shell/hush_doc.txt - busybox - Git at Google

 2008-07-14

 	Command parsing

 Command parsing results in a list of "pipe" structures.
 This list correspond not only to usual "pipe1 || pipe2 && pipe3"
 lists, but it also controls execution of if, while, etc statements.
 Every such statement is a list for hush. List consists of pipes.

 struct pipe fields:
   smallint res_word - "none" for normal commands,
                       "if" for if condition etc
   struct child_prog progs[] - array of commands in pipe
   smallint followup - how this pipe is related to next: is it
                       "pipe; pipe", "pipe & pipe" "pipe && pipe",
                       "pipe || pipe"?

 Blocks of commands { pipe; pipe; } and (pipe; pipe) are represented
 as one pipe struct with one progs[0] element which is a "group" -
 struct child_prog can contain a list of pipes. Sometimes these
 "groups" are created implicitly, e.g. every control
 statement (if, while, etc) sits inside its own group.

 res_word controls statement execution. Examples:

 "echo Hello" -
 pipe 0 res_word=NONE followup=SEQ prog[0] 'echo' 'Hello'
 pipe 1 res_word=NONE followup=SEQ

 "echo foo || echo bar" -
 pipe 0 res_word=NONE followup=OR  prog[0] 'echo' 'foo'
 pipe 1 res_word=NONE followup=SEQ prog[0] 'echo' 'bar'
 pipe 2 res_word=NONE followup=SEQ

 "if true; then echo Hello; true; fi" -
 res_word=NONE followup=SEQ
  prog 0 group {}:
   pipe 0 res_word=IF followup=SEQ prog[0] 'true'
   pipe 1 res_word=THEN followup=SEQ prog[0] 'echo' 'Hello'
   pipe 2 res_word=THEN followup=SEQ prog[0] 'true'
   pipe 3 res_word=FI followup=SEQ
   pipe 4 res_word=NONE followup=(null)
 pipe 1 res_word=NONE followup=SEQ

 Above you see that if is a list, and it sits in a {} group
 implicitly created by hush. Also note two THEN res_word's -
 it is explained below.

 "if true; then { echo Hello; true; }; fi" -
 pipe 0 res_word=NONE followup=SEQ
  prog 0 group {}:
   pipe 0 res_word=IF followup=SEQ prog[0] 'true'
   pipe 1 res_word=THEN followup=SEQ
    prog 0 group {}:
     pipe 0 res_word=NONE followup=SEQ prog[0] 'echo' 'Hello'
     pipe 1 res_word=NONE followup=SEQ prog[0] 'true'
     pipe 2 res_word=NONE followup=SEQ
   pipe 2 res_word=NONE followup=(null)
 pipe 1 res_word=NONE followup=SEQ

 "for v in a b; do echo $v; true; done" -
 pipe 0 res_word=NONE followup=SEQ
  prog 0 group {}:
   pipe 0 res_word=FOR followup=SEQ prog[0] 'v'
   pipe 1 res_word=IN followup=SEQ prog[0] 'a' 'b'
   pipe 2 res_word=DO followup=SEQ prog[0] 'echo' '$v'
   pipe 3 res_word=DO followup=SEQ prog[0] 'true'
   pipe 4 res_word=DONE followup=SEQ
   pipe 5 res_word=NONE followup=(null)
 pipe 1 res_word=NONE followup=SEQ

 Note how "THEN" and "DO" does not just mark the first pipe,
 it "sticks" to all pipes in the body. This is used when
 hush executes parsed pipes.

 Dummy trailing pipes with no commands are artifacts of imperfect
 parsing algorithm - done_pipe() appends new pipe struct beforehand
 and last one ends up empty and unused.

 "for" and "case" statements (ab)use progs[] to keep their data
 instead of argv vector progs[] usually do. "for" keyword is forcing
 pipe termination after first word, which makes hush see
 "for v in..." as "for v; in...". "case" keyword does the same.
 Other judiciuosly placed hacks make hush see
 "case word in a) cmd1;; b) cmd2;; esac" as if it was
 "case word; match a; cmd; match b; cmd2; esac"
 ("match" is a fictitious keyword here):

