org.glowroot.shaded.javax.mail.internet.MimeBodyPart Maven / Gradle / Ivy
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package org.glowroot.shaded.javax.mail.internet;
import org.glowroot.shaded.javax.mail.*;
import javax.activation.*;
import java.io.*;
import java.util.*;
import org.glowroot.shaded.sun.mail.util.*;
/**
* This class represents a MIME body part. It implements the
* BodyPart
abstract class and the MimePart
* interface. MimeBodyParts are contained in MimeMultipart
* objects.
*
* MimeBodyPart uses the InternetHeaders
class to parse
* and store the headers of that body part.
*
*
A note on RFC 822 and MIME headers
*
* RFC 822 header fields must contain only
* US-ASCII characters. MIME allows non ASCII characters to be present
* in certain portions of certain headers, by encoding those characters.
* RFC 2047 specifies the rules for doing this. The MimeUtility
* class provided in this package can be used to to achieve this.
* Callers of the setHeader
, addHeader
, and
* addHeaderLine
methods are responsible for enforcing
* the MIME requirements for the specified headers. In addition, these
* header fields must be folded (wrapped) before being sent if they
* exceed the line length limitation for the transport (1000 bytes for
* SMTP). Received headers may have been folded. The application is
* responsible for folding and unfolding headers as appropriate.
*
* @author John Mani
* @author Bill Shannon
* @author Kanwar Oberoi
* @see org.glowroot.shaded.javax.mail.Part
* @see org.glowroot.shaded.javax.mail.internet.MimePart
* @see org.glowroot.shaded.javax.mail.internet.MimeUtility
*/
public class MimeBodyPart extends BodyPart implements MimePart {
// Paranoia:
// allow this last minute change to be disabled if it causes problems
private static final boolean setDefaultTextCharset =
PropUtil.getBooleanSystemProperty(
"mail.mime.setdefaulttextcharset", true);
private static final boolean setContentTypeFileName =
PropUtil.getBooleanSystemProperty(
"mail.mime.setcontenttypefilename", true);
private static final boolean encodeFileName =
PropUtil.getBooleanSystemProperty("mail.mime.encodefilename", false);
private static final boolean decodeFileName =
PropUtil.getBooleanSystemProperty("mail.mime.decodefilename", false);
private static final boolean ignoreMultipartEncoding =
PropUtil.getBooleanSystemProperty(
"mail.mime.ignoremultipartencoding", true);
// Paranoia:
// allow this last minute change to be disabled if it causes problems
static final boolean cacheMultipart = // accessed by MimeMessage
PropUtil.getBooleanSystemProperty("mail.mime.cachemultipart", true);
/**
* The DataHandler object representing this Part's content.
*/
protected DataHandler dh;
/**
* Byte array that holds the bytes of the content of this Part.
*/
protected byte[] content;
/**
* If the data for this body part was supplied by an
* InputStream that implements the SharedInputStream interface,
* contentStream
is another such stream representing
* the content of this body part. In this case, content
* will be null.
*
* @since JavaMail 1.2
*/
protected InputStream contentStream;
/**
* The InternetHeaders object that stores all the headers
* of this body part.
*/
protected InternetHeaders headers;
/**
* If our content is a Multipart of Message object, we save it
* the first time it's created by parsing a stream so that changes
* to the contained objects will not be lost.
*
* If this field is not null, it's return by the {@link #getContent}
* method. The {@link #getContent} method sets this field if it
* would return a Multipart or MimeMessage object. This field is
* is cleared by the {@link #setDataHandler} method.
*
* @since JavaMail 1.5
*/
protected Object cachedContent;
/**
* An empty MimeBodyPart object is created.
* This body part maybe filled in by a client constructing a multipart
* message.
*/
public MimeBodyPart() {
super();
headers = new InternetHeaders();
}
/**
* Constructs a MimeBodyPart by reading and parsing the data from
* the specified input stream. The parser consumes data till the end
* of the given input stream. The input stream must start at the
* beginning of a valid MIME body part and must terminate at the end
* of that body part.
*
* Note that the "boundary" string that delimits body parts must
* not be included in the input stream. The intention
* is that the MimeMultipart parser will extract each body part's bytes
* from a multipart stream and feed them into this constructor, without
* the delimiter strings.
*
* @param is the body part Input Stream
* @exception MessagingException for failures
*/
public MimeBodyPart(InputStream is) throws MessagingException {
if (!(is instanceof ByteArrayInputStream) &&
!(is instanceof BufferedInputStream) &&
!(is instanceof SharedInputStream))
is = new BufferedInputStream(is);
headers = new InternetHeaders(is);
if (is instanceof SharedInputStream) {
SharedInputStream sis = (SharedInputStream)is;
contentStream = sis.newStream(sis.getPosition(), -1);
} else {
try {
content = ASCIIUtility.getBytes(is);
} catch (IOException ioex) {
throw new MessagingException("Error reading input stream", ioex);
}
}
}
/**
* Constructs a MimeBodyPart using the given header and
* content bytes.
*
* Used by providers.
*
* @param headers The header of this part
* @param content bytes representing the body of this part.
* @exception MessagingException for failures
*/
public MimeBodyPart(InternetHeaders headers, byte[] content)
throws MessagingException {
super();
this.headers = headers;
this.content = content;
}
/**
* Return the size of the content of this body part in bytes.
* Return -1 if the size cannot be determined.
*
* Note that this number may not be an exact measure of the
* content size and may or may not account for any transfer
* encoding of the content.
*
* This implementation returns the size of the content
* array (if not null), or, if contentStream
is not
* null, and the available
method returns a positive
* number, it returns that number as the size. Otherwise, it returns
* -1.
