restemplate/indy/System/IdStackVCLPosix.pas

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unit IdStackVCLPosix;
interface
{$I IdCompilerDefines.inc}
{IMPORTANT!!!
Platform warnings in this unit should be disabled because Indy we have no
intention of porting this unit to Windows or any non-Unix-like operating system.
Any differences between Unix-like operating systems have to dealt with in other
ways.
}
{$I IdSymbolPlatformOff.inc}
{$I IdUnitPlatformOff.inc}
uses
Classes,
IdCTypes,
Posix.SysSelect,
Posix.SysSocket,
Posix.SysTime,
IdStack,
IdStackConsts,
IdGlobal,
IdStackBSDBase;
type
{$IFDEF USE_VCL_POSIX}
{$IFDEF ANDROID}
EIdAccessWifiStatePermissionNeeded = class(EIdAndroidPermissionNeeded);
EIdAccessNetworkStatePermissionNeeded = class(EIdAndroidPermissionNeeded);
{$ENDIF}
{$ENDIF}
TIdSocketListVCLPosix = class (TIdSocketList)
protected
FCount: Integer;
FFDSet: fd_set;
//
class function FDSelect(AReadSet, AWriteSet,
AExceptSet: Pfd_set; const ATimeout: Integer): Integer;
function GetItem(AIndex: Integer): TIdStackSocketHandle; override;
public
procedure Add(AHandle: TIdStackSocketHandle); override;
procedure Remove(AHandle: TIdStackSocketHandle); override;
function Count: Integer; override;
procedure Clear; override;
function Clone: TIdSocketList; override;
function ContainsSocket(AHandle: TIdStackSocketHandle): Boolean; override;
procedure GetFDSet(var VSet: fd_set);
procedure SetFDSet(var VSet: fd_set);
class function Select(AReadList: TIdSocketList; AWriteList: TIdSocketList;
AExceptList: TIdSocketList; const ATimeout: Integer = IdTimeoutInfinite): Boolean; override;
function SelectRead(const ATimeout: Integer = IdTimeoutInfinite): Boolean; override;
function SelectReadList(var VSocketList: TIdSocketList;
const ATimeout: Integer = IdTimeoutInfinite): Boolean; override;
end;
TIdStackVCLPosix = class(TIdStackBSDBase)
protected
procedure WriteChecksumIPv6(s: TIdStackSocketHandle; var VBuffer: TIdBytes;
const AOffset: Integer; const AIP: String; const APort: TIdPort);
function GetLastError: Integer;
procedure SetLastError(const AError: Integer);
function HostByName(const AHostName: string;
const AIPVersion: TIdIPVersion = ID_DEFAULT_IP_VERSION): string; override;
function ReadHostName: string; override;
function WSCloseSocket(ASocket: TIdStackSocketHandle): Integer; override;
function WSRecv(ASocket: TIdStackSocketHandle; var ABuffer;
const ABufferLength, AFlags: Integer): Integer; override;
function WSSend(ASocket: TIdStackSocketHandle; const ABuffer;
const ABufferLength, AFlags: Integer): Integer; override;
function WSShutdown(ASocket: TIdStackSocketHandle; AHow: Integer): Integer; override;
{$IFNDEF VCL_XE3_OR_ABOVE}
procedure WSGetSocketOption(ASocket: TIdStackSocketHandle; ALevel: TIdSocketOptionLevel;
AOptName: TIdSocketOption; var AOptVal; var AOptLen: Integer); override;
procedure WSSetSocketOption(ASocket: TIdStackSocketHandle; ALevel: TIdSocketOptionLevel;
AOptName: TIdSocketOption; const AOptVal; const AOptLen: Integer); override;
{$ENDIF}
public
constructor Create; override;
destructor Destroy; override;
procedure SetBlocking(ASocket: TIdStackSocketHandle; const ABlocking: Boolean); override;
function WouldBlock(const AResult: Integer): Boolean; override;
function Accept(ASocket: TIdStackSocketHandle; var VIP: string; var VPort: TIdPort;
var VIPVersion: TIdIPVersion): TIdStackSocketHandle; override;
procedure Bind(ASocket: TIdStackSocketHandle; const AIP: string;
const APort: TIdPort; const AIPVersion: TIdIPVersion = ID_DEFAULT_IP_VERSION); override;
procedure Connect(const ASocket: TIdStackSocketHandle; const AIP: string;
const APort: TIdPort; const AIPVersion: TIdIPVersion = ID_DEFAULT_IP_VERSION); override;
function HostByAddress(const AAddress: string;
const AIPVersion: TIdIPVersion = ID_DEFAULT_IP_VERSION): string; override;
function WSGetLastError: Integer; override;
procedure WSSetLastError(const AErr : Integer); override;
function WSGetServByName(const AServiceName: string): TIdPort; override;
procedure AddServByPortToList(const APortNumber: TIdPort; AAddresses: TStrings); override;
procedure GetPeerName(ASocket: TIdStackSocketHandle; var VIP: string;
var VPort: TIdPort; var VIPVersion: TIdIPVersion); override;
procedure GetSocketName(ASocket: TIdStackSocketHandle; var VIP: string;
var VPort: TIdPort; var VIPVersion: TIdIPVersion); override;
procedure Listen(ASocket: TIdStackSocketHandle; ABackLog: Integer); override;
function HostToNetwork(AValue: UInt16): UInt16; override;
function NetworkToHost(AValue: UInt16): UInt16; override;
function HostToNetwork(AValue: UInt32): UInt32; override;
function NetworkToHost(AValue: UInt32): UInt32; override;
function HostToNetwork(AValue: TIdUInt64): TIdUInt64; override;
