testlang_parse.y revision 1.1
1 1.1 blymn %{ 2 1.1 blymn /* $NetBSD: testlang_parse.y,v 1.1 2011/04/10 09:55:09 blymn Exp $ */ 3 1.1 blymn 4 1.1 blymn /*- 5 1.1 blymn * Copyright 2009 Brett Lymn <blymn (at) NetBSD.org> 6 1.1 blymn * 7 1.1 blymn * All rights reserved. 8 1.1 blymn * 9 1.1 blymn * This code has been donated to The NetBSD Foundation by the Author. 10 1.1 blymn * 11 1.1 blymn * Redistribution and use in source and binary forms, with or without 12 1.1 blymn * modification, are permitted provided that the following conditions 13 1.1 blymn * are met: 14 1.1 blymn * 1. Redistributions of source code must retain the above copyright 15 1.1 blymn * notice, this list of conditions and the following disclaimer. 16 1.1 blymn * 2. The name of the author may not be used to endorse or promote products 17 1.1 blymn * derived from this software withough specific prior written permission 18 1.1 blymn * 19 1.1 blymn * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 20 1.1 blymn * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 21 1.1 blymn * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 22 1.1 blymn * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 23 1.1 blymn * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 24 1.1 blymn * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 25 1.1 blymn * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 26 1.1 blymn * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 27 1.1 blymn * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 28 1.1 blymn * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 29 1.1 blymn * 30 1.1 blymn * 31 1.1 blymn */ 32 1.1 blymn #include <assert.h> 33 1.1 blymn #include <errno.h> 34 1.1 blymn #include <fcntl.h> 35 1.1 blymn #include <poll.h> 36 1.1 blymn #include <stdbool.h> 37 1.1 blymn #include <stdio.h> 38 1.1 blymn #include <string.h> 39 1.1 blymn #include <sys/syslimits.h> 40 1.1 blymn #include <time.h> 41 1.1 blymn #include "returns.h" 42 1.1 blymn 43 1.1 blymn #define YYDEBUG 1 44 1.1 blymn 45 1.1 blymn extern int verbose; 46 1.1 blymn extern int cmdpipe[2]; 47 1.1 blymn extern int slvpipe[2]; 48 1.1 blymn extern int master; 49 1.1 blymn extern struct pollfd readfd; 50 1.1 blymn extern char *check_path; 51 1.1 blymn extern char *cur_file; /* from director.c */ 52 1.1 blymn 53 1.1 blymn size_t line; 54 1.1 blymn 55 1.1 blymn static int input_delay; 56 1.1 blymn 57 1.1 blymn /* time delay between inputs chars - default to 0.1ms minimum to prevent 58 1.1 blymn * problems with input tests 59 1.1 blymn */ 60 1.1 blymn #define DELAY_MIN 0.1 61 1.1 blymn static struct timespec delay_spec = {0, 1000 * DELAY_MIN}; 62 1.1 blymn static char *input_str; /* string to feed in as input */ 63 1.1 blymn static bool no_input; /* don't need more input */ 64 1.1 blymn 65 1.1 blymn #define READ_PIPE 0 66 1.1 blymn #define WRITE_PIPE 1 67 1.1 blymn 68 1.1 blymn char *returns_enum_names[] = { 69 1.1 blymn "unused", "numeric", "string", "byte", "ERR", "OK", "NULL", "not NULL", 70 1.1 blymn "variable", "reference", "returns count", "slave error" 71 1.1 blymn }; 72 1.1 blymn 73 1.1 blymn typedef enum { 74 1.1 blymn arg_static, 75 1.1 blymn arg_byte, 76 1.1 blymn arg_var 77 1.1 blymn } args_state_t; 78 1.1 blymn 79 1.1 blymn static char *args_enum_names[] = { 80 1.1 blymn "static", "byte", "var" 81 1.1 blymn }; 82 1.1 blymn 83 1.1 blymn typedef struct { 84 1.1 blymn args_state_t arg_type; 85 1.1 blymn size_t arg_len; 86 1.1 blymn char *arg_string; 87 1.1 blymn int var_index; 88 1.1 blymn } args_t; 89 1.1 blymn 90 1.1 blymn typedef struct { 91 1.1 blymn char *function; 92 1.1 blymn int nrets; /* number of returns */ 93 1.1 blymn returns_t *returns; /* array of expected returns */ 94 1.1 blymn int nargs; /* number of arguments */ 95 1.1 blymn args_t *args; /* arguments for the call */ 96 1.1 blymn } cmd_line_t; 97 1.1 blymn 98 1.1 blymn static cmd_line_t command; 99 1.1 blymn 100 1.1 blymn typedef struct { 101 1.1 blymn char *name; 102 1.1 blymn size_t len; 103 1.1 blymn returns_enum_t type; 104 1.1 blymn void *value; 105 1.1 blymn } var_t; 106 1.1 blymn 107 1.1 blymn static size_t nvars; /* Number of declared variables */ 108 1.1 blymn static var_t *vars; /* Variables defined during the test. */ 109 1.1 blymn 110 1.1 blymn static int check_function_table(char *, const char *[], int); 111 1.1 blymn static int find_var_index(char *); 112 1.1 blymn static void assign_arg(args_state_t, void *); 113 1.1 blymn static int assign_var(char *); 114 1.1 blymn void init_parse_variables(int); 115 1.1 blymn static void validate(int, void *); 116 1.1 blymn static void validate_return(char *, char *, int); 117 1.1 blymn static void validate_variable(int, returns_enum_t, void *, int, int); 118 1.1 blymn static void validate_byte(returns_t *, returns_t *, int); 119 1.1 blymn static void write_cmd_pipe(char *); 120 1.1 blymn static void write_cmd_pipe_args(args_state_t, void *); 121 1.1 blymn static void read_cmd_pipe(returns_t *); 122 1.1 blymn static void write_func_and_args(); 123 1.1 blymn static void compare_streams(char *, bool); 124 1.1 blymn static void do_function_call(int); 125 1.1 blymn static void save_slave_output(bool); 126 1.1 blymn static void validate_type(returns_enum_t, returns_t *, int); 127 1.1 blymn static void set_var(returns_enum_t, char *, void *); 128 1.1 blymn static void validate_reference(int, void *); 129 1.1 blymn static char *numeric_or(char *, char *); 130 1.1 blymn static char *get_numeric_var(char *); 131 1.1 blymn 132 1.1 blymn static const char *input_functions[] = { 133 1.1 blymn "inch", "getch", "getnstr", "getstr", "innstr", "instr", "mvgetnstr", 134 1.1 blymn "mvgetstr", "mvinchstr", "mvinchnstr", "mvgetnstr", "mvgetstr", 135 1.1 blymn "mvinchstr", "mvinchnstr", "winch", "wgetch", "wgetnstr", "wgetstr", 136 1.1 blymn "winchnstr", "winchstr", "winnstr", "winstr" 137 1.1 blymn }; 138 1.1 blymn 139 1.1 blymn static const unsigned ninput_functions = 140 1.1 blymn sizeof(input_functions) / sizeof(char *); 141 1.1 blymn 142 1.1 blymn saved_data_t saved_output; 143 1.1 blymn 144 1.1 blymn %} 145 1.1 blymn 146 1.1 blymn %union { 147 1.1 blymn char *string; 148 1.1 blymn returns_t *retval; 149 1.1 blymn } 150 1.1 blymn 151 1.1 blymn %token <string> PATH 152 1.1 blymn %token <string> STRING 153 1.1 blymn %token <retval> BYTE 154 1.1 blymn %token <string> VARNAME 155 1.1 blymn %token <string> FILENAME 156 1.1 blymn %token <string> VARIABLE 157 1.1 blymn %token <string> REFERENCE 158 1.1 blymn %token <string> NULL_RET 159 1.1 blymn %token <string> NON_NULL 160 1.1 blymn %token <string> ERR_RET 161 1.1 blymn %token <string> OK_RET 162 1.1 blymn %token <string> numeric 163 1.1 blymn %token <string> DELAY 164 1.1 blymn %token <string> INPUT 165 1.1 blymn %token <string> COMPARE 166 1.1 blymn %token <string> COMPAREND 167 1.1 blymn %token <string> ASSIGN 168 1.1 blymn %token EOL CALL CHECK NOINPUT OR LHB RHB 169 1.1 blymn %token CALL2 CALL3 CALL4 DRAIN 170 1.1 blymn 171 1.1 blymn %nonassoc OR 172 1.1 blymn 173 1.1 blymn %% 174 1.1 blymn 175 1.1 blymn statement : /* empty */ 176 1.1 blymn | assign