int usb_device_claim(struct usb_device *device); /* * Free a usb_device structure. * * This ensures that the libusb device is closed and that all allocated * handles and descriptors are freed. * * Return: * The next device in the device list. */ struct usb_device *usb_device_free(struct usb_device *device); #endif /* USB_DEVICE_H */