Mime Unicode C Reference Documentation

Mime

Chilkat MIME allows you to easily create and manipulate MIME and S/MIME messages from within your applications.

Create/Dispose

HCkMimeW CkMimeW_Create(void);

Creates an instance of the HCkMimeW object and returns a handle (i.e. a "void *" pointer). The handle is passed in the 1st argument for the functions listed on this page.

void CkMimeW_Dispose(HCkMimeW handle);

Objects created by calling CkMimeW_Create must be freed by calling this method. A memory leak occurs if a handle is not disposed by calling this function. Also, any handle returned by a Chilkat "C" function must also be freed by the application by calling the appropriate Dispose method, such as CkMimeW_Dispose.

Properties

void CkMimeW_getBoundary(HCkMimeW cHandle, HCkString retval);

void CkMimeW_putBoundary(HCkMimeW cHandle, const wchar_t *newVal);

const wchar_t *CkMimeW_boundary(HCkMimeW cHandle);

The boundary string for a multipart MIME message.

It is the value of the boundary attribute of the Content-Type header field. For example, if the Content-Type header is this:

Content-Type: multipart/mixed; boundary="------------080707010302060306060800"
then the value of the Boundary property is "------------080707010302060306060800".

When building multipart MIME messages, the boundary is automatically generated by methods such as NewMultipartMixed, to be a unique and random string, so explicitly setting the boundary is usually not necessary.

Example Code: Create a Multipart-Mixed MIME Message with Auto-Generated Boundary and with Explicitly Set Boundary

void CkMimeW_getCharset(HCkMimeW cHandle, HCkString retval);

void CkMimeW_putCharset(HCkMimeW cHandle, const wchar_t *newVal);

const wchar_t *CkMimeW_charset(HCkMimeW cHandle);

The value of the "charset" attribute of the Content-Type header field. For example, if the Content-Type header is this:

Content-Type: text/plain; charset="iso-8859-1"
then the value of the Charset property is "iso-8859-1".

Example Code: Demonstrates the effect of setting the Charset property.

void CkMimeW_getContentType(HCkMimeW cHandle, HCkString retval);

void CkMimeW_putContentType(HCkMimeW cHandle, const wchar_t *newVal);

const wchar_t *CkMimeW_contentType(HCkMimeW cHandle);

The MIME content type, such as "text/plain", "text/html", "image/gif", "multipart/alternative", "multipart/mixed", etc.

It is the value of the Content-Type header field, excluding any attributes. For example, if the Content-Type header is this:

Content-Type: multipart/mixed; boundary="------------080707010302060306060800"
then the value of the ContentType property is "multipart/mixed".

Build a multipart/related MIME Message

The MIME Content-Type Header Field

void CkMimeW_getCurrentDateTime(HCkMimeW cHandle, HCkString retval);

const wchar_t *CkMimeW_currentDateTime(HCkMimeW cHandle);

Returns the current date/time in RFC 822 format.

Mime CurrentDateTime

void CkMimeW_getDebugLogFilePath(HCkMimeW cHandle, HCkString retval);

void CkMimeW_putDebugLogFilePath(HCkMimeW cHandle, const wchar_t *newVal);

const wchar_t *CkMimeW_debugLogFilePath(HCkMimeW cHandle);

If set to a file path, causes each Chilkat method or property call to automatically append it's LastErrorText to the specified log file. The information is appended such that if a hang or crash occurs, it is possible to see the context in which the problem occurred, as well as a history of all Chilkat calls up to the point of the problem. The VerboseLogging property can be set to provide more detailed information.

This property is typically used for debugging the rare cases where a Chilkat method call hangs or generates an exception that halts program execution (i.e. crashes). A hang or crash should generally never happen. The typical causes of a hang are:

  1. a timeout related property was set to 0 to explicitly indicate that an infinite timeout is desired,
  2. the hang is actually a hang within an event callback (i.e. it is a hang within the application code), or
  3. there is an internal problem (bug) in the Chilkat code that causes the hang.

void CkMimeW_getDisposition(HCkMimeW cHandle, HCkString retval);

void CkMimeW_putDisposition(HCkMimeW cHandle, const wchar_t *newVal);

const wchar_t *CkMimeW_disposition(HCkMimeW cHandle);

The value of the Content-Disposition header field, excluding any attributes. For example, if the Content-Disposition header is this:

Content-Disposition: attachment; filename="starfish.gif"
then the value of the Disposition property is "attachment".

MIME Content-Disposition Header Field

void CkMimeW_getEncoding(HCkMimeW cHandle, HCkString retval);

void CkMimeW_putEncoding(HCkMimeW cHandle, const wchar_t *newVal);

const wchar_t *CkMimeW_encoding(HCkMimeW cHandle);

The value of the Content-Transfer-Encoding header field. Typical values are "base64", "quoted-printable", "7bit", "8bit", "binary", etc. For example, if the Content-Transfer-Encoding header is this:

Content-Transfer-Encoding: base64
then the value of the Encoding property is "base64".

MIME Content-Transfer-Encoding Header Field

void CkMimeW_getFilename(HCkMimeW cHandle, HCkString retval);

void CkMimeW_putFilename(HCkMimeW cHandle, const wchar_t *newVal);

const wchar_t *CkMimeW_filename(HCkMimeW cHandle);

The value of the "filename" attribute of the Content-Disposition header field. For example, if the Content-Disposition header is this:

Content-Disposition: attachment; filename="starfish.gif"
then the value of the Filename property is "starfish.gif".

MIME Content-Disposition Header Field

void CkMimeW_getLastErrorHtml(HCkMimeW cHandle, HCkString retval);

const wchar_t *CkMimeW_lastErrorHtml(HCkMimeW cHandle);

Provides information in HTML format about the last method/property called. If a method call returns a value indicating failure, or behaves unexpectedly, examine this property to get more information.

void CkMimeW_getLastErrorText(HCkMimeW cHandle, HCkString retval);

const wchar_t *CkMimeW_lastErrorText(HCkMimeW cHandle);

Provides information in plain-text format about the last method/property called. If a method call returns a value indicating failure, or behaves unexpectedly, examine this property to get more information.

Concept of LastErrorText

LastErrorText Standard Information

void CkMimeW_getLastErrorXml(HCkMimeW cHandle, HCkString retval);

const wchar_t *CkMimeW_lastErrorXml(HCkMimeW cHandle);

Provides information in XML format about the last method/property called. If a method call returns a value indicating failure, or behaves unexpectedly, examine this property to get more information.

BOOL CkMimeW_getLastMethodSuccess(HCkMimeW cHandle);

void CkMimeW_putLastMethodSuccess(HCkMimeW cHandle, BOOL newVal);

Introduced in version 9.5.0.52

Indicate whether the last method call succeeded or failed. A value of TRUE indicates success, a value of FALSE indicates failure. This property is automatically set for method calls. It is not modified by property accesses. The property is automatically set to indicate success for the following types of method calls:

  • Any method that returns a string.
  • Any method returning a Chilkat object, binary bytes, or a date/time.
  • Any method returning a standard boolean status value where success = TRUE and failure = FALSE.
  • Any method returning an integer where failure is defined by a return value less than zero.

