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|
/*
* device.c
*
* Copyright (C) 2009 Hector Martin "marcan" <hector@marcansoft.com>
* Copyright (C) 2014 Mikkel Kamstrup Erlandsen <mikkel.kamstrup@xamarin.com>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 2 or version 3.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#define _BSD_SOURCE
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include <sys/time.h>
#include <netinet/in.h>
#include <netinet/tcp.h>
#include <stdlib.h>
#include <string.h>
#include <stdint.h>
#include <inttypes.h>
#include <pthread.h>
#include <unistd.h>
#include "device.h"
#include "client.h"
#include "preflight.h"
#include "usb.h"
#include "log.h"
int next_device_id;
#define DEV_MRU 65536
#define CONN_INBUF_SIZE 262144
#define CONN_OUTBUF_SIZE 65536
#define ACK_TIMEOUT 30
enum mux_protocol {
MUX_PROTO_VERSION = 0,
MUX_PROTO_CONTROL = 1,
MUX_PROTO_SETUP = 2,
MUX_PROTO_TCP = IPPROTO_TCP,
};
enum mux_dev_state {
MUXDEV_INIT, // sent version packet
MUXDEV_ACTIVE, // received version packet, active
MUXDEV_DEAD // dead
};
enum mux_conn_state {
CONN_CONNECTING, // SYN
CONN_CONNECTED, // SYN/SYNACK/ACK -> active
CONN_REFUSED, // RST received during SYN
CONN_DYING, // RST received
CONN_DEAD // being freed; used to prevent infinite recursion between client<->device freeing
};
struct mux_header
{
uint32_t protocol;
uint32_t length;
uint32_t magic;
uint16_t tx_seq;
uint16_t rx_seq;
};
struct version_header
{
uint32_t major;
uint32_t minor;
uint32_t padding;
};
struct mux_device;
#define CONN_ACK_PENDING 1
struct mux_connection
{
struct mux_device *dev;
struct mux_client *client;
enum mux_conn_state state;
uint16_t sport, dport;
uint32_t tx_seq, tx_ack, tx_acked, tx_win;
uint32_t rx_seq, rx_recvd, rx_ack, rx_win;
uint32_t max_payload;
uint32_t sendable;
int flags;
unsigned char *ib_buf;
uint32_t ib_size;
uint32_t ib_capacity;
unsigned char *ob_buf;
uint32_t ob_capacity;
short events;
uint64_t last_ack_time;
};
struct mux_device
{
struct usb_device *usbdev;
int id;
enum mux_dev_state state;
int visible;
struct collection connections;
uint16_t next_sport;
unsigned char *pktbuf;
uint32_t pktlen;
void *preflight_cb_data;
int version;
uint16_t rx_seq;
uint16_t tx_seq;
};
static struct collection device_list;
pthread_mutex_t device_list_mutex;
static struct mux_device* get_mux_device_for_id(int device_id)
{
struct mux_device *dev = NULL;
pthread_mutex_lock(&device_list_mutex);
FOREACH(struct mux_device *cdev, &device_list) {
if(cdev->id == device_id) {
dev = cdev;
break;
}
} ENDFOREACH
pthread_mutex_unlock(&device_list_mutex);
return dev;
}
static struct mux_connection* get_mux_connection(int device_id, struct mux_client *client)
{
struct mux_connection *conn = NULL;
pthread_mutex_lock(&device_list_mutex);
FOREACH(struct mux_device *dev, &device_list) {
if(dev->id == device_id) {
FOREACH(struct mux_connection *lconn, &dev->connections) {
if(lconn->client == client) {
conn = lconn;
break;
}
} ENDFOREACH
break;
}
} ENDFOREACH
pthread_mutex_unlock(&device_list_mutex);
return conn;
}
static int get_next_device_id(void)
{
while(1) {
int ok = 1;
pthread_mutex_lock(&device_list_mutex);
FOREACH(struct mux_device *dev, &device_list) {
