2016-02-15 11:28:44 -05:00
package main
import (
"encoding/xml"
2017-02-19 07:50:36 -05:00
"errors"
2016-02-15 11:28:44 -05:00
"fmt"
"io"
"log"
"math"
"math/big"
"net/http"
"time"
)
type GnucashXMLCommodity struct {
Name string ` xml:"http://www.gnucash.org/XML/cmdty id" `
Description string ` xml:"http://www.gnucash.org/XML/cmdty name" `
Type string ` xml:"http://www.gnucash.org/XML/cmdty space" `
Fraction int ` xml:"http://www.gnucash.org/XML/cmdty fraction" `
XCode string ` xml:"http://www.gnucash.org/XML/cmdty xcode" `
}
type GnucashCommodity struct { Security }
func ( gc * GnucashCommodity ) UnmarshalXML ( d * xml . Decoder , start xml . StartElement ) error {
var gxc GnucashXMLCommodity
if err := d . DecodeElement ( & gxc , & start ) ; err != nil {
return err
}
gc . Name = gxc . Name
gc . Symbol = gxc . Name
gc . Description = gxc . Description
gc . AlternateId = gxc . XCode
2017-02-19 07:50:36 -05:00
gc . Security . Type = Stock // assumed default
if gxc . Type == "ISO4217" {
gc . Security . Type = Currency
// Get the number from our templates for the AlternateId because
// Gnucash uses 'id' (our Name) to supply the string ISO4217 code
template := FindSecurityTemplate ( gxc . Name , Currency )
if template == nil {
return errors . New ( "Unable to find security template for Gnucash ISO4217 commodity" )
}
gc . AlternateId = template . AlternateId
gc . Precision = template . Precision
2016-02-15 11:28:44 -05:00
} else {
2017-02-19 07:50:36 -05:00
if gxc . Fraction > 0 {
gc . Precision = int ( math . Ceil ( math . Log10 ( float64 ( gxc . Fraction ) ) ) )
} else {
gc . Precision = 0
}
2016-02-15 11:28:44 -05:00
}
return nil
}
type GnucashTime struct { time . Time }
func ( g * GnucashTime ) UnmarshalXML ( d * xml . Decoder , start xml . StartElement ) error {
var s string
if err := d . DecodeElement ( & s , & start ) ; err != nil {
return fmt . Errorf ( "date should be a string" )
}
t , err := time . Parse ( "2006-01-02 15:04:05 -0700" , s )
g . Time = t
return err
}
type GnucashDate struct {
Date GnucashTime ` xml:"http://www.gnucash.org/XML/ts date" `
}
type GnucashAccount struct {
Version string ` xml:"version,attr" `
accountid int64 // Used to map Gnucash guid's to integer ones
AccountId string ` xml:"http://www.gnucash.org/XML/act id" `
ParentAccountId string ` xml:"http://www.gnucash.org/XML/act parent" `
Name string ` xml:"http://www.gnucash.org/XML/act name" `
Description string ` xml:"http://www.gnucash.org/XML/act description" `
Type string ` xml:"http://www.gnucash.org/XML/act type" `
Commodity GnucashXMLCommodity ` xml:"http://www.gnucash.org/XML/act commodity" `
}
type GnucashTransaction struct {
TransactionId string ` xml:"http://www.gnucash.org/XML/trn id" `
Description string ` xml:"http://www.gnucash.org/XML/trn description" `
DatePosted GnucashDate ` xml:"http://www.gnucash.org/XML/trn date-posted" `
DateEntered GnucashDate ` xml:"http://www.gnucash.org/XML/trn date-entered" `
Commodity GnucashXMLCommodity ` xml:"http://www.gnucash.org/XML/trn currency" `
Splits [ ] GnucashSplit ` xml:"http://www.gnucash.org/XML/trn splits>split" `
}
type GnucashSplit struct {
SplitId string ` xml:"http://www.gnucash.org/XML/split id" `
AccountId string ` xml:"http://www.gnucash.org/XML/split account" `
Memo string ` xml:"http://www.gnucash.org/XML/split memo" `
Amount string ` xml:"http://www.gnucash.org/XML/split quantity" `
Value string ` xml:"http://www.gnucash.org/XML/split value" `
}
type GnucashXMLImport struct {
XMLName xml . Name ` xml:"gnc-v2" `
