浅析linux开发工具adb具体实现

wanghui_nju

3141人浏览 · 2010-05-26 19:43:00

wanghui_nju · 2010-05-26 19:43:00 发布

//===============================

adb启动shell用到的命令
export ADBHOST=192.168.100.2
adb kill-server
adb start-server
adb shell
//===============================

让我们来分析一下对应的代码
adb start-server
==>main
==>adb_commandline
==>do_cmd
==>adb_connect("host:start-server");如果是adb start-server命令
==>fd = _adb_connect("host:version");
 _adb_connect
 fd = socket_loopback_client(ADB_PORT, SOCK_STREAM);//尝试连接127.0.0.1本机ip地址对应的ADB_PORT端口server

 如果fd小于0,那么函数返回-2,否则在ADB_PORT端口打开server成功,
 snprintf(tmp, sizeof tmp, "%04x", len);
 if (writex(fd, tmp, 4) || writex(fd, service, len)) //先将4字节长度发送给server,然后发送命令数据"host:start-server"

 adb_status(fd);
 readx(fd, buf, 4);//读取server对该命令的反馈信息

 if (!memcmp(buf, "OKAY", 4))//server成功处理

 if (memcmp(buf, "FAIL", 4))//server返回了非FAIL值,那么说明server出现协议数据异常,直接退出

==>如果没有启动server,那么fd将等于-2
 if(fd == -2) {
 fprintf(stdout,"* daemon not running. starting it now */n");
 start_server:
 if(launch_server(0)) {
 fprintf(stderr,"* failed to start daemon */n");
 return -1;
 } else {
 fprintf(stdout,"* daemon started successfully */n");
 }
 /* give the server some time to start properly and detect devices */
 adb_sleep_ms(2000);
 // fall through to _adb_connect

 }
==>launch_server
==>
 pipe(fd);
 pid_t pid = fork();
 if (pid == 0) {
 //子线程[luther.gliethttp]

 adb_close(fd[0]);
 dup2(fd[1], STDERR_FILENO);//将pipe[1]的描述符dup2到stderr上,

 //因为execl操作只会装入新的执行程序代码,然后取代调用execl的child子进程继续在用户空间执行,

 //并不会改变内核空间的fd_tables[],所以execl运行的程序送往stderr上的数据就是送到parent的pipe[0]管道.

 adb_close(fd[1]);
 int result = execl(path, "adb", "fork-server", "server", NULL);
 // this should not return

 //永远不会返回到这里,因为位于用户空间的这里的代码,已经被execl操作替换成adb fork-server server程序了,

 //这里的代码已经被覆盖,不存在了,所以当然不会返回到这里了[luther.gliethttp]

 fprintf(stderr, "OOPS! execl returned %d, errno: %d/n", result, errno);
 } else {
 char temp[3];

 temp[0] = 'A'; temp[1] = 'B'; temp[2] = 'C';
 // wait for the "OK/n" message

 adb_close(fd[1]);
 int ret = adb_read(fd[0], temp, 3);//等待管道数据的到来

 /*
 static __inline__ int adb_read(int fd, void* buf, size_t len)
 {
 return read(fd, buf, len);
 }
 */
 adb_close(fd[0]);
 if (ret < 0) {
 fprintf(stderr, "could not read ok from ADB Server, errno = %d/n", errno);
 return -1;
 }
 if (ret != 3 || temp[0] != 'O' || temp[1] != 'K' || temp[2] != '/n') {
 fprintf(stderr, "ADB server didn't ACK/n" );
 return -1;
 }
 // run a program in a new session

 setsid();//之前parent和child运行在同一个session里,而且parent是session头,所以,

 //所以作为session头的parent如果exit结束执行的话,那么会话session组中的所有进程将都被杀死,

 //所以执行setsid()之后,parent将重新获得一个新的会话session组id,child将仍持有原有的会话session组,

 //这时parent退出之后,将不会影响到child了[luther.gliethttp].