*
* @return size in bytes, or -1 if not known
*/
public int getSize() throws MessagingException {
if (content != null)
return content.length;
if (contentStream != null) {
try {
int size = contentStream.available();
// only believe the size if it's greate than zero, since zero
// is the default returned by the InputStream class itself
if (size > 0)
return size;
} catch (IOException ex) {
// ignore it
}
}
return -1;
}
/**
* Return the number of lines for the content of this Part.
* Return -1 if this number cannot be determined.
*
* Note that this number may not be an exact measure of the
* content length and may or may not account for any transfer
* encoding of the content.
*
* This implementation returns -1.
*
* @return number of lines, or -1 if not known
*/
public int getLineCount() throws MessagingException {
return -1;
}
/**
* Returns the value of the RFC 822 "Content-Type" header field.
* This represents the content type of the content of this
* body part. This value must not be null. If this field is
* unavailable, "text/plain" should be returned.
*
* This implementation uses getHeader(name)
* to obtain the requisite header field.
*
* @return Content-Type of this body part
*/
public String getContentType() throws MessagingException {
String s = getHeader("Content-Type", null);
s = MimeUtil.cleanContentType(this, s);
if (s == null)
s = "text/plain";
return s;
}
/**
* Is this Part of the specified MIME type? This method
* compares only the primaryType
and
* subType
.
* The parameters of the content types are ignored.
*
* For example, this method will return true
when
* comparing a Part of content type "text/plain"
* with "text/plain; charset=foobar".
*
* If the subType
of mimeType
is the
* special character '*', then the subtype is ignored during the
* comparison.
*
* @exception MessagingException for failures
*/
public boolean isMimeType(String mimeType) throws MessagingException {
return isMimeType(this, mimeType);
}
/**
* Returns the disposition from the "Content-Disposition" header field.
* This represents the disposition of this part. The disposition
* describes how the part should be presented to the user.
*
* If the Content-Disposition field is unavailable,
* null is returned.
*
* This implementation uses getHeader(name)
* to obtain the requisite header field.
*
* @exception MessagingException for failures
* @see #headers
*/
public String getDisposition() throws MessagingException {
return getDisposition(this);
}
/**
* Set the disposition in the "Content-Disposition" header field
* of this body part. If the disposition is null, any existing
* "Content-Disposition" header field is removed.
*
* @exception IllegalWriteException if the underlying
* implementation does not support modification
* @exception IllegalStateException if this body part is
* obtained from a READ_ONLY folder.
* @exception MessagingException for other failures
*/
public void setDisposition(String disposition) throws MessagingException {
setDisposition(this, disposition);
}
/**
* Returns the content transfer encoding from the
* "Content-Transfer-Encoding" header
* field. Returns null
if the header is unavailable
* or its value is absent.
*
* This implementation uses getHeader(name)
* to obtain the requisite header field.
*
* @see #headers
*/
public String getEncoding() throws MessagingException {
return getEncoding(this);
}
/**
* Returns the value of the "Content-ID" header field. Returns
* null
if the field is unavailable or its value is
* absent.
*
* This implementation uses getHeader(name)
* to obtain the requisite header field.
*/
public String getContentID() throws MessagingException {
return getHeader("Content-Id", null);
}
/**
* Set the "Content-ID" header field of this body part.
* If the cid
parameter is null, any existing
* "Content-ID" is removed.
*
* @param cid the Content-ID
* @exception IllegalWriteException if the underlying
* implementation does not support modification
* @exception IllegalStateException if this body part is
* obtained from a READ_ONLY folder.
* @exception MessagingException for other failures
* @since JavaMail 1.3
*/
public void setContentID(String cid) throws MessagingException {
if (cid == null)
removeHeader("Content-ID");
else
setHeader("Content-ID", cid);
}
/**
* Return the value of the "Content-MD5" header field. Returns
* null
if this field is unavailable or its value
* is absent.
*
* This implementation uses getHeader(name)
* to obtain the requisite header field.
*/
public String getContentMD5() throws MessagingException {
return getHeader("Content-MD5", null);
}
/**
* Set the "Content-MD5" header field of this body part.
*
* @exception IllegalWriteException if the underlying
* implementation does not support modification
* @exception IllegalStateException if this body part is
* obtained from a READ_ONLY folder.
*/
public void setContentMD5(String md5) throws MessagingException {
setHeader("Content-MD5", md5);
}
/**
* Get the languages specified in the Content-Language header
* of this MimePart. The Content-Language header is defined by
* RFC 1766. Returns null
if this header is not
* available or its value is absent.
*
* This implementation uses getHeader(name)
* to obtain the requisite header field.
*/
public String[] getContentLanguage() throws MessagingException {
return getContentLanguage(this);
}
/**
* Set the Content-Language header of this MimePart. The
* Content-Language header is defined by RFC 1766.
*
* @param languages array of language tags
*/
public void setContentLanguage(String[] languages)
throws MessagingException {
setContentLanguage(this, languages);
}
/**
* Returns the "Content-Description" header field of this body part.
* This typically associates some descriptive information with
* this part. Returns null if this field is unavailable or its
* value is absent.
*
* If the Content-Description field is encoded as per RFC 2047,
* it is decoded and converted into Unicode. If the decoding or
* conversion fails, the raw data is returned as is.
*
* This implementation uses getHeader(name)
* to obtain the requisite header field.
*
* @return content description
*/
public String getDescription() throws MessagingException {
return getDescription(this);
}
/**
* Set the "Content-Description" header field for this body part.
* If the description parameter is null
, then any
* existing "Content-Description" fields are removed.
*
* If the description contains non US-ASCII characters, it will
* be encoded using the platform's default charset. If the
* description contains only US-ASCII characters, no encoding
* is done and it is used as is.
