/* * Copyright (c) 2010 Matus Dekanek * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * - Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * - 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. * - 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. */ /** @addtogroup libusb usb * @{ */ /** @file * @brief Hub driver. */ #include #include #include #include #include #include #include #include #include "usbhub.h" #include "usbhub_private.h" #include "port_status.h" size_t USB_HUB_MAX_DESCRIPTOR_SIZE = 71; //********************************************* // // various utils // //********************************************* //hub descriptor utils void * usb_serialize_hub_descriptor(usb_hub_descriptor_t * descriptor) { //base size size_t size = 7; //variable size according to port count size_t var_size = descriptor->ports_count / 8 + ((descriptor->ports_count % 8 > 0) ? 1 : 0); size += 2 * var_size; uint8_t * result = (uint8_t*) malloc(size); //size result[0] = size; //descriptor type result[1] = USB_DESCTYPE_HUB; result[2] = descriptor->ports_count; /// @fixme handling of endianness?? result[3] = descriptor->hub_characteristics / 256; result[4] = descriptor->hub_characteristics % 256; result[5] = descriptor->pwr_on_2_good_time; result[6] = descriptor->current_requirement; size_t i; for (i = 0; i < var_size; ++i) { result[7 + i] = descriptor->devices_removable[i]; } for (i = 0; i < var_size; ++i) { result[7 + var_size + i] = 255; } return result; } usb_hub_descriptor_t * usb_deserialize_hub_desriptor(void * serialized_descriptor) { uint8_t * sdescriptor = (uint8_t*) serialized_descriptor; if (sdescriptor[1] != USB_DESCTYPE_HUB) { printf("[usb_hub] wrong descriptor %x\n",sdescriptor[1]); return NULL; } usb_hub_descriptor_t * result = usb_new(usb_hub_descriptor_t); result->ports_count = sdescriptor[2]; /// @fixme handling of endianness?? result->hub_characteristics = sdescriptor[4] + 256 * sdescriptor[3]; result->pwr_on_2_good_time = sdescriptor[5]; result->current_requirement = sdescriptor[6]; size_t var_size = result->ports_count / 8 + ((result->ports_count % 8 > 0) ? 1 : 0); result->devices_removable = (uint8_t*) malloc(var_size); //printf("[usb_hub] getting removable devices data \n"); size_t i; for (i = 0; i < var_size; ++i) { result->devices_removable[i] = sdescriptor[7 + i]; } return result; } //control transactions int usb_drv_sync_control_read( int phone, usb_target_t target, usb_device_request_setup_packet_t * request, void * rcvd_buffer, size_t rcvd_size, size_t * actual_size ) { usb_handle_t handle; int opResult; //setup opResult = usb_drv_async_control_read_setup(phone, target, request, sizeof (usb_device_request_setup_packet_t), &handle); if (opResult != EOK) { return opResult; } opResult = usb_drv_async_wait_for(handle); if (opResult != EOK) { return opResult; } //read opResult = usb_drv_async_control_read_data(phone, target, rcvd_buffer, rcvd_size, actual_size, &handle); if (opResult != EOK) { return opResult; } opResult = usb_drv_async_wait_for(handle); if (opResult != EOK) { return opResult; } //finalize opResult = usb_drv_async_control_read_status(phone, target, &handle); if (opResult != EOK) { return opResult; } opResult = usb_drv_async_wait_for(handle); if (opResult != EOK) { return opResult; } return EOK; } int usb_drv_sync_control_write( int phone, usb_target_t target, usb_device_request_setup_packet_t * request, void * sent_buffer, size_t sent_size ) { usb_handle_t handle; int opResult; //setup opResult = usb_drv_async_control_write_setup(phone, target, request, sizeof (usb_device_request_setup_packet_t), &handle); if (opResult != EOK) { return opResult; } opResult = usb_drv_async_wait_for(handle); if (opResult != EOK) { return opResult; } //write