 }
来看看fork之后execl执行的过程[luther.gliethttp]
adb fork-server server
==>main
==>adb_commandline
 if (!strcmp(argv[0], "fork-server")) {
 /* this is a special flag used only when the ADB client launches the ADB Server */
 is_daemon = 1;
 }

 if ((argc > 0) && (!strcmp(argv[0],"server"))) {
 if (no_daemon || is_daemon) {
 r = adb_main(is_daemon);//完成daemon启动

 } else {
 r = launch_server();
 }
 if(r) {
 fprintf(stderr,"* could not start server */n");
 }
 return r;
 }
==>adb_main
 init_transport_registration

 HOST = 1;
 usb_init();
 local_init();

 if(install_listener("tcp:5037", "*smartsocket*", NULL)) {
 exit(1);
 }
 if (is_daemon) {
 fprintf(stderr, "OK/n");//将OK传递给上面parent执行adb_read(fd[0], temp, 3);管道接收函数.

 start_logging();//打开log文件,然后dup2到stdout和stderr,

 }
 fdevent_loop();
 usb_cleanup();
//================================

void start_logging(void)
{
 int fd;

 fd = unix_open("/dev/null", O_RDONLY);
 dup2(fd, 0);//取消输入通道stdin

 fd = unix_open("/tmp/adb.log", O_WRONLY | O_CREAT | O_APPEND, 0640);//创建/tmp/adb.log文件

 if(fd < 0) {
 fd = unix_open("/dev/null", O_WRONLY);//如果不成功,那么执行/dev/null

 }
 dup2(fd, 1);//将文件句柄dup2到stdout

 dup2(fd, 2);//将文件句柄dup2到stderr

 fprintf(stderr,"--- adb starting (pid %d) ---/n", getpid());//向/tmp/adb.log文件写入log数据[luther.gliethttp]

}
//================================

void fdevent_loop()
{
 fdevent *fde;

 for(;;) {

 fdevent_process();

 while((fde = fdevent_plist_dequeue())) {
 unsigned events = fde->events;
 fde->events = 0;
 fde->state &= (~FDE_PENDING);
 dump_fde(fde, "callback");
 fde->func(fde->fd, events, fde->arg);
 }
 }
}
//================================

==>install_listener
 fdevent_install(&l->fde, l->fd, ss_listener_event_func, l);
==>fdevent_install
 fde->func = func;
 fdevent_connect(fde);
==>ss_listener_event_func
==>connect_to_smartsocket
 asocket *ss = create_smart_socket(smart_socket_action);
==>create_smart_socket
 s->enqueue = smart_socket_enqueue;
==>smart_socket_enqueue
==>handle_host_request
==>local_connect
 ...
 fd = socket_loopback_client(port, SOCK_STREAM);
#if ADB_HOST
 if(fd < 0) {
 const char *host = getenv("ADBHOST");
 if(host) {
 fd = socket_network_client(host, port, SOCK_STREAM);
 }
 }
#endif
//================================

init_transport_registration
void init_transport_registration(void)
{
 int s[2];

 if(adb_socketpair(s)){//创建一对unix通信socket

 fatal_errno("cannot open transport registration socketpair");
 }

 transport_registration_send = s[0];//用来发送

 transport_registration_recv = s[1];//用来接收

 fdevent_install(&transport_registration_fde,
 transport_registration_recv,//注册接收socket作为epoll等待信息来源

 transport_registration_func,//对接收到的数据执行处理操作的func

 0);

 fdevent_set(&transport_registration_fde, FDE_READ);//登记为READ类型

}

fdevent_install==>fdevent_register
==>fd_table[fde->fd] = fde;//这里fd_table是模拟kernel实现方式,因为fde->fd由内核获取,所以可以保证其值的唯一性.