Note: Methods that do not fit the above requirements will always set this property equal to TRUE. For example, a method that returns no value (such as a "void" in C++) will technically always succeed.

void CkMimeW_getMicalg(HCkMimeW cHandle, HCkString retval);

void CkMimeW_putMicalg(HCkMimeW cHandle, const wchar_t *newVal);

const wchar_t *CkMimeW_micalg(HCkMimeW cHandle);

The value of the "micalg" attribute of the Content-Type header field. For example, if the Content-Type header is this:

Content-Type: multipart/signed; protocol="application/x-pkcs7-signature"; micalg=sha1; 
  boundary="------------ms000908010507020408060303"
then the value of the Micalg property is "sha".

Note: The micalg attribute is only present in PKCS7 signed MIME. Setting the Micalg property has the effect of choosing the hash algorithm used w/ signing. Possible choices are "sha1", "md5", "sha256", "sha384", and "sha512". However, it is preferable to set the signing hash algorithm by setting the SigningHashAlg property instead.

void CkMimeW_getName(HCkMimeW cHandle, HCkString retval);

void CkMimeW_putName(HCkMimeW cHandle, const wchar_t *newVal);

const wchar_t *CkMimeW_name(HCkMimeW cHandle);

The value of the "name" attribute of the Content-Type header field. For example, if the Content-Type header is this:

Content-Type: image/gif; name="starfish.gif"
then the value of the Name property is "starfish.gif".

The MIME Content-Type Header Field

int CkMimeW_getNumEncryptCerts(HCkMimeW cHandle);

The number of certificates found when decrypting S/MIME. This property is set after UnwrapSecurity is called.

int CkMimeW_getNumHeaderFields(HCkMimeW cHandle);

The number of header fields. Header field names and values can be retrieved by index (starting at 0) by calling GetHeaderFieldName and GetHeaderFieldValue.

int CkMimeW_getNumParts(HCkMimeW cHandle);

MIME messages are composed of parts in a tree structure. The NumParts property contains the number of direct children. To traverse an entire MIME tree, one would recursively descend the tree structure by iterating from 0 to NumParts-1, calling GetPart to get each direct child MIME object. The traversal would continue by iterating over each child's parts, and so on.

int CkMimeW_getNumSignerCerts(HCkMimeW cHandle);

The number of certificates found when verifying signature(s). This property is set after UnwrapSecurity is called.

void CkMimeW_getOaepHash(HCkMimeW cHandle, HCkString retval);

void CkMimeW_putOaepHash(HCkMimeW cHandle, const wchar_t *newVal);

const wchar_t *CkMimeW_oaepHash(HCkMimeW cHandle);

Introduced in version 9.5.0.67

Selects the hash algorithm for use within OAEP padding when encrypting MIME using RSAES-OAEP. The valid choices are "sha1", "sha256", "sha384", "sha512",

Encrypt MIME using RSAES-OAEP with SHA256 and AES-128 content encryption

void CkMimeW_getOaepMgfHash(HCkMimeW cHandle, HCkString retval);

void CkMimeW_putOaepMgfHash(HCkMimeW cHandle, const wchar_t *newVal);

const wchar_t *CkMimeW_oaepMgfHash(HCkMimeW cHandle);

Introduced in version 9.5.0.71

Selects the MGF hash algorithm for use within OAEP padding when encrypting MIME using RSAES-OAEP. The valid choices are "sha1", "sha256", "sha384", "sha512", The default is "sha1".

BOOL CkMimeW_getOaepPadding(HCkMimeW cHandle);

void CkMimeW_putOaepPadding(HCkMimeW cHandle, BOOL newVal);

Introduced in version 9.5.0.67

Selects the RSA encryption scheme when encrypting MIME. The default value is FALSE, which selects RSAES_PKCS1-V1_5. If set to TRUE, then RSAES_OAEP is used.

Encrypt MIME using RSAES-OAEP with SHA256 and AES-128 content encryption

void CkMimeW_getPkcs7CryptAlg(HCkMimeW cHandle, HCkString retval);

void CkMimeW_putPkcs7CryptAlg(HCkMimeW cHandle, const wchar_t *newVal);

const wchar_t *CkMimeW_pkcs7CryptAlg(HCkMimeW cHandle);

When the MIME is encrypted (using PKCS7 public-key encryption), this selects the underlying symmetric encryption algorithm. Possible values are: "aes", "des", "3des", and "rc2". The default value is "aes".

Encrypt MIME using RSAES-OAEP with SHA256 and AES-128 content encryption

int CkMimeW_getPkcs7KeyLength(HCkMimeW cHandle);

void CkMimeW_putPkcs7KeyLength(HCkMimeW cHandle, int newVal);

When the MIME is encrypted (using PKCS7 public-key encryption), this selects the key length of the underlying symmetric encryption algorithm. The possible values allowed depend on the Pkcs7CryptAlg property. For "aes", the key length may be 128, 192, or 256. For "3des" the key length must be 192. For "des" the key length must be 40. For "rc2" the key length can be 40, 56, 64, or 128.

void CkMimeW_getProtocol(HCkMimeW cHandle, HCkString retval);

void CkMimeW_putProtocol(HCkMimeW cHandle, const wchar_t *newVal);

const wchar_t *CkMimeW_protocol(HCkMimeW cHandle);

The value of the "protocol" attribute of the Content-Type header field. For example, if the Content-Type header is this:

Content-Type: multipart/signed; protocol="application/x-pkcs7-signature"; micalg=sha1; 
  boundary="------------ms000908010507020408060303"
then the value of the Protocol property is "application/x-pkcs7-signature".

void CkMimeW_getSigningAlg(HCkMimeW cHandle, HCkString retval);

void CkMimeW_putSigningAlg(HCkMimeW cHandle, const wchar_t *newVal);

const wchar_t *CkMimeW_signingAlg(HCkMimeW cHandle);

Introduced in version 9.5.0.67

Selects the signature algorithm to be used when creating signed (PKCS7) MIME. The default value is "PKCS1-v1_5". This can be set to "RSASSA-PSS" (or simply "pss") to use the RSASSA-PSS signature scheme.

Note: This property only applies when signing with an RSA private key. It does not apply for ECC or DSA private keys.

Sign MIME using RSASSA-PSS with SHA256

void CkMimeW_getSigningHashAlg(HCkMimeW cHandle, HCkString retval);

void CkMimeW_putSigningHashAlg(HCkMimeW cHandle, const wchar_t *newVal);

const wchar_t *CkMimeW_signingHashAlg(HCkMimeW cHandle);

Selects the underlying hash algorithm used when creating signed (PKCS7) MIME. Possible values are "sha1", "sha256", "sha384", "sha512", "md5", and "md2".

BOOL CkMimeW_getUnwrapExtras(HCkMimeW cHandle);

void CkMimeW_putUnwrapExtras(HCkMimeW cHandle, BOOL newVal);

Controls whether extra (informative) header fields are added to the MIME message when unwrapping security.

