minix/servers/pfs/dev_uds.c

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/*
* Unix Domain Sockets Implementation (PF_UNIX, PF_LOCAL)
* This code handles requests generated by operations on /dev/uds
*
* The entry points into this file are...
*
* uds_open: handles the open(2) syscall on /dev/uds
* uds_close: handles the close(2) syscall on /dev/uds
* uds_select: handles the select(2) syscall on /dev/uds
* uds_read: handles the read(2) syscall on /dev/uds
* uds_write: handles the write(2) syscall on /dev/uds
* uds_ioctl: handles the ioctl(2) syscall on /dev/uds
* uds_status: handles status requests.
* uds_cancel: handles cancelled syscalls.
*
* Also See...
*
* table.c, uds.c, uds.h
*
* Overview
*
* The interface to unix domain sockets is similar to the
* the interface to network sockets. There is a character
* device (/dev/uds) that uses STYLE_CLONE and this server
* is a 'driver' for that device.
*/
#define DEBUG 0
#include "inc.h"
#include "const.h"
#include "glo.h"
#include "uds.h"
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FORWARD _PROTOTYPE( int uds_perform_read, (int minor, endpoint_t m_source,
size_t size, int pretend));
FORWARD _PROTOTYPE( int uds_perform_write, (int minor, endpoint_t m_source,
size_t size, int pretend));
PUBLIC int uds_open(message *dev_m_in, message *dev_m_out)
{
message fs_m_in, fs_m_out;
struct ucred ucred;
int rc, i;
int minor;
#if DEBUG == 1
static int call_count = 0;
printf("(uds) [%d] uds_open() call_count=%d\n", uds_minor(dev_m_in),
++call_count);
printf("Endpoint: 0x%x\n", dev_m_in->USER_ENDPT);
#endif
/*
* Find a slot in the descriptor table for the new descriptor.
* The index of the descriptor in the table will be returned.
* Subsequent calls to read/write/close/ioctl/etc will use this
* minor number. The minor number must be different from the
* the /dev/uds device's minor number (currently 0).
*/
minor = -1; /* to trap error */
for (i = 1; i < NR_FDS; i++) {
if (uds_fd_table[i].state == UDS_FREE) {
minor = i;
break;
}
}
if (minor == -1) {
/* descriptor table full */
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uds_set_reply(dev_m_out, DEV_OPEN_REPL, dev_m_in->USER_ENDPT,
(cp_grant_id_t) dev_m_in->IO_GRANT, ENFILE);
return ENFILE;
}
/*
* We found a slot in uds_fd_table, now initialize the descriptor
*/
/* mark this one as 'in use' so that it doesn't get assigned to
* another socket
*/
uds_fd_table[minor].state = UDS_INUSE;
/* track the system call we are performing in case it gets cancelled */
uds_fd_table[minor].call_nr = dev_m_in->m_type;
uds_fd_table[minor].ioctl = 0;
uds_fd_table[minor].syscall_done = 0;
/* set the socket owner */
uds_fd_table[minor].owner = dev_m_in->USER_ENDPT;
uds_fd_table[minor].endpoint = dev_m_in->USER_ENDPT;
/* setup select(2) framework */
uds_fd_table[minor].selecting = 0;
uds_fd_table[minor].select_proc = 0;
uds_fd_table[minor].sel_ops_in = 0;
uds_fd_table[minor].sel_ops_out = 0;
uds_fd_table[minor].status_updated = 0;
/* initialize the data pointer (pos) to the start of the PIPE */
uds_fd_table[minor].pos = 0;
/* the PIPE is initially empty */
uds_fd_table[minor].size = 0;
/* the default for a new socket is to allow reading and writing.
* shutdown(2) will remove one or both flags.
*/
uds_fd_table[minor].mode = S_IRUSR|S_IWUSR;
/* In libc socket(2) sets this to the actual value later with the
* NWIOSUDSTYPE ioctl().