==>fde->state |= FDE_ACTIVE;//置state为激活

fdevent_set(&transport_registration_fde, FDE_READ);
==>
void fdevent_set(fdevent *fde, unsigned events)
{
 ...
 if(fde->state & FDE_ACTIVE) {
 fdevent_update(fde, events);//刷新该fde->fd到epoll中

 dump_fde(fde, "update");
 }
 fde->state = (fde->state & FDE_STATEMASK) | events;//保存信息

 ...
}

static void fdevent_update(fdevent *fde, unsigned events)
{
 struct epoll_event ev;
 int active;

 active = (fde->state & FDE_EVENTMASK) != 0;

 memset(&ev, 0, sizeof(ev));
 ev.events = 0;//清0

 ev.data.ptr = fde;//置数据指针

 if(events & FDE_READ) ev.events |= EPOLLIN;//置in事件

 if(events & FDE_WRITE) ev.events |= EPOLLOUT;//置out事件

 if(events & FDE_ERROR) ev.events |= (EPOLLERR | EPOLLHUP);

 fde->state = (fde->state & FDE_STATEMASK) | events;

 if(active) {
 ...
 } else {
 /* we're not active. if we're watching events, we need
 ** to add, otherwise we can just do nothing
 */
 if(ev.events) {
 if(epoll_ctl(epoll_fd, EPOLL_CTL_ADD, fde->fd, &ev)) {//添加到epoll_fd中

 perror("epoll_ctl() failed/n");
 exit(1);
 }
 }
 }
}

static int epoll_fd = -1;

static void fdevent_init()
{
 /* XXX: what's a good size for the passed in hint? */
 epoll_fd = epoll_create(256);

 if(epoll_fd < 0) {
 perror("epoll_create() failed");
 exit(1);
 }

 /* mark for close-on-exec */
 fcntl(epoll_fd, F_SETFD, FD_CLOEXEC);
}

static void fdevent_process()
{
 struct epoll_event events[256];
 fdevent *fde;
 int i, n;

 n = epoll_wait(epoll_fd, events, 256, -1);//等待添加到epoll_fd中的各个fd对应event事件发生[luther.gliethttp]

 ...
 for(i = 0; i < n; i++) {
 struct epoll_event *ev = events + i;
 fde = ev->data.ptr;

 if(ev->events & EPOLLIN) {
 fde->events |= FDE_READ;
 }
 if(ev->events & EPOLLOUT) {
 fde->events |= FDE_WRITE;
 }
 if(ev->events & (EPOLLERR | EPOLLHUP)) {
 fde->events |= FDE_ERROR;
 }
 if(fde->events) {
 if(fde->state & FDE_PENDING) continue;//正在处理前一条信息

 fde->state |= FDE_PENDING;
 fdevent_plist_enqueue(fde);//放入待处理的list链表上

 }
 }
}
static void fdevent_plist_enqueue(fdevent *node)
{
 fdevent *list = &list_pending;//需要处理所有pending任务的链表

 node->next = list;
 node->prev = list->prev;
 node->prev->next = node;
 list->prev = node;
}

static fdevent *fdevent_plist_dequeue(void)//从pending任务链表摘下一个node来处理

{
 fdevent *list = &list_pending;
 fdevent *node = list->next;

 if(node == list) return 0;

 list->next = node->next;
 list->next->prev = list;
 node->next = 0;
 node->prev = 0;

 return node;
}

void fdevent_loop()
{
 fdevent *fde;

 for(;;) {

 fdevent_process();

 while((fde = fdevent_plist_dequeue())) {
 unsigned events = fde->events;
 fde->events = 0;//复位成0

 fde->state &= (~FDE_PENDING);//事件检查和前期处理完成,之后将执行事件对应的func,所以清除pending标志,允许该sock接受下一个event的添加[luther.gliethttp]

 dump_fde(fde, "callback");
 fde->func(fde->fd, events, fde->arg);
 }
 }
}

adb_main
==>init_transport_registration
==>usb_init
 adb_thread_create(&tid, device_poll_thread, NULL)//创建thread

==>local_init
 adb_thread_create(&thr, client_socket_thread, 0)//host对应的处理函数,对于client,对应server_socket_thread

transport_registration_send === transport_registration_recv [FDE_READ]=== transport_registration_func
"tcp:5037" === local_name_to_fd("tcp:5037") [FDE_READ]=== ss_listener_event_func //处理来自loopback端口5037的sock数据