function NetworkToHost(AValue: TIdUInt64): TIdUInt64; override;
function RecvFrom(const ASocket: TIdStackSocketHandle;
var VBuffer; const ALength, AFlags: Integer; var VIP: string;
var VPort: TIdPort; var VIPVersion: TIdIPVersion): Integer; override;
function ReceiveMsg(ASocket: TIdStackSocketHandle;
var VBuffer: TIdBytes; APkt: TIdPacketInfo): UInt32; override;
procedure WSSendTo(ASocket: TIdStackSocketHandle; const ABuffer;
const ABufferLength, AFlags: Integer; const AIP: string; const APort: TIdPort;
AIPVersion: TIdIPVersion = ID_DEFAULT_IP_VERSION); override;
function WSSocket(AFamily : Integer; AStruct : TIdSocketType; AProtocol: Integer;
const AOverlapped: Boolean = False): TIdStackSocketHandle; override;
procedure Disconnect(ASocket: TIdStackSocketHandle); override;
{$IFDEF VCL_XE3_OR_ABOVE}
procedure GetSocketOption(ASocket: TIdStackSocketHandle; ALevel: TIdSocketOptionLevel;
AOptName: TIdSocketOption; var AOptVal; var AOptLen: Integer); override;
procedure SetSocketOption(ASocket: TIdStackSocketHandle; ALevel: TIdSocketOptionLevel;
AOptName: TIdSocketOption; const AOptVal; const AOptLen: Integer); override;
{$ENDIF}
function SupportsIPv6: Boolean; overload; override;
function CheckIPVersionSupport(const AIPVersion: TIdIPVersion): boolean; override;
//In Windows, this writes a checksum into a buffer. In Linux, it would probably
//simply have the kernal write the checksum with something like this (RFC 2292):
//
// int offset = 2;
// setsockopt(fd, IPPROTO_IPV6, IPV6_CHECKSUM, &offset, sizeof(offset));
//
// Note that this should be called
//IMMEDIATELY before you do a SendTo because the Local IPv6 address might change
procedure WriteChecksum(s : TIdStackSocketHandle; var VBuffer : TIdBytes;
const AOffset : Integer; const AIP : String; const APort : TIdPort;
const AIPVersion: TIdIPVersion = ID_DEFAULT_IP_VERSION); override;
function IOControl(const s: TIdStackSocketHandle; const cmd: UInt32;
var arg: UInt32): Integer; override;
procedure GetLocalAddressList(AAddresses: TIdStackLocalAddressList); override;
end;
implementation
{$O-}
uses
IdResourceStrings,
IdResourceStringsUnix,
IdResourceStringsVCLPosix,
IdException,
IdVCLPosixSupplemental,
Posix.Base,
Posix.ArpaInet,
Posix.Errno,
Posix.NetDB,
{$IFDEF HAS_getifaddrs}
Posix.NetIf,
{$ENDIF}
Posix.NetinetIn,
Posix.StrOpts,
Posix.SysTypes,
Posix.SysUio,
Posix.Unistd,
SysUtils;
{$UNDEF HAS_MSG_NOSIGNAL}
{$IFDEF LINUX} //this LINUX ifdef is deliberate
{$DEFINE HAS_MSG_NOSIGNAL}
{$ENDIF}
const
{$IFDEF HAS_MSG_NOSIGNAL}
//fancy little trick since OS X does not have MSG_NOSIGNAL
Id_MSG_NOSIGNAL = MSG_NOSIGNAL;
{$ELSE}
Id_MSG_NOSIGNAL = 0;
{$ENDIF}
Id_WSAEPIPE = EPIPE;
//helper functions for some structs
{Note: These hide an API difference in structures.
BSD 4.4 introduced a minor API change. sa_family was changed from a 16bit
word to an 8 bit byteee and an 8 bit byte feild named sa_len was added.
}
procedure InitSockAddr_In(var VSock : SockAddr_In);
{$IFDEF USE_INLINE} inline; {$ENDIF}
begin
FillChar(VSock, SizeOf(SockAddr_In), 0);
VSock.sin_family := PF_INET;
{$IFDEF SOCK_HAS_SINLEN}
VSock.sin_len := SizeOf(SockAddr_In);
{$ENDIF}
end;
procedure InitSockAddr_in6(var VSock : SockAddr_in6);
{$IFDEF USE_INLINE} inline; {$ENDIF}
begin
FillChar(VSock, SizeOf(SockAddr_in6), 0);
{$IFDEF SOCK_HAS_SINLEN}
VSock.sin6_len := SizeOf(SockAddr_in6);
{$ENDIF}
VSock.sin6_family := PF_INET6;
end;
//
{ TIdSocketListVCLPosix }
procedure TIdSocketListVCLPosix.Add(AHandle: TIdStackSocketHandle);
begin
Lock;
try
if not __FD_ISSET(AHandle, FFDSet) then begin
if Count >= FD_SETSIZE then begin
raise EIdStackSetSizeExceeded.Create(RSSetSizeExceeded);
end;
__FD_SET(AHandle, FFDSet);
Inc(FCount);
end;
finally
Unlock;
end;
end;
procedure TIdSocketListVCLPosix.Clear;
begin
Lock;
try
__FD_ZERO(FFDSet);
FCount := 0;
finally
Unlock;
end;
end;
function TIdSocketListVCLPosix.Clone: TIdSocketList;
begin
Result := TIdSocketListVCLPosix.Create;
try
Lock;
try
TIdSocketListVCLPosix(Result).SetFDSet(FFDSet);
finally
Unlock;
end;
except
FreeAndNil(Result);
raise;
end;
end;
function TIdSocketListVCLPosix.ContainsSocket(
AHandle: TIdStackSocketHandle): Boolean;
begin
Lock;
try
Result := __FD_ISSET(AHandle, FFDSet);
finally
Unlock;
end;
end;
function TIdSocketListVCLPosix.Count: Integer;
begin
Lock;
try
Result := FCount;
finally
Unlock;
end;
end;
class function TIdSocketListVCLPosix.FDSelect(AReadSet, AWriteSet,
AExceptSet: Pfd_set; const ATimeout: Integer): Integer;
var
LTime: TimeVal;
LTimePtr: PTimeVal;
begin
if ATimeout = IdTimeoutInfinite then begin
LTimePtr := nil;
end else begin
LTime.tv_sec := ATimeout div 1000;
LTime.tv_usec := (ATimeout mod 1000) * 1000;
LTimePtr := @LTime;
end;
// TODO: calculate the actual nfds value based on the Sets provided...
