From da76459dc21b5af2449af2d36eb95226cb186ce2 Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Sun, 28 Apr 2024 11:35:11 +0200 Subject: Adding upstream version 2.6.12. Signed-off-by: Daniel Baumann --- src/acl.c | 1378 +++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 1378 insertions(+) create mode 100644 src/acl.c (limited to 'src/acl.c') diff --git a/src/acl.c b/src/acl.c new file mode 100644 index 0000000..15ca766 --- /dev/null +++ b/src/acl.c @@ -0,0 +1,1378 @@ +/* + * ACL management functions. + * + * Copyright 2000-2013 Willy Tarreau + * + * This program is free software; you can redistribute it and/or + * modify it under the terms of the GNU General Public License + * as published by the Free Software Foundation; either version + * 2 of the License, or (at your option) any later version. + * + */ + +#include +#include +#include + +#include + +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include + +/* List head of all known ACL keywords */ +static struct acl_kw_list acl_keywords = { + .list = LIST_HEAD_INIT(acl_keywords.list) +}; + +/* input values are 0 or 3, output is the same */ +static inline enum acl_test_res pat2acl(struct pattern *pat) +{ + if (pat) + return ACL_TEST_PASS; + else + return ACL_TEST_FAIL; +} + +/* + * Registers the ACL keyword list as a list of valid keywords for next + * parsing sessions. + */ +void acl_register_keywords(struct acl_kw_list *kwl) +{ + LIST_APPEND(&acl_keywords.list, &kwl->list); +} + +/* + * Unregisters the ACL keyword list from the list of valid keywords. + */ +void acl_unregister_keywords(struct acl_kw_list *kwl) +{ + LIST_DELETE(&kwl->list); + LIST_INIT(&kwl->list); +} + +/* Return a pointer to the ACL within the list starting at , or + * NULL if not found. + */ +struct acl *find_acl_by_name(const char *name, struct list *head) +{ + struct acl *acl; + list_for_each_entry(acl, head, list) { + if (strcmp(acl->name, name) == 0) + return acl; + } + return NULL; +} + +/* Return a pointer to the ACL keyword , or NULL if not found. Note that if + * contains an opening parenthesis or a comma, only the left part of it is + * checked. + */ +struct acl_keyword *find_acl_kw(const char *kw) +{ + int index; + const char *kwend; + struct acl_kw_list *kwl; + + kwend = kw; + while (is_idchar(*kwend)) + kwend++; + + list_for_each_entry(kwl, &acl_keywords.list, list) { + for (index = 0; kwl->kw[index].kw != NULL; index++) { + if ((strncmp(kwl->kw[index].kw, kw, kwend - kw) == 0) && + kwl->kw[index].kw[kwend-kw] == 0) + return &kwl->kw[index]; + } + } + return NULL; +} + +static struct acl_expr *prune_acl_expr(struct acl_expr *expr) +{ + struct arg *arg; + + pattern_prune(&expr->pat); + + for (arg = expr->smp->arg_p; arg; arg++) { + if (arg->type == ARGT_STOP) + break; + if (arg->type == ARGT_STR || arg->unresolved) { + chunk_destroy(&arg->data.str); + arg->unresolved = 0; + } + } + + release_sample_expr(expr->smp); + + return expr; +} + +/* Parse an ACL expression starting at [0], and return it. If is + * not NULL, it will be filled with a pointer to an error message in case of + * error. This pointer must be freeable or NULL. is an arg_list serving + * as a list head to report missing dependencies. It may be NULL if such + * dependencies are not allowed. + * + * Right now, the only accepted syntax is : + * [...] + */ +struct acl_expr *parse_acl_expr(const char **args, char **err, struct arg_list *al, + const char *file, int line) +{ + __label__ out_return, out_free_expr; + struct acl_expr *expr; + struct acl_keyword *aclkw; + int refflags, patflags; + const char *arg; + struct sample_expr *smp = NULL; + int idx = 0; + char *ckw = NULL; + const char *begw; + const char *endw; + const char *endt; + int cur_type; + int nbargs; + int operator = STD_OP_EQ; + int op; + int contain_colon, have_dot; + const char *dot; + signed long long value, minor; + /* The following buffer contain two numbers, a ':' separator and the final \0. */ + char buffer[NB_LLMAX_STR + 1 + NB_LLMAX_STR + 1]; + int is_loaded; + int unique_id; + char *error; + struct pat_ref *ref; + struct pattern_expr *pattern_expr; + int load_as_map = 0; + int acl_conv_found = 0; + + /* First, we look for an ACL keyword. And if we don't find one, then + * we look for a sample fetch expression starting with a sample fetch + * keyword. + */ + + if (al) { + al->ctx = ARGC_ACL; // to report errors while resolving args late + al->kw = *args; + al->conv = NULL; + } + + aclkw = find_acl_kw(args[0]); + if (aclkw) { + /* OK we have a real ACL keyword */ + + /* build new sample expression for this ACL */ + smp = calloc(1, sizeof(*smp)); + if (!smp) { + memprintf(err, "out of memory when parsing ACL expression"); + goto out_return; + } + LIST_INIT(&(smp->conv_exprs)); + smp->fetch = aclkw->smp; + smp->arg_p = empty_arg_list; + + /* look for the beginning of the subject arguments */ + for (arg = args[0]; is_idchar(*arg); arg++) + ; + + /* At this point, we have : + * - args[0] : beginning of the keyword + * - arg : end of the keyword, first