/* $Id: istream.c,v 1.7 2001/12/26 12:18:06 ukai Exp $ */ #include "fm.h" #include "istream.h" #include #define uchar unsigned char #define STREAM_BUF_SIZE 8192 #define SSL_BUF_SIZE 1536 #define MUST_BE_UPDATED(bs) ((bs)->stream.cur==(bs)->stream.next) #define POP_CHAR(bs) ((bs)->iseos?'\0':(bs)->stream.buf[(bs)->stream.cur++]) static void basic_close(int *handle); static int basic_read(int *handle, char *buf, int len); static void file_close(struct file_handle *handle); static int file_read(struct file_handle *handle, char *buf, int len); static int str_read(Str handle, char *buf, int len); #ifdef USE_SSL static void ssl_close(struct ssl_handle *handle); static int ssl_read(struct ssl_handle *handle, char *buf, int len); #endif static int ens_read(struct ens_handle *handle, char *buf, int len); static void ens_close(struct ens_handle *handle); static void do_update(BaseStream base) { int len; base->stream.cur = base->stream.next = 0; len = base->read(base->handle, base->stream.buf, base->stream.size); if (len <= 0) base->iseos = TRUE; else base->stream.next += len; } static int buffer_read(StreamBuffer sb, char *obuf, int count) { int len = sb->next - sb->cur; if (len > 0) { if (len > count) len = count; bcopy((const void *)&sb->buf[sb->cur], obuf, len); sb->cur += len; } return len; } static void init_buffer(BaseStream base, char *buf, int bufsize) { StreamBuffer sb = &base->stream; sb->size = bufsize; sb->cur = 0; if (buf) { sb->buf = (uchar *) buf; sb->next = bufsize; } else { sb->buf = NewAtom_N(uchar, bufsize); sb->next = 0; } base->iseos = FALSE; } static void init_base_stream(BaseStream base, int bufsize) { init_buffer(base, NULL, bufsize); } static void init_str_stream(BaseStream base, Str s) { init_buffer(base, s->ptr, s->length); } InputStream newInputStream(int des) { InputStream stream; if (des < 0) return NULL; stream = New(union input_stream); init_base_stream(&stream->base, STREAM_BUF_SIZE); stream->base.type = IST_BASIC; stream->base.handle = New(int); *(int *)stream->base.handle = des; stream->base.read = (int (*)())basic_read; stream->base.close = (void (*)())basic_close; return stream; } InputStream newFileStream(FILE * f, void (*closep) ()) { InputStream stream; if (f == NULL) return NULL; stream = New(union input_stream); init_base_stream(&stream->base, STREAM_BUF_SIZE); stream->file.type = IST_FILE; stream->file.handle = New(struct file_handle); stream->file.handle->f = f; if (closep) stream->file.handle->close = closep; else stream->file.handle->close = (void (*)())fclose; stream->file.read = (int (*)())file_read; stream->file.close = (void (*)())file_close; return stream; } InputStream newStrStream(Str s) { InputStream stream; if (s == NULL) return NULL; stream = New(union input_stream); init_str_stream(&stream->base, s); stream->str.type = IST_STR; stream->str.handle = s; stream->str.read = (int (*)())str_read; stream->str.close = NULL; return stream; } #ifdef USE_SSL InputStream newSSLStream(SSL * ssl, int sock) { InputStream stream; if (sock < 0) return NULL; stream = New(union input_stream); init_base_stream(&stream->base, SSL_BUF_SIZE); stream->ssl.type = IST_SSL; stream->ssl.handle = New(struct ssl_handle); stream->ssl.handle->ssl = ssl; stream->ssl.handle->sock = sock; stream->ssl.read = (int (*)())ssl_read; stream->ssl.close = (void (*)())ssl_close; return stream; } #endif InputStream newEncodedStream(InputStream is, char encoding) { InputStream stream; if (is == NULL || (encoding != ENC_QUOTE && encoding != ENC_BASE64 && encoding != ENC_UUENCODE)) return is; stream = New(union input_stream); init_base_stream(&stream->base, STREAM_BUF_SIZE); stream->ens.type = IST_ENCODED; stream->ens.handle = New(struct ens_handle); stream->ens.handle->is = is; stream->ens.handle->pos = 0; stream->ens.handle->encoding = encoding; stream->ens.handle->s = NULL; stream->ens.read = (int (*)())ens_read; stream->ens.close = (void (*)())ens_close; return stream; } void ISclose(InputStream stream) { MySignalHandler(*prevtrap) (); if (stream == NULL || stream->base.close == NULL) return; prevtrap = signal(SIGINT, SIG_IGN); stream->base.close(stream->base.handle); signal(SIGINT, prevtrap); } int ISgetc(InputStream stream) { BaseStream base; if (stream == NULL) return '\0'; base = &stream->base; if (!base->iseos && MUST_BE_UPDATED(base)) do_update(base); return POP_CHAR(base); } int ISundogetc(InputStream stream) { StreamBuffer sb; if (stream == NULL) return -1; sb = &stream->base.stream; if (sb->cur > 0) { sb->cur--; return 0; } return -1; } #define MARGIN_STR_SIZE 10 Str StrISgets(InputStream stream) { BaseStream base; StreamBuffer sb; Str s = NULL; uchar *p; int len; if (stream == NULL) return '\0'; base = &stream->base; sb = &base->stream; while (!base->iseos) { if (MUST_BE_UPDATED(base)) { do_update(base); } else { if ((p = memchr(&sb->buf[sb->cur], '\n', sb->next - sb->cur))) { len = p - &sb->buf[sb->cur] + 1; if (s == NULL) s = Strnew_size(len); Strcat_charp_n(s, (char *)&sb->buf[sb->cur], len); sb->cur += len; return s; } else { if (s == NULL) s = Strnew_size(sb->next - sb->cur + MARGIN_STR_SIZE); Strcat_charp_n(s, (char *)&sb->buf[sb->cur], sb->next - sb->cur); sb->cur = sb->next; } } } if (s == NULL) return Strnew(); return s; } Str StrmyISgets(InputStream stream) { BaseStream base; StreamBuffer sb; Str s = NULL; int i, len; if (stream == NULL) return '\0'; base = &stream->base; sb = &base->stream; while (!base->iseos) { if (MUST_BE_UPDATED(base)) { do_update(base); } else { if (s && Strlastchar(s) == '\r') { if (sb->buf[sb->cur] == '\n') Strcat_char(s, (char)sb->buf[sb->cur++]); return s; } for (i = sb->cur; i < sb->next && sb->buf[i] != '\n' && sb->buf[i] != '\r'; i++) ; if (i < sb->next) { len = i - sb->cur + 1; if (s == NULL) s = Strnew_size(len + MARGIN_STR_SIZE); Strcat_charp_n(s, (char *)&sb->buf[sb->cur], len); sb->cur = i + 1; if (sb->buf[i] == '\n') return s; } else { if (s == NULL) s = Strnew_size(sb->next - sb->cur + MARGIN_STR_SIZE); Strcat_charp_n(s, (char *)&sb->buf[sb->cur], sb->next - sb->cur); sb->cur = sb->next; } } } if (s == NULL) return Strnew(); return s; } int ISread(InputStream stream, Str buf, int count) { int rest, len; BaseStream base; if (stream == NULL || (base = &stream->base)->iseos) return 0; len = buffer_read(&base->stream, buf->ptr, count); rest = count - len; if (MUST_BE_UPDATED(base)) { len = base->read(base->handle, &buf->ptr[len], rest); if (len <= 0) { base->iseos = TRUE; len = 0; } rest -= len; } Strtruncate(buf, count - rest); if (buf->length > 0) return 1; return 0; } int ISfileno(InputStream stream) { if (stream == NULL) return -1; switch (IStype(stream)) { case IST_BASIC: return *(int *)stream->base.handle; case IST_FILE: return fileno(stream->file.handle->f); case IST_ENCODED: return ISfileno(stream->ens.handle->is); default: return -1; } } int ISeos(InputStream stream) { BaseStream base = &stream->base; if (!base->iseos && MUST_BE_UPDATED(base)) do_update(base); return base->iseos; } #ifdef USE_SSL Str ssl_get_certificate(InputStream stream) { BIO *bp; X509 *x; char *p; int len; Str s; if (stream == NULL) return NULL; if (IStype(stream) != IST_SSL) return NULL; if (stream->ssl.handle == NULL) return NULL; x = SSL_get_peer_certificate(stream->ssl.handle->ssl); if (x == NULL) return NULL; bp = BIO_new(BIO_s_mem()); X509_print(bp, x); len = (int)BIO_ctrl(bp, BIO_CTRL_INFO, 0, (char *)&p); s = Strnew_charp_n(p, len); BIO_free_all(bp); return s; } Str ssl_check_cert_ident(SSL *handle, char *hostname) { X509 *x; int i; Str ret = Strnew_charp("SSL error: failed to check certificate chain"); /* * All we need to do here is check that the CN matches. * * From RFC2818 3.1 Server Identity: * If a subjectAltName extension of type dNSName is present, that MUST * be used as the identity. Otherwise, the (most specific) Common Name * field in the Subject field of the certificate MUST be used. Although * the use of the Common Name is existing practice, it is deprecated and * Certification Authorities are encouraged to use the dNSName instead. */ x = SSL_get_peer_certificate(handle); if (!x) { ret = Strnew_charp("Unable to get peer certificate"); return ret; } i = X509_get_ext_by_NID(x, NID_subject_alt_name, -1); if (i >= 0) { X509_EXTENSION *ex; STACK_OF(GENERAL_NAME) *alt; ex = X509_get_ext(x, i); alt = X509V3_EXT_d2i(ex); if (alt) { int n, len1, len2 = 0; char *domain; GENERAL_NAME *gn; X509V3_EXT_METHOD *method; len1 = strlen(hostname); n = sk_GENERAL_NAME_num(alt); domain = strchr(hostname, '.'); if (domain) len2 = len1 - (domain - hostname); for (i = 0; i < n; i++) { gn = sk_GENERAL_NAME_value(alt, i); if (gn->type == GEN_DNS) { char *sn = ASN1_STRING_data(gn->d.ia5); int sl = ASN1_STRING_length(gn->d.ia5); /* Is this an exact match? */ if ((len1 == sl) && !strncasecmp(hostname, sn, len1)) break; /* Is this a wildcard match? */ if ((*sn == '*') && domain && (len2 == sl-1) && !strncasecmp(domain, sn+1, len2)) break; } } method = X509V3_EXT_get(ex); method->ext_free(alt); if (i < n) /* Found a match */ ret = NULL; } } if (ret != NULL) { X509_NAME *xn; char buf[2048]; xn = X509_get_subject_name(x); if (X509_NAME_get_text_by_NID(xn, NID_commonName, buf, sizeof(buf)) == -1) { ret = Strnew_charp("Unable to get common name from peer cert"); return ret; } else if (strcasecmp(hostname, buf)) ret = Sprintf("Bad cert ident %s from %s", buf, hostname); else ret = NULL; } X509_free(x); return ret; } #endif /* Raw level input stream functions */ static void basic_close(int *handle) { close(*(int *)handle); } static int basic_read(int *handle, char *buf, int len) { return read(*(int *)handle, buf, len); } static void file_close(struct file_handle *handle) { handle->close(handle->f); } static int file_read(struct file_handle *handle, char *buf, int len) { return fread(buf, 1, len, handle->f); } static int str_read(Str handle, char *buf, int len) { return 0; } #ifdef USE_SSL static void ssl_close(struct ssl_handle *handle) { close(handle->sock); if (handle->ssl) SSL_free(handle->ssl); } static int ssl_read(struct ssl_handle *handle, char *buf, int len) { int status; if (handle->ssl) { #ifdef USE_SSL_VERIFY for (;;) { status = SSL_read(handle->ssl, buf, len); if (status > 0) break; switch (SSL_get_error(handle->ssl, status)) { case SSL_ERROR_WANT_READ: case SSL_ERROR_WANT_WRITE: /* reads can trigger write errors; see SSL_get_error(3) */ continue; default: break; } break; } #else /* if !defined(USE_SSL_VERIFY) */ status = SSL_read(handle->ssl, buf, len); #endif /* !defined(USE_SSL_VERIFY) */ } else status = read(handle->sock, buf, len); return status; } #endif /* USE_SSL */ static void ens_close(struct ens_handle *handle) { ISclose(handle->is); } static int ens_read(struct ens_handle *handle, char *buf, int len) { if (handle->s == NULL || handle->pos == handle->s->length) { char *p; handle->s = StrmyISgets(handle->is); if (handle->s->length == 0) return 0; cleanup_line(handle->s, PAGER_MODE); if (handle->encoding == ENC_BASE64) Strchop(handle->s); else if (handle->encoding == ENC_UUENCODE) { if (!strncmp(handle->s->ptr, "begin", 5)) handle->s = StrmyISgets(handle->is); Strchop(handle->s); } p = handle->s->ptr; if (handle->encoding == ENC_QUOTE) handle->s = decodeQP(&p); else if (handle->encoding == ENC_BASE64) handle->s = decodeB(&p); else if (handle->encoding == ENC_UUENCODE) handle->s = decodeU(&p); handle->pos = 0; } if (len > handle->s->length - handle->pos) len = handle->s->length - handle->pos; bcopy(&handle->s->ptr[handle->pos], buf, len); handle->pos += len; return len; }