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path: root/adb/sockets.c
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/*
 * Copyright (C) 2007 The Android Open Source Project
 *
 * Licensed under the Apache License, Version 2.0 (the "License");
 * you may not use this file except in compliance with the License.
 * You may obtain a copy of the License at
 *
 *      http://www.apache.org/licenses/LICENSE-2.0
 *
 * Unless required by applicable law or agreed to in writing, software
 * distributed under the License is distributed on an "AS IS" BASIS,
 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 * See the License for the specific language governing permissions and
 * limitations under the License.
 */

#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <errno.h>
#include <string.h>
#include <ctype.h>

#include "sysdeps.h"

#define  TRACE_TAG  TRACE_SOCKETS
#include "adb.h"

ADB_MUTEX_DEFINE( socket_list_lock );

static void local_socket_close_locked(asocket *s);

int sendfailmsg(int fd, const char *reason)
{
    char buf[9];
    int len;
    len = strlen(reason);
    if(len > 0xffff) len = 0xffff;
    snprintf(buf, sizeof buf, "FAIL%04x", len);
    if(writex(fd, buf, 8)) return -1;
    return writex(fd, reason, len);
}

//extern int online;

static unsigned local_socket_next_id = 1;

static asocket local_socket_list = {
    .next = &local_socket_list,
    .prev = &local_socket_list,
};

/* the the list of currently closing local sockets.
** these have no peer anymore, but still packets to
** write to their fd.
*/
static asocket local_socket_closing_list = {
    .next = &local_socket_closing_list,
    .prev = &local_socket_closing_list,
};

asocket *find_local_socket(unsigned id)
{
    asocket *s;
    asocket *result = NULL;

    adb_mutex_lock(&socket_list_lock);
    for(s = local_socket_list.next; s != &local_socket_list && !result; s = s->next) {
        if(s->id == id) result = s;
    }
    adb_mutex_unlock(&socket_list_lock);

    return result;
}

static void
insert_local_socket(asocket*  s, asocket*  list)
{
    s->next       = list;
    s->prev       = s->next->prev;
    s->prev->next = s;
    s->next->prev = s;
}


void install_local_socket(asocket *s)
{
    adb_mutex_lock(&socket_list_lock);

    s->id = local_socket_next_id++;
    insert_local_socket(s, &local_socket_list);

    adb_mutex_unlock(&socket_list_lock);
}

void remove_socket(asocket *s)
{
    // socket_list_lock should already be held
    if (s->prev && s->next)
    {
        s->prev->next = s->next;
        s->next->prev = s->prev;
        s->next = 0;
        s->prev = 0;
        s->id = 0;
    }
}

void close_all_sockets(atransport *t)
{
    asocket *s;

        /* this is a little gross, but since s->close() *will* modify
        ** the list out from under you, your options are limited.
        */
    adb_mutex_lock(&socket_list_lock);
restart:
    for(s = local_socket_list.next; s != &local_socket_list; s = s->next){
        if(s->transport == t || (s->peer && s->peer->transport == t)) {
            local_socket_close_locked(s);
            goto restart;
        }
    }
    adb_mutex_unlock(&socket_list_lock);
}

static int local_socket_enqueue(asocket *s, apacket *p)
{
    D("LS(%d): enqueue %d\n", s->id, p->len);

    p->ptr = p->data;

        /* if there is already data queue'd, we will receive
        ** events when it's time to write.  just add this to
        ** the tail
        */
    if(s->pkt_first) {
        goto enqueue;
    }

        /* write as much as we can, until we
        ** would block or there is an error/eof
        */
    while(p->len > 0) {
        int r = adb_write(s->fd, p->ptr, p->len);
        if(r > 0) {
            p->len -= r;
            p->ptr += r;
            continue;
        }
        if((r == 0) || (errno != EAGAIN)) {
            D( "LS(%d): not ready, errno=%d: %s\n", s->id, errno, strerror(errno) );
            s->close(s);
            return 1; /* not ready (error) */
        } else {
            break;
        }
    }

    if(p->len == 0) {
        put_apacket(p);
        return 0; /* ready for more data */
    }

enqueue:
    p->next = 0;
    if(s->pkt_first) {
        s->pkt_last->next = p;
    } else {
        s->pkt_first = p;
    }
    s->pkt_last = p;

