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mirror of https://github.com/VDR4Arch/vdr.git synced 2023-10-10 13:36:52 +02:00
vdr/svdrp.c

2824 lines
93 KiB
C

/*
* svdrp.c: Simple Video Disk Recorder Protocol
*
* See the main source file 'vdr.c' for copyright information and
* how to reach the author.
*
* The "Simple Video Disk Recorder Protocol" (SVDRP) was inspired
* by the "Simple Mail Transfer Protocol" (SMTP) and is fully ASCII
* text based. Therefore you can simply 'telnet' to your VDR port
* and interact with the Video Disk Recorder - or write a full featured
* graphical interface that sits on top of an SVDRP connection.
*
* $Id: svdrp.c 4.43.1.1 2021/01/02 15:18:06 kls Exp $
*/
#include "svdrp.h"
#include <arpa/inet.h>
#include <ctype.h>
#include <errno.h>
#include <fcntl.h>
#include <ifaddrs.h>
#include <netinet/in.h>
#include <stdarg.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <sys/socket.h>
#include <sys/time.h>
#include <unistd.h>
#include "channels.h"
#include "config.h"
#include "device.h"
#include "eitscan.h"
#include "keys.h"
#include "menu.h"
#include "plugin.h"
#include "recording.h"
#include "remote.h"
#include "skins.h"
#include "timers.h"
#include "videodir.h"
static bool DumpSVDRPDataTransfer = false;
#define dbgsvdrp(a...) if (DumpSVDRPDataTransfer) fprintf(stderr, a)
static int SVDRPTcpPort = 0;
static int SVDRPUdpPort = 0;
enum eSvdrpFetchFlags {
sffNone = 0b00000000,
sffConn = 0b00000001,
sffPing = 0b00000010,
sffTimers = 0b00000100,
};
// --- cIpAddress ------------------------------------------------------------
class cIpAddress {
private:
cString address;
int port;
cString connection;
public:
cIpAddress(void);
cIpAddress(const char *Address, int Port);
const char *Address(void) const { return address; }
int Port(void) const { return port; }
void Set(const char *Address, int Port);
void Set(const sockaddr *SockAddr);
const char *Connection(void) const { return connection; }
};
cIpAddress::cIpAddress(void)
{
Set(INADDR_ANY, 0);
}
cIpAddress::cIpAddress(const char *Address, int Port)
{
Set(Address, Port);
}
void cIpAddress::Set(const char *Address, int Port)
{
address = Address;
port = Port;
connection = cString::sprintf("%s:%d", *address, port);
}
void cIpAddress::Set(const sockaddr *SockAddr)
{
const sockaddr_in *Addr = (sockaddr_in *)SockAddr;
Set(inet_ntoa(Addr->sin_addr), ntohs(Addr->sin_port));
}
// --- cSocket ---------------------------------------------------------------
#define MAXUDPBUF 1024
class cSocket {
private:
int port;
bool tcp;
int sock;
cIpAddress lastIpAddress;
public:
cSocket(int Port, bool Tcp);
~cSocket();
bool Listen(void);
bool Connect(const char *Address);
void Close(void);
int Port(void) const { return port; }
int Socket(void) const { return sock; }
static bool SendDgram(const char *Dgram, int Port);
int Accept(void);
cString Discover(void);
const cIpAddress *LastIpAddress(void) const { return &lastIpAddress; }
};
cSocket::cSocket(int Port, bool Tcp)
{
port = Port;
tcp = Tcp;
sock = -1;
}
cSocket::~cSocket()
{
Close();
}
void cSocket::Close(void)
{
if (sock >= 0) {
close(sock);
sock = -1;
}
}
bool cSocket::Listen(void)
{
if (sock < 0) {
isyslog("SVDRP %s opening port %d/%s", Setup.SVDRPHostName, port, tcp ? "tcp" : "udp");
// create socket:
sock = tcp ? socket(PF_INET, SOCK_STREAM, IPPROTO_IP) : socket(PF_INET, SOCK_DGRAM, IPPROTO_UDP);
if (sock < 0) {
LOG_ERROR;
return false;
}
// allow it to always reuse the same port:
int ReUseAddr = 1;
setsockopt(sock, SOL_SOCKET, SO_REUSEADDR, &ReUseAddr, sizeof(ReUseAddr));
// configure port and ip:
sockaddr_in Addr;
memset(&Addr, 0, sizeof(Addr));
Addr.sin_family = AF_INET;
Addr.sin_port = htons(port);
Addr.sin_addr.s_addr = SVDRPhosts.LocalhostOnly() ? htonl(INADDR_LOOPBACK) : htonl(INADDR_ANY);
if (bind(sock, (sockaddr *)&Addr, sizeof(Addr)) < 0) {
LOG_ERROR;
Close();
return false;
}
// make it non-blocking:
int Flags = fcntl(sock, F_GETFL, 0);
if (Flags < 0) {
LOG_ERROR;
return false;
}
Flags |= O_NONBLOCK;
if (fcntl(sock, F_SETFL, Flags) < 0) {
LOG_ERROR;
return false;
}
if (tcp) {
// listen to the socket:
if (listen(sock, 1) < 0) {
LOG_ERROR;
return false;
}
}
isyslog("SVDRP %s listening on port %d/%s", Setup.SVDRPHostName, port, tcp ? "tcp" : "udp");
}
return true;
}
bool cSocket::Connect(const char *Address)
{
if (sock < 0 && tcp) {
// create socket:
sock = socket(PF_INET, SOCK_STREAM, IPPROTO_IP);
if (sock < 0) {
LOG_ERROR;
return false;
}
// configure port and ip:
sockaddr_in Addr;
memset(&Addr, 0, sizeof(Addr));
Addr.sin_family = AF_INET;
Addr.sin_port = htons(port);
Addr.sin_addr.s_addr = inet_addr(Address);
if (connect(sock, (sockaddr *)&Addr, sizeof(Addr)) < 0) {
LOG_ERROR;
Close();
return false;
}
// make it non-blocking:
int Flags = fcntl(sock, F_GETFL, 0);
if (Flags < 0) {
LOG_ERROR;
return false;
}
Flags |= O_NONBLOCK;
if (fcntl(sock, F_SETFL, Flags) < 0) {
LOG_ERROR;
return false;
}
dbgsvdrp("> %s:%d server connection established\n", Address, port);
isyslog("SVDRP %s > %s:%d server connection established", Setup.SVDRPHostName, Address, port);
return true;
}
return false;
}
bool cSocket::SendDgram(const char *Dgram, int Port)
{
// Create a socket:
int Socket = socket(PF_INET, SOCK_DGRAM, IPPROTO_UDP);
if (Socket < 0) {
LOG_ERROR;
return false;
}
// Enable broadcast:
int One = 1;
if (setsockopt(Socket, SOL_SOCKET, SO_BROADCAST, &One, sizeof(One)) < 0) {
LOG_ERROR;
close(Socket);
return false;
}
// Configure port and ip:
sockaddr_in Addr;
memset(&Addr, 0, sizeof(Addr));
Addr.sin_family = AF_INET;
Addr.sin_addr.s_addr = htonl(INADDR_BROADCAST);
Addr.sin_port = htons(Port);
// Send datagram:
dbgsvdrp("> %s:%d %s\n", inet_ntoa(Addr.sin_addr), Port, Dgram);
dsyslog("SVDRP %s > %s:%d send dgram '%s'", Setup.SVDRPHostName, inet_ntoa(Addr.sin_addr), Port, Dgram);
int Length = strlen(Dgram);
int Sent = sendto(Socket, Dgram, Length, 0, (sockaddr *)&Addr, sizeof(Addr));
if (Sent < 0)
LOG_ERROR;
close(Socket);
return Sent == Length;
}
int cSocket::Accept(void)
{
if (sock >= 0 && tcp) {
sockaddr_in Addr;
uint Size = sizeof(Addr);
int NewSock = accept(sock, (sockaddr *)&Addr, &Size);
if (NewSock >= 0) {
bool Accepted = SVDRPhosts.Acceptable(Addr.sin_addr.s_addr);
if (!Accepted) {
const char *s = "Access denied!\n";
if (write(NewSock, s, strlen(s)) < 0)
LOG_ERROR;
close(NewSock);
NewSock = -1;
}
lastIpAddress.Set((sockaddr *)&Addr);
dbgsvdrp("< %s client connection %s\n", lastIpAddress.Connection(), Accepted ? "accepted" : "DENIED");
isyslog("SVDRP %s < %s client connection %s", Setup.SVDRPHostName, lastIpAddress.Connection(), Accepted ? "accepted" : "DENIED");
}
else if (FATALERRNO)
LOG_ERROR;
return NewSock;
}
return -1;
}
cString cSocket::Discover(void)
{
if (sock >= 0 && !tcp) {
char buf[MAXUDPBUF];
sockaddr_in Addr;
uint Size = sizeof(Addr);
int NumBytes = recvfrom(sock, buf, sizeof(buf), 0, (sockaddr *)&Addr, &Size);
if (NumBytes >= 0) {
buf[NumBytes] = 0;
lastIpAddress.Set((sockaddr *)&Addr);
if (!SVDRPhosts.Acceptable(Addr.sin_addr.s_addr)) {
dsyslog("SVDRP %s < %s discovery ignored (%s)", Setup.SVDRPHostName, lastIpAddress.Connection(), buf);
return NULL;
}
if (!startswith(buf, "SVDRP:discover")) {
dsyslog("SVDRP %s < %s discovery unrecognized (%s)", Setup.SVDRPHostName, lastIpAddress.Connection(), buf);
return NULL;
}
if (strcmp(strgetval(buf, "name", ':'), Setup.SVDRPHostName) != 0) { // ignore our own broadcast
dbgsvdrp("< %s discovery received (%s)\n", lastIpAddress.Connection(), buf);
isyslog("SVDRP %s < %s discovery received (%s)", Setup.SVDRPHostName, lastIpAddress.Connection(), buf);
return buf;
}
}
else if (FATALERRNO)
LOG_ERROR;
}
return NULL;
}
// --- cSVDRPClient ----------------------------------------------------------
class cSVDRPClient {
private:
cIpAddress serverIpAddress;
cSocket socket;
cString serverName;
int length;
char *input;
int timeout;
cTimeMs pingTime;
cFile file;
int fetchFlags;
bool connected;
bool Send(const char *Command);
void Close(void);
public:
cSVDRPClient(const char *Address, int Port, const char *ServerName, int Timeout);
~cSVDRPClient();
const char *ServerName(void) const { return serverName; }
const char *Connection(void) const { return serverIpAddress.Connection(); }
bool HasAddress(const char *Address, int Port) const;
bool Process(cStringList *Response = NULL);
bool Execute(const char *Command, cStringList *Response = NULL);
bool Connected(void) const { return connected; }
void SetFetchFlag(int Flag);
bool HasFetchFlag(int Flag);
bool GetRemoteTimers(cStringList &Response);
};
static cPoller SVDRPClientPoller;
cSVDRPClient::cSVDRPClient(const char *Address, int Port, const char *ServerName, int Timeout)
:serverIpAddress(Address, Port)
,socket(Port, true)
{
serverName = ServerName;
length = BUFSIZ;
input = MALLOC(char, length);
timeout = Timeout * 1000 * 9 / 10; // ping after 90% of timeout
pingTime.Set(timeout);
fetchFlags = sffNone;
connected = false;
if (socket.Connect(Address)) {
if (file.Open(socket.Socket())) {
SVDRPClientPoller.Add(file, false);
dsyslog("SVDRP %s > %s client created for '%s'", Setup.SVDRPHostName, serverIpAddress.Connection(), *serverName);
return;
}
}
esyslog("SVDRP %s > %s ERROR: failed to create client for '%s'", Setup.SVDRPHostName, serverIpAddress.Connection(), *serverName);
}
cSVDRPClient::~cSVDRPClient()
{
Close();
free(input);
dsyslog("SVDRP %s > %s client destroyed for '%s'", Setup.SVDRPHostName, serverIpAddress.Connection(), *serverName);
}
void cSVDRPClient::Close(void)
{
if (file.IsOpen()) {
SVDRPClientPoller.Del(file, false);
file.Close();
socket.Close();
}
}
bool cSVDRPClient::HasAddress(const char *Address, int Port) const
{
return strcmp(serverIpAddress.Address(), Address) == 0 && serverIpAddress.Port() == Port;
}
bool cSVDRPClient::Send(const char *Command)
{
pingTime.Set(timeout);
dbgsvdrp("> C %s: %s\n", *serverName, Command);
if (safe_write(file, Command, strlen(Command) + 1) < 0) {
LOG_ERROR;
return false;
}
return true;
}
bool cSVDRPClient::Process(cStringList *Response)
{
if (file.IsOpen()) {
int numChars = 0;
#define SVDRPResonseTimeout 5000 // ms
cTimeMs Timeout(SVDRPResonseTimeout);
for (;;) {
if (file.Ready(false)) {
unsigned char c;
int r = safe_read(file, &c, 1);
if (r > 0) {
if (c == '\n' || c == 0x00) {
// strip trailing whitespace:
while (numChars > 0 && strchr(" \t\r\n", input[numChars - 1]))
input[--numChars] = 0;
// make sure the string is terminated:
input[numChars] = 0;
dbgsvdrp("< C %s: %s\n", *serverName, input);
if (Response)
Response->Append(strdup(input));
else {
switch (atoi(input)) {
case 220: if (numChars > 4) {
char *n = input + 4;
if (char *t = strchr(n, ' ')) {
*t = 0;
if (strcmp(n, serverName) != 0) {
serverName = n;
dsyslog("SVDRP %s < %s remote server name is '%s'", Setup.SVDRPHostName, serverIpAddress.Connection(), *serverName);
}
SetFetchFlag(sffConn | sffTimers);
connected = true;
}
}
break;
case 221: dsyslog("SVDRP %s < %s remote server closed connection to '%s'", Setup.SVDRPHostName, serverIpAddress.Connection(), *serverName);
connected = false;
Close();
break;
}
}
if (numChars >= 4 && input[3] != '-') // no more lines will follow
break;
numChars = 0;
}
else {
if (numChars >= length - 1) {
int NewLength = length + BUFSIZ;
if (char *NewBuffer = (char *)realloc(input, NewLength)) {
length = NewLength;
input = NewBuffer;
}
else {
esyslog("SVDRP %s < %s ERROR: out of memory", Setup.SVDRPHostName, serverIpAddress.Connection());
Close();
break;
}
}
input[numChars++] = c;
input[numChars] = 0;
}
Timeout.Set(SVDRPResonseTimeout);
}
else if (r <= 0) {
isyslog("SVDRP %s < %s lost connection to remote server '%s'", Setup.SVDRPHostName, serverIpAddress.Connection(), *serverName);
Close();
return false;
}
}
else if (Timeout.TimedOut()) {
esyslog("SVDRP %s < %s timeout while waiting for response from '%s'", Setup.SVDRPHostName, serverIpAddress.Connection(), *serverName);
return false;
}
else if (!Response && numChars == 0)
break; // we read all or nothing!