character not part of keyword + */ + nbargs = make_arg_list(arg, -1, smp->fetch->arg_mask, &smp->arg_p, + err, &endt, NULL, al); + if (nbargs < 0) { + /* note that make_arg_list will have set here */ + memprintf(err, "ACL keyword '%s' : %s", aclkw->kw, *err); + goto out_free_smp; + } + + if (!smp->arg_p) { + smp->arg_p = empty_arg_list; + } + else if (smp->fetch->val_args && !smp->fetch->val_args(smp->arg_p, err)) { + /* invalid keyword argument, error must have been + * set by val_args(). + */ + memprintf(err, "in argument to '%s', %s", aclkw->kw, *err); + goto out_free_smp; + } + arg = endt; + + /* look for the beginning of the converters list. Those directly attached + * to the ACL keyword are found just after which points to the comma. + * If we find any converter, then we don't use the ACL keyword's match + * anymore but the one related to the converter's output type. + */ + cur_type = smp->fetch->out_type; + while (*arg) { + struct sample_conv *conv; + struct sample_conv_expr *conv_expr; + int err_arg; + int argcnt; + + if (*arg && *arg != ',') { + if (ckw) + memprintf(err, "ACL keyword '%s' : missing comma after converter '%s'.", + aclkw->kw, ckw); + else + memprintf(err, "ACL keyword '%s' : missing comma after fetch keyword.", + aclkw->kw); + goto out_free_smp; + } + + /* FIXME: how long should we support such idiocies ? Maybe we + * should already warn ? + */ + while (*arg == ',') /* then trailing commas */ + arg++; + + begw = arg; /* start of converter keyword */ + + if (!*begw) + /* none ? end of converters */ + break; + + for (endw = begw; is_idchar(*endw); endw++) + ; + + free(ckw); + ckw = my_strndup(begw, endw - begw); + + conv = find_sample_conv(begw, endw - begw); + if (!conv) { + /* Unknown converter method */ + memprintf(err, "ACL keyword '%s' : unknown converter '%s'.", + aclkw->kw, ckw); + goto out_free_smp; + } + + arg = endw; + + if (conv->in_type >= SMP_TYPES || conv->out_type >= SMP_TYPES) { + memprintf(err, "ACL keyword '%s' : returns type of converter '%s' is unknown.", + aclkw->kw, ckw); + goto out_free_smp; + } + + /* If impossible type conversion */ + if (!sample_casts[cur_type][conv->in_type]) { + memprintf(err, "ACL keyword '%s' : converter '%s' cannot be applied.", + aclkw->kw, ckw); + goto out_free_smp; + } + + cur_type = conv->out_type; + conv_expr = calloc(1, sizeof(*conv_expr)); + if (!conv_expr) + goto out_free_smp; + + LIST_APPEND(&(smp->conv_exprs), &(conv_expr->list)); + conv_expr->conv = conv; + acl_conv_found = 1; + + if (al) { + al->kw = smp->fetch->kw; + al->conv = conv_expr->conv->kw; + } + argcnt = make_arg_list(endw, -1, conv->arg_mask, &conv_expr->arg_p, err, &arg, &err_arg, al); + if (argcnt < 0) { + memprintf(err, "ACL keyword '%s' : invalid arg %d in converter '%s' : %s.", + aclkw->kw, err_arg+1, ckw, *err); + goto out_free_smp; + } + + if (argcnt && !conv->arg_mask) { + memprintf(err, "converter '%s' does not support any args", ckw); + goto out_free_smp; + } + + if (!conv_expr->arg_p) + conv_expr->arg_p = empty_arg_list; + + if (conv->val_args && !conv->val_args(conv_expr->arg_p, conv, file, line, err)) { + memprintf(err, "ACL keyword '%s' : invalid args in converter '%s' : %s.", + aclkw->kw, ckw, *err); + goto out_free_smp; + } + } + ha_free(&ckw); + } + else { + /* This is not an ACL keyword, so we hope this is a sample fetch + * keyword that we're going to transparently use as an ACL. If + * so, we retrieve a completely parsed expression with args and + * convs already done. + */ + smp = sample_parse_expr((char **)args, &idx, file, line, err, al, NULL); + if (!smp) { + memprintf(err, "%s in ACL expression '%s'", *err, *args); + goto out_return; + } + cur_type = smp_expr_output_type(smp); + } + + expr = calloc(1, sizeof(*expr)); + if (!expr) { + memprintf(err, "out of memory when parsing ACL expression"); + goto out_free_smp; + } + + pattern_init_head(&expr->pat); + + expr->pat.expect_type = cur_type; + expr->smp = smp; + expr->kw = smp->fetch->kw; + smp = NULL; /* don't free it anymore */ + + if (aclkw && !acl_conv_found) { + expr->kw = aclkw->kw; + expr->pat.parse = aclkw->parse ? aclkw->parse : pat_parse_fcts[aclkw->match_type]; + expr->pat.index = aclkw->index ? aclkw->index : pat_index_fcts[aclkw->match_type]; + expr->pat.match = aclkw->match ? aclkw->match : pat_match_fcts[aclkw->match_type]; + expr->pat.prune = aclkw->prune ? aclkw->prune : pat_prune_fcts[aclkw->match_type]; + } + + if (!expr->pat.parse) { + /* Parse/index/match functions depend on the expression type, + * so we have to map them now. Some types can be automatically + * converted. + */ + switch (cur_type) { + case SMP_T_BOOL: + expr->pat.parse = pat_parse_fcts[PAT_MATCH_BOOL]; + expr->pat.index = pat_index_fcts[PAT_MATCH_BOOL]; + expr->pat.match = pat_match_fcts[PAT_MATCH_BOOL]; + expr->pat.prune = pat_prune_fcts[PAT_MATCH_BOOL]; + expr->pat.expect_type = pat_match_types[PAT_MATCH_BOOL]; + break; + case SMP_T_SINT: + expr->pat.parse = pat_parse_fcts[PAT_MATCH_INT]; + expr->pat.index = pat_index_fcts[PAT_MATCH_INT]; + expr->pat.match = pat_match_fcts[PAT_MATCH_INT]; + expr->pat.prune = pat_prune_fcts[PAT_MATCH_INT]; + expr->pat.expect_type = pat_match_types[PAT_MATCH_INT]; + break; + case SMP_T_ADDR: + case SMP_T_IPV4: + case SMP_T_IPV6: + expr->pat.parse = pat_parse_fcts[PAT_MATCH_IP]; + expr->pat.index = pat_index_fcts[PAT_MATCH_IP]; + expr->pat.match = pat_match_fcts[PAT_MATCH_IP]; + expr->pat.prune = pat_prune_fcts[PAT_MATCH_IP]; + expr->pat.expect_type = pat_match_types[PAT_MATCH_IP]; + break; + case SMP_T_STR: + expr->pat.parse = pat_parse_fcts[PAT_MATCH_STR]; + expr->pat.index = pat_index_fcts[PAT_MATCH_STR]; + expr->pat.match = pat_match_fcts[PAT_MATCH_STR]; + expr->pat.prune = pat_prune_fcts[PAT_MATCH_STR]; + expr->pat.expect_type = pat_match_types[PAT_MATCH_STR]; + break; + } + } + + /* Additional check to protect against common mistakes */ + if (expr->pat.parse && cur_type != SMP_T_BOOL && !*args[1]) { + ha_warning("parsing acl keyword '%s' :\n" + " no pattern to match against were provided, so this ACL will never match.\n" + " If this is what you intended, please add '--' to get rid of this warning.\n" + " If you intended to match only for existence, please use '-m found'.\n" + " If you wanted to force an int to match as a bool, please use '-m bool'.\n" + "\n", + args[0]); + } + + args++; + + /* check for options before patterns. Supported options are : + * -i : ignore case for all patterns by default + * -f : read patterns from those files + * -m : force matching method (must be used before -f) + * -M : load the file as map file + * -u : force the unique id of the acl + * -- : everything after this is not an option + */ + refflags = PAT_REF_ACL; + patflags = 0; + is_loaded = 0; + unique_id = -1; + while (**args == '-') { + if (strcmp(*args, "-i") == 0) + patflags |= PAT_MF_IGNORE_CASE; + else if (strcmp(*args, "-n") == 0) + patflags |= PAT_MF_NO_DNS; + else if (strcmp(*args, "-u") == 0) { + unique_id = strtol(args[1], &error, 10); + if (*error != '\0') { + memprintf(err, "the argument of -u must be an integer"); + goto out_free_expr; + } + + /* Check if this id is really unique. */ + if (pat_ref_lookupid(unique_id)) { + memprintf(err, "the id is already used"); + goto out_free_expr; + } + + args++; + } + else if (strcmp(*args, "-f") == 0) { + if (!expr->pat.parse) { + memprintf(err, "matching method must be specified first (using '-m') when using a sample fetch of this type ('%s')", expr->kw); + goto out_free_expr; + } + + if (!pattern_read_from_file(&expr->pat, refflags, args[1], patflags, load_as_map, err, file, line)) + goto out_free_expr; + is_loaded = 1; + args++; + } + else if (strcmp(*args, "-m") == 0) { + int idx; + + if (is_loaded) { + memprintf(err, "'-m' must only be specified before patterns and files in parsing ACL expression"); + goto out_free_expr; + } + + idx = pat_find_match_name(args[1]); + if (idx < 0) { + memprintf(err, "unknown matching method '%s' when parsing ACL expression", args[1]); + goto out_free_expr; + } + + /* Note: -m found is always valid, bool/int are compatible, str/bin/reg/len are compatible */ + if (idx != PAT_MATCH_FOUND && !sample_casts[cur_type][pat_match_types[idx]]) { + memprintf(err, "matching method '%s' cannot be used with fetch keyword '%s'", args[1], expr->kw); + goto out_free_expr; + } + expr->pat.parse = pat_parse_fcts[idx]; + expr->pat.index = pat_index_fcts[idx]; + expr->pat.match = pat_match_fcts[idx]; + expr->pat.prune = pat_prune_fcts[idx]; + expr->pat.expect_type = pat_match_types[idx]; + args++; + } + else if (strcmp(*args, "-M") == 0) { + refflags |= PAT_REF_MAP; + load_as_map = 1; + } + else if (strcmp(*args, "--") == 0) { + args++; + break; + } + else { + memprintf(err, "'%s' is not a valid ACL option. Please use '--' before any pattern beginning with a '-'", args[0]); + goto out_free_expr; + break; + } + args++; + } + + if (!expr->pat.parse) { + memprintf(err, "matching method must be specified first (using '-m') when using a sample fetch of this type ('%s')", expr->kw); + goto out_free_expr; + } + + /* Create displayed reference */ + snprintf(trash.area, trash.size, "acl '%s' file '%s' line %d", + expr->kw, file, line); + trash.area[trash.size - 1] = '\0'; + + /* Create new pattern reference. */ + ref = pat_ref_newid(unique_id, trash.area, PAT_REF_ACL); + if (!ref) { + memprintf(err, "memory error"); + goto out_free_expr; + } + + /* Create new pattern expression associated to this reference. */ + pattern_expr = pattern_new_expr(&expr->pat, ref, patflags, err, NULL); + if (!pattern_expr) + goto out_free_expr; + + /* now parse all patterns */ + while (**args) { + arg = *args; + + /* Compatibility layer. Each pattern can parse only one string per pattern, + * but the pat_parser_int() and pat_parse_dotted_ver() parsers were need + * optionally two operators. The first operator is the match method: eq, + * le, lt, ge and gt. pat_parse_int() and pat_parse_dotted_ver() functions + * can have a compatibility syntax based on ranges: + * + * pat_parse_int(): + * + * "eq