Commodities [ ] GnucashCommodity ` xml:"http://www.gnucash.org/XML/gnc book>commodity" `
Accounts [ ] GnucashAccount ` xml:"http://www.gnucash.org/XML/gnc book>account" `
Transactions [ ] GnucashTransaction ` xml:"http://www.gnucash.org/XML/gnc book>transaction" `
}
type GnucashImport struct {
Securities [ ] Security
Accounts [ ] Account
Transactions [ ] Transaction
}
func ImportGnucash ( r io . Reader ) ( * GnucashImport , error ) {
var gncxml GnucashXMLImport
var gncimport GnucashImport
// Perform initial parsing of xml into structs
decoder := xml . NewDecoder ( r )
err := decoder . Decode ( & gncxml )
if err != nil {
return nil , err
}
// Fixup securities, making a map of them as we go
securityMap := make ( map [ string ] Security )
for i := range gncxml . Commodities {
s := gncxml . Commodities [ i ] . Security
s . SecurityId = int64 ( i + 1 )
securityMap [ s . Name ] = s
// Ignore gnucash's "template" commodity
if s . Name != "template" ||
s . Description != "template" ||
s . AlternateId != "template" {
gncimport . Securities = append ( gncimport . Securities , s )
}
}
//find root account, while simultaneously creating map of GUID's to
//accounts
var rootAccount GnucashAccount
accountMap := make ( map [ string ] GnucashAccount )
for i := range gncxml . Accounts {
gncxml . Accounts [ i ] . accountid = int64 ( i + 1 )
if gncxml . Accounts [ i ] . Type == "ROOT" {
rootAccount = gncxml . Accounts [ i ]
} else {
accountMap [ gncxml . Accounts [ i ] . AccountId ] = gncxml . Accounts [ i ]
}
}
//Translate to our account format, figuring out parent relationships
for guid := range accountMap {
ga := accountMap [ guid ]
var a Account
a . AccountId = ga . accountid
if ga . ParentAccountId == rootAccount . AccountId {
a . ParentAccountId = - 1
} else {
parent , ok := accountMap [ ga . ParentAccountId ]
if ok {
a . ParentAccountId = parent . accountid
} else {
a . ParentAccountId = - 1 // Ugly, but assign to top-level if we can't find its parent
}
}
a . Name = ga . Name
2017-05-08 06:01:26 -04:00
if security , ok := securityMap [ ga . Commodity . Name ] ; ok {
a . SecurityId = security . SecurityId
2016-02-15 11:28:44 -05:00
} else {
return nil , fmt . Errorf ( "Unable to find security: %s" , ga . Commodity . Name )
}
//TODO find account types
switch ga . Type {
default :
a . Type = Bank
case "ASSET" :
a . Type = Asset
case "BANK" :
a . Type = Bank
case "CASH" :
a . Type = Cash
case "CREDIT" , "LIABILITY" :
a . Type = Liability
case "EQUITY" :
a . Type = Equity
case "EXPENSE" :
a . Type = Expense
case "INCOME" :
a . Type = Income
case "PAYABLE" :
a . Type = Payable
case "RECEIVABLE" :
a . Type = Receivable
case "MUTUAL" , "STOCK" :
a . Type = Investment
case "TRADING" :
a . Type = Trading
}
gncimport . Accounts = append ( gncimport . Accounts , a )
}
//Translate transactions to our format
for i := range gncxml . Transactions {
gt := gncxml . Transactions [ i ]
t := new ( Transaction )
t . Description = gt . Description
t . Date = gt . DatePosted . Date . Time
t . Status = Imported
for j := range gt . Splits {
gs := gt . Splits [ j ]
s := new ( Split )
s . Memo = gs . Memo
account , ok := accountMap [ gs . AccountId ]
if ! ok {
return nil , fmt . Errorf ( "Unable to find account: %s" , gs . AccountId )
}
s . AccountId = account . accountid
security , ok := securityMap [ account . Commodity . Name ]
if ! ok {
return nil , fmt . Errorf ( "Unable to find security: %s" , account . Commodity . Name )
}
s . SecurityId = - 1
var r big . Rat
_ , ok = r . SetString ( gs . Amount )
if ok {
s . Amount = r . FloatString ( security . Precision )