if(dev->id == next_device_id) {
next_device_id++;
ok = 0;
break;
}
} ENDFOREACH
pthread_mutex_unlock(&device_list_mutex);
if(ok)
return next_device_id++;
}
}
static int send_packet(struct mux_device *dev, enum mux_protocol proto, void *header, const void *data, int length)
{
unsigned char *buffer;
int hdrlen;
int res;
switch(proto) {
case MUX_PROTO_VERSION:
hdrlen = sizeof(struct version_header);
break;
case MUX_PROTO_SETUP:
hdrlen = 0;
break;
case MUX_PROTO_TCP:
hdrlen = sizeof(struct tcphdr);
break;
default:
usbmuxd_log(LL_ERROR, "Invalid protocol %d for outgoing packet (dev %d hdr %p data %p len %d)", proto, dev->id, header, data, length);
return -1;
}
usbmuxd_log(LL_SPEW, "send_packet(%d, 0x%x, %p, %p, %d)", dev->id, proto, header, data, length);
int mux_header_size = ((dev->version < 2) ? 8 : sizeof(struct mux_header));
int total = mux_header_size + hdrlen + length;
if(total > USB_MTU) {
usbmuxd_log(LL_ERROR, "Tried to send packet larger than USB MTU (hdr %d data %d total %d) to device %d", hdrlen, length, total, dev->id);
return -1;
}
buffer = malloc(total);
struct mux_header *mhdr = (struct mux_header *)buffer;
mhdr->protocol = htonl(proto);
mhdr->length = htonl(total);
if (dev->version >= 2) {
mhdr->magic = htonl(0xfeedface);
if (proto == MUX_PROTO_SETUP) {
dev->tx_seq = 0;
dev->rx_seq = 0xFFFF;
}
mhdr->tx_seq = htons(dev->tx_seq);
mhdr->rx_seq = htons(dev->rx_seq);
dev->tx_seq++;
}
memcpy(buffer + mux_header_size, header, hdrlen);
if(data && length)
memcpy(buffer + mux_header_size + hdrlen, data, length);
if((res = usb_send(dev->usbdev, buffer, total)) < 0) {
usbmuxd_log(LL_ERROR, "usb_send failed while sending packet (len %d) to device %d: %d", total, dev->id, res);
free(buffer);
return res;
}
return total;
}
static uint16_t find_sport(struct mux_device *dev)
{
if(collection_count(&dev->connections) >= 65535)
return 0; //insanity
while(1) {
int ok = 1;
FOREACH(struct mux_connection *conn, &dev->connections) {
if(dev->next_sport == conn->sport) {
dev->next_sport++;
ok = 0;
break;
}
} ENDFOREACH
if(ok)
return dev->next_sport++;
}
}
static int send_anon_rst(struct mux_device *dev, uint16_t sport, uint16_t dport, uint32_t ack)
{
struct tcphdr th;
memset(&th, 0, sizeof(th));
th.th_sport = htons(sport);
th.th_dport = htons(dport);
th.th_ack = htonl(ack);
th.th_flags = TH_RST;
th.th_off = sizeof(th) / 4;
usbmuxd_log(LL_DEBUG, "[OUT] dev=%d sport=%d dport=%d flags=0x%x", dev->id, sport, dport, th.th_flags);
int res = send_packet(dev, MUX_PROTO_TCP, &th, NULL, 0);
return res;
}
static int send_tcp(struct mux_connection *conn, uint8_t flags, const unsigned char *data, int length)
{
struct tcphdr th;
memset(&th, 0, sizeof(th));
th.th_sport = htons(conn->sport);
th.th_dport = htons(conn->dport);
th.th_seq = htonl(conn->tx_seq);
th.th_ack = htonl(conn->tx_ack);
th.th_flags = flags;
th.th_off = sizeof(th) / 4;
th.th_win = htons(conn->tx_win >> 8);
usbmuxd_log(LL_DEBUG, "[OUT] dev=%d sport=%d dport=%d seq=%d ack=%d flags=0x%x window=%d[%d] len=%d",
conn->dev->id, conn->sport, conn->dport, conn->tx_seq, conn->tx_ack, flags, conn->tx_win, conn->tx_win >> 8, length);
int res = send_packet(conn->dev, MUX_PROTO_TCP, &th, data, length);
if(res >= 0) {
