Changeset 75732da for uspace/drv – HelenOS

uspace/drv/isa/isa.c

r84439d7	r75732da
282	282
283	283	printf(NAME ": added io range (addr=0x%x, size=0x%x) to "
284		"device %s\n", addr, len, dev->name);
	284	"device %s\n", (unsigned int) addr, (unsigned int) len,
	285	dev->name);
285	286	}
286	287	}
…	…
489	490	static int isa_add_device(device_t *dev)
490	491	{
491		printf(NAME ": isa_add_device, device handle = %d\n", dev->handle);
	492	printf(NAME ": isa_add_device, device handle = %d\n",
	493	(int) dev->handle);
492	494
493	495	/* Add child devices. */

uspace/drv/ns8250/ns8250.c

-              r84439d7
+              r75732da
         /* Gain control over port's registers. */
         if (pio_enable((void *) data->io_addr, REG_COUNT,
+        if (pio_enable((void *)(uintptr_t) data->io_addr, REG_COUNT,
             (void **) &data->port)) {
                 printf(NAME ": error - cannot gain the port %#" PRIx32 " for device "
 …
+{
         printf(NAME ": ns8250_add_device %s (handle = %d)\n",
             dev->name, dev->handle);
+            dev->name, (int) dev->handle);
         int res = ns8250_dev_initialize(dev);

uspace/drv/pciintel/pci.c

-              r84439d7
+              r75732da
                 printf(NAME ": device %s : ", dev->name);
                 printf("address = %" PRIx64, range_addr);
                 printf(", size = %x\n", range_size);
+                printf(", size = %x\n", (unsigned int) range_size);
+        }
 …
             (uint32_t) hw_resources.resources[0].res.io_range.address;
         if (pio_enable((void *)bus_data->conf_io_addr, 8,
+        if (pio_enable((void *)(uintptr_t)bus_data->conf_io_addr, 8,
             &bus_data->conf_addr_port)) {
                 printf(NAME ": failed to enable configuration ports.\n");

uspace/drv/root/root.c

-              r84439d7
+              r75732da
 /*
  * Copyright (c) 2010 Lenka Trochtova
+ * Copyright (c) 2010 Vojtech Horky
  * All rights reserved.
+ *
 …
 #define NAME "root"
+#define PLATFORM_DEVICE_NAME "hw"
+#define PLATFORM_DEVICE_MATCH_ID STRING(UARCH)
+#define PLATFORM_DEVICE_MATCH_SCORE 100
+#define VIRTUAL_DEVICE_NAME "virt"
+#define VIRTUAL_DEVICE_MATCH_ID "rootvirt"
+#define VIRTUAL_DEVICE_MATCH_SCORE 100
 static int root_add_device(device_t *dev);
 …
 };
+/** Create the device which represents the root of virtual device tree.
+ *
+ * @param parent Parent of the newly created device.
+ * @return Error code.
+ */
+static int add_virtual_root_child(device_t *parent)
+{
+        printf(NAME ": adding new child for virtual devices.\n");
+        printf(NAME ":   device node is `%s' (%d %s)\n", VIRTUAL_DEVICE_NAME,
+            VIRTUAL_DEVICE_MATCH_SCORE, VIRTUAL_DEVICE_MATCH_ID);
+        int res = child_device_register_wrapper(parent, VIRTUAL_DEVICE_NAME,
+            VIRTUAL_DEVICE_MATCH_ID, VIRTUAL_DEVICE_MATCH_SCORE,
+            NULL);
+        return res;
+}
 /** Create the device which represents the root of HW device tree.
+ *
 …
+{
         printf(NAME ": adding new child for platform device.\n");
+        printf(NAME ":   device node is `%s' (%d %s)\n", PLATFORM_DEVICE_NAME,
+            PLATFORM_DEVICE_MATCH_SCORE, PLATFORM_DEVICE_MATCH_ID);
+        int res = EOK;
+        device_t *platform = NULL;
+        match_id_t *match_id = NULL;
+        /* Create new device. */
+        platform = create_device();
+        if (NULL == platform) {
+                res = ENOMEM;
+                goto failure;
+        }
+        platform->name = "hw";
+        printf(NAME ": the new device's name is %s.\n", platform->name);
+        /* Initialize match id list. */
+        match_id = create_match_id();
+        if (NULL == match_id) {
+                res = ENOMEM;
+                goto failure;
+        }
+        /* TODO - replace this with some better solution (sysinfo ?) */
+        match_id->id = STRING(UARCH);
+        match_id->score = 100;
+        add_match_id(&platform->match_ids, match_id);
+        /* Register child device. */
+        res = child_device_register(platform, parent);
+        if (EOK != res)
+                goto failure;
+        int res = child_device_register_wrapper(parent, PLATFORM_DEVICE_NAME,
+            PLATFORM_DEVICE_MATCH_ID, PLATFORM_DEVICE_MATCH_SCORE,
+            NULL);
         return res;
-failure:
-        if (NULL != match_id)
-                match_id->id = NULL;
-        if (NULL != platform) {
-                platform->name = NULL;
-                delete_device(platform);
+        }
-        return res;
+}
-/** Create virtual USB host controller device.
- * Note that the virtual HC is actually device and driver in one
- * task.
+ *
- * @param parent Parent device.
- * @return Error code.
- */
-static int add_virtual_usb_host_controller(device_t *parent)
+{
-        printf(NAME ": adding virtual host contoller.\n");
-        int rc;
-        device_t *vhc = NULL;
-        match_id_t *match_id = NULL;
-        vhc = create_device();
-        if (vhc == NULL) {
-                rc = ENOMEM;
-                goto failure;
+        }
-        vhc->name = "vhc";
-        printf(NAME ": the new device's name is %s.\n", vhc->name);
-        /* Initialize match id list. */
-        match_id = create_match_id();
-        if (match_id == NULL) {
-                rc = ENOMEM;
-                goto failure;
+        }
-        match_id->id = "usb&hc=vhc";
-        match_id->score = 100;
-        add_match_id(&vhc->match_ids, match_id);
-        /* Register child device. */
-        rc = child_device_register(vhc, parent);
-        if (rc != EOK)
-                goto failure;
-        return EOK;
-failure:
-        if (match_id != NULL)
-                match_id->id = NULL;
-        if (vhc != NULL) {
-                vhc->name = NULL;
-                delete_device(vhc);
+        }
-        return rc;
+}
 …
             dev->handle);
+        /*
+         * Register virtual devices root.
+         * We ignore error occurrence because virtual devices shall not be
+         * vital for the system.
+         */
+        add_virtual_root_child(dev);
         /* Register root device's children. */
         int res = add_platform_child(dev);
 …
                 printf(NAME ": failed to add child device for platform.\n");
-        /* Register virtual USB host controller. */
-        int rc = add_virtual_usb_host_controller(dev);
-        if (EOK != rc) {
-                printf(NAME ": failed to add child device - virtual USB HC.\n");
+        }
         return res;
+}

uspace/drv/rootpc/Makefile

-              r84439d7
+              r75732da
 LIBS = $(LIBDRV_PREFIX)/libdrv.a
 EXTRA_CFLAGS += -I$(LIBDRV_PREFIX)/include
 BINARY = rootia32
+BINARY = rootpc
 SOURCES = \
         rootia32.c
+        rootpc.c
 include $(USPACE_PREFIX)/Makefile.common