statement 177 1.1 blymn | call statement 178 1.1 blymn | call2 statement 179 1.1 blymn | call3 statement 180 1.1 blymn | call4 statement 181 1.1 blymn | check statement 182 1.1 blymn | delay statement 183 1.1 blymn | input statement 184 1.1 blymn | noinput statement 185 1.1 blymn | compare statement 186 1.1 blymn | comparend statement 187 1.1 blymn | eol statement 188 1.1 blymn ; 189 1.1 blymn 190 1.1 blymn assign : ASSIGN VARNAME numeric {set_var(ret_number, $2, $3);} eol 191 1.1 blymn | ASSIGN VARNAME LHB expr RHB {set_var(ret_number, $2, $<string>4);} eol 192 1.1 blymn | ASSIGN VARNAME STRING {set_var(ret_string, $2, $3);} eol 193 1.1 blymn | ASSIGN VARNAME BYTE {set_var(ret_byte, $2, $3);} eol 194 1.1 blymn ; 195 1.1 blymn 196 1.1 blymn call : CALL result fn_name args eol { 197 1.1 blymn do_function_call(1); 198 1.1 blymn } 199 1.1 blymn ; 200 1.1 blymn 201 1.1 blymn call2 : CALL2 result result fn_name args eol { 202 1.1 blymn do_function_call(2); 203 1.1 blymn } 204 1.1 blymn ; 205 1.1 blymn 206 1.1 blymn call3 : CALL3 result result result fn_name args eol { 207 1.1 blymn do_function_call(3); 208 1.1 blymn } 209 1.1 blymn ; 210 1.1 blymn 211 1.1 blymn call4 : CALL4 result result result result fn_name args eol { 212 1.1 blymn do_function_call(4); 213 1.1 blymn } 214 1.1 blymn ; 215 1.1 blymn 216 1.1 blymn check : CHECK var returns eol { 217 1.1 blymn returns_t ret_var; 218 1.1 blymn var_t *vptr; 219 1.1 blymn if (command.returns[0].return_index == -1) 220 1.1 blymn err(1, "Undefined variable in check statement, line %d" 221 1.1 blymn " of file %s", line, cur_file); 222 1.1 blymn 223 1.1 blymn if (verbose) 224 1.1 blymn fprintf(stderr, "Checking contents of variable %s for %s\n", 225 1.1 blymn vars[command.returns[0].return_index].name, 226 1.1 blymn returns_enum_names[command.returns[1].return_type]); 227 1.1 blymn 228 1.1 blymn if (((command.returns[1].return_type == arg_byte) && 229 1.1 blymn (vars[command.returns[0].return_index].type != ret_byte)) || 230 1.1 blymn ((command.returns[1].return_type == arg_static) && 231 1.1 blymn (vars[command.returns[0].return_index].type != ret_string))) 232 1.1 blymn err(1, "Var type %s (%d) does not match return type %s (%d)", 233 1.1 blymn returns_enum_names[vars[command.returns[0].return_index].type], 234 1.1 blymn vars[command.returns[0].return_index].type, 235 1.1 blymn returns_enum_names[command.returns[1].return_type], 236 1.1 blymn command.returns[1].return_type); 237 1.1 blymn 238 1.1 blymn switch (command.returns[1].return_type) { 239 1.1 blymn case ret_err: 240 1.1 blymn validate_variable(0, ret_string, "ERR", 241 1.1 blymn command.returns[0].return_index, 0); 242 1.1 blymn break; 243 1.1 blymn 244 1.1 blymn case ret_ok: 245 1.1 blymn validate_variable(0, ret_string, "OK", 246 1.1 blymn command.returns[0].return_index, 0); 247 1.1 blymn break; 248 1.1 blymn 249 1.1 blymn case ret_null: 250 1.1 blymn validate_variable(0, ret_string, "NULL", 251 1.1 blymn command.returns[0].return_index, 0); 252 1.1 blymn break; 253 1.1 blymn 254 1.1 blymn case ret_nonnull: 255 1.1 blymn validate_variable(0, ret_string, "NULL", 256 1.1 blymn command.returns[0].return_index, 1); 257 1.1 blymn break; 258 1.1 blymn 259 1.1 blymn case ret_string: 260 1.1 blymn case ret_number: 261 1.1 blymn if (verbose) 262 1.1 blymn fprintf(stderr, " %s == returned %s\n", 263 1.1 blymn command.returns[1].return_value, 264 1.1 blymn vars[command.returns[0].return_index].value); 265 1.1 blymn validate_variable(0, ret_string, 266 1.1 blymn command.returns[1].return_value, 267 1.1 blymn command.returns[0].return_index, 0); 268 1.1 blymn break; 269 1.1 blymn 270 1.1 blymn case ret_byte: 271 1.1 blymn vptr = &vars[command.returns[0].return_index]; 272 1.1 blymn ret_var.return_len = vptr->len; 273 1.1 blymn ret_var.return_type = vptr->type; 274 1.1 blymn ret_var.return_value = vptr->value; 275 1.1 blymn validate_byte(&ret_var, &command.returns[1], 0); 276 1.1 blymn break; 277 1.1 blymn 278 1.1 blymn default: 279 1.1 blymn err(1, "Malformed check statement at line %d " 280 1.1 blymn "of file %s", line, cur_file); 281 1.1 blymn break; 282 1.1 blymn } 283 1.1 blymn 284 1.1 blymn init_parse_variables(0); 285 1.1 blymn } 286 1.1 blymn ; 287 1.1 blymn 288 1.1 blymn delay : DELAY numeric eol { 289 1.1 blymn /* set the inter-character delay */ 290 1.1 blymn if (sscanf($2, "%d", &input_delay) == 0) 291 1.1 blymn err(1, "delay specification %s could not be converted to " 292 1.1 blymn "numeric at line %d of file %s", $2, line, cur_file); 293 1.1 blymn if (verbose) 294 1.1 blymn fprintf(stderr, "Set input delay to %d ms\n", input_delay); 295 1.1 blymn 296 1.1 blymn if (input_delay < DELAY_MIN) 297 1.1 blymn input_delay = 1000 * DELAY_MIN; /* ms to ns */ 298 1.1 blymn /* 299 1.1 blymn * Fill in the timespec structure now ready for use later. 300 1.1 blymn * The delay is specified in milliseconds so convert to timespec 301 1.1 blymn * values 302 1.1 blymn */ 303 1.1 blymn delay_spec.tv_sec = input_delay / 1000; 304 1.1 blymn delay_spec.tv_nsec = (input_delay - 1000 * delay_spec.tv_sec) * 1000; 305 1.1 blymn 306 1.1 blymn init_parse_variables(0); 307 1.1 blymn } 308 1.1 blymn ; 309 1.1 blymn 310 1.1 blymn input : INPUT STRING eol { 311 1.1 blymn if (input_str != NULL) { 312 1.1 blymn fprintf(stderr, "WARNING: Discarding unused input string at " 313 1.1 blymn "line %d of file %s\n", line, cur_file); 314 1.1 blymn free(input_str); 315 1.1 blymn } 316 1.1 blymn 317 1.1 blymn if ((input_str = malloc(strlen($2) + 1)) == NULL) 318 1.1 blymn err(2, "Cannot allocate memory for input string"); 319 1.1 blymn 320 1.1 blymn strlcpy(input_str, $2, strlen($2) + 1); 321 1.1 blymn } 322 1.1 blymn ; 323 1.1 blymn 324 1.1 blymn 325 1.1 blymn noinput : NOINPUT eol { 326 1.1 blymn if (input_str != NULL) { 327 1.1 blymn fprintf(stderr, "WARNING: Discarding unused input string at " 328 1.1 blymn "line %d of file %s\n", line, cur_file); 329 1.1 blymn free(input_str); 330 1.1 blymn } 331 1.1 blymn 332 1.1 blymn no_input = true; 333 1.1 blymn } 334 1.1 blymn 335 1.1 blymn compare : COMPARE PATH eol 336 1.1 blymn | COMPARE FILENAME eol 337 1.1 blymn { 338 1.1 blymn compare_streams($2, true); 339 1.1 blymn } 340 1.1 blymn ; 341 1.1 blymn 342 1.1 blymn 343 1.1 blymn comparend : COMPAREND PATH eol 344 1.1 blymn | COMPAREND FILENAME eol 345 1.1 blymn { 346 1.1 blymn compare_streams($2, false); 347 1.1 blymn } 348 1.1 blymn ; 349 1.1 blymn 350 1.1 blymn 351 1.1 blymn result : returns 352 1.1 blymn | var 353 1.1 blymn | reference 354 1.1 blymn ; 355 1.1 blymn 356 1.1 blymn returns : numeric { assign_rets(ret_number, $1); } 357 1.1 blymn | LHB expr RHB { assign_rets(ret_number, $<string>2); } 358 1.1 blymn | STRING { assign_rets(ret_string, $1); } 359 1.1 blymn | BYTE { assign_rets(ret_byte, (void *) $1); } 360 1.1 blymn | ERR_RET { assign_rets(ret_err, NULL); } 361 1.1 blymn | OK_RET { assign_rets(ret_ok, NULL); } 362 1.1 blymn | NULL_RET { assign_rets(ret_null, NULL); } 363 1.1 blymn | NON_NULL { assign_rets(ret_nonnull, NULL); } 364 1.1 blymn ; 365 1.1 blymn 366 1.1 blymn var : VARNAME { 367 1.1 blymn