/* Generic stream implementation -- header file. Copyright (C) 1995 Free Software Foundation, Inc. Copyright (C) 1996, 2001, 2002 Ben Wing. This file is part of XEmacs. XEmacs is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. XEmacs is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with XEmacs. If not, see . */ /* Synched up with: Not in FSF. */ /* Written by Ben Wing. */ #ifndef INCLUDED_lstream_h_ #define INCLUDED_lstream_h_ /************************************************************************/ /* definition of Lstream object */ /************************************************************************/ DECLARE_LISP_OBJECT (lstream, struct lstream); #define XLSTREAM(x) XRECORD (x, lstream, struct lstream) #define wrap_lstream(p) wrap_record (p, lstream) #define LSTREAMP(x) RECORDP (x, lstream) /* #define CHECK_LSTREAM(x) CHECK_RECORD (x, lstream) Lstream pointers should never escape to the Lisp level, so functions should not be doing this. */ #ifndef EOF #define EOF (-1) #endif /* There have been some arguments over the what the type should be that specifies a count of bytes in a data block to be written out or read in, using Lstream_read(), Lstream_write(), and related functions. Originally it was long, which worked fine; Martin "corrected" these to size_t and ssize_t on the grounds that this is theoretically cleaner and is in keeping with the C standards. Unfortunately, this practice is horribly error-prone due to design flaws in the way that mixed signed/unsigned arithmetic happens. In fact, by doing this change, Martin introduced a subtle but fatal error that caused the operation of sending large mail messages to the SMTP server under Windows to fail. By putting all values back to be signed, avoiding any signed/unsigned mixing, the bug immediately went away. The type then in use was Lstream_Data_Count, so that it be reverted cleanly if a vote came to that. Now it is Bytecount. Some earlier comments about why the type must be signed: This MUST BE SIGNED, since it also is used in functions that return the number of bytes actually read to or written from in an operation, and these functions can return -1 to signal error. Note that the standard Unix read() and write() functions define the count going in as a size_t, which is UNSIGNED, and the count going out as an ssize_t, which is SIGNED. This is a horrible design flaw. Not only is it highly likely to lead to logic errors when a -1 gets interpreted as a large positive number, but operations are bound to fail in all sorts of horrible ways when a number in the upper-half of the size_t range is passed in -- this number is unrepresentable as an ssize_t, so code that checks to see how many bytes are actually written (which is mandatory if you are dealing with certain types of devices) will get completely screwed up. --ben */ typedef enum lstream_buffering { /* No buffering. */ LSTREAM_UNBUFFERED, /* Buffer until a '\n' character is reached. */ LSTREAM_LINE_BUFFERED, /* Buffer in standard-size (i.e. 512-byte) blocks. */ LSTREAM_BLOCK_BUFFERED, /* Buffer in blocks of a specified size. */ LSTREAM_BLOCKN_BUFFERED, /* Buffer until the stream is closed (only applies to write-only streams). Only one call to the stream writer will be made, and that is when the stream is closed. */ LSTREAM_UNLIMITED } Lstream_buffering; #if 0 /* #### not currently implemented; correct EOF handling is quite tricky in the presence of various levels of filtering streams, and simply interpreting 0 as EOF works fairly well as long as the amount of data you're attempting to read is large and you know whether the source stream at the end of the chain is a pipe (or other blocking source) or not. we really should fix this, though. */ /* Return values from Lstream_read(). We do NOT use the C lib trick of returning 0 to maybe indicate EOF because that is simply too random and error-prone. It is quite legitimate for there to be no data available but no EOF, even when not in the presence of non-blocking I/O. For example, decoding/encoding streams (and in general, any type of filtering stream) may only be able to return data after a certain amount of data on the other end is available. */ #define LSTREAM_EOF -2 #endif /* 0 */ #define LSTREAM_ERROR -1 /* Methods defining how this stream works. Some may be undefined. */ /* We do not implement the seek/tell paradigm. I tried to do that, but getting the semantics right in the presence of buffering is extremely tricky and very error-prone and basically not worth it. This is especially the case with