1994-05-26 06:18:55 +00:00
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# @(#)TOUR 8.1 (Berkeley) 5/31/93
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1997-02-22 14:13:04 +00:00
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# $Id$
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1994-05-26 06:18:55 +00:00
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NOTE -- This is the original TOUR paper distributed with ash and
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does not represent the current state of the shell. It is provided anyway
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since it provides helpful information for how the shell is structured,
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but be warned that things have changed -- the current shell is
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still under development.
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================================================================
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A Tour through Ash
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Copyright 1989 by Kenneth Almquist.
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DIRECTORIES: The subdirectory bltin contains commands which can
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be compiled stand-alone. The rest of the source is in the main
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ash directory.
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SOURCE CODE GENERATORS: Files whose names begin with "mk" are
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programs that generate source code. A complete list of these
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programs is:
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program intput files generates
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------- ------------ ---------
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mkbuiltins builtins builtins.h builtins.c
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mkinit *.c init.c
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mknodes nodetypes nodes.h nodes.c
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mksignames - signames.h signames.c
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mksyntax - syntax.h syntax.c
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1996-09-01 10:22:36 +00:00
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mktokens - token.h
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1994-05-26 06:18:55 +00:00
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bltin/mkexpr unary_op binary_op operators.h operators.c
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There are undoubtedly too many of these. Mkinit searches all the
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C source files for entries looking like:
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INIT {
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x = 1; /* executed during initialization */
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}
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RESET {
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x = 2; /* executed when the shell does a longjmp
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back to the main command loop */
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}
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SHELLPROC {
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x = 3; /* executed when the shell runs a shell procedure */
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}
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It pulls this code out into routines which are when particular
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events occur. The intent is to improve modularity by isolating
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the information about which modules need to be explicitly
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initialized/reset within the modules themselves.
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Mkinit recognizes several constructs for placing declarations in
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the init.c file.
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INCLUDE "file.h"
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includes a file. The storage class MKINIT makes a declaration
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available in the init.c file, for example:
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MKINIT int funcnest; /* depth of function calls */
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MKINIT alone on a line introduces a structure or union declara-
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tion:
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MKINIT
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struct redirtab {
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short renamed[10];
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};
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Preprocessor #define statements are copied to init.c without any
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special action to request this.
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INDENTATION: The ash source is indented in multiples of six
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spaces. The only study that I have heard of on the subject con-
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cluded that the optimal amount to indent is in the range of four
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to six spaces. I use six spaces since it is not too big a jump
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from the widely used eight spaces. If you really hate six space
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indentation, use the adjind (source included) program to change
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it to something else.
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EXCEPTIONS: Code for dealing with exceptions appears in
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exceptions.c. The C language doesn't include exception handling,
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so I implement it using setjmp and longjmp. The global variable
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exception contains the type of exception. EXERROR is raised by
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calling error. EXINT is an interrupt. EXSHELLPROC is an excep-
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tion which is raised when a shell procedure is invoked. The pur-
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pose of EXSHELLPROC is to perform the cleanup actions associated
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with other exceptions. After these cleanup actions, the shell
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can interpret a shell procedure itself without exec'ing a new
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copy of the shell.
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INTERRUPTS: In an interactive shell, an interrupt will cause an
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EXINT exception to return to the main command loop. (Exception:
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EXINT is not raised if the user traps interrupts using the trap
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command.) The INTOFF and INTON macros (defined in exception.h)
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provide uninterruptable critical sections. Between the execution
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of INTOFF and the execution of INTON, interrupt signals will be
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held for later delivery. INTOFF and INTON can be nested.
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MEMALLOC.C: Memalloc.c defines versions of malloc and realloc
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which call error when there is no memory left. It also defines a
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stack oriented memory allocation scheme. Allocating off a stack
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is probably more efficient than allocation using malloc, but the
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big advantage is that when an exception occurs all we have to do
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to free up the memory in use at the time of the exception is to
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restore the stack pointer. The stack is implemented using a
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linked list of blocks.
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STPUTC: If the stack were contiguous, it would be easy to store
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strings on the stack without knowing in advance how long the
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string was going to be:
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p = stackptr;
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*p++ = c; /* repeated as many times as needed */
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stackptr = p;
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The folloing three macros (defined in memalloc.h) perform these
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operations, but grow the stack if you run off the end:
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STARTSTACKSTR(p);
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STPUTC(c, p); /* repeated as many times as needed */
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grabstackstr(p);
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We now start a top-down look at the code:
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MAIN.C: The main routine performs some initialization, executes
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the user's profile if necessary, and calls cmdloop. Cmdloop is
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repeatedly parses and executes commands.
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OPTIONS.C: This file contains the option processing code. It is
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called from main to parse the shell arguments when the shell is
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invoked, and it also contains the set builtin. The -i and -j op-
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tions (the latter turns on job control) require changes in signal
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handling. The routines setjobctl (in jobs.c) and setinteractive
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(in trap.c) are called to handle changes to these options.