Result := Posix.SysSelect.select(FD_SETSIZE, AReadSet, AWriteSet, AExceptSet, LTimePtr);
end;
procedure TIdSocketListVCLPosix.GetFDSet(var VSet: fd_set);
begin
Lock;
try
VSet := FFDSet;
finally
Unlock;
end;
end;
function TIdSocketListVCLPosix.GetItem(AIndex: Integer): TIdStackSocketHandle;
var
LIndex, i: Integer;
begin
Result := 0;
Lock;
try
LIndex := 0;
//? use FMaxHandle div x
for i:= 0 to FD_SETSIZE - 1 do begin
if __FD_ISSET(i, FFDSet) then begin
if LIndex = AIndex then begin
Result := i;
Break;
end;
Inc(LIndex);
end;
end;
finally
Unlock;
end;
end;
procedure TIdSocketListVCLPosix.Remove(AHandle: TIdStackSocketHandle);
begin
Lock;
try
if __FD_ISSET(AHandle, FFDSet) then begin
Dec(FCount);
__FD_CLR(AHandle, FFDSet);
end;
finally
Unlock;
end;
end;
class function TIdSocketListVCLPosix.Select(AReadList, AWriteList,
AExceptList: TIdSocketList; const ATimeout: Integer): Boolean;
var
LReadSet: fd_set;
LWriteSet: fd_set;
LExceptSet: fd_set;
LPReadSet: Pfd_set;
LPWriteSet: Pfd_set;
LPExceptSet: Pfd_set;
procedure ReadSet(AList: TIdSocketList; var ASet: fd_set; var APSet: Pfd_set);
begin
if AList <> nil then begin
TIdSocketListVCLPosix(AList).GetFDSet(ASet);
APSet := @ASet;
end else begin
APSet := nil;
end;
end;
begin
ReadSet(AReadList, LReadSet, LPReadSet);
ReadSet(AWriteList, LWriteSet, LPWriteSet);
ReadSet(AExceptList, LExceptSet, LPExceptSet);
//
Result := FDSelect(LPReadSet, LPWriteSet, LPExceptSet, ATimeout) >0;
//
if AReadList <> nil then begin
TIdSocketListVCLPosix(AReadList).SetFDSet(LReadSet);
end;
if AWriteList <> nil then begin
TIdSocketListVCLPosix(AWriteList).SetFDSet(LWriteSet);
end;
if AExceptList <> nil then begin
TIdSocketListVCLPosix(AExceptList).SetFDSet(LExceptSet);
end;
end;
function TIdSocketListVCLPosix.SelectRead(const ATimeout: Integer): Boolean;
var
LSet: fd_set;
begin
Lock;
try
LSet := FFDSet;
// select() updates this structure on return,
// so we need to copy it each time we need it
finally
Unlock;
end;
Result := FDSelect(@LSet, nil, nil, ATimeout) > 0;
end;
function TIdSocketListVCLPosix.SelectReadList(var VSocketList: TIdSocketList;
const ATimeout: Integer): Boolean;
var
LSet: fd_set;
begin
Lock;
try
LSet := FFDSet;
// select() updates this structure on return,
// so we need to copy it each time we need it
finally
Unlock;
end;
Result := FDSelect(@LSet, nil, nil, ATimeout) > 0;
if Result then begin
if VSocketList = nil then begin
VSocketList := TIdSocketList.CreateSocketList;
end;
TIdSocketListVCLPosix(VSocketList).SetFDSet(LSet);
end;
end;
procedure TIdSocketListVCLPosix.SetFDSet(var VSet: fd_set);
begin
Lock;
try
FFDSet := VSet;
finally
Unlock;
end;
end;
{ TIdStackVCLPosix }
{
IMPORTANT!!!
Throughout much of this code, you will see stuff such as:
var
LAddrStore: sockaddr_storage;
LAddrIPv4 : SockAddr_In absolute LAddrStore;
LAddrIPv6 : sockaddr_in6 absolute LAddrStore;
LAddr : sockaddr absolute LAddrStore;
This is just a fancy way to do typecasting with various types of address type.
Many functions take a sockaddr parameter but that parameter is typecast for various
address types. The structures mentioned above are designed just for such
typecasting. The reason we use sockaddr_storage instead of sockaddr is that
we need something that is guaranteed to be able to contain various address types
and sockaddr would be too short for some of them and we can't know what
someone else will add to Indy as time goes by.
}
function TIdStackVCLPosix.Accept(ASocket: TIdStackSocketHandle; var VIP: string;
var VPort: TIdPort; var VIPVersion: TIdIPVersion): TIdStackSocketHandle;
var
LN: socklen_t;
LAddrStore: sockaddr_storage;
LAddrIPv4 : SockAddr_In absolute LAddrStore;
LAddrIPv6 : sockaddr_in6 absolute LAddrStore;
LAddr : sockaddr absolute LAddrStore;
begin
LN := SizeOf(LAddrStore);
Result := Posix.SysSocket.accept(ASocket, LAddr, LN);
if Result <> -1 then begin
case LAddrStore.ss_family of
Id_PF_INET4: begin
VIP := TranslateTInAddrToString( LAddrIPv4.sin_addr, Id_IPv4);
VPort := ntohs(LAddrIPv4.sin_port);
VIPVersion := Id_IPV4;
end;
Id_PF_INET6: begin
VIP := TranslateTInAddrToString(LAddrIPv6.sin6_addr, Id_IPv6);
VPort := ntohs(LAddrIPv6.sin6_port);
VIPVersion := Id_IPV6;
end
else begin
__close(Result);
Result := Id_INVALID_SOCKET;
IPVersionUnsupported;
end;
end;
end else begin
if GetLastError = EBADF then begin
SetLastError(EINTR);
end;
end;
end;
{$IFDEF HAS_getifaddrs}
function getifaddrs(ifap: pifaddrs): Integer; cdecl; external libc name _PU + 'getifaddrs'; {do not localize}
procedure freeifaddrs(ifap: pifaddrs); cdecl; external libc name _PU + 'freeifaddrs'; {do not localize}
{$ELSE}
{$IFDEF ANDROID}
// TODO: implement getifaddrs() manually using code from https://github.com/kmackay/android-ifaddrs
{.$DEFINE HAS_getifaddrs}
{$ENDIF}
{$ENDIF}
procedure TIdStackVCLPosix.GetLocalAddressList(AAddresses: TIdStackLocalAddressList);
var
{$IFDEF HAS_getifaddrs}
LAddrList, LAddrInfo: pifaddrs;
LSubNetStr: String;
{$ELSE}
LRetVal: Integer;
LHostName: string;
Hints: AddrInfo;
LAddrList, LAddrInfo: pAddrInfo;
{$IFDEF USE_MARSHALLED_PTRS}
M: TMarshaller;
{$ENDIF}
{$ENDIF}
begin
// TODO: Using gethostname() and getaddrinfo() like this may not always return just
// the machine's IP addresses. Technically speaking, they will return the local
// hostname, and then return the address(es) to which that hostname resolves.
// It is possible for a machine to (a) be configured such that its name does
// not resolve to an IP, or (b) be configured such that its name resolves to
// multiple IPs, only one of which belongs to the local machine. For better
// results, we should use getifaddrs() on platforms that support it...
