/* copyright (c) 2022 - 2024 grunfink et al. / MIT license */ #ifndef _XS_URL_H #define _XS_URL_H xs_str *xs_url_dec(const char *str); xs_dict *xs_url_vars(const char *str); xs_dict *xs_multipart_form_data(const char *payload, int p_size, const char *header); #ifdef XS_IMPLEMENTATION xs_str *xs_url_dec(const char *str) /* decodes an URL */ { xs_str *s = xs_str_new(NULL); while (*str) { if (*str == '%') { int i; if (sscanf(str + 1, "%02x", &i) == 1) { unsigned char uc = i; s = xs_append_m(s, (char *)&uc, 1); str += 2; } } else if (*str == '+') s = xs_append_m(s, " ", 1); else s = xs_append_m(s, str, 1); str++; } return s; } xs_dict *xs_url_vars(const char *str) /* parse url variables */ { xs_dict *vars; vars = xs_dict_new(); if (str != NULL) { /* split by arguments */ xs *args = xs_split(str, "&"); int ct = 0; const xs_val *v; while (xs_list_next(args, &v, &ct)) { xs *kv = xs_split_n(v, "=", 1); if (xs_list_len(kv) == 2) { const char *key = xs_list_get(kv, 0); const char *pv = xs_dict_get(vars, key); if (!xs_is_null(pv)) { /* there is a previous value: convert to a list and append */ xs *vlist = NULL; if (xs_type(pv) == XSTYPE_LIST) vlist = xs_dup(pv); else { vlist = xs_list_new(); vlist = xs_list_append(vlist, pv); } vlist = xs_list_append(vlist, xs_list_get(kv, 1)); vars = xs_dict_set(vars, key, vlist); } else { /* ends with []? force to always be a list */ if (xs_endswith(key, "[]")) { xs *vlist = xs_list_new(); vlist = xs_list_append(vlist, xs_list_get(kv, 1)); vars = xs_dict_append(vars, key, vlist); } else vars = xs_dict_append(vars, key, xs_list_get(kv, 1)); } } } } return vars; } xs_dict *xs_multipart_form_data(const char *payload, int p_size, const char *header) /* parses a multipart/form-data payload */ { xs *boundary = NULL; int offset = 0; int bsz; char *p; /* build the boundary string */ { xs *l1 = xs_split(header, "="); if (xs_list_len(l1) != 2) return NULL; boundary = xs_fmt("--%s", xs_list_get(l1, 1)); } bsz = strlen(boundary); xs_dict *p_vars = xs_dict_new(); /* iterate searching the boundaries */ while ((p = xs_memmem(payload + offset, p_size - offset, boundary, bsz)) != NULL) { xs *s1 = NULL; xs *l1 = NULL; const char *vn = NULL; const char *fn = NULL; char *q; int po, ps; /* final boundary? */ p += bsz; if (p[0] == '-' && p[1] == '-') break; /* skip the \r\n */ p += 2; /* now on a Content-Disposition... line; get it */ q = strchr(p, '\r'); s1 = xs_realloc(NULL, q - p + 1); memcpy(s1, p, q - p); s1[q - p] = '\0'; /* move on (over a \r\n) */ p = q; /* split by " like a primitive man */ l1 = xs_split(s1, "\""); /* get the variable name */ vn = xs_list_get(l1, 1); /* is it an attached file? */ if (xs_list_len(l1) >= 4 && strcmp(xs_list_get(l1, 2), "; filename=") == 0) { /* get the file name */ fn = xs_list_get(l1, 3); } /* find the start of the part content */ if ((p = xs_memmem(p, p_size - (p - payload), "\r\n\r\n", 4)) == NULL) break; p += 4; /* find the next boundary */ if ((q = xs_memmem(p, p_size - (p - payload), boundary, bsz)) == NULL) break; po = p - payload; ps = q - p - 2; /* - 2 because the final \r\n */ /* is it a filename? */ if (fn != NULL) { /* p_var value is a list */ xs *l1 = xs_list_new(); xs *vpo = xs_number_new(po); xs *vps = xs_number_new(ps); l1 = xs_list_append(l1, fn); l1 = xs_list_append(l1, vpo); l1 = xs_list_append(l1, vps); p_vars = xs_dict_append(p_vars, vn, l1); } else { /* regular variable; just copy */ xs *vc = xs_realloc(NULL, ps + 1); memcpy(vc, payload + po, ps); vc[ps] = '\0'; p_vars = xs_dict_append(p_vars, vn, vc); } /* move on */ offset = q - payload; } return p_vars; } #endif /* XS_IMPLEMENTATION */ #endif /* XS_URL_H */