// SPDX-FileCopyrightText: 2022-2023 The go-mail Authors // // SPDX-License-Identifier: MIT package mail import ( "bytes" "context" "crypto/ecdsa" "crypto/rsa" "crypto/tls" "crypto/x509" "embed" "errors" "fmt" ht "html/template" "io" "io/fs" "mime" "net/mail" "os" "os/exec" "path/filepath" "strings" "syscall" tt "text/template" "time" ) var ( // ErrNoFromAddress should be used when a FROM address is requested but not set ErrNoFromAddress = errors.New("no FROM address set") // ErrNoRcptAddresses indicates that no recipient addresses have been set. ErrNoRcptAddresses = errors.New("no recipient addresses set") ) const ( // errTplExecuteFailed indicates that the execution of a template has failed, including the underlying error. errTplExecuteFailed = "failed to execute template: %w" // errTplPointerNil indicates that a template pointer is nil, which prevents further template execution or // processing. errTplPointerNil = "template pointer is nil" // errParseMailAddr indicates that parsing of a mail address has failed, including the problematic address // and error. errParseMailAddr = "failed to parse mail address %q: %w" ) const ( // NoPGP indicates that a message should not be treated as PGP encrypted or signed and is the default value // for a message NoPGP PGPType = iota // PGPEncrypt indicates that a message should be treated as PGP encrypted. This works closely together with // the corresponding go-mail-middleware. PGPEncrypt // PGPSignature indicates that a message should be treated as PGP signed. This works closely together with // the corresponding go-mail-middleware. PGPSignature ) // MiddlewareType is a type wrapper for a string. It describes the type of the Middleware and needs to be // returned by the Middleware.Type method to satisfy the Middleware interface. type MiddlewareType string // Middleware represents the interface for modifying or handling email messages. A Middleware allows the user to // alter a Msg before it is finally processed. Multiple Middleware can be applied to a Msg. // // Type returns a unique MiddlewareType. It describes the type of Middleware and makes sure that // a Middleware is only applied once. // Handle performs all the processing to the Msg. It always needs to return a Msg back. type Middleware interface { Handle(*Msg) *Msg Type() MiddlewareType } // PGPType is a type wrapper for an int, representing a type of PGP encryption or signature. type PGPType int // Msg represents an email message with various headers, attachments, and encoding settings. // // The Msg is the central part of go-mail. It provided a lot of methods that you would expect in a mail // user agent (MUA). Msg satisfies the io.WriterTo and io.Reader interfaces. type Msg struct { // addrHeader holds a mapping between AddrHeader keys and their corresponding slices of mail.Address pointers. addrHeader map[AddrHeader][]*mail.Address // attachments holds a list of File pointers that represent files either as attachments or embeds files in // a Msg. attachments []*File // boundary represents the delimiter for separating parts in a multipart message. boundary string // charset represents the Charset of the Msg. // // By default we set CharsetUTF8 for a Msg unless overridden by a corresponding MsgOption. charset Charset // embeds contains a slice of File pointers representing the embedded files in a Msg. embeds []*File // encoder is a mime.WordEncoder used to encode strings (such as email headers) using a specified // Encoding. encoder mime.WordEncoder // encoding specifies the type of Encoding used for email messages and/or parts. encoding Encoding // genHeader is a map where the keys are email headers (of type Header) and the values are slices of strings // representing header values. genHeader map[Header][]string // isDelivered indicates wether the Msg has been delivered. isDelivered bool // middlewares is a slice of Middleware used for modifying or handling messages before they are processed. // // middlewares are processed in FIFO order. middlewares []Middleware // mimever represents the MIME version used in a Msg. mimever MIMEVersion // parts is a slice that holds pointers to Part structures, which represent different parts of a Msg. parts []*Part // preformHeader maps Header types to their already preformatted string values. // // Preformatted Header values will not be affected by automatic line breaks. preformHeader map[Header]string // pgptype indicates that a message has a PGPType assigned and therefore will generate // different Content-Type settings in the msgWriter. pgptype PGPType // sendError represents an error encountered during the process of sending a Msg during the // Client.Send operation. // // sendError will hold an error of type SendError. sendError error // noDefaultUserAgent indicates whether the default User-Agent will be omitted for the Msg when it is // being sent. // // This can be useful in scenarios where headers are conditionally passed based on receipt - i. e. SMTP proxies. noDefaultUserAgent bool // SMime represents a middleware used to sign messages with S/MIME sMime *SMime } // SendmailPath is the default system path to the sendmail binary - at least on standard Unix-like OS. const SendmailPath = "/usr/sbin/sendmail" // MsgOption is a function type that modifies a Msg instance during its creation or initialization. type MsgOption func(*Msg) // NewMsg creates a new email message with optional MsgOption functions that customize various aspects // of the message. // // This function initializes a new Msg instance with default values for address headers, character set, // encoding, general headers, and MIME version. It then applies any provided MsgOption functions to // customize the message according to the user's needs. If an option is nil, it will be ignored. // After applying the options, the function sets the appropriate MIME WordEncoder for the message. // // Parameters: // - opts: A variadic list of MsgOption functions that can be used to customize the Msg instance. // // Returns: // - A pointer to the newly created Msg instance. // // References: // - https://datatracker.ietf.org/doc/html/rfc5321 func NewMsg(opts ...MsgOption) *Msg { msg := &Msg{ addrHeader: make(map[AddrHeader][]*mail.Address), charset: CharsetUTF8, encoding: EncodingQP, genHeader: make(map[Header][]string), preformHeader: make(map[Header]string), mimever: MIME10, } // Override defaults with optionally provided MsgOption functions. for _, option := range opts { if option == nil { continue } option(msg) } // Set the matcing mime.WordEncoder for the Msg msg.setEncoder() return msg } // WithCharset sets the Charset type for a Msg during its creation or initialization. // // This MsgOption function allows you to specify the character set to be used in the email message. // The charset defines how the text in the message is encoded and interpreted by the email client. // This option should be called when creating a new Msg instance to ensure that the desired charset // is set correctly. // // Parameters: // - charset: The Charset value that specifies the desired character set for the Msg. // // Returns: // - A MsgOption function that can be used to customize the Msg instance. // // References: // - https://datatracker.ietf.org/doc/html/rfc2047#section-5 func WithCharset(charset Charset) MsgOption { return func(m *Msg) { m.charset = charset } } // WithEncoding sets the Encoding type for a Msg during its creation or initialization. // // This MsgOption function allows you to specify the encoding type to be used in the email message. // The encoding defines how the message content is encoded, which affects how it is transmitted // and decoded by email clients. This option should be called when creating a new Msg instance to // ensure that the desired encoding is set correctly. // // Parameters: // - encoding: The Encoding value that specifies the desired encoding type for the Msg. // // Returns: // - A MsgOption function that can be used to customize the Msg instance. // // References: // - https://datatracker.ietf.org/doc/html/rfc2047#section-6 func WithEncoding(encoding Encoding) MsgOption { return func(m *Msg) { m.encoding = encoding } } // WithMIMEVersion sets the MIMEVersion type for a Msg during its creation or initialization. // // Note that in the context of email, MIME Version 1.0 is the only officially standardized and // supported version. While MIME has been updated and extended over time via various RFCs, these // updates and extensions do not introduce new MIME versions; they refine or add features within // the framework of MIME 1.0. Therefore, there should be no reason to ever use this MsgOption. // // Parameters: // - version: The MIMEVersion value that specifies the desired MIME version for the Msg. // // Returns: // - A MsgOption function that can be used to customize the Msg instance. // // References: // - https://datatracker.ietf.org/doc/html/rfc1521 // - https://datatracker.ietf.org/doc/html/rfc2045 // - https://datatracker.ietf.org/doc/html/rfc2049 func WithMIMEVersion(version MIMEVersion) MsgOption { return func(m *Msg) { m.mimever = version } } // WithBoundary sets the boundary of a Msg to the provided string value during its creation or // initialization. // // Note that by default, random MIME boundaries are created. This option should only be used if // a specific boundary is required for the email message. Using a predefined boundary can be // helpful when constructing multipart messages with specific formatting or content separation. // // Parameters: // - boundary: The string value that specifies the desired boundary for the Msg. // // Returns: // - A MsgOption function that can be used to customize the Msg instance. func WithBoundary(boundary string) MsgOption { return func(m *Msg) { m.boundary = boundary } } // WithMiddleware adds the given Middleware to the end of the list of the Client middlewares slice. // Middleware are processed in FIFO order. // // This MsgOption function allows you to specify custom middleware that will be applied during the // message handling process. Middleware can be used to modify the message, perform logging, or // implement additional functionality as the message flows through the system. Each middleware // is executed in the order it was added. // // Parameters: // - middleware: The Middleware to be added to the list for processing. // // Returns: // - A MsgOption function that can be used to customize the Msg instance. func WithMiddleware(middleware Middleware) MsgOption { return func(m *Msg) { m.middlewares = append(m.middlewares, middleware) } } // WithPGPType sets the PGP type for the Msg during its creation or initialization, determining // the encryption or signature method. // // This MsgOption function allows you to specify the PGP (Pretty Good Privacy) type to be used // for securing the message. The chosen PGP type influences how the message is encrypted or // signed, ensuring confidentiality and integrity of the content. This option should be called // when creating a new Msg instance to set the desired PGP type appropriately. // // Parameters: // - pgptype: The PGPType value that specifies the desired PGP type for the Msg. // // Returns: // - A MsgOption function that can be used to customize the Msg instance. // // References: // - https://datatracker.ietf.org/doc/html/rfc4880 func WithPGPType(pgptype PGPType) MsgOption { return func(m *Msg) { m.pgptype = pgptype } } // WithNoDefaultUserAgent disables the inclusion of a default User-Agent header in the Msg during // its creation or initialization. // // This MsgOption function allows you to customize the Msg instance by omitting the default // User-Agent header, which is typically included to provide information about the software // sending the email. This option can be useful when you want to have more control over the // headers included in the message, such as when sending from a custom application or for // privacy reasons. // // Returns: // - A MsgOption function that can be used to customize the Msg instance. func WithNoDefaultUserAgent() MsgOption { return func(m *Msg) { m.noDefaultUserAgent = true } } // SignWithSMimeRSA configures the Msg to be signed with S/MIME func (m *Msg) SignWithSMimeRSA(privateKey *rsa.PrivateKey, certificate *x509.Certificate, intermediateCertificate *x509.Certificate) error { sMime, err := newSMimeWithRSA(privateKey, certificate, intermediateCertificate) if err != nil { return err } m.sMime = sMime return nil } // SignWithSMimeECDSA configures the Msg to be signed with S/MIME func (m *Msg) SignWithSMimeECDSA(privateKey *ecdsa.PrivateKey, certificate *x509.Certificate, intermediateCertificate *x509.Certificate) error { sMime, err := newSMimeWithECDSA(privateKey, certificate, intermediateCertificate) if err != nil { return err } m.sMime = sMime return nil } // SignWithTLSCertificate signs the Msg with the provided *tls.certificate. func (m *Msg) SignWithTLSCertificate(keyPairTlS *tls.Certificate) error { intermediateCertificate, err := x509.ParseCertificate(keyPairTlS.Certificate[1]) if err != nil { return fmt.Errorf("failed to parse intermediate certificate: %w", err) } leafCertificate, err := getLeafCertificate(keyPairTlS) if err != nil { return fmt.Errorf("failed to get leaf certificate: %w", err) } switch keyPairTlS.PrivateKey.(type) { case *rsa.PrivateKey: if intermediateCertificate == nil { return m.SignWithSMimeRSA(keyPairTlS.PrivateKey.(*rsa.PrivateKey), leafCertificate, nil) } return m.SignWithSMimeRSA(keyPairTlS.PrivateKey.(*rsa.PrivateKey), leafCertificate, intermediateCertificate) case *ecdsa.PrivateKey: if intermediateCertificate == nil { return m.SignWithSMimeECDSA(keyPairTlS.PrivateKey.(*ecdsa.PrivateKey), leafCertificate, nil) } return m.SignWithSMimeECDSA(keyPairTlS.PrivateKey.