{$IFDEF HAS_getifaddrs}
if getifaddrs(@LAddrList) = 0 then // TODO: raise an exception if it fails
try
AAddresses.BeginUpdate;
try
LAddrInfo := LAddrList;
repeat
if (LAddrInfo^.ifa_addr <> nil) and ((LAddrInfo^.ifa_flags and IFF_LOOPBACK) = 0) then
begin
case LAddrInfo^.ifa_addr^.sa_family of
Id_PF_INET4: begin
if LAddrInfo^.ifa_netmask <> nil then begin
LSubNetStr := TranslateTInAddrToString( PSockAddr_In(LAddrInfo^.ifa_netmask)^.sin_addr, Id_IPv4);
end else begin
LSubNetStr := '';
end;
TIdStackLocalAddressIPv4.Create(AAddresses, TranslateTInAddrToString( PSockAddr_In(LAddrInfo^.ifa_addr)^.sin_addr, Id_IPv4), LSubNetStr);
end;
Id_PF_INET6: begin
TIdStackLocalAddressIPv6.Create(AAddresses, TranslateTInAddrToString( PSockAddr_In6(LAddrInfo^.ifa_addr)^.sin6_addr, Id_IPv6));
end;
end;
end;
LAddrInfo := LAddrInfo^.ifa_next;
until LAddrInfo = nil;
finally
AAddresses.EndUpdate;
end;
finally
freeifaddrs(LAddrList);
end;
{$ELSE}
// TODO: on Android, either implement getifaddrs() (https://github.com/kmackay/android-ifaddrs)
// or use the Java API to enumerate the local network interfaces and their IP addresses, eg:
{
var
en, enumIpAddr: Enumeration;
intf: NetworkInterface;
inetAddress: InetAddress;
begin
try
en := NetworkInterface.getNetworkInterfaces;
if en.hasMoreElements then begin
AAddresses.BeginUpdate;
try
repeat
intf := en.nextElement;
enumIpAddr := intf.getInetAddresses();
while enumIpAddr.hasMoreElements do begin
inetAddress := enumIpAddr.nextElement;
if not inetAddress.isLoopbackAddress then begin
if (inetAddress instanceof Inet4Address) then begin
TIdStackLocalAddressIPv4.Create(AAddresses, inetAddress.getHostAddress.toString, '');
end
else if (inetAddress instanceof Inet6Address) then begin
TIdStackLocalAddressIPv6.Create(AAddresses, inetAddress.getHostAddress.toString);
end;
end;
end;
until not en.hasMoreElements;
finally
AAddresses.EndUpdate;
end;
end;
except
if not HasAndroidPermission('android.permission.INTERNET') then begin
IndyRaiseOuterException(EIdInternetPermissionNeeded.CreateError(0, ''));
end;
if not HasAndroidPermission('android.permission.ACCESS_NETWORK_STATE') then begin
IndyRaiseOuterException(EIdAccessNetworkStatePermissionNeeded.CreateError(0, ''));
end;
raise;
end;
end;
Note that this require the application to have INTERNET and ACCESS_NETWORK_STATE permissions.
Or:
uses
if XE7+
Androidapi.Helpers
else
FMX.Helpers.Android
;
var
wifiManager: WifiManager;
ipAddress: Integer;
begin
try
wifiManager := (WifiManager) SharedActivityContext.getSystemService(WIFI_SERVICE);
ipAddress := wifiManager.getConnectionInfo.getIpAddress;
except
if not HasAndroidPermission('android.permission.ACCESS_WIFI_STATE') then begin
IndyRaiseOuterException(EIdAccessWifiStatePermissionNeeded.CreateError(0, ''));
end;
raise;
end;
TIdStackLocalAddressIPv4.Create(AAddresses, Format('%d.%d.%d.%d', [ipAddress and $ff, (ipAddress shr 8) and $ff, (ipAddress shr 16) and $ff, (ipAddress shr 24) and $ff]), '');
end;
This requires only ACCESS_WIFI_STATE permission.
}
//IMPORTANT!!!
//
//The Hints structure must be zeroed out or you might get an AV.
//I've seen this in Mac OS X
FillChar(Hints, SizeOf(Hints), 0);
Hints.ai_family := PF_UNSPEC; // returns both IPv4 and IPv6 addresses
Hints.ai_socktype := SOCK_STREAM;
LHostName := HostName;
LRetVal := getaddrinfo(
{$IFDEF USE_MARSHALLED_PTRS}
M.AsAnsi(LHostName).ToPointer
{$ELSE}
PAnsiChar(
{$IFDEF STRING_IS_ANSI}
LHostName
{$ELSE}
AnsiString(LHostName) // explicit convert to Ansi
{$ENDIF}
)
{$ENDIF},
nil, Hints, LAddrList);
if LRetVal <> 0 then begin
if LRetVal = EAI_SYSTEM then begin
RaiseLastOSError;
end else begin
raise EIdReverseResolveError.CreateFmt(RSReverseResolveError, [LHostName, gai_strerror(LRetVal), LRetVal]);
end;
end;
try
AAddresses.BeginUpdate;
try
LAddrInfo := LAddrList;
repeat
case LAddrInfo^.ai_addr^.sa_family of
Id_PF_INET4 :
begin
TIdStackLocalAddressIPv4.Create(AAddresses, TranslateTInAddrToString( PSockAddr_In(LAddrInfo^.ai_addr)^.sin_addr, Id_IPv4), ''); // TODO: SubNet
end;
Id_PF_INET6 :
begin
TIdStackLocalAddressIPv6.Create(AAddresses, TranslateTInAddrToString( PSockAddr_In6(LAddrInfo^.ai_addr)^.sin6_addr, Id_IPv6));
end;
end;
LAddrInfo := LAddrInfo^.ai_next;
until LAddrInfo = nil;
finally
AAddresses.EndUpdate;
end;
finally
freeaddrinfo(LAddrList^);
end;
{$ENDIF}
end;
procedure TIdStackVCLPosix.Bind(ASocket: TIdStackSocketHandle;
const AIP: string; const APort: TIdPort; const AIPVersion: TIdIPVersion);
var
LAddrStore: sockaddr_storage;
LAddrIPv4 : SockAddr_In absolute LAddrStore;
LAddrIPv6 : sockaddr_in6 absolute LAddrStore;
LAddr : sockaddr absolute LAddrStore;
begin
case AIPVersion of
Id_IPv4: begin
InitSockAddr_In(LAddrIPv4);
if AIP <> '' then begin
TranslateStringToTInAddr(AIP, LAddrIPv4.sin_addr, Id_IPv4);
end;
LAddrIPv4.sin_port := htons(APort);
CheckForSocketError(Posix.SysSocket.bind(ASocket, LAddr, SizeOf(LAddrIPv4)));
end;
Id_IPv6: begin
InitSockAddr_in6(LAddrIPv6);
if AIP <> '' then begin
TranslateStringToTInAddr(AIP, LAddrIPv6.sin6_addr, Id_IPv6);
end;
LAddrIPv6.sin6_port := htons(APort);
CheckForSocketError(Posix.SysSocket.bind(ASocket,LAddr, SizeOf(LAddrIPv6)));