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PARSING: The parser code is all in parser.c. A recursive des-
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cent parser is used. Syntax tables (generated by mksyntax) are
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used to classify characters during lexical analysis. There are
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three tables: one for normal use, one for use when inside single
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quotes, and one for use when inside double quotes. The tables
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are machine dependent because they are indexed by character vari-
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ables and the range of a char varies from machine to machine.
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PARSE OUTPUT: The output of the parser consists of a tree of
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nodes. The various types of nodes are defined in the file node-
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types.
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Nodes of type NARG are used to represent both words and the con-
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tents of here documents. An early version of ash kept the con-
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tents of here documents in temporary files, but keeping here do-
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cuments in memory typically results in significantly better per-
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formance. It would have been nice to make it an option to use
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temporary files for here documents, for the benefit of small
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machines, but the code to keep track of when to delete the tem-
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porary files was complex and I never fixed all the bugs in it.
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(AT&T has been maintaining the Bourne shell for more than ten
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years, and to the best of my knowledge they still haven't gotten
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it to handle temporary files correctly in obscure cases.)
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The text field of a NARG structure points to the text of the
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word. The text consists of ordinary characters and a number of
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special codes defined in parser.h. The special codes are:
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CTLVAR Variable substitution
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CTLENDVAR End of variable substitution
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CTLBACKQ Command substitution
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CTLBACKQ|CTLQUOTE Command substitution inside double quotes
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CTLESC Escape next character
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A variable substitution contains the following elements:
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CTLVAR type name '=' [ alternative-text CTLENDVAR ]
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The type field is a single character specifying the type of sub-
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stitution. The possible types are:
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VSNORMAL $var
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VSMINUS ${var-text}
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VSMINUS|VSNUL ${var:-text}
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VSPLUS ${var+text}
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VSPLUS|VSNUL ${var:+text}
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VSQUESTION ${var?text}
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VSQUESTION|VSNUL ${var:?text}
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VSASSIGN ${var=text}
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VSASSIGN|VSNUL ${var=text}
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In addition, the type field will have the VSQUOTE flag set if the
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variable is enclosed in double quotes. The name of the variable
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comes next, terminated by an equals sign. If the type is not
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VSNORMAL, then the text field in the substitution follows, ter-
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minated by a CTLENDVAR byte.
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Commands in back quotes are parsed and stored in a linked list.
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The locations of these commands in the string are indicated by
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CTLBACKQ and CTLBACKQ+CTLQUOTE characters, depending upon whether
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the back quotes were enclosed in double quotes.
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The character CTLESC escapes the next character, so that in case
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any of the CTL characters mentioned above appear in the input,
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they can be passed through transparently. CTLESC is also used to
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escape '*', '?', '[', and '!' characters which were quoted by the
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user and thus should not be used for file name generation.
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CTLESC characters have proved to be particularly tricky to get
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right. In the case of here documents which are not subject to
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variable and command substitution, the parser doesn't insert any
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CTLESC characters to begin with (so the contents of the text
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field can be written without any processing). Other here docu-
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ments, and words which are not subject to splitting and file name
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generation, have the CTLESC characters removed during the vari-
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able and command substitution phase. Words which are subject
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splitting and file name generation have the CTLESC characters re-
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moved as part of the file name phase.
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EXECUTION: Command execution is handled by the following files:
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eval.c The top level routines.
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redir.c Code to handle redirection of input and output.
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jobs.c Code to handle forking, waiting, and job control.
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exec.c Code to to path searches and the actual exec sys call.
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expand.c Code to evaluate arguments.
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var.c Maintains the variable symbol table. Called from expand.c.
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EVAL.C: Evaltree recursively executes a parse tree. The exit
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status is returned in the global variable exitstatus. The alter-
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native entry evalbackcmd is called to evaluate commands in back
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quotes. It saves the result in memory if the command is a buil-
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tin; otherwise it forks off a child to execute the command and
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connects the standard output of the child to a pipe.
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JOBS.C: To create a process, you call makejob to return a job
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structure, and then call forkshell (passing the job structure as
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an argument) to create the process. Waitforjob waits for a job
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to complete. These routines take care of process groups if job
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control is defined.
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REDIR.C: Ash allows file descriptors to be redirected and then
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restored without forking off a child process. This is accom-
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plished by duplicating the original file descriptors. The redir-
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tab structure records where the file descriptors have be dupli-
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cated to.
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EXEC.C: The routine find_command locates a command, and enters
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the command in the hash table if it is not already there. The
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third argument specifies whether it is to print an error message
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if the command is not found. (When a pipeline is set up,
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find_command is called for all the commands in the pipeline be-
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fore any forking is done, so to get the commands into the hash
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table of the parent process. But to make command hashing as
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transparent as possible, we silently ignore errors at that point
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and only print error messages if the command cannot be found
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later.)
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The routine shellexec is the interface to the exec system call.