*
* Note that if the charset encoding process fails, a
* MessagingException is thrown, and an UnsupportedEncodingException
* is included in the chain of nested exceptions within the
* MessagingException.
*
* @param description content description
* @exception IllegalWriteException if the underlying
* implementation does not support modification
* @exception IllegalStateException if this body part is
* obtained from a READ_ONLY folder.
* @exception MessagingException otherwise; an
* UnsupportedEncodingException may be included
* in the exception chain if the charset
* conversion fails.
*/
public void setDescription(String description) throws MessagingException {
setDescription(description, null);
}
/**
* Set the "Content-Description" header field for this body part.
* If the description parameter is null
, then any
* existing "Content-Description" fields are removed.
*
* If the description contains non US-ASCII characters, it will
* be encoded using the specified charset. If the description
* contains only US-ASCII characters, no encoding is done and
* it is used as is.
*
* Note that if the charset encoding process fails, a
* MessagingException is thrown, and an UnsupportedEncodingException
* is included in the chain of nested exceptions within the
* MessagingException.
*
* @param description Description
* @param charset Charset for encoding
* @exception IllegalWriteException if the underlying
* implementation does not support modification
* @exception IllegalStateException if this body part is
* obtained from a READ_ONLY folder.
* @exception MessagingException otherwise; an
* UnsupportedEncodingException may be included
* in the exception chain if the charset
* conversion fails.
*/
public void setDescription(String description, String charset)
throws MessagingException {
setDescription(this, description, charset);
}
/**
* Get the filename associated with this body part.
*
* Returns the value of the "filename" parameter from the
* "Content-Disposition" header field of this body part. If its
* not available, returns the value of the "name" parameter from
* the "Content-Type" header field of this body part.
* Returns null
if both are absent.
*
* If the mail.mime.decodefilename
System property
* is set to true, the {@link MimeUtility#decodeText
* MimeUtility.decodeText} method will be used to decode the
* filename. While such encoding is not supported by the MIME
* spec, many mailers use this technique to support non-ASCII
* characters in filenames. The default value of this property
* is false.
*
* @return filename
*/
public String getFileName() throws MessagingException {
return getFileName(this);
}
/**
* Set the filename associated with this body part, if possible.
*
* Sets the "filename" parameter of the "Content-Disposition"
* header field of this body part. For compatibility with older
* mailers, the "name" parameter of the "Content-Type" header is
* also set.
*
* If the mail.mime.encodefilename
System property
* is set to true, the {@link MimeUtility#encodeText
* MimeUtility.encodeText} method will be used to encode the
* filename. While such encoding is not supported by the MIME
* spec, many mailers use this technique to support non-ASCII
* characters in filenames. The default value of this property
* is false.
*
* @param filename the file name
* @exception IllegalWriteException if the underlying
* implementation does not support modification
* @exception IllegalStateException if this body part is
* obtained from a READ_ONLY folder.
* @exception MessagingException for other failures
*/
public void setFileName(String filename) throws MessagingException {
setFileName(this, filename);
}
/**
* Return a decoded input stream for this body part's "content".
*
* This implementation obtains the input stream from the DataHandler.
* That is, it invokes getDataHandler().getInputStream();
*
* @return an InputStream
* @exception IOException this is typically thrown by the
* DataHandler. Refer to the documentation for
* javax.activation.DataHandler for more details.
* @exception MessagingException for other failures
*
* @see #getContentStream
* @see javax.activation.DataHandler#getInputStream
*/
public InputStream getInputStream()
throws IOException, MessagingException {
return getDataHandler().getInputStream();
}
/**
* Produce the raw bytes of the content. This method is used
* when creating a DataHandler object for the content. Subclasses
* that can provide a separate input stream for just the Part
* content might want to override this method.
*
* @return an InputStream containing the raw bytes
* @exception MessagingException for failures
* @see #content
* @see MimeMessage#getContentStream
*/
protected InputStream getContentStream() throws MessagingException {
if (contentStream != null)
return ((SharedInputStream)contentStream).newStream(0, -1);
if (content != null)
return new ByteArrayInputStream(content);
throw new MessagingException("No MimeBodyPart content");
}
/**
* Return an InputStream to the raw data with any Content-Transfer-Encoding
* intact. This method is useful if the "Content-Transfer-Encoding"
* header is incorrect or corrupt, which would prevent the
* getInputStream
method or getContent
method
* from returning the correct data. In such a case the application may
* use this method and attempt to decode the raw data itself.
*
* This implementation simply calls the getContentStream
* method.
*
* @return an InputStream containing the raw bytes
* @exception MessagingException for failures
* @see #getInputStream
* @see #getContentStream
* @since JavaMail 1.2
*/
public InputStream getRawInputStream() throws MessagingException {
return getContentStream();
}
/**
* Return a DataHandler for this body part's content.
*
* The implementation provided here works just like the
* the implementation in MimeMessage.
* @see MimeMessage#getDataHandler
*/
public DataHandler getDataHandler() throws MessagingException {
if (dh == null)
dh = new MimePartDataHandler(this);
return dh;
}
/**
* Return the content as a Java object. The type of the object
* returned is of course dependent on the content itself. For
* example, the native format of a text/plain content is usually
* a String object. The native format for a "multipart"
* content is always a Multipart subclass. For content types that are
* unknown to the DataHandler system, an input stream is returned
* as the content.
*
* This implementation obtains the content from the DataHandler.
* That is, it invokes getDataHandler().getContent();
* If the content is a Multipart or Message object and was created by
* parsing a stream, the object is cached and returned in subsequent
* calls so that modifications to the content will not be lost.