Decrypt S/MIME and Verify S/MIME Signatures

BOOL CkMimeW_getUseMmDescription(HCkMimeW cHandle);

void CkMimeW_putUseMmDescription(HCkMimeW cHandle, BOOL newVal);

Controls whether the boilerplate text "This is a multi-part message in MIME format." is used as the body content of a multipart MIME part.

Example Code: Create a Multipart-Mixed MIME Message (shows the difference when UseMmDescription is on/off).

BOOL CkMimeW_getUseXPkcs7(HCkMimeW cHandle);

void CkMimeW_putUseXPkcs7(HCkMimeW cHandle, BOOL newVal);

If TRUE, then the Content-Type header fields created by Chilkat will use "x-pkcs7" instead of simply "pkcs7" . For example:

Content-Type: multipart/signed;
	boundary="----=_NextPart_af8_0422_dbec3a60.7178e470";
	protocol="application/x-pkcs7-signature"; micalg=sha1

or

Content-Type: application/x-pkcs7-mime; name="smime.p7m"
If FALSE, then the "pcks7" is used. For example:
Content-Type: multipart/signed;
	boundary="----=_NextPart_af8_0422_dbec3a60.7178e470";
	protocol="application/pkcs7-signature"; micalg=sha1

or

Content-Type: application/pkcs7-mime; name="smime.p7m"
The default value of this property is TRUE, meaning that "x-" is used by default.

BOOL CkMimeW_getVerboseLogging(HCkMimeW cHandle);

void CkMimeW_putVerboseLogging(HCkMimeW cHandle, BOOL newVal);

If set to TRUE, then the contents of LastErrorText (or LastErrorXml, or LastErrorHtml) may contain more verbose information. The default value is FALSE. Verbose logging should only be used for debugging. The potentially large quantity of logged information may adversely affect peformance.

void CkMimeW_getVersion(HCkMimeW cHandle, HCkString retval);

const wchar_t *CkMimeW_version(HCkMimeW cHandle);

Version of the component/library, such as "9.5.0.63"

Methods

void CkMimeW_AddContentLength(HCkMimeW cHandle);

Computes the size of the MIME body and adds a Content-Length header field with the computed value. If the MIME body is non-multipart, the Content-Length is just the size of the content. If the MIME is multipart, then the Content-Length is the sum of all the sub-parts. Calling this method more than once causes the Content-Length header to be re-computed and updated.

Add Content-Length Header to a MIME Message

BOOL CkMimeW_AddDecryptCert(HCkMimeW cHandle, HCkCertW cert);

Introduced in version 9.5.0.40

Makes a certificate available for decrypting if needed by methods that decrypt, such as UnwrapSecurity. This method may be called multiple times to make more than one certificate (and it's private key) available. Alternative methods for making certificates available are UseCertVault, AddPfxSourceFile, and AddPfxSourceData.

Returns TRUE for success, FALSE for failure.

BOOL CkMimeW_AddDetachedSignature(HCkMimeW cHandle, HCkCertW cert);

Signs the message using the certificate provided. If successful, the message is converted to "multipart/signed" and the original message will be contained in the first sub-part.

Returns TRUE for success, FALSE for failure.

Example Code: Create PKCS7 Detached Signature (S/MIME)

Example: Add S/MIME Signature using PFX

Sign MIME using RSASSA-PSS with SHA256

BOOL CkMimeW_AddDetachedSignature2(HCkMimeW cHandle, HCkCertW cert, BOOL transferHeaderFields);

Same as AddDetachedSignature, except an extra argument is provided to control whether header fields from the calling MIME object are transferred to the content part of the multipart/signed object. This method transforms the calling object into a multipart/signed MIME with two sub-parts. The first contains the original content of the calling object, and the second contains the digital signature.

Returns TRUE for success, FALSE for failure.

BOOL CkMimeW_AddDetachedSignaturePk(HCkMimeW cHandle, HCkCertW cert, HCkPrivateKeyW privateKey);

Adds a detached signature using a certificate and it's associated private key. This method would be used when the private key is external to the certificate -- for example, if a PFX/P12 file is not used, but instead a pair of .cer and .pem files are used (one for the certificate and one for the associated private key).

Returns TRUE for success, FALSE for failure.

Example Code for AddDetachedSignaturePk

BOOL CkMimeW_AddDetachedSignaturePk2(HCkMimeW cHandle, HCkCertW cert, HCkPrivateKeyW privateKey, BOOL transferHeaderFields);

Same as AddDetachedSignaturePk, except an extra argument is provided to control whether header fields from the calling MIME object are transferred to the content part of the multipart/signed object. This method transforms the calling object into a multipart/signed MIME with two sub-parts. The first contains the original content of the calling object, and the second contains the digital signature.

Returns TRUE for success, FALSE for failure.

BOOL CkMimeW_AddEncryptCert(HCkMimeW cHandle, HCkCertW cert);

Adds a certificate to the object's internal list of certificates to be used when the EncryptN method is called. (See the EncryptN method for more information.) The internal list may be cleared by calling ClearEncryptCerts.

Returns TRUE for success, FALSE for failure.

BOOL CkMimeW_AddHeaderField(HCkMimeW cHandle, const wchar_t *name, const wchar_t *value);

Adds a header field to the MIME.

Returns TRUE for success, FALSE for failure.

Add, Remove, Update MIME Header Fields

BOOL CkMimeW_AddPfxSourceData(HCkMimeW cHandle, const unsigned char * pfxFileData, const wchar_t *pfxPassword);

Adds a PFX to the object's internal list of sources to be searched for certificates and private keys when decrypting . Multiple PFX sources can be added by calling this method once for each. (On the Windows operating system, the registry-based certificate stores are also automatically searched, so it is commonly not required to explicitly add PFX sources.)

The pfxFileData contains the bytes of a PFX file (also known as PKCS12 or .p12).

Returns TRUE for success, FALSE for failure.

BOOL CkMimeW_AddPfxSourceFile(HCkMimeW cHandle, const wchar_t *pfxFilePath, const wchar_t *password);

Adds a PFX file to the object's internal list of sources to be searched for certificates and private keys when decrypting. Multiple PFX files can be added by calling this method once for each. (On the Windows operating system, the registry-based certificate stores are also automatically searched, so it is commonly not required to explicitly add PFX sources.)

The pfxFilePath contains the bytes of a PFX file (also known as PKCS12 or .p12).

Returns TRUE for success, FALSE for failure.

BOOL CkMimeW_AppendPart(HCkMimeW cHandle, HCkMimeW mime);

Appends a MIME message to the sub-parts of this message. Arbitrarily complex messages with unlimited nesting levels can be created. If the calling Mime object is not already multipart, it is automatically converted to multipart/mixed first.

Returns TRUE for success, FALSE for failure.

Append Part to MIME

BOOL CkMimeW_AppendPartFromFile(HCkMimeW cHandle, const wchar_t *filename);

Loads a file and creates a Mime message object using the file extension to determine the content type, and adds it as a sub-part to the calling object.

Returns TRUE for success, FALSE for failure.