        /* make sure we are notified when we can drain the queue */
    fdevent_add(&s->fde, FDE_WRITE);

    return 1; /* not ready (backlog) */
}

static void local_socket_ready(asocket *s)
{
        /* far side is ready for data, pay attention to
           readable events */
    fdevent_add(&s->fde, FDE_READ);
//    D("LS(%d): ready()\n", s->id);
}

static void local_socket_close(asocket *s)
{
    adb_mutex_lock(&socket_list_lock);
    local_socket_close_locked(s);
    adb_mutex_unlock(&socket_list_lock);
}

// be sure to hold the socket list lock when calling this
static void local_socket_destroy(asocket  *s)
{
    apacket *p, *n;

        /* IMPORTANT: the remove closes the fd
        ** that belongs to this socket
        */
    fdevent_remove(&s->fde);

        /* dispose of any unwritten data */
    for(p = s->pkt_first; p; p = n) {
        D("LS(%d): discarding %d bytes\n", s->id, p->len);
        n = p->next;
        put_apacket(p);
    }
    remove_socket(s);
    free(s);
}


static void local_socket_close_locked(asocket *s)
{
    if(s->peer) {
        s->peer->peer = 0;
        // tweak to avoid deadlock
        if (s->peer->close == local_socket_close)
            local_socket_close_locked(s->peer);
        else
            s->peer->close(s->peer);
    }

        /* If we are already closing, or if there are no
        ** pending packets, destroy immediately
        */
    if (s->closing || s->pkt_first == NULL) {
        int   id = s->id;
        local_socket_destroy(s);
        D("LS(%d): closed\n", id);
        return;
    }

        /* otherwise, put on the closing list
        */
    D("LS(%d): closing\n", s->id);
    s->closing = 1;
    fdevent_del(&s->fde, FDE_READ);
    remove_socket(s);
    insert_local_socket(s, &local_socket_closing_list);
}

static void local_socket_event_func(int fd, unsigned ev, void *_s)
{
    asocket *s = _s;

    /* put the FDE_WRITE processing before the FDE_READ
    ** in order to simplify the code.
    */
    if(ev & FDE_WRITE){
        apacket *p;

        while((p = s->pkt_first) != 0) {
            while(p->len > 0) {
                int r = adb_write(fd, p->ptr, p->len);
                if(r > 0) {
                    p->ptr += r;
                    p->len -= r;
                    continue;
                }
                if(r < 0) {
                    /* returning here is ok because FDE_READ will
                    ** be processed in the next iteration loop
                    */
                    if(errno == EAGAIN) return;
                    if(errno == EINTR) continue;
                }
                s->close(s);
                return;
            }

            if(p->len == 0) {
                s->pkt_first = p->next;
                if(s->pkt_first == 0) s->pkt_last = 0;
                put_apacket(p);
            }
        }

            /* if we sent the last packet of a closing socket,
            ** we can now destroy it.
            */
        if (s->closing) {
            s->close(s);
            return;
        }

            /* no more packets queued, so we can ignore
            ** writable events again and tell our peer
            ** to resume writing
            */
        fdevent_del(&s->fde, FDE_WRITE);
        s->peer->ready(s->peer);
    }


    if(ev & FDE_READ){
        apacket *p = get_apacket();
        unsigned char *x = p->data;
        size_t avail = MAX_PAYLOAD;
        int r;
        int is_eof = 0;

        while(avail > 0) {
            r = adb_read(fd, x, avail);
            if(r > 0) {
                avail -= r;
                x += r;
                continue;
            }
            if(r < 0) {
                if(errno == EAGAIN) break;
                if(errno == EINTR) continue;
            }

