#include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include /* needed to include args.h */ #define ARG_COUNTABLE 0x00000001 #define ARG_GROUPABLE 0x00000002 struct cmd_context; struct arg_values; int yes_no_arg(struct cmd_context *cmd, struct arg_values *av) { return 0; } int activation_arg(struct cmd_context *cmd, struct arg_values *av) { return 0; } int cachemode_arg(struct cmd_context *cmd, struct arg_values *av) { return 0; } int discards_arg(struct cmd_context *cmd, struct arg_values *av) { return 0; } int mirrorlog_arg(struct cmd_context *cmd, struct arg_values *av) { return 0; } int size_kb_arg(struct cmd_context *cmd, struct arg_values *av) { return 0; } int size_mb_arg(struct cmd_context *cmd, struct arg_values *av) { return 0; } int size_mb_arg_with_percent(struct cmd_context *cmd, struct arg_values *av) { return 0; } int int_arg(struct cmd_context *cmd, struct arg_values *av) { return 0; } int int_arg_with_sign(struct cmd_context *cmd, struct arg_values *av) { return 0; } int int_arg_with_sign_and_percent(struct cmd_context *cmd, struct arg_values *av) { return 0; } int major_arg(struct cmd_context *cmd, struct arg_values *av) { return 0; } int minor_arg(struct cmd_context *cmd, struct arg_values *av) { return 0; } int string_arg(struct cmd_context *cmd, struct arg_values *av) { return 0; } int tag_arg(struct cmd_context *cmd, struct arg_values *av) { return 0; } int permission_arg(struct cmd_context *cmd, struct arg_values *av) { return 0; } int metadatatype_arg(struct cmd_context *cmd, struct arg_values *av) { return 0; } int units_arg(struct cmd_context *cmd, struct arg_values *av) { return 0; } int segtype_arg(struct cmd_context *cmd, struct arg_values *av) { return 0; } int alloc_arg(struct cmd_context *cmd, struct arg_values *av) { return 0; } int locktype_arg(struct cmd_context *cmd, struct arg_values *av) { return 0; } int readahead_arg(struct cmd_context *cmd, struct arg_values *av) { return 0; } int vgmetadatacopies_arg(struct cmd_context *cmd __attribute__((unused)), struct arg_values *av) { return 0; } int pvmetadatacopies_arg(struct cmd_context *cmd __attribute__((unused)), struct arg_values *av) { return 0; } int metadatacopies_arg(struct cmd_context *cmd __attribute__((unused)), struct arg_values *av) { return 0; } int polloperation_arg(struct cmd_context *cmd __attribute__((unused)), struct arg_values *av) { return 0; } int writemostly_arg(struct cmd_context *cmd __attribute__((unused)), struct arg_values *av) { return 0; } int syncaction_arg(struct cmd_context *cmd __attribute__((unused)), struct arg_values *av) { return 0; } int reportformat_arg(struct cmd_context *cmd __attribute__((unused)), struct arg_values *av) { return 0; } int configreport_arg(struct cmd_context *cmd __attribute__((unused)), struct arg_values *av) { return 0; } int configtype_arg(struct cmd_context *cmd __attribute__((unused)), struct arg_values *av) { return 0; } /* also see arg_props in tools.h and args.h */ struct opt_name { const char *name; /* "foo_ARG" */ int opt_enum; /* foo_ARG */ const char short_opt; /* -f */ char _padding[7]; const char *long_opt; /* --foo */ int val_enum; /* xyz_VAL when --foo takes a val like "--foo xyz" */ uint32_t unused1; uint32_t unused2; }; /* also see val_props in tools.h and vals.h */ struct val_name { const char *enum_name; /* "foo_VAL" */ int val_enum; /* foo_VAL */ int (*fn) (struct cmd_context *cmd, struct arg_values *av); /* foo_arg() */ const char *name; /* FooVal */ const char *usage; }; /* also see lv_props in tools.h and lv_props.h */ struct lvp_name { const char *enum_name; /* "is_foo_LVP" */ int lvp_enum; /* is_foo_LVP */ const char *name; /* "lv_is_foo" */ }; /* also see lv_types in tools.h and lv_types.h */ struct lvt_name { const char *enum_name; /* "foo_LVT" */ int lvt_enum; /* foo_LVT */ const char *name; /* "foo" */ }; /* create foo_VAL enums for option and position values */ enum { #define val(a, b, c, d) a , #include "vals.h" #undef val }; /* create foo_ARG enums for --option's */ enum { #define arg(a, b, c, d, e, f) a , #include "args.h" #undef arg }; /* create foo_LVP enums for LV properties */ enum { #define lvp(a, b, c) a, #include "lv_props.h" #undef lvp }; /* create foo_LVT enums for LV types */ enum { #define lvt(a, b, c) a, #include "lv_types.h" #undef lvt }; /* create table of value names, e.g. String, and corresponding enum from vals.h */ static struct val_name val_names[VAL_COUNT + 1] = { #define val(a, b, c, d) { # a, a, b, c, d }, #include "vals.h" #undef val }; /* create table of option names, e.g. --foo, and corresponding enum from args.h */ static struct opt_name opt_names[ARG_COUNT + 1] = { #define arg(a, b, c, d, e, f) { # a, a, b, "", "--" c, d, e, f }, #include "args.h" #undef arg }; /* create table of lv property names, e.g. lv_is_foo, and corresponding enum from lv_props.h */ static struct lvp_name lvp_names[LVP_COUNT + 1] = { #define lvp(a, b, c) { # a, a, b }, #include "lv_props.h" #undef lvp }; /* create table of lv type names, e.g. linear and corresponding enum from lv_types.h */ static struct lvt_name lvt_names[LVT_COUNT + 1] = { #define lvt(a, b, c) { # a, a, b }, #include "lv_types.h" #undef lvt }; #include "command.h" #define MAX_CMD_NAMES 128 struct cmd_name { const char *name; const char *desc; int common_options[ARG_COUNT + 1]; int all_options[ARG_COUNT + 1]; int variants; int variant_has_ro; int variant_has_rp; int variant_has_oo; int variant_has_op; }; /* create table of command names, e.g. vgcreate */ static struct cmd_name cmd_names[MAX_CMD_NAMES] = { #define xx(a, b, c) { # a , b } , #include "commands.h" #undef xx }; #define MAX_LINE 1024 #define MAX_LINE_ARGC 256 #define REQUIRED 1 /* required option */ #define OPTIONAL 0 /* optional option */ #define IGNORE -1 /* ignore option */ struct oo_line { char *name; char *line; }; #define MAX_CMDS 256 int cmd_count; struct command cmd_array[MAX_CMDS]; struct command lvm_all; /* for printing common options for all lvm commands */ #define MAX_OO_LINES 256 int oo_line_count; struct oo_line oo_lines[MAX_OO_LINES]; static int include_man_secondary = 1; static int include_man_primary = 1; static char *man_command_name = NULL; static void add_optional_opt_line(struct command *cmd, int argc, char *argv[]); /* * modifies buf, replacing the sep characters with \0 * argv pointers point to positions in buf */ static char *split_line(char *buf, int *argc, char **argv, char sep) { char *p = buf, *rp = NULL; int i; argv[0] = p; for (i = 1; i < MAX_LINE_ARGC; i++) { p = strchr(buf, sep); if (!p) break; *p = '\0'; argv[i] = p + 1; buf = p + 1; } *argc = i; /* we ended by hitting \0, return the point following that */ if (!rp) rp = strchr(buf, '\0') + 1; return rp; } /* convert value string, e.g. Number, to foo_VAL enum */ static int val_str_to_num(char *str) { char name[32] = { 0 }; char *new; int i; /* compare the name before any suffix like _new or _ */ strncpy(name, str, 31); if ((new = strstr(name, "_"))) *new = '\0'; for (i = 0; i < VAL_COUNT; i++) { if (!val_names[i].name) break; if (!strncmp(name, val_names[i].name, strlen(val_names[i].name))) return val_names[i].val_enum; } return 0; } /* convert "--option" to foo_ARG enum */ static int opt_str_to_num(char *str) { char long_name[32]; char *p; int i; /* * --foo_long means there are two args entries * for --foo, one with a short option and one * without, and we want the one without the * short option. */ if (strstr(str, "_long")) { strcpy(long_name, str); p = strstr(long_name, "_long"); *p = '\0'; for (i = 0; i < ARG_COUNT; i++) { if (!opt_names[i].long_opt) continue; /* skip anything with a short opt */ if (opt_names[i].short_opt) continue; if (!strcmp(opt_names[i].long_opt, long_name)) return opt_names[i].opt_enum; } printf("Unknown opt str: %s %s\n", str, long_name); exit(1); } for (i = 0; i < ARG_COUNT; i++) { if (!opt_names[i].long_opt) continue; /* These are only selected using --foo_long */ if (strstr(opt_names[i].name, "_long_ARG")) continue; if (!strcmp(opt_names[i].long_opt, str)) return opt_names[i].opt_enum; } printf("Unknown opt str: \"%s\"\n", str); exit(1); } static char *val_bits_to_str(uint64_t val_bits) { static char buf[1024]; int i; int or = 0; memset(buf, 0, sizeof(buf)); for (i = 0; i < VAL_COUNT; i++) { if (val_bits & val_enum_to_bit(i)) { if (or) strcat(buf, " | "); strcat(buf, "val_enum_to_bit("); strcat(buf, val_names[i].enum_name); strcat(buf, ")"); or = 1; } } return buf; } /* * When bits for foo_LVP and bar_LVP are both set in bits, print: * lvp_enum_to_bit(foo_LVP) | lvp_enum_to_bit(bar_LVP) */ static char *lvp_bits_to_str(uint64_t bits) { static char lvp_buf[1024]; int i; int or = 0; memset(lvp_buf, 0, sizeof(lvp_buf)); for (i = 0; i < LVP_COUNT; i++) { if (bits & lvp_enum_to_bit(i)) { if (or) strcat(lvp_buf, " | "); strcat(lvp_buf, "lvp_enum_to_bit("); strcat(lvp_buf, lvp_names[i].enum_name); strcat(lvp_buf, ")"); or = 1; } } return lvp_buf; } /* * When bits for foo_LVT and bar_LVT are both set in bits, print: * lvt_enum_to_bit(foo_LVT) | lvt_enum_to_bit(bar_LVT) */ static char *lvt_bits_to_str(uint64_t bits) { static char lvt_buf[1024]; int i; int or = 0; memset(lvt_buf, 0, sizeof(lvt_buf)); for (i = 1; i < LVT_COUNT; i++) { if (bits & lvt_enum_to_bit(i)) { if (or) strcat(lvt_buf, " | "); strcat(lvt_buf, "lvt_enum_to_bit("); strcat(lvt_buf, lvt_names[i].enum_name); strcat(lvt_buf, ")"); or = 1; } } return lvt_buf; } /* "lv_is_prop" to is_prop_LVP */ static int lvp_name_to_enum(char *str) { int i; for (i = 1; i < LVP_COUNT; i++) { if (!strcmp(str, lvp_names[i].name)) return lvp_names[i].lvp_enum; } printf("unknown lv property %s\n", str); exit(1); } /* type_LVT to "type" */ static const char *lvt_enum_to_name(int lvt_enum) { return lvt_names[lvt_enum].name; } /* "type" to type_LVT */ static int lvt_name_to_enum(char *str) { int i; for (i = 1; i < LVT_COUNT; i++) { if (!strcmp(str, lvt_names[i].name)) return lvt_names[i].lvt_enum; } printf("unknown lv type %s\n", str); exit(1); } /* LV_ to _LVT */ int lv_to_enum(char *name) { return lvt_name_to_enum(name + 3); } /* * LV__ to lvt_bits * * type1 to lvt_enum * lvt_bits |= lvt_enum_to_bit(lvt_enum) * type2 to lvt_enum * lvt_bits |= lvt_enum_to_bit(lvt_enum) */ uint64_t lv_to_bits(char *name) { char buf[64]; char *argv[MAX_LINE_ARGC]; uint64_t lvt_bits = 0; int lvt_enum; int argc; int i; strcpy(buf, name); split_line(buf, &argc, argv, '_'); /* 0 is "LV" */ for (i = 1; i < argc; i++) { if (!strcmp(argv[i], "new")) continue; lvt_enum = lvt_name_to_enum(argv[i]); lvt_bits |= lvt_enum_to_bit(lvt_enum); } return lvt_bits; } static const char *is_command_name(char *str) { int i; for (i = 0; i < MAX_CMD_NAMES; i++) { if (!cmd_names[i].name) break; if (!strcmp(cmd_names[i].name, str)) return cmd_names[i].name; } return NULL; } static const char *cmd_name_desc(const char *name) { int i; for (i = 0; i < MAX_CMD_NAMES; i++) { if (!cmd_names[i].name) break; if (!strcmp(cmd_names[i].name, name)) return cmd_names[i].desc; } return NULL; } static struct cmd_name *find_command_name(const char *str) { int i; for (i = 0; i < MAX_CMD_NAMES; i++) { if (!cmd_names[i].name) break; if (!strcmp(cmd_names[i].name, str)) return &cmd_names[i]; } return NULL; } static int is_opt_name(char *str) { if (!strncmp(str, "--", 2)) return 1; if ((str[0] == '-') && (str[1] != '-')) { printf("Options must be specified in long form: %s\n", str); exit(1); } return 0; } /* * "Select" as a pos name means that the position * can be empty if the --select option is used. */ static int is_pos_name(char *str) { if (!strncmp(str, "VG", 2)) return 1; if (!strncmp(str, "LV", 2)) return 1; if (!strncmp(str, "PV", 2)) return 1; if (!strncmp(str, "Tag", 3)) return 1; if (!strncmp(str, "String", 6)) return 1; if (!strncmp(str, "Select", 6)) return 1; return 0; } static int is_oo_definition(char *str) { if (!strncmp(str, "OO_", 3) && strstr(str, ":")) return 1; return 0; } static int is_oo_line(char *str) { if (!strncmp(str, "OO:", 3)) return 1; return 0; } static int is_io_line(char *str) { if (!strncmp(str, "IO:", 3)) return 1; return 0; } static int is_op_line(char *str) { if (!strncmp(str, "OP:", 3)) return 1; return 0; } static int is_desc_line(char *str) { if (!strncmp(str, "DESC:", 5)) return 1; return 0; } static int is_flags_line(char *str) { if (!strncmp(str, "FLAGS:", 6)) return 1; return 0; } static int is_rule_line(char *str) { if (!strncmp(str, "RULE:", 5)) return 1; return 0; } static int is_id_line(char *str) { if (!strncmp(str, "ID:", 3)) return 1; return 0; } /* * parse str for anything that can appear in a position, * like VG, VG|LV, VG|LV_linear|LV_striped, etc */ static void set_pos_def(struct command *cmd, char *str, struct arg_def *def) { char *argv[MAX_LINE_ARGC]; int argc; char *name; int val_enum; int i; split_line(str, &argc, argv, '|'); for (i = 0; i < argc; i++) { name = argv[i]; val_enum = val_str_to_num(name); if (!val_enum) { printf("Unknown pos arg: %s\n", name); exit(1); } def->val_bits |= val_enum_to_bit(val_enum); if ((val_enum == lv_VAL) && strstr(name, "_")) def->lvt_bits = lv_to_bits(name); if (strstr(name, "_new")) { if (val_enum == lv_VAL) def->flags |= ARG_DEF_FLAG_NEW_LV; else if (val_enum == vg_VAL) def->flags |= ARG_DEF_FLAG_NEW_VG; } } } /* * parse str for anything that can follow --option */ static void set_opt_def(struct command *cmd, char *str, struct arg_def *def) { char *argv[MAX_LINE_ARGC]; int argc; char *name; int val_enum; int i, j; split_line(str, &argc, argv, '|'); for (i = 0; i < argc; i++) { name = argv[i]; val_enum = val_str_to_num(name); if (!val_enum) { /* a literal number or string */ if (isdigit(name[0])) val_enum = constnum_VAL; else if (isalpha(name[0])) val_enum = conststr_VAL; else { printf("Unknown opt arg: %s\n", name); exit(0); } } def->val_bits |= val_enum_to_bit(val_enum); if (val_enum == constnum_VAL) def->num = (uint64_t)atoi(name); if (val_enum == conststr_VAL) def->str = strdup(name); if (val_enum == lv_VAL) { if (strstr(name, "_")) def->lvt_bits = lv_to_bits(name); } if (strstr(name, "_new")) { if (val_enum == lv_VAL) def->flags |= ARG_DEF_FLAG_NEW_LV; else if (val_enum == vg_VAL) def->flags |= ARG_DEF_FLAG_NEW_VG; } } } /* * OO_FOO: --opt1 ... * * oo->name = "OO_FOO"; * oo->line = "--opt1 ..."; */ static void add_oo_definition_line(const char *name, const char *line) { struct oo_line *oo; char *colon; char *start; oo = &oo_lines[oo_line_count++]; oo->name = strdup(name); if ((colon = strstr(oo->name, ":"))) *colon = '\0'; else { printf("invalid OO definition\n"); exit(1); } start = strstr(line, ":") + 2; oo->line = strdup(start); } /* when OO_FOO: continues on multiple lines */ static void append_oo_definition_line(const char *new_line) { struct oo_line *oo; char *old_line; char *line; int len; oo = &oo_lines[oo_line_count-1]; old_line = oo->line; /* +2 = 1 space between old and new + 1 terminating \0 */ len = strlen(old_line) + strlen(new_line) + 2; line = malloc(len); memset(line, 0, len); strcat(line, old_line); strcat(line, " "); strcat(line, new_line); free(oo->line); oo->line = line; } char *get_oo_line(char *str) { char *name; char *end; char str2[64]; int i; strcpy(str2, str); if ((end = strstr(str2, ":"))) *end = '\0'; if ((end = strstr(str2, ","))) *end = '\0'; for (i = 0; i < oo_line_count; i++) { name = oo_lines[i].name; if (!strcmp(name, str2)) return oo_lines[i].line; } return NULL; } /* add optional_opt_args entries when OO_FOO appears on OO: line */ static void include_optional_opt_args(struct command *cmd, char *str) { char *oo_line; char *line; char *line_argv[MAX_LINE_ARGC]; int line_argc; if (!