conn->tx_acked = conn->tx_ack;
conn->last_ack_time = mstime64();
conn->flags &= ~CONN_ACK_PENDING;
}
return res;
}
static void connection_teardown(struct mux_connection *conn)
{
int res;
int size;
if(conn->state == CONN_DEAD)
return;
usbmuxd_log(LL_DEBUG, "connection_teardown dev %d sport %d dport %d", conn->dev->id, conn->sport, conn->dport);
if(conn->dev->state != MUXDEV_DEAD && conn->state != CONN_DYING && conn->state != CONN_REFUSED) {
res = send_tcp(conn, TH_RST, NULL, 0);
if(res < 0)
usbmuxd_log(LL_ERROR, "Error sending TCP RST to device %d (%d->%d)", conn->dev->id, conn->sport, conn->dport);
}
if(conn->client) {
if(conn->state == CONN_REFUSED || conn->state == CONN_CONNECTING) {
client_notify_connect(conn->client, RESULT_CONNREFUSED);
} else {
conn->state = CONN_DEAD;
if((conn->events & POLLOUT) && conn->ib_size > 0){
usbmuxd_log(LL_DEBUG, "%s: flushing buffer to client (%u bytes)", __func__, conn->ib_size);
uint64_t tm_last = mstime64();
while(1){
size = client_write(conn->client, conn->ib_buf, conn->ib_size);
if(size < 0) {
usbmuxd_log(LL_ERROR, "%s: aborting buffer flush to client after error.", __func__);
break;
} else if (size == 0) {
uint64_t tm_now = mstime64();
if (tm_now - tm_last > 1000) {
usbmuxd_log(LL_ERROR, "%s: aborting buffer flush to client after unsuccessfully attempting for %dms.", __func__, (int)(tm_now - tm_last));
break;
}
usleep(10000);
continue;
}
if(size == (int)conn->ib_size) {
conn->ib_size = 0;
break;
} else {
conn->ib_size -= size;
memmove(conn->ib_buf, conn->ib_buf + size, conn->ib_size);
}
tm_last = mstime64();
}
}
client_close(conn->client);
}
}
if(conn->ib_buf)
free(conn->ib_buf);
if(conn->ob_buf)
free(conn->ob_buf);
collection_remove(&conn->dev->connections, conn);
free(conn);
}
int device_start_connect(int device_id, uint16_t dport, struct mux_client *client)
{
struct mux_device *dev = get_mux_device_for_id(device_id);
if(!dev) {
usbmuxd_log(LL_WARNING, "Attempted to connect to nonexistent device %d", device_id);
return -RESULT_BADDEV;
}
uint16_t sport = find_sport(dev);
if(!sport) {
usbmuxd_log(LL_WARNING, "Unable to allocate port for device %d", device_id);
return -RESULT_BADDEV;
}
struct mux_connection *conn;
conn = malloc(sizeof(struct mux_connection));
memset(conn, 0, sizeof(struct mux_connection));
conn->dev = dev;
conn->client = client;
conn->state = CONN_CONNECTING;
conn->sport = sport;
conn->dport = dport;
conn->tx_seq = 0;
conn->tx_ack = 0;
conn->tx_acked = 0;
conn->tx_win = 131072;
conn->rx_recvd = 0;
conn->flags = 0;
conn->max_payload = USB_MTU - sizeof(struct mux_header) - sizeof(struct tcphdr);
conn->ob_buf = malloc(CONN_OUTBUF_SIZE);
conn->ob_capacity = CONN_OUTBUF_SIZE;
conn->ib_buf = malloc(CONN_INBUF_SIZE);
conn->ib_capacity = CONN_INBUF_SIZE;
conn->ib_size = 0;
int res;
res = send_tcp(conn, TH_SYN, NULL, 0);
if(res < 0) {
usbmuxd_log(LL_ERROR, "Error sending TCP SYN to device %d (%d->%d)", dev->id, sport, dport);
free(conn);
return -RESULT_CONNREFUSED; //bleh
}
collection_add(&dev->connections, conn);
return 0;
}
/**
* Examine the state of a connection's buffers and
* update all connection flags and masks accordingly.
* Does not do I/O.
*
* @param conn The connection to update.