BOOL CkMimeW_AsnBodyToXml(HCkMimeW cHandle, const wchar_t *outStr);

const wchar_t *CkMimeW_asnBodyToXml(HCkMimeW cHandle);

When the body of a MIME part contains PKCS7 (ASN.1 in DER format, base64-encoded), this method can be used to convert the ASN.1 to an XML format for inspection. Here is an example of how an ASN.1 body might look:

Content-Type: application/x-pkcs7-mime;
	name="smime.p7m"; smime-type="signed-data"
Content-Transfer-Encoding: base64
Content-Disposition: attachment; filename="smime.p7m"

MIIXXAYJKoZIhvcNAQcCoIIXTTCCF0kCAQExCzAJBgUrDgMCGgUAMFoGCSqGSIb3DQEHAaBNBEtD
b250ZW50LVR5cGU6IHRleHQvcGxhaW4NCkNvbnRlbnQtVHJhbnNmZXItRW5jb2Rpbmc6IDdiaXQN
Cg0KdGhpcyBpcyBhIHRlc3SgghI/MIIE3jCCA8agAwIBAgICAwEwDQYJKoZIhvcNAQEFBQAwYzEL
...
The XML produced would look something like this:
<?xml version="1.0" encoding="utf-8" ?>
<sequence>
    <oid>1.2.840.113549.1.7.2</oid>
    <contextSpecific tag="0" constructed="1">
        <sequence>
            <int>01</int>
            <set>
                <sequence>
                    <oid>1.3.14.3.2.26</oid>
                    <null />
                </sequence>
            </set>
            <sequence>
                <oid>1.2.840.113549.1.7.1</oid>
                <contextSpecific tag="0" constructed="1">
...

Returns TRUE for success, FALSE for failure.

void CkMimeW_ClearEncryptCerts(HCkMimeW cHandle);

Clears the internal list of certificates added by previous calls to the AddEncryptCert method. (See the EncryptN method for information about encrypting using multiple certificates.)

BOOL CkMimeW_ContainsEncryptedParts(HCkMimeW cHandle);

Returns TRUE if the MIME message contains encrypted parts.

Note: This method examines the MIME as-is. If UnwrapSecurity is called and it is successful, then the MIME should no longer contain encrypted parts, and this method would return 0.

Note: If a signed MIME message is then encrypted, then it is not possible to know that the MIME is both encrypted and signed until UnwrapSecurity is called. (In other words, it is not possible to know the contents of the encrypted MIME until it is decrypted.) Therefore, the ContainsSignedParts method would return FALSE.

Decrypt S/MIME and Verify S/MIME Signatures

BOOL CkMimeW_ContainsSignedParts(HCkMimeW cHandle);

Returns TRUE if the MIME message contains signed parts.

Note: This method examines the MIME as-is. If UnwrapSecurity is called and it is successful, then the MIME should no longer contain signed parts, and this method would return 0.

Note: If a signed MIME message is then encrypted, then it is not possible to know that the MIME is both encrypted and signed until UnwrapSecurity is called. (In other words, it is not possible to know the contents of the encrypted MIME until it is decrypted.) Therefore, the ContainsSignedParts method would return FALSE.

Note: The same concept also applies to opaque signatures, such as with the MIME produced by calling ConvertToSigned.

Decrypt S/MIME and Verify S/MIME Signatures

void CkMimeW_Convert8Bit(HCkMimeW cHandle);

Changes the content-transfer-encoding to "base64" for all 8bit or binary MIME subparts. This allows for the MIME to be exported as a string via the GetMime method.

MIME Content-Transfer-Encoding Header Field

BOOL CkMimeW_ConvertToMultipartAlt(HCkMimeW cHandle);

Converts existing MIME to a multipart/alternative. This is accomplished by creating a new outermost multipart/alternative MIME part. The existing MIME is moved into the 1st (and only) sub-part of the new multipart/alternative enclosure. Header fields from the original top-level MIME part are transferred to the new top-level multipart/alternative header, except for Content-Type, Content-Transfer-Encoding, and Content-Disposition. For example, the following simple plain-text MIME is converted as follows:

Original:

MIME-Version: 1.0
Date: Sun, 11 Aug 2013 11:18:44 -0500
Message-ID: 
Content-Type: text/plain
Content-Transfer-Encoding: quoted-printable
X-Priority: 3 (Normal)
Subject: this is the subject.
From: "Chilkat Software" 
To: "Chilkat Sales" 

This is the plain-text body.

After Converting:

MIME-Version: 1.0
Date: Sun, 11 Aug 2013 11:18:44 -0500
Message-ID: 
X-Priority: 3 (Normal)
Subject: this is the subject.
From: "Chilkat Software" 
To: "Chilkat Sales" 
Content-Type: multipart/alternative;
	boundary="------------040101040804050401050400_.ALT"

--------------040101040804050401050400_.ALT
Content-Type: text/plain
Content-Transfer-Encoding: quoted-printable

This is the plain-text body.
--------------040101040804050401050400_.ALT--

Returns TRUE for success, FALSE for failure.

BOOL CkMimeW_ConvertToMultipartMixed(HCkMimeW cHandle);

Converts existing MIME to a multipart/mixed. This is accomplished by creating a new outermost multipart/mixed MIME part. The existing MIME is moved into the 1st (and only) sub-part of the new multipart/mixed enclosure. Header fields from the original top-level MIME part are transferred to the new top-level multipart/mixed header, except for Content-Type, Content-Transfer-Encoding, and Content-Disposition. For example, the following simple plain-text MIME is converted as follows:

Original:

MIME-Version: 1.0
Date: Sun, 11 Aug 2013 11:27:04 -0500
Message-ID: 
Content-Type: text/plain
Content-Transfer-Encoding: quoted-printable
X-Priority: 3 (Normal)
Subject: this is the subject.
From: "Chilkat Software" 
To: "Chilkat Sales" 

This is the plain-text body.

After Converting:

MIME-Version: 1.0
Date: Sun, 11 Aug 2013 11:27:04 -0500
Message-ID: 
X-Priority: 3 (Normal)
Subject: this is the subject.
From: "Chilkat Software" 
To: "Chilkat Sales" 
Content-Type: multipart/mixed;
	boundary="------------050508060709030908040207"

--------------050508060709030908040207
Content-Type: text/plain
Content-Transfer-Encoding: quoted-printable

This is the plain-text body.
--------------050508060709030908040207--

Returns TRUE for success, FALSE for failure.

Create Binary MIME

BOOL CkMimeW_ConvertToSigned(HCkMimeW cHandle, HCkCertW cert);

Digitally signs a MIME message. The MIME is converted to an application/x-pkcs7-mime which is a PKCS7 signature that includes both the original MIME message and the signature. This is different than AddDetachedSignature, where the signature is appended to the MIME.

Note: This is commonly referred to as an "opaque" signature.

Returns TRUE for success, FALSE for failure.