x" -> "x" or "x:x" + * "le x" -> ":x" + * "lt x" -> ":y" (with y = x - 1) + * "ge x" -> "x:" + * "gt x" -> "y:" (with y = x + 1) + * + * pat_parse_dotted_ver(): + * + * "eq x.y" -> "x.y" or "x.y:x.y" + * "le x.y" -> ":x.y" + * "lt x.y" -> ":w.z" (with w.z = x.y - 1) + * "ge x.y" -> "x.y:" + * "gt x.y" -> "w.z:" (with w.z = x.y + 1) + * + * If y is not present, assume that is "0". + * + * The syntax eq, le, lt, ge and gt are proper to the acl syntax. The + * following block of code detect the operator, and rewrite each value + * in parsable string. + */ + if (expr->pat.parse == pat_parse_int || + expr->pat.parse == pat_parse_dotted_ver) { + /* Check for operator. If the argument is operator, memorise it and + * continue to the next argument. + */ + op = get_std_op(arg); + if (op != -1) { + operator = op; + args++; + continue; + } + + /* Check if the pattern contain ':' or '-' character. */ + contain_colon = (strchr(arg, ':') || strchr(arg, '-')); + + /* If the pattern contain ':' or '-' character, give it to the parser as is. + * If no contain ':' and operator is STD_OP_EQ, give it to the parser as is. + * In other case, try to convert the value according with the operator. + */ + if (!contain_colon && operator != STD_OP_EQ) { + /* Search '.' separator. */ + dot = strchr(arg, '.'); + if (!dot) { + have_dot = 0; + minor = 0; + dot = arg + strlen(arg); + } + else + have_dot = 1; + + /* convert the integer minor part for the pat_parse_dotted_ver() function. */ + if (expr->pat.parse == pat_parse_dotted_ver && have_dot) { + if (strl2llrc(dot+1, strlen(dot+1), &minor) != 0) { + memprintf(err, "'%s' is neither a number nor a supported operator", arg); + goto out_free_expr; + } + if (minor >= 65536) { + memprintf(err, "'%s' contains too large a minor value", arg); + goto out_free_expr; + } + } + + /* convert the integer value for the pat_parse_int() function, and the + * integer major part for the pat_parse_dotted_ver() function. + */ + if (strl2llrc(arg, dot - arg, &value) != 0) { + memprintf(err, "'%s' is neither a number nor a supported operator", arg); + goto out_free_expr; + } + if (expr->pat.parse == pat_parse_dotted_ver) { + if (value >= 65536) { + memprintf(err, "'%s' contains too large a major value", arg); + goto out_free_expr; + } + value = (value << 16) | (minor & 0xffff); + } + + switch (operator) { + + case STD_OP_EQ: /* this case is not possible. */ + memprintf(err, "internal error"); + goto out_free_expr; + + case STD_OP_GT: + value++; /* gt = ge + 1 */ + /* fall through */ + + case STD_OP_GE: + if (expr->pat.parse == pat_parse_int) + snprintf(buffer, NB_LLMAX_STR+NB_LLMAX_STR+2, "%lld:", value); + else + snprintf(buffer, NB_LLMAX_STR+NB_LLMAX_STR+2, "%lld.%lld:", + value >> 16, value & 0xffff); + arg = buffer; + break; + + case STD_OP_LT: + value--; /* lt = le - 1 */ + /* fall through */ + + case STD_OP_LE: + if (expr->pat.parse == pat_parse_int) + snprintf(buffer, NB_LLMAX_STR+NB_LLMAX_STR+2, ":%lld", value); + else + snprintf(buffer, NB_LLMAX_STR+NB_LLMAX_STR+2, ":%lld.%lld", + value >> 16, value & 0xffff); + arg = buffer; + break; + } + } + } + + /* Add sample to the reference, and try to compile it fior each pattern + * using this value. + */ + if (!pat_ref_add(ref, arg, NULL, err)) + goto out_free_expr; + args++; + } + + return expr; + + out_free_expr: + prune_acl_expr(expr); + free(expr); + out_free_smp: + free(ckw); + free(smp); + out_return: + return NULL; +} + +/* Purge everything in the acl , then return . */ +struct acl *prune_acl(struct acl *acl) { + + struct acl_expr *expr, *exprb; + + free(acl->name); + + list_for_each_entry_safe(expr, exprb, &acl->expr, list) { + LIST_DELETE(&expr->list); + prune_acl_expr(expr); + free(expr); + } + + return acl; +} + +/* Parse an ACL with the name starting at [0], and with a list of already + * known ACLs in . If the ACL was not in the list, it will be added. + * A pointer to that ACL is returned. If the ACL has an empty name, then it's + * an anonymous one and it won't be merged with any other one. If is not + * NULL, it will be filled with an appropriate error. This pointer must be + * freeable or NULL. is the arg_list serving as a head for unresolved + * dependencies. It may be NULL if such dependencies are not allowed. + * + * args syntax: + */ +struct acl *parse_acl(const char **args, struct list *known_acl, char **err, struct arg_list *al, + const char *file, int line) +{ + __label__ out_return, out_free_acl_expr, out_free_name; + struct acl *cur_acl; + struct acl_expr *acl_expr; + char *name; + const char *pos; + + if (**args && (pos = invalid_char(*args))) { + memprintf(err, "invalid character in ACL name : '%c'", *pos); + goto out_return; + } + + acl_expr = parse_acl_expr(args + 1, err, al, file, line); + if (!acl_expr) { + /* parse_acl_expr will have filled here */ + goto out_return; + } + + /* Check for args beginning with an opening parenthesis just after the + * subject, as this is almost certainly a typo. Right now we can only + * emit a warning, so let's do so. + */ + if (!strchr(args[1], '(') && *args[2] == '(') + ha_warning("parsing acl '%s' :\n" + " matching '%s' for pattern '%s' is likely a mistake and probably\n" + " not what you want. Maybe you need to remove the extraneous space before '('.