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author | Stefan Metzmacher <metze@samba.org> | 2009-03-11 10:25:07 +0100 |
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committer | Stefan Metzmacher <metze@samba.org> | 2009-03-19 16:25:52 +0100 |
commit | c00126e60913f8777e5ba87db464a5b4b9b8b886 (patch) | |
tree | 21e9c1203e903aa046a177426d50b05d1bf65d74 /lib/tsocket/tsocket_guide.txt | |
parent | d848d517b54074ae6b0e2349383554302b85109c (diff) | |
download | samba-c00126e60913f8777e5ba87db464a5b4b9b8b886.tar.gz samba-c00126e60913f8777e5ba87db464a5b4b9b8b886.tar.xz samba-c00126e60913f8777e5ba87db464a5b4b9b8b886.zip |
lib/tsocket: add a tsocket_guide.txt with a description of the design
metze
Diffstat (limited to 'lib/tsocket/tsocket_guide.txt')
-rw-r--r-- | lib/tsocket/tsocket_guide.txt | 282 |
1 files changed, 282 insertions, 0 deletions
diff --git a/lib/tsocket/tsocket_guide.txt b/lib/tsocket/tsocket_guide.txt new file mode 100644 index 0000000000..929875d31a --- /dev/null +++ b/lib/tsocket/tsocket_guide.txt @@ -0,0 +1,282 @@ + +Basic design of the tsocket abstraction +======================================= + +The tsocket layer is designed to match more or less +the bsd socket layer, but it hides the filedescriptor +within a opaque 'tsocket_context' structure to make virtual +sockets possible. The virtual sockets can be encrypted tunnels +(like TLS, SASL or GSSAPI) or named pipes over smb. + +The tsocket layer is a bit like an abstract class, which defines +common methods to work with sockets in a non blocking fashion. + +The whole library is based on the talloc(3) and 'tevent' libraries. + +The 'tsocket_address' structure is the 2nd abstracted class +which represends the address of a socket endpoint. + +Each different type of socket has its own constructor. + +Typically the constructor for a tsocket_context is attached to +the tsocket_address of the source endpoint. That means +the tsocket_address_create_socket() function takes the +tsocket_address of the local endpoint and creates a tsocket_context +for the communication. + +For some usecases it's possible to wrap an existing socket into a +tsocket_context, e.g. to wrap an existing pipe(2) into +tsocket_context, so that you can use the same functions to +communicate over the pipe. + +The tsocket_address abstraction +=============================== + +The tsocket_address represents an socket endpoint genericly. +As it's like an abstract class it has no specific constructor. +The specific constructors are descripted later sections. + +There's a function get the string representation of the +endpoint for debugging. Callers should not try to parse +the string! The should use additional methods of the specific +tsocket_address implemention to get more details. + + char *tsocket_address_string(const struct tsocket_address *addr, + TALLOC_CTX *mem_ctx); + +There's a function to create a copy of the tsocket_address. +This is useful when before doing modifications to a socket +via additional methods of the specific tsocket_address implementation. + + struct tsocket_address *tsocket_address_copy(const struct tsocket_address *addr, + TALLOC_CTX *mem_ctx); + +There's a function to create a tsocket_context based on the given local +socket endpoint. The return value is 0 on success and -1 on failure +with errno holding the specific error. Specific details are descripted in later +sections. Note not all specific implementation have to implement all socket +types. + + enum tsocket_type { + TSOCKET_TYPE_STREAM = 1, + TSOCKET_TYPE_DGRAM, + TSOCKET_TYPE_MESSAGE + }; + + int tsocket_address_create_socket(const struct tsocket_address *addr, + enum tsocket_type type, + TALLOC_CTX *mem_ctx, + struct tsocket_context **sock); + +The tsocket_context abstraction +=============================== + +The tsocket_context is like an abstract class and represents +a socket similar to bsd style sockets. The methods are more +or less equal to the bsd socket api, while the filedescriptor +is replaced by tsocket_context and sockaddr, socklen_t pairs +are replaced by tsocket_address. The 'bind' operation happens +in the specific constructor as the constructor is typically based +on tsocket_address of local socket endpoint. + +All operations are by design non blocking and can return error +values like