*/
uds_fd_table[minor].type = -1;
/* Clear the backlog by setting each entry to -1 */
for (i = 0; i < UDS_SOMAXCONN; i++) {
/* initially no connections are pending */
uds_fd_table[minor].backlog[i] = -1;
}
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memset(&uds_fd_table[minor].ancillary_data, '\0', sizeof(struct
ancillary));
for (i = 0; i < OPEN_MAX; i++) {
uds_fd_table[minor].ancillary_data.fds[i] = -1;
}
/* default the size to UDS_SOMAXCONN */
uds_fd_table[minor].backlog_size = UDS_SOMAXCONN;
/* the socket isn't listening for incoming connections until
* listen(2) is called
*/
uds_fd_table[minor].listening = 0;
/* initially the socket is not connected to a peer */
uds_fd_table[minor].peer = -1;
/* there isn't a child waiting to be accept(2)'d */
uds_fd_table[minor].child = -1;
/* initially the socket is not bound or listening on an address */
memset(&(uds_fd_table[minor].addr), '\0', sizeof(struct sockaddr_un));
memset(&(uds_fd_table[minor].source), '\0', sizeof(struct sockaddr_un));
memset(&(uds_fd_table[minor].target), '\0', sizeof(struct sockaddr_un));
/* Initially the socket isn't suspended. */
uds_fd_table[minor].suspended = UDS_NOT_SUSPENDED;
/* and the socket doesn't have an I/O grant initially */
uds_fd_table[minor].io_gr = (cp_grant_id_t) 0;
/* since there is no I/O grant it effectively has no size either */
uds_fd_table[minor].io_gr_size = 0;
/* The process isn't suspended so we don't flag it as revivable */
uds_fd_table[minor].ready_to_revive = 0;
/* get the effective user id and effective group id from the endpoint */
/* this is needed in the REQ_NEWNODE request to PFS. */
rc = getnucred(uds_fd_table[minor].endpoint, &ucred);
if (rc == -1) {
/* roll back the changes we made to the descriptor */
memset(&(uds_fd_table[minor]), '\0', sizeof(uds_fd_t));
/* likely error: invalid endpoint / proc doesn't exist */
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uds_set_reply(dev_m_out, DEV_OPEN_REPL, dev_m_in->USER_ENDPT,
(cp_grant_id_t) dev_m_in->IO_GRANT, errno);
return errno;
}
/* Prepare Request to the FS side of PFS */
fs_m_in.m_type = REQ_NEWNODE;
fs_m_in.REQ_MODE = I_NAMED_PIPE;
fs_m_in.REQ_DEV = NO_DEV;
fs_m_in.REQ_UID = ucred.uid;
fs_m_in.REQ_GID = ucred.gid;
/* Request a new inode on the pipe file system */
rc = fs_newnode(&fs_m_in, &fs_m_out);
if (rc != OK) {
/* roll back the changes we made to the descriptor */
memset(&(uds_fd_table[minor]), '\0', sizeof(uds_fd_t));
/* likely error: get_block() failed */
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uds_set_reply(dev_m_out, DEV_OPEN_REPL, dev_m_in->USER_ENDPT,
(cp_grant_id_t) dev_m_in->IO_GRANT, rc);
return rc;
}
/* Process the response */
uds_fd_table[minor].inode_nr = fs_m_out.RES_INODE_NR;
/* prepare the reply */
uds_fd_table[minor].syscall_done = 1;
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uds_set_reply(dev_m_out, DEV_OPEN_REPL, dev_m_in->USER_ENDPT,
(cp_grant_id_t) dev_m_in->IO_GRANT, minor);
return minor;
}
PUBLIC int uds_close(message *dev_m_in, message *dev_m_out)
{
int minor;
message fs_m_in, fs_m_out;
int rc;
#if DEBUG == 1
static int call_count = 0;
printf("(uds) [%d] uds_close() call_count=%d\n", uds_minor(dev_m_in),
++call_count);
printf("Endpoint: 0x%x\n", dev_m_in->USER_ENDPT);
#endif
minor = uds_minor(dev_m_in);
if (uds_fd_table[minor].state != UDS_INUSE) {
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/* attempted to close a socket that hasn't been opened --
* something is very wrong :(
*/
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uds_set_reply(dev_m_out, DEV_CLOSE_REPL, dev_m_in->USER_ENDPT,
(cp_grant_id_t) dev_m_in->IO_GRANT, EINVAL);
return EINVAL;
}
/* no need to track the syscall in case of cancellation. close() is
* atomic and can't be cancelled. no need to update the endpoint here,
* we won't be needing it to kill the socket
*/
/* if the socket is connected, disconnect it */
if (uds_fd_table[minor].peer != -1) {
/* set peer of this peer to -1 */
uds_fd_table[uds_fd_table[minor].peer].peer = -1;
/* error to pass to peer */
uds_fd_table[uds_fd_table[minor].peer].err = ECONNRESET;
/* if peer was blocked on I/O revive peer */
if (uds_fd_table[uds_fd_table[minor].peer].suspended) {