opResult = usb_drv_async_control_write_data(phone, target, sent_buffer, sent_size, &handle); if (opResult != EOK) { return opResult; } opResult = usb_drv_async_wait_for(handle); if (opResult != EOK) { return opResult; } //finalize opResult = usb_drv_async_control_write_status(phone, target, &handle); if (opResult != EOK) { return opResult; } opResult = usb_drv_async_wait_for(handle); if (opResult != EOK) { return opResult; } return EOK; } //list implementation usb_general_list_t * usb_lst_create(void) { usb_general_list_t* result = usb_new(usb_general_list_t); usb_lst_init(result); return result; } void usb_lst_init(usb_general_list_t * lst) { lst->prev = lst; lst->next = lst; lst->data = NULL; } void usb_lst_prepend(usb_general_list_t* item, void* data) { usb_general_list_t* appended = usb_new(usb_general_list_t); appended->data = data; appended->next = item; appended->prev = item->prev; item->prev->next = appended; item->prev = appended; } void usb_lst_append(usb_general_list_t* item, void* data) { usb_general_list_t* appended = usb_new(usb_general_list_t); appended->data = data; appended->next = item->next; appended->prev = item; item->next->prev = appended; item->next = appended; } void usb_lst_remove(usb_general_list_t* item) { item->next->prev = item->prev; item->prev->next = item->next; } static void usb_hub_test_port_status(void) { printf("[usb_hub] -------------port status test---------\n"); usb_port_status_t status = 0; //printf("original status %d (should be 0)\n",(uint32_t)status); usb_port_set_bit(&status, 1, 1); //printf("%d =?= 2\n",(uint32_t)status); if (status != 2) { printf("[usb_port_status] test failed: wrong set of bit 1\n"); return; } usb_port_set_bit(&status, 3, 1); if (status != 10) { printf("[usb_port_status] test failed: wrong set of bit 3\n"); return; } usb_port_set_bit(&status, 15, 1); if (status != 10 + (1 << 15)) { printf("[usb_port_status] test failed: wrong set of bit 15\n"); return; } usb_port_set_bit(&status, 1, 0); if (status != 8 + (1 << 15)) { printf("[usb_port_status] test failed: wrong unset of bit 1\n"); return; } int i; for (i = 0; i < 32; ++i) { if (i == 3 || i == 15) { if (!usb_port_get_bit(&status, i)) { printf("[usb_port_status] test failed: wrong bit at %d\n", i); } } else { if (usb_port_get_bit(&status, i)) { printf("[usb_port_status] test failed: wrong bit at %d\n", i); } } } printf("test ok\n"); //printf("%d =?= 10\n",(uint32_t)status); //printf("this should be 0: %d \n",usb_port_get_bit(&status,0)); //printf("this should be 1: %d \n",usb_port_get_bit(&status,1)); //printf("this should be 0: %d \n",usb_port_get_bit(&status,2)); //printf("this should be 1: %d \n",usb_port_get_bit(&status,3)); //printf("this should be 0: %d \n",usb_port_get_bit(&status,4)); } //********************************************* // // hub driver code, initialization // //********************************************* usb_hub_info_t * usb_create_hub_info(device_t * device, int hc) { usb_hub_info_t* result = usb_new(usb_hub_info_t); //result->device = device; result->port_count = -1; /// \TODO is this correct? is the device stored? result->device = device; //printf("[usb_hub] phone to hc = %d\n", hc); if (hc < 0) { return result; } //get some hub info usb_address_t addr = usb_drv_get_my_address(hc, device); printf("[usb_hub] addres of newly created hub = %d\n", addr); /*if(addr<0){ //return result; }*/ result->usb_device = usb_new(usb_hcd_attached_device_info_t); result->usb_device->address = addr; // get hub descriptor usb_target_t target; target.address = addr; target.endpoint = 0; usb_device_request_setup_packet_t request; //printf("[usb_hub] creating descriptor request\n"); usb_hub_set_descriptor_request(&request); //printf("[usb_hub] creating serialized