assign_rets(ret_var, $1); 368 1.1 blymn } 369 1.1 blymn ; 370 1.1 blymn 371 1.1 blymn reference : VARIABLE { 372 1.1 blymn assign_rets(ret_ref, $1); 373 1.1 blymn } 374 1.1 blymn 375 1.1 blymn fn_name : VARNAME { 376 1.1 blymn if (command.function != NULL) 377 1.1 blymn free(command.function); 378 1.1 blymn 379 1.1 blymn command.function = malloc(strlen($1) + 1); 380 1.1 blymn if (command.function == NULL) 381 1.1 blymn err(1, "Could not allocate memory for function name"); 382 1.1 blymn strcpy(command.function, $1); 383 1.1 blymn } 384 1.1 blymn ; 385 1.1 blymn 386 1.1 blymn expr : numeric 387 1.1 blymn | VARIABLE 388 1.1 blymn { $<string>$ = get_numeric_var($1); } 389 1.1 blymn | expr OR expr 390 1.1 blymn { $<string>$ = numeric_or($<string>1, $<string>3); } 391 1.1 blymn ; 392 1.1 blymn 393 1.1 blymn args : /* empty */ 394 1.1 blymn | LHB expr RHB { assign_arg(arg_static, $<string>2); } args 395 1.1 blymn | numeric { assign_arg(arg_static, $1); } args 396 1.1 blymn | STRING { assign_arg(arg_static, $1); } args 397 1.1 blymn | BYTE { assign_arg(arg_byte, $1); } args 398 1.1 blymn | PATH { assign_arg(arg_static, $1); } args 399 1.1 blymn | FILENAME { assign_arg(arg_static, $1); } args 400 1.1 blymn | VARNAME { assign_arg(arg_static, $1); } args 401 1.1 blymn | VARIABLE { assign_arg(arg_var, $1); } args 402 1.1 blymn ; 403 1.1 blymn 404 1.1 blymn eol : EOL 405 1.1 blymn ; 406 1.1 blymn 407 1.1 blymn %% 408 1.1 blymn 409 1.1 blymn /* 410 1.1 blymn * Get the value of a variable, error if the variable has not been set or 411 1.1 blymn * is not a numeric type. 412 1.1 blymn */ 413 1.1 blymn static char * 414 1.1 blymn get_numeric_var(char *var) 415 1.1 blymn { 416 1.1 blymn int index; 417 1.1 blymn 418 1.1 blymn if ((index = find_var_index(var)) < 0) 419 1.1 blymn err(1, "Variable %s is undefined", var); 420 1.1 blymn 421 1.1 blymn if (vars[index].type != ret_number) 422 1.1 blymn err(1, "Variable %s is not a numeric type"); 423 1.1 blymn 424 1.1 blymn return vars[index].value; 425 1.1 blymn } 426 1.1 blymn 427 1.1 blymn /* 428 1.1 blymn * Perform a bitwise OR on two numbers and return the result. 429 1.1 blymn */ 430 1.1 blymn static char * 431 1.1 blymn numeric_or(char *n1, char *n2) 432 1.1 blymn { 433 1.1 blymn unsigned long i1, i2, result; 434 1.1 blymn char *ret; 435 1.1 blymn 436 1.1 blymn i1 = strtoul(n1, NULL, 10); 437 1.1 blymn i2 = strtoul(n2, NULL, 10); 438 1.1 blymn 439 1.1 blymn result = i1 | i2; 440 1.1 blymn asprintf(&ret, "%lu", result); 441 1.1 blymn 442 1.1 blymn if (verbose) 443 1.1 blymn fprintf(stderr, 444 1.1 blymn "numeric or of 0x%lx (%s) and 0x%lx (%s) results" 445 1.1 blymn " in 0x%lx (%s)\n", 446 1.1 blymn i1, n1, i2, n2, result, ret); 447 1.1 blymn 448 1.1 blymn return ret; 449 1.1 blymn } 450 1.1 blymn 451 1.1 blymn /* 452 1.1 blymn * Assign the value given to the named variable. 453 1.1 blymn */ 454 1.1 blymn static void 455 1.1 blymn set_var(returns_enum_t type, char *name, void *value) 456 1.1 blymn { 457 1.1 blymn int index; 458 1.1 blymn char *number; 459 1.1 blymn returns_t *ret; 460 1.1 blymn 461 1.1 blymn index = find_var_index(name); 462 1.1 blymn if (index < 0) 463 1.1 blymn index = assign_var(name); 464 1.1 blymn 465 1.1 blymn vars[index].type = type; 466 1.1 blymn if ((type == ret_number) || (type == ret_string)) { 467 1.1 blymn number = value; 468 1.1 blymn vars[index].len = strlen(number) + 1; 469 1.1 blymn vars[index].value = malloc(vars[index].len + 1); 470 1.1 blymn if (vars[index].value == NULL) 471 1.1 blymn err(1, "Could not malloc memory for assign string"); 472 1.1 blymn strcpy(vars[index].value, number); 473 1.1 blymn } else { 474 1.1 blymn /* can only be a byte value */ 475 1.1 blymn ret = value; 476 1.1 blymn vars[index].len = ret->return_len; 477 1.1 blymn vars[index].value = malloc(vars[index].len); 478 1.1 blymn if (vars[index].value == NULL) 479 1.1 blymn err(1, "Could not malloc memory to assign byte string"); 480 1.1 blymn memcpy(vars[index].value, ret->return_value, vars[index].len); 481 1.1 blymn } 482 1.1 blymn } 483 1.1 blymn 484 1.1 blymn /* 485 1.1 blymn * Add a new variable to the vars array, the value will be assigned later, 486 1.1 blymn * when a test function call returns. 487 1.1 blymn */ 488 1.1 blymn static int 489 1.1 blymn assign_var(char *varname) 490 1.1 blymn { 491 1.1 blymn var_t *temp; 492 1.1 blymn char *name; 493 1.1 blymn 494 1.1 blymn if ((name = malloc(strlen(varname) + 1)) == NULL) 495 1.1 blymn err(1, "Alloc of varname failed"); 496 1.1 blymn 497 1.1 blymn if ((temp = (var_t *) realloc(vars, sizeof(var_t) * (nvars + 1))) 498 1.1 blymn == NULL) { 499 1.1 blymn free(name); 500 1.1 blymn err(1, "Realloc of vars array failed"); 501 1.1 blymn } 502 1.1 blymn 503 1.1 blymn strcpy(name, varname); 504 1.1 blymn vars = temp; 505 1.1 blymn vars[nvars].name = name; 506 1.1 blymn vars[nvars].len = 0; 507 1.1 blymn vars[nvars].value = NULL; 508 1.1 blymn nvars++; 509 1.1 blymn 510 1.1 blymn return (nvars - 1); 511 1.1 blymn } 512 1.1 blymn 513 1.1 blymn /* 514 1.1 blymn * Allocate and assign a new argument of the given type. 515 1.1 blymn */ 516 1.1 blymn static void 517 1.1 blymn assign_arg(args_state_t arg_type, void *arg) 518 1.1 blymn { 519 1.1 blymn args_t *temp, cur; 520 1.1 blymn char *str; 521 1.1 blymn returns_t *ret; 522 1.1 blymn 523 1.1 blymn if (verbose) 524 1.1 blymn printf("function is >%s<, adding arg >%s< type %s\n", 525 1.1 blymn command.function, arg, args_enum_names[arg_type]); 526 1.1 blymn 527 1.1 blymn cur.arg_type = arg_type; 528 1.1 blymn if (arg_type != arg_var) { 529 1.1 blymn if (arg_type != arg_byte) { 530 1.1 blymn str = arg; 531 1.1 blymn cur.arg_len = strlen(str); 532 1.1 blymn cur.arg_string = malloc(cur.arg_len + 1); 533 1.1 blymn if (cur.arg_string == NULL) 534 1.1 blymn err(1, 535 1.1 blymn "Could not malloc memory for arg string"); 536 1.1 blymn strcpy(cur.arg_string, arg); 537 1.1 blymn } else { 538 1.1 blymn ret = arg; 539 1.1 blymn cur.arg_len = ret->return_len; 540 1.1 blymn cur.arg_string = malloc(cur.arg_len); 541 1.1 blymn if (cur.arg_string == NULL) 542 1.1 blymn err(1, 543 1.1 blymn "Could not malloc memory for arg bytes"); 544 1.1 blymn memcpy(cur.arg_string, ret->return_value, 545 1.1 blymn cur.arg_len); 546 1.1 blymn } 547 1.1 blymn } else { 548 1.1 blymn cur.var_index = find_var_index(arg); 549 1.1 blymn if (cur.var_index < 0) 550 1.1 blymn err(1, "Invalid variable %s at line %d of file %s", 551 1.1 blymn arg, line, cur_file); 552 1.1 blymn cur.arg_type = ret_string; 553 1.1 blymn } 554 1.1 blymn 555 1.1 blymn temp = realloc(command.args, sizeof(args_t) * (command.nargs + 1)); 556 1.1 blymn if (temp == NULL) 557 1.1 blymn err(1, "Failed to reallocate args"); 558 1.1 blymn command.args = temp; 559 1.1 blymn memcpy(&command.args[command.nargs], &cur, sizeof(args_t)); 560 1.1 blymn command.nargs++; 561 1.1 blymn } 562 1.1 blymn 563 1.1 blymn /* 564 1.1 blymn * Allocate and assign a new return. 