int peer = uds_fd_table[minor].peer;
uds_fd_table[peer].ready_to_revive = 1;
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uds_unsuspend(dev_m_in->m_source, peer);
}
}
if (uds_fd_table[minor].ancillary_data.nfiledes > 0) {
clear_fds(minor, &(uds_fd_table[minor].ancillary_data));
}
/* Prepare Request to the FS side of PFS */
fs_m_in.m_type = REQ_PUTNODE;
fs_m_in.REQ_INODE_NR = uds_fd_table[minor].inode_nr;
fs_m_in.REQ_COUNT = 1;
/* set the socket back to its original UDS_FREE state */
memset(&(uds_fd_table[minor]), '\0', sizeof(uds_fd_t));
/* Request the removal of the inode from the pipe file system */
rc = fs_putnode(&fs_m_in, &fs_m_out);
if (rc != OK) {
perror("fs_putnode");
/* likely error: get_block() failed */
return rc;
}
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uds_set_reply(dev_m_out, DEV_CLOSE_REPL, dev_m_in->USER_ENDPT,
(cp_grant_id_t) dev_m_in->IO_GRANT, OK);
return OK;
}
PUBLIC int uds_select(message *dev_m_in, message *dev_m_out)
{
int i, bytes;
int minor;
#if DEBUG == 1
static int call_count = 0;
printf("(uds) [%d] uds_select() call_count=%d\n", uds_minor(dev_m_in),
++call_count);
printf("Endpoint: 0x%x\n", dev_m_in->USER_ENDPT);
#endif
minor = uds_minor(dev_m_in);
if (uds_fd_table[minor].state != UDS_INUSE) {
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/* attempted to close a socket that hasn't been opened --
* something is very wrong :(
*/
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uds_sel_reply(dev_m_out, DEV_SEL_REPL1, minor, EINVAL);
return EINVAL;
}
/* setup select(2) framework */
uds_fd_table[minor].selecting = 1;
uds_fd_table[minor].select_proc = dev_m_in->m_source;
/* track the system call we are performing in case it gets cancelled */
uds_fd_table[minor].call_nr = dev_m_in->m_type;
uds_fd_table[minor].ioctl = 0;
uds_fd_table[minor].syscall_done = 0;
/* Can't update the process endpoint here, no info. */
uds_fd_table[minor].sel_ops_in = dev_m_in->USER_ENDPT;
uds_fd_table[minor].sel_ops_out = 0;
/* check if there is data available to read */
bytes = uds_perform_read(minor, dev_m_in->m_source, 1, 1);
if (bytes > 0) {
/* there is data in the pipe for us to read */
uds_fd_table[minor].sel_ops_out |= SEL_RD;
} else if (uds_fd_table[minor].listening == 1) {
/* check for pending connections */
for (i = 0; i < uds_fd_table[minor].backlog_size; i++) {
if (uds_fd_table[minor].backlog[i] != -1) {
uds_fd_table[minor].sel_ops_out |= SEL_RD;
break;
}
}
}
/* check if we can write without blocking */
bytes = uds_perform_write(minor, dev_m_in->m_source, PIPE_BUF, 1);
if (bytes > 0) {
uds_fd_table[minor].sel_ops_out |= SEL_WR;
}
uds_fd_table[minor].syscall_done = 1;
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uds_sel_reply(dev_m_out, DEV_SEL_REPL1, minor,
uds_fd_table[minor].sel_ops_out);
return uds_fd_table[minor].sel_ops_out;
}
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PRIVATE int uds_perform_read(int minor, endpoint_t m_source,
size_t size, int pretend)
{
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int rc;
message fs_m_in;
message fs_m_out;
#if DEBUG == 1
static int call_count = 0;
printf("(uds) [%d] uds_perform_read() call_count=%d\n", minor,
++call_count);
#endif
/* skip reads and writes of 0 (or less!) bytes */
if (size <= 0) {
return 0;
}
/* check if we are allowed to read */
if (!(uds_fd_table[minor].mode & S_IRUSR)) {
/* socket is shutdown for reading */
return EPIPE;
}
if (uds_fd_table[minor].size == 0) {
if (pretend) {
return SUSPEND;
}
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/* maybe a process is blocked waiting to write? if
* needed revive the writer
*/
if (uds_fd_table[minor].peer != -1 &&
uds_fd_table[uds_fd_table[minor].peer].suspended) {
int peer = uds_fd_table[minor].peer;
uds_fd_table[peer].ready_to_revive = 1;
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uds_unsuspend(m_source, peer);
}
#if DEBUG == 1
printf("(uds) [%d] suspending read request\n", minor);
#endif
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/* Process is reading from an empty pipe,
* suspend it so some bytes can be written
*/
uds_fd_table[minor].suspended = UDS_SUSPENDED_READ;
return SUSPEND;
}
if (pretend) {
return (size > uds_fd_table[minor].size) ?