Example Code: Create PKCS7 Attached/Opaque Signature (S/MIME)

Sign MIME using RSASSA-PSS with SHA256

BOOL CkMimeW_ConvertToSignedPk(HCkMimeW cHandle, HCkCertW cert, HCkPrivateKeyW privateKey);

Digitally signs the MIME to convert it to an "opaque" signed message using a certificate and it's associated private key. This method would be used when the private key is external to the certificate -- for example, if a PFX/P12 file is not used, but instead a pair of .cer and .pem files are used (one for the certificate and one for the associated private key).

Returns TRUE for success, FALSE for failure.

Example Code for ConvertToSignedPk

BOOL CkMimeW_Decrypt(HCkMimeW cHandle);

Decrypts PKCS7 encrypted MIME (also known as S/MIME). Information about the certificates required for decryption is always embedded within PKCS7 encrypted MIME. This method will automatically find and use the certificate + private key required from three possible sources:

  1. PFX files that were provided in one or more calls to AddPfxSourceData or AddPfxSourceFile.
  2. Certificates found in an XML certificate vault provided by calling the UseCertVault method.
  3. (On Windows systems) Certificates found in the system's registry-based certificate stores.

Returns TRUE for success, FALSE for failure.

Example Code: PKCS7 Decrypt MIME

Decrypt MIME using RSAES-OAEP with SHA256 and AES-128 content encryption

BOOL CkMimeW_Decrypt2(HCkMimeW cHandle, HCkCertW cert, HCkPrivateKeyW privateKey);

The same as Decrypt, but useful when the certificate and private key are available in separate files (as opposed to a single file such as a .pfx/.p12).

Returns TRUE for success, FALSE for failure.

Example Code for Decrypt2

Decrypt MIME using RSAES-OAEP with SHA256 and AES-128 content encryption

BOOL CkMimeW_DecryptUsingCert(HCkMimeW cHandle, HCkCertW cert);

Introduced in version 9.5.0.40

Decrypts PKCS7 encrypted MIME (also known as S/MIME) using a specific certificate.

Returns TRUE for success, FALSE for failure.

BOOL CkMimeW_DecryptUsingPfxData(HCkMimeW cHandle, const unsigned char * pfxData, const wchar_t *password);

Decrypts MIME using a specific PFX ( also known as PKCS12, which is a file format commonly used to store private keys with accompanying public key certificates, protected with a password-based symmetric key). This method allows the bytes of the PKCS12 file to be passed directly, thus allowing PKCS12's to be persisted and retrieved from non-file-based locations, such as in LDAP or a database.

Returns TRUE for success, FALSE for failure.

BOOL CkMimeW_DecryptUsingPfxFile(HCkMimeW cHandle, const wchar_t *pfxFilePath, const wchar_t *pfxPassword);

Decrypts MIME using a specific PFX file (also known as PKCS12) as the source for any required certificates and private keys. (Note: .pfx and .p12 files are both PKCS12 format.)

Returns TRUE for success, FALSE for failure.

PKCS7 Decrypt Using .pfx or .p12 File

BOOL CkMimeW_Encrypt(HCkMimeW cHandle, HCkCertW cert);

Encrypts the MIME to create PKCS7 encrypted MIME. A digital certificate (which always contains a public-key) is used to encrypt.

Returns TRUE for success, FALSE for failure.

Example Code: PKCS7 Encrypt MIME

Encrypt MIME using RSAES-OAEP with SHA256 and AES-128 content encryption

BOOL CkMimeW_EncryptN(HCkMimeW cHandle);

Encrypt MIME using any number of digital certificates. Each certificate to be used must first be added by calling AddEncryptCert (once per certificate). See the example code below:

Returns TRUE for success, FALSE for failure.

Example: PKCS7 Encrypt using Multiple Certificates

HCkStringArrayW CkMimeW_ExtractPartsToFiles(HCkMimeW cHandle, const wchar_t *dirPath);

Recursively descends through the parts of a MIME message and extracts all parts having a filename to a file. The files are created in dirPath. Returns a (Ck)StringArray object containing the names of the files created. The filenames are obtained from the "filename" attribute of the content-disposition header. If a filename does not exist, then the MIME part is not saved to a file.

Returns NULL on failure

Extract Files from MIME

HCkCertW CkMimeW_FindIssuer(HCkMimeW cHandle, HCkCertW cert);

Finds and returns the issuer certificate. If the certificate is a root or self-issued, then the certificate returned is a copy of the caller certificate.

Returns NULL on failure

BOOL CkMimeW_GetBodyBd(HCkMimeW cHandle, HCkBinDataW binDat);

Introduced in version 9.5.0.67

Returns the body of the MIME message in a BinData object.

Returns TRUE for success, FALSE for failure.

BOOL CkMimeW_GetBodyBinary(HCkMimeW cHandle, const unsigned char * outData);

Returns the body of the MIME message as a block of binary data. The body is automatically converted from its encoding type, such as base64 or quoted-printable, before being returned.

Returns TRUE for success, FALSE for failure.

Get the Binary Bytes of a MIME Body or Sub-Part Body

BOOL CkMimeW_GetBodyDecoded(HCkMimeW cHandle, const wchar_t *outStr);

const wchar_t *CkMimeW_getBodyDecoded(HCkMimeW cHandle);

Returns the body of the MIME message as a string. The body is automatically converted from its encoding type, such as base64 or quoted-printable, before being returned.

Returns TRUE for success, FALSE for failure.

Example Code: GetBodyEncoded / GetBodyDecoded

Example Code: MIME Body vs. Sub-Parts

BOOL CkMimeW_GetBodyEncoded(HCkMimeW cHandle, const wchar_t *outStr);

const wchar_t *CkMimeW_getBodyEncoded(HCkMimeW cHandle);

Returns the body of the MIME message as a String. The body is explicitly not decoded from it's encoding type, so if it was represented in Base64, you will get the Base64 encoded body, as an example.

Returns TRUE for success, FALSE for failure.

Example Code: GetBodyEncoded / GetBodyDecoded

Example Code: MIME Body vs. Sub-Parts

MIME Content-Transfer-Encoding Header Field

HCkCertW CkMimeW_GetEncryptCert(HCkMimeW cHandle, int index);

Returns the Nth certificate found when decrypting. The EncryptCerts property contains the number of certificates.

Returns NULL on failure

Decrypt S/MIME and Verify S/MIME Signatures

BOOL CkMimeW_GetEntireBody(HCkMimeW cHandle, const wchar_t *outStr);

const wchar_t *CkMimeW_getEntireBody(HCkMimeW cHandle);

Returns the entire MIME body, including all sub-parts.

Returns TRUE for success, FALSE for failure.

GetEntireHead and GetEntireBody

BOOL CkMimeW_GetEntireHead(HCkMimeW cHandle, const wchar_t *outStr);

const wchar_t *CkMimeW_getEntireHead(HCkMimeW cHandle);

Returns the MIME header.

Returns TRUE for success, FALSE for failure.

GetEntireHead and GetEntireBody

BOOL CkMimeW_GetHeaderField(HCkMimeW cHandle, const wchar_t *fieldName, const wchar_t *outStr);

const wchar_t *CkMimeW_getHeaderField(HCkMimeW cHandle, const wchar_t *fieldName);

Returns the value of a MIME header field. fieldName is case-insensitive.