565 1.1 blymn */ 566 1.1 blymn static void 567 1.1 blymn assign_rets(returns_enum_t ret_type, void *ret) 568 1.1 blymn { 569 1.1 blymn returns_t *temp, cur; 570 1.1 blymn char *ret_str; 571 1.1 blymn returns_t *ret_ret; 572 1.1 blymn 573 1.1 blymn cur.return_type = ret_type; 574 1.1 blymn if (ret_type != ret_var) { 575 1.1 blymn if ((ret_type == ret_number) || (ret_type == ret_string)) { 576 1.1 blymn ret_str = ret; 577 1.1 blymn cur.return_len = strlen(ret_str) + 1; 578 1.1 blymn cur.return_value = malloc(cur.return_len + 1); 579 1.1 blymn if (cur.return_value == NULL) 580 1.1 blymn err(1, 581 1.1 blymn "Could not malloc memory for arg string"); 582 1.1 blymn strcpy(cur.return_value, ret_str); 583 1.1 blymn } else if (ret_type == ret_byte) { 584 1.1 blymn ret_ret = ret; 585 1.1 blymn cur.return_len = ret_ret->return_len; 586 1.1 blymn cur.return_value = malloc(cur.return_len); 587 1.1 blymn if (cur.return_value == NULL) 588 1.1 blymn err(1, 589 1.1 blymn "Could not malloc memory for byte string"); 590 1.1 blymn memcpy(cur.return_value, ret_ret->return_value, 591 1.1 blymn cur.return_len); 592 1.1 blymn } else if (ret_type == ret_ref) { 593 1.1 blymn if ((cur.return_index = find_var_index(ret)) < 0) 594 1.1 blymn err(1, "Undefined variable reference"); 595 1.1 blymn } 596 1.1 blymn } else { 597 1.1 blymn cur.return_index = find_var_index(ret); 598 1.1 blymn if (cur.return_index < 0) 599 1.1 blymn cur.return_index = assign_var(ret); 600 1.1 blymn } 601 1.1 blymn 602 1.1 blymn temp = realloc(command.returns, 603 1.1 blymn sizeof(returns_t) * (command.nrets + 1)); 604 1.1 blymn if (temp == NULL) 605 1.1 blymn err(1, "Failed to reallocate returns"); 606 1.1 blymn command.returns = temp; 607 1.1 blymn memcpy(&command.returns[command.nrets], &cur, sizeof(returns_t)); 608 1.1 blymn command.nrets++; 609 1.1 blymn } 610 1.1 blymn 611 1.1 blymn /* 612 1.1 blymn * Find the given variable name in the var array and return the index 613 1.1 blymn * return -1 if var is not found. 614 1.1 blymn */ 615 1.1 blymn static int 616 1.1 blymn find_var_index(char *var_name) 617 1.1 blymn { 618 1.1 blymn int result, i; 619 1.1 blymn 620 1.1 blymn result = -1; 621 1.1 blymn 622 1.1 blymn for (i = 0; i < nvars; i++) { 623 1.1 blymn if (strcmp(var_name, vars[i].name) == 0) { 624 1.1 blymn result = i; 625 1.1 blymn break; 626 1.1 blymn } 627 1.1 blymn } 628 1.1 blymn 629 1.1 blymn return result; 630 1.1 blymn } 631 1.1 blymn 632 1.1 blymn /* 633 1.1 blymn * Check the given function name in the given table of names, return 1 if 634 1.1 blymn * there is a match. 635 1.1 blymn */ 636 1.1 blymn static int check_function_table(char *function, const char *table[], 637 1.1 blymn int nfunctions) 638 1.1 blymn { 639 1.1 blymn int i; 640 1.1 blymn 641 1.1 blymn for (i = 0; i < nfunctions; i++) { 642 1.1 blymn if ((strlen(function) == strlen(table[i])) && 643 1.1 blymn (strcmp(function, table[i]) == 0)) 644 1.1 blymn return 1; 645 1.1 blymn } 646 1.1 blymn 647 1.1 blymn return 0; 648 1.1 blymn } 649 1.1 blymn 650 1.1 blymn /* 651 1.1 blymn * Compare the output from the slave against the given file and report 652 1.1 blymn * any differences. 653 1.1 blymn */ 654 1.1 blymn static void 655 1.1 blymn compare_streams(char *filename, bool discard) 656 1.1 blymn { 657 1.1 blymn char check_file[PATH_MAX], drain, ref, data; 658 1.1 blymn struct pollfd fds[2]; 659 1.1 blymn int nfd, check_fd, result; 660 1.1 blymn 661 1.1 blymn /* 662 1.1 blymn * Don't prepend check path iff check file has an absolute 663 1.1 blymn * path. 664 1.1 blymn */ 665 1.1 blymn if (filename[0] != '/') { 666 1.1 blymn if (strlcpy(check_file, check_path, sizeof(check_file)) 667 1.1 blymn >= sizeof(check_file)) 668 1.1 blymn err(2, "CHECK_PATH too long"); 669 1.1 blymn 670 1.1 blymn if (strlcat(check_file, "/", sizeof(check_file)) 671 1.1 blymn >= sizeof(check_file)) 672 1.1 blymn err(2, "Could not append / to check file path"); 673 1.1 blymn } else { 674 1.1 blymn check_file[0] = '\0'; 675 1.1 blymn } 676 1.1 blymn 677 1.1 blymn if (strlcat(check_file, filename, sizeof(check_file)) 678 1.1 blymn >= sizeof(check_file)) 679 1.1 blymn err(2, "Path to check file path overflowed"); 680 1.1 blymn 681 1.1 blymn if ((check_fd = open(check_file, O_RDONLY, 0)) < 0) 682 1.1 blymn err(2, "failed to open file %s line %d of file %s", 683 1.1 blymn check_file, line, cur_file); 684 1.1 blymn 685 1.1 blymn fds[0].fd = check_fd; 686 1.1 blymn fds[0].events = POLLIN; 687 1.1 blymn fds[0].revents = 0; 688 1.1 blymn fds[1].fd = master; 689 1.1 blymn fds[1].events = POLLIN; 690 1.1 blymn fds[1].revents = 0; 691 1.1 blymn 692 1.1 blymn nfd = 2; 693 1.1 blymn /* 694 1.1 blymn * if we have saved output then only check for data in the 695 1.1 blymn * reference file since the slave data may already be drained. 696 1.1 blymn */ 697 1.1 blymn if (saved_output.count > 0) 698 1.1 blymn nfd = 1; 699 1.1 blymn 700 1.1 blymn while (poll(&fds[0], nfd, 500) == nfd) { 701 1.1 blymn if ((result = read(check_fd, &ref, 1)) < 1) { 702 1.1 blymn if (result != 0) { 703 1.1 blymn fprintf(stderr, "Bad read on file %s\n", 704 1.1 blymn check_file); 705 1.1 blymn exit(2); 706 1.1 blymn } else { 707 1.1 blymn break; 708 1.1 blymn } 709 1.1 blymn } 710 1.1 blymn 711 1.1 blymn if (saved_output.count > 0) { 712 1.1 blymn data = saved_output.data[saved_output.readp]; 713 1.1 blymn saved_output.count--; 714 1.1 blymn saved_output.readp++; 715 1.1 blymn /* run out of saved data, switch to file */ 716 1.1 blymn if (saved_output.count == 0) 717 1.1 blymn nfd = 2; 718 1.1 blymn } else { 719 1.1 blymn if (read(master, &data, 1) < 1) 720 1.1 blymn err(2, "Bad read on slave pty"); 721 1.1 blymn } 722 1.1 blymn 723 1.1 blymn if (verbose) { 724 1.1 blymn fprintf(stderr, "Comparing reference byte 0x%x (%c)" 725 1.1 blymn " against slave byte 0x%x (%c)\n", ref, 726 1.1 blymn (ref >= ' ')? ref : '-', 727 1.1 blymn data, (data >= ' ')? data : '-'); 728 1.1 blymn } 729 1.1 blymn 730 1.1 blymn if (ref != data) { 731 1.1 blymn fprintf(stderr, "refresh data from slave does " 732 1.1 blymn "not match expected from file %s, " 733 1.1 blymn "line %d of file %s\n", 734 1.1 blymn check_file, line, cur_file); 735 1.1 blymn 736 1.1 blymn if (!verbose) 737 1.1 blymn exit(2); 738 1.1 blymn } 739 1.1 blymn 740 1.1 blymn fds[0].revents = 0; 741 1.1 blymn fds[1].revents = 0; 742 1.1 blymn } 743 1.1 blymn 744 1.1 blymn 745 1.1 blymn if (saved_output.count > 0) 746 1.1 blymn fprintf(stderr, "Warning: excess saved data from " 747 1.1 blymn "slave at line %d of file %s\n", line, cur_file); 748 1.1 blymn 749 1.1 blymn /* discard any excess saved output if required */ 750 1.1 blymn if (discard) { 751 1.1 blymn saved_output.count = 0; 752 1.1 blymn saved_output.readp = 0; 753 1.1 blymn } 754 1.1 blymn 755 1.1 blymn fds[0].revents = 0; 756 1.1 blymn fds[1].revents = 0; 757 1.1 blymn if ((result = poll(&fds[0], 2, 0)) != 0) { 758 1.1 blymn if (result == -1) 759 1.1 blymn err(2, "poll of file descriptors failed"); 760 1.1 blymn 761 1.1 blymn if ((fds[1].revents && POLLIN) == POLLIN) { 762 1.1 blymn save_slave_output(true); 763 1.1 blymn } else { 764 1.1 blymn /* 765 1.1 blymn * handle excess in file if it exists. Poll 766 1.1 blymn * says there is data until EOF is read. 767 1.1 blymn * Check next read is EOF, if it is not then 768 1.1 blymn * the file really has more data than the 769 1.1 blymn * slave produced so flag this as a warning. 