(oo_line = get_oo_line(str))) { printf("No OO line found for %s\n", str); exit(1); } if (!(line = strdup(oo_line))) exit(1); split_line(line, &line_argc, line_argv, ' '); add_optional_opt_line(cmd, line_argc, line_argv); free(line); } static void add_opt_arg(struct command *cmd, char *str, int *takes_arg, int required) { char *comma; int opt; /* opt_arg.opt set here */ /* opt_arg.def will be set in update_prev_opt_arg() if needed */ if ((comma = strstr(str, ","))) *comma = '\0'; /* * Work around nasty hack where --uuid is used for both uuid_ARG * and uuidstr_ARG. The input uses --uuidstr, where an actual * command uses --uuid string. */ if (!strcmp(str, "--uuidstr")) { opt = uuidstr_ARG; goto skip; } opt = opt_str_to_num(str); skip: if (required > 0) cmd->required_opt_args[cmd->ro_count++].opt = opt; else if (!required) cmd->optional_opt_args[cmd->oo_count++].opt = opt; else if (required < 0) cmd->ignore_opt_args[cmd->io_count++].opt = opt; else exit(1); *takes_arg = opt_names[opt].val_enum ? 1 : 0; } static void update_prev_opt_arg(struct command *cmd, char *str, int required) { struct arg_def def = { 0 }; char *comma; if (str[0] == '-') { printf("Option %s must be followed by an arg.\n", str); exit(1); } /* opt_arg.def set here */ /* opt_arg.opt was previously set in add_opt_arg() when --foo was read */ if ((comma = strstr(str, ","))) *comma = '\0'; set_opt_def(cmd, str, &def); if (required > 0) cmd->required_opt_args[cmd->ro_count-1].def = def; else if (!required) cmd->optional_opt_args[cmd->oo_count-1].def = def; else if (required < 0) cmd->ignore_opt_args[cmd->io_count-1].def = def; else exit(1); } static void add_pos_arg(struct command *cmd, char *str, int required) { struct arg_def def = { 0 }; /* pos_arg.pos and pos_arg.def are set here */ set_pos_def(cmd, str, &def); if (required) { cmd->required_pos_args[cmd->rp_count].pos = cmd->pos_count++; cmd->required_pos_args[cmd->rp_count].def = def; cmd->rp_count++; } else { cmd->optional_pos_args[cmd->op_count].pos = cmd->pos_count++;; cmd->optional_pos_args[cmd->op_count].def = def; cmd->op_count++; } } /* process something that follows a pos arg, which is not a new pos arg */ static void update_prev_pos_arg(struct command *cmd, char *str, int required) { struct arg_def *def; /* a previous pos_arg.def is modified here */ if (required) def = &cmd->required_pos_args[cmd->rp_count-1].def; else def = &cmd->optional_pos_args[cmd->op_count-1].def; if (!strcmp(str, "...")) def->flags |= ARG_DEF_FLAG_MAY_REPEAT; else { printf("Unknown pos arg: %s\n", str); exit(1); } } /* process what follows OO:, which are optional opt args */ static void add_optional_opt_line(struct command *cmd, int argc, char *argv[]) { int takes_arg; int i; for (i = 0; i < argc; i++) { if (!i && !strncmp(argv[i], "OO:", 3)) continue; if (is_opt_name(argv[i])) add_opt_arg(cmd, argv[i], &takes_arg, OPTIONAL); else if (!strncmp(argv[i], "OO_", 3)) include_optional_opt_args(cmd, argv[i]); else if (takes_arg) update_prev_opt_arg(cmd, argv[i], OPTIONAL); else printf("Can't parse argc %d argv %s prev %s\n", i, argv[i], argv[i-1]); } } static void add_ignore_opt_line(struct command *cmd, int argc, char *argv[]) { int takes_arg; int i; for (i = 0; i < argc; i++) { if (!i && !strncmp(argv[i], "IO:", 3)) continue; if (is_opt_name(argv[i])) add_opt_arg(cmd, argv[i], &takes_arg, IGNORE); else if (takes_arg) update_prev_opt_arg(cmd, argv[i], IGNORE); else printf("Can't parse argc %d argv %s prev %s\n", i, argv[i], argv[i-1]); } } /* process what follows OP:, which are optional pos args */ static void add_optional_pos_line(struct command *cmd, int argc, char *argv[]) { int i; for (i = 0; i < argc; i++) { if (!i && !strncmp(argv[i], "OP:", 3)) continue; if (is_pos_name(argv[i])) add_pos_arg(cmd, argv[i], OPTIONAL); else update_prev_pos_arg(cmd, argv[i], OPTIONAL); } } /* add required opt args from OO_FOO definition */ static void add_required_opt_line(struct command *cmd, int argc, char *argv[]) { int takes_arg; int i; for (i = 0; i < argc; i++) { if (is_opt_name(argv[i])) add_opt_arg(cmd, argv[i], &takes_arg, REQUIRED); else if (takes_arg) update_prev_opt_arg(cmd, argv[i], REQUIRED); else printf("Can't parse argc %d argv %s prev %s\n", i, argv[i], argv[i-1]); } } /* add to required_opt_args when OO_FOO appears on required line */ static void include_required_opt_args(struct command *cmd, char *str) { char *oo_line; char *line; char *line_argv[MAX_LINE_ARGC]; int line_argc; if (!(oo_line = get_oo_line(str))) { printf("No OO line found for %s\n", str); exit(1); } if (!(line = strdup(oo_line))) exit(1); split_line(line, &line_argc, line_argv, ' '); add_required_opt_line(cmd, line_argc, line_argv); free(line); } /* process what follows command_name, which are required opt/pos args */ static void add_required_line(struct command *cmd, int argc, char *argv[]) { int i; int takes_arg; int prev_was_opt = 0, prev_was_pos = 0; /* argv[0] is command name */ for (i = 1; i < argc; i++) { if (is_opt_name(argv[i])) { add_opt_arg(cmd, argv[i], &takes_arg, REQUIRED); prev_was_opt = 1; prev_was_pos = 0; } else if (prev_was_opt && takes_arg) { update_prev_opt_arg(cmd, argv[i], REQUIRED); prev_was_opt = 0; prev_was_pos = 0; } else if (is_pos_name(argv[i])) { add_pos_arg(cmd, argv[i], REQUIRED); prev_was_opt = 0; prev_was_pos = 1; } else if (!strncmp(argv[i], "OO_", 3)) { cmd->cmd_flags |= CMD_FLAG_ONE_REQUIRED_OPT; include_required_opt_args(cmd, argv[i]); } else if (prev_was_pos) { update_prev_pos_arg(cmd, argv[i], REQUIRED); } else printf("Can't parse argc %d argv %s prev %s\n", i, argv[i], argv[i-1]); } } static void print_def(struct arg_def *def, int usage) { int val_enum; int lvt_enum; int sep = 0; int i; for (val_enum = 0; val_enum < VAL_COUNT; val_enum++) { if (def->val_bits & val_enum_to_bit(val_enum)) { if (val_enum == conststr_VAL) printf("%s", def->str); else if (val_enum == constnum_VAL) printf("%llu", (unsigned long long)def->num); else { if (sep) printf("|"); if (!usage || !val_names[val_enum].usage) printf("%s", val_names[val_enum].name); else printf("%s", val_names[val_enum].usage); sep = 1; } if (val_enum == lv_VAL && def->lvt_bits) { for (lvt_enum = 1; lvt_enum < LVT_COUNT; lvt_enum++) { if (lvt_bit_is_set(def->lvt_bits, lvt_enum)) printf("_%s", lvt_enum_to_name(lvt_enum)); } } if ((val_enum == vg_VAL) && (def->flags & ARG_DEF_FLAG_NEW_VG)) printf("_new"); if ((val_enum == lv_VAL) && (def->flags & ARG_DEF_FLAG_NEW_LV)) printf("_new"); } } if (def->flags & ARG_DEF_FLAG_MAY_REPEAT) printf(" ..."); } void print_expanded(void) { struct command *cmd; int onereq; int i, ro, rp, oo, op; for (i = 0; i < cmd_count; i++) { cmd = &cmd_array[i]; printf("%s", cmd->name); onereq = (cmd->cmd_flags & CMD_FLAG_ONE_REQUIRED_OPT) ? 