Returns TRUE for success, FALSE for failure.

Get the Value of a MIME Header Field

BOOL CkMimeW_GetHeaderFieldAttribute(HCkMimeW cHandle, const wchar_t *name, const wchar_t *attrName, const wchar_t *outStr);

const wchar_t *CkMimeW_getHeaderFieldAttribute(HCkMimeW cHandle, const wchar_t *name, const wchar_t *attrName);

Parses a MIME header field and returns the value of an attribute. MIME header fields w/ attributes are formatted like this:

Header-Name:  value;  attrName1="value1"; attrName2="value2"; ....  attrNameN="valueN"
Semi-colons separate attribute name=value pairs. The Content-Type header field often contains attributes. Here is an example:
Content-Type: multipart/signed;
	protocol="application/x-pkcs7-signature";
	micalg=SHA1;
	boundary="----=_NextPart_000_0000_01CB03E4.D0BAF010"
In the above example, to access the value of the "protocol" attribute, call GetHeaderFieldAttribute("Content-Type", "protocol");

Returns TRUE for success, FALSE for failure.

Example Code: Parse MIME Header Fields

BOOL CkMimeW_GetHeaderFieldName(HCkMimeW cHandle, int index, const wchar_t *outStr);

const wchar_t *CkMimeW_getHeaderFieldName(HCkMimeW cHandle, int index);

Returns the Nth MIME header field name.

Returns TRUE for success, FALSE for failure.

BOOL CkMimeW_GetHeaderFieldValue(HCkMimeW cHandle, int index, const wchar_t *outStr);

const wchar_t *CkMimeW_getHeaderFieldValue(HCkMimeW cHandle, int index);

Returns the Nth MIME header field value.

Returns TRUE for success, FALSE for failure.

BOOL CkMimeW_GetMime(HCkMimeW cHandle, const wchar_t *outStr);

const wchar_t *CkMimeW_getMime(HCkMimeW cHandle);

Returns a string containing the complete MIME message, including all sub-parts.

Returns TRUE for success, FALSE for failure.

BOOL CkMimeW_GetMimeBd(HCkMimeW cHandle, HCkBinDataW bindat);

Introduced in version 9.5.0.62

Appends the MIME to a BinData object.

Returns TRUE for success, FALSE for failure.

Create Binary MIME

BOOL CkMimeW_GetMimeBytes(HCkMimeW cHandle, const unsigned char * outBytes);

Returns a byte array containing the complete MIME message, including all sub-parts.

Returns TRUE for success, FALSE for failure.

MIME -- Convert Base64 to Binary

MIME Content-Transfer-Encoding Header Field

BOOL CkMimeW_GetMimeSb(HCkMimeW cHandle, HCkStringBuilderW sb);

Introduced in version 9.5.0.62

Appends the MIME to a StringBuilder object.

Returns TRUE for success, FALSE for failure.

Create Binary MIME

HCkMimeW CkMimeW_GetPart(HCkMimeW cHandle, int index);

Returns the Nth sub-part of the MIME message. Indexing begins at 0.

Returns NULL on failure

BOOL CkMimeW_GetSignatureSigningTime(HCkMimeW cHandle, int index, SYSTEMTIME * outSysTime);

This method is deprecated. It will be removed in a future version.

Returns the signature signing date/time for the Nth signature. The number of signatures (i.e. signer certs) is indicated by the NumSignerCerts property. The HasSignatureSigningTime method may be called to determine if a signature timestamp is available. The index of the 1st signature signing time is 0.

Returns TRUE for success, FALSE for failure.

BOOL CkMimeW_GetSignatureSigningTimeStr(HCkMimeW cHandle, int index, const wchar_t *outStr);

const wchar_t *CkMimeW_getSignatureSigningTimeStr(HCkMimeW cHandle, int index);

The same as the GetSignatureSigningTime method, but returns tjhe date/time in RFC822 string format.

Returns TRUE for success, FALSE for failure.

HCkCertW CkMimeW_GetSignerCert(HCkMimeW cHandle, int index);

Returns the Nth digital certificate used to sign the MIME message. Indexing begins at 0.

Returns NULL on failure

Decrypt S/MIME and Verify S/MIME Signatures

HCkCertChainW CkMimeW_GetSignerCertChain(HCkMimeW cHandle, int index);

Introduced in version 9.5.0.40

Returns the full certificate chain for the Nth certificate used to sign the MIME message. Indexing begins at 0.

Returns NULL on failure

BOOL CkMimeW_GetStructure(HCkMimeW cHandle, const wchar_t *fmt, const wchar_t *outStr);

const wchar_t *CkMimeW_getStructure(HCkMimeW cHandle, const wchar_t *fmt);

Introduced in version 9.5.0.56

Returns a string summarizing the MIME structure. The output format is specified by fmt and can be "text" or "xml".

Returns TRUE for success, FALSE for failure.

Examing the MIME Nesting Structure

BOOL CkMimeW_GetXml(HCkMimeW cHandle, const wchar_t *outStr);

const wchar_t *CkMimeW_getXml(HCkMimeW cHandle);

Converts the MIME (or S/MIME) message to XML and returns the XML as a string.

Returns TRUE for success, FALSE for failure.

Convert MIME to XML

BOOL CkMimeW_HasSignatureSigningTime(HCkMimeW cHandle, int index);

Returns TRUE if the Nth signature included a timestamp that recorded the signing time. The number of signatures (i.e. signer certs) is indicated by the NumSignerCerts property. (In most cases, the number of signer certs is 1.) The signing time can be obtained via the GetSignatureSigningTime or GetSignatureSigningTimeStr methods. The index of the 1st signature signing time is 0.

BOOL CkMimeW_IsApplicationData(HCkMimeW cHandle);

Return TRUE if the MIME message contains application data, otherwise returns FALSE.

BOOL CkMimeW_IsAttachment(HCkMimeW cHandle);

Return TRUE if this MIME message is an attachment, otherwise returns FALSE. A MIME message is considered an attachment if the Content-Disposition header field contains the value "attachment".

BOOL CkMimeW_IsAudio(HCkMimeW cHandle);

Return TRUE if the MIME message contains audio data, otherwise returns FALSE.

BOOL CkMimeW_IsEncrypted(HCkMimeW cHandle);

Returns TRUE if the MIME message is PKCS7 encrypted, otherwise returns FALSE.

BOOL CkMimeW_IsHtml(HCkMimeW cHandle);

Return TRUE if the MIME body is HTML, otherwise returns FALSE.

BOOL CkMimeW_IsImage(HCkMimeW cHandle);

Return TRUE if the MIME message contains image data, otherwise returns FALSE.

BOOL CkMimeW_IsMultipart(HCkMimeW cHandle);

Return TRUE if the MIME message is multipart (multipart/mixed, multipart/related, multipart/alternative, etc.), otherwise returns FALSE.

BOOL CkMimeW_IsMultipartAlternative(HCkMimeW cHandle);

Return TRUE if the MIME message is multipart/alternative, otherwise returns FALSE.