uspace/drv/rootpc/rootpc.c

-              r84439d7
+              r75732da
 /**
  * @defgroup root_ia32 Root HW device driver for ia32 platform.
  * @brief HelenOS root HW device driver for ia32 platform.
+ * @defgroup root_pc Root HW device driver for ia32 and amd64 platform.
+ * @brief HelenOS root HW device driver for ia32 and amd64 platform.
  * @{
  */
 …
 #include <device/hw_res.h>
 #define NAME "rootia32"
 typedef struct rootia32_child_dev_data {
+#define NAME "rootpc"
+typedef struct rootpc_child_dev_data {
         hw_resource_list_t hw_resources;
 } rootia32_child_dev_data_t;
 static int rootia32_add_device(device_t *dev);
 static void root_ia32_init(void);
+} rootpc_child_dev_data_t;
+static int rootpc_add_device(device_t *dev);
+static void root_pc_init(void);
 /** The root device driver's standard operations. */
 static driver_ops_t rootia32_ops = {
         .add_device = &rootia32_add_device
+static driver_ops_t rootpc_ops = {
+        .add_device = &rootpc_add_device
 };
 /** The root device driver structure. */
 static driver_t rootia32_driver = {
+static driver_t rootpc_driver = {
         .name = NAME,
         .driver_ops = &rootia32_ops
+        .driver_ops = &rootpc_ops
 };
 …
 };
 static rootia32_child_dev_data_t pci_data = {
+static rootpc_child_dev_data_t pci_data = {
         .hw_resources = {
 ,
 …
 };
 static hw_resource_list_t *rootia32_get_child_resources(device_t *dev)
+{
         rootia32_child_dev_data_t *data;
         data = (rootia32_child_dev_data_t *) dev->driver_data;
+static hw_resource_list_t *rootpc_get_child_resources(device_t *dev)
+{
+        rootpc_child_dev_data_t *data;
+        data = (rootpc_child_dev_data_t *) dev->driver_data;
         if (NULL == data)
                 return NULL;
 …
+}
 static bool rootia32_enable_child_interrupt(device_t *dev)
+static bool rootpc_enable_child_interrupt(device_t *dev)
+{
         /* TODO */
 …
 static resource_iface_t child_res_iface = {
         &rootia32_get_child_resources,
         &rootia32_enable_child_interrupt
 };
 /* Initialized in root_ia32_init() function. */
 static device_ops_t rootia32_child_ops;
+        &rootpc_get_child_resources,
+        &rootpc_enable_child_interrupt
+};
+/* Initialized in root_pc_init() function. */
+static device_ops_t rootpc_child_ops;
 static bool
 rootia32_add_child(device_t *parent, const char *name, const char *str_match_id,
     rootia32_child_dev_data_t *drv_data)
+rootpc_add_child(device_t *parent, const char *name, const char *str_match_id,
+    rootpc_child_dev_data_t *drv_data)
+{
         printf(NAME ": adding new child device '%s'.\n", name);
 …
         /* Set provided operations to the device. */
         child->ops = &rootia32_child_ops;
+        child->ops = &rootpc_child_ops;
         /* Register child device. */
 …
+}
 static bool rootia32_add_children(device_t *dev)
+{
         return rootia32_add_child(dev, "pci0", "intel_pci", &pci_data);
+static bool rootpc_add_children(device_t *dev)
+{
+        return rootpc_add_child(dev, "pci0", "intel_pci", &pci_data);
+}
 …
  * @return              Zero on success, negative error number otherwise.
  */
+static int rootia32_add_device(device_t *dev)
+{
+        printf(NAME ": rootia32_add_device, device handle = %d\n", dev->handle);
+static int rootpc_add_device(device_t *dev)
+{
+        printf(NAME ": rootpc_add_device, device handle = %d\n",
+            (int)dev->handle);
         /* Register child devices. */
         if (!rootia32_add_children(dev)) {
+        if (!rootpc_add_children(dev)) {
                 printf(NAME ": failed to add child devices for platform "
                     "ia32.\n");
 …
+}
 static void root_ia32_init(void)
+{
         rootia32_child_ops.interfaces[HW_RES_DEV_IFACE] = &child_res_iface;
+static void root_pc_init(void)
+{
+        rootpc_child_ops.interfaces[HW_RES_DEV_IFACE] = &child_res_iface;
+}
 int main(int argc, char *argv[])
+{
         printf(NAME ": HelenOS rootia32 device driver\n");
         root_ia32_init();
         return driver_main(&rootia32_driver);
+        printf(NAME ": HelenOS rootpc device driver\n");
+        root_pc_init();
+        return driver_main(&rootpc_driver);
+}

uspace/drv/uhci/main.c

-              r84439d7
+              r75732da
  */
 #include <usb/hcdhubd.h>
+#include <usb/debug.h>
 #include <errno.h>
+#include <driver.h>
 #include "uhci.h"
 …
 static int uhci_add_device(device_t *device)
+{
+        usb_dprintf(NAME, 1, "uhci_add_device() called\n");
         device->ops = &uhci_ops;
 …
          * We need to announce the presence of our root hub.
          */
+        usb_dprintf(NAME, 2, "adding root hub\n");
         usb_hcd_add_root_hub(device);
 …
          */
         sleep(5);
+        usb_dprintf_enable(NAME, 5);
         return driver_main(&uhci_driver);

uspace/drv/uhci/transfers.c

-              r84439d7
+              r75732da
     usbhc_iface_transfer_out_callback_t callback, void *arg)
+{
         printf(NAME ": transfer OUT [%d.%d (%s); %u]\n",
+        printf(NAME ": transfer OUT [%d.%d (%s); %zu]\n",
             target.address, target.endpoint,
             usb_str_transfer_type(transfer_type),
 …
     usbhc_iface_transfer_out_callback_t callback, void *arg)
+{
         printf(NAME ": transfer SETUP [%d.%d (%s); %u]\n",
+        printf(NAME ": transfer SETUP [%d.%d (%s); %zu]\n",
             target.address, target.endpoint,
             usb_str_transfer_type(transfer_type),
 …
     usbhc_iface_transfer_in_callback_t callback, void *arg)
+{
         printf(NAME ": transfer IN [%d.%d (%s); %u]\n",
+        printf(NAME ": transfer IN [%d.%d (%s); %zu]\n",
             target.address, target.endpoint,
             usb_str_transfer_type(transfer_type),

uspace/drv/usbhub/main.c

-              r84439d7
+              r75732da
  * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
  */
+#include <usb/usbdrv.h>
 #include <driver.h>
 #include <errno.h>
+#include <async.h>
+#include <usb/usbdrv.h>
 #include "usbhub.h"
+#include "usbhub_private.h"
+usb_general_list_t usb_hub_list;
 static driver_ops_t hub_driver_ops = {
 …
 };
+int usb_hub_control_loop(void * noparam){
+        while(true){
+                usb_hub_check_hub_changes();
+                async_usleep(1000 * 1000);
+        }
+        return 0;
+}
 int main(int argc, char *argv[])
+{
+        usb_lst_init(&usb_hub_list);
+        fid_t fid = fibril_create(usb_hub_control_loop, NULL);
+        if (fid == 0) {
+                printf("%s: failed to start fibril for HUB devices\n", NAME);
+                return ENOMEM;
+        }
+        fibril_add_ready(fid);
         return driver_main(&hub_driver);
+}