}
if (pingTime.TimedOut())
SetFetchFlag(sffPing);
}
return file.IsOpen();
}
bool cSVDRPClient::Execute(const char *Command, cStringList *Response)
{
cStringList Dummy;
if (Response)
Response->Clear();
else
Response = &Dummy;
return Send(Command) && Process(Response);
}
void cSVDRPClient::SetFetchFlag(int Flags)
{
fetchFlags |= Flags;
}
bool cSVDRPClient::HasFetchFlag(int Flag)
{
bool Result = (fetchFlags & Flag);
fetchFlags &= ~Flag;
return Result;
}
bool cSVDRPClient::GetRemoteTimers(cStringList &Response)
{
if (Execute("LSTT ID", &Response)) {
for (int i = 0; i < Response.Size(); i++) {
char *s = Response[i];
int Code = SVDRPCode(s);
if (Code == 250)
strshift(s, 4);
else if (Code == 550)
Response.Clear();
else {
esyslog("ERROR: %s: %s", ServerName(), s);
return false;
}
}
Response.SortNumerically();
return true;
}
return false;
}
// --- cSVDRPServerParams ----------------------------------------------------
class cSVDRPServerParams {
private:
cString name;
int port;
cString vdrversion;
cString apiversion;
int timeout;
cString host;
cString error;
public:
cSVDRPServerParams(const char *Params);
const char *Name(void) const { return name; }
const int Port(void) const { return port; }
const char *VdrVersion(void) const { return vdrversion; }
const char *ApiVersion(void) const { return apiversion; }
const int Timeout(void) const { return timeout; }
const char *Host(void) const { return host; }
bool Ok(void) const { return !*error; }
const char *Error(void) const { return error; }
};
cSVDRPServerParams::cSVDRPServerParams(const char *Params)
{
if (Params && *Params) {
name = strgetval(Params, "name", ':');
if (*name) {
cString p = strgetval(Params, "port", ':');
if (*p) {
port = atoi(p);
vdrversion = strgetval(Params, "vdrversion", ':');
if (*vdrversion) {
apiversion = strgetval(Params, "apiversion", ':');
if (*apiversion) {
cString t = strgetval(Params, "timeout", ':');
if (*t) {
timeout = atoi(t);
if (timeout > 10) { // don't let it get too small
host = strgetval(Params, "host", ':');
// no error if missing - this parameter is optional!
}
else
error = "invalid timeout";
}
else
error = "missing server timeout";
}
else
error = "missing server apiversion";
}
else
error = "missing server vdrversion";
}
else
error = "missing server port";
}
else
error = "missing server name";
}
else
error = "missing server parameters";
}
// --- cSVDRPClientHandler ---------------------------------------------------
cStateKey StateKeySVDRPRemoteTimersPoll(true);
class cSVDRPClientHandler : public cThread {
private:
cMutex mutex;
int tcpPort;
cSocket udpSocket;
cVector<cSVDRPClient *> clientConnections;
void SendDiscover(void);
void HandleClientConnection(void);
void ProcessConnections(void);
cSVDRPClient *GetClientForServer(const char *ServerName);
protected:
virtual void Action(void);
public:
cSVDRPClientHandler(int TcpPort, int UdpPort);
virtual ~cSVDRPClientHandler();
void Lock(void) { mutex.Lock(); }
void Unlock(void) { mutex.Unlock(); }
void AddClient(cSVDRPServerParams &ServerParams, const char *IpAddress);
bool Execute(const char *ServerName, const char *Command, cStringList *Response = NULL);
bool GetServerNames(cStringList *ServerNames);
bool TriggerFetchingTimers(const char *ServerName);
};
static cSVDRPClientHandler *SVDRPClientHandler = NULL;
cSVDRPClientHandler::cSVDRPClientHandler(int TcpPort, int UdpPort)
:cThread("SVDRP client handler", true)
,udpSocket(UdpPort, false)
{
tcpPort = TcpPort;
}
cSVDRPClientHandler::~cSVDRPClientHandler()
{
Cancel(3);
for (int i = 0; i < clientConnections.Size(); i++)
delete clientConnections[i];
}
cSVDRPClient *cSVDRPClientHandler::GetClientForServer(const char *ServerName)
{
for (int i = 0; i < clientConnections.Size(); i++) {
if (strcmp(clientConnections[i]->ServerName(), ServerName) == 0)
return clientConnections[i];
}
return NULL;
}
void cSVDRPClientHandler::SendDiscover(void)
{
cString Dgram = cString::sprintf("SVDRP:discover name:%s port:%d vdrversion:%d apiversion:%d timeout:%d%s", Setup.SVDRPHostName, tcpPort, VDRVERSNUM, APIVERSNUM, Setup.SVDRPTimeout, (Setup.SVDRPPeering == spmOnly && *Setup.SVDRPDefaultHost) ? *cString::sprintf(" host:%s", Setup.SVDRPDefaultHost) : "");
udpSocket.SendDgram(Dgram, udpSocket.Port());
}
void cSVDRPClientHandler::ProcessConnections(void)
{
cString PollTimersCmd;
if (cTimers::GetTimersRead(StateKeySVDRPRemoteTimersPoll, 100)) {
PollTimersCmd = cString::sprintf("POLL %s TIMERS", Setup.SVDRPHostName);
StateKeySVDRPRemoteTimersPoll.Remove();
}
else if (StateKeySVDRPRemoteTimersPoll.TimedOut())
return; // try again next time
for (int i = 0; i < clientConnections.Size(); i++) {
cSVDRPClient *Client = clientConnections[i];
if (Client->Process()) {
if (Client->HasFetchFlag(sffConn))
Client->Execute(cString::sprintf("CONN name:%s port:%d vdrversion:%d apiversion:%d timeout:%d", Setup.SVDRPHostName, SVDRPTcpPort, VDRVERSNUM, APIVERSNUM, Setup.SVDRPTimeout));
if (Client->HasFetchFlag(sffPing))
Client->Execute("PING");
if (Client->HasFetchFlag(sffTimers)) {
cStringList RemoteTimers;
if (Client->GetRemoteTimers(RemoteTimers)) {
if (cTimers *Timers = cTimers::GetTimersWrite(StateKeySVDRPRemoteTimersPoll, 100)) {
bool TimersModified = Timers->StoreRemoteTimers(Client->ServerName(), &RemoteTimers);
StateKeySVDRPRemoteTimersPoll.Remove(TimersModified);
}
else
Client->SetFetchFlag(sffTimers); // try again next time
}
}
if (*PollTimersCmd) {
if (!Client->Execute(PollTimersCmd))
esyslog("ERROR: can't send '%s' to '%s'", *PollTimersCmd, Client->ServerName());
}
}
else {
cTimers *Timers = cTimers::GetTimersWrite(StateKeySVDRPRemoteTimersPoll);
bool TimersModified = Timers->StoreRemoteTimers(Client->ServerName(), NULL);
StateKeySVDRPRemoteTimersPoll.Remove(TimersModified);
delete Client;
clientConnections.Remove(i);
i--;
}
}
}
void cSVDRPClientHandler::AddClient(cSVDRPServerParams &ServerParams, const char *IpAddress)
{
cMutexLock MutexLock(&mutex);
for (int i = 0; i < clientConnections.Size(); i++) {
if (clientConnections[i]->HasAddress(IpAddress, ServerParams.Port()))
return;
}
if (Setup.SVDRPPeering == spmOnly && strcmp(ServerParams.Name(), Setup.SVDRPDefaultHost) != 0)
return; // we only want to peer with the default host, but this isn't the default host
if (ServerParams.Host() && strcmp(ServerParams.Host(), Setup.SVDRPHostName) != 0)
return; // the remote VDR requests a specific host, but it's not us
clientConnections.Append(new cSVDRPClient(IpAddress, ServerParams.Port(), ServerParams.Name(), ServerParams.Timeout()));
}
void cSVDRPClientHandler::HandleClientConnection(void)
{
cString NewDiscover = udpSocket.Discover();
if (*NewDiscover) {
cSVDRPServerParams ServerParams(NewDiscover);
if (ServerParams.Ok())
AddClient(ServerParams, udpSocket.LastIpAddress()->Address());
else
esyslog("SVDRP %s < %s ERROR: %s", Setup.SVDRPHostName, udpSocket.LastIpAddress()->Connection(), ServerParams.Error());
}
}
void cSVDRPClientHandler::Action(void)
{
if (udpSocket.Listen()) {
SVDRPClientPoller.Add(udpSocket.Socket(), false);
SendDiscover();
while (Running()) {
SVDRPClientPoller.Poll(1000);
cMutexLock MutexLock(&mutex);
HandleClientConnection();
ProcessConnections();
}
SVDRPClientPoller.Del(udpSocket.Socket(), false);
udpSocket.Close();
}
}
bool cSVDRPClientHandler::Execute(const char *ServerName, const char *Command, cStringList *Response)
{
cMutexLock MutexLock(&mutex);
if (cSVDRPClient *Client = GetClientForServer(ServerName))
return Client->Execute(Command, Response);
return false;
}
bool cSVDRPClientHandler::GetServerNames(cStringList *ServerNames)
{
cMutexLock MutexLock(&mutex);
ServerNames->Clear();
for (int i = 0; i < clientConnections.Size(); i++) {
cSVDRPClient *Client = clientConnections[i];
if (Client->Connected())
ServerNames->Append(strdup(Client->ServerName()));
}
return ServerNames->Size() > 0;
}
bool cSVDRPClientHandler::TriggerFetchingTimers(const char *ServerName)
{
cMutexLock MutexLock(&mutex);
if (cSVDRPClient *Client = GetClientForServer(ServerName)) {
Client->SetFetchFlag(sffTimers);
return true;
}
return false;
}
// --- cPUTEhandler ----------------------------------------------------------
class cPUTEhandler {
private:
FILE *f;
int status;
const char *message;
public:
cPUTEhandler(void);
~cPUTEhandler();
bool Process(const char *s);
int Status(void) { return status; }
const char *Message(void) { return message; }
};
cPUTEhandler::cPUTEhandler(void)
{
if ((f = tmpfile()) != NULL) {
status = 354;
message = "Enter EPG data, end with \".\" on a line by itself";
}
else {
LOG_ERROR;
status = 554;
message = "Error while opening temporary file";
}
}
cPUTEhandler::~cPUTEhandler()
{
if (f)
fclose(f);
}
bool cPUTEhandler::Process(const char *s)
{
if (f) {
if (strcmp(s, ".") != 0) {
fputs(s, f);
fputc('\n', f);
return true;
}
else {
rewind(f);
if (cSchedules::Read(f)) {
cSchedules::Cleanup(true);
status = 250;
message = "EPG data processed";
}
else {
status = 451;
message = "Error while processing EPG data";
}
fclose(f);
f = NULL;
}
}
return false;
}
// --- cSVDRPServer ----------------------------------------------------------
#define MAXHELPTOPIC 10
#define EITDISABLETIME 10 // seconds until EIT processing is enabled again after a CLRE command
// adjust the help for CLRE accordingly if changing this!