end;
else begin
IPVersionUnsupported;
end;
end;
end;
function TIdStackVCLPosix.CheckIPVersionSupport(
const AIPVersion: TIdIPVersion): boolean;
var
LTmpSocket: TIdStackSocketHandle;
begin
// TODO: on nix systems (or maybe just Linux?), an alternative would be to
// check for the existance of the '/proc/net/if_inet6' kernel pseudo-file
LTmpSocket := WSSocket(IdIPFamily[AIPVersion], Id_SOCK_STREAM, Id_IPPROTO_IP );
Result := LTmpSocket <> Id_INVALID_SOCKET;
if Result then begin
WSCloseSocket(LTmpSocket);
end;
end;
procedure TIdStackVCLPosix.Connect(const ASocket: TIdStackSocketHandle;
const AIP: string; const APort: TIdPort; const AIPVersion: TIdIPVersion);
var
LAddrStore: sockaddr_storage;
LAddrIPv4 : SockAddr_In absolute LAddrStore;
LAddrIPv6 : sockaddr_in6 absolute LAddrStore;
LAddr : sockaddr absolute LAddrStore;
begin
case AIPVersion of
Id_IPv4: begin
InitSockAddr_In(LAddrIPv4);
TranslateStringToTInAddr(AIP, LAddrIPv4.sin_addr, Id_IPv4);
LAddrIPv4.sin_port := htons(APort);
CheckForSocketError(Posix.SysSocket.connect(ASocket, LAddr, SizeOf(LAddrIPv4)));
end;
Id_IPv6: begin
InitSockAddr_in6(LAddrIPv6);
TranslateStringToTInAddr(AIP, LAddrIPv6.sin6_addr, Id_IPv6);
LAddrIPv6.sin6_port := htons(APort);
CheckForSocketError(Posix.SysSocket.connect(ASocket, LAddr, SizeOf(LAddrIPv6)));
end;
else begin
IPVersionUnsupported;
end;
end;
end;
constructor TIdStackVCLPosix.Create;
begin
inherited Create;
end;
destructor TIdStackVCLPosix.Destroy;
begin
inherited Destroy;
end;
procedure TIdStackVCLPosix.Disconnect(ASocket: TIdStackSocketHandle);
begin
// Windows uses Id_SD_Send, Linux should use Id_SD_Both
WSShutdown(ASocket, Id_SD_Both);
// SO_LINGER is false - socket may take a little while to actually close after this
WSCloseSocket(ASocket);
end;
function TIdStackVCLPosix.GetLastError: Integer;
begin
Result := errno;
end;
procedure TIdStackVCLPosix.GetPeerName(ASocket: TIdStackSocketHandle;
var VIP: string; var VPort: TIdPort; var VIPVersion: TIdIPVersion);
var
i: socklen_t;
LAddrStore: sockaddr_storage;
LAddrIPv4 : SockAddr_In absolute LAddrStore;
LAddrIPv6 : sockaddr_in6 absolute LAddrStore;
LAddr : sockaddr absolute LAddrStore;
begin
i := SizeOf(LAddrStore);
CheckForSocketError(Posix.SysSocket.getpeername(ASocket, LAddr, i));
case LAddrStore.ss_family of
Id_PF_INET4: begin
VIP := TranslateTInAddrToString(LAddrIPv4.sin_addr, Id_IPv4);
VPort := ntohs(LAddrIPv4.sin_port);
VIPVersion := Id_IPV4;
end;
Id_PF_INET6: begin
VIP := TranslateTInAddrToString(LAddrIPv6.sin6_addr, Id_IPv6);
VPort := ntohs(LAddrIPv6.sin6_port);
VIPVersion := Id_IPV6;
end;
else begin
IPVersionUnsupported;
end;
end;
end;
procedure TIdStackVCLPosix.GetSocketName(ASocket: TIdStackSocketHandle;
var VIP: string; var VPort: TIdPort; var VIPVersion: TIdIPVersion);
var
LiSize: socklen_t;
LAddrStore: sockaddr_storage;
LAddrIPv4 : SockAddr_In absolute LAddrStore;
LAddrIPv6 : sockaddr_in6 absolute LAddrStore;
LAddr : sockaddr absolute LAddrStore;
begin
LiSize := SizeOf(LAddrStore);
CheckForSocketError(getsockname(ASocket, LAddr, LiSize));
case LAddrStore.ss_family of
Id_PF_INET4: begin
VIP := TranslateTInAddrToString(LAddrIPv4.sin_addr, Id_IPv4);
VPort := ntohs(LAddrIPv4.sin_port);
VIPVersion := Id_IPV4;
end;
Id_PF_INET6: begin
VIP := TranslateTInAddrToString(LAddrIPv6.sin6_addr, Id_IPv6);
VPort := ntohs(LAddrIPv6.sin6_port);
VIPVersion := Id_IPV6;
end;
else begin
IPVersionUnsupported;
end;
end;
end;
function TIdStackVCLPosix.HostByAddress(const AAddress: string;
const AIPVersion: TIdIPVersion): string;
var
LiSize: socklen_t;
LAddrStore: sockaddr_storage;
LAddrIPv4 : SockAddr_In absolute LAddrStore;
LAddrIPv6 : sockaddr_in6 absolute LAddrStore;
LAddr : sockaddr absolute LAddrStore;
LHostName : array[0..NI_MAXHOST] of TIdAnsiChar;
{$IFDEF USE_MARSHALLED_PTRS}
LHostNamePtr: TPtrWrapper;
{$ENDIF}
LRet : Integer;
LHints : addrinfo;
LAddrInfo: pAddrInfo;
begin
LiSize := 0;
case AIPVersion of
Id_IPv4 :
begin
InitSockAddr_In(LAddrIPv4);
TranslateStringToTInAddr(AAddress,LAddrIPv4.sin_addr,Id_IPv4);
LiSize := SizeOf(SockAddr_In);
end;
Id_IPv6 :
begin
InitSockAddr_In6(LAddrIPv6);
TranslateStringToTInAddr(AAddress,LAddrIPv6.sin6_addr,Id_IPv6);
LiSize := SizeOf(SockAddr_In6);
end
else
IPVersionUnsupported;
end;
FillChar(LHostName[0],Length(LHostName),0);
{$IFDEF USE_MARSHALLED_PTRS}
LHostNamePtr := TPtrWrapper.Create(@LHostName[0]);
{$ENDIF}
LRet := getnameinfo(LAddr,LiSize,
{$IFDEF USE_MARSHALLED_PTRS}
LHostNamePtr.ToPointer
{$ELSE}
LHostName
{$ENDIF},
NI_MAXHOST,nil,0,NI_NAMEREQD );
if LRet <> 0 then begin
if LRet = EAI_SYSTEM then begin
RaiseLastOSError;
end else begin
raise EIdReverseResolveError.CreateFmt(RSReverseResolveError, [AAddress, gai_strerror(LRet), LRet]);
end;
end;
{
IMPORTANT!!!
getnameinfo can return either results from a numeric to text conversion or
results from a DNS reverse lookup. Someone could make a malicous PTR record
such as
1.0.0.127.in-addr.arpa. IN PTR 10.1.1.1
and trick a caller into beleiving the socket address is 10.1.1.1 instead of
127.0.0.1. If there is a numeric host in LAddr, than this is the case and
we disregard the result and raise an exception.