*/
static void update_connection(struct mux_connection *conn)
{
uint32_t sent = conn->tx_seq - conn->rx_ack;
if(conn->rx_win > sent)
conn->sendable = conn->rx_win - sent;
else
conn->sendable = 0;
if(conn->sendable > conn->ob_capacity)
conn->sendable = conn->ob_capacity;
if(conn->sendable > conn->max_payload)
conn->sendable = conn->max_payload;
if(conn->sendable > 0)
conn->events |= POLLIN;
else
conn->events &= ~POLLIN;
if(conn->ib_size)
conn->events |= POLLOUT;
else
conn->events &= ~POLLOUT;
if(conn->tx_acked != conn->tx_ack)
conn->flags |= CONN_ACK_PENDING;
else
conn->flags &= ~CONN_ACK_PENDING;
usbmuxd_log(LL_SPEW, "update_connection: sendable %d, events %d, flags %d", conn->sendable, conn->events, conn->flags);
client_set_events(conn->client, conn->events);
}
static int send_tcp_ack(struct mux_connection *conn)
{
if(send_tcp(conn, TH_ACK, NULL, 0) < 0) {
usbmuxd_log(LL_ERROR, "Error sending TCP ACK (%d->%d)", conn->sport, conn->dport);
connection_teardown(conn);
return -1;
}
update_connection(conn);
return 0;
}
/**
* Flush input and output buffers for a client connection.
*
* @param device_id Numeric id for the device.
* @param client The client to flush buffers for.
* @param events event mask for the client. POLLOUT means that
* the client is ready to receive data, POLLIN that it has
* data to be read (and send along to the device).
*/
void device_client_process(int device_id, struct mux_client *client, short events)
{
struct mux_connection *conn = get_mux_connection(device_id, client);
if(!conn) {
usbmuxd_log(LL_WARNING, "Could not find connection for device %d client %p", device_id, client);
return;
}
usbmuxd_log(LL_SPEW, "device_client_process (%d)", events);
int res;
int size;
if((events & POLLOUT) && conn->ib_size > 0) {
// Client is ready to receive data, send what we have
// in the client's connection buffer (if there is any)
size = client_write(conn->client, conn->ib_buf, conn->ib_size);
if(size <= 0) {
usbmuxd_log(LL_DEBUG, "error writing to client (%d)", size);
connection_teardown(conn);
return;
}
conn->tx_ack += size;
if(size == (int)conn->ib_size) {
conn->ib_size = 0;
} else {
conn->ib_size -= size;
memmove(conn->ib_buf, conn->ib_buf + size, conn->ib_size);
}
}
if((events & POLLIN) && conn->sendable > 0) {
// There is inbound trafic on the client socket,
// convert it to tcp and send to the device
// (if the device's input buffer is not full)
size = client_read(conn->client, conn->ob_buf, conn->sendable);
if(size <= 0) {
if (size < 0) {
usbmuxd_log(LL_DEBUG, "error reading from client (%d)", size);
}
connection_teardown(conn);
return;
}
res = send_tcp(conn, TH_ACK, conn->ob_buf, size);
if(res < 0) {
connection_teardown(conn);
return;
}
conn->tx_seq += size;
}
update_connection(conn);
}
/**
* Copy a payload to a connection's in-buffer and
* set the POLLOUT event mask on the connection so
* the next main_loop iteration will dispatch the
* buffer if the connection socket is writable.
*
* Connection buffers are flushed in the
* device_client_process() function.
*
* @param conn The connection to add incoming data to.
* @param payload Payload to prepare for writing.
* The payload will be copied immediately so you are
* free to alter or free the payload buffer when this
* function returns.
* @param payload_length number of bytes to copy from from
* the payload.