const char *HelpPages[] = {
"CHAN [ + | - | <number> | <name> | <id> ]\n"
" Switch channel up, down or to the given channel number, name or id.\n"
" Without option (or after successfully switching to the channel)\n"
" it returns the current channel number and name.",
"CLRE [ <number> | <name> | <id> ]\n"
" Clear the EPG list of the given channel number, name or id.\n"
" Without option it clears the entire EPG list.\n"
" After a CLRE command, no further EPG processing is done for 10\n"
" seconds, so that data sent with subsequent PUTE commands doesn't\n"
" interfere with data from the broadcasters.",
"CONN name:<name> port:<port> vdrversion:<vdrversion> apiversion:<apiversion> timeout:<timeout>\n"
" Used by peer-to-peer connections between VDRs to tell the other VDR\n"
" to establish a connection to this VDR. The name is the SVDRP host name\n"
" of this VDR, which may differ from its DNS name.",
"DELC <number> | <id>\n"
" Delete the channel with the given number or channel id.",
"DELR <id>\n"
" Delete the recording with the given id. Before a recording can be\n"
" deleted, an LSTR command should have been executed in order to retrieve\n"
" the recording ids. The ids are unique and don't change while this\n"
" instance of VDR is running.\n"
" CAUTION: THERE IS NO CONFIRMATION PROMPT WHEN DELETING A\n"
" RECORDING - BE SURE YOU KNOW WHAT YOU ARE DOING!",
"DELT <id>\n"
" Delete the timer with the given id. If this timer is currently recording,\n"
" the recording will be stopped without any warning.",
"EDIT <id>\n"
" Edit the recording with the given id. Before a recording can be\n"
" edited, an LSTR command should have been executed in order to retrieve\n"
" the recording ids.",
"GRAB <filename> [ <quality> [ <sizex> <sizey> ] ]\n"
" Grab the current frame and save it to the given file. Images can\n"
" be stored as JPEG or PNM, depending on the given file name extension.\n"
" The quality of the grabbed image can be in the range 0..100, where 100\n"
" (the default) means \"best\" (only applies to JPEG). The size parameters\n"
" define the size of the resulting image (default is full screen).\n"
" If the file name is just an extension (.jpg, .jpeg or .pnm) the image\n"
" data will be sent to the SVDRP connection encoded in base64. The same\n"
" happens if '-' (a minus sign) is given as file name, in which case the\n"
" image format defaults to JPEG.",
"HELP [ <topic> ]\n"
" The HELP command gives help info.",
"HITK [ <key> ... ]\n"
" Hit the given remote control key. Without option a list of all\n"
" valid key names is given. If more than one key is given, they are\n"
" entered into the remote control queue in the given sequence. There\n"
" can be up to 31 keys.",
"LSTC [ :ids ] [ :groups | <number> | <name> | <id> ]\n"
" List channels. Without option, all channels are listed. Otherwise\n"
" only the given channel is listed. If a name is given, all channels\n"
" containing the given string as part of their name are listed.\n"
" If ':groups' is given, all channels are listed including group\n"
" separators. The channel number of a group separator is always 0.\n"
" With ':ids' the channel ids are listed following the channel numbers.\n"
" The special number 0 can be given to list the current channel.",
"LSTD\n"
" List all available devices. Each device is listed with its name and\n"
" whether it is currently the primary device ('P') or it implements a\n"
" decoder ('D') and can be used as output device.",
"LSTE [ <channel> ] [ now | next | at <time> ]\n"
" List EPG data. Without any parameters all data of all channels is\n"
" listed. If a channel is given (either by number or by channel ID),\n"
" only data for that channel is listed. 'now', 'next', or 'at <time>'\n"
" restricts the returned data to present events, following events, or\n"
" events at the given time (which must be in time_t form).",
"LSTR [ <id> [ path ] ]\n"
" List recordings. Without option, all recordings are listed. Otherwise\n"
" the information for the given recording is listed. If a recording\n"
" id and the keyword 'path' is given, the actual file name of that\n"
" recording's directory is listed.\n"
" Note that the ids of the recordings are not necessarily given in\n"
" numeric order.",
"LSTT [ <id> ] [ id ]\n"
" List timers. Without option, all timers are listed. Otherwise\n"
" only the timer with the given id is listed. If the keyword 'id' is\n"
" given, the channels will be listed with their unique channel ids\n"
" instead of their numbers. This command lists only the timers that are\n"
" defined locally on this VDR, not any remote timers from other VDRs.",
"MESG <message>\n"
" Displays the given message on the OSD. The message will be queued\n"
" and displayed whenever this is suitable.\n",
"MODC <number> <settings>\n"
" Modify a channel. Settings must be in the same format as returned\n"
" by the LSTC command.",
"MODT <id> on | off | <settings>\n"
" Modify a timer. Settings must be in the same format as returned\n"
" by the LSTT command. The special keywords 'on' and 'off' can be\n"
" used to easily activate or deactivate a timer.",
"MOVC <number> <to>\n"
" Move a channel to a new position.",
"MOVR <id> <new name>\n"
" Move the recording with the given id. Before a recording can be\n"
" moved, an LSTR command should have been executed in order to retrieve\n"
" the recording ids. The ids don't change during subsequent MOVR\n"
" commands.\n",
"NEWC <settings>\n"
" Create a new channel. Settings must be in the same format as returned\n"
" by the LSTC command.",
"NEWT <settings>\n"
" Create a new timer. Settings must be in the same format as returned\n"
" by the LSTT command.",
"NEXT [ abs | rel ]\n"
" Show the next timer event. If no option is given, the output will be\n"
" in human readable form. With option 'abs' the absolute time of the next\n"
" event will be given as the number of seconds since the epoch (time_t\n"
" format), while with option 'rel' the relative time will be given as the\n"
" number of seconds from now until the event. If the absolute time given\n"
" is smaller than the current time, or if the relative time is less than\n"
" zero, this means that the timer is currently recording and has started\n"
" at the given time. The first value in the resulting line is the id\n"
" of the timer.",
"PING\n"
" Used by peer-to-peer connections between VDRs to keep the connection\n"
" from timing out. May be used at any time and simply returns a line of\n"
" the form '<hostname> is alive'.",
"PLAY <id> [ begin | <position> ]\n"
" Play the recording with the given id. Before a recording can be\n"
" played, an LSTR command should have been executed in order to retrieve\n"
" the recording ids.\n"
" The keyword 'begin' plays the recording from its very beginning, while\n"
" a <position> (given as hh:mm:ss[.ff] or framenumber) starts at that\n"
" position. If neither 'begin' nor a <position> are given, replay is resumed\n"
" at the position where any previous replay was stopped, or from the beginning\n"
" by default. To control or stop the replay session, use the usual remote\n"
" control keypresses via the HITK command.",
"PLUG <name> [ help | main ] [ <command> [ <options> ]]\n"
" Send a command to a plugin.\n"
" The PLUG command without any parameters lists all plugins.\n"
" If only a name is given, all commands known to that plugin are listed.\n"
" If a command is given (optionally followed by parameters), that command\n"
" is sent to the plugin, and the result will be displayed.\n"
" The keyword 'help' lists all the SVDRP commands known to the named plugin.\n"
" If 'help' is followed by a command, the detailed help for that command is\n"
" given. The keyword 'main' initiates a call to the main menu function of the\n"
" given plugin.\n",
"POLL <name> timers\n"
" Used by peer-to-peer connections between VDRs to inform other machines\n"
" about changes to timers. The receiving VDR shall use LSTT to query the\n"
" remote machine with the given name about its timers and update its list\n"
" of timers accordingly.\n",
"PRIM [ <number> ]\n"
" Make the device with the given number the primary device.\n"
" Without option it returns the currently active primary device in the same\n"
" format as used by the LSTD command.",
"PUTE [ <file> ]\n"
" Put data into the EPG list. The data entered has to strictly follow the\n"
" format defined in vdr(5) for the 'epg.data' file. A '.' on a line\n"
" by itself terminates the input and starts processing of the data (all\n"
" entered data is buffered until the terminating '.' is seen).\n"
" If a file name is given, epg data will be read from this file (which\n"
" must be accessible under the given name from the machine VDR is running\n"
" on). In case of file input, no terminating '.' shall be given.\n",
"REMO [ on | off ]\n"
" Turns the remote control on or off. Without a parameter, the current\n"
" status of the remote control is reported.",
"SCAN\n"
" Forces an EPG scan. If this is a single DVB device system, the scan\n"
" will be done on the primary device unless it is currently recording.",
"STAT disk\n"
" Return information about disk usage (total, free, percent).",
"UPDT <settings>\n"
" Updates a timer. Settings must be in the same format as returned\n"
" by the LSTT command. If a timer with the same channel, day, start\n"
" and stop time does not yet exist, it will be created.",
"UPDR\n"
" Initiates a re-read of the recordings directory, which is the SVDRP\n"
" equivalent to 'touch .update'.",
"VOLU [ <number> | + | - | mute ]\n"