*
* @return Object
* @exception IOException this is typically thrown by the
* DataHandler. Refer to the documentation for
* javax.activation.DataHandler for more details.
* @exception MessagingException for other failures
*/
public Object getContent() throws IOException, MessagingException {
if (cachedContent != null)
return cachedContent;
Object c;
try {
c = getDataHandler().getContent();
} catch (FolderClosedIOException fex) {
throw new FolderClosedException(fex.getFolder(), fex.getMessage());
} catch (MessageRemovedIOException mex) {
throw new MessageRemovedException(mex.getMessage());
}
if (cacheMultipart &&
(c instanceof Multipart || c instanceof Message) &&
(content != null || contentStream != null)) {
cachedContent = c;
/*
* We may abandon the input stream so make sure
* the MimeMultipart has consumed the stream.
*/
if (c instanceof MimeMultipart)
((MimeMultipart)c).parse();
}
return c;
}
/**
* This method provides the mechanism to set this body part's content.
* The given DataHandler object should wrap the actual content.
*
* @param dh The DataHandler for the content
* @exception IllegalWriteException if the underlying
* implementation does not support modification
* @exception IllegalStateException if this body part is
* obtained from a READ_ONLY folder.
*/
public void setDataHandler(DataHandler dh)
throws MessagingException {
this.dh = dh;
cachedContent = null;
MimeBodyPart.invalidateContentHeaders(this);
}
/**
* A convenience method for setting this body part's content.
*
* The content is wrapped in a DataHandler object. Note that a
* DataContentHandler class for the specified type should be
* available to the JavaMail implementation for this to work right.
* That is, to do setContent(foobar, "application/x-foobar")
,
* a DataContentHandler for "application/x-foobar" should be installed.
* Refer to the Java Activation Framework for more information.
*
* @param o the content object
* @param type Mime type of the object
* @exception IllegalWriteException if the underlying
* implementation does not support modification of
* existing values
* @exception IllegalStateException if this body part is
* obtained from a READ_ONLY folder.
*/
public void setContent(Object o, String type)
throws MessagingException {
if (o instanceof Multipart) {
setContent((Multipart)o);
} else {
setDataHandler(new DataHandler(o, type));
}
}
/**
* Convenience method that sets the given String as this
* part's content, with a MIME type of "text/plain". If the
* string contains non US-ASCII characters, it will be encoded
* using the platform's default charset. The charset is also
* used to set the "charset" parameter.
*
* Note that there may be a performance penalty if
* text
is large, since this method may have
* to scan all the characters to determine what charset to
* use.
*
* If the charset is already known, use the
* setText
method that takes the charset parameter.
*
* @param text the text content to set
* @exception MessagingException if an error occurs
* @see #setText(String text, String charset)
*/
public void setText(String text) throws MessagingException {
setText(text, null);
}
/**
* Convenience method that sets the given String as this part's
* content, with a MIME type of "text/plain" and the specified
* charset. The given Unicode string will be charset-encoded
* using the specified charset. The charset is also used to set
* the "charset" parameter.
*
* @param text the text content to set
* @param charset the charset to use for the text
* @exception MessagingException if an error occurs
*/
public void setText(String text, String charset)
throws MessagingException {
setText(this, text, charset, "plain");
}
/**
* Convenience method that sets the given String as this part's
* content, with a primary MIME type of "text" and the specified
* MIME subtype. The given Unicode string will be charset-encoded
* using the specified charset. The charset is also used to set
* the "charset" parameter.
*
* @param text the text content to set
* @param charset the charset to use for the text
* @param subtype the MIME subtype to use (e.g., "html")
* @exception MessagingException if an error occurs
* @since JavaMail 1.4
*/
public void setText(String text, String charset, String subtype)
throws MessagingException {
setText(this, text, charset, subtype);
}
/**
* This method sets the body part's content to a Multipart object.
*
* @param mp The multipart object that is the Message's content
* @exception IllegalWriteException if the underlying
* implementation does not support modification of
* existing values.
* @exception IllegalStateException if this body part is
* obtained from a READ_ONLY folder.
*/
public void setContent(Multipart mp) throws MessagingException {
setDataHandler(new DataHandler(mp, mp.getContentType()));
mp.setParent(this);
}
/**
* Use the specified file to provide the data for this part.
* The simple file name is used as the file name for this
* part and the data in the file is used as the data for this
* part. The encoding will be chosen appropriately for the
* file data. The disposition of this part is set to
* {@link Part#ATTACHMENT Part.ATTACHMENT}.
*
* @param file the File object to attach
* @exception IOException errors related to accessing the file
* @exception MessagingException message related errors
* @since JavaMail 1.4
*/
public void attachFile(File file) throws IOException, MessagingException {
FileDataSource fds = new FileDataSource(file);
this.setDataHandler(new DataHandler(fds));
this.setFileName(fds.getName());
this.setDisposition(ATTACHMENT);
}
/**
* Use the specified file to provide the data for this part.
* The simple file name is used as the file name for this
* part and the data in the file is used as the data for this
* part. The encoding will be chosen appropriately for the
* file data.
*
* @param file the name of the file to attach
* @exception IOException errors related to accessing the file
* @exception MessagingException message related errors
* @since JavaMail 1.4
*/
public void attachFile(String file) throws IOException, MessagingException {
File f = new File(file);
attachFile(f);
}
/**
* Use the specified file with the specified Content-Type and
* Content-Transfer-Encoding to provide the data for this part.
* If contentType or encoding are null, appropriate values will
* be chosen.
* The simple file name is used as the file name for this
* part and the data in the file is used as the data for this
* part. The disposition of this part is set to
* {@link Part#ATTACHMENT Part.ATTACHMENT}.