*/
static void connection_device_input(struct mux_connection *conn, unsigned char *payload, uint32_t payload_length)
{
if((conn->ib_size + payload_length) > conn->ib_capacity) {
usbmuxd_log(LL_ERROR, "Input buffer overflow on device %d connection %d->%d (space=%d, payload=%d)", conn->dev->id, conn->sport, conn->dport, conn->ib_capacity-conn->ib_size, payload_length);
connection_teardown(conn);
return;
}
memcpy(conn->ib_buf + conn->ib_size, payload, payload_length);
conn->ib_size += payload_length;
conn->rx_recvd += payload_length;
update_connection(conn);
}
void device_abort_connect(int device_id, struct mux_client *client)
{
struct mux_connection *conn = get_mux_connection(device_id, client);
if (conn) {
connection_teardown(conn);
} else {
usbmuxd_log(LL_WARNING, "Attempted to abort for nonexistent connection for device %d", device_id);
}
}
static void device_version_input(struct mux_device *dev, struct version_header *vh)
{
if(dev->state != MUXDEV_INIT) {
usbmuxd_log(LL_WARNING, "Version packet from already initialized device %d", dev->id);
return;
}
vh->major = ntohl(vh->major);
vh->minor = ntohl(vh->minor);
if(vh->major != 2 && vh->major != 1) {
usbmuxd_log(LL_ERROR, "Device %d has unknown version %d.%d", dev->id, vh->major, vh->minor);
pthread_mutex_lock(&device_list_mutex);
collection_remove(&device_list, dev);
pthread_mutex_unlock(&device_list_mutex);
free(dev);
return;
}
dev->version = vh->major;
if (dev->version >= 2) {
send_packet(dev, MUX_PROTO_SETUP, NULL, "\x07", 1);
}
usbmuxd_log(LL_NOTICE, "Connected to v%d.%d device %d on location 0x%x with serial number %s", dev->version, vh->minor, dev->id, usb_get_location(dev->usbdev), usb_get_serial(dev->usbdev));
dev->state = MUXDEV_ACTIVE;
collection_init(&dev->connections);
struct device_info info;
info.id = dev->id;
info.location = usb_get_location(dev->usbdev);
info.serial = usb_get_serial(dev->usbdev);
info.pid = usb_get_pid(dev->usbdev);
info.speed = usb_get_speed(dev->usbdev);
preflight_worker_device_add(&info);
}
static void device_control_input(struct mux_device *dev, unsigned char *payload, uint32_t payload_length)
{
if (payload_length > 0) {
switch (payload[0]) {
case 3:
if (payload_length > 1) {
char* buf = malloc(payload_length);
strncpy(buf, (char*)payload+1, payload_length-1);
buf[payload_length-1] = '\0';
usbmuxd_log(LL_ERROR, "%s: ERROR: %s", __func__, buf);
free(buf);
} else {
usbmuxd_log(LL_ERROR, "%s: Error occurred, but empty error message", __func__);
}
break;
case 7:
if (payload_length > 1) {
char* buf = malloc(payload_length);
strncpy(buf, (char*)payload+1, payload_length-1);
buf[payload_length-1] = '\0';
usbmuxd_log(LL_INFO, "%s: %s", __func__, buf);
free(buf);
}
break;
default:
break;
}
} else {
usbmuxd_log(LL_WARNING, "%s: got a type 1 packet without payload", __func__);
}
}
/**
* Handle an incoming TCP packet from the device.
*
* @param dev The device handle TCP input on.
* @param th Pointer to the TCP header struct.
* @param payload Payload data.
* @param payload_length Number of bytes in payload.
*/
static void device_tcp_input(struct mux_device *dev, struct tcphdr *th, unsigned char *payload, uint32_t payload_length)
{
uint16_t sport = ntohs(th->th_dport);
uint16_t dport = ntohs(th->th_sport);
struct mux_connection *conn = NULL;
usbmuxd_log(LL_DEBUG, "[IN] dev=%d sport=%d dport=%d seq=%d ack=%d flags=0x%x window=%d[%d] len=%d",
dev->id, dport, sport, ntohl(th->th_seq), ntohl(th->th_ack), th->th_flags, ntohs(th->th_win) << 8, ntohs(th->th_win), payload_length);
if(dev->state != MUXDEV_ACTIVE) {
usbmuxd_log(LL_ERROR, "Received TCP packet from device %d but the device isn't active yet, discarding", dev->id);