" Set the audio volume to the given number (which is limited to the range\n"
" 0...255). If the special options '+' or '-' are given, the volume will\n"
" be turned up or down, respectively. The option 'mute' will toggle the\n"
" audio muting. If no option is given, the current audio volume level will\n"
" be returned.",
"QUIT\n"
" Exit vdr (SVDRP).\n"
" You can also hit Ctrl-D to exit.",
NULL
};
/* SVDRP Reply Codes:
214 Help message
215 EPG or recording data record
216 Image grab data (base 64)
220 VDR service ready
221 VDR service closing transmission channel
250 Requested VDR action okay, completed
354 Start sending EPG data
451 Requested action aborted: local error in processing
500 Syntax error, command unrecognized
501 Syntax error in parameters or arguments
502 Command not implemented
504 Command parameter not implemented
550 Requested action not taken
554 Transaction failed
900 Default plugin reply code
901..999 Plugin specific reply codes
*/
const char *GetHelpTopic(const char *HelpPage)
{
static char topic[MAXHELPTOPIC];
const char *q = HelpPage;
while (*q) {
if (isspace(*q)) {
uint n = q - HelpPage;
if (n >= sizeof(topic))
n = sizeof(topic) - 1;
strncpy(topic, HelpPage, n);
topic[n] = 0;
return topic;
}
q++;
}
return NULL;
}
const char *GetHelpPage(const char *Cmd, const char **p)
{
if (p) {
while (*p) {
const char *t = GetHelpTopic(*p);
if (strcasecmp(Cmd, t) == 0)
return *p;
p++;
}
}
return NULL;
}
static cString grabImageDir;
class cSVDRPServer {
private:
int socket;
cIpAddress clientIpAddress;
cString clientName;
cFile file;
cPUTEhandler *PUTEhandler;
int numChars;
int length;
char *cmdLine;
time_t lastActivity;
void Close(bool SendReply = false, bool Timeout = false);
bool Send(const char *s);
void Reply(int Code, const char *fmt, ...) __attribute__ ((format (printf, 3, 4)));
void PrintHelpTopics(const char **hp);
void CmdCHAN(const char *Option);
void CmdCLRE(const char *Option);
void CmdCONN(const char *Option);
void CmdDELC(const char *Option);
void CmdDELR(const char *Option);
void CmdDELT(const char *Option);
void CmdEDIT(const char *Option);
void CmdGRAB(const char *Option);
void CmdHELP(const char *Option);
void CmdHITK(const char *Option);
void CmdLSTC(const char *Option);
void CmdLSTD(const char *Option);
void CmdLSTE(const char *Option);
void CmdLSTR(const char *Option);
void CmdLSTT(const char *Option);
void CmdMESG(const char *Option);
void CmdMODC(const char *Option);
void CmdMODT(const char *Option);
void CmdMOVC(const char *Option);
void CmdMOVR(const char *Option);
void CmdNEWC(const char *Option);
void CmdNEWT(const char *Option);
void CmdNEXT(const char *Option);
void CmdPING(const char *Option);
void CmdPLAY(const char *Option);
void CmdPLUG(const char *Option);
void CmdPOLL(const char *Option);
void CmdPRIM(const char *Option);
void CmdPUTE(const char *Option);
void CmdREMO(const char *Option);
void CmdSCAN(const char *Option);
void CmdSTAT(const char *Option);
void CmdUPDT(const char *Option);
void CmdUPDR(const char *Option);
void CmdVOLU(const char *Option);
void Execute(char *Cmd);
public:
cSVDRPServer(int Socket, const cIpAddress *ClientIpAddress);
~cSVDRPServer();
const char *ClientName(void) const { return clientName; }
bool HasConnection(void) { return file.IsOpen(); }
bool Process(void);
};
static cPoller SVDRPServerPoller;
cSVDRPServer::cSVDRPServer(int Socket, const cIpAddress *ClientIpAddress)
{
socket = Socket;
clientIpAddress = *ClientIpAddress;
clientName = clientIpAddress.Connection(); // will be set to actual name by a CONN command
PUTEhandler = NULL;
numChars = 0;
length = BUFSIZ;
cmdLine = MALLOC(char, length);
lastActivity = time(NULL);
if (file.Open(socket)) {
time_t now = time(NULL);
Reply(220, "%s SVDRP VideoDiskRecorder %s; %s; %s", Setup.SVDRPHostName, VDRVERSION, *TimeToString(now), cCharSetConv::SystemCharacterTable() ? cCharSetConv::SystemCharacterTable() : "UTF-8");
SVDRPServerPoller.Add(file, false);
}
dsyslog("SVDRP %s > %s server created", Setup.SVDRPHostName, *clientName);
}
cSVDRPServer::~cSVDRPServer()
{
Close(true);
free(cmdLine);
dsyslog("SVDRP %s < %s server destroyed", Setup.SVDRPHostName, *clientName);
}
void cSVDRPServer::Close(bool SendReply, bool Timeout)
{
if (file.IsOpen()) {
if (SendReply) {
Reply(221, "%s closing connection%s", Setup.SVDRPHostName, Timeout ? " (timeout)" : "");
}
isyslog("SVDRP %s < %s connection closed", Setup.SVDRPHostName, *clientName);
SVDRPServerPoller.Del(file, false);
file.Close();
DELETENULL(PUTEhandler);
}
close(socket);
}
bool cSVDRPServer::Send(const char *s)
{
dbgsvdrp("> S %s: %s", *clientName, s); // terminating newline is already in the string!
if (safe_write(file, s, strlen(s)) < 0) {
LOG_ERROR;
Close();
return false;
}
return true;
}
void cSVDRPServer::Reply(int Code, const char *fmt, ...)
{
if (file.IsOpen()) {
if (Code != 0) {
char *buffer = NULL;
va_list ap;
va_start(ap, fmt);
if (vasprintf(&buffer, fmt, ap) >= 0) {
char *s = buffer;
while (s && *s) {
char *n = strchr(s, '\n');
if (n)
*n = 0;
char cont = ' ';
if (Code < 0 || n && *(n + 1)) // trailing newlines don't count!
cont = '-';
if (!Send(cString::sprintf("%03d%c%s\r\n", abs(Code), cont, s)))
break;
s = n ? n + 1 : NULL;
}
}
else {
Reply(451, "Bad format - looks like a programming error!");
esyslog("SVDRP %s < %s bad format!", Setup.SVDRPHostName, *clientName);
}
va_end(ap);
free(buffer);
}
else {
Reply(451, "Zero return code - looks like a programming error!");
esyslog("SVDRP %s < %s zero return code!", Setup.SVDRPHostName, *clientName);
}
}
}
void cSVDRPServer::PrintHelpTopics(const char **hp)
{
int NumPages = 0;
if (hp) {
while (*hp) {
NumPages++;
hp++;
}
hp -= NumPages;
}
const int TopicsPerLine = 5;
int x = 0;
for (int y = 0; (y * TopicsPerLine + x) < NumPages; y++) {
char buffer[TopicsPerLine * MAXHELPTOPIC + 5];
char *q = buffer;
q += sprintf(q, " ");
for (x = 0; x < TopicsPerLine && (y * TopicsPerLine + x) < NumPages; x++) {
const char *topic = GetHelpTopic(hp[(y * TopicsPerLine + x)]);
if (topic)
q += sprintf(q, "%*s", -MAXHELPTOPIC, topic);
}
x = 0;
Reply(-214, "%s", buffer);
}
}
void cSVDRPServer::CmdCHAN(const char *Option)
{
LOCK_CHANNELS_READ;
if (*Option) {
int n = -1;
int d = 0;
if (isnumber(Option)) {
int o = strtol(Option, NULL, 10);
if (o >= 1 && o <= cChannels::MaxNumber())
n = o;
}
else if (strcmp(Option, "-") == 0) {
n = cDevice::CurrentChannel();
if (n > 1) {
n--;
d = -1;
}
}
else if (strcmp(Option, "+") == 0) {
n = cDevice::CurrentChannel();
if (n < cChannels::MaxNumber()) {
n++;
d = 1;
}
}
else if (const cChannel *Channel = Channels->GetByChannelID(tChannelID::FromString(Option)))
n = Channel->Number();
else {
for (const cChannel *Channel = Channels->First(); Channel; Channel = Channels->Next(Channel)) {
if (!Channel->GroupSep()) {
if (strcasecmp(Channel->Name(), Option) == 0) {
n = Channel->Number();
break;
}
}
}
}
if (n < 0) {
Reply(501, "Undefined channel \"%s\"", Option);
return;
}
if (!d) {
if (const cChannel *Channel = Channels->GetByNumber(n)) {
if (!cDevice::PrimaryDevice()->SwitchChannel(Channel, true)) {
Reply(554, "Error switching to channel \"%d\"", Channel->Number());
return;
}
}
else {
Reply(550, "Unable to find channel \"%s\"", Option);
return;
}
}
else
cDevice::SwitchChannel(d);
}
if (const cChannel *Channel = Channels->GetByNumber(cDevice::CurrentChannel()))
Reply(250, "%d %s", Channel->Number(), Channel->Name());
else
Reply(550, "Unable to find channel \"%d\"", cDevice::CurrentChannel());
}
void cSVDRPServer::CmdCLRE(const char *Option)
{
if (*Option) {
LOCK_TIMERS_WRITE;
LOCK_CHANNELS_READ;
tChannelID ChannelID = tChannelID::InvalidID;
if (isnumber(Option)) {
int o = strtol(Option, NULL, 10);
if (o >= 1 && o <= cChannels::MaxNumber()) {
if (const cChannel *Channel = Channels->GetByNumber(o))
ChannelID = Channel->GetChannelID();
}
}
else {
ChannelID = tChannelID::FromString(Option);
if (ChannelID == tChannelID::InvalidID) {
for (const cChannel *Channel = Channels->First(); Channel; Channel = Channels->Next(Channel)) {
if (!Channel->GroupSep()) {
if (strcasecmp(Channel->Name(), Option) == 0) {
ChannelID = Channel->GetChannelID();
break;
}
}
}
}
}
if (!(ChannelID == tChannelID::InvalidID)) {
LOCK_SCHEDULES_WRITE;
cSchedule *Schedule = NULL;
ChannelID.ClrRid();
for (cSchedule *p = Schedules->First(); p; p = Schedules->Next(p)) {
if (p->ChannelID() == ChannelID) {
Schedule = p;
break;
}
}
if (Schedule) {
for (cTimer *Timer = Timers->First(); Timer; Timer = Timers->Next(Timer)) {
if (ChannelID == Timer->Channel()->GetChannelID().ClrRid())
Timer->SetEvent(NULL);
}
Schedule->Cleanup(INT_MAX);
cEitFilter::SetDisableUntil(time(NULL) + EITDISABLETIME);
Reply(250, "EPG data of channel \"%s\" cleared", Option);
}
else {
Reply(550, "No EPG data found for channel \"%s\"", Option);
return;
}
}
else
Reply(501, "Undefined channel \"%s\"", Option);
}
else {
LOCK_TIMERS_WRITE;
LOCK_SCHEDULES_WRITE;
for (cTimer *Timer = Timers->First(); Timer; Timer = Timers->Next(Timer))
Timer->SetEvent(NULL); // processing all timers here (local *and* remote)
for (cSchedule *Schedule = Schedules->First(); Schedule; Schedule = Schedules->Next(Schedule))
Schedule->Cleanup(INT_MAX);
cEitFilter::SetDisableUntil(time(NULL) + EITDISABLETIME);
Reply(250, "EPG data cleared");
}
}
void cSVDRPServer::CmdCONN(const char *Option)
{
if (*Option) {
if (SVDRPClientHandler) {
cSVDRPServerParams ServerParams(Option);
if (ServerParams.Ok()) {
clientName = ServerParams.Name();
Reply(250, "OK"); // must finish this transaction before creating the new client