1 : 0; if (cmd->ro_count) { if (onereq) printf(" ("); for (ro = 0; ro < cmd->ro_count; ro++) { if (ro && onereq) printf(","); printf(" %s", opt_names[cmd->required_opt_args[ro].opt].long_opt); if (cmd->required_opt_args[ro].def.val_bits) { printf(" "); print_def(&cmd->required_opt_args[ro].def, 0); } } if (onereq) printf(" )"); } if (cmd->rp_count) { for (rp = 0; rp < cmd->rp_count; rp++) { if (cmd->required_pos_args[rp].def.val_bits) { printf(" "); print_def(&cmd->required_pos_args[rp].def, 0); } } } if (cmd->oo_count) { printf("\n"); printf("OO:"); for (oo = 0; oo < cmd->oo_count; oo++) { if (oo) printf(","); printf(" %s", opt_names[cmd->optional_opt_args[oo].opt].long_opt); if (cmd->optional_opt_args[oo].def.val_bits) { printf(" "); print_def(&cmd->optional_opt_args[oo].def, 0); } } } if (cmd->op_count) { printf("\n"); printf("OP:"); for (op = 0; op < cmd->op_count; op++) { if (cmd->optional_pos_args[op].def.val_bits) { printf(" "); print_def(&cmd->optional_pos_args[op].def, 0); } } } printf("\n\n"); } } static int opt_arg_matches(struct opt_arg *oa1, struct opt_arg *oa2) { if (oa1->opt != oa2->opt) return 0; /* FIXME: some cases may need more specific val_bits checks */ if (oa1->def.val_bits != oa2->def.val_bits) return 0; if (oa1->def.str && oa2->def.str && strcmp(oa1->def.str, oa2->def.str)) return 0; if (oa1->def.num != oa2->def.num) return 0; /* * Do NOT compare lv_types because we are checking if two * command lines are ambiguous before the LV type is known. */ return 1; } static int pos_arg_matches(struct pos_arg *pa1, struct pos_arg *pa2) { if (pa1->pos != pa2->pos) return 0; /* FIXME: some cases may need more specific val_bits checks */ if (pa1->def.val_bits != pa2->def.val_bits) return 0; if (pa1->def.str && pa2->def.str && strcmp(pa1->def.str, pa2->def.str)) return 0; if (pa1->def.num != pa2->def.num) return 0; /* * Do NOT compare lv_types because we are checking if two * command lines are ambiguous before the LV type is known. */ return 1; } static const char *opt_to_enum_str(int opt) { return opt_names[opt].name; } static char *flags_to_str(int flags) { static char buf_flags[32]; memset(buf_flags, 0, sizeof(buf_flags)); if (flags & ARG_DEF_FLAG_MAY_REPEAT) { if (buf_flags[0]) strcat(buf_flags, " | "); strcat(buf_flags, "ARG_DEF_FLAG_MAY_REPEAT"); } if (flags & ARG_DEF_FLAG_NEW_VG) { if (buf_flags[0]) strcat(buf_flags, " | "); strcat(buf_flags, "ARG_DEF_FLAG_NEW_VG"); } if (flags & ARG_DEF_FLAG_NEW_LV) { if (buf_flags[0]) strcat(buf_flags, " | "); strcat(buf_flags, "ARG_DEF_FLAG_NEW_LV"); } return buf_flags; } static void add_flags(struct command *cmd, char *line) { if (strstr(line, "SECONDARY_SYNTAX")) cmd->cmd_flags |= CMD_FLAG_SECONDARY_SYNTAX; } #define MAX_RULE_OPTS 64 static void add_rule(struct command *cmd, char *line) { struct cmd_rule *rule; char *line_argv[MAX_LINE_ARGC]; char *arg; int line_argc; int i, lvt_enum, lvp_enum; int check = 0; if (cmd->rule_count == CMD_MAX_RULES) { printf("too many rules for cmd\n"); exit(1); } rule = &cmd->rules[cmd->rule_count++]; split_line(line, &line_argc, line_argv, ' '); for (i = 0; i < line_argc; i++) { arg = line_argv[i]; if (!strcmp(arg, "not")) { rule->rule = RULE_INVALID; check = 1; } else if (!strcmp(arg, "and")) { rule->rule = RULE_REQUIRE; check = 1; } else if (!strncmp(arg, "all", 3)) { /* opt/lvt_bits/lvp_bits all remain 0 to mean all */ continue; } else if (!strncmp(arg, "--", 2)) { if (!rule->opts) { if (!(rule->opts = malloc(MAX_RULE_OPTS * sizeof(int)))) { printf("no mem\n"); exit(1); } memset(rule->opts, 0, MAX_RULE_OPTS * sizeof(int)); } if (!rule->check_opts) { if (!(rule->check_opts = malloc(MAX_RULE_OPTS * sizeof(int)))) { printf("no mem\n"); exit(1); } memset(rule->check_opts, 0, MAX_RULE_OPTS * sizeof(int)); } if (check) rule->check_opts[rule->check_opts_count++] = opt_str_to_num(arg); else rule->opts[rule->opts_count++] = opt_str_to_num(arg); } else if (!strncmp(arg, "LV_", 3)) { lvt_enum = lv_to_enum(arg); if (check) rule->check_lvt_bits |= lvt_enum_to_bit(lvt_enum); else rule->lvt_bits |= lvt_enum_to_bit(lvt_enum); } else if (!strncmp(arg, "lv_is_", 6)) { lvp_enum = lvp_name_to_enum(arg); if (check) rule->check_lvp_bits |= lvp_enum_to_bit(lvp_enum); else rule->lvp_bits |= lvp_enum_to_bit(lvp_enum); } } } static char *rule_to_define_str(int rule_type) { switch (rule_type) { case RULE_INVALID: return "RULE_INVALID"; case RULE_REQUIRE: return "RULE_REQUIRE"; } } static char *cmd_flags_to_str(uint32_t flags) { static char buf_cmd_flags[32]; memset(buf_cmd_flags, 0, sizeof(buf_cmd_flags)); if (flags & CMD_FLAG_SECONDARY_SYNTAX) { if (buf_cmd_flags[0]) strcat(buf_cmd_flags, " | "); strcat(buf_cmd_flags, "CMD_FLAG_SECONDARY_SYNTAX"); } if (flags & CMD_FLAG_ONE_REQUIRED_OPT) { if (buf_cmd_flags[0]) strcat(buf_cmd_flags, " | "); strcat(buf_cmd_flags, "CMD_FLAG_ONE_REQUIRED_OPT"); } return buf_cmd_flags; } void print_command_count(void) { struct command *cmd; int i, j; printf("/* Do not edit. This file is generated by tools/create-commands */\n"); printf("/* using command definitions from tools/command-lines.in */\n"); printf("#define COMMAND_COUNT %d\n", cmd_count); printf("enum {\n"); printf("\tno_CMD,\n"); /* enum value 0 is not used */ for (i = 0; i < cmd_count; i++) { cmd = &cmd_array[i]; if (!cmd->command_line_id) { printf("Missing ID: at %d\n", i); exit(1); } for (j = 0; j < i; j++) { if (!strcmp(cmd->command_line_id, cmd_array[j].command_line_id)) goto next; } printf("\t%s_CMD,\n", cmd->command_line_id); next: ; } printf("\tCOMMAND_ID_COUNT,\n"); printf("};\n"); } static int is_lvm_all_opt(int opt) { int oo; for (oo = 0; oo < lvm_all.oo_count; oo++) { if (lvm_all.optional_opt_args[oo].opt == opt) return 1; } return 0; } static void factor_common_options(void) { int cn, opt_enum, ci, oo, ro, found; struct command *cmd; for (cn = 0; cn < MAX_CMD_NAMES; cn++) { if (!cmd_names[cn].name) break; for (ci = 0; ci < cmd_count; ci++) { cmd = &cmd_array[ci]; if (strcmp(cmd->name, cmd_names[cn].name)) continue; cmd_names[cn].variants++; } for (opt_enum = 0; opt_enum < ARG_COUNT; opt_enum++) { for (ci = 0; ci < cmd_count; ci++) { cmd = &cmd_array[ci]; if (strcmp(cmd->name, cmd_names[cn].name)) continue; if (cmd->ro_count) cmd_names[cn].variant_has_ro = 1; if (cmd->rp_count) cmd_names[cn].variant_has_rp = 1; if (cmd->oo_count) cmd_names[cn].variant_has_oo = 1; if (cmd->op_count) cmd_names[cn].variant_has_op = 1; for (ro = 0; ro < cmd->ro_count; ro++) { cmd_names[cn].all_options[cmd->required_opt_args[ro].opt] = 1; if ((cmd->required_opt_args[ro].opt == size_ARG) && !strncmp(cmd->name, "lv", 2)) cmd_names[cn].all_options[extents_ARG] = 1; } for (oo = 0; oo < cmd->oo_count; oo++) cmd_names[cn].all_options[cmd->optional_opt_args[oo].opt] = 1; found = 0; for (oo = 0; oo < cmd->oo_count; oo++) { if (cmd->optional_opt_args[oo].opt == opt_enum) { found = 1; break; } } if (!found) goto next_opt; } /* all commands starting with this name use this option */ cmd_names[cn].common_options[opt_enum] = 1; next_opt: ; } } /* for (cn = 0; cn < MAX_CMD_NAMES; cn++) { if (!cmd_names[cn].name) break; printf("%s (%d)\n", cmd_names[cn].name, cmd_names[cn].variants); for (opt_enum = 0; opt_enum < ARG_COUNT; opt_enum++) { if (cmd_names[cn].common_options[opt_enum]) printf(" %s\n", opt_names[opt_enum].long_opt); } } */ } void print_usage_common(struct command *cmd) { struct cmd_name *cname; int i, sep, ro, rp, oo, op, opt_enum; if (!(cname = find_command_name(cmd->name))) return; sep = 0; /* * when there's more than one variant, options that * are common to all commands with a common name. */ if (cname->variants < 2) goto all; for (opt_enum = 0; opt_enum < ARG_COUNT; opt_enum++) { if (!cname->common_options[opt_enum]) continue; if (is_lvm_all_opt(opt_enum)) continue; if (!sep) { printf("\n"); printf("\" ["); } else { printf(","); } for (oo = 0; oo < cmd->oo_count; oo++) { if (cmd->optional_opt_args[oo].opt != opt_enum) continue; printf(" %s", opt_names[opt_enum].long_opt); if (cmd->optional_opt_args[oo].def.val_bits) { printf(" "); print_def(&cmd->optional_opt_args[oo].def, 1); } sep = 1; break; } } all: /* options that are common to all lvm commands */ for (oo = 0; oo < lvm_all.oo_count; oo++) { opt_enum = lvm_all.optional_opt_args[oo].opt; if (!sep) { printf("\n"); printf("\" ["); } else { printf(","); } printf(" %s", opt_names[opt_enum].long_opt); if (lvm_all.optional_opt_args[oo].def.val_bits) { printf(" "); print_def(&lvm_all.optional_opt_args[oo].def, 1); } sep = 1; } printf(" ]\""); printf(";\n"); } void print_usage(struct command *cmd) { struct cmd_name *cname; int onereq = (cmd->cmd_flags & CMD_FLAG_ONE_REQUIRED_OPT) ? 1 : 0; int i, sep, ro, rp, oo, op, opt_enum; if (!