return;
}
// Find the connection on this device that has the right sport and dport
FOREACH(struct mux_connection *lconn, &dev->connections) {
if(lconn->sport == sport && lconn->dport == dport) {
conn = lconn;
break;
}
} ENDFOREACH
if(!conn) {
if(!(th->th_flags & TH_RST)) {
usbmuxd_log(LL_INFO, "No connection for device %d incoming packet %d->%d", dev->id, dport, sport);
if(send_anon_rst(dev, sport, dport, ntohl(th->th_seq)) < 0)
usbmuxd_log(LL_ERROR, "Error sending TCP RST to device %d (%d->%d)", conn->dev->id, sport, dport);
}
return;
}
conn->rx_seq = ntohl(th->th_seq);
conn->rx_ack = ntohl(th->th_ack);
conn->rx_win = ntohs(th->th_win) << 8;
if(th->th_flags & TH_RST) {
char *buf = malloc(payload_length+1);
memcpy(buf, payload, payload_length);
if(payload_length && (buf[payload_length-1] == '\n'))
buf[payload_length-1] = 0;
buf[payload_length] = 0;
usbmuxd_log(LL_DEBUG, "RST reason: %s", buf);
free(buf);
}
if(conn->state == CONN_CONNECTING) {
if(th->th_flags != (TH_SYN|TH_ACK)) {
if(th->th_flags & TH_RST)
conn->state = CONN_REFUSED;
usbmuxd_log(LL_INFO, "Connection refused by device %d (%d->%d)", dev->id, sport, dport);
connection_teardown(conn); //this also sends the notification to the client
} else {
conn->tx_seq++;
conn->tx_ack++;
conn->rx_recvd = conn->rx_seq;
if(send_tcp(conn, TH_ACK, NULL, 0) < 0) {
usbmuxd_log(LL_ERROR, "Error sending TCP ACK to device %d (%d->%d)", dev->id, sport, dport);
connection_teardown(conn);
return;
}
conn->state = CONN_CONNECTED;
if(client_notify_connect(conn->client, RESULT_OK) < 0) {
conn->client = NULL;
connection_teardown(conn);
}
update_connection(conn);
}
} else if(conn->state == CONN_CONNECTED) {
if(th->th_flags != TH_ACK) {
usbmuxd_log(LL_INFO, "Connection reset by device %d (%d->%d)", dev->id, sport, dport);
if(th->th_flags & TH_RST)
conn->state = CONN_DYING;
connection_teardown(conn);
} else {
connection_device_input(conn, payload, payload_length);
// Device likes it best when we are prompty ACKing data
send_tcp_ack(conn);
}
}
}
/**
* Take input data from the device that has been read into a buffer
* and dispatch it to the right protocol backend (eg. TCP).
*
* @param usbdev
* @param buffer
* @param length
*/
void device_data_input(struct usb_device *usbdev, unsigned char *buffer, uint32_t length)
{
struct mux_device *dev = NULL;
pthread_mutex_lock(&device_list_mutex);
FOREACH(struct mux_device *tdev, &device_list) {
if(tdev->usbdev == usbdev) {
dev = tdev;
break;
}
} ENDFOREACH
pthread_mutex_unlock(&device_list_mutex);
if(!dev) {
usbmuxd_log(LL_WARNING, "Cannot find device entry for RX input from USB device %p on location 0x%x", usbdev, usb_get_location(usbdev));
return;
}
if(!length)
return;
// sanity check (should never happen with current USB implementation)
if((length > USB_MRU) || (length > DEV_MRU)) {
usbmuxd_log(LL_ERROR, "Too much data received from USB (%d), file a bug", length);
return;
}
usbmuxd_log(LL_SPEW, "Mux data input for device %p: %p len %d", dev, buffer, length);
// handle broken up transfers
if(dev->pktlen) {
if((length + dev->pktlen) > DEV_MRU) {
usbmuxd_log(LL_ERROR, "Incoming split packet is too large (%d so far), dropping!", length + dev->pktlen);
dev->pktlen = 0;
return;
}
memcpy(dev->pktbuf + dev->pktlen, buffer, length);
struct mux_header *mhdr = (struct mux_header *)dev->pktbuf;
if((length < USB_MRU) || (ntohl(mhdr->length) == (length + dev->pktlen))) {
buffer = dev->pktbuf;
length += dev->pktlen;
dev->pktlen = 0;
usbmuxd_log(LL_SPEW, "Gathered mux data from buffer (total size: %d)", length);
} else {
dev->pktlen += length;
usbmuxd_log(LL_SPEW, "Appended mux data to buffer (total size: %d)", dev->pktlen);