descriptor\n"); void * serialized_descriptor = malloc(USB_HUB_MAX_DESCRIPTOR_SIZE); usb_hub_descriptor_t * descriptor; size_t received_size; int opResult; //printf("[usb_hub] starting control transaction\n"); opResult = usb_drv_sync_control_read( hc, target, &request, serialized_descriptor, USB_HUB_MAX_DESCRIPTOR_SIZE, &received_size); if (opResult != EOK) { printf("[usb_hub] failed when receiving hub descriptor, badcode = %d\n",opResult); ///\TODO memory leak will occur here! return result; } //printf("[usb_hub] deserializing descriptor\n"); descriptor = usb_deserialize_hub_desriptor(serialized_descriptor); if(descriptor==NULL){ printf("[usb_hub] could not deserialize descriptor \n"); result->port_count = 1;///\TODO this code is only for debug!!! return result; } //printf("[usb_hub] setting port count to %d\n",descriptor->ports_count); result->port_count = descriptor->ports_count; result->attached_devs = (usb_hub_attached_device_t*) malloc(result->port_count * sizeof(usb_hub_attached_device_t)); int i; for(i=0;iport_count;++i){ result->attached_devs[i].devman_handle=0; result->attached_devs[i].address=0; } //printf("[usb_hub] freeing data\n"); free(serialized_descriptor); free(descriptor->devices_removable); free(descriptor); //finish printf("[usb_hub] hub info created\n"); return result; } int usb_add_hub_device(device_t *dev) { printf(NAME ": add_hub_device(handle=%d)\n", (int) dev->handle); printf("[usb_hub] hub device\n"); /* * We are some (probably deeply nested) hub. * Thus, assign our own operations and explore already * connected devices. */ //create the hub structure //get hc connection /// \TODO correct params int hc = usb_drv_hc_connect(dev, 0); usb_hub_info_t * hub_info = usb_create_hub_info(dev, hc); int port; int opResult; usb_device_request_setup_packet_t request; usb_target_t target; target.address = hub_info->usb_device->address; target.endpoint = 0; //get configuration descriptor // this is not fully correct - there are more configurations // and all should be checked usb_standard_device_descriptor_t std_descriptor; opResult = usb_drv_req_get_device_descriptor(hc, target.address, &std_descriptor); if(opResult!=EOK){ printf("[usb_hub] could not get device descriptor, %d\n",opResult); return 1;///\TODO some proper error code needed } printf("[usb_hub] hub has %d configurations\n",std_descriptor.configuration_count); if(std_descriptor.configuration_count<1){ printf("[usb_hub] THERE ARE NO CONFIGURATIONS AVAILABLE\n"); } usb_standard_configuration_descriptor_t config_descriptor; opResult = usb_drv_req_get_bare_configuration_descriptor(hc, target.address, 0, &config_descriptor); if(opResult!=EOK){ printf("[usb_hub] could not get configuration descriptor, %d\n",opResult); return 1;///\TODO some proper error code needed } //set configuration request.request_type = 0; request.request = USB_DEVREQ_SET_CONFIGURATION; request.index=0; request.length=0; request.value_high=0; request.value_low = config_descriptor.configuration_number; opResult = usb_drv_sync_control_write(hc, target, &request, NULL, 0); if (opResult != EOK) { printf("[usb_hub]something went wrong when setting hub`s configuration, %d\n", opResult); } for (port = 0; port < hub_info->port_count; ++port) { usb_hub_set_power_port_request(&request, port); opResult = usb_drv_sync_control_write(hc, target, &request, NULL, 0); if (opResult != EOK) { printf("[usb_hub]something went wrong when setting hub`s %dth port\n", port); } } //ports powered, hub seems to be enabled ipc_hangup(hc); //add the hub to list usb_lst_append(&usb_hub_list, hub_info); printf("[usb_hub] hub info added to list\n"); //(void)hub_info; usb_hub_check_hub_changes(); /// \TODO start the check loop, if not already started... //this is just a test for