uspace/drv/usbhub/usbhub.h

-              r84439d7
+              r75732da
 #define NAME "usbhub"
+int usb_add_hub_device(device_t *);
+#include "usb/hcdhubd.h"
+/** basic information about device attached to hub */
+typedef struct{
+        usb_address_t address;
+        devman_handle_t devman_handle;
+}usb_hub_attached_device_t;
+/** Information about attached hub. */
+typedef struct {
+        /** Number of ports. */
+        int port_count;
+        /** attached device handles */
+        usb_hub_attached_device_t * attached_devs;
+        /** General usb device info. */
+        usb_hcd_attached_device_info_t * usb_device;
+        /** General device info*/
+        device_t * device;
+} usb_hub_info_t;
+/**
+ * function running the hub-controlling loop.
+ * @param noparam fundtion does not need any parameters
+ */
+int usb_hub_control_loop(void * noparam);
+/** Callback when new hub device is detected.
+ *
+ * @param dev New device.
+ * @return Error code.
+ */
+int usb_add_hub_device(device_t *dev);
+/**
+ * check changes on all registered hubs
+ */
+void usb_hub_check_hub_changes(void);
+//int usb_add_hub_device(device_t *);
 #endif

uspace/drv/usbhub/usbhub.ma

r84439d7	r75732da
1	1	10 usb&hub
	2	10 usb&class=hub

uspace/drv/usbhub/utils.c

-              r84439d7
+              r75732da
  */
 #include <driver.h>
+#include <usb/devreq.h>
+#include <bool.h>
+#include <errno.h>
 #include <usbhc_iface.h>
 #include <usb/usbdrv.h>
 #include <usb/descriptor.h>
+#include <driver.h>
+#include <bool.h>
+#include <errno.h>
+#include <usb/devreq.h>
 #include <usb/classes/hub.h>
 #include "usbhub.h"
+static void check_hub_changes(void);
+#include "usbhub_private.h"
+#include "port_status.h"
 size_t USB_HUB_MAX_DESCRIPTOR_SIZE = 71;
 …
 //
 //*********************************************
+//hub descriptor utils
 void * usb_serialize_hub_descriptor(usb_hub_descriptor_t * descriptor) {
 …
 usb_hub_descriptor_t * usb_deserialize_hub_desriptor(void * serialized_descriptor) {
         uint8_t * sdescriptor = (uint8_t*) serialized_descriptor;
+        if (sdescriptor[1] != USB_DESCTYPE_HUB) return NULL;
+        usb_hub_descriptor_t * result = (usb_hub_descriptor_t*) malloc(sizeof (usb_hub_descriptor_t));
+        //uint8_t size = sdescriptor[0];
+        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??
 …
         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) {
 …
+}
+//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
+//  hub driver code, initialization
 //
 //*********************************************
+usb_hcd_hub_info_t * usb_create_hub_info(device_t * device) {
+        usb_hcd_hub_info_t* result = (usb_hcd_hub_info_t*) malloc(sizeof (usb_hcd_hub_info_t));
+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+1) * sizeof(usb_hub_attached_device_t));
+        int i;
+        for(i=0;i<result->port_count+1;++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;
+}
-/** Callback when new hub device is detected.
+ *
- * @param dev New device.
- * @return Error code.
- */
 int usb_add_hub_device(device_t *dev) {
         printf(NAME ": add_hub_device(handle=%d)\n", (int) dev->handle);
+        check_hub_changes();
+        printf("[usb_hub] hub device\n");
         /*
 …
         //create the hub structure
+        usb_hcd_hub_info_t * hub_info = usb_create_hub_info(dev);
+        (void)hub_info;
+        //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 = 1; port < hub_info->port_count+1; ++port) {
+                usb_hub_set_power_port_request(&request, port);
+                opResult = usb_drv_sync_control_write(hc, target, &request, NULL, 0);
+                printf("[usb_hub] powering port %d\n",port);
+                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;
 …
+}
+//*********************************************
+//
+//  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) {
+        int opResult;
+        printf("[usb_hub] finalizing add device\n");
+        opResult = usb_hub_clear_port_feature(hc, target.address,
+            port, USB_HUB_FEATURE_C_PORT_RESET);
+        if (opResult != EOK) {
+                goto release;
+        }
+        /* Request address at from host controller. */
+        usb_address_t new_device_address = usb_drv_request_address(hc);
+        if (new_device_address < 0) {
+                printf("[usb_hub] failed to get free USB address\n");
+                opResult = new_device_address;
+                goto release;
+        }
+        printf("[usb_hub] setting new address\n");
+        opResult = usb_drv_req_set_address(hc, USB_ADDRESS_DEFAULT,
+            new_device_address);
+        if (opResult != EOK) {
+                printf("[usb_hub] could not set address for new device\n");
+                goto release;
+        }
+release:
+        printf("[usb_hub] releasing default address\n");
+        usb_drv_release_default_address(hc);
+        if (opResult != EOK) {
+                return;
+        }
+        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;
+        }
+        printf("[usb_hub] new device address %d, handle %d\n",
+            new_device_address, child_handle);
+}
+/**
+ * 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)) {
+                opResult = usb_hub_clear_port_feature(hc, target.address,
+                    port, USB_HUB_FEATURE_C_PORT_CONNECTION);
+                // TODO: check opResult
+                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] port reset complete\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 %d\n",port);
+        }
+        /// \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.
  */
 static void check_hub_changes(void) {
+void usb_hub_check_hub_changes(void) {
         /*
          * Iterate through all hubs.
          */
+        for (; false; ) {
+        usb_general_list_t * lst_item;
+        for (lst_item = usb_hub_list.next;
+                        lst_item != &usb_hub_list;
+                        lst_item = lst_item->next) {
+                usb_hub_info_t * hub_info = ((usb_hub_info_t*)lst_item->data);
                 /*
                  * Check status change pipe of this hub.
                  */
+                usb_target_t target = {
+                        .address = 5,
+                        .endpoint = 1
+                };
+                size_t port_count = 7;
+                usb_target_t target;
+                target.address = hub_info->usb_device->address;
+                target.endpoint = 1;/// \TODO get from endpoint descriptor
+                printf("[usb_hub] checking changes for hub at addr %d\n",
+                    target.address);
+                size_t port_count = hub_info->port_count;
                 /*
                  * Connect to respective HC.
                  */
                 int hc = usb_drv_hc_connect(NULL, 0);
+                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;
+                size_t byte_length = ((port_count+1) / 8) + 1;
                 void *change_bitmap = malloc(byte_length);
 …
                 /*
                  * Send the request.
+                 * FIXME: check returned value for possible errors
+                 */
+                usb_drv_async_interrupt_in(hc, target,
+                 */
+                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 = 1; port < port_count+1; ++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);
+                        }
+                }
                 /*