*
* @param file the File object to attach
* @param contentType the Content-Type, or null
* @param encoding the Content-Transfer-Encoding, or null
* @exception IOException errors related to accessing the file
* @exception MessagingException message related errors
* @since JavaMail 1.5
*/
public void attachFile(File file, String contentType, String encoding)
throws IOException, MessagingException {
DataSource fds = new EncodedFileDataSource(file, contentType, encoding);
this.setDataHandler(new DataHandler(fds));
this.setFileName(fds.getName());
this.setDisposition(ATTACHMENT);
}
/**
* Use the specified file with the specified Content-Type and
* Content-Transfer-Encoding to provide the data for this part.
* If contentType or encoding are null, appropriate values will
* be chosen.
* The simple file name is used as the file name for this
* part and the data in the file is used as the data for this
* part. The disposition of this part is set to
* {@link Part#ATTACHMENT Part.ATTACHMENT}.
*
* @param file the name of the file
* @param contentType the Content-Type, or null
* @param encoding the Content-Transfer-Encoding, or null
* @exception IOException errors related to accessing the file
* @exception MessagingException message related errors
* @since JavaMail 1.5
*/
public void attachFile(String file, String contentType, String encoding)
throws IOException, MessagingException {
attachFile(new File(file), contentType, encoding);
}
/**
* A FileDataSource class that allows us to specify the
* Content-Type and Content-Transfer-Encoding.
*/
private static class EncodedFileDataSource extends FileDataSource
implements EncodingAware {
private String contentType;
private String encoding;
public EncodedFileDataSource(File file, String contentType,
String encoding) {
super(file);
this.contentType = contentType;
this.encoding = encoding;
}
// overrides DataSource.getContentType()
public String getContentType() {
return contentType != null ? contentType : super.getContentType();
}
// implements EncodingAware.getEncoding()
public String getEncoding() {
return encoding;
}
}
/**
* Save the contents of this part in the specified file. The content
* is decoded and saved, without any of the MIME headers.
*
* @param file the File object to write to
* @exception IOException errors related to accessing the file
* @exception MessagingException message related errors
* @since JavaMail 1.4
*/
public void saveFile(File file) throws IOException, MessagingException {
OutputStream out = null;
InputStream in = null;
try {
out = new BufferedOutputStream(new FileOutputStream(file));
in = this.getInputStream();
byte[] buf = new byte[8192];
int len;
while ((len = in.read(buf)) > 0)
out.write(buf, 0, len);
} finally {
// close streams, but don't mask original exception, if any
try {
if (in != null)
in.close();
} catch (IOException ex) { }
try {
if (out != null)
out.close();
} catch (IOException ex) { }
}
}
/**
* Save the contents of this part in the specified file. The content
* is decoded and saved, without any of the MIME headers.
*
* @param file the name of the file to write to
* @exception IOException errors related to accessing the file
* @exception MessagingException message related errors
* @since JavaMail 1.4
*/
public void saveFile(String file) throws IOException, MessagingException {
File f = new File(file);
saveFile(f);
}
/**
* Output the body part as an RFC 822 format stream.
*
* @exception IOException if an error occurs writing to the
* stream or if an error is generated
* by the javax.activation layer.
* @exception MessagingException for other failures
* @see javax.activation.DataHandler#writeTo
*/
public void writeTo(OutputStream os)
throws IOException, MessagingException {
writeTo(this, os, null);
}
/**
* Get all the headers for this header_name. Note that certain
* headers may be encoded as per RFC 2047 if they contain
* non US-ASCII characters and these should be decoded.
*
* @param name name of header
* @return array of headers
* @see org.glowroot.shaded.javax.mail.internet.MimeUtility
*/
public String[] getHeader(String name) throws MessagingException {
return headers.getHeader(name);
}
/**
* Get all the headers for this header name, returned as a single
* String, with headers separated by the delimiter. If the
* delimiter is null
, only the first header is
* returned.
*
* @param name the name of this header
* @param delimiter delimiter between fields in returned string
* @return the value fields for all headers with
* this name
* @exception MessagingException for failures
*/
public String getHeader(String name, String delimiter)
throws MessagingException {
return headers.getHeader(name, delimiter);
}
/**
* Set the value for this header_name. Replaces all existing
* header values with this new value. Note that RFC 822 headers
* must contain only US-ASCII characters, so a header that
* contains non US-ASCII characters must be encoded as per the
* rules of RFC 2047.
*
* @param name header name
* @param value header value
* @see org.glowroot.shaded.javax.mail.internet.MimeUtility
*/
public void setHeader(String name, String value)
throws MessagingException {
headers.setHeader(name, value);
}
/**
* Add this value to the existing values for this header_name.
* Note that RFC 822 headers must contain only US-ASCII
* characters, so a header that contains non US-ASCII characters
* must be encoded as per the rules of RFC 2047.
*
* @param name header name
* @param value header value
* @see org.glowroot.shaded.javax.mail.internet.MimeUtility
*/
public void addHeader(String name, String value)
throws MessagingException {
headers.addHeader(name, value);
}
/**
* Remove all headers with this name.
*/
public void removeHeader(String name) throws MessagingException {
headers.removeHeader(name);
}
/**
* Return all the headers from this Message as an Enumeration of
* Header objects.
*/
public Enumeration getAllHeaders() throws MessagingException {
return headers.getAllHeaders();
}
/**
* Return matching headers from this Message as an Enumeration of
* Header objects.
*/
public Enumeration getMatchingHeaders(String[] names)
throws MessagingException {
return headers.getMatchingHeaders(names);
}
/**
* Return non-matching headers from this Message as an
* Enumeration of Header objects.