}
FillChar(LHints, SizeOf(LHints), 0);
LHints.ai_socktype := SOCK_DGRAM; //*dummy*/
LHints.ai_flags := AI_NUMERICHOST;
if getaddrinfo(
{$IFDEF USE_MARSHALLED_PTRS}
LHostNamePtr.ToPointer
{$ELSE}
LHostName
{$ENDIF},
'0', LHints, LAddrInfo) = 0 then
begin
freeaddrinfo(LAddrInfo^);
Result := '';
raise EIdMaliciousPtrRecord.Create(RSMaliciousPtrRecord);
end;
{$IFDEF USE_MARSHALLED_PTRS}
Result := TMarshal.ReadStringAsAnsi(LHostNamePtr);
{$ELSE}
Result := String(LHostName);
{$ENDIF}
end;
function TIdStackVCLPosix.HostByName(const AHostName: string;
const AIPVersion: TIdIPVersion): string;
var
LAddrInfo: pAddrInfo;
LHints: AddrInfo;
LRetVal: Integer;
{$IFDEF USE_MARSHALLED_PTRS}
M: TMarshaller;
{$ENDIF}
begin
if not (AIPVersion in [Id_IPv4, Id_IPv6]) then begin
IPVersionUnsupported;
end;
//IMPORTANT!!!
//
//The Hints structure must be zeroed out or you might get an AV.
//I've seen this in Mac OS X
FillChar(LHints, SizeOf(LHints), 0);
LHints.ai_family := IdIPFamily[AIPVersion];
LHints.ai_socktype := SOCK_STREAM;
LAddrInfo := nil;
LRetVal := getaddrinfo(
{$IFDEF USE_MARSHALLED_PTRS}
M.AsAnsi(AHostName).ToPointer
{$ELSE}
PAnsiChar(
{$IFDEF STRING_IS_ANSI}
AHostName
{$ELSE}
AnsiString(AHostName) // explicit convert to Ansi
{$ENDIF}
)
{$ENDIF},
nil, LHints, LAddrInfo);
if LRetVal <> 0 then begin
if LRetVal = EAI_SYSTEM then begin
RaiseLastOSError;
end else begin
raise EIdResolveError.CreateFmt(RSReverseResolveError, [AHostName, gai_strerror(LRetVal), LRetVal]);
end;
end;
try
if AIPVersion = Id_IPv4 then begin
Result := TranslateTInAddrToString( PSockAddr_In( LAddrInfo^.ai_addr)^.sin_addr, AIPVersion);
end else begin
Result := TranslateTInAddrToString( PSockAddr_In6( LAddrInfo^.ai_addr)^.sin6_addr, AIPVersion);
end;
finally
freeaddrinfo(LAddrInfo^);
end;
end;
function TIdStackVCLPosix.HostToNetwork(AValue: UInt32): UInt32;
begin
Result := htonl(AValue);
end;
function TIdStackVCLPosix.HostToNetwork(AValue: UInt16): UInt16;
begin
Result := htons(AValue);
end;
function TIdStackVCLPosix.HostToNetwork(AValue: TIdUInt64): TIdUInt64;
var
LParts: TIdUInt64Parts;
L: UInt32;
begin
LParts.QuadPart := AValue;
L := htonl(LParts.HighPart);
if (L <> LParts.HighPart) then begin
LParts.HighPart := htonl(LParts.LowPart);
LParts.LowPart := L;
end;
Result := LParts.QuadPart;
end;
function TIdStackVCLPosix.IOControl(const s: TIdStackSocketHandle;
const cmd: UInt32; var arg: UInt32): Integer;
begin
Result := ioctl(s, cmd, @arg);
end;
procedure TIdStackVCLPosix.Listen(ASocket: TIdStackSocketHandle;
ABackLog: Integer);
begin
CheckForSocketError(Posix.SysSocket.listen(ASocket, ABacklog));
end;
function TIdStackVCLPosix.NetworkToHost(AValue: UInt32): UInt32;
begin
Result := ntohl(AValue);
end;
function TIdStackVCLPosix.NetworkToHost(AValue: TIdUInt64): TIdUInt64;
var
LParts: TIdUInt64Parts;
L: UInt32;
begin
LParts.QuadPart := AValue;
L := ntohl(LParts.HighPart);
if (L <> LParts.HighPart) then begin
LParts.HighPart := ntohl(LParts.LowPart);
LParts.LowPart := L;
end;
Result := LParts.QuadPart;
end;
function TIdStackVCLPosix.NetworkToHost(AValue: UInt16): UInt16;
begin
Result := ntohs(AValue);
end;
function TIdStackVCLPosix.ReadHostName: string;
const
sMaxHostSize = 250;
var
LStr: array[0..sMaxHostSize] of TIdAnsiChar;
{$IFDEF USE_MARSHALLED_PTRS}
LStrPtr: TPtrWrapper;
{$ENDIF}
begin
{$IFDEF USE_MARSHALLED_PTRS}
LStrPtr := TPtrWrapper.Create(@LStr[0]);
{$ENDIF}
gethostname(
{$IFDEF USE_MARSHALLED_PTRS}
LStrPtr.ToPointer
{$ELSE}
LStr
{$ENDIF}, sMaxHostSize);
LStr[sMaxHostSize] := TIdAnsiChar(0);
{$IFDEF USE_MARSHALLED_PTRS}
Result := TMarshal.ReadStringAsAnsi(LStrPtr);
{$ELSE}
Result := String(LStr);
{$ENDIF}
end;
function TIdStackVCLPosix.ReceiveMsg(ASocket: TIdStackSocketHandle;
var VBuffer: TIdBytes; APkt: TIdPacketInfo): UInt32;
var
LSize: socklen_t;
LAddrStore: sockaddr_storage;
LAddrIPv4 : SockAddr_In absolute LAddrStore;
LAddrIPv6 : sockaddr_in6 absolute LAddrStore;
LAddr : sockaddr absolute LAddrStore;
LMsg : msghdr;
LIOV : iovec;
LControl : TIdBytes;
LCurCmsg : Pcmsghdr; //for iterating through the control buffer
LByte : PByte;
begin
//we call the macro twice because we specified two possible structures.