uds_fd_table[minor].size : size;
}
/* Prepare Request to the FS side of PFS */
fs_m_in.m_type = REQ_READ;
fs_m_in.REQ_INODE_NR = uds_fd_table[minor].inode_nr;
fs_m_in.REQ_GRANT = uds_fd_table[minor].io_gr;
fs_m_in.REQ_SEEK_POS_HI = 0;
fs_m_in.REQ_SEEK_POS_LO = uds_fd_table[minor].pos;
fs_m_in.REQ_NBYTES = (size > uds_fd_table[minor].size) ?
uds_fd_table[minor].size : size;
/* perform the read */
rc = fs_readwrite(&fs_m_in, &fs_m_out);
if (rc != OK) {
perror("fs_readwrite");
return rc;
}
/* Process the response */
#if DEBUG == 1
printf("(uds) [%d] read complete\n", minor);
#endif
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/* move the position of the data pointer up to data we haven't
* read yet
*/
uds_fd_table[minor].pos += fs_m_out.RES_NBYTES;
/* decrease the number of unread bytes */
uds_fd_table[minor].size -= fs_m_out.RES_NBYTES;
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/* if we have 0 unread bytes, move the data pointer back to the
* start of the buffer
*/
if (uds_fd_table[minor].size == 0) {
uds_fd_table[minor].pos = 0;
}
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/* maybe a big write was waiting for us to read some data, if
* needed revive the writer
*/
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if (uds_fd_table[minor].peer != -1 &&
uds_fd_table[uds_fd_table[minor].peer].suspended) {
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int peer = uds_fd_table[minor].peer;
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uds_fd_table[peer].ready_to_revive = 1;
uds_unsuspend(m_source, peer);
}
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/* see if peer is blocked on select() and a write is possible
* (from peer to minor)
*/
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if (uds_fd_table[minor].peer != -1 &&
uds_fd_table[uds_fd_table[minor].peer].selecting == 1 &&
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(uds_fd_table[minor].size + uds_fd_table[minor].pos + 1
< PIPE_BUF)) {
int peer = uds_fd_table[minor].peer;
/* if the peer wants to know about write being possible
* and it doesn't know about it already, then let the peer know.
*/
if ((uds_fd_table[peer].sel_ops_in & SEL_WR) &&
!(uds_fd_table[peer].sel_ops_out & SEL_WR)) {
/* a write on peer is possible now */
uds_fd_table[peer].sel_ops_out |= SEL_WR;
uds_fd_table[peer].status_updated = 1;
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uds_unsuspend(m_source, peer);
}
}
return fs_m_out.RES_NBYTES; /* return number of bytes read */
}
PRIVATE int uds_perform_write(int minor, endpoint_t m_source,
size_t size, int pretend)
{
int rc, peer, i;
message fs_m_in;
message fs_m_out;
#if DEBUG == 1
static int call_count = 0;
printf("(uds) [%d] uds_perform_write() call_count=%d\n", minor,
++call_count);
#endif
/* skip reads and writes of 0 (or less!) bytes */
if (size <= 0) {
return 0;
}
/* check if we are allowed to write */
if (!(uds_fd_table[minor].mode & S_IWUSR)) {
/* socket is shutdown for writing */
return EPIPE;
}
if (size > PIPE_BUF) {
/* message is too big to ever write to the PIPE */
return EMSGSIZE;
}
if (uds_fd_table[minor].type == SOCK_STREAM ||
uds_fd_table[minor].type == SOCK_SEQPACKET) {
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/* if we're writing with a connection oriented socket,
* then it needs a peer to write to
*/
if (uds_fd_table[minor].peer == -1) {
if (uds_fd_table[minor].err == ECONNRESET) {
uds_fd_table[minor].err = 0;
return ECONNRESET;
} else {
return ENOTCONN;
}
} else {
peer = uds_fd_table[minor].peer;
}
} else /* uds_fd_table[minor].type == SOCK_DGRAM */ {
peer = -1;
/* locate the "peer" we want to write to */
for (i = 0; i < NR_FDS; i++) {
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/* look for a SOCK_DGRAM socket that is bound on
* the target address
*/
if (uds_fd_table[i].type == SOCK_DGRAM &&
uds_fd_table[i].addr.sun_family == AF_UNIX &&
!strncmp(uds_fd_table[minor].target.sun_path,
uds_fd_table[i].addr.sun_path, UNIX_PATH_MAX)) {
peer = i;
break;
}
}
if (peer == -1) {
return ENOENT;
}
}
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/* check if write would overrun buffer. check if message
* boundry preserving types (SEQPACKET and DGRAM) wouldn't write
* to an empty buffer. check if connectionless sockets have a
* target to write to.