 === 尝试连接到"tcp:5037"上的client们 === local_socket_event_func
并将"tcp:5037"这个sock添加到listener_list链表上

好了,我们的server已经成功起来了,来看一个命令交互:adb shell
1.本地执行adb shell
adb shell
==>main
==>adb_commandline
==>interactive_shell
==>fd = adb_connect("shell:");
 int fd = _adb_connect("host:version");//因为server在上面已经打开,所以将成功链接

 fd = socket_loopback_client(ADB_PORT, SOCK_STREAM);//打开127.0.0.1本地机tcp:5037端口

 //对于server端,fdevent_process()==>epoll_wait(epoll_fd, events, 256, -1);将返回,触发server启动时install_listener("tcp:5037", "*smartsocket*", NULL);注册登记的

 //回调函数ss_listener_event_func在fdevent_loop中被执行.

 if (memcmp(service,"host",4) != 0 && switch_socket_transport(fd))//非host命令,

//发送"host:transport-any"命令给server

 adb_status(fd);//读取"host:version"命令的返回,对于host就是调用

 //handle_host_request()==>

 //#define ADB_SERVER_VERSION 20

 //if (!strcmp(service, "version")) {

 // char version[12];

 // snprintf(version, sizeof version, "%04x", ADB_SERVER_VERSION);

 // snprintf(buf, sizeof buf, "OKAY%04x%s", (unsigned)strlen(version), version);

 // writex(reply_fd, buf, strlen(buf));

 // return 0;

 //}

 //在OKAY00040014

switch_socket_transport对于server端来说对应==>
==>handle_host_request
 if (!strncmp(service, "transport", strlen("transport"))) {
 ...
 } else if (!strncmp(service, "transport-any", strlen("transport-any"))) {
 type = kTransportAny;
 }
 ...
 transport = acquire_one_transport(CS_ANY, type, serial, &error_string);
//就是从transport_list链表上摘下一个登记了的transport,对于我们分析的adb shell就是

//init_transport_registration==>transport_registration_func==>会追加transport_list链表

//fdevent_install(&transport_registration_fde,

// transport_registration_recv,

// transport_registration_func,

// 0);

 if (transport) {
 s->transport = transport;
 adb_write(reply_fd, "OKAY", 4);
 }

int adb_status(int fd)
{
 unsigned char buf[5];
 unsigned len;

 if(readx(fd, buf, 4)) {
 strcpy(__adb_error, "protocol fault (no status)");
 return -1;
 }

 if(!memcmp(buf, "OKAY", 4)) {
 return 0;//ok,server正常返回数据,退出,进一步处理

 }

 if(memcmp(buf, "FAIL", 4)) {
 sprintf(__adb_error,
 "protocol fault (status %02x %02x %02x %02x?!)",
 buf[0], buf[1], buf[2], buf[3]);
 return -1;
 }

 if(readx(fd, buf, 4)) {//错误：读取返回数据长度

 strcpy(__adb_error, "protocol fault (status len)");
 return -1;
 }
 buf[4] = 0;
 len = strtoul((char*)buf, 0, 16);//错误：转换长度数据

 if(len > 255) len = 255;
 if(readx(fd, __adb_error, len)) {//错误：读取数据

 strcpy(__adb_error, "protocol fault (status read)");
 return -1;
 }
 __adb_error[len] = 0;
 return -1;
}

==>int adb_connect(const char *service)
==>int fd = _adb_connect("host:version");
==>
 else {
 // if server was running, check its version to make sure it is not out of date

 char buf[100];
 int n;
 int version = ADB_SERVER_VERSION - 1;//先置个非法值

 // if we have a file descriptor, then parse version result

 if(fd >= 0) {
 if(readx(fd, buf, 4)) goto error;//读取数据长度

 buf[4] = 0;
 n = strtoul(buf, 0, 16);//转换长度数据

 if(n > (int)sizeof(buf)) goto error;
 if(readx(fd, buf, n)) goto error;//读取server返回的数据

 adb_close(fd);//关闭fd

 if (sscanf(buf, "%04x", &version) != 1) goto error;//将server返回的version数据转储到version变量中