                /* r = 0 or unhandled error */
            is_eof = 1;
            break;
        }

        if((avail == MAX_PAYLOAD) || (s->peer == 0)) {
            put_apacket(p);
        } else {
            p->len = MAX_PAYLOAD - avail;

            r = s->peer->enqueue(s->peer, p);

            if(r < 0) {
                    /* error return means they closed us as a side-effect
                    ** and we must return immediately.
                    **
                    ** note that if we still have buffered packets, the
                    ** socket will be placed on the closing socket list.
                    ** this handler function will be called again
                    ** to process FDE_WRITE events.
                    */
                return;
            }

            if(r > 0) {
                    /* if the remote cannot accept further events,
                    ** we disable notification of READs.  They'll
                    ** be enabled again when we get a call to ready()
                    */
                fdevent_del(&s->fde, FDE_READ);
            }
        }

        if(is_eof) {
            s->close(s);
        }
    }

    if(ev & FDE_ERROR){
            /* this should be caught be the next read or write
            ** catching it here means we may skip the last few
            ** bytes of readable data.
            */
//        s->close(s);
        return;
    }
}

asocket *create_local_socket(int fd)
{
    asocket *s = calloc(1, sizeof(asocket));
    if (s == NULL) fatal("cannot allocate socket");
    install_local_socket(s);
    s->fd = fd;
    s->enqueue = local_socket_enqueue;
    s->ready = local_socket_ready;
    s->close = local_socket_close;

    fdevent_install(&s->fde, fd, local_socket_event_func, s);
/*    fdevent_add(&s->fde, FDE_ERROR); */
    //fprintf(stderr, "Created local socket in create_local_socket \n");
    D("LS(%d): created (fd=%d)\n", s->id, s->fd);
    return s;
}

asocket *create_local_service_socket(const char *name)
{
    asocket *s;
    int fd;

#if !ADB_HOST
    if (!strcmp(name,"jdwp")) {
        return create_jdwp_service_socket();
    }
    if (!strcmp(name,"track-jdwp")) {
        return create_jdwp_tracker_service_socket();
    }
#endif
    fd = service_to_fd(name);
    if(fd < 0) return 0;

    s = create_local_socket(fd);
    D("LS(%d): bound to '%s'\n", s->id, name);
    return s;
}

#if ADB_HOST
static asocket *create_host_service_socket(const char *name, const char* serial)
{
    asocket *s;

    s = host_service_to_socket(name, serial);

    if (s != NULL) {
        D("LS(%d) bound to '%s'\n", s->id, name);
        return s;
    }

    return s;
}
#endif /* ADB_HOST */

/* a Remote socket is used to send/receive data to/from a given transport object
** it needs to be closed when the transport is forcibly destroyed by the user
*/
typedef struct aremotesocket {
    asocket      socket;
    adisconnect  disconnect;
} aremotesocket;

static int remote_socket_enqueue(asocket *s, apacket *p)
{
    D("Calling remote_socket_enqueue\n");
    p->msg.command = A_WRTE;
    p->msg.arg0 = s->peer->id;
    p->msg.arg1 = s->id;
    p->msg.data_length = p->len;
    send_packet(p, s->transport);
    return 1;
}

static void remote_socket_ready(asocket *s)
{
    D("Calling remote_socket_ready\n");
    apacket *p = get_apacket();
    p->msg.command = A_OKAY;
    p->msg.arg0 = s->peer->id;
    p->msg.arg1 = s->id;
    send_packet(p, s->transport);
}

static void remote_socket_close(asocket *s)
{
    D("Calling remote_socket_close\n");
    apacket *p = get_apacket();
    p->msg.command = A_CLSE;
    if(s->peer) {
        p->msg.arg0 = s->peer->id;
        s->peer->peer = 0;
        s->peer->close(s->peer);
    }
    p->msg.arg1 = s->id;
    send_packet(p, s->transport);
    D("RS(%d): closed\n", s->id);
    remove_transport_disconnect( s->transport, &((aremotesocket*)s)->disconnect );
    free(s);
}

static void remote_socket_disconnect(void*  _s, atransport*  t)
{
    asocket*  s    = _s;
    asocket*  peer = s->peer;