(cname = find_command_name(cmd->name))) return; printf("\"%s", cmd->name); if (cmd->ro_count) { if (onereq) printf(" ("); for (ro = 0; ro < cmd->ro_count; ro++) { if (ro && onereq) printf(","); printf(" %s", opt_names[cmd->required_opt_args[ro].opt].long_opt); if (cmd->required_opt_args[ro].def.val_bits) { printf(" "); print_def(&cmd->required_opt_args[ro].def, 1); } } if (onereq) printf(" )"); } if (cmd->rp_count) { for (rp = 0; rp < cmd->rp_count; rp++) { if (cmd->required_pos_args[rp].def.val_bits) { printf(" "); print_def(&cmd->required_pos_args[rp].def, 1); } } } printf("\""); oo_count: if (!cmd->oo_count) goto op_count; sep = 0; if (cmd->oo_count) { printf("\n"); printf("\" ["); for (oo = 0; oo < cmd->oo_count; oo++) { opt_enum = cmd->optional_opt_args[oo].opt; /* * Skip common opts which are in the usage_common string. * The common opts are those in lvm_all and in * cname->common_options. */ if (is_lvm_all_opt(opt_enum)) continue; if ((cname->variants > 1) && cname->common_options[opt_enum]) continue; if (sep) printf(","); printf(" %s", opt_names[opt_enum].long_opt); if (cmd->optional_opt_args[oo].def.val_bits) { printf(" "); print_def(&cmd->optional_opt_args[oo].def, 1); } sep = 1; } if (sep) printf(","); printf(" COMMON_OPTIONS"); printf(" ]\""); } op_count: if (!cmd->op_count) goto done; printf("\n"); printf("\" ["); if (cmd->op_count) { for (op = 0; op < cmd->op_count; op++) { if (cmd->optional_pos_args[op].def.val_bits) { printf(" "); print_def(&cmd->optional_pos_args[op].def, 1); } } } printf(" ]\""); done: printf(";\n"); } static void print_val_man(const char *str) { char *line; char *line_argv[MAX_LINE_ARGC]; int line_argc; int i; if (!strcmp(str, "Number") || !strcmp(str, "String") || !strncmp(str, "VG", 2) || !strncmp(str, "LV", 2) || !strncmp(str, "PV", 2) || !strcmp(str, "Tag")) { printf("\\fI%s\\fP", str); return; } if (strstr(str, "Number[") || strstr(str, "]Number")) { for (i = 0; i < strlen(str); i++) { if (str[i] == 'N') printf("\\fI"); if (str[i] == 'r') { printf("%c", str[i]); printf("\\fP"); continue; } printf("%c", str[i]); } return; } if (strstr(str, "|")) { int len = strlen(str); line = strdup(str); split_line(line, &line_argc, line_argv, '|'); for (i = 0; i < line_argc; i++) { if (i) { printf("|"); /* this is a hack to add a line break for a long string of opt values */ if ((len > 40) && (i >= (line_argc / 2) + 1)) { printf("\n"); printf(" "); len = 0; } } if (strstr(line_argv[i], "Number")) printf("\\fI%s\\fP", line_argv[i]); else printf("\\fB%s\\fP", line_argv[i]); } return; } printf("\\fB%s\\fP", str); } static void print_def_man(struct arg_def *def, int usage) { int val_enum; int lvt_enum; int sep = 0; int i; for (val_enum = 0; val_enum < VAL_COUNT; val_enum++) { if (def->val_bits & val_enum_to_bit(val_enum)) { if (val_enum == conststr_VAL) { printf("\\fB"); printf("%s", def->str); printf("\\fP"); } else if (val_enum == constnum_VAL) { printf("\\fB"); printf("%llu", (unsigned long long)def->num); printf("\\fP"); } else { if (sep) printf("|"); if (!usage || !val_names[val_enum].usage) { printf("\\fI"); printf("%s", val_names[val_enum].name); printf("\\fP"); } else { print_val_man(val_names[val_enum].usage); } sep = 1; } if (val_enum == lv_VAL && def->lvt_bits) { printf("\\fI"); for (lvt_enum = 1; lvt_enum < LVT_COUNT; lvt_enum++) { if (lvt_bit_is_set(def->lvt_bits, lvt_enum)) printf("_%s", lvt_enum_to_name(lvt_enum)); } printf("\\fP"); } if ((val_enum == vg_VAL) && (def->flags & ARG_DEF_FLAG_NEW_VG)) { printf("\\fI"); printf("_new"); printf("\\fP"); } if ((val_enum == lv_VAL) && (def->flags & ARG_DEF_FLAG_NEW_LV)) { printf("\\fI"); printf("_new"); printf("\\fP"); } } } if (def->flags & ARG_DEF_FLAG_MAY_REPEAT) printf(" ..."); } static char *man_long_opt_name(const char *cmdname, int opt_enum) { static char long_opt_name[64]; memset(&long_opt_name, 0, sizeof(long_opt_name)); switch (opt_enum) { case syncaction_ARG: strncpy(long_opt_name, "--[raid]syncaction", 63); break; case writemostly_ARG: strncpy(long_opt_name, "--[raid]writemostly", 63); break; case minrecoveryrate_ARG: strncpy(long_opt_name, "--[raid]minrecoveryrate", 63); break; case maxrecoveryrate_ARG: strncpy(long_opt_name, "--[raid]maxrecoveryrate", 63); break; case writebehind_ARG: strncpy(long_opt_name, "--[raid]writebehind", 63); break; case vgmetadatacopies_ARG: if (!strncmp(cmdname, "vg", 2)) strncpy(long_opt_name, "--[vg]metadatacopies", 63); else strncpy(long_opt_name, "--vgmetadatacopies", 63); break; case pvmetadatacopies_ARG: if (!strncmp(cmdname, "pv", 2)) strncpy(long_opt_name, "--[pv]metadatacopies", 63); else strncpy(long_opt_name, "--pvmetadatacopies", 63); break; default: strncpy(long_opt_name, opt_names[opt_enum].long_opt, 63); break; } return long_opt_name; } void print_man_usage(struct command *cmd) { struct cmd_name *cname; int onereq = (cmd->cmd_flags & CMD_FLAG_ONE_REQUIRED_OPT) ? 1 : 0; int i, sep, ro, rp, oo, op, opt_enum; if (!(cname = find_command_name(cmd->name))) return; printf("\\fB%s\\fP", cmd->name); if (!onereq) goto ro_normal; /* * one required option in a set, print as: * ( -a|--a, * -b|--b, * --c, * --d ) * * First loop through ro prints those with short opts, * and the second loop prints those without short opts. */ if (cmd->ro_count) { printf("\n"); printf(".RS 4\n"); printf("("); sep = 0; /* print required options with a short opt */ for (ro = 0; ro < cmd->ro_count; ro++) { opt_enum = cmd->required_opt_args[ro].opt; if (!opt_names[opt_enum].short_opt) continue; if (sep) { printf(","); printf("\n.br\n"); printf(" "); } if (opt_names[opt_enum].short_opt) { printf(" \\fB-%c\\fP|\\fB%s\\fP", opt_names[opt_enum].short_opt, man_long_opt_name(cmd->name, opt_enum)); } else { printf(" "); printf(" \\fB%s\\fP", man_long_opt_name(cmd->name, opt_enum)); } if (cmd->required_opt_args[ro].def.val_bits) { printf(" "); print_def_man(&cmd->required_opt_args[ro].def, 1); } sep = 1; } /* print required options without a short opt */ for (ro = 0; ro < cmd->ro_count; ro++) { opt_enum = cmd->required_opt_args[ro].opt; if (opt_names[opt_enum].short_opt) continue; if (sep) { printf(","); printf("\n.br\n"); printf(" "); } printf(" "); printf(" \\fB%s\\fP", man_long_opt_name(cmd->name, opt_enum)); if (cmd->required_opt_args[ro].def.val_bits) { printf(" "); print_def_man(&cmd->required_opt_args[ro].def, 1); } sep = 1; } printf(" )\n"); printf(".RE\n"); } /* print required position args on a new line after the onereq set */ if (cmd->rp_count) { printf(".RS 4\n"); for (rp = 0; rp < cmd->rp_count; rp++) { if (cmd->required_pos_args[rp].def.val_bits) { printf(" "); print_def_man(&cmd->required_pos_args[rp].def, 1); } } printf("\n"); printf(".RE\n"); } else { /* printf("\n"); */ } printf(".br\n"); goto oo_count; ro_normal: /* * all are required options, print as: * -a|--aaa -b|--bbb */ if (cmd->ro_count) { for (ro = 0; ro < cmd->ro_count; ro++) { opt_enum = cmd->required_opt_args[ro].opt; if (opt_names[opt_enum].short_opt) { printf(" \\fB-%c\\fP|\\fB%s\\fP", opt_names[opt_enum].short_opt, man_long_opt_name(cmd->name, opt_enum)); } else { printf(" \\fB%s\\fP", opt_names[cmd->required_opt_args[ro].opt].long_opt); } if (cmd->required_opt_args[ro].def.val_bits) { printf(" "); print_def_man(&cmd->required_opt_args[ro].def, 1); } } } /* print required position args on the same line as the required options */ if (cmd->rp_count) { for (rp = 0; rp < cmd->rp_count; rp++) { if (cmd->required_pos_args[rp].def.val_bits) { printf(" "); print_def_man(&cmd->required_pos_args[rp].def, 1); } } printf("\n"); } else { printf("\n"); } printf(".br\n"); oo_count: if (!cmd->oo_count) goto op_count; sep = 0; if (cmd->oo_count) { printf(".RS 4\n"); printf("["); /* print optional options with short opts */ for (oo = 0; oo < cmd->oo_count; oo++) { opt_enum = cmd->optional_opt_args[oo].opt; if (!opt_names[opt_enum].short_opt) continue; /* * Skip common