SVDRPClientHandler->AddClient(ServerParams, clientIpAddress.Address());
}
else
Reply(501, "Error in server parameters: %s", ServerParams.Error());
}
else
Reply(451, "No SVDRP client handler");
}
else
Reply(501, "Missing server parameters");
}
void cSVDRPServer::CmdDELC(const char *Option)
{
if (*Option) {
LOCK_TIMERS_READ;
LOCK_CHANNELS_WRITE;
Channels->SetExplicitModify();
cChannel *Channel = NULL;
if (isnumber(Option))
Channel = Channels->GetByNumber(strtol(Option, NULL, 10));
else
Channel = Channels->GetByChannelID(tChannelID::FromString(Option));
if (Channel) {
if (const cTimer *Timer = Timers->UsesChannel(Channel)) {
Reply(550, "Channel \"%s\" is in use by timer %s", Option, *Timer->ToDescr());
return;
}
int CurrentChannelNr = cDevice::CurrentChannel();
cChannel *CurrentChannel = Channels->GetByNumber(CurrentChannelNr);
if (CurrentChannel && Channel == CurrentChannel) {
int n = Channels->GetNextNormal(CurrentChannel->Index());
if (n < 0)
n = Channels->GetPrevNormal(CurrentChannel->Index());
if (n < 0) {
Reply(501, "Can't delete channel \"%s\" - list would be empty", Option);
return;
}
CurrentChannel = Channels->Get(n);
CurrentChannelNr = 0; // triggers channel switch below
}
Channels->Del(Channel);
Channels->ReNumber();
Channels->SetModifiedByUser();
Channels->SetModified();
isyslog("SVDRP %s < %s deleted channel %s", Setup.SVDRPHostName, *clientName, Option);
if (CurrentChannel && CurrentChannel->Number() != CurrentChannelNr) {
if (!cDevice::PrimaryDevice()->Replaying() || cDevice::PrimaryDevice()->Transferring())
Channels->SwitchTo(CurrentChannel->Number());
else
cDevice::SetCurrentChannel(CurrentChannel->Number());
}
Reply(250, "Channel \"%s\" deleted", Option);
}
else
Reply(501, "Channel \"%s\" not defined", Option);
}
else
Reply(501, "Missing channel number or id");
}
static cString RecordingInUseMessage(int Reason, const char *RecordingId, cRecording *Recording)
{
cRecordControl *rc;
if ((Reason & ruTimer) != 0 && (rc = cRecordControls::GetRecordControl(Recording->FileName())) != NULL)
return cString::sprintf("Recording \"%s\" is in use by timer %d", RecordingId, rc->Timer()->Id());
else if ((Reason & ruReplay) != 0)
return cString::sprintf("Recording \"%s\" is being replayed", RecordingId);
else if ((Reason & ruCut) != 0)
return cString::sprintf("Recording \"%s\" is being edited", RecordingId);
else if ((Reason & (ruMove | ruCopy)) != 0)
return cString::sprintf("Recording \"%s\" is being copied/moved", RecordingId);
else if (Reason)
return cString::sprintf("Recording \"%s\" is in use", RecordingId);
return NULL;
}
void cSVDRPServer::CmdDELR(const char *Option)
{
if (*Option) {
if (isnumber(Option)) {
LOCK_RECORDINGS_WRITE;
Recordings->SetExplicitModify();
if (cRecording *Recording = Recordings->GetById(strtol(Option, NULL, 10))) {
if (int RecordingInUse = Recording->IsInUse())
Reply(550, "%s", *RecordingInUseMessage(RecordingInUse, Option, Recording));
else {
if (Recording->Delete()) {
Recordings->DelByName(Recording->FileName());
Recordings->SetModified();
isyslog("SVDRP %s < %s deleted recording %s", Setup.SVDRPHostName, *clientName, Option);
Reply(250, "Recording \"%s\" deleted", Option);
}
else
Reply(554, "Error while deleting recording!");
}
}
else
Reply(550, "Recording \"%s\" not found", Option);
}
else
Reply(501, "Error in recording id \"%s\"", Option);
}
else
Reply(501, "Missing recording id");
}
void cSVDRPServer::CmdDELT(const char *Option)
{
if (*Option) {
if (isnumber(Option)) {
LOCK_TIMERS_WRITE;
Timers->SetExplicitModify();
if (cTimer *Timer = Timers->GetById(strtol(Option, NULL, 10))) {
if (Timer->Recording()) {
Timer->Skip();
cRecordControls::Process(Timers, time(NULL));
}
Timers->Del(Timer);
Timers->SetModified();
isyslog("SVDRP %s < %s deleted timer %s", Setup.SVDRPHostName, *clientName, *Timer->ToDescr());
Reply(250, "Timer \"%s\" deleted", Option);
}
else
Reply(501, "Timer \"%s\" not defined", Option);
}
else
Reply(501, "Error in timer number \"%s\"", Option);
}
else
Reply(501, "Missing timer number");
}
void cSVDRPServer::CmdEDIT(const char *Option)
{
if (*Option) {
if (isnumber(Option)) {
LOCK_RECORDINGS_READ;
if (const cRecording *Recording = Recordings->GetById(strtol(Option, NULL, 10))) {
cMarks Marks;
if (Marks.Load(Recording->FileName(), Recording->FramesPerSecond(), Recording->IsPesRecording()) && Marks.Count()) {
if (RecordingsHandler.Add(ruCut, Recording->FileName()))
Reply(250, "Editing recording \"%s\" [%s]", Option, Recording->Title());
else
Reply(554, "Can't start editing process");
}
else
Reply(554, "No editing marks defined");
}
else
Reply(550, "Recording \"%s\" not found", Option);
}
else
Reply(501, "Error in recording id \"%s\"", Option);
}
else
Reply(501, "Missing recording id");
}
void cSVDRPServer::CmdGRAB(const char *Option)
{
const char *FileName = NULL;
bool Jpeg = true;
int Quality = -1, SizeX = -1, SizeY = -1;
if (*Option) {
char buf[strlen(Option) + 1];
char *p = strcpy(buf, Option);
const char *delim = " \t";
char *strtok_next;
FileName = strtok_r(p, delim, &strtok_next);
// image type:
const char *Extension = strrchr(FileName, '.');
if (Extension) {
if (strcasecmp(Extension, ".jpg") == 0 || strcasecmp(Extension, ".jpeg") == 0)
Jpeg = true;
else if (strcasecmp(Extension, ".pnm") == 0)
Jpeg = false;
else {
Reply(501, "Unknown image type \"%s\"", Extension + 1);
return;
}
if (Extension == FileName)
FileName = NULL;
}
else if (strcmp(FileName, "-") == 0)
FileName = NULL;
// image quality (and obsolete type):
if ((p = strtok_r(NULL, delim, &strtok_next)) != NULL) {
if (strcasecmp(p, "JPEG") == 0 || strcasecmp(p, "PNM") == 0) {
// tolerate for backward compatibility
p = strtok_r(NULL, delim, &strtok_next);
}
if (p) {
if (isnumber(p))
Quality = atoi(p);
else {
Reply(501, "Invalid quality \"%s\"", p);
return;
}
}
}
// image size:
if ((p = strtok_r(NULL, delim, &strtok_next)) != NULL) {
if (isnumber(p))
SizeX = atoi(p);
else {
Reply(501, "Invalid sizex \"%s\"", p);
return;
}
if ((p = strtok_r(NULL, delim, &strtok_next)) != NULL) {
if (isnumber(p))
SizeY = atoi(p);
else {
Reply(501, "Invalid sizey \"%s\"", p);
return;
}
}
else {
Reply(501, "Missing sizey");
return;
}
}
if ((p = strtok_r(NULL, delim, &strtok_next)) != NULL) {
Reply(501, "Unexpected parameter \"%s\"", p);
return;
}
// canonicalize the file name:
char RealFileName[PATH_MAX];
if (FileName) {
if (*grabImageDir) {
cString s(FileName);
FileName = s;
const char *slash = strrchr(FileName, '/');
if (!slash) {
s = AddDirectory(grabImageDir, FileName);
FileName = s;
}
slash = strrchr(FileName, '/'); // there definitely is one
cString t(s);
t.Truncate(slash - FileName);
char *r = realpath(t, RealFileName);
if (!r) {
LOG_ERROR_STR(FileName);
Reply(501, "Invalid file name \"%s\"", FileName);
return;
}
strcat(RealFileName, slash);
FileName = RealFileName;
if (strncmp(FileName, grabImageDir, strlen(grabImageDir)) != 0) {
Reply(501, "Invalid file name \"%s\"", FileName);
return;
}
}
else {
Reply(550, "Grabbing to file not allowed (use \"GRAB -\" instead)");
return;
}
}
// actual grabbing:
int ImageSize;
uchar *Image = cDevice::PrimaryDevice()->GrabImage(ImageSize, Jpeg, Quality, SizeX, SizeY);
if (Image) {
if (FileName) {
int fd = open(FileName, O_WRONLY | O_CREAT | O_NOFOLLOW | O_TRUNC, DEFFILEMODE);
if (fd >= 0) {
if (safe_write(fd, Image, ImageSize) == ImageSize) {
dsyslog("SVDRP %s < %s grabbed image to %s", Setup.SVDRPHostName, *clientName, FileName);
Reply(250, "Grabbed image %s", Option);
}
else {
LOG_ERROR_STR(FileName);
Reply(451, "Can't write to '%s'", FileName);
}
close(fd);
}
else {
LOG_ERROR_STR(FileName);
Reply(451, "Can't open '%s'", FileName);
}
}
else {
cBase64Encoder Base64(Image, ImageSize);
const char *s;
while ((s = Base64.NextLine()) != NULL)
Reply(-216, "%s", s);
Reply(216, "Grabbed image %s", Option);
}
free(Image);
}
else
Reply(451, "Grab image failed");
}
else
Reply(501, "Missing filename");
}
void cSVDRPServer::CmdHELP(const char *Option)
{
if (*Option) {
const char *hp = GetHelpPage(Option, HelpPages);
if (hp)
Reply(-214, "%s", hp);
else {
Reply(504, "HELP topic \"%s\" unknown", Option);
return;
}
}
else {
Reply(-214, "This is VDR version %s", VDRVERSION);
Reply(-214, "Topics:");
PrintHelpTopics(HelpPages);
cPlugin *plugin;
for (int i = 0; (plugin = cPluginManager::GetPlugin(i)) != NULL; i++) {
const char **hp = plugin->SVDRPHelpPages();
if (hp)
Reply(-214, "Plugin %s v%s - %s", plugin->Name(), plugin->Version(), plugin->Description());
PrintHelpTopics(hp);
}
Reply(-214, "To report bugs in the implementation send email to");
Reply(-214, " vdr-bugs@tvdr.de");
}
Reply(214, "End of HELP info");
}
void cSVDRPServer::CmdHITK(const char *Option)
{
if (*Option) {
if (!cRemote::Enabled()) {
Reply(550, "Remote control currently disabled (key \"%s\" discarded)", Option);
return;
}
char buf[strlen(Option) + 1];
strcpy(buf, Option);
const char *delim = " \t";
char *strtok_next;
char *p = strtok_r(buf, delim, &strtok_next);
int NumKeys = 0;
while (p) {
eKeys k = cKey::FromString(p);
if (k != kNone) {
if (!cRemote::Put(k)) {
Reply(451, "Too many keys in \"%s\" (only %d accepted)", Option, NumKeys);
return;
}
}
else {
Reply(504, "Unknown key: \"%s\"", p);
return;
}
NumKeys++;
p = strtok_r(NULL, delim, &strtok_next);
}
Reply(250, "Key%s \"%s\" accepted", NumKeys > 1 ? "s" : "", Option);
}
else {
Reply(-214, "Valid <key> names for the HITK command:");
for (int i = 0; i < kNone; i++) {
Reply(-214, " %s", cKey::ToString(eKeys(i)));
}
Reply(214, "End of key list");
}
}
void cSVDRPServer::CmdLSTC(const char *Option)