\n" + " If you are really sure this is not an error, please insert '--' between the\n" + " match and the pattern to make this warning message disappear.\n", + args[0], args[1], args[2]); + + if (*args[0]) + cur_acl = find_acl_by_name(args[0], known_acl); + else + cur_acl = NULL; + + if (!cur_acl) { + name = strdup(args[0]); + if (!name) { + memprintf(err, "out of memory when parsing ACL"); + goto out_free_acl_expr; + } + cur_acl = calloc(1, sizeof(*cur_acl)); + if (cur_acl == NULL) { + memprintf(err, "out of memory when parsing ACL"); + goto out_free_name; + } + + LIST_INIT(&cur_acl->expr); + LIST_APPEND(known_acl, &cur_acl->list); + cur_acl->name = name; + } + + /* We want to know what features the ACL needs (typically HTTP parsing), + * and where it may be used. If an ACL relies on multiple matches, it is + * OK if at least one of them may match in the context where it is used. + */ + cur_acl->use |= acl_expr->smp->fetch->use; + cur_acl->val |= acl_expr->smp->fetch->val; + LIST_APPEND(&cur_acl->expr, &acl_expr->list); + return cur_acl; + + out_free_name: + free(name); + out_free_acl_expr: + prune_acl_expr(acl_expr); + free(acl_expr); + out_return: + return NULL; +} + +/* Some useful ACLs provided by default. Only those used are allocated. */ + +const struct { + const char *name; + const char *expr[4]; /* put enough for longest expression */ +} default_acl_list[] = { + { .name = "TRUE", .expr = {"always_true",""}}, + { .name = "FALSE", .expr = {"always_false",""}}, + { .name = "LOCALHOST", .expr = {"src","127.0.0.1/8","::1",""}}, + { .name = "HTTP", .expr = {"req.proto_http",""}}, + { .name = "HTTP_1.0", .expr = {"req.ver","1.0",""}}, + { .name = "HTTP_1.1", .expr = {"req.ver","1.1",""}}, + { .name = "HTTP_2.0", .expr = {"req.ver","2.0",""}}, + { .name = "METH_CONNECT", .expr = {"method","CONNECT",""}}, + { .name = "METH_DELETE", .expr = {"method","DELETE",""}}, + { .name = "METH_GET", .expr = {"method","GET","HEAD",""}}, + { .name = "METH_HEAD", .expr = {"method","HEAD",""}}, + { .name = "METH_OPTIONS", .expr = {"method","OPTIONS",""}}, + { .name = "METH_POST", .expr = {"method","POST",""}}, + { .name = "METH_PUT", .expr = {"method","PUT",""}}, + { .name = "METH_TRACE", .expr = {"method","TRACE",""}}, + { .name = "HTTP_URL_ABS", .expr = {"url_reg","^[^/:]*://",""}}, + { .name = "HTTP_URL_SLASH", .expr = {"url_beg","/",""}}, + { .name = "HTTP_URL_STAR", .expr = {"url","*",""}}, + { .name = "HTTP_CONTENT", .expr = {"req.hdr_val(content-length)","gt","0",""}}, + { .name = "RDP_COOKIE", .expr = {"req.rdp_cookie_cnt","gt","0",""}}, + { .name = "REQ_CONTENT", .expr = {"req.len","gt","0",""}}, + { .name = "WAIT_END", .expr = {"wait_end",""}}, + { .name = NULL, .expr = {""}} +}; + +/* Find a default ACL from the default_acl list, compile it and return it. + * If the ACL is not found, NULL is returned. In theory, it cannot fail, + * except when default ACLs are broken, in which case it will return NULL. + * If is not NULL, the ACL will be queued at its tail. If is + * not NULL, it will be filled with an error message if an error occurs. This + * pointer must be freeable or NULL. is an arg_list serving as a list head + * to report missing dependencies. It may be NULL if such dependencies are not + * allowed. + */ +static struct acl *find_acl_default(const char *acl_name, struct list *known_acl, + char **err, struct arg_list *al, + const char *file, int line) +{ + __label__ out_return, out_free_acl_expr, out_free_name; + struct acl *cur_acl; + struct acl_expr *acl_expr; + char *name; + int index; + + for (index = 0; default_acl_list[index].name != NULL; index++) { + if (strcmp(acl_name, default_acl_list[index].name) == 0) + break; + } + + if (default_acl_list[index].name == NULL) { + memprintf(err, "no such ACL : '%s'", acl_name); + return NULL; + } + + acl_expr = parse_acl_expr((const char **)default_acl_list[index].expr, err, al, file, line); + if (!acl_expr) { + /* parse_acl_expr must have filled err here */ + goto out_return; + } + + name = strdup(acl_name); + if (!name) { + memprintf(err, "out of memory when building default ACL '%s'", acl_name); + goto out_free_acl_expr; + } + + cur_acl = calloc(1, sizeof(*cur_acl)); + if (cur_acl == NULL) { + memprintf(err, "out of memory when building default ACL '%s'", acl_name); + goto out_free_name; + } + + cur_acl->name = name; + cur_acl->use |= acl_expr->smp->fetch->use; + cur_acl->val |= acl_expr->smp->fetch->val; + LIST_INIT(&cur_acl->expr); + LIST_APPEND(&cur_acl->expr, &acl_expr->list); + if (known_acl) + LIST_APPEND(known_acl, &cur_acl->list); + + return cur_acl; + + out_free_name: + free(name); + out_free_acl_expr: + prune_acl_expr(acl_expr); + free(acl_expr); + out_return: + return NULL; +} + +/* Purge everything in the acl_cond , then return . */ +struct acl_cond *prune_acl_cond(struct acl_cond *cond) +{ + struct acl_term_suite *suite, *tmp_suite; + struct acl_term *term, *tmp_term; + + /* iterate through all term suites and free all terms and all suites */ + list_for_each_entry_safe(suite, tmp_suite, &cond->suites, list) { + list_for_each_entry_safe(term, tmp_term, &suite->terms, list) + free(term); + free(suite); + } + return cond; +} + +/* Parse an ACL condition starting at [0], relying on a list of already + * known ACLs passed in . The new condition is returned (or NULL in + * case of low memory). Supports multiple conditions separated by "or". If + * is not NULL, it will be filled with a pointer to an error message in + * case of error, that the caller is responsible for freeing. The initial + * location must either be freeable or NULL. The list serves as a list head + * for unresolved dependencies. It may be NULL if such dependencies are not + * allowed. + */ +struct acl_cond *parse_acl_cond(const char **args, struct list *known_acl, + enum acl_cond_pol pol, char **err, struct arg_list *al, + const char *file, int line) +{ + __label__ out_return, out_free_suite, out_free_term; + int arg, neg; + const char *word; + struct acl *cur_acl; + struct acl_term *cur_term; + struct acl_term_suite *cur_suite; + struct acl_cond *cond; + unsigned int suite_val; + + cond = calloc(1, sizeof(*cond)); + if (cond == NULL) { + memprintf(err, "out of memory when parsing condition"); + goto out_return; + } + + LIST_INIT(&cond->list); + LIST_INIT(&cond->suites); + cond->pol = pol; + cond->val = 0; + + cur_suite = NULL; + suite_val = ~0U; + neg = 0; + for (arg = 0; *args[arg]; arg++) { + word = args[arg]; + + /* remove as many exclamation marks as we can */ + while (*word == '!') { + neg = !neg; + word++; + } + + /* an empty word is allowed because we cannot force the user to + * always think about not leaving exclamation marks alone. + */ + if (!*word) + continue; + + if (strcasecmp(word, "or") == 0 || strcmp(word, "||") == 0) { + /* new term suite */ + cond->val |= suite_val; + suite_val = ~0U; + cur_suite = NULL; + neg = 0; + continue; + } + + if (strcmp(word, "{") == 0) { + /* we may have a complete ACL expression between two braces, + * find the last one. + */ + int arg_end = arg + 1; + const char **args_new; + + while (*args[arg_end] && strcmp(args[arg_end], "}") != 0) + arg_end++; + + if (!*args[arg_end]) { + memprintf(err, "missing closing '}' in condition"); + goto out_free_suite; + } + + args_new = calloc(1, (arg_end - arg + 1) * sizeof(*args_new)); + if (!args_new) { + memprintf(err, "out of memory when parsing condition"); + goto out_free_suite; + } + + args_new[0] = ""; + memcpy(args_new + 1, args + arg + 1, (arg_end - arg) * sizeof(*args_new)); + args_new[arg_end - arg] = ""; + cur_acl = parse_acl(args_new, known_acl, err, al, file, line); + free(args_new); + + if (!cur_acl) { + /* note that parse_acl() must have filled here */ + goto out_free_suite; + } + arg = arg_end; + } + else { + /* search for in the known ACL names. If we do not find + * it, let's look for it in the default ACLs, and if found, add + * it to the list of ACLs of this proxy. This makes it possible + * to override them. + */ + cur_acl = find_acl_by_name(word, known_acl); + if (cur_acl == NULL) { + cur_acl = find_acl_default(word, known_acl, err, al, file, line); + if (cur_acl == NULL) { + /* note that find_acl_default() must have filled here */ + goto out_free_suite; + } + } + } + + cur_term = calloc(1, sizeof(*cur_term)); + if (cur_term == NULL) { + memprintf(err, "out of memory when parsing condition"); + goto out_free_suite; + } + + cur_term->acl = cur_acl; + cur_term->neg = neg; + + /* Here it is a bit complex. The acl_term_suite is a conjunction + * of many terms. It may only be used if all of its terms are + * usable at the same time. So the suite's validity domain is an + * AND between all ACL keywords' ones. But, the global condition + * is valid if at least one term suite is OK. So it's an OR between + * all of their validity domains. We could emit a warning as soon + * as suite_val is null because it means that the last ACL is not + * compatible with the previous ones. Let's remain simple for now. + */ + cond->use |= cur_acl->use; + suite_val &= cur_acl->val; + + if (!cur_suite) { + cur_suite = calloc(1, sizeof(*cur_suite)); + if (cur_suite == NULL) { + memprintf(err, "out of memory when parsing condition"); + goto out_free_term; + } + LIST_INIT(&cur_suite->terms); + LIST_APPEND(&cond->suites, &cur_suite->list); + } + LIST_APPEND(&cur_suite->terms, &cur_term->list); + neg = 0; + } + + cond->val |= suite_val; + return cond; + + out_free_term: + free(cur_term); + out_free_suite: + prune_acl_cond(cond); + free(cond); + out_return: + return NULL; +} + +/* Builds an ACL condition starting at the if/unless keyword. The complete + * condition is returned. NULL is returned in case of error or if the first + * word is neither "if" nor "unless". It automatically sets the file name