uspace/drv/usbkbd/main.c

-              r84439d7
+              r75732da
 #include <usb/usbdrv.h>
 #include <driver.h>
+#include <ipc/driver.h>
 #include <errno.h>
+#include <fibril.h>
+#include <usb/classes/hid.h>
+#include <usb/classes/hidparser.h>
+#include <usb/devreq.h>
+#include <usb/descriptor.h>
 #define BUFFER_SIZE 32
+/* Call this periodically to check keyboard status changes. */
+static void poll_keyboard(device_t *dev)
+#define NAME "usbkbd"
+#define GUESSED_POLL_ENDPOINT 1
+/*
+ * Callbacks for parser
+ */
+static void usbkbd_process_keycodes(const uint16_t *key_codes, size_t count,
+                                    void *arg)
+{
+}
+/*
+ * Kbd functions
+ */
+static int usbkbd_parse_descriptors(usb_hid_dev_kbd_t *kbd_dev,
+                                    const uint8_t *data, size_t size)
+{
+//      const uint8_t *pos = data;
+//      // get the configuration descriptor (should be first)
+//      if (*pos != sizeof(usb_standard_configuration_descriptor_t)
+//          || *(pos + 1) != USB_DESCTYPE_CONFIGURATION) {
+//              fprintf(stderr, "Wrong format of configuration descriptor");
+//              return EINVAL;
+//      }
+//      usb_standard_configuration_descriptor_t config_descriptor;
+//      memcpy(&config_descriptor, pos,
+//          sizeof(usb_standard_configuration_descriptor_t));
+//      pos += sizeof(usb_standard_configuration_descriptor_t);
+//      // parse other descriptors
+//      while (pos - data < size) {
+//              //uint8_t desc_size = *pos;
+//              uint8_t desc_type = *(pos + 1);
+//              switch (desc_type) {
+//              case USB_DESCTYPE_INTERFACE:
+//                      break;
+//              case USB_DESCTYPE_ENDPOINT:
+//                      break;
+//              case USB_DESCTYPE_HID:
+//                      break;
+//              case USB_DESCTYPE_HID_REPORT:
+//                      break;
+//              case USB_DESCTYPE_HID_PHYSICAL:
+//                      break;
+//              }
+//      }
+        return EOK;
+}
+static int usbkbd_get_descriptors(usb_hid_dev_kbd_t *kbd_dev)
+{
+        // get the first configuration descriptor (TODO: or some other??)
+        usb_standard_configuration_descriptor_t config_desc;
+        int rc = usb_drv_req_get_bare_configuration_descriptor(
+            kbd_dev->device->parent_phone, kbd_dev->address, 0, &config_desc);
+        if (rc != EOK) {
+                return rc;
+        }
+        // prepare space for all underlying descriptors
+        uint8_t *descriptors = (uint8_t *)malloc(config_desc.total_length);
+        if (descriptors == NULL) {
+                return ENOMEM;
+        }
+        size_t transferred = 0;
+        // get full configuration descriptor
+        rc = usb_drv_req_get_full_configuration_descriptor(
+            kbd_dev->device->parent_phone, kbd_dev->address, 0, descriptors,
+            config_desc.total_length, &transferred);
+        if (rc != EOK) {
+                return rc;
+        }
+        if (transferred != config_desc.total_length) {
+                return ELIMIT;
+        }
+        rc = usbkbd_parse_descriptors(kbd_dev, descriptors, transferred);
+        free(descriptors);
+        return rc;
+}
+static usb_hid_dev_kbd_t *usbkbd_init_device(device_t *dev)
+{
+        usb_hid_dev_kbd_t *kbd_dev = (usb_hid_dev_kbd_t *)malloc(
+                        sizeof(usb_hid_dev_kbd_t));
+        if (kbd_dev == NULL) {
+                fprintf(stderr, NAME ": No memory!\n");
+                return NULL;
+        }
+        kbd_dev->device = dev;
+        // get phone to my HC and save it as my parent's phone
+        // TODO: maybe not a good idea if DDF will use parent_phone
+        kbd_dev->device->parent_phone = usb_drv_hc_connect(dev, 0);
+        kbd_dev->address = usb_drv_get_my_address(dev->parent_phone,
+            dev);
+        // doesn't matter now that we have no address
+//      if (kbd_dev->address < 0) {
+//              fprintf(stderr, NAME ": No device address!\n");
+//              free(kbd_dev);
+//              return NULL;
+//      }
+        // default endpoint
+        kbd_dev->poll_endpoint = GUESSED_POLL_ENDPOINT;
+        /*
+         * will need all descriptors:
+         * 1) choose one configuration from configuration descriptors
+         *    (set it to the device)
+         * 2) set endpoints from endpoint descriptors
+         */
+        // TODO: get descriptors
+        usbkbd_get_descriptors(kbd_dev);
+        // TODO: parse descriptors and save endpoints
+        return kbd_dev;
+}
+static void usbkbd_process_interrupt_in(usb_hid_dev_kbd_t *kbd_dev,
+                                        uint8_t *buffer, size_t actual_size)
+{
+        /*
+         * here, the parser will be called, probably with some callbacks
+         * now only take last 6 bytes and process, i.e. send to kbd
+         */
+        usb_hid_report_in_callbacks_t *callbacks =
+            (usb_hid_report_in_callbacks_t *)malloc(
+                sizeof(usb_hid_report_in_callbacks_t));
+        callbacks->keyboard = usbkbd_process_keycodes;
+        usb_hid_parse_report(kbd_dev->parser, buffer, actual_size, callbacks,
+            NULL);
+}
+static void usbkbd_poll_keyboard(usb_hid_dev_kbd_t *kbd_dev)
+{
         int rc;
         usb_handle_t handle;
         char buffer[BUFFER_SIZE];
+        uint8_t buffer[BUFFER_SIZE];
         size_t actual_size;
         usb_endpoint_t poll_endpoint = 1;
         usb_address_t my_address = usb_drv_get_my_address(dev->parent_phone,
             dev);
         if (my_address < 0) {
                 return;
+        }
+        //usb_endpoint_t poll_endpoint = 1;
+//      usb_address_t my_address = usb_drv_get_my_address(dev->parent_phone,
+//          dev);
+//      if (my_address < 0) {
+//              return;
+//      }
         usb_target_t poll_target = {
                 .address = my_address,
                 .endpoint = poll_endpoint
+                .address = kbd_dev->address,
+                .endpoint = kbd_dev->poll_endpoint
         };
+        rc = usb_drv_async_interrupt_in(dev->parent_phone, poll_target,
+            buffer, BUFFER_SIZE, &actual_size, &handle);
+        if (rc != EOK) {
+                return;
+        }
+        rc = usb_drv_async_wait_for(handle);
+        if (rc != EOK) {
+                return;
+        }
+        /*
+         * If the keyboard answered with NAK, it returned no data.
+         * This implies that no change happened since last query.
+         */
+        if (actual_size == 0) {
+                return;
+        }
+        /*
+         * Process pressed keys.
+         */
+}
+static int add_kbd_device(device_t *dev)
+        while (true) {
+                async_usleep(1000 * 1000);
+                rc = usb_drv_async_interrupt_in(kbd_dev->device->parent_phone,
+                    poll_target, buffer, BUFFER_SIZE, &actual_size, &handle);
+                if (rc != EOK) {
+                        continue;
+                }
+                rc = usb_drv_async_wait_for(handle);
+                if (rc != EOK) {
+                        continue;
+                }
+                /*
+                 * If the keyboard answered with NAK, it returned no data.
+                 * This implies that no change happened since last query.
+                 */
+                if (actual_size == 0) {
+                        continue;
+                }
+                /*
+                 * TODO: Process pressed keys.
+                 */
+                usbkbd_process_interrupt_in(kbd_dev, buffer, actual_size);
+        }
+        // not reached
+        assert(0);
+}
+static int usbkbd_fibril_device(void *arg)
+{
+        printf("!!! USB device fibril\n");
+        if (arg == NULL) {
+                printf("No device!\n");
+                return -1;
+        }
+        device_t *dev = (device_t *)arg;
+        // initialize device (get and process descriptors, get address, etc.)
+        usb_hid_dev_kbd_t *kbd_dev = usbkbd_init_device(dev);
+        usbkbd_poll_keyboard(kbd_dev);
+        return EOK;
+}
+static int usbkbd_add_device(device_t *dev)
+{
         /* For now, fail immediately. */
         return ENOTSUP;
+        //return ENOTSUP;
         /*
          * When everything is okay, connect to "our" HC.
+         */
+        int phone = usb_drv_hc_connect(dev, 0);
+        if (phone < 0) {
+                /*
+                 * Connecting to HC failed, roll-back and announce
+                 * failure.
+                 */
+                return phone;
+        }
+        dev->parent_phone = phone;
+        /*
+         * Just for fun ;-).
+         */
+        poll_keyboard(dev);
+         *
+         * Not supported yet, skip..
+         */
+//      int phone = usb_drv_hc_connect(dev, 0);
+//      if (phone < 0) {
+//              /*
+//               * Connecting to HC failed, roll-back and announce
+//               * failure.
+//               */
+//              return phone;
+//      }
+//      dev->parent_phone = phone;
+        /*
+         * Create new fibril for handling this keyboard
+         */
+        fid_t fid = fibril_create(usbkbd_fibril_device, dev);
+        if (fid == 0) {
+                printf("%s: failed to start fibril for HID device\n", NAME);
+                return ENOMEM;
+        }
+        fibril_add_ready(fid);
         /*
 …
 static driver_ops_t kbd_driver_ops = {
         .add_device = add_kbd_device,
+        .add_device = usbkbd_add_device,
 };
 static driver_t kbd_driver = {
         .name = "usbkbd",
+        .name = NAME,
         .driver_ops = &kbd_driver_ops
 };