{
LOCK_CHANNELS_READ;
bool WithChannelIds = startswith(Option, ":ids") && (Option[4] == ' ' || Option[4] == 0);
if (WithChannelIds)
Option = skipspace(Option + 4);
bool WithGroupSeps = strcasecmp(Option, ":groups") == 0;
if (*Option && !WithGroupSeps) {
if (isnumber(Option)) {
int n = strtol(Option, NULL, 10);
if (n == 0)
n = cDevice::CurrentChannel();
if (const cChannel *Channel = Channels->GetByNumber(n))
Reply(250, "%d%s%s %s", Channel->Number(), WithChannelIds ? " " : "", WithChannelIds ? *Channel->GetChannelID().ToString() : "", *Channel->ToText());
else
Reply(501, "Channel \"%s\" not defined", Option);
}
else {
const cChannel *Next = Channels->GetByChannelID(tChannelID::FromString(Option));
if (!Next) {
for (const cChannel *Channel = Channels->First(); Channel; Channel = Channels->Next(Channel)) {
if (!Channel->GroupSep()) {
if (strcasestr(Channel->Name(), Option)) {
if (Next)
Reply(-250, "%d%s%s %s", Next->Number(), WithChannelIds ? " " : "", WithChannelIds ? *Next->GetChannelID().ToString() : "", *Next->ToText());
Next = Channel;
}
}
}
}
if (Next)
Reply(250, "%d%s%s %s", Next->Number(), WithChannelIds ? " " : "", WithChannelIds ? *Next->GetChannelID().ToString() : "", *Next->ToText());
else
Reply(501, "Channel \"%s\" not defined", Option);
}
}
else if (cChannels::MaxNumber() >= 1) {
for (const cChannel *Channel = Channels->First(); Channel; Channel = Channels->Next(Channel)) {
if (WithGroupSeps)
Reply(Channel->Next() ? -250: 250, "%d%s%s %s", Channel->GroupSep() ? 0 : Channel->Number(), (WithChannelIds && !Channel->GroupSep()) ? " " : "", (WithChannelIds && !Channel->GroupSep()) ? *Channel->GetChannelID().ToString() : "", *Channel->ToText());
else if (!Channel->GroupSep())
Reply(Channel->Number() < cChannels::MaxNumber() ? -250 : 250, "%d%s%s %s", Channel->Number(), WithChannelIds ? " " : "", WithChannelIds ? *Channel->GetChannelID().ToString() : "", *Channel->ToText());
}
}
else
Reply(550, "No channels defined");
}
void cSVDRPServer::CmdLSTD(const char *Option)
{
if (cDevice::NumDevices()) {
for (int i = 0; i < cDevice::NumDevices(); i++) {
if (const cDevice *d = cDevice::GetDevice(i))
Reply(d->DeviceNumber() + 1 == cDevice::NumDevices() ? 250 : -250, "%d [%s%s] %s", d->DeviceNumber() + 1, d->HasDecoder() ? "D" : "-", d->DeviceNumber() + 1 == Setup.PrimaryDVB ? "P" : "-", *d->DeviceName());
}
}
else
Reply(550, "No devices found");
}
void cSVDRPServer::CmdLSTE(const char *Option)
{
LOCK_CHANNELS_READ;
LOCK_SCHEDULES_READ;
const cSchedule* Schedule = NULL;
eDumpMode DumpMode = dmAll;
time_t AtTime = 0;
if (*Option) {
char buf[strlen(Option) + 1];
strcpy(buf, Option);
const char *delim = " \t";
char *strtok_next;
char *p = strtok_r(buf, delim, &strtok_next);
while (p && DumpMode == dmAll) {
if (strcasecmp(p, "NOW") == 0)
DumpMode = dmPresent;
else if (strcasecmp(p, "NEXT") == 0)
DumpMode = dmFollowing;
else if (strcasecmp(p, "AT") == 0) {
DumpMode = dmAtTime;
if ((p = strtok_r(NULL, delim, &strtok_next)) != NULL) {
if (isnumber(p))
AtTime = strtol(p, NULL, 10);
else {
Reply(501, "Invalid time");
return;
}
}
else {
Reply(501, "Missing time");
return;
}
}
else if (!Schedule) {
const cChannel* Channel = NULL;
if (isnumber(p))
Channel = Channels->GetByNumber(strtol(Option, NULL, 10));
else
Channel = Channels->GetByChannelID(tChannelID::FromString(Option));
if (Channel) {
Schedule = Schedules->GetSchedule(Channel);
if (!Schedule) {
Reply(550, "No schedule found");
return;
}
}
else {
Reply(550, "Channel \"%s\" not defined", p);
return;
}
}
else {
Reply(501, "Unknown option: \"%s\"", p);
return;
}
p = strtok_r(NULL, delim, &strtok_next);
}
}
int fd = dup(file);
if (fd) {
FILE *f = fdopen(fd, "w");
if (f) {
if (Schedule)
Schedule->Dump(Channels, f, "215-", DumpMode, AtTime);
else
Schedules->Dump(f, "215-", DumpMode, AtTime);
fflush(f);
Reply(215, "End of EPG data");
fclose(f);
}
else {
Reply(451, "Can't open file connection");
close(fd);
}
}
else
Reply(451, "Can't dup stream descriptor");
}
void cSVDRPServer::CmdLSTR(const char *Option)
{
int Number = 0;
bool Path = false;
LOCK_RECORDINGS_READ;
if (*Option) {
char buf[strlen(Option) + 1];
strcpy(buf, Option);
const char *delim = " \t";
char *strtok_next;
char *p = strtok_r(buf, delim, &strtok_next);
while (p) {
if (!Number) {
if (isnumber(p))
Number = strtol(p, NULL, 10);
else {
Reply(501, "Error in recording id \"%s\"", Option);
return;
}
}
else if (strcasecmp(p, "PATH") == 0)
Path = true;
else {
Reply(501, "Unknown option: \"%s\"", p);
return;
}
p = strtok_r(NULL, delim, &strtok_next);
}
if (Number) {
if (const cRecording *Recording = Recordings->GetById(strtol(Option, NULL, 10))) {
FILE *f = fdopen(file, "w");
if (f) {
if (Path)
Reply(250, "%s", Recording->FileName());
else {
Recording->Info()->Write(f, "215-");
fflush(f);
Reply(215, "End of recording information");
}
// don't 'fclose(f)' here!
}
else
Reply(451, "Can't open file connection");
}
else
Reply(550, "Recording \"%s\" not found", Option);
}
}
else if (Recordings->Count()) {
const cRecording *Recording = Recordings->First();
while (Recording) {
Reply(Recording == Recordings->Last() ? 250 : -250, "%d %s", Recording->Id(), Recording->Title(' ', true));
Recording = Recordings->Next(Recording);
}
}
else
Reply(550, "No recordings available");
}
void cSVDRPServer::CmdLSTT(const char *Option)
{
int Id = 0;
bool UseChannelId = false;
if (*Option) {
char buf[strlen(Option) + 1];
strcpy(buf, Option);
const char *delim = " \t";
char *strtok_next;
char *p = strtok_r(buf, delim, &strtok_next);
while (p) {
if (isnumber(p))
Id = strtol(p, NULL, 10);
else if (strcasecmp(p, "ID") == 0)
UseChannelId = true;
else {
Reply(501, "Unknown option: \"%s\"", p);
return;
}
p = strtok_r(NULL, delim, &strtok_next);
}
}
LOCK_TIMERS_READ;
if (Id) {
for (const cTimer *Timer = Timers->First(); Timer; Timer = Timers->Next(Timer)) {
if (!Timer->Remote()) {
if (Timer->Id() == Id) {
Reply(250, "%d %s", Timer->Id(), *Timer->ToText(UseChannelId));
return;
}
}
}
Reply(501, "Timer \"%s\" not defined", Option);
return;
}
else {
const cTimer *LastLocalTimer = Timers->Last();
while (LastLocalTimer) {
if (LastLocalTimer->Remote())
LastLocalTimer = Timers->Prev(LastLocalTimer);
else
break;
}
if (LastLocalTimer) {
for (const cTimer *Timer = Timers->First(); Timer; Timer = Timers->Next(Timer)) {
if (!Timer->Remote())
Reply(Timer != LastLocalTimer ? -250 : 250, "%d %s", Timer->Id(), *Timer->ToText(UseChannelId));
if (Timer == LastLocalTimer)
break;
}
return;
}
}
Reply(550, "No timers defined");
}
void cSVDRPServer::CmdMESG(const char *Option)
{
if (*Option) {
isyslog("SVDRP %s < %s message '%s'", Setup.SVDRPHostName, *clientName, Option);
Skins.QueueMessage(mtInfo, Option);
Reply(250, "Message queued");
}
else
Reply(501, "Missing message");
}
void cSVDRPServer::CmdMODC(const char *Option)
{
if (*Option) {
char *tail;
int n = strtol(Option, &tail, 10);
if (tail && tail != Option) {
tail = skipspace(tail);
LOCK_CHANNELS_WRITE;
Channels->SetExplicitModify();
if (cChannel *Channel = Channels->GetByNumber(n)) {
cChannel ch;
if (ch.Parse(tail)) {
if (Channels->HasUniqueChannelID(&ch, Channel)) {
*Channel = ch;
Channels->ReNumber();
Channels->SetModifiedByUser();
Channels->SetModified();
isyslog("SVDRP %s < %s modified channel %d %s", Setup.SVDRPHostName, *clientName, Channel->Number(), *Channel->ToText());
Reply(250, "%d %s", Channel->Number(), *Channel->ToText());
}
else
Reply(501, "Channel settings are not unique");
}
else
Reply(501, "Error in channel settings");
}
else
Reply(501, "Channel \"%d\" not defined", n);
}
else
Reply(501, "Error in channel number");
}
else
Reply(501, "Missing channel settings");
}
void cSVDRPServer::CmdMODT(const char *Option)
{
if (*Option) {
char *tail;
int Id = strtol(Option, &tail, 10);
if (tail && tail != Option) {
tail = skipspace(tail);
LOCK_TIMERS_WRITE;
Timers->SetExplicitModify();
if (cTimer *Timer = Timers->GetById(Id)) {
bool IsRecording = Timer->HasFlags(tfRecording);
cTimer t = *Timer;
if (strcasecmp(tail, "ON") == 0)
t.SetFlags(tfActive);
else if (strcasecmp(tail, "OFF") == 0)
t.ClrFlags(tfActive);
else if (!t.Parse(tail)) {
Reply(501, "Error in timer settings");
return;
}
*Timer = t;
if (IsRecording)
Timer->SetFlags(tfRecording);
else
Timer->ClrFlags(tfRecording);
Timers->SetModified();
isyslog("SVDRP %s < %s modified timer %s (%s)", Setup.SVDRPHostName, *clientName, *Timer->ToDescr(), Timer->HasFlags(tfActive) ? "active" : "inactive");
Reply(250, "%d %s", Timer->Id(), *Timer->ToText(true));
}
else
Reply(501, "Timer \"%d\" not defined", Id);
}
else
Reply(501, "Error in timer id");
}
else
Reply(501, "Missing timer settings");
}
void cSVDRPServer::CmdMOVC(const char *Option)
{
if (*Option) {
char *tail;
int From = strtol(Option, &tail, 10);
if (tail && tail != Option) {
tail = skipspace(tail);
if (tail && tail != Option) {
LOCK_TIMERS_READ; // necessary to keep timers and channels in sync!
LOCK_CHANNELS_WRITE;
Channels->SetExplicitModify();
int To = strtol(tail, NULL, 10);
int CurrentChannelNr = cDevice::CurrentChannel();
const cChannel *CurrentChannel = Channels->GetByNumber(CurrentChannelNr);
cChannel *FromChannel = Channels->GetByNumber(From);
if (FromChannel) {
cChannel *ToChannel = Channels->GetByNumber(To);
if (ToChannel) {
int FromNumber = FromChannel->Number();
int ToNumber = ToChannel->Number();
if (FromNumber != ToNumber) {
if (Channels->MoveNeedsDecrement(FromChannel, ToChannel))
ToChannel = Channels->Prev(ToChannel); // cListBase::Move() doesn't know about the channel list's numbered groups!