return;
}
} else {
struct mux_header *mhdr = (struct mux_header *)buffer;
if((length == USB_MRU) && (length < ntohl(mhdr->length))) {
memcpy(dev->pktbuf, buffer, length);
dev->pktlen = length;
usbmuxd_log(LL_SPEW, "Copied mux data to buffer (size: %d)", dev->pktlen);
return;
}
}
struct mux_header *mhdr = (struct mux_header *)buffer;
int mux_header_size = ((dev->version < 2) ? 8 : sizeof(struct mux_header));
if(ntohl(mhdr->length) != length) {
usbmuxd_log(LL_ERROR, "Incoming packet size mismatch (dev %d, expected %d, got %d)", dev->id, ntohl(mhdr->length), length);
return;
}
struct tcphdr *th;
unsigned char *payload;
uint32_t payload_length;
if (dev->version >= 2) {
dev->rx_seq = ntohs(mhdr->rx_seq);
}
switch(ntohl(mhdr->protocol)) {
case MUX_PROTO_VERSION:
if(length < (mux_header_size + sizeof(struct version_header))) {
usbmuxd_log(LL_ERROR, "Incoming version packet is too small (%d)", length);
return;
}
device_version_input(dev, (struct version_header *)((char*)mhdr+mux_header_size));
break;
case MUX_PROTO_CONTROL:
payload = (unsigned char *)(mhdr+1);
payload_length = length - mux_header_size;
device_control_input(dev, payload, payload_length);
break;
case MUX_PROTO_TCP:
if(length < (mux_header_size + sizeof(struct tcphdr))) {
usbmuxd_log(LL_ERROR, "Incoming TCP packet is too small (%d)", length);
return;
}
th = (struct tcphdr *)((char*)mhdr+mux_header_size);
payload = (unsigned char *)(th+1);
payload_length = length - sizeof(struct tcphdr) - mux_header_size;
device_tcp_input(dev, th, payload, payload_length);
break;
default:
usbmuxd_log(LL_ERROR, "Incoming packet for device %d has unknown protocol 0x%x)", dev->id, ntohl(mhdr->protocol));
break;
}
}
int device_add(struct usb_device *usbdev)
{
int res;
int id = get_next_device_id();
struct mux_device *dev;
usbmuxd_log(LL_NOTICE, "Connecting to new device on location 0x%x as ID %d", usb_get_location(usbdev), id);
dev = malloc(sizeof(struct mux_device));
dev->id = id;
dev->usbdev = usbdev;
dev->state = MUXDEV_INIT;
dev->visible = 0;
dev->next_sport = 1;
dev->pktbuf = malloc(DEV_MRU);
dev->pktlen = 0;
dev->preflight_cb_data = NULL;
dev->version = 0;
struct version_header vh;
vh.major = htonl(2);
vh.minor = htonl(0);
vh.padding = 0;
if((res = send_packet(dev, MUX_PROTO_VERSION, &vh, NULL, 0)) < 0) {
usbmuxd_log(LL_ERROR, "Error sending version request packet to device %d", id);
free(dev->pktbuf);
free(dev);
return res;
}
pthread_mutex_lock(&device_list_mutex);
collection_add(&device_list, dev);
pthread_mutex_unlock(&device_list_mutex);
return 0;
}
void device_remove(struct usb_device *usbdev)
{
pthread_mutex_lock(&device_list_mutex);
FOREACH(struct mux_device *dev, &device_list) {
if(dev->usbdev == usbdev) {
usbmuxd_log(LL_NOTICE, "Removed device %d on location 0x%x", dev->id, usb_get_location(usbdev));
if(dev->state == MUXDEV_ACTIVE) {
dev->state = MUXDEV_DEAD;
FOREACH(struct mux_connection *conn, &dev->connections) {
connection_teardown(conn);
} ENDFOREACH
client_device_remove(dev->id);
collection_free(&dev->connections);
}
if (dev->preflight_cb_data) {
preflight_device_remove_cb(dev->preflight_cb_data);
}
collection_remove(&device_list, dev);
pthread_mutex_unlock(&device_list_mutex);
free(dev->pktbuf);
free(dev);
return;
}
} ENDFOREACH
pthread_mutex_unlock(&device_list_mutex);
usbmuxd_log(LL_WARNING, "Cannot find device entry while removing USB device %p on location 0x%x", usbdev, usb_get_location(usbdev));
}
void device_set_visible(int device_id)
{
pthread_mutex_lock(&device_list_mutex);
FOREACH(struct mux_device *dev, &device_list) {
if(dev->id == device_id) {
dev->visible = 1;
break;
}
} ENDFOREACH
pthread_mutex_unlock(&device_list_mutex);