uspace/drv/usbkbd/usbkbd.ma

r84439d7	r75732da
1	1	10 usb&class=hid
	2	10 usb&class=HID
	3	10 usb&interface&class=HID
2	4	10 usb&hid

uspace/drv/vhc/Makefile

r84439d7	r75732da
39	39
40	40	SOURCES = \
41		~~addrmgm.c \~~
42	41	conndev.c \
43	42	connhost.c \

uspace/drv/vhc/conn.h

-              r84439d7
+              r75732da
 void address_init(void);
-int reserve_default_address(device_t *);
-int release_default_address(device_t *);
-int request_address(device_t *, usb_address_t *);
-int release_address(device_t *, usb_address_t);
-int bind_address(device_t *, usb_address_t, devman_handle_t);
-int tell_address(device_t *, devman_handle_t, usb_address_t *);
 void default_connection_handler(device_t *, ipc_callid_t, ipc_call_t *);

uspace/drv/vhc/connhost.c

-              r84439d7
+              r75732da
 #include <errno.h>
 #include <usb/usb.h>
+#include <usb/hcd.h>
 #include "vhcd.h"
 …
                 case USB_DIRECTION_IN:
                         transfer->in_callback(transfer->dev,
                             size, outcome,
+                            outcome, size,
                             transfer->arg);
                         break;
 …
     usbhc_iface_transfer_out_callback_t callback, void *arg)
+{
         printf(NAME ": transfer OUT [%d.%d (%s); %u]\n",
+        dprintf(3, "transfer OUT [%d.%d (%s); %zu]",
             target.address, target.endpoint,
             usb_str_transfer_type(transfer_type),
 …
     usbhc_iface_transfer_out_callback_t callback, void *arg)
+{
         printf(NAME ": transfer SETUP [%d.%d (%s); %u]\n",
+        dprintf(3, "transfer SETUP [%d.%d (%s); %zu]",
             target.address, target.endpoint,
             usb_str_transfer_type(transfer_type),
 …
     usbhc_iface_transfer_in_callback_t callback, void *arg)
+{
         printf(NAME ": transfer IN [%d.%d (%s); %u]\n",
+        dprintf(3, "transfer IN [%d.%d (%s); %zu]",
             target.address, target.endpoint,
             usb_str_transfer_type(transfer_type),
 …
+}
+static usb_address_keeping_t addresses;
+static int reserve_default_address(device_t *dev)
+{
+        usb_address_keeping_reserve_default(&addresses);
+        return EOK;
+}
+static int release_default_address(device_t *dev)
+{
+        usb_address_keeping_release_default(&addresses);
+        return EOK;
+}
+static int request_address(device_t *dev, usb_address_t *address)
+{
+        usb_address_t addr = usb_address_keeping_request(&addresses);
+        if (addr < 0) {
+                return (int)addr;
+        }
+        *address = addr;
+        return EOK;
+}
+static int release_address(device_t *dev, usb_address_t address)
+{
+        return usb_address_keeping_release(&addresses, address);
+}
+static int bind_address(device_t *dev, usb_address_t address,
+    devman_handle_t handle)
+{
+        usb_address_keeping_devman_bind(&addresses, address, handle);
+        return EOK;
+}
+static int tell_address(device_t *dev, devman_handle_t handle,
+    usb_address_t *address)
+{
+        usb_address_t addr = usb_address_keeping_find(&addresses, handle);
+        if (addr < 0) {
+                return addr;
+        }
+        *address = addr;
+        return EOK;
+}
+void address_init(void)
+{
+        usb_address_keeping_init(&addresses, 50);
+}
 usbhc_iface_t vhc_iface = {

uspace/drv/vhc/debug.c

-              r84439d7
+              r75732da
 #include <stdio.h>
 #include <ipc/ipc.h>
+#include <usb/debug.h>
 #include "vhcd.h"
-/** Current debug level. */
-int debug_level = 0;
-/** Debugging printf.
- * This function is intended for single-line messages as it
- * automatically prints debugging prefix at the beginning of the
- * line.
+ *
- * @see printf
- * @param level Debugging level.
- */
-void dprintf(int level, const char *format, ...)
+{
-        if (level > debug_level) {
-                return;
+        }
-        printf("%s(%d): ", NAME, level);
-        va_list args;
-        va_start(args, format);
-        vprintf(format, args);
-        va_end(args);
-        printf("\n");
+}
 /** Debug print informing of invalid call.