770 1.1 blymn */ 771 1.1 blymn result = read(check_fd, &drain, 1); 772 1.1 blymn if (result == -1) 773 1.1 blymn err("read of data file failed"); 774 1.1 blymn 775 1.1 blymn if (result > 0) { 776 1.1 blymn fprintf(stderr, "Error: excess data " 777 1.1 blymn "in file %s\n", check_file); 778 1.1 blymn if (!verbose) 779 1.1 blymn exit(2); 780 1.1 blymn } 781 1.1 blymn } 782 1.1 blymn } 783 1.1 blymn 784 1.1 blymn close(check_fd); 785 1.1 blymn } 786 1.1 blymn 787 1.1 blymn /* 788 1.1 blymn * Pass a function call and arguments to the slave and wait for the 789 1.1 blymn * results. The variable nresults determines how many returns we expect 790 1.1 blymn * back from the slave. These results will be validated against the 791 1.1 blymn * expected returns or assigned to variables. 792 1.1 blymn */ 793 1.1 blymn static void 794 1.1 blymn do_function_call(int nresults) 795 1.1 blymn { 796 1.1 blymn #define MAX_RESULTS 4 797 1.1 blymn char *p; 798 1.1 blymn int i, do_input, nfd; 799 1.1 blymn struct pollfd fds[3]; 800 1.1 blymn returns_t response[MAX_RESULTS], returns_count; 801 1.1 blymn 802 1.1 blymn assert(nresults <= MAX_RESULTS); 803 1.1 blymn 804 1.1 blymn do_input = check_function_table(command.function, input_functions, 805 1.1 blymn ninput_functions); 806 1.1 blymn 807 1.1 blymn write_func_and_args(); 808 1.1 blymn 809 1.1 blymn /* 810 1.1 blymn * We should get the number of returns back here, grab it before 811 1.1 blymn * doing input otherwise it will confuse the input poll 812 1.1 blymn */ 813 1.1 blymn read_cmd_pipe(&returns_count); 814 1.1 blymn if (returns_count.return_type != ret_count ) 815 1.1 blymn err(2, "expected return type of ret_count but received %s", 816 1.1 blymn returns_enum_names[returns_count.return_type]); 817 1.1 blymn 818 1.1 blymn if (verbose) 819 1.1 blymn fprintf(stderr, "Expect %d results from slave, slave " 820 1.1 blymn "reported %d\n", nresults, returns_count.return_len); 821 1.1 blymn 822 1.1 blymn if ((no_input == false) && (do_input == 1)) { 823 1.1 blymn if (verbose) 824 1.1 blymn fprintf(stderr, "doing input with inputstr >%s<\n", 825 1.1 blymn input_str); 826 1.1 blymn 827 1.1 blymn if (input_str == NULL) { 828 1.1 blymn fprintf(stderr, "Error: Call to input function at " 829 1.1 blymn " line %d of file %s but no input defined", 830 1.1 blymn line, cur_file); 831 1.1 blymn exit(2); 832 1.1 blymn } 833 1.1 blymn 834 1.1 blymn fds[0].fd = slvpipe[READ_PIPE]; 835 1.1 blymn fds[0].events = POLLIN; 836 1.1 blymn p = input_str; 837 1.1 blymn save_slave_output(false); 838 1.1 blymn while(*p != '\0') { 839 1.1 blymn if (verbose) { 840 1.1 blymn fprintf(stderr, "Writing char >%c< to slave\n", 841 1.1 blymn *p); 842 1.1 blymn fflush(stderr); 843 1.1 blymn } 844 1.1 blymn 845 1.1 blymn nanosleep(&delay_spec, NULL); 846 1.1 blymn 847 1.1 blymn write(master, p, 1); 848 1.1 blymn save_slave_output(false); 849 1.1 blymn 850 1.1 blymn p++; 851 1.1 blymn fds[0].revents = 0; 852 1.1 blymn 853 1.1 blymn /* check for slave function returning unexpectedly */ 854 1.1 blymn if ((poll(&fds[0], 1, 10) > 0) && (*p != '\0')) { 855 1.1 blymn fprintf(stderr, "Warning: slave function " 856 1.1 blymn "returned before end of input string" 857 1.1 blymn " at line %d of file %s\n", 858 1.1 blymn line, cur_file); 859 1.1 blymn break; 860 1.1 blymn } 861 1.1 blymn } 862 1.1 blymn 863 1.1 blymn if (verbose) { 864 1.1 blymn fprintf(stderr, "Input done.\n"); 865 1.1 blymn } 866 1.1 blymn 867 1.1 blymn /* done with the input string, free the resources */ 868 1.1 blymn free(input_str); 869 1.1 blymn input_str = NULL; 870 1.1 blymn } 871 1.1 blymn 872 1.1 blymn if (verbose) { 873 1.1 blymn fds[0].fd = slvpipe[READ_PIPE]; 874 1.1 blymn fds[0].events = POLLIN; 875 1.1 blymn fds[0].revents = 0; 876 1.1 blymn 877 1.1 blymn fds[1].fd = slvpipe[WRITE_PIPE]; 878 1.1 blymn fds[1].events = POLLOUT; 879 1.1 blymn fds[1].revents = 0; 880 1.1 blymn 881 1.1 blymn fds[2].fd = master; 882 1.1 blymn fds[2].events = POLLIN | POLLOUT; 883 1.1 blymn fds[2].revents = 0; 884 1.1 blymn 885 1.1 blymn i = poll(&fds[0], 3, 1000); 886 1.1 blymn fprintf(stderr, "Poll returned %d\n", i); 887 1.1 blymn for (i = 0; i < 3; i++) { 888 1.1 blymn fprintf(stderr, "revents for fd[%d] = 0x%x\n", 889 1.1 blymn i, fds[i].revents); 890 1.1 blymn } 891 1.1 blymn } 892 1.1 blymn 893 1.1 blymn /* drain any trailing output */ 894 1.1 blymn save_slave_output(false); 895 1.1 blymn 896 1.1 blymn for (i = 0; i < returns_count.return_len; i++) { 897 1.1 blymn read_cmd_pipe(&response[i]); 898 1.1 blymn } 899 1.1 blymn 900 1.1 blymn /* 901 1.1 blymn * Check for a slave error in the first return slot, if the 902 1.1 blymn * slave errored then we may not have the number of returns we 903 1.1 blymn * expect but in this case we should report the slave error 904 1.1 blymn * instead of a return count mismatch. 905 1.1 blymn */ 906 1.1 blymn if ((returns_count.return_len > 0) && 907 1.1 blymn (response[0].return_type == ret_slave_error)) 908 1.1 blymn err(2, "Slave returned error: %s", response[0].return_value); 909 1.1 blymn 910 1.1 blymn if (returns_count.return_len != nresults) 911 1.1 blymn err(2, "Incorrect number of returns from slave, expected %d " 912 1.1 blymn "but received %d", nresults, returns_count.return_len); 913 1.1 blymn 914 1.1 blymn if (verbose) { 915 1.1 blymn for (i = 0; i < nresults; i++) { 916 1.1 blymn if ((response[i].return_type != ret_byte) && 917 1.1 blymn (response[i].return_type != ret_err) && 918 1.1 blymn (response[i].return_type != ret_ok)) 919 1.1 blymn fprintf(stderr, 920 1.1 blymn "received response >%s< " 921 1.1 blymn "expected", response[i].return_value); 922 1.1 blymn else 923 1.1 blymn fprintf(stderr, "received"); 924 1.1 blymn 925 1.1 blymn fprintf(stderr, " return_type %s\n", 926 1.1 blymn returns_enum_names[command.returns[i].return_type]); 927 1.1 blymn } 928 1.1 blymn } 929 1.1 blymn 930 1.1 blymn for (i = 0; i < nresults; i++) { 931 1.1 blymn if (command.returns[i].return_type != ret_var) { 932 1.1 blymn validate(i, &response[i]); 933 1.1 blymn } else { 934 1.1 blymn vars[command.returns[i].return_index].len = 935 1.1 blymn response[i].return_len; 936 1.1 blymn vars[command.returns[i].return_index].value = 937 1.1 blymn response[i].return_value; 938 1.1 blymn vars[command.returns[i].return_index].type = 939 1.1 blymn response[i].return_type; 940 1.1 blymn } 941 1.1 blymn } 942 1.1 blymn 943 1.1 blymn if (saved_output.count > 0) 944 1.1 blymn fprintf(stderr, "Warning: excess data from slave at line %d" 945 1.1 blymn " of file %s\n", line, cur_file); 946 1.1 blymn 947 1.1 blymn init_parse_variables(0); 948 1.1 blymn } 949 1.1 blymn 950 1.1 blymn /* 951 1.1 blymn * Write the function and command arguments to the command pipe. 952 1.1 blymn */ 953 1.1 blymn static void 954 1.1 blymn write_func_and_args() 955 1.1 blymn { 956 1.1 blymn int i; 957 1.1 blymn 958 1.1 blymn if (verbose) 959 1.1 blymn fprintf(stderr, "calling function >%s<\n", command.function); 960 1.1 blymn 961 1.1 blymn write_cmd_pipe(command.function); 962 1.1 blymn for (i = 0; i < command.nargs; i++) { 963 1.1 blymn if (command.args[i].arg_type == arg_var) 964 1.1 blymn write_cmd_pipe_args(command.args[i].arg_type, 965 1.1 blymn &vars[command.args[i].var_index]); 966 1.1 blymn else 967 1.1 blymn write_cmd_pipe_args(command.args[i].arg_type, 968 1.1 blymn &command.args[i]); 969 1.1 blymn } 970 1.1 blymn 971 1.1 blymn write_cmd_pipe(NULL); /* signal end of arguments */ 972 1.1 blymn } 973 1.1 blymn 974 1.1 blymn /* 975 1.1 blymn * Initialise the command structure - if initial is non-zero then just set 976 1.1 blymn * everything to sane values otherwise free any memory that was allocated 977 1.1 blymn * when building the structure. 