 } else {
 // if fd is -1, then check for "unknown host service",

 // which would indicate a version of adb that does not support the version command

 if (strcmp(__adb_error, "unknown host service") != 0)
 return fd;
 }

 if(version != ADB_SERVER_VERSION) {//版本不匹配

 printf("adb server is out of date. killing.../n");
 fd = _adb_connect("host:kill");
 adb_close(fd);

 /* XXX can we better detect its death? */
 adb_sleep_ms(2000);
 goto start_server;
 }
 }

 // if the command is start-server, we are done.

 if (!strcmp(service, "host:start-server"))
 return 0;
//好了,说明server正常返回了_adb_connect("host:version");命令,所以我们可以放心的传送adb_connect命令需要传送的service命令了,并为该service命令创建一个与server服务器连接句柄fd.,这里就是我们上面的fd = adb_connect("shell:");它不是host命令.

 fd = _adb_connect(service);
 if(fd == -2) {
 fprintf(stderr,"** daemon still not running");
 }

 return fd;

2.在server端
==>fdevent_process
==>fde = fdevent_plist_dequeue()
==> fde->func(fde->fd, events, fde->arg)
==>ss_listener_event_func//"tcp:5037"端口数据处理回调函数

==>fd = adb_socket_accept(_fd, &addr, &alen);//接受client的socket_loopback_client(ADB_PORT, SOCK_STREAM);连接,并为该新连接建立fd处理句柄

==>s = create_local_socket(fd);//登记新建立的套接字到fd_table[fde->fd] = fde;上,回调函数为local_socket_event_func

==>connect_to_smartsocket(s);//为该socket链接创建peer处理函数,然后调用ready==>local_socket_ready==>fdevent_add(&s->fde, FDE_READ);将本fde添加到epoll上[如果不明确调用epoll_ctl(epoll_fd, EPOLL_CTL_DEL, fde->fd, &ev);执行删除操作,那么它将永远在epoll里]等待该client发送数据过来,然后执行s->peer->enqueue(s->peer, p);数据函数,即:smart_socket_enqueue.

static void ss_listener_event_func(int _fd, unsigned ev, void *_l)
{
 asocket *s;

 if(ev & FDE_READ) {
 struct sockaddr addr;
 socklen_t alen;
 int fd;

 alen = sizeof(addr);
 fd = adb_socket_accept(_fd, &addr, &alen);//接受client的socket_loopback_client(ADB_PORT, SOCK_STREAM);连接,并为该新连接建立fd处理句柄

 if(fd < 0) return;

 adb_socket_setbufsize(fd, CHUNK_SIZE);//设置新建立的套接字缓冲大小

 s = create_local_socket(fd);//登记新建立的套接字到fd_table[fde->fd] = fde;上,回调函数为local_socket_event_func

 if(s) {
 connect_to_smartsocket(s);
//创建peer处理函数,然后调用ready==>local_socket_ready==>fdevent_add(&s->fde, FDE_READ);将本fde添加到epoll上,等待该client数据的到来,

//当接收完数据之后,调用s->peer->enqueue(s->peer, p);函数,即:smart_socket_enqueue,对数据进一步深入处理

 return;
 }

 adb_close(fd);
 }
}

asocket *create_local_socket(int fd)
{
 asocket *s = calloc(1, sizeof(asocket));
 if(s == 0) fatal("cannot allocate socket");
 install_local_socket(s);
 s->fd = fd;
 s->enqueue = local_socket_enqueue;
 s->ready = local_socket_ready;//fdevent_add(&s->fde, FDE_READ);将本fde添加到epoll上

 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;
}

void connect_to_smartsocket(asocket *s)
{
 D("Connecting to smart socket /n");
 asocket *ss = create_smart_socket(smart_socket_action);
 s->peer = ss;//创建对等的peer对象,这样彼此将互相转送数据[luther.gliethttp]

 ss->peer = s;
 s->ready(s);//调用ready==>local_socket_ready==>fdevent_add(&s->fde, FDE_READ);将本fde添加到epoll上.