//Id_IPV6_HOPLIMIT and Id_IPV6_PKTINFO
LSize := CMSG_LEN(CMSG_LEN(Length(VBuffer)));
SetLength( LControl,LSize);
LIOV.iov_len := Length(VBuffer); // Length(VMsgData);
LIOV.iov_base := @VBuffer[0]; // @VMsgData[0];
FillChar(LMsg,SizeOf(LMsg),0);
LMsg.msg_iov := @LIOV;//lpBuffers := @LMsgBuf;
LMsg.msg_iovlen := 1;
LMsg.msg_controllen := LSize;
LMsg.msg_control := @LControl[0];
LMsg.msg_name := @LAddr;
LMsg.msg_namelen := SizeOf(LAddrStore);
Result := 0;
CheckForSocketError(RecvMsg(ASocket, LMsg, Result));
APkt.Reset;
case LAddrStore.ss_family of
Id_PF_INET4: begin
APkt.SourceIP := TranslateTInAddrToString(LAddrIPv4.sin_addr, Id_IPv4);
APkt.SourcePort := ntohs(LAddrIPv4.sin_port);
APkt.SourceIPVersion := Id_IPv4;
end;
Id_PF_INET6: begin
APkt.SourceIP := TranslateTInAddrToString(LAddrIPv6.sin6_addr, Id_IPv6);
APkt.SourcePort := ntohs(LAddrIPv6.sin6_port);
APkt.SourceIPVersion := Id_IPv6;
end;
else begin
Result := 0; // avoid warning
IPVersionUnsupported;
end;
end;
LCurCmsg := nil;
repeat
LCurCmsg := CMSG_NXTHDR(@LMsg, LCurCmsg);
if LCurCmsg = nil then begin
break;
end;
case LCurCmsg^.cmsg_type of
IPV6_PKTINFO : //done this way because IPV6_PKTINF and IP_PKTINFO are both 19
begin
case LAddrStore.ss_family of
Id_PF_INET4: begin
{$IFDEF IOS}
ToDo('PKTINFO not implemented for IPv4 under iOS yet');
{$ELSE}
{$IFNDEF DARWIN}
//This is not supported in OS X.
with Pin_pktinfo(CMSG_DATA(LCurCmsg))^ do begin
APkt.DestIP := TranslateTInAddrToString(ipi_addr, Id_IPv4);
APkt.DestIF := ipi_ifindex;
end;
APkt.DestIPVersion := Id_IPv4;
{$ENDIF}
{$ENDIF}
end;
Id_PF_INET6: begin
with pin6_pktinfo(CMSG_DATA(LCurCmsg))^ do begin
APkt.DestIP := TranslateTInAddrToString(ipi6_addr, Id_IPv6);
APkt.DestIF := ipi6_ifindex;
end;
APkt.DestIPVersion := Id_IPv6;
end;
end;
end;
Id_IPV6_HOPLIMIT :
begin
LByte := PByte(CMSG_DATA(LCurCmsg));
APkt.TTL := LByte^;
end;
end;
until False;
end;
function TIdStackVCLPosix.RecvFrom(const ASocket: TIdStackSocketHandle;
var VBuffer; const ALength, AFlags: Integer; var VIP: string;
var VPort: TIdPort; var VIPVersion: TIdIPVersion): Integer;
var
LiSize: socklen_t;
LAddrStore: sockaddr_storage;
LAddrIPv4 : SockAddr_In absolute LAddrStore;
LAddrIPv6 : sockaddr_in6 absolute LAddrStore;
LAddr : sockaddr absolute LAddrStore;
begin
LiSize := SizeOf(LAddrStore);
Result := Posix.SysSocket.recvfrom(ASocket,VBuffer, ALength, AFlags or Id_MSG_NOSIGNAL, LAddr, LiSize);
if Result >= 0 then
begin
case LAddrStore.ss_family of
Id_PF_INET4: begin
VIP := TranslateTInAddrToString(LAddrIPv4.sin_addr, Id_IPv4);
VPort := ntohs(LAddrIPv4.sin_port);
VIPVersion := Id_IPV4;
end;
Id_PF_INET6: begin
VIP := TranslateTInAddrToString(LAddrIPv6.sin6_addr, Id_IPv6);
VPort := ntohs(LAddrIPv6.sin6_port);
VIPVersion := Id_IPV6;
end;
else begin
Result := 0;
IPVersionUnsupported;
end;
end;
end;
end;
procedure TIdStackVCLPosix.SetBlocking(ASocket: TIdStackSocketHandle;
const ABlocking: Boolean);
begin
if not ABlocking then begin
raise EIdNonBlockingNotSupported.Create(RSStackNonBlockingNotSupported);
end;
end;
procedure TIdStackVCLPosix.SetLastError(const AError: Integer);
begin
__error^ := AError;
end;
procedure TIdStackVCLPosix.{$IFDEF VCL_XE3_OR_ABOVE}GetSocketOption{$ELSE}WSGetSocketOption{$ENDIF}
(ASocket: TIdStackSocketHandle; ALevel: TIdSocketOptionLevel; AOptName: TIdSocketOption;
var AOptVal; var AOptLen: Integer);
var
LLen : socklen_t;
begin
LLen := AOptLen;
CheckForSocketError(Posix.SysSocket.getsockopt(ASocket, ALevel, AOptName, AOptVal, LLen));
AOptLen := LLen;
end;
procedure TIdStackVCLPosix.{$IFDEF VCL_XE3_OR_ABOVE}SetSocketOption{$ELSE}WSSetSocketOption{$ENDIF}
(ASocket: TIdStackSocketHandle; ALevel: TIdSocketOptionLevel; AOptName: TIdSocketOption;
const AOptVal; const AOptLen: Integer);
begin
CheckForSocketError(Posix.SysSocket.setsockopt(ASocket, ALevel, AOptName, AOptVal, AOptLen));
end;
function TIdStackVCLPosix.SupportsIPv6: Boolean;
begin
//In Windows, this does something else. It checks the LSP's installed.
Result := CheckIPVersionSupport(Id_IPv6);
end;
function TIdStackVCLPosix.WouldBlock(const AResult: Integer): Boolean;
begin
//non-blocking does not exist in Linux, always indicate things will block
Result := True;
end;
procedure TIdStackVCLPosix.WriteChecksum(s: TIdStackSocketHandle;
var VBuffer: TIdBytes; const AOffset: Integer; const AIP: String;
const APort: TIdPort; const AIPVersion: TIdIPVersion);
begin
case AIPVersion of
Id_IPv4 : CopyTIdUInt16(HostToLittleEndian(CalcCheckSum(VBuffer)), VBuffer, AOffset);
Id_IPv6 : WriteChecksumIPv6(s, VBuffer, AOffset, AIP, APort);
else
IPVersionUnsupported;
end;
end;
procedure TIdStackVCLPosix.WriteChecksumIPv6(s: TIdStackSocketHandle;
var VBuffer: TIdBytes; const AOffset: Integer; const AIP: String;
const APort: TIdPort);
begin
//we simply request that the kernal write the checksum when the data
//is sent. All of the parameters required are because Windows is bonked
//because it doesn't have the IPV6CHECKSUM socket option meaning we have
//to querry the network interface in TIdStackWindows -- yuck!!