*/
if ((uds_fd_table[peer].pos+uds_fd_table[peer].size+size > PIPE_BUF) ||
((uds_fd_table[minor].type == SOCK_SEQPACKET ||
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uds_fd_table[minor].type == SOCK_DGRAM) &&
uds_fd_table[peer].size > 0) || (peer == -1)) {
if (pretend) {
return SUSPEND;
}
/* if needed revive the reader */
if (uds_fd_table[peer].suspended) {
uds_fd_table[peer].ready_to_revive = 1;
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uds_unsuspend(m_source, peer);
}
#if DEBUG == 1
printf("(uds) [%d] suspending write request\n", minor);
#endif
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/* Process is reading from an empty pipe,
* suspend it so some bytes can be written
*/
uds_fd_table[minor].suspended = UDS_SUSPENDED_WRITE;
return SUSPEND;
}
if (pretend) {
return size;
}
/* Prepare Request to the FS side of PFS */
fs_m_in.m_type = REQ_WRITE;
fs_m_in.REQ_INODE_NR = uds_fd_table[peer].inode_nr;
fs_m_in.REQ_GRANT = uds_fd_table[minor].io_gr;
fs_m_in.REQ_SEEK_POS_HI = 0;
fs_m_in.REQ_SEEK_POS_LO = uds_fd_table[peer].pos +
uds_fd_table[peer].size;
fs_m_in.REQ_NBYTES = size;
/* Request the write */
rc = fs_readwrite(&fs_m_in, &fs_m_out);
if (rc != OK) {
perror("fs_readwrite");
return rc;
}
/* Process the response */
#if DEBUG == 1
printf("(uds) [%d] write complete\n", minor);
#endif
/* increase the count of unread bytes */
uds_fd_table[peer].size += fs_m_out.RES_NBYTES;
/* fill in the source address to be returned by recvfrom & recvmsg */
if (uds_fd_table[minor].type == SOCK_DGRAM) {
memcpy(&uds_fd_table[peer].source, &uds_fd_table[minor].addr,
sizeof(struct sockaddr_un));
}
/* revive peer that was waiting for us to write */
if (uds_fd_table[peer].suspended) {
uds_fd_table[peer].ready_to_revive = 1;
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uds_unsuspend(m_source, peer);
}
/* see if peer is blocked on select()*/
if (uds_fd_table[peer].selecting == 1 && fs_m_out.RES_NBYTES > 0) {
/* if the peer wants to know about data ready to read
* and it doesn't know about it already, then let the peer
* know we have data for it.
*/
if ((uds_fd_table[peer].sel_ops_in & SEL_RD) &&
!(uds_fd_table[peer].sel_ops_out & SEL_RD)) {
/* a read on peer is possible now */
uds_fd_table[peer].sel_ops_out |= SEL_RD;
uds_fd_table[peer].status_updated = 1;
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uds_unsuspend(m_source, peer);
}
}
return fs_m_out.RES_NBYTES; /* return number of bytes written */
}
PUBLIC int uds_read(message *dev_m_in, message *dev_m_out)
{
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int bytes;
int minor;
#if DEBUG == 1
static int call_count = 0;
printf("(uds) [%d] uds_read() call_count=%d\n", uds_minor(dev_m_in),
++call_count);
printf("Endpoint: 0x%x | Position 0x%x\n", dev_m_in->USER_ENDPT,
dev_m_in->POSITION);
#endif
minor = uds_minor(dev_m_in);
if (uds_fd_table[minor].state != UDS_INUSE) {
/* attempted to close a socket that hasn't been opened --
* something is very wrong :(
*/
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uds_set_reply(dev_m_out, DEV_REVIVE, dev_m_in->USER_ENDPT,
(cp_grant_id_t) dev_m_in->IO_GRANT, EINVAL);
return EINVAL;
}
/* track the system call we are performing in case it gets cancelled */
uds_fd_table[minor].call_nr = dev_m_in->m_type;
uds_fd_table[minor].ioctl = 0;
uds_fd_table[minor].syscall_done = 0;
/* Update the process endpoint. */
uds_fd_table[minor].endpoint = dev_m_in->USER_ENDPT;
/* setup select(2) framework */
uds_fd_table[minor].selecting = 0;