Channels->Move(FromChannel, ToChannel);
Channels->ReNumber();
Channels->SetModifiedByUser();
Channels->SetModified();
if (CurrentChannel && CurrentChannel->Number() != CurrentChannelNr) {
if (!cDevice::PrimaryDevice()->Replaying() || cDevice::PrimaryDevice()->Transferring())
Channels->SwitchTo(CurrentChannel->Number());
else
cDevice::SetCurrentChannel(CurrentChannel->Number());
}
isyslog("SVDRP %s < %s moved channel %d to %d", Setup.SVDRPHostName, *clientName, FromNumber, ToNumber);
Reply(250,"Channel \"%d\" moved to \"%d\"", From, To);
}
else
Reply(501, "Can't move channel to same position");
}
else
Reply(501, "Channel \"%d\" not defined", To);
}
else
Reply(501, "Channel \"%d\" not defined", From);
}
else
Reply(501, "Error in channel number");
}
else
Reply(501, "Error in channel number");
}
else
Reply(501, "Missing channel number");
}
void cSVDRPServer::CmdMOVR(const char *Option)
{
if (*Option) {
char *opt = strdup(Option);
char *num = skipspace(opt);
char *option = num;
while (*option && !isspace(*option))
option++;
char c = *option;
*option = 0;
if (isnumber(num)) {
LOCK_RECORDINGS_WRITE;
Recordings->SetExplicitModify();
if (cRecording *Recording = Recordings->GetById(strtol(num, NULL, 10))) {
if (int RecordingInUse = Recording->IsInUse())
Reply(550, "%s", *RecordingInUseMessage(RecordingInUse, Option, Recording));
else {
if (c)
option = skipspace(++option);
if (*option) {
cString oldName = Recording->Name();
if ((Recording = Recordings->GetByName(Recording->FileName())) != NULL && Recording->ChangeName(option)) {
Recordings->SetModified();
Recordings->TouchUpdate();
Reply(250, "Recording \"%s\" moved to \"%s\"", *oldName, Recording->Name());
}
else
Reply(554, "Error while moving recording \"%s\" to \"%s\"!", *oldName, option);
}
else
Reply(501, "Missing new recording name");
}
}
else
Reply(550, "Recording \"%s\" not found", num);
}
else
Reply(501, "Error in recording id \"%s\"", num);
free(opt);
}
else
Reply(501, "Missing recording id");
}
void cSVDRPServer::CmdNEWC(const char *Option)
{
if (*Option) {
cChannel ch;
if (ch.Parse(Option)) {
LOCK_CHANNELS_WRITE;
Channels->SetExplicitModify();
if (Channels->HasUniqueChannelID(&ch)) {
cChannel *channel = new cChannel;
*channel = ch;
Channels->Add(channel);
Channels->ReNumber();
Channels->SetModifiedByUser();
Channels->SetModified();
isyslog("SVDRP %s < %s new channel %d %s", Setup.SVDRPHostName, *clientName, channel->Number(), *channel->ToText());
Reply(250, "%d %s", channel->Number(), *channel->ToText());
}
else
Reply(501, "Channel settings are not unique");
}
else
Reply(501, "Error in channel settings");
}
else
Reply(501, "Missing channel settings");
}
void cSVDRPServer::CmdNEWT(const char *Option)
{
if (*Option) {
cTimer *Timer = new cTimer;
if (Timer->Parse(Option)) {
LOCK_TIMERS_WRITE;
Timer->ClrFlags(tfRecording);
Timers->Add(Timer);
isyslog("SVDRP %s < %s added timer %s", Setup.SVDRPHostName, *clientName, *Timer->ToDescr());
Reply(250, "%d %s", Timer->Id(), *Timer->ToText(true));
return;
}
else
Reply(501, "Error in timer settings");
delete Timer;
}
else
Reply(501, "Missing timer settings");
}
void cSVDRPServer::CmdNEXT(const char *Option)
{
LOCK_TIMERS_READ;
if (const cTimer *t = Timers->GetNextActiveTimer()) {
time_t Start = t->StartTime();
int Id = t->Id();
if (!*Option)
Reply(250, "%d %s", Id, *TimeToString(Start));
else if (strcasecmp(Option, "ABS") == 0)
Reply(250, "%d %ld", Id, Start);
else if (strcasecmp(Option, "REL") == 0)
Reply(250, "%d %ld", Id, Start - time(NULL));
else
Reply(501, "Unknown option: \"%s\"", Option);
}
else
Reply(550, "No active timers");
}
void cSVDRPServer::CmdPING(const char *Option)
{
Reply(250, "%s is alive", Setup.SVDRPHostName);
}
void cSVDRPServer::CmdPLAY(const char *Option)
{
if (*Option) {
char *opt = strdup(Option);
char *num = skipspace(opt);
char *option = num;
while (*option && !isspace(*option))
option++;
char c = *option;
*option = 0;
if (isnumber(num)) {
cStateKey StateKey;
if (const cRecordings *Recordings = cRecordings::GetRecordingsRead(StateKey)) {
if (const cRecording *Recording = Recordings->GetById(strtol(num, NULL, 10))) {
cString FileName = Recording->FileName();
cString Title = Recording->Title();
int FramesPerSecond = Recording->FramesPerSecond();
bool IsPesRecording = Recording->IsPesRecording();
StateKey.Remove(); // must give up the lock for the call to cControl::Shutdown()
if (c)
option = skipspace(++option);
cReplayControl::SetRecording(NULL);
cControl::Shutdown();
if (*option) {
int pos = 0;
if (strcasecmp(option, "BEGIN") != 0)
pos = HMSFToIndex(option, FramesPerSecond);
cResumeFile Resume(FileName, IsPesRecording);
if (pos <= 0)
Resume.Delete();
else
Resume.Save(pos);
}
cReplayControl::SetRecording(FileName);
cControl::Launch(new cReplayControl);
cControl::Attach();
Reply(250, "Playing recording \"%s\" [%s]", num, *Title);
}
else {
StateKey.Remove();
Reply(550, "Recording \"%s\" not found", num);
}
}
}
else
Reply(501, "Error in recording id \"%s\"", num);
free(opt);
}
else
Reply(501, "Missing recording id");
}
void cSVDRPServer::CmdPLUG(const char *Option)
{
if (*Option) {
char *opt = strdup(Option);
char *name = skipspace(opt);
char *option = name;
while (*option && !isspace(*option))
option++;
char c = *option;
*option = 0;
cPlugin *plugin = cPluginManager::GetPlugin(name);
if (plugin) {
if (c)
option = skipspace(++option);
char *cmd = option;
while (*option && !isspace(*option))
option++;
if (*option) {
*option++ = 0;
option = skipspace(option);
}
if (!*cmd || strcasecmp(cmd, "HELP") == 0) {
if (*cmd && *option) {
const char *hp = GetHelpPage(option, plugin->SVDRPHelpPages());
if (hp) {
Reply(-214, "%s", hp);
Reply(214, "End of HELP info");
}
else
Reply(504, "HELP topic \"%s\" for plugin \"%s\" unknown", option, plugin->Name());
}
else {
Reply(-214, "Plugin %s v%s - %s", plugin->Name(), plugin->Version(), plugin->Description());
const char **hp = plugin->SVDRPHelpPages();
if (hp) {
Reply(-214, "SVDRP commands:");
PrintHelpTopics(hp);
Reply(214, "End of HELP info");
}
else
Reply(214, "This plugin has no SVDRP commands");
}
}
else if (strcasecmp(cmd, "MAIN") == 0) {
if (cRemote::CallPlugin(plugin->Name()))
Reply(250, "Initiated call to main menu function of plugin \"%s\"", plugin->Name());
else
Reply(550, "A plugin call is already pending - please try again later");
}
else {
int ReplyCode = 900;
cString s = plugin->SVDRPCommand(cmd, option, ReplyCode);
if (*s)
Reply(abs(ReplyCode), "%s", *s);
else
Reply(500, "Command unrecognized: \"%s\"", cmd);
}
}
else
Reply(550, "Plugin \"%s\" not found (use PLUG for a list of plugins)", name);
free(opt);
}
else {
Reply(-214, "Available plugins:");
cPlugin *plugin;
for (int i = 0; (plugin = cPluginManager::GetPlugin(i)) != NULL; i++)
Reply(-214, "%s v%s - %s", plugin->Name(), plugin->Version(), plugin->Description());
Reply(214, "End of plugin list");
}
}
void cSVDRPServer::CmdPOLL(const char *Option)
{
if (*Option) {
char buf[strlen(Option) + 1];
char *p = strcpy(buf, Option);
const char *delim = " \t";
char *strtok_next;
char *RemoteName = strtok_r(p, delim, &strtok_next);
char *ListName = strtok_r(NULL, delim, &strtok_next);
if (SVDRPClientHandler) {
if (ListName) {
if (strcasecmp(ListName, "timers") == 0) {
if (SVDRPClientHandler->TriggerFetchingTimers(RemoteName))
Reply(250, "OK");
else
Reply(501, "No connection to \"%s\"", RemoteName);
}
else
Reply(501, "Unknown list name: \"%s\"", ListName);
}
else
Reply(501, "Missing list name");
}
else
Reply(501, "No SVDRP client connections");
}
else
Reply(501, "Missing parameters");
}
void cSVDRPServer::CmdPRIM(const char *Option)
{
int n = -1;
if (*Option) {
if (isnumber(Option)) {
int o = strtol(Option, NULL, 10);
if (o > 0 && o <= cDevice::NumDevices())
n = o;
else
Reply(501, "Invalid device number \"%s\"", Option);
}
else
Reply(501, "Invalid parameter \"%s\"", Option);
if (n >= 0) {
Setup.PrimaryDVB = n;
Reply(250, "Primary device set to %d", n);
}
}
else {
if (const cDevice *d = cDevice::PrimaryDevice())
Reply(250, "%d [%s%s] %s", d->DeviceNumber() + 1, d->HasDecoder() ? "D" : "-", d->DeviceNumber() + 1 == Setup.PrimaryDVB ? "P" : "-", *d->DeviceName());
else
Reply(501, "Failed to get primary device");
}
}
void cSVDRPServer::CmdPUTE(const char *Option)
{
if (*Option) {
FILE *f = fopen(Option, "r");
if (f) {
if (cSchedules::Read(f)) {
cSchedules::Cleanup(true);
Reply(250, "EPG data processed from \"%s\"", Option);
}
else
Reply(451, "Error while processing EPG from \"%s\"", Option);
fclose(f);
}
else
Reply(501, "Cannot open file \"%s\"", Option);
}
else {
delete PUTEhandler;
PUTEhandler = new cPUTEhandler;
Reply(PUTEhandler->Status(), "%s", PUTEhandler->Message());
if (PUTEhandler->Status() != 354)
DELETENULL(PUTEhandler);
}
}
void cSVDRPServer::CmdREMO(const char *Option)
{
if (*Option) {
if (!strcasecmp(Option, "ON")) {
cRemote::SetEnabled(true);
Reply(250, "Remote control enabled");
}
else if (!strcasecmp(Option, "OFF")) {
cRemote::SetEnabled(false);
Reply(250, "Remote control disabled");