complicated streams like decoding streams -- the seek pointer in this case can't be a single integer but has to be a whole complicated structure that records all of the stream's state at the time. Rewind semantics are generally easy to implement, so we do provide a rewind method. Even rewind() may not be available on a stream, however -- e.g. on process output. */ typedef struct lstream_implementation { const char *name; Bytecount size; /* Number of additional bytes to be allocated with this stream. Access this data using Lstream_data(). */ /* Description of the extra data (struct foo_lstream) attached to a coding system. */ const struct sized_memory_description *extra_description; /* Read some data from the stream's end and store it into DATA, which can hold SIZE bytes. Return the number of bytes read. A return value of 0 means no bytes can be read at this time. This may be because of an EOF, or because there is a granularity greater than one byte that the stream imposes on the returned data, and SIZE is less than this granularity. (This will happen frequently for streams that need to return whole characters, because Lstream_read() calls the reader function repeatedly until it has the number of bytes it wants or until 0 is returned.) The lstream functions do not treat a 0 return as EOF or do anything special; however, the calling function will interpret any 0 it gets back as EOF. This will normally not happen unless the caller calls Lstream_read() with a very small size. This function can be NULL if the stream is output-only. */ /* The omniscient mly, blinded by the irresistible thrall of Common Lisp, thinks that it is bogus that the types and implementations of input and output streams are the same. */ Bytecount (*reader) (Lstream *stream, unsigned char *data, Bytecount size); /* Send some data to the stream's end. Data to be sent is in DATA and is SIZE bytes. Return the number of bytes sent. This function can send and return fewer bytes than is passed in; in that case, the function will just be called again until there is no data left or 0 is returned. A return value of 0 means that no more data can be currently stored, but there is no error; the data will be squirrelled away until the writer can accept data. (This is useful, e.g., of you're dealing with a non-blocking file descriptor and are getting EWOULDBLOCK errors.) This function can be NULL if the stream is input-only. */ Bytecount (*writer) (Lstream *stream, const unsigned char *data, Bytecount size); /* Return non-zero if the last write operation on the stream resulted in an attempt to block (EWOULDBLOCK). If this method does not exists, the implementation returns 0 */ int (*was_blocked_p) (Lstream *stream); /* Rewind the stream. If this is NULL, the stream is not seekable. */ int (*rewinder) (Lstream *stream); /* Indicate whether this stream is seekable -- i.e. it can be rewound. This method is ignored if the stream does not have a rewind method. If this method is not present, the result is determined by whether a rewind method is present. */ int (*seekable_p) (Lstream *stream); /* Perform any additional operations necessary to flush the data in this stream. */ int (*flusher) (Lstream *stream); /* Perform any additional operations necessary to close this stream down. May be NULL. This function is called when Lstream_close() is called (which will be called automatically on any open streams when they are garbage-collected or deleted with Lstream_delete()). When this function is called, all pending data in the stream will already have been written out; however, the closer write more data, e.g. an "end" section at the end of a file. */ int (*closer) (Lstream *stream); /* Clean up any remaining data at the time that a stream is garbage-collected or deleted with Lstream_delete(). If the stream was open at this point, the finalizer is called after calling Lstream_close(). Called only once (NOT called at disksave time). */ void (*finalizer) (Lstream *stream); /* Mark this object for garbage collection. Same semantics as a standard Lisp_Object marker. This function can be NULL. */ Lisp_Object (*marker) (Lisp_Object lstream); } Lstream_implementation; #define DEFINE_LSTREAM_IMPLEMENTATION(name, c_name) \ Lstream_implementation lstream_##c_name[1] = \ { { (name), sizeof (struct c_name##_stream), \ &lstream_empty_extra_description } } #define DEFINE_LSTREAM_IMPLEMENTATION_WITH_DATA(name, c_name) \ static const struct sized_memory_description c_name##_lstream_description_0 \ = { \ sizeof (struct c_name##_stream), \ c_name##_lstream_description \ }; \ Lstream_implementation lstream_##c_name[1] = \ { { (name), sizeof (struct c_name##_stream), \ &c_name##_lstream_description_0 } } #define DECLARE_LSTREAM(c_name) \ extern Lstream_implementation lstream_##c_name[] #define LSTREAM_FL_IS_OPEN 1 #define LSTREAM_FL_READ 2 #define LSTREAM_FL_WRITE 4 #define LSTREAM_FL_NO_PARTIAL_CHARS 8 #define LSTREAM_FL_CLOSE_AT_DISKSAVE 16 struct lstream { NORMAL_LISP_OBJECT_HEADER header; const Lstream_implementation *imp; /* methods for this stream */ Lstream_buffering buffering; /* type of buffering in use */ Bytecount buffering_size; /* number of bytes buffered */ unsigned char *in_buffer; /* holds characters read from stream end */ Bytecount in_buffer_size; /* allocated size of buffer */ Bytecount in_buffer_current; /* number of characters in buffer */ Bytecount in_buffer_ind; /* pointer to next character to take from buffer */ unsigned char *out_buffer; /* holds characters to write to stream end */ Bytecount out_buffer_size; /* allocated size of buffer */ Bytecount out_buffer_ind; /* pointer to next buffer spot to write a character */ /* The unget buffer is more or less a stack -- things get pushed onto the end and read back from the end. Lstream_read() basically reads backwards from the end to get stuff; Lstream_unread() similarly has to push the data on backwards. */ unsigned char *unget_buffer; /* holds characters pushed back onto input */ Bytecount unget_buffer_size; /* allocated size of buffer */ Bytecount unget_buffer_ind; /* pointer to next buffer spot to write a character */ Bytecount byte_count; int flags; max_align_t data[1]; }; extern const struct sized_memory_description lstream_empty_extra_description; #define LSTREAM_TYPE_P(lstr, type) \ ((lstr)->imp == lstream_##type) #ifdef ERROR_CHECK_TYPES DECLARE_INLINE_HEADER ( struct lstream * error_check_lstream_type (struct lstream *stream, const Lstream_implementation *imp) ) { assert (stream->imp == imp); return stream; } # define LSTREAM_TYPE_DATA(lstr, type) \ ((struct type##_stream *) \ Lstream_data (error_check_lstream_type (lstr, lstream_##type))) #else # define LSTREAM_TYPE_DATA(lstr, type) \ ((struct type##_stream *) Lstream_data (lstr)) #endif /* Declare that lstream-type TYPE has method M; used in initialization routines */ #define LSTREAM_HAS_METHOD(type, m) \ (lstream_##type->m = type##_##m) Lstream *Lstream_new (const Lstream_implementation *imp, const char *mode); void Lstream_reopen (Lstream *lstr); void Lstream_set_buffering (Lstream *lstr, Lstream_buffering buffering, int buffering_size); int Lstream_flush (Lstream *lstr); int Lstream_flush_out (Lstream *lstr); int Lstream_fputc (Lstream *lstr, int c); int Lstream_fgetc (Lstream *lstr); void Lstream_fungetc (Lstream *lstr, int c); Bytecount Lstream_read (Lstream *lstr, void *data, Bytecount size); int Lstream_write (Lstream *lstr, const void *data, Bytecount size); int Lstream_was_blocked_p (Lstream *lstr); void Lstream_unread (Lstream *lstr, const void *data, Bytecount size); int Lstream_rewind (Lstream *lstr); int Lstream_seekable_p (Lstream *lstr); int Lstream_close (Lstream *lstr); int Lstream_close_noflush (Lstream *lstr); void Lstream_delete (Lstream *lstr); void Lstream_set_character_mode (Lstream *str); void Lstream_unset_character_mode (Lstream *lstr); /* Lstream_putc: Write out one byte to the stream. This is a macro and so it is very efficient. The C argument is only evaluated once but the STREAM argument is evaluated more than once. Returns 0 on success, -1 on error. */ #define Lstream_putc(stream, c) \ /* Call the function equivalent if the out buffer is full. Otherwise, \ add to the end of the out buffer and, if line buffering is called for \ and the character marks the end of a line, write out the buffer. */ \ ((stream)->out_buffer_ind >= (stream)->out_buffer_size ? \ Lstream_fputc (stream, c) : \ ((stream)->out_buffer[(stream)->out_buffer_ind++] = \ (unsigned char) (c), \ (stream)->byte_count++, \ (stream)->buffering == LSTREAM_LINE_BUFFERED && \ (stream)->out_buffer[(stream)->out_buffer_ind - 1] == '\n' ? \ Lstream_flush_out (stream) : 0)) /* Lstream_getc: Read one byte from the stream and returns it as an unsigned char cast to an int, or EOF on end of file or error. This is a macro and so it is very efficient. The STREAM argument is evaluated more than once. */ #define Lstream_getc(stream) \ /* Retrieve from unget buffer if there are any characters there; \ else retrieve from in buffer if there's anything there; \ else call the function equivalent */ \ ((stream)->unget_buffer_ind > 0 ? \ ((stream)->byte_count++, \ (stream)->unget_buffer[--(stream)->unget_buffer_ind]) : \ (stream)->in_buffer_ind < (stream)->in_buffer_current ? \ ((stream)->byte_count++, \ (stream)->in_buffer[(stream)->in_buffer_ind++]) : \ Lstream_fgetc (stream)) /* Lstream_ungetc: Push one byte back onto the input queue, cast to unsigned char. This will be the next byte read from the stream. Any number of bytes can be pushed back and will be read in the reverse order they were pushed back -- most recent first. (This is necessary for consistency -- if there are a number of bytes that have been unread and I read and unread a byte, it needs to be the first to be read again.) This is a macro and so it is very efficient. The C argument is only evaluated once but the STREAM argument is evaluated more than once. */ #define Lstream_ungetc(stream, c) \ /* Add to the end if it won't overflow buffer; otherwise call the \ function equivalent */ \ ((stream)->unget_buffer_ind >= (stream)->unget_buffer_size ? \ Lstream_fungetc (stream, c) : \ (void) ((stream)->byte_count--, \ ((stream)->unget_buffer[(stream)->unget_buffer_ind++] = \ (unsigned char) (c)))) #define Lstream_data(stream) ((void *) ((stream)->data)) #define Lstream_byte_count(stream) ((stream)->byte_count) /************************************************************************/ /* working with an Lstream as a stream of Ichars */ /************************************************************************/ #ifdef MULE DECLARE_INLINE_HEADER ( Ichar Lstream_get_ichar (Lstream *stream) ) { int c = Lstream_getc (stream); return (c < 0x80 /* c == EOF || byte_ascii_p (c) */ ? (Ichar) c : Lstream_get_ichar_1 (stream, c)); } /* Write an Ichar to a stream. Return value is 0 for success, -1 for failure. */ DECLARE_INLINE_HEADER ( int Lstream_put_ichar (Lstream *stream, Ichar ch) ) { return ichar_ascii_p (ch) ? Lstream_putc (stream, ch) : Lstream_fput_ichar (stream, ch); } DECLARE_INLINE_HEADER ( void Lstream_unget_ichar (Lstream *stream, Ichar ch) ) { if (ichar_ascii_p (ch)) Lstream_ungetc (stream, ch); else Lstream_funget_ichar (stream, ch); } #else /* not MULE */ # define Lstream_get_ichar(stream) Lstream_getc (stream) # define Lstream_put_ichar(stream, ch) Lstream_putc (stream, ch) # define Lstream_unget_ichar(stream, ch) Lstream_ungetc (stream, ch) #endif /* not MULE */ /************************************************************************/ /* Lstream implementations */ /************************************************************************/ /* Flags we can pass to the filedesc and stdio streams. */ /* If set, close the descriptor or FILE * when the stream is closed. */ #define LSTR_CLOSING 1 /* If set, allow quitting out of the actual I/O. */ #define LSTR_ALLOW_QUIT 2 /* If set and filedesc_stream_set_pty_flushing() has been called on the stream, do not send more than pty_max_bytes on a single line without flushing the data out using the eof_char. */ #define LSTR_PTY_FLUSHING 4 /* If set, an EWOULDBLOCK error is not treated as an error but simply causes the write function to return 0 as the number of bytes written out. */ #define LSTR_BLOCKED_OK 8 Lisp_Object make_stdio_input_stream (FILE *stream, int flags); Lisp_Object make_stdio_output_stream (FILE *stream, int flags); Lisp_Object make_filedesc_input_stream (int filedesc, int offset, int count, int flags); Lisp_Object make_filedesc_output_stream (int filedesc, int offset, int count, int flags); void filedesc_stream_set_pty_flushing (Lstream *stream, int pty_max_bytes, Ibyte eof_char); int filedesc_stream_fd (Lstream *stream); Lisp_Object make_lisp_string_input_stream (Lisp_Object string, Bytecount offset, Bytecount len); Lisp_Object make_fixed_buffer_input_stream (const void *buf, Bytecount size); Lisp_Object make_fixed_buffer_output_stream (void *buf, Bytecount size); const unsigned char *fixed_buffer_input_stream_ptr (Lstream *stream); unsigned char *fixed_buffer_output_stream_ptr (Lstream *stream); Lisp_Object make_resizing_buffer_output_stream (void); unsigned char *resizing_buffer_stream_ptr (Lstream *stream); Lisp_Object resizing_buffer_to_lisp_string (Lstream *stream); Lisp_Object make_dynarr_output_stream (unsigned_char_dynarr *dyn); #define LSTR_SELECTIVE 1 #define LSTR_IGNORE_ACCESSIBLE 2 Lisp_Object make_lisp_buffer_input_stream (struct buffer *buf, Charbpos start, Charbpos end, int flags); Lisp_Object make_lisp_buffer_output_stream (struct buffer *buf, Charbpos pos, int flags); Charbpos lisp_buffer_stream_startpos (Lstream *stream); #endif /* INCLUDED_lstream_h_ */