/* save I/O Grant info */
uds_fd_table[minor].io_gr = (cp_grant_id_t) dev_m_in->IO_GRANT;
uds_fd_table[minor].io_gr_size = dev_m_in->COUNT;
bytes = uds_perform_read(minor, dev_m_in->m_source,
uds_fd_table[minor].io_gr_size, 0);
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uds_set_reply(dev_m_out, DEV_REVIVE, uds_fd_table[minor].endpoint,
uds_fd_table[minor].io_gr, bytes);
return bytes;
}
PUBLIC int uds_write(message *dev_m_in, message *dev_m_out)
{
int bytes;
int minor;
#if DEBUG == 1
static int call_count = 0;
printf("(uds) [%d] uds_write() call_count=%d\n", uds_minor(dev_m_in),
++call_count);
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printf("Endpoint: 0x%x | Position 0x%x\n", dev_m_in->USER_ENDPT,
dev_m_in->POSITION);
#endif
minor = uds_minor(dev_m_in);
if (uds_fd_table[minor].state != UDS_INUSE) {
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/* attempted to close a socket that hasn't been opened --
* something is very wrong :(
*/
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uds_set_reply(dev_m_out, DEV_REVIVE, dev_m_in->USER_ENDPT,
(cp_grant_id_t) dev_m_in->IO_GRANT, EINVAL);
return EINVAL;
}
/* track the system call we are performing in case it gets cancelled */
uds_fd_table[minor].call_nr = dev_m_in->m_type;
uds_fd_table[minor].ioctl = 0;
uds_fd_table[minor].syscall_done = 0;
/* Update the process endpoint. */
uds_fd_table[minor].endpoint = dev_m_in->USER_ENDPT;
/* setup select(2) framework */
uds_fd_table[minor].selecting = 0;
/* save I/O Grant info */
uds_fd_table[minor].io_gr = (cp_grant_id_t) dev_m_in->IO_GRANT;
uds_fd_table[minor].io_gr_size = dev_m_in->COUNT;
bytes = uds_perform_write(minor, dev_m_in->m_source,
uds_fd_table[minor].io_gr_size, 0);
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uds_set_reply(dev_m_out, DEV_REVIVE, uds_fd_table[minor].endpoint,
uds_fd_table[minor].io_gr, bytes);
return bytes;
}
PUBLIC int uds_ioctl(message *dev_m_in, message *dev_m_out)
{
int rc, minor;
#if DEBUG == 1
static int call_count = 0;
printf("(uds) [%d] uds_ioctl() call_count=%d\n", uds_minor(dev_m_in),
++call_count);
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printf("Endpoint: 0x%x | Position 0x%x\n", dev_m_in->USER_ENDPT,
dev_m_in->POSITION);
#endif
minor = uds_minor(dev_m_in);
if (uds_fd_table[minor].state != UDS_INUSE) {
/* attempted to close a socket that hasn't been opened --
* something is very wrong :(
*/
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uds_set_reply(dev_m_out, DEV_REVIVE, dev_m_in->USER_ENDPT,
(cp_grant_id_t) dev_m_in->IO_GRANT, EINVAL);
return EINVAL;
}
/* track the system call we are performing in case it gets cancelled */
uds_fd_table[minor].call_nr = dev_m_in->m_type;
uds_fd_table[minor].ioctl = dev_m_in->COUNT;
uds_fd_table[minor].syscall_done = 0;
/* setup select(2) framework */
uds_fd_table[minor].selecting = 0;
/* update the owner endpoint - yes it's really stored in POSITION */
uds_fd_table[minor].owner = dev_m_in->POSITION;
switch (dev_m_in->COUNT) { /* Handle the ioctl(2) command */
case NWIOSUDSCONN:
/* connect to a listening socket -- connect() */
rc = do_connect(dev_m_in, dev_m_out);
break;
case NWIOSUDSACCEPT:
/* accept an incoming connection -- accept() */
rc = do_accept(dev_m_in, dev_m_out);
break;
case NWIOSUDSBLOG:
/* set the backlog_size and put the socket into the
* listening state -- listen()
*/
rc = do_listen(dev_m_in, dev_m_out);
break;
case NWIOSUDSTYPE:
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/* set the type for this socket (i.e.