 "case word in a) cmd1;; b) cmd2; esac" -
 pipe 0 res_word=NONE followup=1 SEQ
  prog 0 group {}:
   pipe 0 res_word=CASE followup=SEQ prog[0] 'word'
   pipe 1 res_word=MATCH followup=SEQ prog[0] 'a'
   pipe 2 res_word=CASEI followup=SEQ prog[0] 'cmd1'
   pipe 3 res_word=MATCH followup=SEQ prog[0] 'b'
   pipe 4 res_word=CASEI followup=SEQ prog[0] 'cmd2'
   pipe 5 res_word=CASEI followup=SEQ prog[0] 'cmd3'
   pipe 6 res_word=ESAC followup=SEQ
   pipe 7 res_word=NONE followup=(null)
 pipe 1 res_word=NONE followup=SEQ


 2008-01

 	Command execution

 /* callsite: process_command_subs */
 generate_stream_from_list(struct pipe *head) - handles `cmds`
   create UNIX pipe
   [v]fork
   child:
   redirect pipe output to stdout
   _exit(run_list(head));   /* leaks memory */
   parent:
   return UNIX pipe's output fd
   /* head is freed by the caller */

 /* callsite: parse_and_run_stream */
 run_and_free_list(struct pipe *)
   run_list(struct pipe *)
   free_pipe_list(struct pipe *)

 /* callsites: generate_stream_from_list, run_and_free_list, pseudo_exec, run_pipe */
 run_list(struct pipe *) - handles "cmd; cmd2 && cmd3", while/for/do loops
   run_pipe - for every pipe in list

 /* callsite: run_list */
 run_pipe - runs "cmd1 | cmd2 | cmd3 [&]"
   run_list - used if only one cmd and it is of the form "{cmds;}"
   forks for every cmd if more than one cmd or if & is there
   pseudo_exec - runs each "cmdN" (handles builtins etc)

 /* callsite: run_pipe */
 pseudo_exec - runs "cmd" (handles builtins etc)
   exec - execs external programs
   run_list - used if cmdN is "(cmds)" or "{cmds;}"
   /* problem: putenv's malloced strings into environ -
   ** with vfork they will leak into parent process
   */
   /* problem with ENABLE_FEATURE_SH_STANDALONE:
   ** run_applet_no_and_exit(a, argv) uses exit - this can interfere
   ** with vfork - switch to _exit there?
   */
	2008-07-14

	Command parsing

	Command parsing results in a list of "pipe" structures.
	This list correspond not only to usual "pipe1 \|\| pipe2 && pipe3"
	lists, but it also controls execution of if, while, etc statements.
	Every such statement is a list for hush. List consists of pipes.

	struct pipe fields:
	smallint res_word - "none" for normal commands,
	"if" for if condition etc
	struct child_prog progs[] - array of commands in pipe
	smallint followup - how this pipe is related to next: is it
	"pipe; pipe", "pipe & pipe" "pipe && pipe",
	"pipe \|\| pipe"?

	Blocks of commands { pipe; pipe; } and (pipe; pipe) are represented
	as one pipe struct with one progs[0] element which is a "group" -
	struct child_prog can contain a list of pipes. Sometimes these
	"groups" are created implicitly, e.g. every control
	statement (if, while, etc) sits inside its own group.

	res_word controls statement execution. Examples:

	"echo Hello" -
	pipe 0 res_word=NONE followup=SEQ prog[0] 'echo' 'Hello'
	pipe 1 res_word=NONE followup=SEQ

	"echo foo \|\| echo bar" -
	pipe 0 res_word=NONE followup=OR prog[0] 'echo' 'foo'
	pipe 1 res_word=NONE followup=SEQ prog[0] 'echo' 'bar'
	pipe 2 res_word=NONE followup=SEQ

	"if true; then echo Hello; true; fi" -
	res_word=NONE followup=SEQ
	prog 0 group {}:
	pipe 0 res_word=IF followup=SEQ prog[0] 'true'
	pipe 1 res_word=THEN followup=SEQ prog[0] 'echo' 'Hello'
	pipe 2 res_word=THEN followup=SEQ prog[0] 'true'
	pipe 3 res_word=FI followup=SEQ
	pipe 4 res_word=NONE followup=(null)
	pipe 1 res_word=NONE followup=SEQ

	Above you see that if is a list, and it sits in a {} group
	implicitly created by hush. Also note two THEN res_word's -
	it is explained below.