and + * the line number in the condition for better error reporting, and sets the + * HTTP intiailization requirements in the proxy. If is not NULL, it will + * be filled with a pointer to an error message in case of error, that the + * caller is responsible for freeing. The initial location must either be + * freeable or NULL. + */ +struct acl_cond *build_acl_cond(const char *file, int line, struct list *known_acl, + struct proxy *px, const char **args, char **err) +{ + enum acl_cond_pol pol = ACL_COND_NONE; + struct acl_cond *cond = NULL; + + if (err) + *err = NULL; + + if (strcmp(*args, "if") == 0) { + pol = ACL_COND_IF; + args++; + } + else if (strcmp(*args, "unless") == 0) { + pol = ACL_COND_UNLESS; + args++; + } + else { + memprintf(err, "conditions must start with either 'if' or 'unless'"); + return NULL; + } + + cond = parse_acl_cond(args, known_acl, pol, err, &px->conf.args, file, line); + if (!cond) { + /* note that parse_acl_cond must have filled here */ + return NULL; + } + + cond->file = file; + cond->line = line; + px->http_needed |= !!(cond->use & SMP_USE_HTTP_ANY); + return cond; +} + +/* Execute condition and return either ACL_TEST_FAIL, ACL_TEST_MISS or + * ACL_TEST_PASS depending on the test results. ACL_TEST_MISS may only be + * returned if does not contain SMP_OPT_FINAL, indicating that incomplete + * data is being examined. The function automatically sets SMP_OPT_ITERATE. This + * function only computes the condition, it does not apply the polarity required + * by IF/UNLESS, it's up to the caller to do this using something like this : + * + * res = acl_pass(res); + * if (res == ACL_TEST_MISS) + * return 0; + * if (cond->pol == ACL_COND_UNLESS) + * res = !res; + */ +enum acl_test_res acl_exec_cond(struct acl_cond *cond, struct proxy *px, struct session *sess, struct stream *strm, unsigned int opt) +{ + __label__ fetch_next; + struct acl_term_suite *suite; + struct acl_term *term; + struct acl_expr *expr; + struct acl *acl; + struct sample smp; + enum acl_test_res acl_res, suite_res, cond_res; + + /* ACLs are iterated over all values, so let's always set the flag to + * indicate this to the fetch functions. + */ + opt |= SMP_OPT_ITERATE; + + /* We're doing a logical OR between conditions so we initialize to FAIL. + * The MISS status is propagated down from the suites. + */ + cond_res = ACL_TEST_FAIL; + list_for_each_entry(suite, &cond->suites, list) { + /* Evaluate condition suite . We stop at the first term + * which returns ACL_TEST_FAIL. The MISS status is still propagated + * in case of uncertainty in the result. + */ + + /* we're doing a logical AND between terms, so we must set the + * initial value to PASS. + */ + suite_res = ACL_TEST_PASS; + list_for_each_entry(term, &suite->terms, list) { + acl = term->acl; + + /* FIXME: use cache ! + * check acl->cache_idx for this. + */ + + /* ACL result not cached. Let's scan all the expressions + * and use the first one to match. + */ + acl_res = ACL_TEST_FAIL; + list_for_each_entry(expr, &acl->expr, list) { + /* we need to reset context and flags */ + memset(&smp, 0, sizeof(smp)); + fetch_next: + if (!sample_process(px, sess, strm, opt, expr->smp, &smp)) { + /* maybe we could not fetch because of missing data */ + if (smp.flags & SMP_F_MAY_CHANGE && !(opt & SMP_OPT_FINAL)) + acl_res |= ACL_TEST_MISS; + continue; + } + + acl_res |= pat2acl(pattern_exec_match(&expr->pat, &smp, 0)); + /* + * OK now acl_res holds the result of this expression + * as one of ACL_TEST_FAIL, ACL_TEST_MISS or ACL_TEST_PASS. + * + * Then if (!MISS) we can cache the result, and put + * (smp.flags & SMP_F_VOLATILE) in the cache flags. + * + * FIXME: implement cache. + * + */ + + /* we're ORing these terms, so a single PASS is enough */ + if (acl_res == ACL_TEST_PASS) + break; + + if (smp.flags & SMP_F_NOT_LAST) + goto fetch_next; + + /* sometimes we know the fetched data is subject to change + * later and give another chance for a new match (eg: request + * size, time, ...) + */ + if (smp.flags & SMP_F_MAY_CHANGE && !(opt & SMP_OPT_FINAL)) + acl_res |= ACL_TEST_MISS; + } + /* + * Here we have the result of an ACL (cached or not). + * ACLs are combined, negated or not, to form conditions. + */ + + if (term->neg) + acl_res = acl_neg(acl_res); + + suite_res &= acl_res; + + /* we're ANDing these terms, so a single FAIL or MISS is enough */ + if (suite_res != ACL_TEST_PASS) + break; + } + cond_res |= suite_res; + + /* we're ORing these terms, so a single PASS is enough */ + if (cond_res == ACL_TEST_PASS) + break; + } + return cond_res; +} + +/* Returns a pointer to the first ACL conflicting with usage at place + * which is one of the SMP_VAL_* bits indicating a check place, or NULL if + * no conflict is found. Only full conflicts are detected (ACL is not usable). + * Use the next function to check for useless keywords. + */ +const struct acl *acl_cond_conflicts(const struct acl_cond *cond, unsigned int where) +{ + struct acl_term_suite *suite; + struct acl_term *term; + struct acl *acl; + + list_for_each_entry(suite, &cond->suites, list) { + list_for_each_entry(term, &suite->terms, list) { + acl = term->acl; + if (!