BOOL CkMimeW_IsMultipartMixed(HCkMimeW cHandle);

Return true if the MIME message is multipart/mixed, otherwise returns FALSE.

BOOL CkMimeW_IsMultipartRelated(HCkMimeW cHandle);

Return TRUE if the MIME message is multipart/related, otherwise returns FALSE.

BOOL CkMimeW_IsPlainText(HCkMimeW cHandle);

Return TRUE if the MIME message body is plain text, otherwise returns FALSE.

BOOL CkMimeW_IsSigned(HCkMimeW cHandle);

Return TRUE if the MIME message is PKCS7 digitally signed, otherwise returns FALSE.

BOOL CkMimeW_IsText(HCkMimeW cHandle);

Return TRUE if the MIME message body is any text content type, such as text/plain, text/html, text/xml, etc., otherwise returns FALSE.

BOOL CkMimeW_IsUnlocked(HCkMimeW cHandle);

Returns TRUE if the component is already unlocked, otherwise returns FALSE.

BOOL CkMimeW_IsVideo(HCkMimeW cHandle);

Return TRUE if the MIME message contains video data, otherwise returns FALSE.

BOOL CkMimeW_IsXml(HCkMimeW cHandle);

Return TRUE if the MIME message body is XML, otherwise returns FALSE.

HCkJsonObjectW CkMimeW_LastJsonData(HCkMimeW cHandle);

Introduced in version 9.5.0.69

Provides information about what transpired in the last method called on this object instance. For many methods, there is no information. However, for some methods, details about what occurred can be obtained by getting the LastJsonData right after the method call returns. For example, after calling UnwrapSecurity, the LastJsonData will return JSON with details about the algorithms used for signature verification and decryption.

Returns NULL on failure

BOOL CkMimeW_LoadMime(HCkMimeW cHandle, const wchar_t *mimeMsg);

Discards the current contents of the MIME object and loads a new MIME message from a string.

Returns TRUE for success, FALSE for failure.

BOOL CkMimeW_LoadMimeBd(HCkMimeW cHandle, HCkBinDataW bindat);

Introduced in version 9.5.0.62

Discards the current contents of the MIME object and loads a new MIME message from a BinData object.

Returns TRUE for success, FALSE for failure.

BOOL CkMimeW_LoadMimeBytes(HCkMimeW cHandle, const unsigned char * binData);

Loads a MIME document from an in-memory byte array.

Returns TRUE for success, FALSE for failure.

BOOL CkMimeW_LoadMimeFile(HCkMimeW cHandle, const wchar_t *fileName);

Discards the current contents of the MIME object and loads a new MIME message from a file.

Returns TRUE for success, FALSE for failure.

BOOL CkMimeW_LoadMimeSb(HCkMimeW cHandle, HCkStringBuilderW sb);

Introduced in version 9.5.0.62

Discards the current contents of the MIME object and loads a new MIME message from a StringBuilder.

Returns TRUE for success, FALSE for failure.

Load MIME Object from Email Object

BOOL CkMimeW_LoadXml(HCkMimeW cHandle, const wchar_t *xml);

Converts XML to MIME and replaces the MIME object's contents with the converted XML.

Returns TRUE for success, FALSE for failure.

BOOL CkMimeW_LoadXmlFile(HCkMimeW cHandle, const wchar_t *fileName);

Converts XML to MIME and replaces the MIME object's contents with the converted XML.

Returns TRUE for success, FALSE for failure.

BOOL CkMimeW_NewMessageRfc822(HCkMimeW cHandle, HCkMimeW mimeObject);

Clears the Mime object and initializes it such that the header contains a "content-type: message/rfc822" line and the body is the MIME text of the Mime object passed to the method.

Returns TRUE for success, FALSE for failure.

BOOL CkMimeW_NewMultipartAlternative(HCkMimeW cHandle);

Discards the current MIME message header fields and contents, if any, an initializes the MIME object to be an empty mulipart/alternative message.

Returns TRUE for success, FALSE for failure.

Create multipart/alternative MIME

BOOL CkMimeW_NewMultipartMixed(HCkMimeW cHandle);

Discards the current MIME message header fields and contents, if any, an initializes the MIME object to be an empty mulipart/mixed message.

Returns TRUE for success, FALSE for failure.

Example Code: Create a Multipart-Mixed MIME Message

BOOL CkMimeW_NewMultipartRelated(HCkMimeW cHandle);

Discards the current MIME message header fields and contents, if any, an initializes the MIME object to be an empty mulipart/related message.

Returns TRUE for success, FALSE for failure.

Build a multipart/related MIME Message

void CkMimeW_RemoveHeaderField(HCkMimeW cHandle, const wchar_t *fieldName, BOOL bAllOccurrences);

Removes a header field from the MIME header. If bAllOccurrences is TRUE, then all occurrences of the header field are removed. Otherwise, only the 1st occurrence is removed.

Add, Remove, Update MIME Header Fields

BOOL CkMimeW_RemovePart(HCkMimeW cHandle, int index);

Removes the Nth subpart from the MIME message.

Returns TRUE for success, FALSE for failure.

BOOL CkMimeW_SaveBody(HCkMimeW cHandle, const wchar_t *filename);

Saves the MIME message body to a file. If the body is base64 or quoted-printable encoded, it is automatically decoded.

Returns TRUE for success, FALSE for failure.

Save a MIME Body to a File

Extract Files from Binary SOAP MTOM MIME

BOOL CkMimeW_SaveLastError(HCkMimeW cHandle, const wchar_t *path);

Saves the last-error information (the contents of LastErrorXml) to an XML formatted file.

Returns TRUE for success, FALSE for failure.

BOOL CkMimeW_SaveMime(HCkMimeW cHandle, const wchar_t *filename);

Saves the MIME message to a file, in MIME format. (This is the same as the .EML format used by Microsoft Outlook Express.)

Returns TRUE for success, FALSE for failure.

BOOL CkMimeW_SaveXml(HCkMimeW cHandle, const wchar_t *filename);

Converts the MIME message to XML and saves to an XML file.

Returns TRUE for success, FALSE for failure.

void CkMimeW_SetBody(HCkMimeW cHandle, const wchar_t *str);

Sets the MIME body content to a text string.

Example Code: MIME SetBody

BOOL CkMimeW_SetBodyFromBinary(HCkMimeW cHandle, const unsigned char * binData);

Sets the MIME message body from a byte array.

Returns TRUE for success, FALSE for failure.

Build a multipart/related MIME Message

BOOL CkMimeW_SetBodyFromEncoded(HCkMimeW cHandle, const wchar_t *encoding, const wchar_t *str);

Sets the MIME message body from a Base64 or Quoted-Printable encoded string.

Returns TRUE for success, FALSE for failure.

MIME Content-Transfer-Encoding Header Field

BOOL CkMimeW_SetBodyFromFile(HCkMimeW cHandle, const wchar_t *fileName);

Sets the MIME message body from the contents of a file. Note: A MIME message consists of a header and a body. The body may itself be a MIME message that consists of a header and body, etc. This method loads the contents of a file into the body of a MIME message, without replacing the header.