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EXPAND.C: Arguments are processed in three passes. The first
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(performed by the routine argstr) performs variable and command
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substitution. The second (ifsbreakup) performs word splitting
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and the third (expandmeta) performs file name generation. If the
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"/u" directory is simulated, then when "/u/username" is replaced
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by the user's home directory, the flag "didudir" is set. This
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tells the cd command that it should print out the directory name,
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just as it would if the "/u" directory were implemented using
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symbolic links.
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VAR.C: Variables are stored in a hash table. Probably we should
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switch to extensible hashing. The variable name is stored in the
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same string as the value (using the format "name=value") so that
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no string copying is needed to create the environment of a com-
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mand. Variables which the shell references internally are preal-
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located so that the shell can reference the values of these vari-
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ables without doing a lookup.
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When a program is run, the code in eval.c sticks any environment
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variables which precede the command (as in "PATH=xxx command") in
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the variable table as the simplest way to strip duplicates, and
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then calls "environment" to get the value of the environment.
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There are two consequences of this. First, if an assignment to
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PATH precedes the command, the value of PATH before the assign-
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ment must be remembered and passed to shellexec. Second, if the
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program turns out to be a shell procedure, the strings from the
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environment variables which preceded the command must be pulled
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out of the table and replaced with strings obtained from malloc,
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since the former will automatically be freed when the stack (see
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the entry on memalloc.c) is emptied.
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BUILTIN COMMANDS: The procedures for handling these are scat-
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tered throughout the code, depending on which location appears
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most appropriate. They can be recognized because their names al-
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ways end in "cmd". The mapping from names to procedures is
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specified in the file builtins, which is processed by the mkbuil-
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tins command.
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A builtin command is invoked with argc and argv set up like a
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normal program. A builtin command is allowed to overwrite its
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arguments. Builtin routines can call nextopt to do option pars-
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ing. This is kind of like getopt, but you don't pass argc and
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argv to it. Builtin routines can also call error. This routine
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normally terminates the shell (or returns to the main command
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loop if the shell is interactive), but when called from a builtin
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command it causes the builtin command to terminate with an exit
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status of 2.
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The directory bltins contains commands which can be compiled in-
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dependently but can also be built into the shell for efficiency
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reasons. The makefile in this directory compiles these programs
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in the normal fashion (so that they can be run regardless of
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whether the invoker is ash), but also creates a library named
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bltinlib.a which can be linked with ash. The header file bltin.h
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takes care of most of the differences between the ash and the
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stand-alone environment. The user should call the main routine
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"main", and #define main to be the name of the routine to use
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when the program is linked into ash. This #define should appear
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before bltin.h is included; bltin.h will #undef main if the pro-
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gram is to be compiled stand-alone.
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CD.C: This file defines the cd and pwd builtins. The pwd com-
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mand runs /bin/pwd the first time it is invoked (unless the user
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has already done a cd to an absolute pathname), but then
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remembers the current directory and updates it when the cd com-
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mand is run, so subsequent pwd commands run very fast. The main
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complication in the cd command is in the docd command, which
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resolves symbolic links into actual names and informs the user
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where the user ended up if he crossed a symbolic link.
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SIGNALS: Trap.c implements the trap command. The routine set-
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signal figures out what action should be taken when a signal is
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received and invokes the signal system call to set the signal ac-
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tion appropriately. When a signal that a user has set a trap for
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is caught, the routine "onsig" sets a flag. The routine dotrap
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is called at appropriate points to actually handle the signal.
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When an interrupt is caught and no trap has been set for that
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signal, the routine "onint" in error.c is called.
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OUTPUT: Ash uses it's own output routines. There are three out-
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put structures allocated. "Output" represents the standard out-
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put, "errout" the standard error, and "memout" contains output
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which is to be stored in memory. This last is used when a buil-
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tin command appears in backquotes, to allow its output to be col-
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lected without doing any I/O through the UNIX operating system.
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The variables out1 and out2 normally point to output and errout,
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respectively, but they are set to point to memout when appropri-
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ate inside backquotes.
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INPUT: The basic input routine is pgetc, which reads from the
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current input file. There is a stack of input files; the current
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input file is the top file on this stack. The code allows the
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input to come from a string rather than a file. (This is for the
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-c option and the "." and eval builtin commands.) The global
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variable plinno is saved and restored when files are pushed and
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popped from the stack. The parser routines store the number of
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the current line in this variable.
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DEBUGGING: If DEBUG is defined in shell.h, then the shell will
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write debugging information to the file $HOME/trace. Most of
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this is done using the TRACE macro, which takes a set of printf
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arguments inside two sets of parenthesis. Example:
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"TRACE(("n=%d0, n))". The double parenthesis are necessary be-
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cause the preprocessor can't handle functions with a variable
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number of arguments. Defining DEBUG also causes the shell to
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generate a core dump if it is sent a quit signal. The tracing
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code is in show.c.
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