    D("remote_socket_disconnect RS(%d)\n", s->id);
    if (peer) {
        peer->peer = NULL;
        peer->close(peer);
    }
    remove_transport_disconnect( s->transport, &((aremotesocket*)s)->disconnect );
    free(s);
}

asocket *create_remote_socket(unsigned id, atransport *t)
{
    asocket *s = calloc(1, sizeof(aremotesocket));
    adisconnect*  dis = &((aremotesocket*)s)->disconnect;

    if (s == NULL) fatal("cannot allocate socket");
    s->id = id;
    s->enqueue = remote_socket_enqueue;
    s->ready = remote_socket_ready;
    s->close = remote_socket_close;
    s->transport = t;

    dis->func   = remote_socket_disconnect;
    dis->opaque = s;
    add_transport_disconnect( t, dis );
    D("RS(%d): created\n", s->id);
    return s;
}

void connect_to_remote(asocket *s, const char *destination)
{
    D("Connect_to_remote call \n");
    apacket *p = get_apacket();
    int len = strlen(destination) + 1;

    if(len > (MAX_PAYLOAD-1)) {
        fatal("destination oversized");
    }

    D("LS(%d): connect('%s')\n", s->id, destination);
    p->msg.command = A_OPEN;
    p->msg.arg0 = s->id;
    p->msg.data_length = len;
    strcpy((char*) p->data, destination);
    send_packet(p, s->transport);
}


/* this is used by magic sockets to rig local sockets to
   send the go-ahead message when they connect */
static void local_socket_ready_notify(asocket *s)
{
    s->ready = local_socket_ready;
    s->close = local_socket_close;
    adb_write(s->fd, "OKAY", 4);
    s->ready(s);
}

/* this is used by magic sockets to rig local sockets to
   send the failure message if they are closed before
   connected (to avoid closing them without a status message) */
static void local_socket_close_notify(asocket *s)
{
    s->ready = local_socket_ready;
    s->close = local_socket_close;
    sendfailmsg(s->fd, "closed");
    s->close(s);
}

unsigned unhex(unsigned char *s, int len)
{
    unsigned n = 0, c;

    while(len-- > 0) {
        switch((c = *s++)) {
        case '0': case '1': case '2':
        case '3': case '4': case '5':
        case '6': case '7': case '8':
        case '9':
            c -= '0';
            break;
        case 'a': case 'b': case 'c':
        case 'd': case 'e': case 'f':
            c = c - 'a' + 10;
            break;
        case 'A': case 'B': case 'C':
        case 'D': case 'E': case 'F':
            c = c - 'A' + 10;
            break;
        default:
            return 0xffffffff;
        }

        n = (n << 4) | c;
    }

    return n;
}

static int smart_socket_enqueue(asocket *s, apacket *p)
{
    unsigned len;
#if ADB_HOST
    char *service = NULL;
    char* serial = NULL;
    transport_type ttype = kTransportAny;
#endif

    D("SS(%d): enqueue %d\n", s->id, p->len);

    if(s->pkt_first == 0) {
        s->pkt_first = p;
        s->pkt_last = p;
    } else {
        if((s->pkt_first->len + p->len) > MAX_PAYLOAD) {
            D("SS(%d): overflow\n", s->id);
            put_apacket(p);
            goto fail;
        }

        memcpy(s->pkt_first->data + s->pkt_first->len,
               p->data, p->len);
        s->pkt_first->len += p->len;
        put_apacket(p);

        p = s->pkt_first;
    }

        /* don't bother if we can't decode the length */
    if(p->len < 4) return 0;

    len = unhex(p->data, 4);
    if((len < 1) ||  (len > 1024)) {
        D("SS(%d): bad size (%d)\n", s->id, len);
        goto fail;
    }

    D("SS(%d): len is %d\n", s->id, len );
        /* can't do anything until we have the full header */
    if((len + 4) > p->len) {
        D("SS(%d): waiting for %d more bytes\n", s->id, len+4 - p->len);
        return 0;
    }

    p->data[len + 4] = 0;

    D("SS(%d): '%s'\n", s->id, (char*) (p->data + 4));

#if ADB_HOST
    service = (char *)p->data + 4;
    if(!strncmp(service, "host-serial:", strlen("host-serial:"))) {
        char* serial_end;
        service += strlen("host-serial:");

        // serial number should follow "host:"
        serial_end = strchr(service, ':');
        if (serial_end) {
            *serial_end = 0; // terminate string
            serial = service;
            service = serial_end + 1;
        }
    } else if (!strncmp(service, "host-usb:", strlen("host-usb:"))) {
        ttype = kTransportUsb;
        service += strlen("host-usb:");
    } else if (!strncmp(service, "host-local:", strlen("host-local:"))) {
        ttype = kTransportLocal;
        service += strlen("host-local:");
    } else if (!strncmp(service, "host:", strlen("host:"))) {
        ttype = kTransportAny;
        service += strlen("host:");
    } else {
        service = NULL;
    }

    if (service) {
        asocket *s2;