978 1.1 blymn */ 979 1.1 blymn void 980 1.1 blymn init_parse_variables(int initial) 981 1.1 blymn { 982 1.1 blymn int i, result; 983 1.1 blymn struct pollfd slave_pty; 984 1.1 blymn 985 1.1 blymn if (initial == 0) { 986 1.1 blymn free(command.function); 987 1.1 blymn for (i = 0; i < command.nrets; i++) { 988 1.1 blymn if (command.returns[i].return_type == ret_number) 989 1.1 blymn free(command.returns[i].return_value); 990 1.1 blymn } 991 1.1 blymn free(command.returns); 992 1.1 blymn 993 1.1 blymn for (i = 0; i < command.nargs; i++) { 994 1.1 blymn if (command.args[i].arg_type != arg_var) 995 1.1 blymn free(command.args[i].arg_string); 996 1.1 blymn } 997 1.1 blymn free(command.args); 998 1.1 blymn } else { 999 1.1 blymn line = 0; 1000 1.1 blymn input_delay = 0; 1001 1.1 blymn vars = NULL; 1002 1.1 blymn nvars = 0; 1003 1.1 blymn input_str = NULL; 1004 1.1 blymn saved_output.allocated = 0; 1005 1.1 blymn saved_output.count = 0; 1006 1.1 blymn saved_output.readp = 0; 1007 1.1 blymn saved_output.data = NULL; 1008 1.1 blymn } 1009 1.1 blymn 1010 1.1 blymn no_input = false; 1011 1.1 blymn command.function = NULL; 1012 1.1 blymn command.nargs = 0; 1013 1.1 blymn command.args = NULL; 1014 1.1 blymn command.nrets = 0; 1015 1.1 blymn command.returns = NULL; 1016 1.1 blymn 1017 1.1 blymn /* 1018 1.1 blymn * Check the slave pty for stray output from the slave, at this 1019 1.1 blymn * point we should not see any data as it should have been 1020 1.1 blymn * consumed by the test functions. If we see data then we have 1021 1.1 blymn * either a bug or are not handling an output generating function 1022 1.1 blymn * correctly. 1023 1.1 blymn */ 1024 1.1 blymn slave_pty.fd = master; 1025 1.1 blymn slave_pty.events = POLLIN; 1026 1.1 blymn slave_pty.revents = 0; 1027 1.1 blymn result = poll(&slave_pty, 1, 0); 1028 1.1 blymn 1029 1.1 blymn if (result < 0) 1030 1.1 blymn err(2, "Poll of slave pty failed"); 1031 1.1 blymn else if (result > 0) 1032 1.1 blymn fprintf(stderr, 1033 1.1 blymn "Warning: unexpected data from slave at line %d" 1034 1.1 blymn " of file %s\n", 1035 1.1 blymn line, cur_file); 1036 1.1 blymn } 1037 1.1 blymn 1038 1.1 blymn /* 1039 1.1 blymn * Validate the response against the expected return. The variable 1040 1.1 blymn * index is the index into the rets array in command. 1041 1.1 blymn */ 1042 1.1 blymn static void 1043 1.1 blymn validate(int index, void *data) 1044 1.1 blymn { 1045 1.1 blymn char *response; 1046 1.1 blymn returns_t *byte_response; 1047 1.1 blymn 1048 1.1 blymn byte_response = data; 1049 1.1 blymn if ((command.returns[index].return_type != ret_byte) && 1050 1.1 blymn (command.returns[index].return_type != ret_err) && 1051 1.1 blymn (command.returns[index].return_type != ret_ok)) 1052 1.1 blymn response = byte_response->return_value; 1053 1.1 blymn 1054 1.1 blymn switch (command.returns[index].return_type) { 1055 1.1 blymn case ret_err: 1056 1.1 blymn validate_type(ret_err, byte_response, 0); 1057 1.1 blymn break; 1058 1.1 blymn 1059 1.1 blymn case ret_ok: 1060 1.1 blymn validate_type(ret_ok, byte_response, 0); 1061 1.1 blymn break; 1062 1.1 blymn 1063 1.1 blymn case ret_null: 1064 1.1 blymn validate_return("NULL", response, 0); 1065 1.1 blymn break; 1066 1.1 blymn 1067 1.1 blymn case ret_nonnull: 1068 1.1 blymn validate_return("NULL", response, 1); 1069 1.1 blymn break; 1070 1.1 blymn 1071 1.1 blymn case ret_string: 1072 1.1 blymn case ret_number: 1073 1.1 blymn validate_return(command.returns[index].return_value, 1074 1.1 blymn response, 0); 1075 1.1 blymn break; 1076 1.1 blymn 1077 1.1 blymn case ret_ref: 1078 1.1 blymn validate_reference(index, response); 1079 1.1 blymn break; 1080 1.1 blymn 1081 1.1 blymn case ret_byte: 1082 1.1 blymn validate_byte(&command.returns[index], byte_response, 0); 1083 1.1 blymn break; 1084 1.1 blymn 1085 1.1 blymn default: 1086 1.1 blymn err(1, "Malformed statement at line %d of file %s", 1087 1.1 blymn line, cur_file); 1088 1.1 blymn break; 1089 1.1 blymn } 1090 1.1 blymn } 1091 1.1 blymn 1092 1.1 blymn /* 1093 1.1 blymn * Validate the return against the contents of a variable. 1094 1.1 blymn */ 1095 1.1 blymn static void 1096 1.1 blymn validate_reference(int index, void *data) 1097 1.1 blymn { 1098 1.1 blymn char *response; 1099 1.1 blymn returns_t *byte_response; 1100 1.1 blymn var_t *varp; 1101 1.1 blymn 1102 1.1 blymn varp = &vars[command.returns[index].return_index]; 1103 1.1 blymn 1104 1.1 blymn byte_response = data; 1105 1.1 blymn if (command.returns[index].return_type != ret_byte) 1106 1.1 blymn response = data; 1107 1.1 blymn 1108 1.1 blymn if (verbose) 1109 1.1 blymn fprintf(stderr, 1110 1.1 blymn "validate_reference: return type of %s, value %s \n", 1111 1.1 blymn returns_enum_names[varp->type], varp->value); 1112 1.1 blymn 1113 1.1 blymn switch (varp->type) { 1114 1.1 blymn case ret_string: 1115 1.1 blymn case ret_number: 1116 1.1 blymn validate_return(varp->value, response, 0); 1117 1.1 blymn break; 1118 1.1 blymn 1119 1.1 blymn case ret_byte: 1120 1.1 blymn validate_byte(varp->value, byte_response, 0); 1121 1.1 blymn break; 1122 1.1 blymn 1123 1.1 blymn default: 1124 1.1 blymn err(1, 1125 1.1 blymn "Invalid return type for reference at line %d of file %s", 1126 1.1 blymn line, cur_file); 1127 1.1 blymn break; 1128 1.1 blymn } 1129 1.1 blymn } 1130 1.1 blymn 1131 1.1 blymn /* 1132 1.1 blymn * Validate the return type against the expected type, throw an error 1133 1.1 blymn * if they don't match. 1134 1.1 blymn */ 1135 1.1 blymn static void 1136 1.1 blymn validate_type(returns_enum_t expected, returns_t *value, int check) 1137 1.1 blymn { 1138 1.1 blymn if (((check == 0) && (expected != value->return_type)) || 1139 1.1 blymn ((check == 1) && (expected == value->return_type))) 1140 1.1 blymn err(1, "Validate expected type %s %s %s line %d of file %s", 1141 1.1 blymn returns_enum_names[expected], 1142 1.1 blymn (check == 0)? "matching" : "not matching", 1143 1.1 blymn returns_enum_names[value->return_type], line, cur_file); 1144 1.1 blymn 1145 1.1 blymn if (verbose) 1146 1.1 blymn fprintf(stderr, "Validate expected type %s %s %s line %d" 1147 1.1 blymn " of file %s\n", 1148 1.1 blymn returns_enum_names[expected], 1149 1.1 blymn (check == 0)? "matching" : "not matching", 1150 1.1 blymn returns_enum_names[value->return_type], line, cur_file); 1151 1.1 blymn } 1152 1.1 blymn 1153 1.1 blymn /* 1154 1.1 blymn * Validate the return value against the expected value, throw an error 1155 1.1 blymn * if they don't match. 