opts which are in the usage_common string. * The common opts are those in lvm_all and in * cname->common_options. */ if (is_lvm_all_opt(opt_enum)) continue; if ((cname->variants > 1) && cname->common_options[opt_enum]) continue; if (sep) { printf(","); printf("\n.br\n"); printf(" "); } printf(" \\fB-%c\\fP|\\fB%s\\fP", opt_names[opt_enum].short_opt, man_long_opt_name(cmd->name, opt_enum)); if (cmd->optional_opt_args[oo].def.val_bits) { printf(" "); print_def_man(&cmd->optional_opt_args[oo].def, 1); } sep = 1; } /* print optional options without short opts */ for (oo = 0; oo < cmd->oo_count; oo++) { opt_enum = cmd->optional_opt_args[oo].opt; if (opt_names[opt_enum].short_opt) continue; /* * Skip common opts which are in the usage_common string. * The common opts are those in lvm_all and in * cname->common_options. */ if (is_lvm_all_opt(opt_enum)) continue; if ((cname->variants > 1) && cname->common_options[opt_enum]) continue; if (sep) { printf(","); printf("\n.br\n"); printf(" "); } /* space alignment without short opt */ printf(" "); printf(" \\fB%s\\fP", man_long_opt_name(cmd->name, opt_enum)); if (cmd->optional_opt_args[oo].def.val_bits) { printf(" "); print_def_man(&cmd->optional_opt_args[oo].def, 1); } sep = 1; } if (sep) { printf(","); printf("\n.br\n"); printf(" "); /* space alignment without short opt */ printf(" "); } printf(" COMMON_OPTIONS"); printf(" ]\n"); printf(".RE\n"); printf(".br\n"); } op_count: if (!cmd->op_count) goto done; printf(".RS 4\n"); printf("["); if (cmd->op_count) { for (op = 0; op < cmd->op_count; op++) { if (cmd->optional_pos_args[op].def.val_bits) { printf(" "); print_def_man(&cmd->optional_pos_args[op].def, 1); } } } printf(" ]\n"); printf(".RE\n"); done: printf("\n"); } void print_man_usage_common(struct command *cmd) { struct cmd_name *cname; int i, sep, ro, rp, oo, op, opt_enum; if (!(cname = find_command_name(cmd->name))) return; sep = 0; printf(".RS 4\n"); printf("["); /* * when there's more than one variant, options that * are common to all commands with a common name. */ if (cname->variants < 2) goto all; /* print those with short opts */ for (opt_enum = 0; opt_enum < ARG_COUNT; opt_enum++) { if (!cname->common_options[opt_enum]) continue; if (!opt_names[opt_enum].short_opt) continue; if (is_lvm_all_opt(opt_enum)) continue; if (sep) { printf(","); printf("\n.br\n"); printf(" "); } for (oo = 0; oo < cmd->oo_count; oo++) { if (cmd->optional_opt_args[oo].opt != opt_enum) continue; printf(" \\fB-%c\\fP|\\fB%s\\fP", opt_names[opt_enum].short_opt, man_long_opt_name(cmd->name, opt_enum)); if (cmd->optional_opt_args[oo].def.val_bits) { printf(" "); print_def_man(&cmd->optional_opt_args[oo].def, 1); } sep = 1; break; } } /* print those without short opts */ for (opt_enum = 0; opt_enum < ARG_COUNT; opt_enum++) { if (!cname->common_options[opt_enum]) continue; if (opt_names[opt_enum].short_opt) continue; if (is_lvm_all_opt(opt_enum)) continue; if (sep) { printf(","); printf("\n.br\n"); printf(" "); } for (oo = 0; oo < cmd->oo_count; oo++) { if (cmd->optional_opt_args[oo].opt != opt_enum) continue; /* space alignment without short opt */ printf(" "); printf(" \\fB%s\\fP", man_long_opt_name(cmd->name, opt_enum)); if (cmd->optional_opt_args[oo].def.val_bits) { printf(" "); print_def_man(&cmd->optional_opt_args[oo].def, 1); } sep = 1; break; } } all: /* options that are common to all lvm commands */ /* those with short opts */ for (oo = 0; oo < lvm_all.oo_count; oo++) { opt_enum = lvm_all.optional_opt_args[oo].opt; if (!opt_names[opt_enum].short_opt) continue; if (sep) { printf(","); printf("\n.br\n"); printf(" "); } printf(" \\fB-%c\\fP|\\fB%s\\fP", opt_names[opt_enum].short_opt, man_long_opt_name(cmd->name, opt_enum)); if (lvm_all.optional_opt_args[oo].def.val_bits) { printf(" "); print_def(&lvm_all.optional_opt_args[oo].def, 1); } sep = 1; } /* those without short opts */ for (oo = 0; oo < lvm_all.oo_count; oo++) { opt_enum = lvm_all.optional_opt_args[oo].opt; if (opt_names[opt_enum].short_opt) continue; if (sep) { printf(","); printf("\n.br\n"); printf(" "); } /* space alignment without short opt */ printf(" "); printf(" \\fB%s\\fP", man_long_opt_name(cmd->name, opt_enum)); if (lvm_all.optional_opt_args[oo].def.val_bits) { printf(" "); print_def(&lvm_all.optional_opt_args[oo].def, 1); } sep = 1; } printf(" ]\n"); } void print_man_all_options(struct cmd_name *cname) { int opt_enum, val_enum; int sep = 0; /* print those with short opts */ for (opt_enum = 0; opt_enum < ARG_COUNT; opt_enum++) { if (!cname->all_options[opt_enum]) continue; if (!opt_names[opt_enum].short_opt) continue; if (sep) printf("\n.br\n"); printf(" \\fB-%c\\fP|\\fB%s\\fP", opt_names[opt_enum].short_opt, man_long_opt_name(cname->name, opt_enum)); val_enum = opt_names[opt_enum].val_enum; if (!val_names[val_enum].fn) { /* takes no arg */ } else if (!val_names[val_enum].usage) { printf(" "); printf("\\fI"); printf("%s", val_names[val_enum].name); printf("\\fP"); } else { printf(" "); print_val_man(val_names[val_enum].usage); } sep = 1; } /* print those without short opts */ for (opt_enum = 0; opt_enum < ARG_COUNT; opt_enum++) { if (!cname->all_options[opt_enum]) continue; if (opt_names[opt_enum].short_opt) continue; if (sep) printf("\n.br\n"); /* space alignment without short opt */ printf(" "); printf(" \\fB%s\\fP", man_long_opt_name(cname->name, opt_enum)); val_enum = opt_names[opt_enum].val_enum; if (!val_names[val_enum].fn) { /* takes no arg */ } else if (!val_names[val_enum].usage) { printf(" "); printf("\\fI"); printf("%s", val_names[val_enum].name); printf("\\fP"); } else { printf(" "); print_val_man(val_names[val_enum].usage); } sep = 1; } } #define DESC_LINE 256 void print_desc_man(const char *desc) { char buf[DESC_LINE] = {0}; int di = 0; int bi = 0; for (di = 0; di < strlen(desc); di++) { if (desc[di] == '\0') break; if (desc[di] == '\n') continue; if (!strncmp(&desc[di], "DESC:", 5)) { if (bi) { printf("%s\n", buf); printf(".br\n"); memset(buf, 0, sizeof(buf)); bi = 0; } di += 5; continue; } if (!bi && desc[di] == ' ') continue; buf[bi++] = desc[di]; if (bi == (DESC_LINE - 1)) break; } if (bi) { printf("%s\n", buf); printf(".br\n"); } } static char *upper_command_name(char *str) { static char str_upper[32]; int i = 0; while (*str) { str_upper[i++] = toupper(*str); str++; } str_upper[i] = '\0'; return str_upper; } void print_man_command(void) { struct cmd_name *cname; struct command *cmd, *prev_cmd = NULL; const char *desc; int i, j, ro, rp, oo, op; include_optional_opt_args(&lvm_all, "OO_USAGE_COMMON"); printf(".TH %s 8 \"LVM TOOLS #VERSION#\" \"Sistina Software UK\"\n", man_command_name ? upper_command_name(man_command_name) : "LVM_COMMANDS"); for (i = 0; i < cmd_count; i++) { cmd = &cmd_array[i]; if (prev_cmd && strcmp(prev_cmd->name, cmd->name)) { printf("Common options:\n"); printf(".\n"); print_man_usage_common(prev_cmd); prev_cmd = NULL; } if ((cmd->cmd_flags & CMD_FLAG_SECONDARY_SYNTAX) && !include_man_secondary) continue; if (!(cmd->cmd_flags & CMD_FLAG_SECONDARY_SYNTAX) && !include_man_primary) continue; if (man_command_name && strcmp(man_command_name, cmd->name)) continue; if (!prev_cmd || strcmp(prev_cmd->name, cmd->name)) { printf(".SH NAME\n"); printf(".\n"); if ((desc = cmd_name_desc(cmd->name))) printf("%s \\- %s\n", cmd->name, desc); else printf("%s\n", cmd->name); printf(".br\n"); printf(".P\n"); printf(".\n"); printf(".SH SYNOPSIS\n"); printf(".br\n"); printf(".P\n"); printf(".\n"); prev_cmd = cmd; if (!