}

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 == 0) fatal("cannot allocate socket");
 s->id = 0;
 s->enqueue = smart_socket_enqueue;//数据处理函数

 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;
}
3.建立的连接socket处理流程
fdevent_loop
==>local_socket_event_func//实现通过connect连接到127.0.0.1本地机tcp:5037端口上的一个client数据收发处理

 if (ev & FDE_READ) {
 ...
 adb_read(fd, x, avail);//读取client发送过来的数据

 ...
 s->peer->enqueue(s->peer, p);//将接收到的client数据递交给peer,smart_socket_enqueue()函数完成数据处理[luther.gliethttp]

 ...
 }

==>smart_socket_enqueue
 len = unhex(p->data, 4);//解出长度

 service = (char *)p->data + 4;//读取服务命令字

 //处理所有service服务命令,比如:_adb_connect("host:version");

 handle_host_request(service, ttype, serial, s->peer->fd, s)
 //返回给s->peer->fd

 //这里s->peer就是上面s = create_local_socket(fd);创建的asocket,

 //s->peer->fd就是上面fd = adb_socket_accept(_fd, &addr, &alen);由client打开的socket连接,所以

 //对s->peer->fd的数据发送将,通过本地机tcp:5037端口socket发送到client.

 create_host_service_socket//如果是一个驻留服务

 ...
 //对于我们的adb shell命令将执行到下面

 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;

 //对于我们的adb shell命令就是connect_to_remote(s->peer, "shell:");

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

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);//destination为"shell:"

 send_packet(p, s->transport);//发送remote连接命令

}

==>init_transport_registration
==>transport_registration_send = s[0];
 transport_registration_recv = s[1];//等待transport_registration_send管道数据

==>fdevent_install(&transport_registration_fde,
 transport_registration_recv,
 transport_registration_func,
 0);
==>transport_registration_func
==>fdevent_install(&(t->transport_fde),
 t->transport_socket,
 transport_socket_events,
 t);

==>register_socket_transport
==>init_socket_transport

luther@gliethttp:~$ adb devices
* daemon not running. starting it now *
* daemon started successfully *
List of devices attached
emulator-5554 device

对于host启动
adb_main
==>local_init
==>adb_thread_create(&thr, client_socket_thread, 0)//建立client_socket_thread线程

==>client_socket_thread
static void *client_socket_thread(void *x)
{
#if ADB_HOST
 #define ADB_LOCAL_TRANSPORT_PORT 5555
 int port = ADB_LOCAL_TRANSPORT_PORT;
 int count = ADB_LOCAL_TRANSPORT_MAX;

 D("transport: client_socket_thread() starting/n");

 /* try to connect to any number of running emulator instances */
 /* this is only done when ADB starts up. later, each new emulator */
 /* will send a message to ADB to indicate that is is starting up */
 for ( ; count > 0; count--, port += 2 ) {
 (void) local_connect(port);//扫描网络端口,尝试连接与本机pc连接的所有物理设备或者emulator设备

// Emulator 1, console: 5554

// Emulator 1, adb: 5555

// Emulator 2, console: 5556

// Emulator 2, adb: 5557 ...

 }
#endif
 return 0;//线程执行完毕,安全退出.