(*ecdsa.PrivateKey), leafCertificate, intermediateCertificate) default: return fmt.Errorf("unsupported private key type: %T", keyPairTlS.PrivateKey) } } // getLeafCertificate returns the leaf certificate from a tls.Certificate. // PLEASE NOTE: Before Go 1.23 Certificate.Leaf was left nil, and the parsed certificate was // discarded. This behavior can be re-enabled by setting "x509keypairleaf=0" // in the GODEBUG environment variable. func getLeafCertificate(keyPairTlS *tls.Certificate) (*x509.Certificate, error) { if keyPairTlS.Leaf != nil { return keyPairTlS.Leaf, nil } cert, err := x509.ParseCertificate(keyPairTlS.Certificate[0]) if err != nil { return nil, err } return cert, nil } // This method allows you to specify a character set for the email message. The charset is // important for ensuring that the content of the message is correctly interpreted by // mail clients. Common charset values include UTF-8, ISO-8859-1, and others. If a charset // is not explicitly set, CharsetUTF8 is used as default. // // Parameters: // - charset: The Charset value to set for the Msg, determining the encoding used for the message content. func (m *Msg) SetCharset(charset Charset) { m.charset = charset } // SetEncoding sets or overrides the currently set Encoding of the Msg. // // This method allows you to specify the encoding type for the email message. The encoding // determines how the message content is represented and can affect the size and compatibility // of the email. Common encoding types include Base64 and Quoted-Printable. Setting a new // encoding may also adjust how the message content is processed and transmitted. // // Parameters: // - encoding: The Encoding value to set for the Msg, determining the method used to encode the // message content. func (m *Msg) SetEncoding(encoding Encoding) { m.encoding = encoding m.setEncoder() } // SetBoundary sets or overrides the currently set boundary of the Msg. // // This method allows you to specify a custom boundary string for the MIME message. The // boundary is used to separate different parts of the message, especially when dealing // with multipart messages. By default, the Msg generates random MIME boundaries. This // function should only be used if you have a specific boundary requirement for the // message. Ensure that the boundary value does not conflict with any content within the // message to avoid parsing errors. // // Parameters: // - boundary: The string value representing the boundary to set for the Msg, used in // multipart messages to delimit different sections. func (m *Msg) SetBoundary(boundary string) { m.boundary = boundary } // SetMIMEVersion sets or overrides the currently set MIME version of the Msg. // // In the context of email, MIME Version 1.0 is the only officially standardized and // supported version. Although MIME has been updated and extended over time through // various RFCs, these updates do not introduce new MIME versions; they refine or add // features within the framework of MIME 1.0. Therefore, there is generally no need to // use this function to set a different MIME version. // // Parameters: // - version: The MIMEVersion value to set for the Msg, which determines the MIME // version used in the email message. // // References: // - https://datatracker.ietf.org/doc/html/rfc1521 // - https://datatracker.ietf.org/doc/html/rfc2045 // - https://datatracker.ietf.org/doc/html/rfc2049 func (m *Msg) SetMIMEVersion(version MIMEVersion) { m.mimever = version } // SetPGPType sets or overrides the currently set PGP type for the Msg, determining the // encryption or signature method. // // This method allows you to specify the PGP type that will be used when encrypting or // signing the message. Different PGP types correspond to various encryption and signing // algorithms, and selecting the appropriate type is essential for ensuring the security // and integrity of the message content. // // Parameters: // - pgptype: The PGPType value to set for the Msg, which determines the encryption // or signature method used for the email message. func (m *Msg) SetPGPType(pgptype PGPType) { m.pgptype = pgptype } // Encoding returns the currently set Encoding of the Msg as a string. // // This method retrieves the encoding type that is currently applied to the message. The // encoding type determines how the message content is encoded for transmission. Common // encoding types include quoted-printable and base64, and the returned string will reflect // the specific encoding method in use. // // Returns: // - A string representation of the current Encoding of the Msg. func (m *Msg) Encoding() string { return m.encoding.String() } // Charset returns the currently set Charset of the Msg as a string. // // This method retrieves the character set that is currently applied to the message. The // charset defines the encoding for the text content of the message, ensuring that // characters are displayed correctly across different email clients and platforms. The // returned string will reflect the specific charset in use, such as UTF-8 or ISO-8859-1. // // Returns: // - A string representation of the current Charset of the Msg. func (m *Msg) Charset() string { return m.charset.String() } // SetHeader sets a generic header field of the Msg. // // Deprecated: This method only exists for compatibility reasons. Please use SetGenHeader // instead. For adding address headers like "To:" or "From", use SetAddrHeader instead. // // This method allows you to set a header field for the message, providing the header name // and its corresponding values. However, it is recommended to utilize the newer methods // for better clarity and functionality. Using SetGenHeader or SetAddrHeader is preferred // for more specific header types, ensuring proper handling of the message headers. // // Parameters: // - header: The header field to set in the Msg. // - values: One or more string values to associate with the header field. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3 // - https://datatracker.ietf.org/doc/html/rfc2047 func (m *Msg) SetHeader(header Header, values ...string) { m.SetGenHeader(header, values...) } // SetGenHeader sets a generic header field of the Msg to the provided list of values. // // This method is intended for setting generic headers in the email message. It takes a // header name and a variadic list of string values, encoding them as necessary before // storing them in the message's internal header map. // // Note: For adding email address-related headers (like "To:", "From", "Cc", etc.), // use SetAddrHeader instead to ensure proper formatting and validation. // // Parameters: // - header: The header field to set in the Msg. // - values: One or more string values to associate with the header field. // // This method ensures that all values are appropriately encoded for email transmission, // adhering to the necessary standards. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3 // - https://datatracker.ietf.org/doc/html/rfc2047 func (m *Msg) SetGenHeader(header Header, values ...string) { if m.genHeader == nil { m.genHeader = make(map[Header][]string) } for i, val := range values { values[i] = m.encodeString(val) } m.genHeader[header] = values } // SetHeaderPreformatted sets a generic header field of the Msg, which content is already preformatted. // // Deprecated: This method only exists for compatibility reasons. Please use // SetGenHeaderPreformatted instead for setting preformatted generic header fields. // // Parameters: // - header: The header field to set in the Msg. // - value: The preformatted string value to associate with the header field. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3 // - https://datatracker.ietf.org/doc/html/rfc2047 func (m *Msg) SetHeaderPreformatted(header Header, value string) { m.SetGenHeaderPreformatted(header, value) } // SetGenHeaderPreformatted sets a generic header field of the Msg which content is already preformatted. // // This method does not take a slice of values but only a single value. The reason for this is that we do not // perform any content alteration on these kinds of headers and expect the user to have already taken care of // any kind of formatting required for the header. // // Note: This method should be used only as a last resort. Since the user is responsible for the formatting of // the message header, we cannot guarantee any compliance with RFC 2822. It is advised to use SetGenHeader // instead for general header fields. // // Parameters: // - header: The header field to set in the Msg. // - value: The preformatted string value to associate with the header field. // // References: // - https://datatracker.ietf.org/doc/html/rfc2822 func (m *Msg) SetGenHeaderPreformatted(header Header, value string) { if m.preformHeader == nil { m.preformHeader = make(map[Header]string) } m.preformHeader[header] = value } // SetAddrHeader sets the specified AddrHeader for the Msg to the given values. // // Addresses are parsed according to RFC 5322. If parsing any of the provided values fails, // an error is returned. If you cannot guarantee that all provided values are valid, you can // use SetAddrHeaderIgnoreInvalid instead, which will silently skip any parsing errors. // // This method allows you to set address-related headers for the message, ensuring that the // provided addresses are properly formatted and parsed. Using this method helps maintain the // integrity of the email addresses within the message. // // Parameters: // - header: The AddrHeader to set in the Msg (e.g., "From", "To", "Cc", "Bcc"). // - values: One or more string values representing the email addresses to associate with // the specified header. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.4 func (m *Msg) SetAddrHeader(header AddrHeader, values ...string) error { if m.addrHeader == nil { m.addrHeader = make(map[AddrHeader][]*mail.Address) } var addresses []*mail.Address for _, addrVal := range values { address, err := mail.ParseAddress(addrVal) if err != nil { return fmt.Errorf(errParseMailAddr, addrVal, err) } addresses = append(addresses, address) } switch header { case HeaderFrom: if len(addresses) > 0 { m.addrHeader[header] = []*mail.Address{addresses[0]} } default: m.addrHeader[header] = addresses } return nil } // SetAddrHeaderIgnoreInvalid sets the specified AddrHeader for the Msg to the given values. // // Addresses are parsed according to RFC 5322. If parsing of any of the provided values fails, // the error is ignored and the address is omitted from the address list. // // This method allows for setting address headers while ignoring invalid addresses. It is useful // in scenarios where you want to ensure that only valid addresses are included without halting // execution due to parsing errors. // // Parameters: // - header: The AddrHeader field to set in the Msg. // - values: One or more string values representing email addresses. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.4 func (m *Msg) SetAddrHeaderIgnoreInvalid(header AddrHeader, values ...string) { if m.addrHeader == nil { m.addrHeader = make(map[AddrHeader][]*mail.Address) } var addresses []*mail.Address for _, addrVal := range values { address, err := mail.ParseAddress(m.encodeString(addrVal)) if err != nil { continue } addresses = append(addresses, address) } switch header { case HeaderFrom: if len(addresses) > 0 { m.addrHeader[header] = []*mail.Address{addresses[0]} } default: m.addrHeader[header] = addresses } } // EnvelopeFrom sets the envelope from address for the Msg. // // The HeaderEnvelopeFrom address is generally not included in the mail body but only used by the // Client for communication with the SMTP server. If the Msg has no "FROM" address set in the // mail body, the msgWriter will try to use the envelope from address if it has been set for the Msg. // The provided address is validated according to RFC 5322 and will return an error if the validation fails. // // Parameters: // - from: The envelope from address to set in the Msg. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.4 func (m *Msg) EnvelopeFrom(from string) error { return m.SetAddrHeader(HeaderEnvelopeFrom, from) } // EnvelopeFromFormat sets the provided name and mail address as HeaderEnvelopeFrom for the Msg. // // The HeaderEnvelopeFrom address is generally not included in the mail body but only used by the // Client for communication with the SMTP server. If the Msg has no "FROM" address set in the mail // body, the msgWriter will try to use the envelope from address if it has been set for the Msg. // The provided name and address are validated according to RFC 5322 and will return an error if // the validation fails. // // Parameters: // - name: The name to associate with the envelope from address. // - addr: The mail address to set as the envelope from address. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.4 func (m *Msg) EnvelopeFromFormat(name, addr string) error { return m.SetAddrHeader(HeaderEnvelopeFrom, fmt.Sprintf(`"%s" <%s>`, name, addr)) } // From sets the "FROM" address in the mail body for the Msg. // // The "FROM" address is included in the mail body and indicates the sender of the message to // the recipient. This address is visible in the email client and is typically displayed to the // recipient. If the "FROM" address is not set, the msgWriter may attempt to use the envelope // from address (if available) for sending. The provided address is validated according to RFC // 5322 and will return an error if the validation fails. // // Parameters: // - from: The "FROM" address to set in the mail body. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.2 func (m *Msg) From(from string) error { return m.SetAddrHeader(HeaderFrom, from) } // FromFormat sets the provided name and mail address as the "FROM" address in the mail body for the Msg. // // The "FROM" address is included in the mail body and indicates the sender of the message to // the recipient, and is visible in the email client. If the "FROM" address is not explicitly // set, the msgWriter may use the envelope from address (if provided) when sending the message. // The provided name and address are validated according to RFC 5322 and will return an error // if the validation fails. // // Parameters: // - name: The name of the sender to include in the "FROM" address. // - addr: The email address of the sender to include in the "FROM" address. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.2 func (m *Msg) FromFormat(name, addr string) error { return m.SetAddrHeader(HeaderFrom, fmt.Sprintf(`"%s" <%s>`, name, addr)) } // To sets one or more "TO" addresses in the mail body for the Msg. // // The "TO" address specifies the primary recipient(s) of the message and is included in the mail body. // This address is visible to the recipient and any other recipients of the message. Multiple "TO" addresses // can be set by passing them as variadic arguments to this method. Each provided address is validated // according to RFC 5322, and an error will be returned if ANY validation fails. // // Parameters: // - rcpts: One or more recipient email addresses to include in the "TO" field. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.3 func (m *Msg) To(rcpts ...string) error { return m.SetAddrHeader(HeaderTo, rcpts...) } // AddTo adds a single "TO" address to the existing list of recipients in the mail body for the Msg. // // This method allows you to add a single recipient to the "TO" field without replacing any previously set // "TO" addresses. The "TO" address specifies the primary recipient(s) of the message and is visible in the mail // client. The provided address is validated according to RFC 5322, and an error will be returned if the // validation fails. // // Parameters: // - rcpt: The recipient email address to add to the "TO" field. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.3 func (m *Msg) AddTo(rcpt string) error { return m.addAddr(HeaderTo, rcpt) } // AddToFormat adds a single "TO" address with the provided name and email to the existing list of recipients // in the mail body for the Msg. // // This method allows you to add a recipient's name and email address to the "TO" field without replacing any // previously set "TO" addresses. The "TO" address specifies the primary recipient(s) of the message and is // visible in the mail client. The provided name and address are validated according to RFC 5322, and an error // will be returned if the validation fails. // // Parameters: // - name: The name of the recipient to add to the "TO" field. // - addr: The email address of the recipient to add to the "TO" field. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.3 func (m *Msg) AddToFormat(name, addr string) error { return m.addAddr(HeaderTo, fmt.Sprintf(`"%s" <%s>`, name, addr)) } // ToIgnoreInvalid sets one or more "TO" addresses in the mail body for the Msg, ignoring any invalid addresses. // // This method allows you to add multiple "TO" recipients to the message body. Unlike the standard `To` method, // any invalid addresses are ignored, and no error is returned for those addresses. Valid addresses will still be // included in the "TO" field, which is visible in the recipient's mail client. Use this method with caution if // address validation is critical. Invalid addresses are determined according to RFC 5322. // // Parameters: // - rcpts: One or more recipient addresses to add to the "TO" field. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.3 func (m *Msg) ToIgnoreInvalid(rcpts ...string) { m.SetAddrHeaderIgnoreInvalid(HeaderTo, rcpts...) } // ToFromString takes a string of comma-separated email addresses, validates each, and sets them as the // "TO" addresses for the Msg. // // This method allows you to pass a single string containing multiple email addresses separated by commas. // Each address is validated according to RFC 5322 and set as a recipient in the "TO" field. If any validation // fails, an error will be returned. The addresses are visible in the mail body and displayed to recipients in // the mail client. Any "TO" address applied previously will be overwritten. // // Parameters: // - rcpts: A string containing multiple recipient addresses separated by commas. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.3 func (m *Msg) ToFromString(rcpts string) error { src := strings.Split(rcpts, ",") var dst []string for _, address := range src { address = strings.TrimSpace(address) if address == "" { continue } dst = append(dst, address) } return m.To(dst...) } // Cc sets one or more "CC" (carbon copy) addresses in the mail body for the Msg. // // The "CC" address specifies secondary recipient(s) of the message, and is included in the mail body. // These addresses are visible to all recipients, including those listed in the "TO" and other "CC" fields. // Multiple "CC" addresses can be set by passing them as variadic arguments to this method. Each provided // address is validated according to RFC 5322, and an error will be returned if ANY validation fails. // // Parameters: // - rcpts: One or more recipient addresses to be included in the "CC" field. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.3 func (m *Msg) Cc(rcpts ...string) error { return m.SetAddrHeader(HeaderCc, rcpts...) } // AddCc adds a single "CC" (carbon copy) address to the existing list of "CC" recipients in the mail body // for the Msg. // // This method allows you to add a single recipient to the "CC" field without replacing any previously set "CC" // addresses. The "CC" address specifies secondary recipient(s) and is visible to all recipients, including those // in the "TO" field. The provided address is validated according to RFC 5322, and an error will be returned if // the validation fails. // // Parameters: // - rcpt: The recipient address to be added to the "CC" field. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.3 func (m *Msg) AddCc(rcpt string) error { return m.addAddr(HeaderCc, rcpt) } // AddCcFormat adds a single "CC" (carbon copy) address with the provided name and email to the existing list // of "CC" recipients in the mail body for the Msg. // // This method allows you to add a recipient's name and email address to the "CC" field without replacing any // previously set "CC" addresses. The "CC" address specifies secondary recipient(s) and is visible to all // recipients, including those in the "TO" field. The provided name and address are validated according to // RFC 5322, and an error will be returned if the validation fails. // // Parameters: // - name: The name of the recipient to be added to the "CC" field. // - addr: The email address of the recipient to be added to the "CC" field. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.3 func (m *Msg) AddCcFormat(name, addr string) error { return m.addAddr(HeaderCc, fmt.Sprintf(`"%s" <%s>`, name, addr)) } // CcIgnoreInvalid sets one or more "CC" (carbon copy) addresses in the mail body for the Msg, ignoring any // invalid addresses. // // This method allows you to add multiple "CC" recipients to the message body. Unlike the standard `Cc` method, // any invalid addresses are ignored, and no error is returned for those addresses. Valid addresses will still // be included in the "CC" field, which is visible to all recipients in the mail client. Use this method with // caution if address validation is critical, as invalid addresses are determined according to RFC 5322. // // Parameters: // - rcpts: One or more recipient email addresses to be added to the "CC" field. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.3 func (m *Msg) CcIgnoreInvalid(rcpts ...string) { m.SetAddrHeaderIgnoreInvalid(HeaderCc, rcpts...) } // CcFromString takes a string of comma-separated email addresses, validates each, and sets them as the "CC" // addresses for the Msg. // // This method allows you to pass a single string containing multiple email addresses separated by commas. // Each address is validated according to RFC 5322 and set as a recipient in the "CC" field. If any validation // fails, an error will be returned. The addresses are visible in the mail body and displayed to recipients // in the mail client. // // Parameters: // - rcpts: A string containing multiple email addresses separated by commas. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.3 func (m *Msg) CcFromString(rcpts string) error { src := strings.Split(rcpts, ",") var dst []string for _, address := range src { address = strings.TrimSpace(address) if address == "" { continue } dst = append(dst, address) } return m.Cc(dst...) } // Bcc sets one or more "BCC" (blind carbon copy) addresses in the mail body for the Msg. // // The "BCC" address specifies recipient(s) of the message who will receive a copy without other recipients // being aware of it. These addresses are not visible in the mail body or to any other recipients, ensuring // the privacy of BCC'd recipients. Multiple "BCC" addresses can be set by passing them as variadic arguments // to this method. Each provided address is validated according to RFC 5322, and an error will be returned // if ANY validation fails. // // Parameters: // - rcpts: One or more string values representing the BCC addresses to set in the Msg. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.3 func (m *Msg) Bcc(rcpts ...string) error { return m.SetAddrHeader(HeaderBcc, rcpts...) } // AddBcc adds a single "BCC" (blind carbon copy) address to the existing list of "BCC" recipients in the mail // body for the Msg. // // This method allows you to add a single recipient to the "BCC" field without replacing any previously set // "BCC" addresses. The "BCC" address specifies recipient(s) of the message who will receive a copy without other // recipients being aware of it. The provided address is validated according to RFC 5322, and an error will be // returned if the validation fails. // // Parameters: // - rcpt: The BCC address to add to the existing list of recipients in the Msg. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.3 func (m *Msg) AddBcc(rcpt string) error { return m.addAddr(HeaderBcc, rcpt) } // AddBccFormat adds a single "BCC" (blind carbon copy) address with the provided name and email to the existing // list of "BCC" recipients in the mail body for the Msg. // // This method allows you to add a recipient's name and email address to the "BCC" field without replacing // any previously set "BCC" addresses. The "BCC" address specifies recipient(s) of the message who will receive // a copy without other recipients being aware of it. The provided name and address are validated according to // RFC 5322, and an error will be returned if the validation fails. // // Parameters: // - name: The name of the recipient to add to the BCC field. // - addr: The email address of the recipient to add to the BCC field. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.3 func (m *Msg) AddBccFormat(name, addr string) error { return m.addAddr(HeaderBcc, fmt.Sprintf(`"%s" <%s>`, name, addr)) } // BccIgnoreInvalid sets one or more "BCC" (blind carbon copy) addresses in the mail body for the Msg, // ignoring any invalid addresses. // // This method allows you to add multiple "BCC" recipients to the message body. Unlike the standard `Bcc` // method, any invalid addresses are ignored, and no error is returned for those addresses. Valid addresses // will still be included in the "BCC" field, which ensures the privacy of the BCC'd recipients. Use this method // with caution if address validation is critical, as invalid addresses are determined according to RFC 5322. // // Parameters: // - rcpts: One or more string values representing the BCC email addresses to set. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.3 func (m *Msg) BccIgnoreInvalid(rcpts ...string) { m.SetAddrHeaderIgnoreInvalid(HeaderBcc, rcpts...) } // BccFromString takes a string of comma-separated email addresses, validates each, and sets them as the "BCC" // addresses for the Msg. // // This method allows you to pass a single string containing multiple email addresses separated by commas. // Each address is validated according to RFC 5322 and set as a recipient in the "BCC" field. If any validation // fails, an error will be returned. The addresses are not visible in the mail body and ensure the privacy of // BCC'd recipients. // // Parameters: // - rcpts: A string of comma-separated email addresses to set as BCC recipients. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.3 func (m *Msg) BccFromString(rcpts string) error { src := strings.Split(rcpts, ",") var dst []string for _, address := range src { address = strings.TrimSpace(address) if address == "" { continue } dst = append(dst, address) } return m.Bcc(dst...) } // ReplyTo sets the "Reply-To" address for the Msg, specifying where replies should be sent. // // This method takes a single email address as input and attempts to parse it. If the address is valid, it sets // the "Reply-To" header in the message. The "Reply-To" address can be different from the "From" address, // allowing the sender to specify an alternate address for responses. If the provided address cannot be parsed, // an error will be returned, indicating the parsing failure. // // Parameters: // - addr: The email address to set as the "Reply-To" address. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.2 func (m *Msg) ReplyTo(addr string) error { replyTo, err := mail.ParseAddress(addr) if err != nil { return fmt.Errorf("failed to parse reply-to address: %w", err) } m.SetGenHeader(HeaderReplyTo, replyTo.String()) return nil } // ReplyToFormat sets the "Reply-To" address for the Msg using the provided name and email address, specifying // where replies should be sent. // // This method formats the name and email address into a single "Reply-To" header. If the formatted address is valid, // it sets the "Reply-To" header in the message. This allows the sender to specify a display name along with the // reply address, providing clarity for recipients. If the constructed address cannot be parsed, an error will // be returned, indicating the parsing failure. // // Parameters: // - name: The display name associated with the reply address. // - addr: The email address to set as the "Reply-To" address. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.2 func (m *Msg) ReplyToFormat(name, addr string) error { return m.ReplyTo(fmt.Sprintf(`"%s" <%s>`, name, addr)) } // Subject sets the "Subject" header for the Msg, specifying the topic of the message. // // This method takes a single string as input and sets it as the "Subject" of the email. The subject line provides // a brief summary of the content of the message, allowing recipients to quickly understand its purpose. // // Parameters: // - subj: The subject line of the email. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.5 func (m *Msg) Subject(subj string) { m.SetGenHeader(HeaderSubject, subj) } // SetMessageID generates and sets a unique "Message-ID" header for the Msg. // // This method creates a "Message-ID" string using a randomly generated string and the hostname of the machine. // The generated ID helps uniquely identify the message in email systems, facilitating tracking and preventing // duplication. If the hostname cannot be retrieved, it defaults to "localhost.localdomain". // // The generated Message-ID follows the format // "". // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.4 func (m *Msg) SetMessageID() { hostname, err := os.Hostname() if err != nil { hostname = "localhost.localdomain" } // We have 64 possible characters, which for a 22 character string, provides approx. 132 bits of entropy. randString, _ := randomStringSecure(22) m.SetMessageIDWithValue(fmt.Sprintf("%s@%s", randString, hostname)) } // GetMessageID retrieves the "Message-ID" header from the Msg. // // This method checks if a "Message-ID" has been set in the message's generated headers. If a valid "Message-ID" // exists in the Msg, it returns the first occurrence of the header. If the "Message-ID" has not been set or // is empty, it returns an empty string. This allows other components to access the unique identifier for the // message, which is useful for tracking and referencing in email systems. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.4 func (m *Msg) GetMessageID() string { if msgidheader, ok := m.genHeader[HeaderMessageID]; ok { if len(msgidheader) > 0 { return msgidheader[0] } } return "" } // SetMessageIDWithValue sets the "Message-ID" header for the Msg using the provided messageID string. // // This method formats the input messageID by enclosing it in angle brackets ("<>") and sets it as the "Message-ID" // header in the message. The "Message-ID" is a unique identifier for the email, helping email clients and servers // to track and reference the message. There are no validations performed on the input messageID, so it should // be in a suitable format for use as a Message-ID. // // Parameters: // - messageID: The string to set as the "Message-ID" in the message header. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.4 func (m *Msg) SetMessageIDWithValue(messageID string) { m.SetGenHeader(HeaderMessageID, fmt.Sprintf("<%s>", messageID)) } // SetBulk sets the "Precedence: bulk" and "X-Auto-Response-Suppress: All" headers for the Msg, // which are recommended for automated emails such as out-of-office replies. // // The "Precedence: bulk" header indicates that the message is a bulk email, and the "X-Auto-Response-Suppress: All" // header instructs mail servers and clients to suppress automatic responses to this message. // This is particularly useful for reducing unnecessary replies to automated notifications or replies. // // References: // - https://www.rfc-editor.org/rfc/rfc2076#section-3.9 // - https://learn.microsoft.com/en-us/openspecs/exchange_server_protocols/ms-oxcmail/ced68690-498a-4567-9d14-5c01f974d8b1#Appendix_A_Target_51 func (m *Msg) SetBulk() { m.SetGenHeader(HeaderPrecedence, "bulk") m.SetGenHeader(HeaderXAutoResponseSuppress, "All") } // SetDate sets the "Date" header for the Msg to the current time in a valid RFC 1123 format. // // This method retrieves the current time and formats it according to RFC 1123, ensuring that the "Date" // header is compliant with email standards. The "Date" header indicates when the message was created, // providing recipients with context for the timing of the email. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.3 // - https://datatracker.ietf.org/doc/html/rfc1123 func (m *Msg) SetDate() { m.SetDateWithValue(time.Now()) } // SetDateWithValue sets the "Date" header for the Msg using the provided time value in a valid RFC 1123 format. // // This method takes a `time.Time` value as input and formats it according to RFC 1123, ensuring that the "Date" // header is compliant with email standards. The "Date" header indicates when the message was created, // providing recipients with context for the timing of the email. This allows for setting a custom date // rather than using the current time. // // Parameters: // - timeVal: The time value used to set the "Date" header. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.3 // - https://datatracker.ietf.org/doc/html/rfc1123 func (m *Msg) SetDateWithValue(timeVal time.Time) { m.SetGenHeader(HeaderDate, timeVal.Format(time.RFC1123Z)) } // SetImportance sets the "Importance" and "Priority" headers for the Msg to the specified Importance level. // // This method adjusts the email's importance based on the provided Importance value. If the importance level // is set to `ImportanceNormal`, no headers are modified. Otherwise, it sets the "Importance", "Priority", // "X-Priority", and "X-MSMail-Priority" headers accordingly, providing email clients with information on // how to prioritize the message. This allows the sender to indicate the significance of the email to recipients. // // Parameters: // - importance: The Importance value that determines the priority of the email message. // // References: // - https://datatracker.ietf.org/doc/html/rfc2156 func (m *Msg) SetImportance(importance Importance) { if importance == ImportanceNormal { return } m.SetGenHeader(HeaderImportance, importance.String()) m.SetGenHeader(HeaderPriority, importance.NumString()) m.SetGenHeader(HeaderXPriority, importance.XPrioString()) m.SetGenHeader(HeaderXMSMailPriority, importance.NumString()) } // SetOrganization sets the "Organization" header for the Msg to the specified organization string. // // This method allows you to specify the organization associated with the email sender. The "Organization" // header provides recipients with information about the organization that is sending the message. // This can help establish context and credibility for the email communication. // // Parameters: // - org: The name of the organization to be set in the "Organization" header. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.4 func (m *Msg) SetOrganization(org string) { m.SetGenHeader(HeaderOrganization, org) } // SetUserAgent sets the "User-Agent" and "X-Mailer" headers for the Msg to the specified user agent string. // // This method allows you to specify the user agent or mailer software used to send the email. // The "User-Agent" and "X-Mailer" headers provide recipients with information about the email client // or application that generated the message. This can be useful for identifying the source of the email, // particularly for troubleshooting or filtering purposes. // // Parameters: // - userAgent: The user agent or mailer software to be set in the "User-Agent" and "X-Mailer" headers. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.7 func (m *Msg) SetUserAgent(userAgent string) { m.SetGenHeader(HeaderUserAgent, userAgent) m.SetGenHeader(HeaderXMailer, userAgent) } // IsDelivered indicates whether the Msg has been delivered. // // This method checks the internal state of the message to determine if it has been successfully // delivered. It returns true if the message is marked as delivered and false otherwise. // This can be useful for tracking the status of the email communication. // // Returns: // - A boolean value indicating the delivery status of the message (true if delivered, false otherwise). func (m *Msg) IsDelivered() bool { return m.isDelivered } // RequestMDNTo adds the "Disposition-Notification-To" header to the Msg to request a Message Disposition // Notification (MDN) from the receiving end, as specified in RFC 8098. // // This method allows you to provide a list of recipient addresses to receive the MDN. // Each address is validated according to RFC 5322 standards. If ANY address is invalid, an error // will be returned indicating the parsing failure. If the "Disposition-Notification-To" header // is already set, it will be updated with the new list of addresses. // // Parameters: // - rcpts: One or more recipient email addresses to request the MDN from. // // References: // - https://datatracker.ietf.org/doc/html/rfc8098 func (m *Msg) RequestMDNTo(rcpts ...string) error { if m.genHeader == nil { m.genHeader = make(map[Header][]string) } var addresses []string for _, addrVal := range rcpts { address, err := mail.ParseAddress(addrVal) if err != nil { return fmt.Errorf(errParseMailAddr, addrVal, err) } addresses = append(addresses, address.String()) } m.genHeader[HeaderDispositionNotificationTo] = addresses return nil } // RequestMDNToFormat adds the "Disposition-Notification-To" header to the Msg to request a Message Disposition // Notification (MDN) from the receiving end, as specified in RFC 8098. // // This method allows you to provide a recipient address along with a name, formatting it appropriately. // Address validation is performed according to RFC 5322 standards. If the provided address is invalid, // an error will be returned. This method internally calls RequestMDNTo to handle the actual setting of the header. // // Parameters: // - name: The name of the recipient for the MDN request. // - addr: The email address of the recipient for the MDN request. // // References: // - https://datatracker.ietf.org/doc/html/rfc8098 func (m *Msg) RequestMDNToFormat(name, addr string) error { return m.RequestMDNTo(fmt.Sprintf(`%s <%s>`, name, addr)) } // RequestMDNAddTo adds an additional recipient to the "Disposition-Notification-To" header for the Msg. // // This method allows you to append a new recipient address to the existing list of recipients for the // MDN. The provided address is validated according to RFC 5322 standards. If the address is invalid, // an error will be returned indicating the parsing failure. If the "Disposition-Notification-To" // header is already set, the new recipient will be added to the existing list. // // Parameters: // - rcpt: The recipient email address to add to the "Disposition-Notification-To" header. // // References: // - https://datatracker.ietf.org/doc/html/rfc8098 func (m *Msg) RequestMDNAddTo(rcpt string) error { address, err := mail.ParseAddress(rcpt) if err != nil { return fmt.Errorf(errParseMailAddr, rcpt, err) } var addresses []string if current, ok := m.genHeader[HeaderDispositionNotificationTo]; ok { addresses = current } addresses = append(addresses, address.String()) m.genHeader[HeaderDispositionNotificationTo] = addresses return nil } // RequestMDNAddToFormat adds an additional formatted recipient to the "Disposition-Notification-To" // header for the Msg. // // This method allows you to specify a recipient address along with a name, formatting it appropriately // before adding it to the existing list of recipients for the MDN. The formatted address is validated // according to RFC 5322 standards. If the provided address is invalid, an error will be returned. // This method internally calls RequestMDNAddTo to handle the actual addition of the recipient. // // Parameters: // - name: The name of the recipient to add to the "Disposition-Notification-To" header. // - addr: The email address of the recipient to add to the "Disposition-Notification-To" header. // // References: // - https://datatracker.ietf.org/doc/html/rfc8098 func (m *Msg) RequestMDNAddToFormat(name, addr string) error { return m.RequestMDNAddTo(fmt.Sprintf(`"%s" <%s>`, name, addr)) } // GetSender returns the currently set envelope "FROM" address for the Msg. If no envelope // "FROM" address is set, it will use the first "FROM" address from the mail body. If the // useFullAddr parameter is true, it will return the full address string, including the name // if it is set. // // If neither the envelope "FROM" nor the body "FROM" addresses are available, it will return // an error indicating that no "FROM" address is present. // // Parameters: // - useFullAddr: A boolean indicating whether to return the full address string (including // the name) or just the email address. // // Returns: // - The sender's address as a string and an error if applicable. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.2 func (m *Msg) GetSender(useFullAddr bool) (string, error) { from, ok := m.addrHeader[HeaderEnvelopeFrom] if !ok || len(from) == 0 { from, ok = m.addrHeader[HeaderFrom] if !ok || len(from) == 0 { return "", ErrNoFromAddress } } if useFullAddr { return from[0].String(), nil } return from[0].Address, nil } // GetRecipients returns a list of the currently set "TO", "CC", and "BCC" addresses for the Msg. // // This method aggregates recipients from the "TO", "CC", and "BCC" headers and returns them as a // slice of strings. If no recipients are found in these headers, it will return an error indicating // that no recipient addresses are present. // // Returns: // - A slice of strings containing the recipients' addresses and an error if applicable. // - If there are no recipient addresses set, it will return an error indicating no recipient // addresses are available. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.3 func (m *Msg) GetRecipients() ([]string, error) { var rcpts []string for _, addressType := range []AddrHeader{HeaderTo, HeaderCc, HeaderBcc} { addresses, ok := m.addrHeader[addressType] if !ok || len(addresses) == 0 { continue } for _, r := range addresses { rcpts = append(rcpts, r.Address) } } if len(rcpts) <= 0 { return rcpts, ErrNoRcptAddresses } return rcpts, nil } // GetAddrHeader returns the content of the requested address header for the Msg. // // This method retrieves the addresses associated with the specified address header. It returns a // slice of pointers to mail.Address structures representing the addresses found in the header. // If the requested header does not exist or contains no addresses, it will return nil. // // Parameters: // - header: The AddrHeader enum value indicating which address header to retrieve (e.g., "TO", // "CC", "BCC", etc.). // // Returns: // - A slice of pointers to mail.Address structures containing the addresses from the specified // header. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6 func (m *Msg) GetAddrHeader(header AddrHeader) []*mail.Address { return m.addrHeader[header] } // GetAddrHeaderString returns the address strings of the requested address header for the Msg. // // This method retrieves the addresses associated with the specified address header and returns them // as a slice of strings. Each address is formatted as a string, which includes both the name (if // available) and the email address. If the requested header does not exist or contains no addresses, // it will return an empty slice. // // Parameters: // - header: The AddrHeader enum value indicating which address header to retrieve (e.g., "TO", // "CC", "BCC", etc.). // // Returns: // - A slice of strings containing the formatted addresses from the specified header. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6 func (m *Msg) GetAddrHeaderString(header AddrHeader) []string { var addresses []string for _, mh := range m.addrHeader[header] { addresses = append(addresses, mh.String()) } return addresses } // GetFrom returns the content of the "From" address header of the Msg. // // This method retrieves the list of email addresses set in the "From" header of the message. // It returns a slice of pointers to `mail.Address` objects representing the sender(s) of the email. // // Returns: // - A slice of `*mail.Address` containing the "From" header addresses. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.2 func (m *Msg) GetFrom() []*mail.Address { return m.GetAddrHeader(HeaderFrom) } // GetFromString returns the content of the "From" address header of the Msg as a string slice. // // This method retrieves the list of email addresses set in the "From" header of the message // and returns them as a slice of strings, with each entry representing a formatted email address. // // Returns: // - A slice of strings containing the "From" header addresses. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.2 func (m *Msg) GetFromString() []string { return m.GetAddrHeaderString(HeaderFrom) } // GetTo returns the content of the "To" address header of the Msg. // // This method retrieves the list of email addresses set in the "To" header of the message. // It returns a slice of pointers to `mail.Address` objects representing the primary recipient(s) of the email. // // Returns: // - A slice of `*mail.Address` containing the "To" header addresses. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.3 func (m *Msg) GetTo() []*mail.Address { return m.GetAddrHeader(HeaderTo) } // GetToString returns the content of the "To" address header of the Msg as a string slice. // // This method retrieves the list of email addresses set in the "To" header of the message // and returns them as a slice of strings, with each entry representing a formatted email address. // // Returns: // - A slice of strings containing the "To" header addresses. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.3 func (m *Msg) GetToString() []string { return m.GetAddrHeaderString(HeaderTo) } // GetCc returns the content of the "Cc" address header of the Msg. // // This method retrieves the list of email addresses set in the "Cc" (carbon copy) header of the message. // It returns a slice of pointers to `mail.Address` objects representing the secondary recipient(s) of the email. // // Returns: // - A slice of `*mail.Address` containing the "Cc" header addresses. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.3 func (m *Msg) GetCc() []*mail.Address { return m.GetAddrHeader(HeaderCc) } // GetCcString returns the content of the "Cc" address header of the Msg as a string slice. // // This method retrieves the list of email addresses set in the "Cc" (carbon copy) header of the message // and returns them as a slice of strings, with each entry representing a formatted email address. // // Returns: // - A slice of strings containing the "Cc" header addresses. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.3 func (m *Msg) GetCcString() []string { return m.GetAddrHeaderString(HeaderCc) } // GetBcc returns the content of the "Bcc" address header of the Msg. // // This method retrieves the list of email addresses set in the "Bcc" (blind carbon copy) header of the message. // It returns a slice of pointers to `mail.Address` objects representing the Bcc recipient(s) of the email. // // Returns: // - A slice of `*mail.Address` containing the "Bcc" header addresses. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.3 func (m *Msg) GetBcc() []*mail.Address { return m.GetAddrHeader(HeaderBcc) } // GetBccString returns the content of the "Bcc" address header of the Msg as a string slice. // // This method retrieves the list of email addresses set in the "Bcc" (blind carbon copy) header of the message // and returns them as a slice of strings, with each entry representing a formatted email address. // // Returns: // - A slice of strings containing the "Bcc" header addresses. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.3 func (m *Msg) GetBccString() []string { return m.GetAddrHeaderString(HeaderBcc) } // GetGenHeader returns the content of the requested generic header of the Msg. // // This method retrieves the list of string values associated with the specified generic header of the message. // It returns a slice of strings representing the header's values. // // Parameters: // - header: The Header field whose values are being retrieved. // // Returns: // - A slice of strings containing the values of the specified generic header. func (m *Msg) GetGenHeader(header Header) []string { return m.genHeader[header] } // GetParts returns the message parts of the Msg. // // This method retrieves the list of parts that make up the email message. Each part may represent // a different section of the email, such as a plain text body, HTML body, or attachments. // // Returns: // - A slice of Part pointers representing the message parts of the email. func (m *Msg) GetParts() []*Part { return m.parts } // GetAttachments returns the attachments of the Msg. // // This method retrieves the list of files that have been attached to the email message. // Each attachment includes details about the file, such as its name, content type, and data. // // Returns: // - A slice of File pointers representing the attachments of the email. func (m *Msg) GetAttachments() []*File { return m.attachments } // GetBoundary returns the boundary of the Msg. // // This method retrieves the MIME boundary that is used to separate different parts of the message, // particularly in multipart emails. The boundary helps to differentiate between various sections // such as plain text, HTML content, and attachments. // // Returns: // - A string representing the boundary of the message. // // References: // - https://datatracker.ietf.org/doc/html/rfc2046#section-5.1.1 func (m *Msg) GetBoundary() string { return m.boundary } // SetAttachments sets the attachments of the message. // // This method allows you to specify the attachments for the message by providing a slice of File pointers. // Each file represents an attachment that will be included in the email. // // Parameters: // - files: A slice of pointers to File structures representing the attachments to set for the message. // // References: // - https://datatracker.ietf.org/doc/html/rfc2183 func (m *Msg) SetAttachments(files []*File) { m.attachments = files } // SetAttachements sets the attachments of the message. // // Deprecated: use SetAttachments instead. func (m *Msg) SetAttachements(files []*File) { m.SetAttachments(files) } // UnsetAllAttachments unsets the attachments of the message. // // This method removes all attachments from the message by setting the attachments to nil, effectively // clearing any previously set attachments. // // References: // - https://datatracker.ietf.org/doc/html/rfc2183 func (m *Msg) UnsetAllAttachments() { m.attachments = nil } // GetEmbeds returns the embedded files of the Msg. // // This method retrieves the list of files that have been embedded in the message. Embeds are typically // images or other media files that are referenced directly in the content of the email, such as inline // images in HTML emails. // // Returns: // - A slice of pointers to File structures representing the embedded files in the message. // // References: // - https://datatracker.ietf.org/doc/html/rfc2183 func (m *Msg) GetEmbeds() []*File { return m.embeds } // SetEmbeds sets the embedded files of the message. // // This method allows you to specify the files to be embedded in the message by providing a slice of File pointers. // Embedded files, such as images or media, are typically used for inline content in HTML emails. // // Parameters: // - files: A slice of pointers to File structures representing the embedded files to set for the message. // // References: // - https://datatracker.ietf.org/doc/html/rfc2183 func (m *Msg) SetEmbeds(files []*File) { m.embeds = files } // UnsetAllEmbeds unsets the embedded files of the message. // // This method removes all embedded files from the message by setting the embeds to nil, effectively // clearing any previously set embedded files. // // References: // - https://datatracker.ietf.org/doc/html/rfc2183 func (m *Msg) UnsetAllEmbeds() { m.embeds = nil } // UnsetAllParts unsets the embeds and attachments of the message. // // This method removes all embedded files and attachments from the message by unsetting both the // embeds and attachments, effectively clearing all previously set message parts. // // References: // - https://datatracker.ietf.org/doc/html/rfc2183 func (m *Msg) UnsetAllParts() { m.UnsetAllAttachments() m.UnsetAllEmbeds() } // SetBodyString sets the body of the message. // // This method sets the body of the message using the provided content type and string content. The body can // be set as plain text, HTML, or other formats based on the specified content type. Optional part settings // can be passed through PartOption to customize the message body further. // // Parameters: // - contentType: The ContentType of the body (e.g., plain text, HTML). // - content: The string content to set as the body of the message. // - opts: Optional parameters for customizing the body part. // // References: // - https://datatracker.ietf.org/doc/html/rfc2045 // - https://datatracker.ietf.org/doc/html/rfc2046 func (m *Msg) SetBodyString(contentType ContentType, content string, opts ...PartOption) { buffer := bytes.NewBufferString(content) writeFunc := writeFuncFromBuffer(buffer) m.SetBodyWriter(contentType, writeFunc, opts...) } // SetBodyWriter sets the body of the message. // // This method sets the body of the message using a write function, allowing content to be written // directly to the body. The content type determines the format (e.g., plain text, HTML). // Optional part settings can be provided via PartOption to customize the body further. // // Parameters: // - contentType: The ContentType of the body (e.g., plain text, HTML). // - writeFunc: A function that writes content to an io.Writer and returns the number of bytes written // and an error, if any. // - opts: Optional parameters for customizing the body part. // // References: // - https://datatracker.ietf.org/doc/html/rfc2045 // - https://datatracker.ietf.org/doc/html/rfc2046 func (m *Msg) SetBodyWriter( contentType ContentType, writeFunc func(io.Writer) (int64, error), opts ...PartOption, ) { p := m.newPart(contentType, opts...) p.writeFunc = writeFunc m.parts = []*Part{p} } // SetBodyHTMLTemplate sets the body of the message from a given html/template.Template pointer. // // This method sets the body of the message using the provided HTML template and data. The content type // will be set to "text/html" automatically. The method executes the template with the provided data // and writes the output to the message body. If the template is nil or fails to execute, an error will // be returned. // // Parameters: // - tpl: A pointer to the html/template.Template to be used for the message body. // - data: The data to populate the template. // - opts: Optional parameters for customizing the body part. // // Returns: // - An error if the template is nil or fails to execute, otherwise nil. // // References: // - https://datatracker.ietf.org/doc/html/rfc2045 // - https://datatracker.ietf.org/doc/html/rfc2046 func (m *Msg) SetBodyHTMLTemplate(tpl *ht.Template, data interface{}, opts ...PartOption) error { if tpl == nil { return errors.New(errTplPointerNil) } buffer := bytes.NewBuffer(nil) if err := tpl.Execute(buffer, data); err != nil { return fmt.Errorf(errTplExecuteFailed, err) } writeFunc := writeFuncFromBuffer(buffer) m.SetBodyWriter(TypeTextHTML, writeFunc, opts...) return nil } // SetBodyTextTemplate sets the body of the message from a given text/template.Template pointer. // // This method sets the body of the message using the provided text template and data. The content type // will be set to "text/plain" automatically. The method executes the template with the provided data // and writes the output to the message body. If the template is nil or fails to execute, an error will // be returned. // // Parameters: // - tpl: A pointer to the text/template.Template to be used for the message body. // - data: The data to populate the template. // - opts: Optional parameters for customizing the body part. // // Returns: // - An error if the template is nil or fails to execute, otherwise nil. // // References: // - https://datatracker.ietf.org/doc/html/rfc2045 // - https://datatracker.ietf.org/doc/html/rfc2046 func (m *Msg) SetBodyTextTemplate(tpl *tt.Template, data interface{}, opts ...PartOption) error { if tpl == nil { return errors.New(errTplPointerNil) } buffer := bytes.NewBuffer(nil) if err := tpl.Execute(buffer, data); err != nil { return fmt.Errorf(errTplExecuteFailed, err) } writeFunc := writeFuncFromBuffer(buffer) m.SetBodyWriter(TypeTextPlain, writeFunc, opts...) return nil } // AddAlternativeString sets the alternative body of the message. // // This method adds an alternative representation of the message body using the specified content type // and string content. This is typically used to provide both plain text and HTML versions of the email. // Optional part settings can be provided via PartOption to further customize the message. // // Parameters: // - contentType: The content type of the alternative body (e.g., plain text, HTML). // - content: The string content to set as the alternative body. // - opts: Optional parameters for customizing the alternative body part. // // References: // - https://datatracker.ietf.org/doc/html/rfc2045 // - https://datatracker.ietf.org/doc/html/rfc2046 func (m *Msg) AddAlternativeString(contentType ContentType, content string, opts ...PartOption) { buffer := bytes.NewBufferString(content) writeFunc := writeFuncFromBuffer(buffer) m.AddAlternativeWriter(contentType, writeFunc, opts...) } // AddAlternativeWriter sets the alternative body of the message. // // This method adds an alternative representation of the message body using a write function, allowing // content to be written directly to the body. This is typically used to provide different formats, such // as plain text and HTML. Optional part settings can be provided via PartOption to customize the message part. // // Parameters: // - contentType: The content type of the alternative body (e.g., plain text, HTML). // - writeFunc: A function that writes content to an io.Writer and returns the number of bytes written and // an error, if any. // - opts: Optional parameters for customizing the alternative body part. // // References: // - https://datatracker.ietf.org/doc/html/rfc2045 // - https://datatracker.ietf.org/doc/html/rfc2046 func (m *Msg) AddAlternativeWriter( contentType ContentType, writeFunc func(io.Writer) (int64, error), opts ...PartOption, ) { part := m.newPart(contentType, opts...) part.writeFunc = writeFunc m.parts = append(m.parts, part) } // AddAlternativeHTMLTemplate sets the alternative body of the message to an html/template.Template output. // // The content type will be set to "text/html" automatically. This method executes the provided HTML template // with the given data and adds the result as an alternative version of the message body. If the template // is nil or fails to execute, an error will be returned. // // Parameters: // - tpl: A pointer to the html/template.Template to be used for the alternative body. // - data: The data to populate the template. // - opts: Optional parameters for customizing the alternative body part. // // Returns: // - An error if the template is nil or fails to execute, otherwise nil. // // References: // - https://datatracker.ietf.org/doc/html/rfc2045 // - https://datatracker.ietf.org/doc/html/rfc2046 func (m *Msg) AddAlternativeHTMLTemplate(tpl *ht.Template, data interface{}, opts ...PartOption) error { if tpl == nil { return errors.New(errTplPointerNil) } buffer := bytes.NewBuffer(nil) if err := tpl.Execute(buffer, data); err != nil { return fmt.Errorf(errTplExecuteFailed, err) } writeFunc := writeFuncFromBuffer(buffer) m.AddAlternativeWriter(TypeTextHTML, writeFunc, opts...) return nil } // AddAlternativeTextTemplate sets the alternative body of the message to a text/template.Template output. // // The content type will be set to "text/plain" automatically. This method executes the provided text template // with the given data and adds the result as an alternative version of the message body. If the template // is nil or fails to execute, an error will be returned. // // Parameters: // - tpl: A pointer to the text/template.Template to be used for the alternative body. // - data: The data to populate the template. // - opts: Optional parameters for customizing the alternative body part. // // Returns: // - An error if the template is nil or fails to execute, otherwise nil. // // References: // - https://datatracker.ietf.org/doc/html/rfc2045 // - https://datatracker.ietf.org/doc/html/rfc2046 func (m *Msg) AddAlternativeTextTemplate(tpl *tt.Template, data interface{}, opts ...PartOption) error { if tpl == nil { return errors.New(errTplPointerNil) } buffer := bytes.NewBuffer(nil) if err := tpl.Execute(buffer, data); err != nil { return fmt.Errorf(errTplExecuteFailed, err) } writeFunc := writeFuncFromBuffer(buffer) m.AddAlternativeWriter(TypeTextPlain, writeFunc, opts...) return nil } // AttachFile adds an attachment File to the Msg. // // This method attaches a file to the message by specifying the file name. The file is retrieved from the // filesystem and added to the list of attachments. Optional FileOption parameters can be provided to customize // the attachment, such as setting its content type or encoding. // // Parameters: // - name: The name of the file to be attached. // - opts: Optional parameters for customizing the attachment. // // References: // - https://datatracker.ietf.org/doc/html/rfc2183 func (m *Msg) AttachFile(name string, opts ...FileOption) { file := fileFromFS(name) if file == nil { return } m.attachments = m.appendFile(m.attachments, file, opts...) } // AttachReader adds an attachment File via io.Reader to the Msg. // // This method allows you to attach a file to the message using an io.Reader. It reads all data from the // io.Reader into memory before attaching the file, which may not be suitable for large data sources. // For larger files, it is recommended to use AttachFile or AttachReadSeeker instead. // // Parameters: // - name: The name of the file to be attached. // - reader: The io.Reader providing the file data to be attached. // - opts: Optional parameters for customizing the attachment. // // Returns: // - An error if the file could not be read from the io.Reader, otherwise nil. // // References: // - https://datatracker.ietf.org/doc/html/rfc2183 func (m *Msg) AttachReader(name string, reader io.Reader, opts ...FileOption) error { file, err := fileFromReader(name, reader) if err != nil { return err } m.attachments = m.appendFile(m.attachments, file, opts...) return nil } // AttachReadSeeker adds an attachment File via io.ReadSeeker to the Msg. // // This method allows you to attach a file to the message using an io.ReadSeeker, which is more efficient // for larger files compared to AttachReader, as it allows for seeking through the data without needing // to load the entire content into memory. // // Parameters: // - name: The name of the file to be attached. // - reader: The io.ReadSeeker providing the file data to be attached. // - opts: Optional parameters for customizing the attachment. // // References: // - https://datatracker.ietf.org/doc/html/rfc2183 func (m *Msg) AttachReadSeeker(name string, reader io.ReadSeeker, opts ...FileOption) { file := fileFromReadSeeker(name, reader) m.attachments = m.appendFile(m.attachments, file, opts...) } // AttachHTMLTemplate adds the output of a html/template.Template pointer as a File attachment to the Msg. // // This method allows you to attach the rendered output of an HTML template as a file to the message. // The template is executed with the provided data, and its output is attached as a file. If the template // fails to execute, an error will be returned. // // Parameters: // - name: The name of the file to be attached. // - tpl: A pointer to the html/template.Template to be executed for the attachment. // - data: The data to populate the template. // - opts: Optional parameters for customizing the attachment. // // Returns: // - An error if the template fails to execute or cannot be attached, otherwise nil. // // References: // - https://datatracker.ietf.org/doc/html/rfc2183 func (m *Msg) AttachHTMLTemplate( name string, tpl *ht.Template, data interface{}, opts ...FileOption, ) error { file, err := fileFromHTMLTemplate(name, tpl, data) if err != nil { return fmt.Errorf("failed to attach template: %w", err) } m.attachments = m.appendFile(m.attachments, file, opts...) return nil } // AttachTextTemplate adds the output of a text/template.Template pointer as a File attachment to the Msg. // // This method allows you to attach the rendered output of a text template as a file to the message. // The template is executed with the provided data, and its output is attached as a file. If the template // fails to execute, an error will be returned. // // Parameters: // - name: The name of the file to be attached. // - tpl: A pointer to the text/template.Template to be executed for the attachment. // - data: The data to populate the template. // - opts: Optional parameters for customizing the attachment. // // Returns: // - An error if the template fails to execute or cannot be attached, otherwise nil. // // References: // - https://datatracker.ietf.org/doc/html/rfc2183 func (m *Msg) AttachTextTemplate( name string, tpl *tt.Template, data interface{}, opts ...FileOption, ) error { file, err := fileFromTextTemplate(name, tpl, data) if err != nil { return fmt.Errorf("failed to attach template: %w", err) } m.attachments = m.appendFile(m.attachments, file, opts...) return nil } // AttachFromEmbedFS adds an attachment File from an embed.FS to the Msg. // // This method allows you to attach a file from an embedded filesystem (embed.FS) to the message. // The file is retrieved from the provided embed.FS and attached to the email. If the embedded filesystem // is nil or the file cannot be retrieved, an error will be returned. // // Parameters: // - name: The name of the file to be attached. // - fs: A pointer to the embed.FS from which the file will be retrieved. // - opts: Optional parameters for customizing the attachment. // // Returns: // - An error if the embed.FS is nil or the file cannot be retrieved, otherwise nil. // // References: // - https://datatracker.ietf.org/doc/html/rfc2183 func (m *Msg) AttachFromEmbedFS(name string, fs *embed.FS, opts ...FileOption) error { if fs == nil { return errors.New("embed.FS must not be nil") } return m.AttachFromIOFS(name, *fs, opts...) } // AttachFromIOFS attaches a file from a generic file system to the message. // // This function retrieves a file by name from an fs.FS instance, processes it, and appends it to the // message's attachment collection. Additional file options can be provided for further customization. // // Parameters: // - name: The name of the file to retrieve from the file system. // - iofs: The file system (must not be nil). // - opts: Optional file options to customize the attachment process. // // Returns: // - An error if the file cannot be retrieved, the fs.FS is nil, or any other issue occurs. func (m *Msg) AttachFromIOFS(name string, iofs fs.FS, opts ...FileOption) error { if iofs == nil { return errors.New("fs.FS must not be nil") } file, err := fileFromIOFS(name, iofs) if err != nil { return err } m.attachments = m.appendFile(m.attachments, file, opts...) return nil } // EmbedFile adds an embedded File to the Msg. // // This method embeds a file from the filesystem directly into the email message. The embedded file, // typically an image or media file, can be referenced within the email's content (such as inline in HTML). // If the file is not found or cannot be loaded, it will not be added. // // Parameters: // - name: The name of the file to be embedded. // - opts: Optional parameters for customizing the embedded file. // // References: // - https://datatracker.ietf.org/doc/html/rfc2183 func (m *Msg) EmbedFile(name string, opts ...FileOption) { file := fileFromFS(name) if file == nil { return } m.embeds = m.appendFile(m.embeds, file, opts...) } // EmbedReader adds an embedded File from an io.Reader to the Msg. // // This method embeds a file into the email message by reading its content from an io.Reader. // It reads all data into memory before embedding the file, which may not be efficient for large data sources. // For larger files, it is recommended to use EmbedFile or EmbedReadSeeker instead. // // Parameters: // - name: The name of the file to be embedded. // - reader: The io.Reader providing the file data to be embedded. // - opts: Optional parameters for customizing the embedded file. // // Returns: // - An error if the file could not be read from the io.Reader, otherwise nil. // // References: // - https://datatracker.ietf.org/doc/html/rfc2183 func (m *Msg) EmbedReader(name string, reader io.Reader, opts ...FileOption) error { file, err := fileFromReader(name, reader) if err != nil { return err } m.embeds = m.appendFile(m.embeds, file, opts...) return nil } // EmbedReadSeeker adds an embedded File from an io.ReadSeeker to the Msg. // // This method embeds a file into the email message by reading its content from an io.ReadSeeker. // Using io.ReadSeeker allows for more efficient handling of large files since it can seek through the data // without loading the entire content into memory. // // Parameters: // - name: The name of the file to be embedded. // - reader: The io.ReadSeeker providing the file data to be embedded. // - opts: Optional parameters for customizing the embedded file. // // References: // - https://datatracker.ietf.org/doc/html/rfc2183 func (m *Msg) EmbedReadSeeker(name string, reader io.ReadSeeker, opts ...FileOption) { file := fileFromReadSeeker(name, reader) m.embeds = m.appendFile(m.embeds, file, opts...) } // EmbedHTMLTemplate adds the output of a html/template.Template pointer as an embedded File to the Msg. // // This method embeds the rendered output of an HTML template into the email message. The template is // executed with the provided data, and its output is embedded as a file. If the template fails to execute, // an error will be returned. // // Parameters: // - name: The name of the embedded file. // - tpl: A pointer to the html/template.Template to be executed for the embedded content. // - data: The data to populate the template. // - opts: Optional parameters for customizing the embedded file. // // Returns: // - An error if the template fails to execute or cannot be embedded, otherwise nil. // // References: // - https://datatracker.ietf.org/doc/html/rfc2183 func (m *Msg) EmbedHTMLTemplate( name string, tpl *ht.Template, data interface{}, opts ...FileOption, ) error { file, err := fileFromHTMLTemplate(name, tpl, data) if err != nil { return fmt.Errorf("failed to embed template: %w", err) } m.embeds = m.appendFile(m.embeds, file, opts...) return nil } // EmbedTextTemplate adds the output of a text/template.Template pointer as an embedded File to the Msg. // // This method embeds the rendered output of a text template into the email message. The template is // executed with the provided data, and its output is embedded as a file. If the template fails to execute, // an error will be returned. // // Parameters: // - name: The name of the embedded file. // - tpl: A pointer to the text/template.Template to be executed for the embedded content. // - data: The data to populate the template. // - opts: Optional parameters for customizing the embedded file. // // Returns: // - An error if the template fails to execute or cannot be embedded, otherwise nil. // // References: // - https://datatracker.ietf.org/doc/html/rfc2183 func (m *Msg) EmbedTextTemplate( name string, tpl *tt.Template, data interface{}, opts ...FileOption, ) error { file, err := fileFromTextTemplate(name, tpl, data) if err != nil { return fmt.Errorf("failed to embed template: %w", err) } m.embeds = m.appendFile(m.embeds, file, opts...) return nil } // EmbedFromEmbedFS adds an embedded File from an embed.FS to the Msg. // // This method embeds a file from an embedded filesystem (embed.FS) into the email message. If the // embedded filesystem is nil or the file cannot be retrieved, an error will be returned. // // Parameters: // - name: The name of the file to be embedded. // - fs: A pointer to the embed.FS from which the file will be retrieved. // - opts: Optional parameters for customizing the embedded file. // // Returns: // - An error if the embed.FS is nil or the file cannot be retrieved, otherwise nil. // // References: // - https://datatracker.ietf.org/doc/html/rfc2183 func (m *Msg) EmbedFromEmbedFS(name string, fs *embed.FS, opts ...FileOption) error { if fs == nil { return errors.New("embed.FS must not be nil") } return m.EmbedFromIOFS(name, *fs, opts...) } // EmbedFromIOFS embeds a file from a generic file system into the message. // // This function retrieves a file by name from an fs.FS instance, processes it, and appends it to the // message's embed collection. Additional file options can be provided for further customization. // // Parameters: // - name: The name of the file to retrieve from the file system. // - iofs: The file system (must not be nil). // - opts: Optional file options to customize the embedding process. // // Returns: // - An error if the file cannot be retrieved, the fs.FS is nil, or any other issue occurs. func (m *Msg) EmbedFromIOFS(name string, iofs fs.FS, opts ...FileOption) error { if iofs == nil { return errors.New("fs.FS must not be nil") } file, err := fileFromIOFS(name, iofs) if err != nil { return err } m.embeds = m.appendFile(m.embeds, file, opts...) return nil } // Reset resets all headers, body parts, attachments, and embeds of the Msg. // // This method clears all address headers, attachments, embeds, generic headers, and body parts of the message. // However, it preserves the existing encoding, charset, boundary, and other message-level settings. // Use this method to reset the message content while keeping certain configurations intact. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322 func (m *Msg) Reset() { m.addrHeader = make(map[AddrHeader][]*mail.Address) m.attachments = nil m.embeds = nil m.genHeader = make(map[Header][]string) m.parts = nil } // ApplyMiddlewares applies the list of middlewares to a Msg. // // This method sequentially applies each middleware function in the list to the message (in FIFO order). // The middleware functions can modify the message, such as adding headers or altering its content. // The message is passed through each middleware in order, and the modified message is returned. // // Parameters: // - msg: The Msg object to which the middlewares will be applied. // // Returns: // - The modified Msg after all middleware functions have been applied. func (m *Msg) applyMiddlewares(msg *Msg) *Msg { for _, middleware := range m.middlewares { msg = middleware.Handle(msg) } return msg } // signMessage sign the Msg with S/MIME func (m *Msg) signMessage(msg *Msg) (*Msg, error) { signedPart := msg.GetParts()[0] body, err := signedPart.GetContent() if err != nil { return nil, err } signaturePart, err := m.createSignaturePart(signedPart.GetEncoding(), signedPart.GetContentType(), signedPart.GetCharset(), body) if err != nil { return nil, err } m.parts = append(m.parts, signaturePart) return m, err } // createSignaturePart creates an additional part that be used for storing the S/MIME signature of the given body func (m *Msg) createSignaturePart(encoding Encoding, contentType ContentType, charSet Charset, body []byte) (*Part, error) { message, err := m.sMime.prepareMessage(encoding, contentType, charSet, body) if err != nil { return nil, err } signedMessage, err := m.sMime.signMessage(*message) if err != nil { return nil, err } signaturePart := m.newPart(typeSMimeSigned, WithPartEncoding(EncodingB64), WithSMimeSinging()) signaturePart.SetContent(*signedMessage) return signaturePart, nil } // WriteTo writes the formatted Msg into the given io.Writer and satisfies the io.WriterTo interface. // // This method writes the email message, including its headers, body, and attachments, to the provided // io.Writer. It applies any middlewares to the message before writing it. The total number of bytes // written and any error encountered during the writing process are returned. // // Parameters: // - writer: The io.Writer to which the formatted message will be written. // // Returns: // - The total number of bytes written. // - An error if any occurred during the writing process, otherwise nil. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322 func (m *Msg) WriteTo(writer io.Writer) (int64, error) { mw := &msgWriter{writer: writer, charset: m.charset, encoder: m.encoder} msg := m.applyMiddlewares(m) if m.hasSMime() { signedMsg, err := m.signMessage(msg) if err != nil { return 0, err } msg = signedMsg } mw.writeMsg(msg) return mw.bytesWritten, mw.err } // WriteToSkipMiddleware writes the formatted Msg into the given io.Writer, but skips the specified // middleware type. // // This method writes the email message to the provided io.Writer after applying all middlewares, // except for the specified middleware type, which will be skipped. It temporarily removes the // middleware of the given type, writes the message, and then restores the original middleware list. // // Parameters: // - writer: The io.Writer to which the formatted message will be written. // - middleWareType: The MiddlewareType that should be skipped during the writing process. // // Returns: // - The total number of bytes written. // - An error if any occurred during the writing process, otherwise nil. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322 func (m *Msg) WriteToSkipMiddleware(writer io.Writer, middleWareType MiddlewareType) (int64, error) { var origMiddlewares, middlewares []Middleware origMiddlewares = m.middlewares for i := range m.middlewares { if m.middlewares[i].Type() == middleWareType { continue } middlewares = append(middlewares, m.middlewares[i]) } m.middlewares = middlewares mw := &msgWriter{writer: writer, charset: m.charset, encoder: m.encoder} mw.writeMsg(m.applyMiddlewares(m)) m.middlewares = origMiddlewares return mw.bytesWritten, mw.err } // Write is an alias method to WriteTo for compatibility reasons. // // This method provides a backward-compatible way to write the formatted Msg to the provided io.Writer // by calling the WriteTo method. It writes the email message, including headers, body, and attachments, // to the io.Writer and returns the number of bytes written and any error encountered. // // Parameters: // - writer: The io.Writer to which the formatted message will be written. // // Returns: // - The total number of bytes written. // - An error if any occurred during the writing process, otherwise nil. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322 func (m *Msg) Write(writer io.Writer) (int64, error) { return m.WriteTo(writer) } // WriteToFile stores the Msg as a file on disk. It will try to create the given filename, // and if the file already exists, it will be overwritten. // // This method writes the email message, including its headers, body, and attachments, to a file on disk. // If the file cannot be created or an error occurs during writing, an error is returned. // // Parameters: // - name: The name of the file to be created or overwritten. // // Returns: // - An error if the file cannot be created or if writing to the file fails, otherwise nil. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322 func (m *Msg) WriteToFile(name string) error { file, err := os.Create(name) if err != nil { return fmt.Errorf("failed to create output file: %w", err) } defer func() { _ = file.Close() }() _, err = m.WriteTo(file) if err != nil { return fmt.Errorf("failed to write to output file: %w", err) } return file.Close() } // WriteToSendmail returns WriteToSendmailWithCommand with a default sendmail path. // // This method sends the email message using the default sendmail path. It calls WriteToSendmailWithCommand // using the standard SendmailPath. If sending via sendmail fails, an error is returned. // // Returns: // - An error if sending the message via sendmail fails, otherwise nil. // // References: // - https://datatracker.ietf.org/doc/html/rfc5321 func (m *Msg) WriteToSendmail() error { return m.WriteToSendmailWithCommand(SendmailPath) } // WriteToSendmailWithCommand returns WriteToSendmailWithContext with a default timeout // of 5 seconds and a given sendmail path. // // This method sends the email message using the provided sendmail path, with a default timeout of 5 seconds. // It creates a context with the specified timeout and then calls WriteToSendmailWithContext to send the message. // // Parameters: // - sendmailPath: The path to the sendmail executable to be used for sending the message. // // Returns: // - An error if sending the message via sendmail fails, otherwise nil. // // References: // - https://datatracker.ietf.org/doc/html/rfc5321 func (m *Msg) WriteToSendmailWithCommand(sendmailPath string) error { ctx, cancel := context.WithTimeout(context.Background(), time.Second*5) defer cancel() return m.WriteToSendmailWithContext(ctx, sendmailPath) } // WriteToSendmailWithContext opens a pipe to the local sendmail binary and tries to send the // email through it. It takes a context.Context, the path to the sendmail binary, and additional // arguments for the sendmail binary as parameters. // // This method establishes a pipe to the sendmail executable using the provided context and arguments. // It writes the email message to the sendmail process via STDIN. If any errors occur during the // communication with the sendmail binary, they will be captured and returned. // // Parameters: // - ctx: The context to control the timeout and cancellation of the sendmail process. // - sendmailPath: The path to the sendmail executable. // - args: Additional arguments for the sendmail binary. // // Returns: // - An error if sending the message via sendmail fails, otherwise nil. // // References: // - https://datatracker.ietf.org/doc/html/rfc5321 func (m *Msg) WriteToSendmailWithContext(ctx context.Context, sendmailPath string, args ...string) error { cmdCtx := exec.CommandContext(ctx, sendmailPath) cmdCtx.Args = append(cmdCtx.Args, "-oi", "-t") cmdCtx.Args = append(cmdCtx.Args, args...) stdErr, err := cmdCtx.StderrPipe() if err != nil { return fmt.Errorf("failed to set STDERR pipe: %w", err) } stdIn, err := cmdCtx.StdinPipe() if err != nil { return fmt.Errorf("failed to set STDIN pipe: %w", err) } if stdErr == nil || stdIn == nil { return fmt.Errorf("received nil for STDERR or STDIN pipe") } // Start the execution and write to STDIN if err = cmdCtx.Start(); err != nil { return fmt.Errorf("could not start sendmail execution: %w", err) } _, err = m.WriteTo(stdIn) if err != nil { if !errors.Is(err, syscall.EPIPE) { return fmt.Errorf("failed to write mail to buffer: %w", err) } } // Close STDIN and wait for completion or cancellation of the sendmail executable if err = stdIn.Close(); err != nil { return fmt.Errorf("failed to close STDIN pipe: %w", err) } // Read the stderr pipe for possible errors sendmailErr, err := io.ReadAll(stdErr) if err != nil { return fmt.Errorf("failed to read STDERR pipe: %w", err) } if len(sendmailErr) > 0 { return fmt.Errorf("sendmail command failed: %s", string(sendmailErr)) } if err = cmdCtx.Wait(); err != nil { return fmt.Errorf("sendmail command execution failed: %w", err) } return nil } // NewReader returns a Reader type that satisfies the io.Reader interface. // // This method creates a new Reader for the Msg, capturing the current state of the message. // Any subsequent changes made to the Msg after creating the Reader will not be reflected in the Reader's buffer. // To reflect these changes in the Reader, you must call Msg.UpdateReader to update the Reader's content with // the current state of the Msg. // // Returns: // - A pointer to a Reader, which allows the Msg to be read as a stream of bytes. // // IMPORTANT: Any changes made to the Msg after creating the Reader will not be reflected in the Reader unless // Msg.UpdateReader is called. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322 func (m *Msg) NewReader() *Reader { reader := &Reader{} buffer := bytes.NewBuffer(nil) _, err := m.Write(buffer) if err != nil { reader.err = fmt.Errorf("failed to write Msg to Reader buffer: %w", err) } reader.buffer = buffer.Bytes() return reader } // UpdateReader updates a Reader with the current content of the Msg and resets the // Reader's position to the start. // // This method rewrites the content of the provided Reader to reflect any changes made to the Msg. // It resets the Reader's position to the beginning and updates the buffer with the latest message content. // // Parameters: // - reader: A pointer to the Reader that will be updated with the Msg's current content. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322 func (m *Msg) UpdateReader(reader *Reader) { buffer := bytes.Buffer{} _, err := m.Write(&buffer) reader.Reset() reader.buffer = buffer.Bytes() reader.err = err } // HasSendError returns true if the Msg experienced an error during message delivery // and the sendError field of the Msg is not nil. // // This method checks whether the message has encountered a delivery error by verifying if the // sendError field is populated. // // Returns: // - A boolean value indicating whether a send error occurred (true if an error is present). func (m *Msg) HasSendError() bool { return m.sendError != nil } // SendErrorIsTemp returns true if the Msg experienced a delivery error, and the corresponding // error was of a temporary nature, meaning it can be retried later. // // This method checks whether the encountered sendError is a temporary error that can be retried. // It uses the errors.As function to determine if the error is of type SendError and checks if // the error is marked as temporary. // // Returns: // - A boolean value indicating whether the send error is temporary (true if the error is temporary). func (m *Msg) SendErrorIsTemp() bool { var err *SendError if errors.As(m.sendError, &err) && err != nil { return err.isTemp } return false } // SendError returns the sendError field of the Msg. // // This method retrieves the error that occurred during the message delivery process, if any. // It returns the sendError field, which holds the error encountered during sending. // // Returns: // - The error encountered during message delivery, or nil if no error occurred. func (m *Msg) SendError() error { return m.sendError } // addAddr adds an additional address to the given addrHeader of the Msg. // // This method appends an email address to the specified address header (such as "To", "Cc", or "Bcc") // without overwriting existing addresses. It first collects the current addresses in the header, then // adds the new address and updates the header. // // Parameters: // - header: The AddrHeader (e.g., HeaderTo, HeaderCc) to which the address will be added. // - addr: The email address to add to the specified header. // // Returns: // - An error if the address cannot be added, otherwise nil. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322 func (m *Msg) addAddr(header AddrHeader, addr string) error { var addresses []string for _, address := range m.addrHeader[header] { addresses = append(addresses, address.String()) } addresses = append(addresses, addr) return m.SetAddrHeader(header, addresses...) } // appendFile adds a File to the Msg, either as an attachment or an embed. // // This method appends a File to the list of files (attachments or embeds) for the message. It applies // optional FileOption functions to customize the file properties before adding it. If no files are // already present, a new list is created. // // Parameters: // - files: The current list of files (either attachments or embeds). // - file: The File to be added. // - opts: Optional FileOption functions to customize the file. // // Returns: // - A slice of File pointers representing the updated list of files. // // References: // - https://datatracker.ietf.org/doc/html/rfc2183 func (m *Msg) appendFile(files []*File, file *File, opts ...FileOption) []*File { // Override defaults with optionally provided FileOption functions for _, opt := range opts { if opt == nil { continue } opt(file) } if files == nil { return []*File{file} } return append(files, file) } // encodeString encodes a string based on the configured message encoder and the corresponding // charset for the Msg. // // This method encodes the provided string using the message's charset and encoder settings. // The encoding ensures that the string is properly formatted according to the message's // character encoding (e.g., UTF-8, ISO-8859-1). // // Parameters: // - str: The string to be encoded. // // Returns: // - The encoded string based on the message's charset and encoder. // // References: // - https://datatracker.ietf.org/doc/html/rfc2047 func (m *Msg) encodeString(str string) string { return m.encoder.Encode(string(m.charset), str) } // hasAlt returns true if the Msg has more than one part. // // This method checks whether the message contains more than one part, indicating that // the message has alternative content (e.g., both plain text and HTML parts). It ignores // any parts marked as deleted and returns true only if more than one valid part exists // and no PGP type is set. // // Returns: // - A boolean value indicating whether the message has multiple parts (true if more than one part exists). // // References: // - https://datatracker.ietf.org/doc/html/rfc2046 func (m *Msg) hasAlt() bool { count := 0 for _, part := range m.parts { if !part.isDeleted { count++ } } return count > 1 && m.pgptype == 0 && !m.hasSMime() } // hasMixed returns true if the Msg has mixed parts. // // This method checks whether the message contains mixed content, such as attachments along with // message parts (e.g., text or HTML). A message is considered to have mixed parts if there are both // attachments and message parts, or if there are multiple attachments. // // Returns: // - A boolean value indicating whether the message has mixed parts. // // References: // - https://datatracker.ietf.org/doc/html/rfc2046#section-5.1.3 func (m *Msg) hasMixed() bool { return m.pgptype == 0 && ((len(m.parts) > 0 && len(m.attachments) > 0) || len(m.attachments) > 1) } // hasSMime returns true if the Msg has should be signed with S/MIME func (m *Msg) hasSMime() bool { return m.sMime != nil } // hasRelated returns true if the Msg has related parts. // // This method checks whether the message contains related parts, such as inline embedded files // (e.g., images) that are referenced within the message body. A message is considered to have // related parts if there are both message parts and embedded files, or if there are multiple embedded files. // // Returns: // - A boolean value indicating whether the message has related parts. // // References: // - https://datatracker.ietf.org/doc/html/rfc2387 func (m *Msg) hasRelated() bool { return m.pgptype == 0 && ((len(m.parts) > 0 && len(m.embeds) > 0) || len(m.embeds) > 1) } // hasPGPType returns true if the Msg should be treated as a PGP-encoded message. // // This method checks whether the message is configured to be treated as a PGP-encoded message by examining // the pgptype field. If the PGP type is set to a value greater than 0, the message is considered PGP-encoded. // // Returns: // - A boolean value indicating whether the message is PGP-encoded. // // References: // - https://datatracker.ietf.org/doc/html/rfc4880 func (m *Msg) hasPGPType() bool { return m.pgptype > 0 } // newPart returns a new Part for the Msg. // // This method creates a new Part for the message with the specified content type, // using the message's current charset and encoding settings. Optional PartOption // functions can be applied to customize the Part further. // // Parameters: // - contentType: The content type for the new Part (e.g., text/plain, text/html). // - opts: Optional PartOption functions to customize the Part. // // Returns: // - A pointer to the newly created Part structure. // // References: // - https://datatracker.ietf.org/doc/html/rfc2045 // - https://datatracker.ietf.org/doc/html/rfc2046 func (m *Msg) newPart(contentType ContentType, opts ...PartOption) *Part { p := &Part{ contentType: contentType, charset: m.charset, encoding: m.encoding, } // Override defaults with optionally provided MsgOption functions for _, opt := range opts { if opt == nil { continue } opt(p) } return p } // setEncoder creates a new mime.WordEncoder based on the encoding setting of the message. // // This method sets the message's encoder by creating a new mime.WordEncoder that matches the // current encoding setting (e.g., quoted-printable or base64). The encoder is used to encode // message headers and body content appropriately. // // References: // - https://datatracker.ietf.org/doc/html/rfc2047 func (m *Msg) setEncoder() { m.encoder = getEncoder(m.encoding) } // checkUserAgent checks if a User-Agent or X-Mailer header is set, and if not, sets a default version string. // // This method ensures that the message includes a User-Agent and X-Mailer header, unless the noDefaultUserAgent // flag is set. If neither of these headers is present, a default User-Agent string with the current library // version is added. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.7 func (m *Msg) checkUserAgent() { if m.noDefaultUserAgent { return } _, uaok := m.genHeader[HeaderUserAgent] _, xmok := m.genHeader[HeaderXMailer] if !uaok && !xmok { m.SetUserAgent(fmt.Sprintf("go-mail v%s // https://github.com/wneessen/go-mail", VERSION)) } } // addDefaultHeader sets default headers if they haven't been set before. // // This method ensures that essential headers such as "Date", "Message-ID", and "MIME-Version" are set // in the message. If these headers are not already present, they will be set to default values. // The "Date" and "Message-ID" headers are generated, and the "MIME-Version" is set to the message's current setting. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.1 (Date) // - https://datatracker.ietf.org/doc/html/rfc5322#section-3.6.4 (Message-ID) // - https://datatracker.ietf.org/doc/html/rfc2045#section-4 (MIME-Version) func (m *Msg) addDefaultHeader() { if _, ok := m.genHeader[HeaderDate]; !ok { m.SetDate() } if _, ok := m.genHeader[HeaderMessageID]; !ok { m.SetMessageID() } m.SetGenHeader(HeaderMIMEVersion, string(m.mimever)) } // fileFromIOFS returns a File pointer from a given file in the provided fs.FS. // // This method retrieves a file from the provided io/fs (fs.FS) and returns a File structure // that can be used as an attachment or embed in the email message. The file's content is read when // writing to an io.Writer, and the file is identified by its base name. // // Parameters: // - name: The name of the file to retrieve from the embedded filesystem. // - fs: An instance that satisfies the fs.FS interface // // Returns: // - A pointer to the File structure representing the embedded file. // - An error if the file cannot be opened or read from the embedded filesystem. // // References: // - https://datatracker.ietf.org/doc/html/rfc2183 func fileFromIOFS(name string, iofs fs.FS) (*File, error) { if iofs == nil { return nil, errors.New("fs.FS is nil") } _, err := iofs.Open(name) if err != nil { return nil, fmt.Errorf("failed to open file from fs.FS: %w", err) } return &File{ Name: filepath.Base(name), Header: make(map[string][]string), Writer: func(writer io.Writer) (int64, error) { file, ferr := iofs.Open(name) if ferr != nil { return 0, fmt.Errorf("failed to open file from fs.FS: %w", ferr) } numBytes, ferr := io.Copy(writer, file) if ferr != nil { _ = file.Close() return numBytes, fmt.Errorf("failed to copy file from fs.FS to io.Writer: %w", ferr) } return numBytes, file.Close() }, }, nil } // fileFromFS returns a File pointer from a given file in the system's file system. // // This method retrieves a file from the system's file system and returns a File structure // that can be used as an attachment or embed in the email message. The file is identified // by its base name, and its content is read when writing to an io.Writer. // // Parameters: // - name: The name of the file to retrieve from the system's file system. // // Returns: // - A pointer to the File structure representing the file from the system's file system. // - Nil if the file does not exist or cannot be accessed. // // References: // - https://datatracker.ietf.org/doc/html/rfc2183 func fileFromFS(name string) *File { _, err := os.Stat(name) if err != nil { return nil } return &File{ Name: filepath.Base(name), Header: make(map[string][]string), Writer: func(writer io.Writer) (int64, error) { file, err := os.Open(name) if err != nil { return 0, err } numBytes, err := io.Copy(writer, file) if err != nil { _ = file.Close() return numBytes, fmt.Errorf("failed to copy file to io.Writer: %w", err) } return numBytes, file.Close() }, } } // fileFromReader returns a File pointer from a given io.Reader. // // This method reads all data from the provided io.Reader and creates a File structure // that can be used as an attachment or embed in the email message. The file's content // is stored in memory and written to an io.Writer when needed. // // Parameters: // - name: The name of the file to be represented by the reader's content. // - reader: The io.Reader from which the file content will be read. // // Returns: // - A pointer to the File structure representing the content of the io.Reader. // - An error if the content cannot be read from the io.Reader. // // References: // - https://datatracker.ietf.org/doc/html/rfc2183 func fileFromReader(name string, reader io.Reader) (*File, error) { d, err := io.ReadAll(reader) if err != nil { return &File{}, err } byteReader := bytes.NewReader(d) return &File{ Name: name, Header: make(map[string][]string), Writer: func(writer io.Writer) (int64, error) { readBytes, copyErr := io.Copy(writer, byteReader) if copyErr != nil { return readBytes, copyErr } _, copyErr = byteReader.Seek(0, io.SeekStart) return readBytes, copyErr }, }, nil } // fileFromReadSeeker returns a File pointer from a given io.ReadSeeker. // // This method creates a File structure from an io.ReadSeeker, allowing efficient handling of file content // by seeking and reading from the source without fully loading it into memory. The content is written // to an io.Writer when needed, and the reader's position is reset to the start after writing. // // Parameters: // - name: The name of the file to be represented by the io.ReadSeeker. // - reader: The io.ReadSeeker from which the file content will be read. // // Returns: // - A pointer to the File structure representing the content of the io.ReadSeeker. // // References: // - https://datatracker.ietf.org/doc/html/rfc2183 func fileFromReadSeeker(name string, reader io.ReadSeeker) *File { return &File{ Name: name, Header: make(map[string][]string), Writer: func(writer io.Writer) (int64, error) { readBytes, err := io.Copy(writer, reader) if err != nil { return readBytes, err } _, err = reader.Seek(0, io.SeekStart) return readBytes, err }, } } // fileFromHTMLTemplate returns a File pointer from a given html/template.Template. // // This method executes the provided HTML template with the given data and creates a File structure // representing the output. The rendered template content is stored in a buffer and then processed // as a file attachment or embed. // // Parameters: // - name: The name of the file to be created from the template output. // - tpl: A pointer to the html/template.Template to be executed. // - data: The data to populate the template. // // Returns: // - A pointer to the File structure representing the rendered template. // - An error if the template is nil or if it fails to execute. // // References: // - https://datatracker.ietf.org/doc/html/rfc2183 func fileFromHTMLTemplate(name string, tpl *ht.Template, data interface{}) (*File, error) { if tpl == nil { return nil, errors.New(errTplPointerNil) } buffer := bytes.Buffer{} if err := tpl.Execute(&buffer, data); err != nil { return nil, fmt.Errorf(errTplExecuteFailed, err) } return fileFromReader(name, &buffer) } // fileFromTextTemplate returns a File pointer from a given text/template.Template. // // This method executes the provided text template with the given data and creates a File structure // representing the output. The rendered template content is stored in a buffer and then processed // as a file attachment or embed. // // Parameters: // - name: The name of the file to be created from the template output. // - tpl: A pointer to the text/template.Template to be executed. // - data: The data to populate the template. // // Returns: // - A pointer to the File structure representing the rendered template. // - An error if the template is nil or if it fails to execute. // // References: // - https://datatracker.ietf.org/doc/html/rfc2183 func fileFromTextTemplate(name string, tpl *tt.Template, data interface{}) (*File, error) { if tpl == nil { return nil, errors.New(errTplPointerNil) } buffer := bytes.Buffer{} if err := tpl.Execute(&buffer, data); err != nil { return nil, fmt.Errorf(errTplExecuteFailed, err) } return fileFromReader(name, &buffer) } // getEncoder creates a new mime.WordEncoder based on the encoding setting of the message. // // This function returns a mime.WordEncoder based on the specified encoding (e.g., quoted-printable or base64). // The encoder is used for encoding message headers and body content according to the chosen encoding standard. // // Parameters: // - enc: The Encoding type for the message (e.g., EncodingQP for quoted-printable or EncodingB64 for base64). // // Returns: // - A mime.WordEncoder based on the encoding setting. // // References: // - https://datatracker.ietf.org/doc/html/rfc2047 func getEncoder(enc Encoding) mime.WordEncoder { switch enc { case EncodingQP: return mime.QEncoding case EncodingB64: return mime.BEncoding default: return mime.QEncoding } } // writeFuncFromBuffer converts a byte buffer into a writeFunc, which is commonly required by go-mail. // // This function wraps a byte buffer into a write function that can be used to write the buffer's content // to an io.Writer. It returns a function that writes the buffer's content to the given writer and returns // the number of bytes written and any error that occurred during writing. // // Parameters: // - buffer: A pointer to the bytes.Buffer containing the data to be written. // // Returns: // - A function that writes the buffer's content to an io.Writer, returning the number of bytes written // and any error encountered during the write operation. // // References: // - https://datatracker.ietf.org/doc/html/rfc5322 func writeFuncFromBuffer(buffer *bytes.Buffer) func(io.Writer) (int64, error) { writeFunc := func(w io.Writer) (int64, error) { numBytes, err := w.Write(buffer.Bytes()) return int64(numBytes), err } return writeFunc }