(cname = find_command_name(cmd->name))) return; if (cname->variant_has_ro && cname->variant_has_rp) printf("\\fB%s\\fP \\fIrequired_option_args\\fP \\fIrequired_position_args\\fP\n", cmd->name); else if (cname->variant_has_ro && !cname->variant_has_rp) printf("\\fB%s\\fP \\fIrequired_option_args\\fP\n", cmd->name); else if (!cname->variant_has_ro && cname->variant_has_rp) printf("\\fB%s\\fP \\fIrequired_position_args\\fP\n", cmd->name); else if (!cname->variant_has_ro && !cname->variant_has_rp) printf("\\fB%s\\fP\n", cmd->name); printf(".br\n"); if (cname->variant_has_oo) { printf(" [ \\fIoptional_option_args\\fP ]\n"); printf(".br\n"); } if (cname->variant_has_op) { printf(" [ \\fIoptional_position_args\\fP ]\n"); printf(".br\n"); } printf(".P\n"); printf("\n"); /* listing them all when there's only 1 or 2 is just repetative */ if (cname->variants > 2) { printf(".P\n"); print_man_all_options(cname); printf("\n"); printf(".P\n"); printf("\n"); } printf(".SH USAGE\n"); printf(".br\n"); printf(".P\n"); printf(".\n"); } if (cmd->desc) { print_desc_man(cmd->desc); printf(".P\n"); } print_man_usage(cmd); if (i == (cmd_count - 1)) { printf("Common options:\n"); printf(".\n"); print_man_usage_common(cmd); } printf("\n"); continue; } } void print_command_struct(int only_usage) { struct command *cmd; int i, j, ro, rp, oo, op, ru, ruo, io; include_optional_opt_args(&lvm_all, "OO_USAGE_COMMON"); printf("/* Do not edit. This file is generated by tools/create-commands */\n"); printf("/* using command definitions from tools/command-lines.in */\n"); printf("\n"); for (i = 0; i < cmd_count; i++) { cmd = &cmd_array[i]; if (only_usage) { print_usage(cmd); print_usage_common(cmd); printf("\n"); continue; } printf("commands[%d].name = \"%s\";\n", i, cmd->name); printf("commands[%d].command_line_id = \"%s\";\n", i, cmd->command_line_id); printf("commands[%d].command_line_enum = %s_CMD;\n", i, cmd->command_line_id); printf("commands[%d].fn = %s;\n", i, cmd->name); printf("commands[%d].ro_count = %d;\n", i, cmd->ro_count); printf("commands[%d].rp_count = %d;\n", i, cmd->rp_count); printf("commands[%d].oo_count = %d;\n", i, cmd->oo_count); printf("commands[%d].op_count = %d;\n", i, cmd->op_count); printf("commands[%d].io_count = %d;\n", i, cmd->io_count); printf("commands[%d].rule_count = %d;\n", i, cmd->rule_count); if (cmd->cmd_flags) printf("commands[%d].cmd_flags = %s;\n", i, cmd_flags_to_str(cmd->cmd_flags)); else printf("commands[%d].cmd_flags = 0;\n", i, cmd_flags_to_str(cmd->cmd_flags)); printf("commands[%d].desc = \"%s\";\n", i, cmd->desc ?: ""); printf("commands[%d].usage = ", i); print_usage(cmd); if (cmd->oo_count) { printf("commands[%d].usage_common = ", i); print_usage_common(cmd); } else { printf("commands[%d].usage_common = \"NULL\";\n", i); } if (cmd->ro_count) { for (ro = 0; ro < cmd->ro_count; ro++) { printf("commands[%d].required_opt_args[%d].opt = %s;\n", i, ro, opt_to_enum_str(cmd->required_opt_args[ro].opt)); if (!cmd->required_opt_args[ro].def.val_bits) continue; printf("commands[%d].required_opt_args[%d].def.val_bits = %s;\n", i, ro, val_bits_to_str(cmd->required_opt_args[ro].def.val_bits)); if (cmd->required_opt_args[ro].def.lvt_bits) printf("commands[%d].required_opt_args[%d].def.lvt_bits = %s;\n", i, ro, lvt_bits_to_str(cmd->required_opt_args[ro].def.lvt_bits)); if (cmd->required_opt_args[ro].def.flags) printf("commands[%d].required_opt_args[%d].def.flags = %s;\n", i, ro, flags_to_str(cmd->required_opt_args[ro].def.flags)); if (val_bit_is_set(cmd->required_opt_args[ro].def.val_bits, constnum_VAL)) printf("commands[%d].required_opt_args[%d].def.num = %d;\n", i, ro, cmd->required_opt_args[ro].def.num); if (val_bit_is_set(cmd->required_opt_args[ro].def.val_bits, conststr_VAL)) printf("commands[%d].required_opt_args[%d].def.str = \"%s\";\n", i, ro, cmd->required_opt_args[ro].def.str ?: "NULL"); } } if (cmd->rp_count) { for (rp = 0; rp < cmd->rp_count; rp++) { printf("commands[%d].required_pos_args[%d].pos = %d;\n", i, rp, cmd->required_pos_args[rp].pos); if (!cmd->required_pos_args[rp].def.val_bits) continue; printf("commands[%d].required_pos_args[%d].def.val_bits = %s;\n", i, rp, val_bits_to_str(cmd->required_pos_args[rp].def.val_bits)); if (cmd->required_pos_args[rp].def.lvt_bits) printf("commands[%d].required_pos_args[%d].def.lvt_bits = %s;\n", i, rp, lvt_bits_to_str(cmd->required_pos_args[rp].def.lvt_bits)); if (cmd->required_pos_args[rp].def.flags) printf("commands[%d].required_pos_args[%d].def.flags = %s;\n", i, rp, flags_to_str(cmd->required_pos_args[rp].def.flags)); if (val_bit_is_set(cmd->required_pos_args[rp].def.val_bits, constnum_VAL)) printf("commands[%d].required_pos_args[%d].def.num = %d;\n", i, rp, cmd->required_pos_args[rp].def.num); if (val_bit_is_set(cmd->required_pos_args[rp].def.val_bits, conststr_VAL)) printf("commands[%d].required_pos_args[%d].def.str = \"%s\";\n", i, rp, cmd->required_pos_args[rp].def.str ?: "NULL"); } } if (cmd->oo_count) { for (oo = 0; oo < cmd->oo_count; oo++) { printf("commands[%d].optional_opt_args[%d].opt = %s;\n", i, oo, opt_to_enum_str(cmd->optional_opt_args[oo].opt)); if (!cmd->optional_opt_args[oo].def.val_bits) continue; printf("commands[%d].optional_opt_args[%d].def.val_bits = %s;\n", i, oo, val_bits_to_str(cmd->optional_opt_args[oo].def.val_bits)); if (cmd->optional_opt_args[oo].def.lvt_bits) printf("commands[%d].optional_opt_args[%d].def.lvt_bits = %s;\n", i, oo, lvt_bits_to_str(cmd->optional_opt_args[oo].def.lvt_bits)); if (cmd->optional_opt_args[oo].def.flags) printf("commands[%d].optional_opt_args[%d].def.flags = %s;\n", i, oo, flags_to_str(cmd->optional_opt_args[oo].def.flags)); if (val_bit_is_set(cmd->optional_opt_args[oo].def.val_bits, constnum_VAL)) printf("commands[%d].optional_opt_args[%d].def.num = %d;\n", i, oo, cmd->optional_opt_args[oo].def.num); if (val_bit_is_set(cmd->optional_opt_args[oo].def.val_bits, conststr_VAL)) printf("commands[%d].optional_opt_args[%d].def.str = \"%s\";\n", i, oo, cmd->optional_opt_args[oo].def.str ?: "NULL"); } } if (cmd->io_count) { for (io = 0; io < cmd->io_count; io++) { printf("commands[%d].ignore_opt_args[%d].opt = %s;\n", i, io, opt_to_enum_str(cmd->ignore_opt_args[io].opt)); if (!cmd->ignore_opt_args[io].def.val_bits) continue; printf("commands[%d].ignore_opt_args[%d].def.val_bits = %s;\n", i, io, val_bits_to_str(cmd->ignore_opt_args[io].def.val_bits)); if (cmd->ignore_opt_args[io].def.lvt_bits) printf("commands[%d].ignore_opt_args[%d].def.lvt_bits = %s;\n", i, io, lvt_bits_to_str(cmd->ignore_opt_args[io].def.lvt_bits)); if (cmd->ignore_opt_args[io].def.flags) printf("commands[%d].ignore_opt_args[%d].def.flags = %s;\n", i, io, flags_to_str(cmd->ignore_opt_args[io].def.flags)); if (val_bit_is_set(cmd->ignore_opt_args[io].def.val_bits, constnum_VAL)) printf("commands[%d].ignore_opt_args[%d].def.num = %d;\n", i, io, cmd->ignore_opt_args[io].def.num); if (val_bit_is_set(cmd->ignore_opt_args[io].def.val_bits, conststr_VAL)) printf("commands[%d].ignore_opt_args[%d].def.str = \"%s\";\n", i, io, cmd->ignore_opt_args[io].def.str ?: "NULL"); } } if (cmd->op_count) { for (op = 0; op < cmd->op_count; op++) { printf("commands[%d].optional_pos_args[%d].pos = %d;\n", i, op, cmd->optional_pos_args[op].pos); if (!cmd->optional_pos_args[op].def.val_bits) continue; printf("commands[%d].optional_pos_args[%d].def.val_bits = %s;\n", i, op, val_bits_to_str(cmd->optional_pos_args[op].def.val_bits)); if (cmd->optional_pos_args[op].def.lvt_bits) printf("commands[%d].optional_pos_args[%d].def.lvt_bits = %s;\n", i, op, lvt_bits_to_str(cmd->optional_pos_args[op].def.lvt_bits)); if (cmd->optional_pos_args[op].def.flags) printf("commands[%d].optional_pos_args[%d].def.flags = %s;\n", i, op, flags_to_str(cmd->optional_pos_args[op].def.flags)); if (val_bit_is_set(cmd->optional_pos_args[op].def.val_bits, constnum_VAL)) printf("commands[%d].optional_pos_args[%d].def.num = %d;\n", i, op, cmd->optional_pos_args[op].def.num); if (val_bit_is_set(cmd->optional_pos_args[op].def.val_bits, conststr_VAL)) printf("commands[%d].optional_pos_args[%d].def.str = \"%s\";\n", i, op, cmd->optional_pos_args[op].def.str ?: "NULL"); } } if (cmd->rule_count) { for (ru = 0; ru < cmd->rule_count; ru++) { printf("commands[%d].rules[%d].opts_count = %d;\n", i, ru, cmd->rules[ru].opts_count); if (cmd->rules[ru].opts_count) { printf("static int _command%d_rule%d_opts[] = { ", i, ru); for (ruo = 0; ruo < cmd->rules[ru].opts_count; ruo++) { if (ruo) printf(", "); printf("%s", opt_to_enum_str(cmd->rules[ru].opts[ruo])); } printf(" };\n"); printf("commands[%d].rules[%d].opts = _command%d_rule%d_opts;\n", i, ru, i, ru); } else { printf("commands[%d].rules[%d].opts = NULL;\n", i, ru); } printf("commands[%d].rules[%d].check_opts_count = %d;\n", i, ru, cmd->rules[ru].check_opts_count); if (cmd->rules[ru].check_opts_count) { printf("static int _command%d_rule%d_check_opts[] = { ", i, ru); for (ruo = 0; ruo < cmd->rules[ru].check_opts_count; ruo++) { if (ruo) printf(","); printf("%s ", opt_to_enum_str(cmd->rules[ru].check_opts[ruo])); } printf(" };\n"); printf("commands[%d].rules[%d].check_opts = _command%d_rule%d_check_opts;\n", i, ru, i, ru); } else { printf("commands[%d].rules[%d].check_opts = NULL;\n", i, ru); } printf("commands[%d].rules[%d].lvt_bits = %s;\n", i, ru, cmd->rules[ru].lvt_bits ? lvt_bits_to_str(cmd->rules[ru].lvt_bits) : "0"); printf("commands[%d].rules[%d].lvp_bits = %s;\n", i, ru, cmd->rules[ru].lvp_bits ? lvp_bits_to_str(cmd->rules[ru].lvp_bits) : "0"); printf("commands[%d].rules[%d].rule = %s;\n", i, ru, rule_to_define_str(cmd->rules[ru].rule)); printf("commands[%d].rules[%d].check_lvt_bits = %s;\n", i, ru, cmd->rules[ru].check_lvt_bits ? lvt_bits_to_str(cmd->rules[ru].check_lvt_bits) : "0"); printf("commands[%d].rules[%d].check_lvp_bits = %s;\n", i, ru, cmd->rules[ru].check_lvp_bits ? lvp_bits_to_str(cmd->rules[ru].check_lvp_bits) : "0"); } } printf("\n"); } } struct cmd_pair { int i, j; }; static void print_ambiguous(void) { struct command *cmd, *dup; struct cmd_pair dups[64] = { 0 }; int found = 0; int i, j, f, ro, rp; for (i = 0; i < cmd_count; i++) { cmd = &cmd_array[i]; for (j = 0; j < cmd_count; j++) { dup = &cmd_array[j]; if (i == j) continue; if (strcmp(cmd->name, dup->name)) continue; if (cmd->ro_count != dup->ro_count) continue; if (cmd->rp_count != dup->rp_count) continue; for (ro = 0; ro < cmd->ro_count; ro++) { if (!opt_arg_matches(&cmd->required_opt_args[ro], &dup->required_opt_args[ro])) goto next; } for (rp = 0; rp < cmd->rp_count; rp++) { if (!pos_arg_matches(&cmd->required_pos_args[rp], &dup->required_pos_args[rp])) goto next; } for (f = 0; f < found; f++) { if ((dups[f].i == j) && (dups[f].j == i)) goto next; } printf("Ambiguous commands %d and %d:\n", i, j); print_usage(cmd); print_usage(dup); printf("\n"); dups[found].i = i; dups[found].j = j; found++; next: ; } } } void print_command_list(void) { int i; for (i = 0; i < MAX_CMD_NAMES; i++) { if (!cmd_names[i].name) { printf("found %d command names\n", i); break; } printf("%s\n", cmd_names[i].name); } } void print_option_list(void) { int i; for (i = 0; i < ARG_COUNT; i++) printf("%d %s %s %c (%d)\n", opt_names[i].opt_enum, opt_names[i].name, opt_names[i].long_opt, opt_names[i].short_opt ?: ' ', opt_names[i].short_opt ? opt_names[i].short_opt : 0); } static void print_help(int argc, char *argv[]) { printf("%s [options] --output \n", argv[0]); printf("\n"); printf("output formats:\n"); printf("struct: print C structures for command-lines.h\n"); printf("count: print defines and enums for command-lines-count.h\n"); printf("ambiguous: print commands differing only by LV types\n"); printf("usage: print usage format.\n"); printf("expanded: print expanded input format.\n"); printf("man: print man page format.\n"); printf("\n"); printf("options:\n"); printf("-c|--man-command man output for one command name\n"); } int main(int argc, char *argv[]) { char *outputformat = NULL; char *inputfile = NULL; FILE *file; struct command *cmd; char line[MAX_LINE]; char line_orig[MAX_LINE]; const char *name; char *line_argv[MAX_LINE_ARGC]; char *n; int line_argc; int prev_was_oo_def = 0; int prev_was_oo = 0; int prev_was_op = 0; if (argc < 2) { print_help(argc, argv); exit(EXIT_FAILURE); } if (!strcmp(argv[1], "debug")) { print_command_list(); print_option_list(); return 0; } static struct option long_options[] = { {"help", no_argument, 0, 'h' }, {"output", required_argument, 0, 'o' }, {"man-primary", required_argument, 0, 'p' }, {"man-secondary", required_argument, 0, 's' }, {"man-command", required_argument, 0, 'c' }, {0, 0, 0, 0 } }; while (1) { int c; int option_index = 0; c = getopt_long(argc, argv, "ho:p:s:c:", long_options, &option_index); if (c == -1) break; switch (c) { case '0': break; case 'h': print_help(argc, argv); exit(EXIT_SUCCESS); case 'o': outputformat = strdup(optarg); break; case 'p': include_man_primary = atoi(optarg); break; case 's': include_man_secondary = atoi(optarg); break; case 'c': man_command_name = strdup(optarg); break; } } if (optind < argc) inputfile = argv[optind]; else { printf("Missing filename.\n"); return 0; } if (!(file = fopen(inputfile, "r"))) { printf("Cannot open %s\n", argv[1]); return -1; } while (fgets(line, MAX_LINE, file)) { if (line[0] == '#') continue; if (line[0] == '\n') continue; if (line[0] == '-' && line[1] == '-' && line[2] == '-') continue; if ((n = strchr(line, '\n'))) *n = '\0'; memcpy(line_orig, line, sizeof(line)); split_line(line, &line_argc, line_argv, ' '); if (!line_argc) continue; /* command ... */ if ((name = is_command_name(line_argv[0]))) { if (cmd_count >= MAX_CMDS) { printf("MAX_CMDS too small\n"); return -1; } cmd = &cmd_array[cmd_count++]; cmd->name = name; cmd->pos_count = 1; add_required_line(cmd, line_argc, line_argv); /* Every cmd gets the OO_ALL options */ include_optional_opt_args(cmd, "OO_ALL:"); continue; } if (is_desc_line(line_argv[0])) { char *desc = strdup(line_orig); if (cmd->desc) { int newlen = strlen(cmd->desc) + strlen(desc) + 2; char *newdesc = malloc(newlen); memset(newdesc, 0, newlen); snprintf(newdesc, newlen, "%s %s", cmd->desc, desc); cmd->desc = newdesc; free(desc); } else cmd->desc = desc; continue; } if (is_flags_line(line_argv[0])) { add_flags(cmd, line_orig); continue; } if (is_rule_line(line_argv[0])) { add_rule(cmd, line_orig); continue; } if (is_id_line(line_argv[0])) { cmd->command_line_id = strdup(line_argv[1]); continue; } /* OO_FOO: ... */ if (is_oo_definition(line_argv[0])) { add_oo_definition_line(line_argv[0], line_orig); prev_was_oo_def = 1; prev_was_oo = 0; prev_was_op = 0; continue; } /* OO: ... */ if (is_oo_line(line_argv[0])) { add_optional_opt_line(cmd, line_argc, line_argv); prev_was_oo_def = 0; prev_was_oo = 1; prev_was_op = 0; continue; } /* OP: ... */ if (is_op_line(line_argv[0])) { add_optional_pos_line(cmd, line_argc, line_argv); prev_was_oo_def = 0; prev_was_oo = 0; prev_was_op = 1; continue; } /* IO: ... */ if (is_io_line(line_argv[0])) { add_ignore_opt_line(cmd, line_argc, line_argv); prev_was_oo = 0; prev_was_op = 0; continue; } /* handle OO_FOO:, OO:, OP: continuing on multiple lines */ if (prev_was_oo_def) { append_oo_definition_line(line_orig); continue; } if (prev_was_oo) { add_optional_opt_line(cmd, line_argc, line_argv); continue; } if (prev_was_op) { add_optional_pos_line(cmd, line_argc, line_argv); continue; } } fclose(file); factor_common_options(); if (!outputformat) print_command_struct(1); else if (!strcmp(outputformat, "struct")) { print_command_struct(0); print_ambiguous(); } else if (!strcmp(outputformat, "count")) print_command_count(); else if (!strcmp(outputformat, "usage")) print_command_struct(1); else if (!strcmp(outputformat, "expanded")) print_expanded(); else if (!strcmp(outputformat, "ambiguous")) print_ambiguous(); else if (!strcmp(outputformat, "man")) print_man_command(); else print_help(argc, argv); return 0; }