}
#define LOCAL_CLIENT_PREFIX "emulator-"
==>local_connect
int local_connect(int port)
{
 char buf[64];
 int fd = -1;

 fd = socket_loopback_client(port, SOCK_STREAM);
#if ADB_HOST
 if(fd < 0) {
 const char *host = getenv("ADBHOST");//就是上面export ADBHOST=192.168.100.2设备地址

 if(host) {
 fd = socket_network_client(host, port, SOCK_STREAM);//连接192.168.100.2上的port端口,

//对于client端见后面分析

 }
 }
#endif
 if (fd >= 0) {
 D("client: connected on remote on fd %d/n", fd);
 close_on_exec(fd);
 disable_tcp_nagle(fd);
 snprintf(buf, sizeof buf, "%s%d", LOCAL_CLIENT_PREFIX, port - 1);
 register_socket_transport(fd, buf, port);//登记到transport_list链表,作为数据传输通道之一[luther.gliethttp]

 return 0;
 }
 return -1;
}

对于手机上client启动
adb_main
==>local_init
==>adb_thread_create(&thr, server_socket_thread, 0)//建立server_socket_thread线程

==>server_socket_thread
 if(serverfd == -1) {
 serverfd = socket_inaddr_any_server(ADB_LOCAL_TRANSPORT_PORT, SOCK_STREAM);//等待ADB_LOCAL_TRANSPORT_PORT端口数据到来

 if(serverfd < 0) {
 D("server: cannot bind socket yet/n");
 adb_sleep_ms(1000);
 continue;
 }
 close_on_exec(serverfd);
 }
 fd = adb_socket_accept(serverfd, &addr, &alen);//接收到一个数据请求,

//由上面的

//==>local_connect

//==>socket_network_client(host, port, SOCK_STREAM);//连接192.168.100.2上的port端口

//发起该连接,进而执行register_socket_transport向client管理的transport_list链表登记注册

 register_socket_transport(fd,"host",ADB_LOCAL_TRANSPORT_PORT);//创建请求线程

==>register_socket_transport
==>register_transport
static void register_transport(atransport *transport)
{
 tmsg m;
 m.transport = transport;
 m.action = 1;
 D("transport: %p registered/n", transport);
 if(transport_write_action(transport_registration_send, &m)) {
 fatal_errno("cannot write transport registration socket/n");
 }
}
这样与transport_registration_send配对的transport_registration_recv将接收到该数据,并且调用已经注册好的transport_registration_func()函数来进一步处理发送过去的数据,
==>transport_registration_func
==>transport_socket_events
==>void handle_packet(apacket *p, atransport *t)
 switch (p->msg.command) {
 case A_OPEN: /* OPEN(local-id, 0, "destination") */
 if(t->connection_state != CS_OFFLINE) {
 char *name = (char*) p->data;//对于我们这里的分析就是"shell:"

 name[p->msg.data_length > 0 ? p->msg.data_length - 1 : 0] = 0;
 s = create_local_service_socket(name);//根据name创建service

 if(s == 0) {
 send_close(0, p->msg.arg0, t);
 } else {
 s->peer = create_remote_socket(p->msg.arg0, t);
 s->peer->peer = s;
 send_ready(s->id, s->peer->id, t);
 s->ready(s);
 }
 }
 break;
==>asocket *create_local_service_socket(const char *name)
 fd = service_to_fd(name);//就是ptm = unix_open("/dev/ptmx", O_RDWR);返回的主pty

 s = create_local_socket(fd);//这样sh通过pts从pty发出的数据都将通过ptm主pty发送到peer对应的fd,即pc连接到手机端的socket,然后通过网络转发到pc端,相应的,由pc端下发过来的数据将通过建立的socket读取到,然后交由该socket对应的peer,即:ptmx主pty,进而将直接被传递到pty从设备,也就是下面将要看到的/system/bin/sh程序[luther.gliethttp].

 return s;

int service_to_fd(const char *name)
==>
 else if(!HOST && !strncmp(name, "shell:", 6)) {//对于我们这里的分析就是"shell:"

#if ADB_HOST
#define SHELL_COMMAND "/bin/sh"
#else
#define SHELL_COMMAND "/system/bin/sh"//手机上的sh位置

#endif
 if(name[6]) {
 ret = create_subprocess(SHELL_COMMAND, "-c", name + 6);
 } else {
 ret = create_subprocess(SHELL_COMMAND, "-", 0);
 }
 //ret = ptm主pty句柄