*/
public Enumeration getNonMatchingHeaders(String[] names)
throws MessagingException {
return headers.getNonMatchingHeaders(names);
}
/**
* Add a header line to this body part
*/
public void addHeaderLine(String line) throws MessagingException {
headers.addHeaderLine(line);
}
/**
* Get all header lines as an Enumeration of Strings. A Header
* line is a raw RFC 822 header line, containing both the "name"
* and "value" field.
*/
public Enumeration getAllHeaderLines() throws MessagingException {
return headers.getAllHeaderLines();
}
/**
* Get matching header lines as an Enumeration of Strings.
* A Header line is a raw RFC 822 header line, containing both
* the "name" and "value" field.
*/
public Enumeration getMatchingHeaderLines(String[] names)
throws MessagingException {
return headers.getMatchingHeaderLines(names);
}
/**
* Get non-matching header lines as an Enumeration of Strings.
* A Header line is a raw RFC 822 header line, containing both
* the "name" and "value" field.
*/
public Enumeration getNonMatchingHeaderLines(String[] names)
throws MessagingException {
return headers.getNonMatchingHeaderLines(names);
}
/**
* Examine the content of this body part and update the appropriate
* MIME headers. Typical headers that get set here are
* Content-Type
and Content-Transfer-Encoding
.
* Headers might need to be updated in two cases:
*
*
* - A message being crafted by a mail application will certainly
* need to activate this method at some point to fill up its internal
* headers.
*
*
* - A message read in from a Store will have obtained
* all its headers from the store, and so doesn't need this.
* However, if this message is editable and if any edits have
* been made to either the content or message structure, we might
* need to resync our headers.
*
*
* In both cases this method is typically called by the
* Message.saveChanges
method.
*
* If the {@link #cachedContent} field is not null (that is,
* it references a Multipart or Message object), then
* that object is used to set a new DataHandler, any
* stream data used to create this object is discarded,
* and the {@link #cachedContent} field is cleared.
*
* @exception MessagingException for failures
*/
protected void updateHeaders() throws MessagingException {
updateHeaders(this);
/*
* If we've cached a Multipart or Message object then
* we're now committed to using this instance of the
* object and we discard any stream data used to create
* this object.
*/
if (cachedContent != null) {
dh = new DataHandler(cachedContent, getContentType());
cachedContent = null;
content = null;
if (contentStream != null) {
try {
contentStream.close();
} catch (IOException ioex) { } // nothing to do
}
contentStream = null;
}
}
/////////////////////////////////////////////////////////////
// Package private convenience methods to share code among //
// MimeMessage and MimeBodyPart //
/////////////////////////////////////////////////////////////
static boolean isMimeType(MimePart part, String mimeType)
throws MessagingException {
// XXX - lots of room for optimization here!
try {
ContentType ct = new ContentType(part.getContentType());
return ct.match(mimeType);
} catch (ParseException ex) {
return part.getContentType().equalsIgnoreCase(mimeType);
}
}
static void setText(MimePart part, String text, String charset,
String subtype) throws MessagingException {
if (charset == null) {
if (MimeUtility.checkAscii(text) != MimeUtility.ALL_ASCII)
charset = MimeUtility.getDefaultMIMECharset();
else
charset = "us-ascii";
}
// XXX - should at least ensure that subtype is an atom
part.setContent(text, "text/" + subtype + "; charset=" +
MimeUtility.quote(charset, HeaderTokenizer.MIME));
}
static String getDisposition(MimePart part) throws MessagingException {
String s = part.getHeader("Content-Disposition", null);
if (s == null)
return null;
ContentDisposition cd = new ContentDisposition(s);
return cd.getDisposition();
}
static void setDisposition(MimePart part, String disposition)
throws MessagingException {
if (disposition == null)
part.removeHeader("Content-Disposition");
else {
String s = part.getHeader("Content-Disposition", null);
if (s != null) {
/* A Content-Disposition header already exists ..
*
* Override disposition, but attempt to retain
* existing disposition parameters
*/
ContentDisposition cd = new ContentDisposition(s);
cd.setDisposition(disposition);
disposition = cd.toString();
}
part.setHeader("Content-Disposition", disposition);
}
}
static String getDescription(MimePart part)
throws MessagingException {
String rawvalue = part.getHeader("Content-Description", null);
if (rawvalue == null)
return null;
try {
return MimeUtility.decodeText(MimeUtility.unfold(rawvalue));
} catch (UnsupportedEncodingException ex) {
return rawvalue;
}
}
static void
setDescription(MimePart part, String description, String charset)
throws MessagingException {
if (description == null) {
part.removeHeader("Content-Description");
return;
}
try {
part.setHeader("Content-Description", MimeUtility.fold(21,
MimeUtility.encodeText(description, charset, null)));
} catch (UnsupportedEncodingException uex) {
throw new MessagingException("Encoding error", uex);
}
}
static String getFileName(MimePart part) throws MessagingException {
String filename = null;
String s = part.getHeader("Content-Disposition", null);
if (s != null) {
// Parse the header ..
ContentDisposition cd = new ContentDisposition(s);
filename = cd.getParameter("filename");
}
if (filename == null) {
// Still no filename ? Try the "name" ContentType parameter
s = part.getHeader("Content-Type", null);
s = MimeUtil.cleanContentType(part, s);
if (s != null) {
try {
ContentType ct = new ContentType(s);
filename = ct.getParameter("name");
} catch (ParseException pex) { } // ignore it
}
}
if (decodeFileName && filename != null) {
try {
filename = MimeUtility.decodeText(filename);
} catch (UnsupportedEncodingException ex) {
throw new MessagingException("Can't decode filename", ex);
}
}
return filename;
}
static void setFileName(MimePart part, String name)
throws MessagingException {
if (encodeFileName && name != null) {
try {
name = MimeUtility.encodeText(name);
} catch (UnsupportedEncodingException ex) {
throw new MessagingException("Can't encode filename", ex);
}
}
// Set the Content-Disposition "filename" parameter
String s = part.getHeader("Content-Disposition", null);
ContentDisposition cd =
new ContentDisposition(s == null ? Part.ATTACHMENT : s);
// ensure that the filename is encoded if necessary
String charset = MimeUtility.getDefaultMIMECharset();
ParameterList p = cd.getParameterList();
if (p == null) {
p = new ParameterList();
cd.setParameterList(p);
}
p.set("filename", name, charset);
part.setHeader("Content-Disposition", cd.toString());
/*
* Also attempt to set the Content-Type "name" parameter,
* to satisfy ancient MUAs. XXX - This is not RFC compliant.
