GoToSocial/vendor/github.com/leodido/go-urn/machine.go.rl

package urn

import (
    "fmt"

    scimschema "github.com/leodido/go-urn/scim/schema"
)

var (
    errPrefix              = "expecting the prefix to be the \"urn\" string (whatever case) [col %d]"
    errIdentifier          = "expecting the identifier to be string (1..31 alnum chars, also containing dashes but not at its beginning) [col %d]"
    errSpecificString      = "expecting the specific string to be a string containing alnum, hex, or others ([()+,-.:=@;$_!*']) chars [col %d]"
    errNoUrnWithinID       = "expecting the identifier to not contain the \"urn\" reserved string [col %d]"
    errHex                 = "expecting the percent encoded chars to be well-formed (%%alnum{2}) [col %d]"
    errSCIMNamespace       = "expecing the SCIM namespace identifier (ietf:params:scim) [col %d]"
    errSCIMType            = "expecting a correct SCIM type (schemas, api, param) [col %d]"
    errSCIMName            = "expecting one or more alnum char in the SCIM name part [col %d]"
    errSCIMOther           = "expecting a well-formed other SCIM part [col %d]"
    errSCIMOtherIncomplete = "expecting a not empty SCIM other part after colon [col %d]"
    err8141InformalID      = "informal URN namespace must be in the form urn-[1-9][0-9] [col %d]"
    err8141SpecificString  = "expecting the specific string to contain alnum, hex, or others ([~&()+,-.:=@;$_!*'] or [/?] not in first position) chars [col %d]"
    err8141Identifier      = "expecting the indentifier to be a string with (length 2 to 32 chars) containing alnum (or dashes) not starting or ending with a dash [col %d]"
    err8141RComponentStart = "expecting only one r-component (starting with the ?+ sequence) [col %d]"
    err8141QComponentStart = "expecting only one q-component (starting with the ?= sequence) [col %d]"
    err8141MalformedRComp  = "expecting a non-empty r-component containing alnum, hex, or others ([~&()+,-.:=@;$_!*'] or [/?] but not at its beginning) [col %d]"
    err8141MalformedQComp  = "expecting a non-empty q-component containing alnum, hex, or others ([~&()+,-.:=@;$_!*'] or [/?] but not at its beginning) [col %d]"
)

%%{
machine urn;

# unsigned alphabet
alphtype uint8;

action mark {
    m.pb = m.p
}

action tolower {
    // List of positions in the buffer to later lowercase
    output.tolower = append(output.tolower, m.p - m.pb)
}

action set_pre {
    output.prefix = string(m.text())
}

action throw_pre_urn_err {
    if m.parsingMode != RFC8141Only {
        // Throw an error when:
        // - we are entering here matching the the prefix in the namespace identifier part
        // - looking ahead (3 chars) we find a colon
        if pos := m.p + 3; pos < m.pe && m.data[pos] == 58 && output.prefix != "" {
            m.err = fmt.Errorf(errNoUrnWithinID, pos)
            fhold;
            fgoto fail;
        }
    }
}

action set_nid {
    output.ID = string(m.text())
}

action set_nss {
    output.SS = string(m.text())
    // Iterate upper letters lowering them
    for _, i := range output.tolower {
        m.data[m.pb+i] = m.data[m.pb+i] + 32
    }
    output.norm = string(m.text())
    // Revert the buffer to the original
    for _, i := range output.tolower {
        m.data[m.pb+i] = m.data[m.pb+i] - 32
    }
}

action err_pre {
    m.err = fmt.Errorf(errPrefix, m.p)
    fhold;
    fgoto fail;
}

action err_nid {
    m.err = fmt.Errorf(errIdentifier, m.p)
    fhold;
    fgoto fail;
}

action err_nss {
    m.err = fmt.Errorf(errSpecificString, m.p)
    fhold;
    fgoto fail;
}

action err_urn {
    m.err = fmt.Errorf(errNoUrnWithinID, m.p)
    fhold;
    fgoto fail;
}

action err_hex {
    if m.parsingMode == RFC2141Only || m.parsingMode == RFC8141Only {
        m.err = fmt.Errorf(errHex, m.p)
        fhold;
        fgoto fail;
    }
}

action base_type {
    output.kind = RFC2141;
}

pre = ([uU] @err(err_pre) [rR] @err(err_pre) [nN] @err(err_pre)) >mark >throw_pre_urn_err %set_pre;

nid = (alnum >mark (alnum | '-'){0,31}) $err(err_nid) %set_nid;

hex = '%' (digit | lower | upper >tolower){2} $err(err_hex);

sss = (alnum | [()+,\-.:=@;$_!*']);

nss = (sss | hex)+ $err(err_nss);

nid_not_urn = (nid - pre %err(err_urn));

urn = pre ':' @err(err_pre) (nid_not_urn ':' nss >mark %set_nss) %eof(base_type);