uspace/drv/vhc/devices.c

r84439d7	r75732da
147	147	if (virthub_dev.address == transaction->target.address) {
148	148	size_t tmp;
149		dprintf(3, "sending `%s' transaction to hub",
	149	dprintf(1, "sending `%s' transaction to hub",
150	150	usbvirt_str_transaction_type(transaction->type));
151	151	switch (transaction->type) {

uspace/drv/vhc/hc.c

-              r84439d7
+              r75732da
 #include "hub.h"
 #define USLEEP_BASE (500 * 1000)
+#define USLEEP_BASE (0 * 5 * 1000)
 #define USLEEP_VAR 5000
+#define USLEEP_VAR 50
 #define SHORTENING_VAR 15
 …
     usb_transaction_outcome_t outcome)
+{
         dprintf(3, "processing transaction " TRANSACTION_FORMAT ", outcome: %s",
+        dprintf(3, "transaction " TRANSACTION_FORMAT " done, outcome: %s",
             TRANSACTION_PRINTF(*transaction),
             usb_str_transaction_outcome(outcome));
 …
                 char ports[HUB_PORT_COUNT + 2];
                 hub_get_port_statuses(ports, HUB_PORT_COUNT + 1);
                 dprintf(3, "virtual hub: addr=%d ports=%s",
+                dprintf(4, "virtual hub: addr=%d ports=%s",
                     virthub_dev.address, ports);
 …
                 list_remove(first_transaction_link);
+                dprintf(0, "about to process " TRANSACTION_FORMAT " (vhub:%s)",
+                    TRANSACTION_PRINTF(*transaction), ports);
                 dprintf(3, "processing transaction " TRANSACTION_FORMAT "",
                     TRANSACTION_PRINTF(*transaction));
 …
         transaction->callback_arg = arg;
         dprintf(1, "creating transaction " TRANSACTION_FORMAT,
+        dprintf(3, "creating transaction " TRANSACTION_FORMAT,
             TRANSACTION_PRINTF(*transaction));

uspace/drv/vhc/hcd.c

-              r84439d7
+              r75732da
          * Initialize our hub and announce its presence.
          */
+        hub_init();
+        usb_hcd_add_root_hub(dev);
+        hub_init(dev);
         printf("%s: virtual USB host controller ready.\n", NAME);
 …
         printf("%s: virtual USB host controller driver.\n", NAME);
         debug_level = 10;
+        usb_dprintf_enable(NAME, 0);
         fid_t fid = fibril_create(hc_manager_fibril, NULL);

uspace/drv/vhc/hub.c

-              r84439d7
+              r75732da
 #include <usbvirt/device.h>
 #include <errno.h>
+#include <str_error.h>
 #include <stdlib.h>
+#include <driver.h>
 #include "vhcd.h"
 #include "hub.h"
 #include "hubintern.h"
+#include "conn.h"
 …
         .ops = &hub_ops,
         .descriptors = &descriptors,
         .lib_debug_level = 4,
+        .lib_debug_level = 0,
         .lib_debug_enabled_tags = USBVIRT_DEBUGTAG_ALL
 };
 …
 hub_device_t hub_dev;
+static usb_address_t hub_set_address(usbvirt_device_t *hub)
+{
+        usb_address_t new_address;
+        int rc = vhc_iface.request_address(NULL, &new_address);
+        if (rc != EOK) {
+                return rc;
+        }
+        usb_device_request_setup_packet_t setup_packet = {
+                .request_type = 0,
+                .request = USB_DEVREQ_SET_ADDRESS,
+                .index = 0,
+                .length = 0,
+        };
+        setup_packet.value = new_address;
+        hub->transaction_setup(hub, 0, &setup_packet, sizeof(setup_packet));
+        hub->transaction_in(hub, 0, NULL, 0, NULL);
+        return new_address;
+}
 /** Initialize virtual hub. */
+void hub_init(void)
+{
+        size_t i;
+void hub_init(device_t *hc_dev)
+{
+        size_t i;
         for (i = 0; i < HUB_PORT_COUNT; i++) {
                 hub_port_t *port = &hub_dev.ports[i];
+                port->index = (int) i + 1;
                 port->device = NULL;
                 port->state = HUB_PORT_STATE_NOT_CONFIGURED;
                 port->status_change = 0;
+                fibril_mutex_initialize(&port->guard);
+        }
 …
         dprintf(1, "virtual hub (%d ports) created", HUB_PORT_COUNT);
+        usb_address_t hub_address = hub_set_address(&virthub_dev);
+        if (hub_address < 0) {
+                dprintf(1, "problem changing hub address (%s)",
+                    str_error(hub_address));
+        }
+        dprintf(2, "virtual hub address changed to %d", hub_address);
+        char *id;
+        int rc = asprintf(&id, "usb&hub");
+        if (rc <= 0) {
+                return;
+        }
+        devman_handle_t hub_handle;
+        rc = child_device_register_wrapper(hc_dev, "hub", id, 10, &hub_handle);
+        if (rc != EOK) {
+                free(id);
+        }
+        vhc_iface.bind_address(NULL, hub_address, hub_handle);
+        dprintf(2, "virtual hub has devman handle %d", (int) hub_handle);
+}
 …
         for (i = 0; i < HUB_PORT_COUNT; i++) {
                 hub_port_t *port = &hub_dev.ports[i];
+                fibril_mutex_lock(&port->guard);
                 if (port->device != NULL) {
+                        fibril_mutex_unlock(&port->guard);
                         continue;
+                }
 …
                 //if (port->state == HUB_PORT_STATE_DISCONNECTED) {
                         port->state = HUB_PORT_STATE_DISABLED;
                         set_port_status_change(port, HUB_STATUS_C_PORT_CONNECTION);
+                        set_port_status_change_nl(port, HUB_STATUS_C_PORT_CONNECTION);
                 //}
+                fibril_mutex_unlock(&port->guard);
                 return i;
+        }

uspace/drv/vhc/hub.h

-              r84439d7
+              r75732da
 #include <usbvirt/device.h>
+#include <driver.h>
 #include "devices.h"
 #define HUB_PORT_COUNT 6
+#define HUB_PORT_COUNT 2
 #define BITS2BYTES(bits) \
 …
 extern usbvirt_device_t virthub_dev;
 void hub_init(void);
+void hub_init(device_t *);
 size_t hub_add_device(virtdev_connection_t *);
 void hub_remove_device(virtdev_connection_t *);

uspace/drv/vhc/hubintern.h

-              r84439d7
+              r75732da
 #include "hub.h"
+#include <fibril_synch.h>
 /** Endpoint number for status change pipe. */
 …
 typedef struct {
         virtdev_connection_t *device;
+        int index;
         hub_port_state_t state;
         uint16_t status_change;
+        fibril_mutex_t guard;
 } hub_port_t;
 …
 void clear_port_status_change(hub_port_t *, uint16_t);
 void set_port_status_change(hub_port_t *, uint16_t);
+void set_port_status_change_nl(hub_port_t *, uint16_t);

