#ifndef EL__TERMINAL_ITRM_H #define EL__TERMINAL_ITRM_H #define ITRM_OUT_QUEUE_SIZE 16384 #define ITRM_IN_QUEUE_SIZE 16 struct itrm_queue { unsigned char *data; /* The amount of data in the queue, in bytes. This may be * less than the amount of memory allocated for the buffer; * struct itrm_queue does not keep track of that, and has * no global policy on whether the buffer can be resized. */ int len; }; /* Things coming into an itrm, whether from the terminal or from the * master. */ struct itrm_in { /* A file descriptor for the standard input. In some ports, * this is the terminal device itself; in others, this is a * pipe from an input thread. In principle, the data format * depends on the terminal. */ int std; /* In a slave process, a file descriptor for a socket from * which it reads data sent by the master process. The other * end of the socket connection is terminal.fdout in the * master process. The format of these data is almost the * same as could be sent to the terminal (via itrm.out.std), * but there are special commands that begin with a null byte. * * In the master process, @sock is the same as @ctl, but * nothing actually uses it. */ int sock; /* A file descriptor for controlling the standard input. This * is always the terminal device itself, thus the same as @std * in some ports. ELinks doesn't read or write with this file * descriptor; it only does things like tcsetattr. */ int ctl; /* Bytes that have been received from @std but not yet * converted to events. queue.data is allocated for * ITRM_IN_QUEUE_SIZE bytes and never resized. The itrm * layer cannot parse control sequences longer than that. * Anything that modifies queue.len should also call * unhandle_itrm_stdin() if the queue becomes full, or * handle_itrm_stdin() if the queue stops being full. * Those functions are internal to kbd.c. */ struct itrm_queue queue; }; /* Things going out from an itrm, whether to the terminal or to the * master. */ struct itrm_out { /* A file descriptor for the standard output. In some ports, * this is the terminal device itself; in others, this is a * pipe to an output thread. The data format depends on the * terminal in principle, but this has not yet been * implemented; see bug 96. */ int std; /* A file descriptor for a pipe or socket to which this * process sends input events. The other end of the pipe or * socket connection is terminal.fdin in the master process. * If the connection is from the master process to itself, it * uses a pipe; otherwise a socket. The events are formatted * as struct term_event, but at the beginning of the * connection, a struct terminal_info and extra data are also * sent. */ int sock; /* Bytes that should be written to @sock. They will be * written when select() indicates the write won't block. To * add data here, call itrm_queue_event(), which reallocates * queue.data if appropriate. The size of this queue is * unrelated to ITRM_OUT_QUEUE_SIZE. */ struct itrm_queue queue; }; /* A connection between a terminal and a master ELinks process. * Normally, only one struct itrm exists in each master or slave * process, and the global pointer @ditrm (not declared here) * points to it. */ struct itrm { struct itrm_in in; /* Input */ struct itrm_out out; /* Output */ timer_id_T timer; /* ESC timeout timer */ struct termios t; /* For restoring original attributes */ void *mouse_h; /* Mouse handle */ unsigned char *orig_title; /* For restoring window title */ unsigned int blocked:1; /* Whether it was blocked */ unsigned int altscreen:1; /* Whether to use alternate screen */ unsigned int touched_title:1; /* Whether the term title was changed */ /* The @remote flag is not set in regular slave terminals. * Instead, it means the itrm controls a preexisting terminal, * and windows should not be displayed on the terminal of the * itrm (but see bug 776: the master clears the terminal anyway); * thus the terminal init and done strings are not sent. */ unsigned int remote:1; /* Whether it is a remote session */ }; #endif