CONSOLE DEVICE 0x10 vector* 0x18 @stdout 0x11 (vector) 0x19 @stderr 0x12 stdin 0x1a @proc-put 0x13 0x1b 0x14 0x1c param* 0x15 0x1d (param) 0x16 0x1e opts 0x17 type 0x1f @host-put (* denotes a short register, i.e. two bytes wide) (@ denotes a register that causes an immediate effect) vector ports (0x10-0x11) contain an address to jump to when input is available. when the vector fires one byte can be read from the read port (0x12), and its meaning is defined by the type (0x17). the stdin port (0x12) contains one byte of data to be read. the byte represents input read from one of the following: arguments, stdin, child processes, or host messages. the type port (0x17) says which. the type (0x17) field explains how to interpret calls to the console vector (0x10) and where data can be read from: - 0x00 - 00000000 - no input (-) - 0x01 - 00000001 - stdin (stdin) - 0x02 - 00000010 - argument (stdin) - 0x03 - 00000011 - argument spacer (-) - 0x04 - 00000100 - argument end (-) - 0x05 - 00000101 - host response - 0x06 - 00000110 - host response end (-) - 0x07 - 00000111 - stdin end (-) - 0x20 - 00100000 - child 0 sent data - 0x21 - 00100001 - child 1 sent data - 0x22 - 00100010 - child 2 sent data - 0x23 - 00100011 - child 3 sent data - 0x40 - 01000000 - child 0 data end - 0x41 - 01000001 - child 1 data end - 0x42 - 01000010 - child 2 data end - 0x43 - 01000011 - child 3 data end - 0x80 - 10000000 - child 0 exited (stdin contains exit code) - 0x81 - 10000001 - child 1 exited (stdin contains exit code) - 0x82 - 10000010 - child 2 exited (stdin contains exit code) - 0x83 - 10000011 - child 3 exited (stdin contains exit code) writing a byte to the stdout port (0x18) will send one byte of data to the emulator's stdout. writing a byte to the stderr port (0x19) will send one byte of data to the emulator's stderr. writing a byte to the proc-put port (0x1a) will send one byte of data to one of the emulator's child processes. the lower 2 bits of the opts port (0x1e) determine which one: - 0x00: child 0 - 0x01: child 1 - 0x02: child 2 - 0x03: child 3 the param ports (0x1c-0x1d) specify the a value to use as a parameter for a host-put (0x1f). the meaning values by host-put value: - 0x00 - (nop) unused - 0x01 - (execute) command string (e.g. 'gcc -o "demo" demo.c') - 0x02 - (getpid) unused - 0x03 - (kill) unused - 0x04 - (raw-tty) unused - 0x04 - (restore-tty) unused - 0x10 - (getenv) name string (e.g. "TERM") - 0x11 - (setenv) assignment string (e.g. "TERM=vt100") (strings must be null-terminated. commands are parsed by /bin/sh -c.) the opts port (0x1e) specifies options that affect host actions run using the host-put port (0x1f): - lower 2 bits control which child process to use (when applicable) + 0x00 - child 0 + 0x01 - child 1 + 0x02 - child 2 + 0x03 - child 3 - next 2 bits (0x0c) are unused - upper 4 bits control which pipes to use with execute: + 0x80 - use child's pty (implies 0x70) + 0x40 - read from child's stderr + 0x20 - read from child's stdout + 0x10 - write to child's stdin the host-put port (0x1f) specifies which host action to take: - 0x00 - nop: does nothing - 0x01 - execute: reads command string, starts a subprocess - 0x02 - getpid: responds with child process pid (if any) - 0x03 - kill: shuts down child process - 0x04 - put stdin tty into raw mode - 0x05 - restore stdin tty to canonical mode - 0x10 - getenv: looks up a name (e.g. TERM) in env, responds with value - 0x11 - setenv: reads an assignment (e.g. TERM=vt100), updates env SYSTEM EXPANSION SUPPORT the system expansion port can be used to determine whether or not the console supports these additional capabilities. the convention is to use UUID-based extensions as defined by uxn38. the unix console device uses `01231250-d878-4462-bc41-d0927645a2fa` as its UUID, and uses the following expansion layout: - operation (1 byte): 03 (uuid extension) - device (1 byte): 10 (console) - uuid (16 bytes): 0123 1250 d878 4462 bc41 d092 7645 a2fa - flags (2 byte): 0000 (may be updated by emulator) after being loaded, flags will be 0x0000 if the console expansion is not supported. otherwise, it will contain one or more of the following flags: - 0x0001: supports `execute` - 0x0002: supports `kill` - 0x0004: supports `raw-tty`, `restore-tty` - 0x0008: supports `getenv` and `setenv` - 0x0010: supports writing to child stdin - 0x0020: supports reading from child stdout - 0x0040: supports reading from child stderr - 0x0080: supports allocating child pty - 0x0100 to 0x8000: (currently unused) currently uxn11 will write 0x00ff to the flags field, so programs wishing to detect unx11 can check for that value. here's a snippet that determines whether the console expansion can be used: |00 @System [ &unused $2 &expansion $2 ( ... ) ] |0010 ;query .System/expansion DEO2 ;query/flags LDA2 #00ff EQU2 ?enable-uxn11-console BRK @enable-uxn-console ... @query 03 10 ( uuid ) 0123 1250 d878 4462 bc41 d092 7645 a2fa &flags 0000 note that uxn11 unconditionally enables the expanded console. so in this case the uuid-based extension mechanism is only used to detect the presence (or absence) of emulator support. if device 0x10 is not provided then flags will be 0x0000 (moving or adding additional console devices is not supported).