EAGAIN, EINPROGRESS, EWOULDBLOCK or EINTR which +indicate that the caller should retry the operation later. +Also read the "The glue to tevent" section. + +The socket can of types: + - TSOCKET_TYPE_STREAM is the equivalent to SOCK_STREAM in the bsd socket api. + - TSOCKET_TYPE_DGRAM is the equivalent to SOCK_DGRAM in the bsd socket api. + - TSOCKET_TYPE_MESSAGE operates on a connected socket and is therefore + like TSOCKET_TYPE_STREAM, but the consumer needs to first read all + data of a message, which was generated by one message 'write' on the sender, + before the consumer gets data of the next message. This matches a bit + like message mode pipes on windows. The concept is to transfer ordered + messages between to endpoints. + +There's a function to connect to a remote endpoint. The behavior +and error codes match the connect(2) function of the bsd socket api. +Maybe the specific tsocket_context implementation speficied some +further details. + + int tsocket_connect(struct tsocket_context *sock, + const struct tsocket_address *remote_addr); + +There's a function to listen for incoming connections. The behavior +and error codes match the listen(2) function of the bsd socket api. +Maybe the specific tsocket_context implementation speficied some +further details. + + int tsocket_listen(struct tsocket_context *sock, + int queue_size); + +There's a function to accept incoming connections. The behavior +and error codes match the accept(2) function of the bsd socket api. +Maybe the specific tsocket_context implementation speficied some +further details. + + int tsocket_accept(struct tsocket_context *sock, + TALLOC_CTX *mem_ctx, + struct tsocket_context **new_sock); + +There's a function to ask how many bytes are in input buffer +of the connection. For sockets of type TSOCKET_TYPE_DGRAM or +TSOCKET_TYPE_MESSAGE the size of the next available dgram/message +is returned. A return value of -1 indicates a socket error +and errno will hold the specific error code. If no data +is available 0 is returned, but retry error codes like +EINTR can also be returned. + + ssize_t tsocket_pending(struct tsocket_context *sock); + +There's a function to read data from the socket. The behavior +and error codes match the readv(3) function, also take a look +at the recv(2) function of the bsd socket api. +Maybe the specific tsocket_context implementation speficied some +further details. + + int tsocket_readv(struct tsocket_context *sock, + const struct iovec *vector, size_t count); + +There's a function to write data from the socket. The behavior +and error codes match the writev(3) function, also take a look +at the send(2) function of the bsd socket api. +Maybe the specific tsocket_context implementation speficied some +further details. + + int tsocket_writev(struct tsocket_context *sock, + const struct iovec *vector, size_t count); + +There's a function to read a datagram from a remote endpoint. +The behavior and error codes match the recvfrom(2) function of +the bsd socket api. As TSOCKET_TYPE_DGRAM sockets can also be +used in connected mode src_addr can be NULL, if the caller don't +want to get the source address. Maybe the specific tsocket_context +implementation speficied some further details. + + ssize_t tsocket_recvfrom(struct tsocket_context *sock, + uint8_t *data, size_t len, + TALLOC_CTX *addr_ctx, + struct tsocket_address **src_addr); + +There's a function to send a datagram to a remote endpoint the socket. +The behavior and error codes match the recvfrom(2) function of the +bsd socket api. As TSOCKET_TYPE_DGRAM sockets can also be used in +connected mode dest_addr must be NULL in connected mode and a valid +tsocket_address otherwise. Maybe the specific tsocket_context +implementation speficied some further details. + + ssize_t tsocket_sendto(struct tsocket_context *sock, + const uint8_t *data, size_t len, + const struct tsocket_address *dest_addr); + +There's a function to get the current status of the socket. +The behavior and error codes match the getsockopt(2) function +of the bsd socket api, with SOL_SOCKET and SO_ERROR as arguments. +Maybe the specific tsocket_context implementation speficied some +further details. + + int tsocket_get_status(const struct tsocket_context *sock); + +There's a function to get tsocket_address of the local