uspace/drv/vhc/hubops.c

-              r84439d7
+              r75732da
 static int on_get_descriptor(struct usbvirt_device *dev,
     usb_device_request_setup_packet_t *request, uint8_t *data);
+static int on_set_configuration(struct usbvirt_device *dev,
+    usb_device_request_setup_packet_t *request, uint8_t *data);
 static int on_class_request(struct usbvirt_device *dev,
     usb_device_request_setup_packet_t *request, uint8_t *data);
 …
     usb_endpoint_t endpoint,
     void *buffer, size_t size, size_t *actual_size);
+static void set_port_state(hub_port_t *, hub_port_state_t);
+static void clear_port_status_change_nl(hub_port_t *, uint16_t);
+static void set_port_state_nl(hub_port_t *, hub_port_state_t);
 /** Hub operations. */
 usbvirt_device_ops_t hub_ops = {
         .on_standard_request[USB_DEVREQ_GET_DESCRIPTOR] = on_get_descriptor,
+        .on_standard_request[USB_DEVREQ_SET_CONFIGURATION] = on_set_configuration,
         .on_class_device_request = on_class_request,
         .on_data = NULL,
 …
+}
+/** Callback for SET_CONFIGURATION request. */
+int on_set_configuration(struct usbvirt_device *dev,
+    usb_device_request_setup_packet_t *request, uint8_t *data)
+{
+        /* We must suspend power source to all ports. */
+        size_t i;
+        for (i = 0; i < HUB_PORT_COUNT; i++) {
+                hub_port_t *port = &hub_dev.ports[i];
+                set_port_state(port, HUB_PORT_STATE_POWERED_OFF);
+        }
+        /* Let the framework handle the rest of the job. */
+        return EFORWARD;
+}
+struct delay_port_state_change {
+        suseconds_t delay;
+        hub_port_state_t old_state;
+        hub_port_state_t new_state;
+        hub_port_t *port;
+};
+static int set_port_state_delayed_fibril(void *arg)
+{
+        struct delay_port_state_change *change
+            = (struct delay_port_state_change *) arg;
+        async_usleep(change->delay);
+        fibril_mutex_lock(&change->port->guard);
+        if (change->port->state == change->old_state) {
+                set_port_state_nl(change->port, change->new_state);
+        }
+        fibril_mutex_unlock(&change->port->guard);
+        free(change);
+        return EOK;
+}
+static void set_port_state_delayed(hub_port_t *port,
+    suseconds_t delay_time,
+    hub_port_state_t old_state, hub_port_state_t new_state)
+{
+        struct delay_port_state_change *change
+            = malloc(sizeof(struct delay_port_state_change));
+        change->port = port;
+        change->delay = delay_time;
+        change->old_state = old_state;
+        change->new_state = new_state;
+        fid_t fibril = fibril_create(set_port_state_delayed_fibril, change);
+        if (fibril == 0) {
+                printf("Failed to create fibril\n");
+                return;
+        }
+        fibril_add_ready(fibril);
+}
 /** Change port status and updates status change status fields.
  */
+static void set_port_state(hub_port_t *port, hub_port_state_t state)
+{
+void set_port_state(hub_port_t *port, hub_port_state_t state)
+{
+        fibril_mutex_lock(&port->guard);
+        set_port_state_nl(port, state);
+        fibril_mutex_unlock(&port->guard);
+}
+void set_port_state_nl(hub_port_t *port, hub_port_state_t state)
+{
+        dprintf(2, "setting port %d state to %d (%c) from %c (change=%u)",
+            port->index,
+            state, hub_port_state_as_char(state),
+            hub_port_state_as_char(port->state),
+            (unsigned int) port->status_change);
+        if (state == HUB_PORT_STATE_POWERED_OFF) {
+                clear_port_status_change_nl(port, HUB_STATUS_C_PORT_CONNECTION);
+                clear_port_status_change_nl(port, HUB_STATUS_C_PORT_ENABLE);
+                clear_port_status_change_nl(port, HUB_STATUS_C_PORT_RESET);
+        }
+        if (state == HUB_PORT_STATE_RESUMING) {
+                set_port_state_delayed(port, 10*1000,
+                    HUB_PORT_STATE_RESUMING, HUB_PORT_STATE_ENABLED);
+        }
+        if (state == HUB_PORT_STATE_RESETTING) {
+                set_port_state_delayed(port, 10*1000,
+                    HUB_PORT_STATE_RESETTING, HUB_PORT_STATE_ENABLED);
+        }
+        if ((port->state == HUB_PORT_STATE_RESETTING)
+            && (state == HUB_PORT_STATE_ENABLED)) {
+                set_port_status_change_nl(port, HUB_STATUS_C_PORT_RESET);
+        }
         port->state = state;
-        if (state == HUB_PORT_STATE_POWERED_OFF) {
-                clear_port_status_change(port, HUB_STATUS_C_PORT_CONNECTION);
-                clear_port_status_change(port, HUB_STATUS_C_PORT_ENABLE);
-                clear_port_status_change(port, HUB_STATUS_C_PORT_RESET);
+        }
-        if (state == HUB_PORT_STATE_RESUMING) {
-                async_usleep(10*1000);
-                if (port->state == state) {
-                        set_port_state(port, HUB_PORT_STATE_ENABLED);
+                }
+        }
-        if (state == HUB_PORT_STATE_RESETTING) {
-                async_usleep(10*1000);
-                if (port->state == state) {
-                        set_port_status_change(port, HUB_STATUS_C_PORT_RESET);
-                        set_port_state(port, HUB_PORT_STATE_ENABLED);
+                }
+        }
+}
 …
                 } \
         } while (false); \
         hub_port_t *portvar = &hub_dev.ports[index]
+        hub_port_t *portvar = &hub_dev.ports[index-1]
 …
         _GET_PORT(port, portindex);
+        fibril_mutex_lock(&port->guard);
+        int rc = ENOTSUP;
         switch (feature) {
                 case USB_HUB_FEATURE_PORT_ENABLE:
                         if ((port->state != HUB_PORT_STATE_NOT_CONFIGURED)
                             && (port->state != HUB_PORT_STATE_POWERED_OFF)) {
+                                set_port_state(port, HUB_PORT_STATE_DISABLED);
+                        }
+                        return EOK;
+                                set_port_state_nl(port, HUB_PORT_STATE_DISABLED);
+                        }
+                        rc = EOK;
+                        break;
                 case USB_HUB_FEATURE_PORT_SUSPEND:
                         if (port->state != HUB_PORT_STATE_SUSPENDED) {
+                                return EOK;
+                        }
+                        set_port_state(port, HUB_PORT_STATE_RESUMING);
+                        return EOK;
+                                rc = EOK;
+                                break;
+                        }
+                        set_port_state_nl(port, HUB_PORT_STATE_RESUMING);
+                        rc = EOK;
+                        break;
                 case USB_HUB_FEATURE_PORT_POWER:
                         if (port->state != HUB_PORT_STATE_NOT_CONFIGURED) {
+                                set_port_state(port, HUB_PORT_STATE_POWERED_OFF);
+                        }
+                        return EOK;
+                                set_port_state_nl(port, HUB_PORT_STATE_POWERED_OFF);
+                        }
+                        rc = EOK;
+                        break;
                 case USB_HUB_FEATURE_C_PORT_CONNECTION:
+                        clear_port_status_change(port, HUB_STATUS_C_PORT_CONNECTION);
+                        return EOK;
+                        clear_port_status_change_nl(port, HUB_STATUS_C_PORT_CONNECTION);
+                        rc = EOK;
+                        break;
                 case USB_HUB_FEATURE_C_PORT_ENABLE:
+                        clear_port_status_change(port, HUB_STATUS_C_PORT_ENABLE);
+                        return EOK;
+                        clear_port_status_change_nl(port, HUB_STATUS_C_PORT_ENABLE);
+                        rc = EOK;
+                        break;
                 case USB_HUB_FEATURE_C_PORT_SUSPEND:
+                        clear_port_status_change(port, HUB_STATUS_C_PORT_SUSPEND);
+                        return EOK;
+                        clear_port_status_change_nl(port, HUB_STATUS_C_PORT_SUSPEND);
+                        rc = EOK;
+                        break;
                 case USB_HUB_FEATURE_C_PORT_OVER_CURRENT:
+                        clear_port_status_change(port, HUB_STATUS_C_PORT_OVER_CURRENT);
+                        return EOK;
+        }
+                        clear_port_status_change_nl(port, HUB_STATUS_C_PORT_OVER_CURRENT);
+                        rc = EOK;
+                        break;
+                case USB_HUB_FEATURE_C_PORT_RESET:
+                        clear_port_status_change_nl(port, HUB_STATUS_C_PORT_RESET);
+                        rc = EOK;
+                        break;
+        }
+        fibril_mutex_unlock(&port->guard);
+        return rc;
+}
+static int get_bus_state(uint16_t portindex)
+{
         return ENOTSUP;
+}
+static int get_bus_state(uint16_t portindex)
+{
+        return ENOTSUP;
+}
+static int get_hub_descriptor(uint8_t descriptor_type,
+    uint8_t descriptor_index, uint16_t length)
+{
+static int get_hub_descriptor(struct usbvirt_device *dev,
+    uint8_t descriptor_index,
+    uint8_t descriptor_type, uint16_t length)
+{
+        if (descriptor_type == USB_DESCTYPE_HUB) {
+                int rc = dev->control_transfer_reply(dev, 0,
+                    &hub_descriptor, hub_descriptor.length);
+                return rc;
+        }
         return ENOTSUP;
+}
 …
         _GET_PORT(port, portindex);
+        fibril_mutex_lock(&port->guard);
         uint32_t status;
         status = MAKE_BYTE(
 …
         status |= (port->status_change << 16);
+        fibril_mutex_unlock(&port->guard);
+        dprintf(2, "GetPortStatus(port=%d, status=%u)\n", (int)portindex,
+            (unsigned int) status);
         return virthub_dev.control_transfer_reply(&virthub_dev, 0, &status, 4);
+}
 …
         _GET_PORT(port, portindex);
+        fibril_mutex_lock(&port->guard);
+        int rc = ENOTSUP;
         switch (feature) {
                 case USB_HUB_FEATURE_PORT_RESET:
                         if (port->state != HUB_PORT_STATE_POWERED_OFF) {
+                                set_port_state(port, HUB_PORT_STATE_RESETTING);
+                        }
+                        return EOK;
+                                set_port_state_nl(port, HUB_PORT_STATE_RESETTING);
+                        }
+                        rc = EOK;
+                        break;
                 case USB_HUB_FEATURE_PORT_SUSPEND:
                         if (port->state == HUB_PORT_STATE_ENABLED) {
+                                set_port_state(port, HUB_PORT_STATE_SUSPENDED);
+                        }
+                        return EOK;
+                                set_port_state_nl(port, HUB_PORT_STATE_SUSPENDED);
+                        }
+                        rc = EOK;
+                        break;
                 case USB_HUB_FEATURE_PORT_POWER:
                         if (port->state == HUB_PORT_STATE_POWERED_OFF) {
+                                set_port_state(port, HUB_PORT_STATE_DISCONNECTED);
+                        }
+                        return EOK;
+        }
+        return ENOTSUP;
+                                set_port_state_nl(port, HUB_PORT_STATE_DISCONNECTED);
+                        }
+                        rc = EOK;
+                        break;
+        }
+        fibril_mutex_unlock(&port->guard);
+        return rc;
+}
 …
     usb_device_request_setup_packet_t *request, uint8_t *data)
+{
         dprintf(2, "hub class request (%d)\n", (int) request->request);
+        dprintf(2, "hub class request (%d)", (int) request->request);
         uint8_t recipient = request->request_type & 31;
 …
                 case USB_HUB_REQUEST_GET_DESCRIPTOR:
                         return get_hub_descriptor(request->value_low,
+                        return get_hub_descriptor(dev, request->value_low,
                             request->value_high, request->length);
 …
                 default:
+                        dprintf(0, "WARN: unknown request (%d)!\n",
+                            request->request);
                         break;
+        }
 …
+}
+void clear_port_status_change_nl(hub_port_t *port, uint16_t change)
+{
+        port->status_change &= (~change);
+        dprintf(2, "cleared port %d status change %d (%u)", port->index,
+            (int)change, (unsigned int) port->status_change);
+}
+void set_port_status_change_nl(hub_port_t *port, uint16_t change)
+{
+        port->status_change |= change;
+        dprintf(2, "set port %d status change %d (%u)", port->index,
+            (int)change, (unsigned int) port->status_change);
+}
 void clear_port_status_change(hub_port_t *port, uint16_t change)
+{
+        port->status_change &= (~change);
+        fibril_mutex_lock(&port->guard);
+        clear_port_status_change_nl(port, change);
+        fibril_mutex_unlock(&port->guard);
+}
 void set_port_status_change(hub_port_t *port, uint16_t change)
+{
+        port->status_change |= change;
+        fibril_mutex_lock(&port->guard);
+        set_port_status_change_nl(port, change);
+        fibril_mutex_unlock(&port->guard);
+}
 …
                 hub_port_t *port = &hub_dev.ports[i];
+                fibril_mutex_lock(&port->guard);
                 if (port->status_change != 0) {
                         change_map |= (1 << (i + 1));
+                }
+                fibril_mutex_unlock(&port->guard);
+        }

