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# ifndef FISH_IO_H
# define FISH_IO_H
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# include <vector>
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# include <tr1/memory>
using std : : tr1 : : shared_ptr ;
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/**
Describes what type of IO operation an io_data_t represents
*/
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enum io_mode_t
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{
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IO_INVALID , IO_FILE , IO_PIPE , IO_FD , IO_BUFFER , IO_CLOSE
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} ;
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/** Represents an FD redirection */
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class io_data_t
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{
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private :
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/** buffer to save output in for IO_BUFFER. Note that in the original fish, the buffer was a pointer to a buffer_t stored in the param2 union down below, and when an io_data_t was duplicated the pointer was copied so that two io_data_ts referenced the same buffer. It's not clear to me how this was ever cleaned up correctly. But it's important that they share the same buffer for reasons I don't yet understand either. We can get correct sharing and cleanup with shared_ptr. */
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shared_ptr < std : : vector < char > > out_buffer ;
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/* No assignment or copying allowed */
io_data_t ( const io_data_t & rhs ) ;
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void operator = ( const io_data_t & rhs ) ;
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public :
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/** Type of redirect */
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io_mode_t io_mode ;
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/** FD to redirect */
int fd ;
/**
Type - specific parameter for redirection
*/
union
{
/** Fds for IO_PIPE and for IO_BUFFER */
int pipe_fd [ 2 ] ;
/** fd to redirect specified fd to, for IO_FD */
int old_fd ;
} param1 ;
/** Second type-specific paramter for redirection */
union
{
/** file creation flags to send to open for IO_FILE */
int flags ;
/** Whether to close old_fd for IO_FD */
int close_old ;
} param2 ;
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/** Filename IO_FILE. malloc'd. This needs to be used after fork, so don't use wcstring here. */
const char * filename_cstr ;
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/** Convenience to set filename_cstr via wcstring */
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void set_filename ( const wcstring & str )
{
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free ( ( void * ) filename_cstr ) ;
filename_cstr = wcs2str ( str . c_str ( ) ) ;
}
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/** Function to create the output buffer */
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void out_buffer_create ( )
{
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out_buffer . reset ( new std : : vector < char > ) ;
}
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/** Function to append to the buffer */
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void out_buffer_append ( const char * ptr , size_t count )
{
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assert ( out_buffer . get ( ) ! = NULL ) ;
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out_buffer - > insert ( out_buffer - > end ( ) , ptr , ptr + count ) ;
}
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/** Function to get a pointer to the buffer */
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char * out_buffer_ptr ( void )
{
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assert ( out_buffer . get ( ) ! = NULL ) ;
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return out_buffer - > empty ( ) ? NULL : & out_buffer - > at ( 0 ) ;
}
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const char * out_buffer_ptr ( void ) const
{
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assert ( out_buffer . get ( ) ! = NULL ) ;
return out_buffer - > empty ( ) ? NULL : & out_buffer - > at ( 0 ) ;
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}
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/** Function to get the size of the buffer */
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size_t out_buffer_size ( void ) const
{
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assert ( out_buffer . get ( ) ! = NULL ) ;
return out_buffer - > size ( ) ;
}
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/** Set to true if this is an input io redirection */
bool is_input ;
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io_data_t ( io_mode_t m = IO_INVALID , int f = 0 ) :
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out_buffer ( ) ,
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io_mode ( m ) ,
fd ( f ) ,
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param1 ( ) ,
param2 ( ) ,
filename_cstr ( NULL ) ,
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is_input ( 0 )
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{
}
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virtual ~ io_data_t ( )
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{
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free ( ( void * ) filename_cstr ) ;
}
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} ;
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class io_chain_t : public std : : vector < shared_ptr < io_data_t > >
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{
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public :
io_chain_t ( ) ;
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io_chain_t ( const shared_ptr < io_data_t > & ) ;
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void remove ( const shared_ptr < const io_data_t > & element ) ;
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io_chain_t duplicate ( ) const ;
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void duplicate_prepend ( const io_chain_t & src ) ;
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void destroy ( ) ;
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shared_ptr < const io_data_t > get_io_for_fd ( int fd ) const ;
shared_ptr < io_data_t > get_io_for_fd ( int fd ) ;
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} ;
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/**
Remove the specified io redirection from the chain
*/
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void io_remove ( io_chain_t & list , const shared_ptr < const io_data_t > & element ) ;
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/** Return a shallow copy of the specified chain of redirections that contains only the applicable redirections. That is, if there's multiple redirections for the same fd, only the second one is included. */
io_chain_t io_unique ( const io_chain_t & chain ) ;
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/** Prepends a copy of the specified 'src' chain of redirections to 'dst.' Uses operator new. */
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void io_duplicate_prepend ( const io_chain_t & src , io_chain_t & dst ) ;
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/** Destroys an io_chain */
void io_chain_destroy ( io_chain_t & chain ) ;
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/**
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Return the last io redirection in the chain for the specified file descriptor .
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*/
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shared_ptr < const io_data_t > io_chain_get ( const io_chain_t & src , int fd ) ;
shared_ptr < io_data_t > io_chain_get ( io_chain_t & src , int fd ) ;
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/**
Free all resources used by a IO_BUFFER type io redirection .
*/
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void io_buffer_destroy ( const shared_ptr < io_data_t > & io_buffer ) ;
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/**
Create a IO_BUFFER type io redirection , complete with a pipe and a
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vector < char > for output . The default file descriptor used is 1 for
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output buffering and 0 for input buffering .
\ param is_input set this parameter to zero if the buffer should be
used to buffer the output of a command , or non - zero to buffer the
input to a command .
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*/
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io_data_t * io_buffer_create ( bool is_input ) ;
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/**
Close output pipe , and read from input pipe until eof .
*/
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void io_buffer_read ( io_data_t * d ) ;
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/** Print debug information about the specified IO redirection chain to stderr. */
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void io_print ( const io_chain_t & chain ) ;
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# endif