}
void device_set_preflight_cb_data(int device_id, void* data)
{
pthread_mutex_lock(&device_list_mutex);
FOREACH(struct mux_device *dev, &device_list) {
if(dev->id == device_id) {
dev->preflight_cb_data = data;
break;
}
} ENDFOREACH
pthread_mutex_unlock(&device_list_mutex);
}
int device_get_count(int include_hidden)
{
int count = 0;
struct collection dev_list = {NULL, 0};
pthread_mutex_lock(&device_list_mutex);
collection_copy(&dev_list, &device_list);
pthread_mutex_unlock(&device_list_mutex);
FOREACH(struct mux_device *dev, &dev_list) {
if((dev->state == MUXDEV_ACTIVE) && (include_hidden || dev->visible))
count++;
} ENDFOREACH
collection_free(&dev_list);
return count;
}
int device_get_list(int include_hidden, struct device_info **devices)
{
int count = 0;
struct collection dev_list = {NULL, 0};
pthread_mutex_lock(&device_list_mutex);
collection_copy(&dev_list, &device_list);
pthread_mutex_unlock(&device_list_mutex);
*devices = malloc(sizeof(struct device_info) * dev_list.capacity);
struct device_info *p = *devices;
FOREACH(struct mux_device *dev, &device_list) {
if((dev->state == MUXDEV_ACTIVE) && (include_hidden || dev->visible)) {
p->id = dev->id;
p->serial = usb_get_serial(dev->usbdev);
p->location = usb_get_location(dev->usbdev);
p->pid = usb_get_pid(dev->usbdev);
p->speed = usb_get_speed(dev->usbdev);
count++;
p++;
}
} ENDFOREACH
collection_free(&dev_list);
return count;
}
int device_get_timeout(void)
{
uint64_t oldest = (uint64_t)-1LL;
pthread_mutex_lock(&device_list_mutex);
FOREACH(struct mux_device *dev, &device_list) {
if(dev->state == MUXDEV_ACTIVE) {
FOREACH(struct mux_connection *conn, &dev->connections) {
if((conn->state == CONN_CONNECTED) && (conn->flags & CONN_ACK_PENDING) && conn->last_ack_time < oldest)
oldest = conn->last_ack_time;
} ENDFOREACH
}
} ENDFOREACH
pthread_mutex_unlock(&device_list_mutex);
uint64_t ct = mstime64();
if((int64_t)oldest == -1LL)
return 100000; //meh
if((ct - oldest) > ACK_TIMEOUT)
return 0;
return ACK_TIMEOUT - (ct - oldest);
}
void device_check_timeouts(void)
{
uint64_t ct = mstime64();
pthread_mutex_lock(&device_list_mutex);
FOREACH(struct mux_device *dev, &device_list) {
if(dev->state == MUXDEV_ACTIVE) {
FOREACH(struct mux_connection *conn, &dev->connections) {
if((conn->state == CONN_CONNECTED) &&
(conn->flags & CONN_ACK_PENDING) &&
(ct - conn->last_ack_time) > ACK_TIMEOUT) {
usbmuxd_log(LL_DEBUG, "Sending ACK due to expired timeout (%" PRIu64 " -> %" PRIu64 ")", conn->last_ack_time, ct);
send_tcp_ack(conn);
}
} ENDFOREACH
}
} ENDFOREACH
pthread_mutex_unlock(&device_list_mutex);
}
void device_init(void)
{
usbmuxd_log(LL_DEBUG, "device_init");
collection_init(&device_list);
pthread_mutex_init(&device_list_mutex, NULL);
next_device_id = 1;
}
void device_kill_connections(void)
{
usbmuxd_log(LL_DEBUG, "device_kill_connections");
FOREACH(struct mux_device *dev, &device_list) {
if(dev->state != MUXDEV_INIT) {
FOREACH(struct mux_connection *conn, &dev->connections) {
connection_teardown(conn);
} ENDFOREACH
}
} ENDFOREACH
// give USB a while to send the final connection RSTs and the like
usb_process_timeout(100);
}
void device_shutdown(void)
{
usbmuxd_log(LL_DEBUG, "device_shutdown");
pthread_mutex_lock(&device_list_mutex);
FOREACH(struct mux_device *dev, &device_list) {
FOREACH(struct mux_connection *conn, &dev->connections) {
connection_teardown(conn);
} ENDFOREACH
collection_free(&dev->connections);
collection_remove(&device_list, dev);
free(dev);
} ENDFOREACH
pthread_mutex_unlock(&device_list_mutex);
pthread_mutex_destroy(&device_list_mutex);
collection_free(&device_list);
}
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