            /* some requests are handled immediately -- in that
            ** case the handle_host_request() routine has sent
            ** the OKAY or FAIL message and all we have to do
            ** is clean up.
            */
        if(handle_host_request(service, ttype, serial, s->peer->fd, s) == 0) {
                /* XXX fail message? */
            D( "SS(%d): handled host service '%s'\n", s->id, service );
            goto fail;
        }
        if (!strncmp(service, "transport", strlen("transport"))) {
            D( "SS(%d): okay transport\n", s->id );
            p->len = 0;
            return 0;
        }

            /* try to find a local service with this name.
            ** if no such service exists, we'll fail out
            ** and tear down here.
            */
        s2 = create_host_service_socket(service, serial);
        if(s2 == 0) {
            D( "SS(%d): couldn't create host service '%s'\n", s->id, service );
            sendfailmsg(s->peer->fd, "unknown host service");
            goto fail;
        }

            /* we've connected to a local host service,
            ** so we make our peer back into a regular
            ** local socket and bind it to the new local
            ** service socket, acknowledge the successful
            ** connection, and close this smart socket now
            ** that its work is done.
            */
        adb_write(s->peer->fd, "OKAY", 4);

        s->peer->ready = local_socket_ready;
        s->peer->close = local_socket_close;
        s->peer->peer = s2;
        s2->peer = s->peer;
        s->peer = 0;
        D( "SS(%d): okay\n", s->id );
        s->close(s);

            /* initial state is "ready" */
        s2->ready(s2);
        return 0;
    }
#else /* !ADB_HOST */
    if (s->transport == NULL) {
        char* error_string = "unknown failure";
        s->transport = acquire_one_transport (CS_ANY,
                kTransportAny, NULL, &error_string);

        if (s->transport == NULL) {
            sendfailmsg(s->peer->fd, error_string);
            goto fail;
        }
    }
#endif

    if(!(s->transport) || (s->transport->connection_state == CS_OFFLINE)) {
           /* if there's no remote we fail the connection
            ** right here and terminate it
            */
        sendfailmsg(s->peer->fd, "device offline (x)");
        goto fail;
    }


        /* instrument our peer to pass the success or fail
        ** message back once it connects or closes, then
        ** detach from it, request the connection, and
        ** tear down
        */
    s->peer->ready = local_socket_ready_notify;
    s->peer->close = local_socket_close_notify;
    s->peer->peer = 0;
        /* give him our transport and upref it */
    s->peer->transport = s->transport;

    connect_to_remote(s->peer, (char*) (p->data + 4));
    s->peer = 0;
    s->close(s);
    return 1;

fail:
        /* we're going to close our peer as a side-effect, so
        ** return -1 to signal that state to the local socket
        ** who is enqueueing against us
        */
    s->close(s);
    return -1;
}

static void smart_socket_ready(asocket *s)
{
    D("SS(%d): ready\n", s->id);
}

static void smart_socket_close(asocket *s)
{
    D("SS(%d): closed\n", s->id);
    if(s->pkt_first){
        put_apacket(s->pkt_first);
    }
    if(s->peer) {
        s->peer->peer = 0;
        s->peer->close(s->peer);
    }
    free(s);
}

asocket *create_smart_socket(void (*action_cb)(asocket *s, const char *act))
{
    D("Creating smart socket \n");
    asocket *s = calloc(1, sizeof(asocket));
    if (s == NULL) fatal("cannot allocate socket");
    s->enqueue = smart_socket_enqueue;
    s->ready = smart_socket_ready;
    s->close = smart_socket_close;
    s->extra = action_cb;

    D("SS(%d): created %p\n", s->id, action_cb);
    return s;
}

void smart_socket_action(asocket *s, const char *act)
{

}

void connect_to_smartsocket(asocket *s)
{
    D("Connecting to smart socket \n");
    asocket *ss = create_smart_socket(smart_socket_action);
    s->peer = ss;
    ss->peer = s;
    s->ready(s);
}