#include #include #include #include #include #include #include #include #include #include #include #include #include "util.h" static void encodehex(unsigned char c, char *s) { static const char *table = "0123456789ABCDEF"; s[0] = table[((c - (c % 16)) / 16) % 16]; s[1] = table[c % 16]; } int parseuri(const char *s, struct uri *u, int rel) { const char *p = s; size_t i; memset(u, 0, sizeof(struct uri)); if (!*s) return 0; /* prefix is "//", don't read protocol, skip to domain parsing */ if (!strncmp(p, "//", 2)) { p += 2; /* skip "//" */ } else { /* protocol part */ for (p = s; *p && (isalpha((int)*p) || isdigit((int)*p) || *p == '+' || *p == '-' || *p == '.'); p++) ; if (!strncmp(p, "://", 3)) { if (p - s + 1 >= (ssize_t)sizeof(u->proto)) return -1; /* protocol too long */ memcpy(u->proto, s, p - s); p += 3; /* skip "://" */ } else { p = s; /* no protocol format, set to start */ /* relative url: read rest as path, else as domain */ if (rel) goto readpath; } } /* domain / host part, skip until "/" or end. */ i = strcspn(p, "/"); if (i + 1 >= sizeof(u->host)) return -1; /* host too long */ memcpy(u->host, p, i); p = &p[i]; readpath: if (u->host[0]) { p = &p[strspn(p, "/")]; strlcpy(u->path, "/", sizeof(u->path)); } else { /* having no host is an error in this case */ if (!rel) return -1; } /* treat truncation as an error */ return strlcat(u->path, p, sizeof(u->path)) >= sizeof(u->path) ? -1 : 0; } /* get absolute uri; if link is relative use baseuri to make it absolute */ int absuri(const char *link, const char *base, char *buf, size_t bufsiz) { struct uri ulink, ubase; char tmp[4096] = "", *p; int r = -1, c; buf[0] = '\0'; if (parseuri(base, &ubase, 0) == -1 || parseuri(link, &ulink, 1) == -1) return -1; if (!ulink.host[0] && !ubase.host[0]) return -1; r = snprintf(tmp, sizeof(tmp), "%s://%s", ulink.proto[0] ? ulink.proto : (ubase.proto[0] ? ubase.proto : "http"), !strncmp(link, "//", 2) ? ulink.host : (ulink.host[0] ? ulink.host : ubase.host)); if (r == -1 || (size_t)r >= sizeof(tmp)) return -1; /* relative to root */ if (!ulink.host[0] && ulink.path[0] != '/') { /* relative to base url path */ if (ulink.path[0]) { if ((p = strrchr(ubase.path, '/'))) { /* temporary null-terminate */ c = *(++p); *p = '\0'; strlcat(tmp, ubase.path, sizeof(tmp)); *p = c; /* restore */ } } else { strlcat(tmp, ubase.path, sizeof(tmp)); } } if (strlcat(tmp, ulink.path, sizeof(tmp)) >= sizeof(tmp)) return -1; return encodeuri(tmp, buf, bufsiz); } int encodeuri(const char *s, char *buf, size_t bufsiz) { size_t i, b; if (!bufsiz) return -1; for (i = 0, b = 0; s[i]; i++) { if ((int)s[i] == ' ' || (unsigned char)s[i] > 127 || iscntrl((int)s[i])) { if (b + 3 >= bufsiz) return -1; buf[b++] = '%'; encodehex(s[i], &buf[b]); b += 2; } else { if (b >= bufsiz) return -1; buf[b++] = s[i]; } } if (b >= bufsiz) return -1; buf[b] = '\0'; return 0; } /* read a field-separated line from 'fp', * separated by a character 'separator', * 'fields' is a list of pointer with a maximum size of 'maxfields'. * 'maxfields' must be > 0. * 'line' buffer is allocated using malloc, 'size' will contain the * allocated buffer size. * returns: amount of fields read or -1 on error. */ int parseline(char **line, size_t *size, char **fields, unsigned int maxfields, int separator, FILE *fp) { char *prev, *s; unsigned int i; if(getline(line, size, fp) <= 0) return -1; for(prev = *line, i = 0; (s = strchr(prev, separator)) && i < maxfields - 1; i++) { *s = '\0'; fields[i] = prev; prev = s + 1; } fields[i++] = prev; /* make non-parsed fields empty. */ for(; i < maxfields; i++) fields[i] = ""; return (int)i; } char * trimend(const char *s) { size_t len = strlen(s); for(; len > 0 && isspace((int)s[len - 1]); len--) ; return (char*)&s[len]; } char * trimstart(const char *s) { for(; *s && isspace((int)*s); s++) ; return (char *)s; } void printxmlencoded(const char *s, FILE *fp) { for(; *s; s++) { switch(*s) { case '<': fputs("<", fp); break; case '>': fputs(">", fp); break; case '\'': fputs("'", fp); break; case '&': fputs("&", fp); break; case '"': fputs(""", fp); break; default: fputc((int)*s, fp); } } } /* print `len` columns of characters. If string is shorter pad the rest * with characters `pad`. */ void printutf8pad(FILE *fp, const char *s, size_t len, int pad) { wchar_t w; size_t n = 0, i; int r; for(i = 0; *s && n < len; i++, s++) { if(ISUTF8(*s)) { if((r = mbtowc(&w, s, 4)) == -1) break; if((r = wcwidth(w)) == -1) r = 1; n += (size_t)r; } putc(*s, fp); } for(; n < len; n++) putc(pad, fp); } /* parse time to time_t, assumes time_t is signed */ int strtotime(const char *s, time_t *t) { long l; errno = 0; l = strtol(s, NULL, 10); if(errno != 0) return -1; *t = (time_t)l; return 0; } /* print text, ignore tabs, newline and carriage return etc * print some HTML 2.0 / XML 1.0 as normal text */ void printcontent(const char *s, FILE *fp) { const char *p; for(p = s; *p; p++) { if(*p == '\\') { switch (*(++p)) { case '\\': fputc('\\', fp); break; case 't': fputc('\t', fp); break; case 'n': fputc('\n', fp); break; default: fputc(*p, fp); } } else { fputc(*p, fp); } } } /* Some implementations of basename(3) return a pointer to a static * internal buffer (OpenBSD). Others modify the contents of `path` (POSIX). * This is a wrapper function that is compatible with both versions. * The program will error out if basename(3) failed, this can only happen * with the OpenBSD version. */ char * xbasename(const char *path) { char *p, *b; if(!(p = strdup(path))) err(1, "strdup"); if(!(b = basename(p))) err(1, "basename"); if(!(b = strdup(b))) err(1, "strdup"); free(p); return b; }