* SOCK_STREAM, SOCK_DGRAM, etc) -- socket()
*/
rc = do_socket(dev_m_in, dev_m_out);
break;
case NWIOSUDSADDR:
/* set the address for this socket -- bind() */
rc = do_bind(dev_m_in, dev_m_out);
break;
case NWIOGUDSADDR:
/* get the address for this socket -- getsockname() */
rc = do_getsockname(dev_m_in, dev_m_out);
break;
case NWIOGUDSPADDR:
/* get the address for the peer -- getpeername() */
rc = do_getpeername(dev_m_in, dev_m_out);
break;
case NWIOSUDSSHUT:
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/* shutdown a socket for reading, writing, or
* both -- shutdown()
*/
rc = do_shutdown(dev_m_in, dev_m_out);
break;
case NWIOSUDSPAIR:
/* connect two sockets -- socketpair() */
rc = do_socketpair(dev_m_in, dev_m_out);
break;
case NWIOSUDSPAIROLD:
/* connect two sockets -- socketpair() */
rc = do_socketpair_old(dev_m_in, dev_m_out);
break;
case NWIOGUDSSOTYPE:
/* get socket type -- getsockopt(SO_TYPE) */
rc = do_getsockopt_sotype(dev_m_in, dev_m_out);
break;
case NWIOGUDSPEERCRED:
/* get peer endpoint -- getsockopt(SO_PEERCRED) */
rc = do_getsockopt_peercred(dev_m_in, dev_m_out);
break;
case NWIOGUDSPEERCREDOLD:
/* get peer endpoint -- getsockopt(SO_PEERCRED) */
rc = do_getsockopt_peercred_old(dev_m_in, dev_m_out);
break;
case NWIOSUDSTADDR:
/* set target address -- sendto() */
rc = do_sendto(dev_m_in, dev_m_out);
break;
case NWIOGUDSFADDR:
/* get from address -- recvfrom() */
rc = do_recvfrom(dev_m_in, dev_m_out);
break;
case NWIOGUDSSNDBUF:
/* get the send buffer size -- getsockopt(SO_SNDBUF) */
rc = do_getsockopt_sndbuf(dev_m_in, dev_m_out);
break;
case NWIOSUDSSNDBUF:
/* set the send buffer size -- setsockopt(SO_SNDBUF) */
rc = do_setsockopt_sndbuf(dev_m_in, dev_m_out);
break;
case NWIOGUDSRCVBUF:
/* get the send buffer size -- getsockopt(SO_SNDBUF) */
rc = do_getsockopt_rcvbuf(dev_m_in, dev_m_out);
break;
case NWIOSUDSRCVBUF:
/* set the send buffer size -- setsockopt(SO_SNDBUF) */
rc = do_setsockopt_rcvbuf(dev_m_in, dev_m_out);
break;
case NWIOSUDSCTRL:
/* set the control data -- sendmsg() */
rc = do_sendmsg(dev_m_in, dev_m_out);
break;
case NWIOGUDSCTRL:
/* set the control data -- recvmsg() */
rc = do_recvmsg(dev_m_in, dev_m_out);
break;
default:
/* the IOCTL command is not valid for /dev/uds --
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* this happens a lot and is normal. a lot of
* libc functions determine the socket type with
* IOCTLs. Any not for us simply get a EBADIOCTL
* response.
*/
rc = EBADIOCTL;
}
if (rc != SUSPEND)
uds_fd_table[minor].syscall_done = 1;
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uds_set_reply(dev_m_out, DEV_REVIVE, dev_m_in->USER_ENDPT,
(cp_grant_id_t) dev_m_in->IO_GRANT, rc);
return rc;
}
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PUBLIC int uds_unsuspend(endpoint_t m_source, int minor)
{
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int r = OK, bytes;
message m_out;
uds_fd_t *fdp;
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fdp = &uds_fd_table[minor];
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if (fdp->status_updated == 1) {
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/* clear the status_updated flag */
fdp->status_updated = 0;
fdp->selecting = 0;
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/* prepare the response */
uds_sel_reply(&m_out, DEV_SEL_REPL2, minor, fdp->sel_ops_out);
} else if (fdp->ready_to_revive == 1) {
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/* clear the ready to revive flag */
fdp->ready_to_revive = 0;
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switch (fdp->suspended) {
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case UDS_SUSPENDED_READ:
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bytes = uds_perform_read(minor, m_source,
fdp->io_gr_size, 0);
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if (bytes == SUSPEND) {
r = SUSPEND;
break;
}
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fdp->suspended = UDS_NOT_SUSPENDED;
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uds_set_reply(&m_out, DEV_REVIVE, fdp->endpoint,
fdp->io_gr, bytes);
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break;
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case UDS_SUSPENDED_WRITE:
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bytes = uds_perform_write(minor, m_source,
fdp->io_gr_size, 0);
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if (bytes == SUSPEND) {
r = SUSPEND;
break;
}
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fdp->suspended = UDS_NOT_SUSPENDED;
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uds_set_reply(&m_out, DEV_REVIVE, fdp->endpoint,
fdp->io_gr, bytes);
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break;
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case UDS_SUSPENDED_CONNECT:
case UDS_SUSPENDED_ACCEPT:
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/* In both cases, the process
* that send the notify()
* already performed the connection.