	"if true; then { echo Hello; true; }; fi" -
	pipe 0 res_word=NONE followup=SEQ
	prog 0 group {}:
	pipe 0 res_word=IF followup=SEQ prog[0] 'true'
	pipe 1 res_word=THEN followup=SEQ
	prog 0 group {}:
	pipe 0 res_word=NONE followup=SEQ prog[0] 'echo' 'Hello'
	pipe 1 res_word=NONE followup=SEQ prog[0] 'true'
	pipe 2 res_word=NONE followup=SEQ
	pipe 2 res_word=NONE followup=(null)
	pipe 1 res_word=NONE followup=SEQ

	"for v in a b; do echo $v; true; done" -
	pipe 0 res_word=NONE followup=SEQ
	prog 0 group {}:
	pipe 0 res_word=FOR followup=SEQ prog[0] 'v'
	pipe 1 res_word=IN followup=SEQ prog[0] 'a' 'b'
	pipe 2 res_word=DO followup=SEQ prog[0] 'echo' '$v'
	pipe 3 res_word=DO followup=SEQ prog[0] 'true'
	pipe 4 res_word=DONE followup=SEQ
	pipe 5 res_word=NONE followup=(null)
	pipe 1 res_word=NONE followup=SEQ

	Note how "THEN" and "DO" does not just mark the first pipe,
	it "sticks" to all pipes in the body. This is used when
	hush executes parsed pipes.

	Dummy trailing pipes with no commands are artifacts of imperfect
	parsing algorithm - done_pipe() appends new pipe struct beforehand
	and last one ends up empty and unused.

	"for" and "case" statements (ab)use progs[] to keep their data
	instead of argv vector progs[] usually do. "for" keyword is forcing
	pipe termination after first word, which makes hush see
	"for v in..." as "for v; in...". "case" keyword does the same.
	Other judiciuosly placed hacks make hush see
	"case word in a) cmd1;; b) cmd2;; esac" as if it was
	"case word; match a; cmd; match b; cmd2; esac"
	("match" is a fictitious keyword here):

	"case word in a) cmd1;; b) cmd2; esac" -
	pipe 0 res_word=NONE followup=1 SEQ
	prog 0 group {}:
	pipe 0 res_word=CASE followup=SEQ prog[0] 'word'
	pipe 1 res_word=MATCH followup=SEQ prog[0] 'a'
	pipe 2 res_word=CASEI followup=SEQ prog[0] 'cmd1'
	pipe 3 res_word=MATCH followup=SEQ prog[0] 'b'
	pipe 4 res_word=CASEI followup=SEQ prog[0] 'cmd2'
	pipe 5 res_word=CASEI followup=SEQ prog[0] 'cmd3'
	pipe 6 res_word=ESAC followup=SEQ
	pipe 7 res_word=NONE followup=(null)
	pipe 1 res_word=NONE followup=SEQ


	2008-01

	Command execution

	/* callsite: process_command_subs */
	generate_stream_from_list(struct pipe *head) - handles `cmds`
	create UNIX pipe
	[v]fork
	child:
	redirect pipe output to stdout
	_exit(run_list(head)); /* leaks memory */
	parent:
	return UNIX pipe's output fd
	/* head is freed by the caller */

	/* callsite: parse_and_run_stream */
	run_and_free_list(struct pipe *)
	run_list(struct pipe *)
	free_pipe_list(struct pipe *)

	/* callsites: generate_stream_from_list, run_and_free_list, pseudo_exec, run_pipe */
	run_list(struct pipe *) - handles "cmd; cmd2 && cmd3", while/for/do loops
	run_pipe - for every pipe in list

	/* callsite: run_list */
	run_pipe - runs "cmd1 \| cmd2 \| cmd3 [&]"
	run_list - used if only one cmd and it is of the form "{cmds;}"
	forks for every cmd if more than one cmd or if & is there
	pseudo_exec - runs each "cmdN" (handles builtins etc)

	/* callsite: run_pipe */
	pseudo_exec - runs "cmd" (handles builtins etc)
	exec - execs external programs
	run_list - used if cmdN is "(cmds)" or "{cmds;}"
	/* problem: putenv's malloced strings into environ -
	** with vfork they will leak into parent process
	*/
	/* problem with ENABLE_FEATURE_SH_STANDALONE:
	** run_applet_no_and_exit(a, argv) uses exit - this can interfere
	** with vfork - switch to _exit there?
	*/