}
else
Reply(501, "Invalid Option \"%s\"", Option);
}
else
Reply(250, "Remote control is %s", cRemote::Enabled() ? "enabled" : "disabled");
}
void cSVDRPServer::CmdSCAN(const char *Option)
{
EITScanner.ForceScan();
Reply(250, "EPG scan triggered");
}
void cSVDRPServer::CmdSTAT(const char *Option)
{
if (*Option) {
if (strcasecmp(Option, "DISK") == 0) {
int FreeMB, UsedMB;
int Percent = cVideoDirectory::VideoDiskSpace(&FreeMB, &UsedMB);
Reply(250, "%dMB %dMB %d%%", FreeMB + UsedMB, FreeMB, Percent);
}
else
Reply(501, "Invalid Option \"%s\"", Option);
}
else
Reply(501, "No option given");
}
void cSVDRPServer::CmdUPDT(const char *Option)
{
if (*Option) {
cTimer *Timer = new cTimer;
if (Timer->Parse(Option)) {
LOCK_TIMERS_WRITE;
if (cTimer *t = Timers->GetTimer(Timer)) {
bool IsRecording = t->HasFlags(tfRecording);
t->Parse(Option);
delete Timer;
Timer = t;
if (IsRecording)
Timer->SetFlags(tfRecording);
else
Timer->ClrFlags(tfRecording);
isyslog("SVDRP %s < %s updated timer %s", Setup.SVDRPHostName, *clientName, *Timer->ToDescr());
}
else {
Timer->ClrFlags(tfRecording);
Timers->Add(Timer);
isyslog("SVDRP %s < %s added timer %s", Setup.SVDRPHostName, *clientName, *Timer->ToDescr());
}
Reply(250, "%d %s", Timer->Id(), *Timer->ToText(true));
return;
}
else
Reply(501, "Error in timer settings");
delete Timer;
}
else
Reply(501, "Missing timer settings");
}
void cSVDRPServer::CmdUPDR(const char *Option)
{
LOCK_RECORDINGS_WRITE;
Recordings->Update(false);
Reply(250, "Re-read of recordings directory triggered");
}
void cSVDRPServer::CmdVOLU(const char *Option)
{
if (*Option) {
if (isnumber(Option))
cDevice::PrimaryDevice()->SetVolume(strtol(Option, NULL, 10), true);
else if (strcmp(Option, "+") == 0)
cDevice::PrimaryDevice()->SetVolume(VOLUMEDELTA);
else if (strcmp(Option, "-") == 0)
cDevice::PrimaryDevice()->SetVolume(-VOLUMEDELTA);
else if (strcasecmp(Option, "MUTE") == 0)
cDevice::PrimaryDevice()->ToggleMute();
else {
Reply(501, "Unknown option: \"%s\"", Option);
return;
}
}
if (cDevice::PrimaryDevice()->IsMute())
Reply(250, "Audio is mute");
else
Reply(250, "Audio volume is %d", cDevice::CurrentVolume());
}
#define CMD(c) (strcasecmp(Cmd, c) == 0)
void cSVDRPServer::Execute(char *Cmd)
{
// handle PUTE data:
if (PUTEhandler) {
if (!PUTEhandler->Process(Cmd)) {
Reply(PUTEhandler->Status(), "%s", PUTEhandler->Message());
DELETENULL(PUTEhandler);
}
cEitFilter::SetDisableUntil(time(NULL) + EITDISABLETIME); // re-trigger the timeout, in case there is very much EPG data
return;
}
// skip leading whitespace:
Cmd = skipspace(Cmd);
// find the end of the command word:
char *s = Cmd;
while (*s && !isspace(*s))
s++;
if (*s)
*s++ = 0;
s = skipspace(s);
if (CMD("CHAN")) CmdCHAN(s);
else if (CMD("CLRE")) CmdCLRE(s);
else if (CMD("CONN")) CmdCONN(s);
else if (CMD("DELC")) CmdDELC(s);
else if (CMD("DELR")) CmdDELR(s);
else if (CMD("DELT")) CmdDELT(s);
else if (CMD("EDIT")) CmdEDIT(s);
else if (CMD("GRAB")) CmdGRAB(s);
else if (CMD("HELP")) CmdHELP(s);
else if (CMD("HITK")) CmdHITK(s);
else if (CMD("LSTC")) CmdLSTC(s);
else if (CMD("LSTD")) CmdLSTD(s);
else if (CMD("LSTE")) CmdLSTE(s);
else if (CMD("LSTR")) CmdLSTR(s);
else if (CMD("LSTT")) CmdLSTT(s);
else if (CMD("MESG")) CmdMESG(s);
else if (CMD("MODC")) CmdMODC(s);
else if (CMD("MODT")) CmdMODT(s);
else if (CMD("MOVC")) CmdMOVC(s);
else if (CMD("MOVR")) CmdMOVR(s);
else if (CMD("NEWC")) CmdNEWC(s);
else if (CMD("NEWT")) CmdNEWT(s);
else if (CMD("NEXT")) CmdNEXT(s);
else if (CMD("PING")) CmdPING(s);
else if (CMD("PLAY")) CmdPLAY(s);
else if (CMD("PLUG")) CmdPLUG(s);
else if (CMD("POLL")) CmdPOLL(s);
else if (CMD("PRIM")) CmdPRIM(s);
else if (CMD("PUTE")) CmdPUTE(s);
else if (CMD("REMO")) CmdREMO(s);
else if (CMD("SCAN")) CmdSCAN(s);
else if (CMD("STAT")) CmdSTAT(s);
else if (CMD("UPDR")) CmdUPDR(s);
else if (CMD("UPDT")) CmdUPDT(s);
else if (CMD("VOLU")) CmdVOLU(s);
else if (CMD("QUIT")) Close(true);
else Reply(500, "Command unrecognized: \"%s\"", Cmd);
}
bool cSVDRPServer::Process(void)
{
if (file.IsOpen()) {
while (file.Ready(false)) {
unsigned char c;
int r = safe_read(file, &c, 1);
if (r > 0) {
if (c == '\n' || c == 0x00) {
// strip trailing whitespace:
while (numChars > 0 && strchr(" \t\r\n", cmdLine[numChars - 1]))
cmdLine[--numChars] = 0;
// make sure the string is terminated:
cmdLine[numChars] = 0;
// showtime!
dbgsvdrp("< S %s: %s\n", *clientName, cmdLine);
Execute(cmdLine);
numChars = 0;
if (length > BUFSIZ) {
free(cmdLine); // let's not tie up too much memory
length = BUFSIZ;
cmdLine = MALLOC(char, length);
}
}
else if (c == 0x04 && numChars == 0) {
// end of file (only at beginning of line)
Close(true);
}
else if (c == 0x08 || c == 0x7F) {
// backspace or delete (last character)
if (numChars > 0)
numChars--;
}
else if (c <= 0x03 || c == 0x0D) {
// ignore control characters
}
else {
if (numChars >= length - 1) {
int NewLength = length + BUFSIZ;
if (char *NewBuffer = (char *)realloc(cmdLine, NewLength)) {
length = NewLength;
cmdLine = NewBuffer;
}
else {
esyslog("SVDRP %s < %s ERROR: out of memory", Setup.SVDRPHostName, *clientName);
Close();
break;
}
}
cmdLine[numChars++] = c;
cmdLine[numChars] = 0;
}
lastActivity = time(NULL);
}
else if (r <= 0) {
isyslog("SVDRP %s < %s lost connection to client", Setup.SVDRPHostName, *clientName);
Close();
}
}
if (Setup.SVDRPTimeout && time(NULL) - lastActivity > Setup.SVDRPTimeout) {
isyslog("SVDRP %s < %s timeout on connection", Setup.SVDRPHostName, *clientName);
Close(true, true);
}
}
return file.IsOpen();
}
void SetSVDRPPorts(int TcpPort, int UdpPort)
{
SVDRPTcpPort = TcpPort;
SVDRPUdpPort = UdpPort;
}
void SetSVDRPGrabImageDir(const char *GrabImageDir)
{
grabImageDir = GrabImageDir;
}
// --- cSVDRPServerHandler ---------------------------------------------------
class cSVDRPServerHandler : public cThread {
private:
bool ready;
cSocket tcpSocket;
cVector<cSVDRPServer *> serverConnections;
void HandleServerConnection(void);
void ProcessConnections(void);
protected:
virtual void Action(void);
public:
cSVDRPServerHandler(int TcpPort);
virtual ~cSVDRPServerHandler();
void WaitUntilReady(void);
};
static cSVDRPServerHandler *SVDRPServerHandler = NULL;
cSVDRPServerHandler::cSVDRPServerHandler(int TcpPort)
:cThread("SVDRP server handler", true)
,tcpSocket(TcpPort, true)
{
ready = false;
}
cSVDRPServerHandler::~cSVDRPServerHandler()
{
Cancel(3);
for (int i = 0; i < serverConnections.Size(); i++)
delete serverConnections[i];
}
void cSVDRPServerHandler::WaitUntilReady(void)
{
cTimeMs Timeout(3000);
while (!ready && !Timeout.TimedOut())
cCondWait::SleepMs(10);
}
void cSVDRPServerHandler::ProcessConnections(void)
{
for (int i = 0; i < serverConnections.Size(); i++) {
if (!serverConnections[i]->Process()) {
delete serverConnections[i];
serverConnections.Remove(i);
i--;
}
}
}
void cSVDRPServerHandler::HandleServerConnection(void)
{
int NewSocket = tcpSocket.Accept();
if (NewSocket >= 0)
serverConnections.Append(new cSVDRPServer(NewSocket, tcpSocket.LastIpAddress()));
}
void cSVDRPServerHandler::Action(void)
{
if (tcpSocket.Listen()) {
SVDRPServerPoller.Add(tcpSocket.Socket(), false);
ready = true;
while (Running()) {
SVDRPServerPoller.Poll(1000);
HandleServerConnection();
ProcessConnections();
}
SVDRPServerPoller.Del(tcpSocket.Socket(), false);
tcpSocket.Close();
}
}
// --- SVDRP Handler ---------------------------------------------------------
static cMutex SVDRPHandlerMutex;
void StartSVDRPHandler(void)
{
cMutexLock MutexLock(&SVDRPHandlerMutex);
if (SVDRPTcpPort) {
if (!SVDRPServerHandler) {
SVDRPServerHandler = new cSVDRPServerHandler(SVDRPTcpPort);
SVDRPServerHandler->Start();
SVDRPServerHandler->WaitUntilReady();
}
if (Setup.SVDRPPeering && SVDRPUdpPort && !SVDRPClientHandler) {
SVDRPClientHandler = new cSVDRPClientHandler(SVDRPTcpPort, SVDRPUdpPort);
SVDRPClientHandler->Start();
}
}
}
void StopSVDRPHandler(void)
{
cMutexLock MutexLock(&SVDRPHandlerMutex);
delete SVDRPClientHandler;
SVDRPClientHandler = NULL;
delete SVDRPServerHandler;
SVDRPServerHandler = NULL;
}
bool GetSVDRPServerNames(cStringList *ServerNames)
{
bool Result = false;
cMutexLock MutexLock(&SVDRPHandlerMutex);
if (SVDRPClientHandler) {
SVDRPClientHandler->Lock();
Result = SVDRPClientHandler->GetServerNames(ServerNames);
SVDRPClientHandler->Unlock();
}
return Result;
}
bool ExecSVDRPCommand(const char *ServerName, const char *Command, cStringList *Response)
{
bool Result = false;
cMutexLock MutexLock(&SVDRPHandlerMutex);
if (SVDRPClientHandler) {
SVDRPClientHandler->Lock();
Result = SVDRPClientHandler->Execute(ServerName, Command, Response);
SVDRPClientHandler->Unlock();
}
return Result;
}
void BroadcastSVDRPCommand(const char *Command)
{
cMutexLock MutexLock(&SVDRPHandlerMutex);
cStringList ServerNames;
if (SVDRPClientHandler) {
SVDRPClientHandler->Lock();
if (SVDRPClientHandler->GetServerNames(&ServerNames)) {
for (int i = 0; i < ServerNames.Size(); i++)
ExecSVDRPCommand(ServerNames[i], Command);
}
SVDRPClientHandler->Unlock();
}
}