(acl->val & where)) + return acl; + } + } + return NULL; +} + +/* Returns a pointer to the first ACL and its first keyword to conflict with + * usage at place which is one of the SMP_VAL_* bits indicating a check + * place. Returns true if a conflict is found, with and set (if non + * null), or false if not conflict is found. The first useless keyword is + * returned. + */ +int acl_cond_kw_conflicts(const struct acl_cond *cond, unsigned int where, struct acl const **acl, char const **kw) +{ + struct acl_term_suite *suite; + struct acl_term *term; + struct acl_expr *expr; + + list_for_each_entry(suite, &cond->suites, list) { + list_for_each_entry(term, &suite->terms, list) { + list_for_each_entry(expr, &term->acl->expr, list) { + if (!(expr->smp->fetch->val & where)) { + if (acl) + *acl = term->acl; + if (kw) + *kw = expr->kw; + return 1; + } + } + } + } + return 0; +} + +/* + * Find targets for userlist and groups in acl. Function returns the number + * of errors or OK if everything is fine. It must be called only once sample + * fetch arguments have been resolved (after smp_resolve_args()). + */ +int acl_find_targets(struct proxy *p) +{ + + struct acl *acl; + struct acl_expr *expr; + struct pattern_list *pattern; + int cfgerr = 0; + struct pattern_expr_list *pexp; + + list_for_each_entry(acl, &p->acl, list) { + list_for_each_entry(expr, &acl->expr, list) { + if (strcmp(expr->kw, "http_auth_group") == 0) { + /* Note: the ARGT_USR argument may only have been resolved earlier + * by smp_resolve_args(). + */ + if (expr->smp->arg_p->unresolved) { + ha_alert("Internal bug in proxy %s: %sacl %s %s() makes use of unresolved userlist '%s'. Please report this.\n", + p->id, *acl->name ? "" : "anonymous ", acl->name, expr->kw, + expr->smp->arg_p->data.str.area); + cfgerr++; + continue; + } + + if (LIST_ISEMPTY(&expr->pat.head)) { + ha_alert("proxy %s: acl %s %s(): no groups specified.\n", + p->id, acl->name, expr->kw); + cfgerr++; + continue; + } + + /* For each pattern, check if the group exists. */ + list_for_each_entry(pexp, &expr->pat.head, list) { + if (LIST_ISEMPTY(&pexp->expr->patterns)) { + ha_alert("proxy %s: acl %s %s(): no groups specified.\n", + p->id, acl->name, expr->kw); + cfgerr++; + continue; + } + + list_for_each_entry(pattern, &pexp->expr->patterns, list) { + /* this keyword only has one argument */ + if (!check_group(expr->smp->arg_p->data.usr, pattern->pat.ptr.str)) { + ha_alert("proxy %s: acl %s %s(): invalid group '%s'.\n", + p->id, acl->name, expr->kw, pattern->pat.ptr.str); + cfgerr++; + } + } + } + } + } + } + + return cfgerr; +} + +/* initializes ACLs by resolving the sample fetch names they rely upon. + * Returns 0 on success, otherwise an error. + */ +int init_acl() +{ + int err = 0; + int index; + const char *name; + struct acl_kw_list *kwl; + struct sample_fetch *smp; + + list_for_each_entry(kwl, &acl_keywords.list, list) { + for (index = 0; kwl->kw[index].kw != NULL; index++) { + name = kwl->kw[index].fetch_kw; + if (!name) + name = kwl->kw[index].kw; + + smp = find_sample_fetch(name, strlen(name)); + if (!smp) { + ha_alert("Critical internal error: ACL keyword '%s' relies on sample fetch '%s' which was not registered!\n", + kwl->kw[index].kw, name); + err++; + continue; + } + kwl->kw[index].smp = smp; + } + } + return err; +} + +/* dump known ACL keywords on stdout */ +void acl_dump_kwd(void) +{ + struct acl_kw_list *kwl; + const struct acl_keyword *kwp, *kw; + const char *name; + int index; + + for (kw = kwp = NULL;; kwp = kw) { + list_for_each_entry(kwl, &acl_keywords.list, list) { + for (index = 0; kwl->kw[index].kw != NULL; index++) { + if (strordered(kwp ? kwp->kw : NULL, + kwl->kw[index].kw, + kw != kwp ? kw->kw : NULL)) + kw = &kwl->kw[index]; + } + } + + if (kw == kwp) + break; + + name = kw->fetch_kw; + if (!name) + name = kw->kw; + + printf("%s = %s -m %s\n", kw->kw, name, pat_match_names[kw->match_type]); + } +} + +void free_acl_cond(struct acl_cond *cond) +{ + struct acl_term_suite *suite, *suiteb; + struct acl_term *term, *termb; + + if (!cond) + return; + + list_for_each_entry_safe(suite, suiteb, &cond->suites, list) { + list_for_each_entry_safe(term, termb, &suite->terms, list) { + LIST_DELETE(&term->list); + free(term); + } + LIST_DELETE(&suite->list); + free(suite); + } + + free(cond); +} + +/************************************************************************/ +/* All supported sample and ACL keywords must be declared here. */ +/************************************************************************/ + +/* Note: must not be declared as its list will be overwritten. + * Please take care of keeping this list alphabetically sorted. + */ +static struct acl_kw_list acl_kws = {ILH, { + { /* END */ }, +}}; + +INITCALL1(STG_REGISTER, acl_register_keywords, &acl_kws); + +/* + * Local variables: + * c-indent-level: 8 + * c-basic-offset: 8 + * End: + */ -- cgit v1.2.3