* The only thing to do here is
* unblock.
*/
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fdp->suspended = UDS_NOT_SUSPENDED;
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uds_set_reply(&m_out, DEV_REVIVE, fdp->endpoint,
fdp->io_gr, OK);
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break;
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default:
return(OK);
}
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}
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if (r == OK) reply(m_source, &m_out);
return(r);
}
PUBLIC int uds_cancel(message *dev_m_in, message *dev_m_out)
{
int i, j;
int minor;
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/* XXX: should become a noop? */
#if DEBUG == 1
static int call_count = 0;
printf("(uds) [%d] uds_cancel() call_count=%d\n", uds_minor(dev_m_in),
++call_count);
printf("Endpoint: 0x%x\n", dev_m_in->USER_ENDPT);
#endif
minor = uds_minor(dev_m_in);
if (uds_fd_table[minor].state != UDS_INUSE) {
/* attempted to close a socket that hasn't been opened --
* something is very wrong :(
*/
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uds_set_reply(dev_m_out, DEV_NO_STATUS, dev_m_in->USER_ENDPT,
(cp_grant_id_t) dev_m_in->IO_GRANT, EINVAL);
return EINVAL;
}
/* Update the process endpoint. */
uds_fd_table[minor].endpoint = dev_m_in->USER_ENDPT;
/* setup select(2) framework */
uds_fd_table[minor].selecting = 0;
/* the system call was cancelled, so if the socket was suspended
* (which is likely the case), then it is not suspended anymore.
*/
uds_fd_table[minor].suspended = UDS_NOT_SUSPENDED;
/* If there is a system call and it isn't complete, roll back */
if (uds_fd_table[minor].call_nr && !uds_fd_table[minor].syscall_done) {
if (uds_fd_table[minor].call_nr == DEV_IOCTL_S) {
switch (uds_fd_table[minor].ioctl) {
case NWIOSUDSACCEPT: /* accept() */
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/* partial accept() only changes
* uds_fd_table[minorparent].child
*/
for (i = 0; i < NR_FDS; i++) {
if (uds_fd_table[i].child ==
minor) {
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uds_fd_table[i].child = -1;
}
}
break;
case NWIOSUDSCONN: /* connect() */
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/* partial connect() sets addr
* and adds minor to server backlog
*/
for (i = 0; i < NR_FDS; i++) {
/* find a socket that is in
* use.
*/
if (uds_fd_table[i].state ==
UDS_INUSE) {
/* see if minor is in
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* the backlog
*/
for (j = 0; j < uds_fd_table[i].backlog_size; j++) {
if (uds_fd_table[i].backlog[j] == minor) {
/* remove from backlog */
uds_fd_table[i].backlog[j] = -1;
}
}
}
}
/* clear the address */
memset(&(uds_fd_table[minor].addr),
'\0',
sizeof(struct sockaddr_un));
break;
case NWIOSUDSTADDR: /* sendto() */
case NWIOSUDSADDR: /* bind() */
case NWIOGUDSADDR: /* getsockname() */
case NWIOGUDSPADDR: /* getpeername() */
case NWIOSUDSTYPE: /* socket() */
case NWIOSUDSBLOG: /* listen() */
case NWIOSUDSSHUT: /* shutdown() */
case NWIOSUDSPAIR: /* socketpair() */
case NWIOGUDSSOTYPE: /* SO_TYPE */
case NWIOGUDSPEERCRED: /* SO_PEERCRED */
default:
/* these are atomic, never suspend,
* and can't be cancelled once called
*/
break;
}
}
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/* DEV_READ_S or DEV_WRITE_S don't need to do anything
* when cancelled. DEV_OPEN, DEV_REOPEN, DEV_SELECT,
* DEV_CLOSE are atomic, never suspend, and can't
* be cancelled once called.
*/
uds_fd_table[minor].syscall_done = 1;
}
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uds_set_reply(dev_m_out, DEV_NO_STATUS, dev_m_in->USER_ENDPT,
(cp_grant_id_t) dev_m_in->IO_GRANT, EINTR);
return EINTR;
}