*/
if (setContentTypeFileName) {
s = part.getHeader("Content-Type", null);
s = MimeUtil.cleanContentType(part, s);
if (s != null) {
try {
ContentType cType = new ContentType(s);
// ensure that the filename is encoded if necessary
p = cType.getParameterList();
if (p == null) {
p = new ParameterList();
cType.setParameterList(p);
}
p.set("name", name, charset);
part.setHeader("Content-Type", cType.toString());
} catch (ParseException pex) { } // ignore it
}
}
}
static String[] getContentLanguage(MimePart part)
throws MessagingException {
String s = part.getHeader("Content-Language", null);
if (s == null)
return null;
// Tokenize the header to obtain the Language-tags (skip comments)
HeaderTokenizer h = new HeaderTokenizer(s, HeaderTokenizer.MIME);
Vector v = new Vector();
HeaderTokenizer.Token tk;
int tkType;
while (true) {
tk = h.next(); // get a language-tag
tkType = tk.getType();
if (tkType == HeaderTokenizer.Token.EOF)
break; // done
else if (tkType == HeaderTokenizer.Token.ATOM)
v.addElement(tk.getValue());
else // invalid token, skip it.
continue;
}
if (v.size() == 0)
return null;
String[] language = new String[v.size()];
v.copyInto(language);
return language;
}
static void setContentLanguage(MimePart part, String[] languages)
throws MessagingException {
StringBuffer sb = new StringBuffer(languages[0]);
int len = "Content-Language".length() + 2 + languages[0].length();
for (int i = 1; i < languages.length; i++) {
sb.append(',');
len++;
if (len > 76) {
sb.append("\r\n\t");
len = 8;
}
sb.append(languages[i]);
len += languages[i].length();
}
part.setHeader("Content-Language", sb.toString());
}
static String getEncoding(MimePart part) throws MessagingException {
String s = part.getHeader("Content-Transfer-Encoding", null);
if (s == null)
return null;
s = s.trim(); // get rid of trailing spaces
// quick check for known values to avoid unnecessary use
// of tokenizer.
if (s.equalsIgnoreCase("7bit") || s.equalsIgnoreCase("8bit") ||
s.equalsIgnoreCase("quoted-printable") ||
s.equalsIgnoreCase("binary") ||
s.equalsIgnoreCase("base64"))
return s;
// Tokenize the header to obtain the encoding (skip comments)
HeaderTokenizer h = new HeaderTokenizer(s, HeaderTokenizer.MIME);
HeaderTokenizer.Token tk;
int tkType;
for (;;) {
tk = h.next(); // get a token
tkType = tk.getType();
if (tkType == HeaderTokenizer.Token.EOF)
break; // done
else if (tkType == HeaderTokenizer.Token.ATOM)
return tk.getValue();
else // invalid token, skip it.
continue;
}
return s;
}
static void setEncoding(MimePart part, String encoding)
throws MessagingException {
part.setHeader("Content-Transfer-Encoding", encoding);
}
/**
* Restrict the encoding to values allowed for the
* Content-Type of the specified MimePart. Returns
* either the original encoding or null.
*/
static String restrictEncoding(MimePart part, String encoding)
throws MessagingException {
if (!ignoreMultipartEncoding || encoding == null)
return encoding;
if (encoding.equalsIgnoreCase("7bit") ||
encoding.equalsIgnoreCase("8bit") ||
encoding.equalsIgnoreCase("binary"))
return encoding; // these encodings are always valid
String type = part.getContentType();
if (type == null)
return encoding;
try {
/*
* multipart and message types aren't allowed to have
* encodings except for the three mentioned above.
* If it's one of these types, ignore the encoding.
*/
ContentType cType = new ContentType(type);
if (cType.match("multipart/*"))
return null;
if (cType.match("message/*") &&
!PropUtil.getBooleanSystemProperty(
"mail.mime.allowencodedmessages", false))
return null;
} catch (ParseException pex) {
// ignore it
}
return encoding;
}
static void updateHeaders(MimePart part) throws MessagingException {
DataHandler dh = part.getDataHandler();
if (dh == null) // Huh ?
return;
try {
String type = dh.getContentType();
boolean composite = false;
boolean needCTHeader = part.getHeader("Content-Type") == null;
ContentType cType = new ContentType(type);
/*
* If this is a multipart, give sub-parts a chance to
* update their headers. Even though the data for this
* multipart may have come from a stream, one of the
* sub-parts may have been updated.
*/
if (cType.match("multipart/*")) {
// If multipart, recurse
composite = true;
Object o;
if (part instanceof MimeBodyPart) {
MimeBodyPart mbp = (MimeBodyPart)part;
o = mbp.cachedContent != null ?
mbp.cachedContent : dh.getContent();
} else if (part instanceof MimeMessage) {
MimeMessage msg = (MimeMessage)part;
o = msg.cachedContent != null ?
msg.cachedContent : dh.getContent();
} else
o = dh.getContent();
if (o instanceof MimeMultipart)
((MimeMultipart)o).updateHeaders();
else
throw new MessagingException("MIME part of type \"" +
type + "\" contains object of type " +
o.getClass().getName() + " instead of MimeMultipart");
} else if (cType.match("message/rfc822")) {
composite = true;
// XXX - call MimeMessage.updateHeaders()?