port status bitmap type usb_hub_test_port_status(); printf("[usb_hub] hub dev added\n"); printf("\taddress %d, has %d ports \n", hub_info->usb_device->address, hub_info->port_count); printf("\tused configuration %d\n",config_descriptor.configuration_number); return EOK; //return ENOTSUP; } //********************************************* // // hub driver code, main loop // //********************************************* /** * reset the port with new device and reserve the default address * @param hc * @param port * @param target */ static void usb_hub_init_add_device(int hc, uint16_t port, usb_target_t target) { usb_device_request_setup_packet_t request; int opResult; printf("[usb_hub] some connection changed\n"); //get default address opResult = usb_drv_reserve_default_address(hc); if (opResult != EOK) { printf("[usb_hub] cannot assign default address, it is probably used\n"); return; } //reset port usb_hub_set_reset_port_request(&request, port); opResult = usb_drv_sync_control_write( hc, target, &request, NULL, 0 ); if (opResult != EOK) { //continue; printf("[usb_hub] something went wrong when reseting a port\n"); } } /** * finalize adding new device after port reset * @param hc * @param port * @param target */ static void usb_hub_finalize_add_device( usb_hub_info_t * hub, int hc, uint16_t port, usb_target_t target) { usb_device_request_setup_packet_t request; int opResult; printf("[usb_hub] finalizing add device\n"); usb_address_t new_device_address = usb_drv_request_address(hc); usb_hub_set_set_address_request (&request, new_device_address); opResult = usb_drv_sync_control_write( hc, target, &request, NULL, 0 ); if (opResult != EOK) { printf("[usb_hub] could not set address for new device\n"); //will retry later... return; } usb_drv_release_default_address(hc); devman_handle_t child_handle; opResult = usb_drv_register_child_in_devman(hc, hub->device, new_device_address, &child_handle); if (opResult != EOK) { printf("[usb_hub] could not start driver for new device \n"); return; } hub->attached_devs[port].devman_handle = child_handle; hub->attached_devs[port].address = new_device_address; opResult = usb_drv_bind_address(hc, new_device_address, child_handle); if (opResult != EOK) { printf("[usb_hub] could not assign address of device in hcd \n"); return; } } /** * unregister device address in hc, close the port * @param hc * @param port * @param target */ static void usb_hub_removed_device( usb_hub_info_t * hub, int hc, uint16_t port, usb_target_t target) { //usb_device_request_setup_packet_t request; int opResult; //disable port /*usb_hub_set_disable_port_request(&request, port); opResult = usb_drv_sync_control_write( hc, target, &request, NULL, 0 ); if (opResult != EOK) { //continue; printf("[usb_hub] something went wrong when disabling a port\n"); }*/ /// \TODO remove device hub->attached_devs[port].devman_handle=0; //close address if(hub->attached_devs[port].address!=0){ opResult = usb_drv_release_address(hc,hub->attached_devs[port].address); if(opResult != EOK) { printf("[usb_hub] could not release address of removed device: %d\n",opResult); } hub->attached_devs[port].address = 0; }else{ printf("[usb_hub] this is strange, disconnected device had no address\n"); //device was disconnected before it`s port was reset - return default address usb_drv_release_default_address(hc); } } /** * process interrupts on given hub port * @param hc * @param port * @param target */ static void usb_hub_process_interrupt(usb_hub_info_t * hub, int hc, uint16_t port, usb_address_t address) { printf("[usb_hub] interrupt at port %d\n", port); //determine type of change usb_target_t target; target.address=address; target.endpoint=0; usb_port_status_t status; size_t rcvd_size; usb_device_request_setup_packet_t