/* ************************************************************************** */ /* */ /* ::: :::::::: */ /* exec.h :+: :+: :+: */ /* +:+ +:+ +:+ */ /* By: jhalford +#+ +:+ +#+ */ /* +#+#+#+#+#+ +#+ */ /* Created: 2016/11/27 20:29:56 by jhalford #+# #+# */ /* Updated: 2017/03/03 20:28:08 by wescande ### ########.fr */ /* */ /* ************************************************************************** */ #ifndef EXEC_H # define EXEC_H # define PIPE_READ 0 # define PIPE_WRITE 1 # define PROCESS_BUILTIN (1 << 0) # define PROCESS_BINARY (1 << 1) # define PROCESS_SCRIPT (1 << 2) # define PROCESS_SUBSHELL (1 << 3) # define PROCESS_UNKNOWN (1 << 4) # define PROCESS_COMPLETED (1 << 5) # define PROCESS_SUSPENDED (1 << 6) # define PROCESS_RUNNING (1 << 7) # define PROCESS_CONTINUED (1 << 8) # define PROCESS_TYPE_MASK (1 << 0 | 1 << 1 | 1 << 2 | 1 << 3 | 1 << 4) # define PROCESS_STATE_MASK (1 << 5 | 1 << 6 | 1 << 7 | 1 << 8) # define IS_PIPESTART(p) ((p).fdin == STDIN) # define IS_PIPEEND(p) ((p).fdout == STDOUT) # define IS_PIPESINGLE(p) (IS_PIPESTART(p) && IS_PIPEEND(p)) # define EXEC_BG (1 << 1) # define EXEC_AND_IF (1 << 2) # define EXEC_OR_IF (1 << 3) # define EXEC_IF_BRANCH (1 << 4) # define EXEC_CASE_BRANCH (1 << 5) # define EXEC_IS_BG(j) (j & EXEC_BG) # define EXEC_IS_FG(j) (!EXEC_IS_BG(j)) # define EXEC_IS_AND_IF(j) (j & EXEC_AND_IF) # define EXEC_IS_OR_IF(j) (j & EXEC_JOB_OR_IF) # define EXEC_AOL_MASK (EXEC_AND_IF | EXEC_OR_IF) # define EXEC_IS_IF_BRANCH(j) (j & EXEC_IF_BRANCH) # define EXEC_IS_CASE_BRANCH(j) (j & EXEC_CASE_BRANCH) # include "libft.h" # include "types.h" # include "job_control.h" struct s_process { char **av; char *path; t_execf *execf; pid_t pid; int fdin; int fdout; int to_close; t_list *redirs; int status; t_flag attributes; }; struct s_exec { /* char *aol_status; */ /* int aol_search; */ t_job job; /* t_process process; */ int fd_save[3]; t_flag attrs; int fdin; t_list *op_stack; char *case_pattern; }; struct s_execmap { t_type type; int (*f)(t_btree **ast); }; struct s_redirmap { t_flag type; int (*f)(t_redir *redir); }; #include "minishell.h" extern t_execmap g_execmap[]; extern t_redirmap g_redirmap[]; int ft_exec(t_btree **ast); int exec_default(t_btree **ast); int exec_semi(t_btree **ast); int exec_ampersand(t_btree **ast); int exec_or_if(t_btree **ast); int exec_and_if(t_btree **ast); int exec_pipe(t_btree **ast); /* int exec_redir(t_btree **ast); */ int exec_cmd(t_btree **ast); int exec_while(t_btree **ast); int exec_if(t_btree **ast); int exec_elif(t_btree **ast); int exec_else(t_btree **ast); int exec_until(t_btree **ast); int exec_default(t_btree **ast); int exec_var(t_btree **ast); int exec_for(t_btree **ast); int exec_case(t_btree **ast); int exec_case_branch(t_btree **ast); int launch_process(t_process *p); int process_setexec(t_process *p); int process_setgroup(t_process *p, pid_t pid); void process_setsig(void); void process_free(void *content, size_t content_size); void process_reset(t_process *p); void process_resetfds(void); int fd_is_valid(int fd); int bad_fd(int fd); int process_redirect(t_process *p); int redirect_great(t_redir *redir); int redirect_less(t_redir *redir); int redirect_dgreat(t_redir *redir); int redirect_dless(t_redir *redir); int redirect_greatand(t_redir *redir); int redirect_lessand(t_redir *redir); char *ft_findexec(char *path, char *file); void set_exitstatus(int status, int override); void ast_free(void *data, size_t content_size); void redir_free(void *data, size_t content_size); char **token_to_argv(t_ld *ld, int do_match); int add_new_job(t_job *job); #endif