SetSocketOption(s, Id_IPPROTO_IPV6, IPV6_CHECKSUM, AOffset);
end;
function TIdStackVCLPosix.WSCloseSocket(ASocket: TIdStackSocketHandle): Integer;
begin
Result := __close(ASocket);
end;
function TIdStackVCLPosix.WSGetLastError: Integer;
begin
//IdStackWindows just uses result := WSAGetLastError;
Result := GetLastError; //System.GetLastOSError; - FPC doesn't define it in System
if Result = Id_WSAEPIPE then begin
Result := Id_WSAECONNRESET;
end;
end;
function TIdStackVCLPosix.WSGetServByName(const AServiceName: string): TIdPort;
var
Lps: PServEnt;
{$IFDEF USE_MARSHALLED_PTRS}
M: TMarshaller;
{$ENDIF}
begin
Lps := Posix.NetDB.getservbyname(
{$IFDEF USE_MARSHALLED_PTRS}
M.AsAnsi(AServiceName).ToPointer
{$ELSE}
PAnsiChar(
{$IFDEF STRING_IS_ANSI}
AServiceName
{$ELSE}
AnsiString(AServiceName) // explicit convert to Ansi
{$ENDIF}
)
{$ENDIF},
nil);
if Lps <> nil then begin
Result := ntohs(Lps^.s_port);
end else begin
try
Result := IndyStrToInt(AServiceName);
except
on EConvertError do begin
Result := 0;
IndyRaiseOuterException(EIdInvalidServiceName.CreateFmt(RSInvalidServiceName, [AServiceName]));
end;
end;
end;
end;
procedure TIdStackVCLPosix.AddServByPortToList(const APortNumber: TIdPort; AAddresses: TStrings);
//function TIdStackVCLPosix.WSGetServByPort(const APortNumber: TIdPort): TStrings;
type
PPAnsiCharArray = ^TPAnsiCharArray;
TPAnsiCharArray = packed array[0..(MaxInt div SizeOf(PIdAnsiChar))-1] of PIdAnsiChar;
var
Lps: PServEnt;
Li: Integer;
Lp: PPAnsiCharArray;
begin
Lps := Posix.NetDB.getservbyport(htons(APortNumber), nil);
if Lps <> nil then begin
AAddresses.BeginUpdate;
try
AAddresses.Add(String(Lps^.s_name));
Li := 0;
Lp := Pointer(Lps^.s_aliases);
while Lp[Li] <> nil do begin
AAddresses.Add(String(Lp[Li]));
Inc(Li);
end;
finally
AAddresses.EndUpdate;
end;
end;
end;
function TIdStackVCLPosix.WSRecv(ASocket: TIdStackSocketHandle; var ABuffer;
const ABufferLength, AFlags: Integer): Integer;
begin
//IdStackWindows is just: Result := Recv(ASocket, ABuffer, ABufferLength, AFlags);
Result := Posix.SysSocket.Recv(ASocket, ABuffer, ABufferLength, AFlags or Id_MSG_NOSIGNAL);
end;
function TIdStackVCLPosix.WSSend(ASocket: TIdStackSocketHandle; const ABuffer;
const ABufferLength, AFlags: Integer): Integer;
begin
//CC: Should Id_MSG_NOSIGNAL be included?
// Result := Send(ASocket, ABuffer, ABufferLength, AFlags or Id_MSG_NOSIGNAL);
Result := CheckForSocketError(Posix.SysSocket.send(ASocket, ABuffer, ABufferLength, AFlags or Id_MSG_NOSIGNAL));
end;
procedure TIdStackVCLPosix.WSSendTo(ASocket: TIdStackSocketHandle;
const ABuffer; const ABufferLength, AFlags: Integer; const AIP: string;
const APort: TIdPort; AIPVersion: TIdIPVersion);
var
LAddrStore: sockaddr_storage;
LAddrIPv4 : SockAddr_In absolute LAddrStore;
LAddrIPv6 : sockaddr_in6 absolute LAddrStore;
LAddr : sockaddr absolute LAddrStore;
LiSize: socklen_t;
LBytesSent: Integer;
begin
case AIPVersion of
Id_IPv4: begin
InitSockAddr_In(LAddrIPv4);
TranslateStringToTInAddr(AIP, LAddrIPv4.sin_addr, Id_IPv4);
LAddrIPv4.sin_port := htons(APort);
LiSize := SizeOf(LAddrIPv4);
end;
Id_IPv6: begin
InitSockAddr_in6(LAddrIPv6);
TranslateStringToTInAddr(AIP, LAddrIPv6.sin6_addr, Id_IPv6);
LAddrIPv6.sin6_port := htons(APort);
LiSize := SizeOf(LAddrIPv6);
end;
else
LiSize := 0; // avoid warning
IPVersionUnsupported;
end;
LBytesSent := Posix.SysSocket.sendto(
ASocket, ABuffer, ABufferLength, AFlags or Id_MSG_NOSIGNAL, LAddr, LiSize);
if LBytesSent = Id_SOCKET_ERROR then begin
// TODO: move this into RaiseLastSocketError directly
if WSGetLastError() = Id_WSAEMSGSIZE then begin
raise EIdPackageSizeTooBig.Create(RSPackageSizeTooBig);
end else begin
RaiseLastSocketError;
end;
end
else if LBytesSent <> ABufferLength then begin
raise EIdNotAllBytesSent.Create(RSNotAllBytesSent);
end;
end;
procedure TIdStackVCLPosix.WSSetLastError(const AErr: Integer);
begin
__error^ := AErr;
end;
function TIdStackVCLPosix.WSShutdown(ASocket: TIdStackSocketHandle;
AHow: Integer): Integer;
begin
Result := Posix.SysSocket.shutdown(ASocket, AHow);
end;
function TIdStackVCLPosix.WSSocket(AFamily : Integer; AStruct : TIdSocketType; AProtocol: Integer;
const AOverlapped: Boolean = False): TIdStackSocketHandle;
begin
Result := Posix.SysSocket.socket(AFamily, AStruct, AProtocol);
{$IFDEF HAS_SOCKET_NOSIGPIPE}
if Result <> INVALID_SOCKET then begin
SetSocketOption(Result, SOL_SOCKET, SO_NOSIGPIPE, 1);
end;
{$ENDIF}
end;
{$I IdUnitPlatformOn.inc}
{$I IdSymbolPlatformOn.inc}
initialization
GSocketListClass := TIdSocketListVCLPosix;
end.