1156 1.1 blymn */ 1157 1.1 blymn static void 1158 1.1 blymn validate_return(char *expected, char *value, int check) 1159 1.1 blymn { 1160 1.1 blymn if (((check == 0) && strcmp(expected, value) != 0) || 1161 1.1 blymn ((check == 1) && strcmp(expected, value) == 0)) 1162 1.1 blymn err(1, "Validate expected %s %s %s line %d of file %s", 1163 1.1 blymn expected, 1164 1.1 blymn (check == 0)? "matching" : "not matching", value, 1165 1.1 blymn line, cur_file); 1166 1.1 blymn if (verbose) 1167 1.1 blymn fprintf(stderr, "Validated expected value %s %s %s " 1168 1.1 blymn "at line %d of file %s\n", expected, 1169 1.1 blymn (check == 0)? "matches" : "does not match", 1170 1.1 blymn value, line, cur_file); 1171 1.1 blymn } 1172 1.1 blymn 1173 1.1 blymn /* 1174 1.1 blymn * Validate the return value against the expected value, throw an error 1175 1.1 blymn * if they don't match expectations. 1176 1.1 blymn */ 1177 1.1 blymn static void 1178 1.1 blymn validate_byte(returns_t *expected, returns_t *value, int check) 1179 1.1 blymn { 1180 1.1 blymn /* 1181 1.1 blymn * No chance of a match if lengths differ... 1182 1.1 blymn */ 1183 1.1 blymn if ((check == 0) && (expected->return_len != value->return_len)) 1184 1.1 blymn err(1, "Byte validation failed, length mismatch"); 1185 1.1 blymn 1186 1.1 blymn /* 1187 1.1 blymn * If check is 0 then we want to throw an error IFF the byte streams 1188 1.1 blymn * do not match, if check is 1 then throw an error if the byte 1189 1.1 blymn * streams match. 1190 1.1 blymn */ 1191 1.1 blymn if (((check == 0) && memcmp(expected->return_value, value->return_value, 1192 1.1 blymn value->return_len) != 0) || 1193 1.1 blymn ((check == 1) && (expected->return_len == value->return_len) && 1194 1.1 blymn memcmp(expected->return_value, value->return_value, 1195 1.1 blymn value->return_len) == 0)) 1196 1.1 blymn err(1, "Validate expected %s byte stream at line %d" 1197 1.1 blymn "of file %s", 1198 1.1 blymn (check == 0)? "matching" : "not matching", line, cur_file); 1199 1.1 blymn if (verbose) 1200 1.1 blymn fprintf(stderr, "Validated expected %s byte stream " 1201 1.1 blymn "at line %d of file %s\n", 1202 1.1 blymn (check == 0)? "matching" : "not matching", 1203 1.1 blymn line, cur_file); 1204 1.1 blymn } 1205 1.1 blymn 1206 1.1 blymn /* 1207 1.1 blymn * Validate the variable at index against the expected value, throw an 1208 1.1 blymn * error if they don't match, if check is non-zero then the match is 1209 1.1 blymn * negated. 1210 1.1 blymn */ 1211 1.1 blymn static void 1212 1.1 blymn validate_variable(int ret, returns_enum_t type, void *value, int index, int check) 1213 1.1 blymn { 1214 1.1 blymn char *str; 1215 1.1 blymn returns_t *retval; 1216 1.1 blymn var_t *varptr; 1217 1.1 blymn 1218 1.1 blymn varptr = &vars[command.returns[ret].return_index]; 1219 1.1 blymn 1220 1.1 blymn if (varptr->value == NULL) 1221 1.1 blymn err(1, "Variable %s has no value assigned to it"); 1222 1.1 blymn 1223 1.1 blymn 1224 1.1 blymn if (varptr->type != type) 1225 1.1 blymn err(1, "Variable %s is not the expected type"); 1226 1.1 blymn 1227 1.1 blymn if (type != ret_byte) { 1228 1.1 blymn if ((((check == 0) && strcmp(value, varptr->value) != 0)) 1229 1.1 blymn || ((check == 1) && strcmp(value, varptr->value) == 0)) 1230 1.1 blymn err(1, "Variable %s contains %s instead of %s" 1231 1.1 blymn " value %s at line %d of file %s", 1232 1.1 blymn varptr->name,varptr->value, 1233 1.1 blymn (check == 0)? "expected" : "not matching", value, 1234 1.1 blymn line, cur_file); 1235 1.1 blymn if (verbose) 1236 1.1 blymn fprintf(stderr, "Variable %s contains %s value " 1237 1.1 blymn "%s at line %d of file %s\n", 1238 1.1 blymn varptr->name, 1239 1.1 blymn (check == 0)? "expected" : "not matching", 1240 1.1 blymn varptr->value, line, cur_file); 1241 1.1 blymn } else { 1242 1.1 blymn if ((check == 0) && (retval->return_len != varptr->len)) 1243 1.1 blymn err(1, "Byte validation failed, length mismatch"); 1244 1.1 blymn 1245 1.1 blymn /* 1246 1.1 blymn * If check is 0 then we want to throw an error IFF 1247 1.1 blymn * the byte streams do not match, if check is 1 then 1248 1.1 blymn * throw an error if the byte streams match. 1249 1.1 blymn */ 1250 1.1 blymn if (((check == 0) && memcmp(retval->return_value, varptr->value, 1251 1.1 blymn varptr->len) != 0) || 1252 1.1 blymn ((check == 1) && (retval->return_len == varptr->len) && 1253 1.1 blymn memcmp(retval->return_value, varptr->value, 1254 1.1 blymn varptr->len) == 0)) 1255 1.1 blymn err(1, "Validate expected %s byte stream at line %d" 1256 1.1 blymn " of file %s", 1257 1.1 blymn (check == 0)? "matching" : "not matching", 1258 1.1 blymn line, cur_file); 1259 1.1 blymn if (verbose) 1260 1.1 blymn fprintf(stderr, "Validated expected %s byte stream " 1261 1.1 blymn "at line %d of file %s\n", 1262 1.1 blymn (check == 0)? "matching" : "not matching", 1263 1.1 blymn line, cur_file); 1264 1.1 blymn } 1265 1.1 blymn } 1266 1.1 blymn 1267 1.1 blymn /* 1268 1.1 blymn * Write a string to the command pipe - we feed the number of bytes coming 1269 1.1 blymn * down first to allow storage allocation and then follow up with the data. 1270 1.1 blymn * If cmd is NULL then feed a -1 down the pipe to say the end of the args. 1271 1.1 blymn */ 1272 1.1 blymn static void 1273 1.1 blymn write_cmd_pipe(char *cmd) 1274 1.1 blymn { 1275 1.1 blymn args_t arg; 1276 1.1 blymn size_t len; 1277 1.1 blymn 1278 1.1 blymn if (cmd == NULL) 1279 1.1 blymn len = 0; 1280 1.1 blymn else 1281 1.1 blymn len = strlen(cmd); 1282 1.1 blymn 1283 1.1 blymn arg.arg_type = arg_static; 1284 1.1 blymn arg.arg_len = len; 1285 1.1 blymn arg.arg_string = cmd; 1286 1.1 blymn write_cmd_pipe_args(arg.arg_type, &arg); 1287 1.1 blymn 1288 1.1 blymn } 1289 1.1 blymn 1290 1.1 blymn static void 1291 1.1 blymn write_cmd_pipe_args(args_state_t type, void *data) 1292 1.1 blymn { 1293 1.1 blymn var_t *var_data; 1294 1.1 blymn args_t *arg_data; 1295 1.1 blymn int len, send_type; 1296 1.1 blymn void *cmd; 1297 1.1 blymn 1298 1.1 blymn arg_data = data; 1299 1.1 blymn if (type != arg_var) { 1300 1.1 blymn if ((arg_data->arg_len == 0) && (arg_data->arg_string == NULL)) 1301 1.1 blymn len = -1; 1302 1.1 blymn else 1303 1.1 blymn len = arg_data->arg_len; 1304 1.1 blymn cmd = arg_data->arg_string; 1305 1.1 blymn if (type == arg_byte) 1306 1.1 blymn send_type = ret_byte; 1307 1.1 blymn else 1308 1.1 blymn send_type = ret_string; 1309 1.1 blymn } else { 1310 1.1 blymn var_data = data; 1311 1.1 blymn len = var_data->len; 1312 1.1 blymn cmd = var_data->value; 1313 1.1 blymn if (var_data->type == arg_byte) 1314 1.1 blymn send_type = ret_byte; 1315 1.1 blymn else 1316 1.1 blymn send_type = ret_string; 1317 1.1 blymn } 1318 1.1 blymn 1319 1.1 blymn if (verbose) 1320 1.1 blymn fprintf(stderr, "Writing type %s to command pipe\n", 1321 1.1 blymn returns_enum_names[send_type]); 1322 1.1 blymn 1323 1.1 blymn if (write(cmdpipe[WRITE_PIPE], &send_type, sizeof(int)) < 0) { 1324 1.1 blymn perror("command pipe