uspace/drv/vhc/vhcd.h

-              r84439d7
+              r75732da
 #define VHCD_VHCD_H_
+#include <usb/debug.h>
 #define NAME "vhc"
 #define NAME_DEV "hcd-virt-dev"
 …
 #define DEVMAP_PATH_DEV NAMESPACE "/" NAME_DEV
+extern int debug_level;
+void dprintf(int, const char *, ...);
+#define dprintf(level, format, ...) \
+        usb_dprintf(NAME, (level), format "\n", ##__VA_ARGS__)
 void dprintf_inval_call(int, ipc_call_t, ipcarg_t);

Context Navigation

Changeset 75732da in mainline for uspace/drv

Legend:

uspace/drv/isa/isa.c

uspace/drv/ns8250/ns8250.c

uspace/drv/pciintel/pci.c

uspace/drv/root/root.c

uspace/drv/rootpc/Makefile

uspace/drv/rootpc/rootpc.c

uspace/drv/uhci/main.c

uspace/drv/uhci/transfers.c

uspace/drv/usbhub/main.c

uspace/drv/usbhub/usbhub.h

uspace/drv/usbhub/usbhub.ma

uspace/drv/usbhub/utils.c

uspace/drv/usbkbd/main.c

uspace/drv/usbkbd/usbkbd.ma

uspace/drv/vhc/Makefile

uspace/drv/vhc/conn.h

uspace/drv/vhc/connhost.c

uspace/drv/vhc/debug.c

uspace/drv/vhc/devices.c

uspace/drv/vhc/hc.c

uspace/drv/vhc/hcd.c

uspace/drv/vhc/hub.c

uspace/drv/vhc/hub.h

uspace/drv/vhc/hubintern.h

uspace/drv/vhc/hubops.c

uspace/drv/vhc/vhcd.h

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