### SCIM BEG

action err_scim_nid {
    m.err = fmt.Errorf(errSCIMNamespace, m.p)
    fhold;
    fgoto fail;
}

action err_scim_type {
    m.err = fmt.Errorf(errSCIMType, m.p)
    fhold;
    fgoto fail;
}

action err_scim_name {
    m.err = fmt.Errorf(errSCIMName, m.p)
    fhold;
    fgoto fail;
}

action err_scim_other {
    if m.p == m.pe {
        m.err = fmt.Errorf(errSCIMOtherIncomplete, m.p-1)
    } else {
        m.err = fmt.Errorf(errSCIMOther, m.p)
    }
    fhold;
    fgoto fail;
}

action scim_type {
    output.kind = RFC7643;
}

action create_scim {
    output.scim = &SCIM{};
}

action set_scim_type {
    output.scim.Type = scimschema.TypeFromString(string(m.text()))
}

action mark_scim_name {
    output.scim.pos = m.p
}

action set_scim_name {
    output.scim.Name = string(m.data[output.scim.pos:m.p])
}

action mark_scim_other {
    output.scim.pos = m.p
}

action set_scim_other {
    output.scim.Other = string(m.data[output.scim.pos:m.p])
}

scim_nid = 'ietf:params:scim' >mark %set_nid %create_scim $err(err_scim_nid);

scim_other = ':' (sss | hex)+ >mark_scim_other %set_scim_other $err(err_scim_other);

scim_name = (alnum)+ >mark_scim_name %set_scim_name $err(err_scim_name);

scim_type = ('schemas' | 'api' | 'param') >mark %set_scim_type $err(err_scim_type);

scim_only := pre ':' @err(err_pre) (scim_nid ':' scim_type ':' scim_name scim_other? %set_nss) %eof(scim_type);

### SCIM END

### 8141 BEG

action err_nss_8141 {
    m.err = fmt.Errorf(err8141SpecificString, m.p)
    fhold;
    fgoto fail;
}

action err_nid_8141 {
    m.err = fmt.Errorf(err8141Identifier, m.p)
    fhold;
    fgoto fail;
}

action rfc8141_type {
    output.kind = RFC8141;
}

action set_r_component {
    output.rComponent = string(m.text())
}

action set_q_component {
    output.qComponent = string(m.text())
}

action set_f_component {
    output.fComponent = string(m.text())
}

action informal_nid_match {
    fhold;
    m.err = fmt.Errorf(err8141InformalID, m.p);
    fgoto fail;
}

action mark_r_start {
    if output.rStart {
        m.err = fmt.Errorf(err8141RComponentStart, m.p)
        fhold;
        fgoto fail;
    }
    output.rStart = true
}

action mark_q_start {
    if output.qStart {
        m.err = fmt.Errorf(err8141QComponentStart, m.p)
        fhold;
        fgoto fail;
    }
    output.qStart = true
}

action err_malformed_r_component {
    m.err = fmt.Errorf(err8141MalformedRComp, m.p)
    fhold;
    fgoto fail;
}

action err_malformed_q_component {
    m.err = fmt.Errorf(err8141MalformedQComp, m.p)
    fhold;
    fgoto fail;
}

pchar = (sss | '~' | '&' | hex);

component = pchar (pchar | '/' | '?')*;

r_start = ('?+') %mark_r_start;

r_component = r_start <: (r_start | component)+ $err(err_malformed_r_component) >mark %set_r_component;

q_start = ('?=') %mark_q_start;

q_component = q_start <: (q_start | component)+ $err(err_malformed_q_component) >mark %set_q_component;

rq_components = (r_component :>> q_component? | q_component);

fragment = (pchar | '/' | '?')*;

f_component = '#' fragment >mark %set_f_component;

nss_rfc8141 = (pchar >mark (pchar | '/')*) $err(err_nss_8141) %set_nss;

nid_rfc8141 = (alnum >mark (alnum | '-'){0,30} alnum) $err(err_nid_8141) %set_nid;

informal_id = pre ('-' [a-zA-z0] %to(informal_nid_match));

nid_rfc8141_not_urn = (nid_rfc8141 - informal_id?);

rfc8141_only := pre ':' @err(err_pre) nid_rfc8141_not_urn ':' nss_rfc8141 rq_components? f_component? %eof(rfc8141_type);

### 8141 END

fail := (any - [\n\r])* @err{ fgoto main; };

main := urn;

}%%

%% write data noerror noprefix;

// Machine is the interface representing the FSM
type Machine interface {
    Error() error
    Parse(input []byte) (*URN, error)
    WithParsingMode(ParsingMode)
}

type machine struct {
    data              []byte
    cs                int
    p, pe, eof, pb    int
    err               error
    startParsingAt    int
    parsingMode       ParsingMode
    parsingModeSet    bool
}

// NewMachine creates a new FSM able to parse RFC 2141 strings.
func NewMachine(options ...Option) Machine {
    m := &machine{
        parsingModeSet: false,
    }

    for _, o := range options {
        o(m)
    }
    // Set default parsing mode
    if !m.parsingModeSet {
        m.WithParsingMode(DefaultParsingMode)
    }

    %% access m.;
    %% variable p m.p;
    %% variable pe m.pe;
    %% variable eof m.eof;
    %% variable data m.data;

    return m
}

// Err returns the error that occurred on the last call to Parse.
//
// If the result is nil, then the line was parsed successfully.
func (m *machine) Error() error {
    return m.err
}

func (m *machine) text() []byte {
    return m.data[m.pb:m.p]
}

// Parse parses the input byte array as a RFC 2141 or RFC7643 string.
func (m *machine) Parse(input []byte) (*URN, error) {
    m.data = input
    m.p = 0
    m.pb = 0
    m.pe = len(input)
    m.eof = len(input)
    m.err = nil
    m.cs = m.startParsingAt
    output := &URN{
        tolower: []int{},
    }

    %% write exec;

    if m.cs < first_final || m.cs == en_fail {
        return nil, m.err
    }

    return output, nil
}

func (m *machine) WithParsingMode(x ParsingMode) {
    m.parsingMode = x
    switch m.parsingMode {
        case RFC2141Only:
            m.startParsingAt = en_main
        case RFC8141Only:
            m.startParsingAt = en_rfc8141_only
        case RFC7643Only:
            m.startParsingAt = en_scim_only
    }
    m.parsingModeSet = true
}