The Content-Type and Content-Transfer-Encoding header fields are automatically updated to match the type of content loaded (based on file extension). If your application requires the MIME to have a specific Content-Type and/or Content-Transfer-Encoding, set the ContentType and Encoding properties after calling this method (not before).

Returns TRUE for success, FALSE for failure.

Set MIME Body from File

BOOL CkMimeW_SetBodyFromHtml(HCkMimeW cHandle, const wchar_t *str);

Sets the MIME message body from a string containing HTML. The Content-Type header is added or updated to the value "text/html".

If 8bit (non-us-ascii) characters are present, and if the Charset property was not previously set, then the "charset" attribute is automatically added to the Content-Type header using the default value of "utf-8". This can be changed at any time by setting the Charset property.

If the Encoding property was not previously set, then the Content-Transfer-Encoding header is automatically added. It will be set to "7bit" or "8bit" depending on whether the HTML body contains 8-bit non-us-ascii characters.

To set the MIME body with no intentional side-effects, use SetBody instead.

Returns TRUE for success, FALSE for failure.

Example Code: Create MIME Containing HTML

Build a multipart/related MIME Message

BOOL CkMimeW_SetBodyFromPlainText(HCkMimeW cHandle, const wchar_t *str);

Sets the MIME message body from a string containing plain-text. The Content-Type header is added or updated to the value "text/plain".

If 8bit (non-us-ascii) characters are present, and if the Charset property was not previously set, then the "charset" attribute is automatically added to the Content-Type header using the default value of "utf-8". This can be changed at any time by setting the Charset property.

If the Encoding property was not previously set, then the Content-Transfer-Encoding header is automatically added. It will be set to "7bit" or "8bit" depending on whether the plain-text body contains 8-bit non-us-ascii characters.

To set the MIME body with no intentional side-effects, use SetBody instead.

Returns TRUE for success, FALSE for failure.

Example Code: Create MIME Containing Plain-Text

BOOL CkMimeW_SetBodyFromXml(HCkMimeW cHandle, const wchar_t *str);

Sets the MIME message body from a string containing XML. The Content-Type header is added or updated to the value "text/xml".

If 8bit (non-us-ascii) characters are present, and if the Charset property was not previously set, then the "charset" attribute is automatically added to the Content-Type header using the default value of "utf-8". This can be changed at any time by setting the Charset property.

If the Encoding property was not previously set, then the Content-Transfer-Encoding header is automatically added. It will be set to "7bit" or "8bit" depending on whether the plain-text body contains 8-bit non-us-ascii characters.

To set the MIME body with no intentional side-effects, use SetBody instead.

Returns TRUE for success, FALSE for failure.

Example Code: Create MIME Containing XML

BOOL CkMimeW_SetCSP(HCkMimeW cHandle, HCkCspW csp);

(Only applies to the Microsoft Windows OS) Sets the Cryptographic Service Provider (CSP) to be used for encryption / signing, or decryption / signature verification.

This is not commonly used becaues the default Microsoft CSP is typically appropriate. One instance where SetCSP is necessary is when using the Crypto-Pro CSP for the GOST R 34.10-2001 and GOST R 34.10-94 providers.

Returns TRUE for success, FALSE for failure.

BOOL CkMimeW_SetHeaderField(HCkMimeW cHandle, const wchar_t *name, const wchar_t *value);

Adds or replaces a MIME message header field. If the field already exists, it is automatically replaced. Otherwise it is added. Pass zero-length value to remove the header field.

Returns TRUE for success, FALSE for failure.

Add, Remove, Update MIME Header Fields

BOOL CkMimeW_SetVerifyCert(HCkMimeW cHandle, HCkCertW cert);

Allows a certificate to be explicitly specified for verifying a signature.

Returns TRUE for success, FALSE for failure.

BOOL CkMimeW_UnlockComponent(HCkMimeW cHandle, const wchar_t *unlockCode);

Unlocks the component allowing for the full functionality to be used. If this method unexpectedly returns FALSE, examine the contents of the LastErrorText property to determine the reason for failure.

Returns TRUE for success, FALSE for failure.

Diagnosing UnlockComponent Problems

UnlockComponent LastErrorText shows exact string passed to it.

Verify UnlockComponent Success w/ Purchased Unlock Code

LastErrorText Standard Information

BOOL CkMimeW_UnwrapSecurity(HCkMimeW cHandle);

Decrypts and/or verifies all digital signatures contained within the MIME message, and returns TRUE if all decryptions and verifications succeeded. Otherwise returns FALSE. After unwrapping, the information regarding security and certificates can be obtained by the methods GetSignerCert and GetEncryptCert, and the properties NumEncryptCerts and NumSignerCerts.

The MIME is restored to the original structure/content prior to all signing and/or encryption.

The difference between UnwrapSecurity and methods such as Verify or Decrypt is that UnwrapSecurity will recursively traverse the MIME to decrypt and/or verify all parts. Also, UnwrapSecurity will unwrap layers until no further encrypted/signed content is found. For example, if a MIME message was encrypted and then subsequently signed, then UnwrapSecurity will verify and unwrap the detached signature/signed-data layer, and then decrypt the "enveloped data".

Returns TRUE for success, FALSE for failure.

Decrypt S/MIME and Verify S/MIME Signatures

void CkMimeW_UrlEncodeBody(HCkMimeW cHandle, const wchar_t *charset);

URL encodes the MIME body. The charset is important. For example, consider this MIME:

Content-Type: text/plain
Content-Transfer-Encoding: 8bit

Société
If the charset is set to "utf-8", then the following is produced:
Content-Type: text/plain
Content-Transfer-Encoding: 8bit

Soci%C3%A9t%C3%A9
However, if the charset is set to "ansi", then the following is the result:
Content-Type: text/plain
Content-Transfer-Encoding: 8bit

Soci%E9t%E9

BOOL CkMimeW_UseCertVault(HCkMimeW cHandle, HCkXmlCertVaultW vault);

Adds an XML certificate vault to the object's internal list of sources to be searched for certificates and private keys when encrypting/decrypting or signing/verifying. Unlike the AddPfxSourceData and AddPfxSourceFile methods, only a single XML certificate vault can be used. If UseCertVault is called multiple times, only the last certificate vault will be used, as each call to UseCertVault will replace the certificate vault provided in previous calls.

Returns TRUE for success, FALSE for failure.

BOOL CkMimeW_Verify(HCkMimeW cHandle);

Verifies PKCS7 signed MIME and "unwraps" the signature. The MIME is restored to the original structure that it would have originally had prior to signing. The Verify method works with both detached signatures, as well as opaque/attached signatures.

A PKCS7 signature usually embeds both the signing certificate with its public key. Therefore, it is usually possible to verify a signature without the need to already have the certificate installed. If the signature does not embed the certificate, the Verify method will automatically locate and use the certificate if it was correctly pre-installed on the computer.

Returns TRUE for success, FALSE for failure.

Example Code: Verify and Unwrap PCKS7 Signed MIME