endpoint. +The behavior and error codes match the getsockname(2) function +of the bsd socket api. Maybe the specific tsocket_context +implementation speficied some further details. + + int tsocket_get_local_address(const struct tsocket_context *sock, + TALLOC_CTX *mem_ctx, + struct tsocket_address **local_addr); + +There's a function to get tsocket_address of the remote endpoint +of a connected socket. The behavior and error codes match the +getpeername(2) function of the bsd socket api. Maybe the specific +tsocket_context implementation speficied some further details. + + int tsocket_get_remote_address(const struct tsocket_context *sock, + TALLOC_CTX *mem_ctx, + struct tsocket_address **remote_addr, + const char *location); + +There's a function to ask for specific options of the socket. +The behavior and error codes match the getsockopt(2) function +of the bsd socket api. The option and value are represented as string +values, where the 'value' parameter can be NULL is the caller don't want to +get the value. The supported options and values are up to the specific +tsocket_context implementation. + + int tsocket_get_option(const struct tsocket_context *sock, + const char *option, + TALLOC_CTX *mem_ctx, + char **value); + +There's a function to set specific options of the socket. +The behavior and error codes match the setsockopt(2) function +of the bsd socket api. The option and value are represented as string +values, where the 'value' parameter can be NULL. The supported options +and values are up to the specific tsocket_context implementation. +The 'force' parameter specifies whether an error should be returned +for unsupported options. + + int tsocket_set_option(const struct tsocket_context *sock, + const char *option, + bool force, + const char *value); + +There's a function to disconnect the socket. The behavior +and error codes match the close(2) function of the bsd socket api. +Maybe the specific tsocket_context implementation speficied some +further details. + + void tsocket_disconnect(struct tsocket_context *sock); + +The glue to tevent +================== + +As the tsocket library is based on the tevent library, +there need to be functions to let the caller register +callback functions, which are triggered when the socket +is writeable or readable. Typically one would use +tevent fd events, but in order to hide the filedescriptor +the tsocket_context abstraction has their own functions. + +There's a function to set the currently active tevent_context +for the socket. It's important there's only one tevent_context +actively used with the socket. A second call will cancel +all low level events made on the old tevent_context, it will +also resets the send and recv handlers to NULL. If the caller +sets attaches a new event context to the socket, the callback +function also need to be registered again. It's important +that the caller keeps the given tevent_context in memory +and actively calls tsocket_set_event_context(sock, NULL) +before calling talloc_free(event_context). +The function returns 0 on success and -1 together with an errno +on failure. + + int tsocket_set_event_context(struct tsocket_context *sock, + struct tevent_context *ev); + +There's a function to register a callback function which is called +when the socket is readable. If the caller don't want to get notified +anymore the function should be called with NULL as handler. +The function returns 0 on success and -1 together with an errno +on failure. + + typedef void (*tsocket_event_handler_t)(struct tsocket_context *, void *); + int tsocket_set_readable_handler(struct tsocket_context *sock, + tsocket_event_handler_t handler, + void *private_data); + +There's a function to register a callback function which is called +when the socket is writeable. If the caller don't want to get notified +anymore the function should be called with NULL as handler. +The function returns 0 on success and -1 together with an errno +on failure. + + typedef void (*tsocket_event_handler_t)(struct tsocket_context *, void *); + int tsocket_set_writeable_handler(struct tsocket_context *sock, + tsocket_event_handler_t handler, + void *private_data); + +Note: if the socket is readable and writeable, only the writeable + handler is called, this avoids deadlocks at the application level. + |