request; int opResult; usb_hub_set_port_status_request(&request, port); //endpoint 0 opResult = usb_drv_sync_control_read( hc, target, &request, &status, 4, &rcvd_size ); if (opResult != EOK) { printf("[usb_hub] ERROR: could not get port status\n"); return; } if (rcvd_size != sizeof (usb_port_status_t)) { printf("[usb_hub] ERROR: received status has incorrect size\n"); return; } //something connected/disconnected if (usb_port_connect_change(&status)) { if (usb_port_dev_connected(&status)) { printf("[usb_hub] some connection changed\n"); usb_hub_init_add_device(hc, port, target); } else { usb_hub_removed_device(hub, hc, port, target); } } //port reset if (usb_port_reset_completed(&status)) { printf("[usb_hub] finalizing add device\n"); if (usb_port_enabled(&status)) { usb_hub_finalize_add_device(hub, hc, port, target); } else { printf("[usb_hub] ERROR: port reset, but port still not enabled\n"); } } usb_port_set_connect_change(&status, false); usb_port_set_reset(&status, false); usb_port_set_reset_completed(&status, false); usb_port_set_dev_connected(&status, false); if (status) { printf("[usb_hub]there was some unsupported change on port\n"); } /// \TODO handle other changes /// \TODO debug log for various situations /* //configure device usb_drv_reserve_default_address(hc); usb_address_t new_device_address = usb_drv_request_address(hc); usb_drv_release_default_address(hc); * */ } /** Check changes on all known hubs. */ void usb_hub_check_hub_changes(void) { /* * Iterate through all hubs. */ usb_general_list_t * lst_item; for (lst_item = usb_hub_list.next; lst_item != &usb_hub_list; lst_item = lst_item->next) { printf("[usb_hub] checking hub changes\n"); usb_hub_info_t * hub_info = ((usb_hub_info_t*)lst_item->data); /* * Check status change pipe of this hub. */ usb_target_t target; target.address = hub_info->usb_device->address; target.endpoint = 1;/// \TODO get from endpoint descriptor size_t port_count = hub_info->port_count; /* * Connect to respective HC. */ int hc = usb_drv_hc_connect(hub_info->device, 0); if (hc < 0) { continue; } // FIXME: count properly size_t byte_length = (port_count / 8) + 1; void *change_bitmap = malloc(byte_length); size_t actual_size; usb_handle_t handle; /* * Send the request. */ int opResult = usb_drv_async_interrupt_in(hc, target, change_bitmap, byte_length, &actual_size, &handle); usb_drv_async_wait_for(handle); if (opResult != EOK) { printf("[usb_hub] something went wrong while getting status of hub\n"); continue; } unsigned int port; for (port = 0; port < port_count; ++port) { bool interrupt = (((uint8_t*) change_bitmap)[port / 8] >> (port % 8)) % 2; if (interrupt) { usb_hub_process_interrupt( hub_info, hc, port, hub_info->usb_device->address); } } /* * TODO: handle the changes. */ /* * WARNING: sample code, will not work out of the box. * And does not contain code for checking for errors. */ #if 0 /* * Before opening the port, we must acquire the default * address. */ usb_drv_reserve_default_address(hc); usb_address_t new_device_address = usb_drv_request_address(hc); // TODO: open the port // TODO: send request for setting address to new_device_address /* * Once new address is set, we can release the default * address. */ usb_drv_release_default_address(hc); /* * Obtain descriptors and create match ids for devman. */ // TODO: get device descriptors // TODO: create match ids // TODO: add child device // child_device_register sets the device handle // TODO: store it here devman_handle_t new_device_handle = 0; /* * Inform the HC that the new device has devman handle * assigned. */ usb_drv_bind_address(hc, new_device_address, new_device_handle); /* * That's all. */ #endif /* * Hang-up the HC-connected phone. */ ipc_hangup(hc); } } /** * @} */