write for type failed"); 1325 1.1 blymn exit(1); 1326 1.1 blymn } 1327 1.1 blymn 1328 1.1 blymn if (verbose) 1329 1.1 blymn fprintf(stderr, "Writing length %d to command pipe\n", len); 1330 1.1 blymn 1331 1.1 blymn if (write(cmdpipe[WRITE_PIPE], &len, sizeof(int)) < 0) { 1332 1.1 blymn perror("command pipe write for length failed"); 1333 1.1 blymn exit(1); 1334 1.1 blymn } 1335 1.1 blymn 1336 1.1 blymn if (len > 0) { 1337 1.1 blymn if (verbose) 1338 1.1 blymn fprintf(stderr, "Writing data >%s< to command pipe\n", 1339 1.1 blymn cmd); 1340 1.1 blymn if (write(cmdpipe[WRITE_PIPE], cmd, len) < 0) { 1341 1.1 blymn perror("command pipe write of data failed"); 1342 1.1 blymn exit(1); 1343 1.1 blymn } 1344 1.1 blymn } 1345 1.1 blymn } 1346 1.1 blymn 1347 1.1 blymn /* 1348 1.1 blymn * Read a response from the command pipe, first we will receive the 1349 1.1 blymn * length of the response then the actual data. 1350 1.1 blymn */ 1351 1.1 blymn static void 1352 1.1 blymn read_cmd_pipe(returns_t *response) 1353 1.1 blymn { 1354 1.1 blymn int len, type; 1355 1.1 blymn struct pollfd readfd[2]; 1356 1.1 blymn char *str; 1357 1.1 blymn 1358 1.1 blymn /* 1359 1.1 blymn * Check if there is data to read - just in case slave has died, we 1360 1.1 blymn * don't want to block on the read and just hang. We also check 1361 1.1 blymn * output from the slave because the slave may be blocked waiting 1362 1.1 blymn * for a flush on its stdout. 1363 1.1 blymn */ 1364 1.1 blymn readfd[0].fd = slvpipe[READ_PIPE]; 1365 1.1 blymn readfd[0].events = POLLIN; 1366 1.1 blymn readfd[1].fd = master; 1367 1.1 blymn readfd[1].events = POLLIN; 1368 1.1 blymn 1369 1.1 blymn do { 1370 1.1 blymn readfd[0].revents = 0; 1371 1.1 blymn readfd[1].revents = 0; 1372 1.1 blymn 1373 1.1 blymn if (poll(readfd, 2, 4000) == 0) { 1374 1.1 blymn fprintf(stderr, 1375 1.1 blymn "command pipe read timeout on line %d" 1376 1.1 blymn " of file %s\n", 1377 1.1 blymn line, cur_file); 1378 1.1 blymn exit(2); 1379 1.1 blymn } 1380 1.1 blymn 1381 1.1 blymn if ((readfd[1].revents & POLLIN) == POLLIN) { 1382 1.1 blymn if (verbose) 1383 1.1 blymn fprintf(stderr, 1384 1.1 blymn "draining output from slave\n"); 1385 1.1 blymn save_slave_output(false); 1386 1.1 blymn } 1387 1.1 blymn } 1388 1.1 blymn while((readfd[1].revents & POLLIN) == POLLIN); 1389 1.1 blymn 1390 1.1 blymn if (read(slvpipe[READ_PIPE], &type, sizeof(int)) < 0) { 1391 1.1 blymn perror("command pipe read for type failed"); 1392 1.1 blymn exit(1); 1393 1.1 blymn } 1394 1.1 blymn response->return_type = type; 1395 1.1 blymn 1396 1.1 blymn if ((type != ret_ok) && (type != ret_err) && (type != ret_count)) { 1397 1.1 blymn if (read(slvpipe[READ_PIPE], &len, sizeof(int)) < 0) { 1398 1.1 blymn perror("command pipe read for length failed"); 1399 1.1 blymn exit(1); 1400 1.1 blymn } 1401 1.1 blymn response->return_len = len; 1402 1.1 blymn 1403 1.1 blymn if (verbose) 1404 1.1 blymn fprintf(stderr, 1405 1.1 blymn "Reading %d bytes from command pipe\n", len); 1406 1.1 blymn 1407 1.1 blymn if ((response->return_value = malloc(len + 1)) == NULL) 1408 1.1 blymn err(1, "Failed to alloc memory for cmd pipe read"); 1409 1.1 blymn 1410 1.1 blymn if (read(slvpipe[READ_PIPE], response->return_value, len) < 0) { 1411 1.1 blymn perror("command pipe read of data failed"); 1412 1.1 blymn exit(1); 1413 1.1 blymn } 1414 1.1 blymn 1415 1.1 blymn if (response->return_type != ret_byte) { 1416 1.1 blymn str = response->return_value; 1417 1.1 blymn str[len] = '\0'; 1418 1.1 blymn 1419 1.1 blymn if (verbose) 1420 1.1 blymn fprintf(stderr, "Read data >%s< from pipe\n", 1421 1.1 blymn response->return_value); 1422 1.1 blymn } 1423 1.1 blymn } else { 1424 1.1 blymn response->return_value = NULL; 1425 1.1 blymn if (type == ret_count) { 1426 1.1 blymn if (read(slvpipe[READ_PIPE], &len, sizeof(int)) < 0) { 1427 1.1 blymn perror("command pipe read for number of " 1428 1.1 blymn "returns failed"); 1429 1.1 blymn exit(1); 1430 1.1 blymn } 1431 1.1 blymn response->return_len = len; 1432 1.1 blymn } 1433 1.1 blymn 1434 1.1 blymn if (verbose) 1435 1.1 blymn fprintf(stderr, "Read type %s from pipe\n", 1436 1.1 blymn returns_enum_names[type]); 1437 1.1 blymn } 1438 1.1 blymn } 1439 1.1 blymn 1440 1.1 blymn /* 1441 1.1 blymn * Check for writes from the slave on the pty, save the output into a 1442 1.1 blymn * buffer for later checking if discard is false. 1443 1.1 blymn */ 1444 1.1 blymn #define MAX_DRAIN 256 1445 1.1 blymn 1446 1.1 blymn static void 1447 1.1 blymn save_slave_output(bool discard) 1448 1.1 blymn { 1449 1.1 blymn struct pollfd fd; 1450 1.1 blymn char *new_data, drain[MAX_DRAIN]; 1451 1.1 blymn size_t to_allocate; 1452 1.1 blymn int result, i; 1453 1.1 blymn 1454 1.1 blymn fd.fd = master; 1455 1.1 blymn fd.events = POLLIN; 1456 1.1 blymn fd.revents = 0; 1457 1.1 blymn 1458 1.1 blymn result = 0; 1459 1.1 blymn while (1) { 1460 1.1 blymn if (result == -1) 1461 1.1 blymn err(2, "poll of slave pty failed"); 1462 1.1 blymn result = MAX_DRAIN; 1463 1.1 blymn if ((result = read(master, &drain, result)) < 0) { 1464 1.1 blymn if (errno == EAGAIN) 1465 1.1 blymn break; 1466 1.1 blymn else 1467 1.1 blymn err(2, "draining slave pty failed"); 1468 1.1 blymn } 1469 1.1 blymn 1470 1.1 blymn fd.revents = 0; 1471 1.1 blymn if (discard != true) { 1472 1.1 blymn if (result > 1473 1.1 blymn (saved_output.allocated - saved_output.count)) { 1474 1.1 blymn to_allocate = 1024 * ((result / 1024) + 1); 1475 1.1 blymn 1476 1.1 blymn if ((new_data = realloc(saved_output.data, 1477 1.1 blymn saved_output.allocated + to_allocate)) 1478 1.1 blymn == NULL) 1479 1.1 blymn err(2, "Realloc of saved_output failed"); 1480 1.1 blymn saved_output.data = new_data; 1481 1.1 blymn saved_output.allocated += to_allocate; 1482 1.1 blymn } 1483 1.1 blymn 1484 1.1 blymn if (verbose) { 1485 1.1 blymn fprintf(stderr, "count = %d, allocated = %d\n", 1486 1.1 blymn saved_output.count, 1487 1.1 blymn saved_output.allocated); 1488 1.1 blymn for (i = 0; i < result; i++) { 1489 1.1 blymn fprintf(stderr, "Saving slave output " 1490 1.1 blymn "0x%x (%c)\n", drain[i], 1491 1.1 blymn (drain[i] >= ' ')? drain[i] : '-'); 1492 1.1 blymn } 1493 1.1 blymn } 1494 1.1 blymn 1495 1.1 blymn memcpy(&saved_output.data[saved_output.count], drain, 1496 1.1 blymn result); 1497 1.1 blymn saved_output.count += result; 1498 1.1 blymn 1499 1.1 blymn if (verbose) { 1500 1.1 blymn fprintf(stderr, "count = %d, allocated = %d\n", 1501 1.1 blymn saved_output.count, 1502 1.1 blymn saved_output.allocated); 1503 1.1 blymn } 1504 1.1 blymn } else { 1505 1.1 blymn if (verbose) { 1506 1.1 blymn for (i=0; i < result; i++) { 1507 1.1 blymn fprintf(stderr, "Discarding slave " 1508 1.1 blymn "output 0x%x (%c)\n", 1509 1.1 blymn drain[i], 1510 1.1 blymn (drain[i] >= ' ')? drain[i] : '-'); 1511 1.1 blymn } 1512 1.1 blymn } 1513 1.1 blymn } 1514 1.1 blymn } 1515 1.1 blymn } 1516 1.1 blymn 1517 1.1 blymn static void 1518 1.1 blymn yyerror(const char *msg) 1519 1.1 blymn { 1520 1.1 blymn warnx("%s in line %zu of file %s", msg, line, cur_file); 1521 1.1 blymn } 1522
Indexes created Tue Sep 30 17:09:57 GMT 2025