}
/*
* If this is our own MimePartDataHandler, we can't update any
* of the headers.
*
* If this is a MimePartDataHandler coming from another part,
* we need to copy over the content headers from the other part.
* Note that the MimePartDataHandler still refers to the original
* data and the original MimePart.
*/
if (dh instanceof MimePartDataHandler) {
MimePartDataHandler mdh = (MimePartDataHandler)dh;
MimePart mpart = mdh.getPart();
if (mpart != part) {
if (needCTHeader)
part.setHeader("Content-Type", mpart.getContentType());
// XXX - can't change the encoding of the data from the
// other part without decoding and reencoding it, so
// we just force it to match the original, but if the
// original has no encoding we'll consider reencoding it
String enc = mpart.getEncoding();
if (enc != null) {
setEncoding(part, enc);
return;
}
} else
return;
}
// Content-Transfer-Encoding, but only if we don't
// already have one
if (!composite) { // not allowed on composite parts
if (part.getHeader("Content-Transfer-Encoding") == null)
setEncoding(part, MimeUtility.getEncoding(dh));
if (needCTHeader && setDefaultTextCharset &&
cType.match("text/*") &&
cType.getParameter("charset") == null) {
/*
* Set a default charset for text parts.
* We really should examine the data to determine
* whether or not it's all ASCII, but that's too
* expensive so we make an assumption: If we
* chose 7bit encoding for this data, it's probably
* ASCII. (MimeUtility.getEncoding will choose
* 7bit only in this case, but someone might've
* set the Content-Transfer-Encoding header manually.)
*/
String charset;
String enc = part.getEncoding();
if (enc != null && enc.equalsIgnoreCase("7bit"))
charset = "us-ascii";
else
charset = MimeUtility.getDefaultMIMECharset();
cType.setParameter("charset", charset);
type = cType.toString();
}
}
// Now, let's update our own headers ...
// Content-type, but only if we don't already have one
if (needCTHeader) {
/*
* Pull out "filename" from Content-Disposition, and
* use that to set the "name" parameter. This is to
* satisfy older MUAs (DtMail, Roam and probably
* a bunch of others).
*/
if (setContentTypeFileName) {
String s = part.getHeader("Content-Disposition", null);
if (s != null) {
// Parse the header ..
ContentDisposition cd = new ContentDisposition(s);
String filename = cd.getParameter("filename");
if (filename != null) {
ParameterList p = cType.getParameterList();
if (p == null) {
p = new ParameterList();
cType.setParameterList(p);
}
p.set("name", filename,
MimeUtility.getDefaultMIMECharset());
type = cType.toString();
}
}
}
part.setHeader("Content-Type", type);
}
} catch (IOException ex) {
throw new MessagingException("IOException updating headers", ex);
}
}
static void invalidateContentHeaders(MimePart part)
throws MessagingException {
part.removeHeader("Content-Type");
part.removeHeader("Content-Transfer-Encoding");
}
static void writeTo(MimePart part, OutputStream os, String[] ignoreList)
throws IOException, MessagingException {
// see if we already have a LOS
LineOutputStream los = null;
if (os instanceof LineOutputStream) {
los = (LineOutputStream) os;
} else {
los = new LineOutputStream(os);
}
// First, write out the header
Enumeration hdrLines = part.getNonMatchingHeaderLines(ignoreList);
while (hdrLines.hasMoreElements())
los.writeln((String)hdrLines.nextElement());
// The CRLF separator between header and content
los.writeln();
// Finally, the content. Encode if required.
// XXX: May need to account for ESMTP ?
InputStream is = null;
byte[] buf = null;
try {
/*
* If the data for this part comes from a stream,
* and is already encoded,
* just copy it to the output stream without decoding
* and reencoding it.
*/
DataHandler dh = part.getDataHandler();
if (dh instanceof MimePartDataHandler) {
MimePartDataHandler mpdh = (MimePartDataHandler)dh;
MimePart mpart = mpdh.getPart();
if (mpart.getEncoding() != null)
is = mpdh.getContentStream();
}
if (is != null) {
// now copy the data to the output stream
buf = new byte[8192];
int len;
while ((len = is.read(buf)) > 0)
os.write(buf, 0, len);
} else {
os = MimeUtility.encode(os,
restrictEncoding(part, part.getEncoding()));
part.getDataHandler().writeTo(os);
}
} finally {
if (is != null)
is.close();
buf = null;
}
os.flush(); // Needed to complete encoding
}
/**
* A special DataHandler used only as a marker to indicate that
* the source of the data is a MimePart (that is, a byte array
* or a stream). This prevents updateHeaders from trying to
* change the headers for such data. In particular, the original
* Content-Transfer-Encoding for the data must be preserved.
* Otherwise the data would need to be decoded and reencoded.
*/
static class MimePartDataHandler extends DataHandler {
MimePart part;
public MimePartDataHandler(MimePart part) {
super(new MimePartDataSource(part));
this.part = part;
}
InputStream getContentStream() throws MessagingException {
InputStream is = null;
if (part instanceof MimeBodyPart) {
MimeBodyPart mbp = (MimeBodyPart)part;
is = mbp.getContentStream();
} else if (part instanceof MimeMessage) {
MimeMessage msg = (MimeMessage)part;
is = msg.getContentStream();
}
return is;
}
MimePart getPart() {
return part;
}
}
}