#if !ADB_HOST
 } else if(!strncmp(name, "sync:", 5)) {
 ret = create_service_thread(file_sync_service, NULL);
 } else if(!strncmp(name, "remount:", 8)) {
 ret = create_service_thread(remount_service, NULL);
#endif
#if 0
 } else if(!strncmp(name, "echo:", 5)){
 ret = create_service_thread(echo_service, 0);
#endif
 }
//让我们看看create_subprocess创建sh的函数体

//使用pty虚拟终端对,来完成创建工作

static int create_subprocess(const char *cmd, const char *arg0, const char *arg1)
{
#ifdef HAVE_WIN32_PROC
 fprintf(stderr, "error: create_subprocess not implemented on Win32 (%s %s %s)/n", cmd, arg0, arg1);
 return -1;
#else /* !HAVE_WIN32_PROC */
 char *devname;
 int ptm;
 pid_t pid;
//这里cmd就是"/system/bin/sh"//手机上的sh位置

 ptm = unix_open("/dev/ptmx", O_RDWR); // | O_NOCTTY);

 if(ptm < 0){
 printf("[ cannot open /dev/ptmx - %s ]/n",strerror(errno));
 return -1;
 }
 fcntl(ptm, F_SETFD, FD_CLOEXEC);

 if(grantpt(ptm) || unlockpt(ptm) ||
 ((devname = (char*) ptsname(ptm)) == 0)){//获取从pty的设备名

 printf("[ trouble with /dev/ptmx - %s ]/n", strerror(errno));
 return -1;
 }

 pid = fork();
 if(pid < 0) {
 printf("- fork failed: %s -/n", strerror(errno));
 return -1;
 }

 if(pid == 0){
 int pts;
//子进程建立自己的新session id来和父进程完全独立开[luther.gliethttp]

 setsid();

 pts = unix_open(devname, O_RDWR);//打开pty从设备

 if(pts < 0) exit(-1);

 dup2(pts, 0);//stdin

 dup2(pts, 1);//stdout

 dup2(pts, 2);//stderr 都将被重定向到pts

 adb_close(ptm);

 execl(cmd, cmd, arg0, arg1, NULL);//执行/system/bin/sh

 fprintf(stderr, "- exec '%s' failed: %s (%d) -/n",
 cmd, strerror(errno), errno);
 exit(-1);
 } else {
 return ptm;
 }
#endif /* !HAVE_WIN32_PROC */
}

手机上的client adb执行server_socket_thread线程等待ADB_LOCAL_TRANSPORT_PORT端口发生连接请求,
pc机端执行
export ADBHOST=192.168.100.2
adb kill-server //杀死pc上的adb server

adb start-server //重新启动adb server,打开时,将client_socket_thread==>local_connect连接192.168.100.2的ADB_LOCAL_TRANSPORT_PORT端口,这样手机端的server_socket_thread线程将接收到ADB_LOCAL_TRANSPORT_PORT端口上的socket数据,然后登记该port为transport端口到transport_list链表上[luther.gliethttp]

adb shell //登录adb shell,打开/system/bin/sh在从pty上,该sh的0,1,2句柄都将dup2到pts从pty对应的子进程上,然后ptm主pty,将作为ADB_LOCAL_TRANSPORT_PORT端口上收发到数据后的转发peer对应的fd目的句柄,所以这样pc端的数据将通过socket发送到手机上的socket,手机上的socket处理函数local_socket_event_func==>local_socket_enqueue将从网络接收到的数据转发给peer,即:ptm主pty,进而被pts从pty接收,也就是传递给了将0,1,2句柄dup2到pts从pty上的/system/bin/sh应用程序,由/system/bin/sh输出的结果通过pts从pty传递给ptm主pty,然后ptm主pty,发送到peer对应的fd,即pc连接到手机端的socket,然后通过网络转发到pc端,adb的大体流程就是这个样子,当然还有很多细节,以后有时间再慢慢研究了

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