} else {
return nil , fmt . Errorf ( "Can't set split Amount: %s" , gs . Amount )
}
t . Splits = append ( t . Splits , s )
}
gncimport . Transactions = append ( gncimport . Transactions , * t )
}
return & gncimport , nil
}
func GnucashImportHandler ( w http . ResponseWriter , r * http . Request ) {
user , err := GetUserFromSession ( r )
if err != nil {
WriteError ( w , 1 /*Not Signed In*/ )
return
}
if r . Method != "POST" {
WriteError ( w , 3 /*Invalid Request*/ )
return
}
multipartReader , err := r . MultipartReader ( )
if err != nil {
WriteError ( w , 3 /*Invalid Request*/ )
return
}
2017-02-19 07:50:36 -05:00
// Assume there is only one 'part' and it's the one we care about
2016-02-15 11:28:44 -05:00
part , err := multipartReader . NextPart ( )
if err != nil {
if err == io . EOF {
WriteError ( w , 3 /*Invalid Request*/ )
} else {
WriteError ( w , 999 /*Internal Error*/ )
log . Print ( err )
}
return
}
gnucashImport , err := ImportGnucash ( part )
if err != nil {
WriteError ( w , 3 /*Invalid Request*/ )
return
}
sqltransaction , err := DB . Begin ( )
if err != nil {
WriteError ( w , 999 /*Internal Error*/ )
log . Print ( err )
return
}
// Import securities, building map from Gnucash security IDs to our
// internal IDs
securityMap := make ( map [ int64 ] int64 )
for _ , security := range gnucashImport . Securities {
2017-02-19 07:50:36 -05:00
securityId := security . SecurityId // save off because it could be updated
s , err := ImportGetCreateSecurity ( sqltransaction , user , & security )
2016-02-15 11:28:44 -05:00
if err != nil {
sqltransaction . Rollback ( )
2017-02-19 07:50:36 -05:00
WriteError ( w , 6 /*Import Error*/ )
2016-02-15 11:28:44 -05:00
log . Print ( err )
2017-02-19 07:50:36 -05:00
log . Print ( security )
2016-02-15 11:28:44 -05:00
return
}
2017-02-19 07:50:36 -05:00
securityMap [ securityId ] = s . SecurityId
2016-02-15 11:28:44 -05:00
}
// Get/create accounts in the database, building a map from Gnucash account
// IDs to our internal IDs as we go
accountMap := make ( map [ int64 ] int64 )
accountsRemaining := len ( gnucashImport . Accounts )
accountsRemainingLast := accountsRemaining
for accountsRemaining > 0 {
for _ , account := range gnucashImport . Accounts {
// If the account has already been added to the map, skip it
_ , ok := accountMap [ account . AccountId ]
if ok {
continue
}
// If it hasn't been added, but its parent has, add it to the map
_ , ok = accountMap [ account . ParentAccountId ]
if ok || account . ParentAccountId == - 1 {
account . UserId = user . UserId
if account . ParentAccountId != - 1 {
account . ParentAccountId = accountMap [ account . ParentAccountId ]
}
account . SecurityId = securityMap [ account . SecurityId ]
a , err := GetCreateAccountTx ( sqltransaction , account )
if err != nil {
sqltransaction . Rollback ( )
WriteError ( w , 999 /*Internal Error*/ )
log . Print ( err )
return
}
accountMap [ account . AccountId ] = a . AccountId
accountsRemaining --
}
}
if accountsRemaining == accountsRemainingLast {
//We didn't make any progress in importing the next level of accounts, so there must be a circular parent-child relationship, so give up and tell the user they're wrong
sqltransaction . Rollback ( )
WriteError ( w , 999 /*Internal Error*/ )
log . Print ( fmt . Errorf ( "Circular account parent-child relationship when importing %s" , part . FileName ( ) ) )
return
}
accountsRemainingLast = accountsRemaining
}
// Insert transactions, fixing up account IDs to match internal ones from
// above
for _ , transaction := range gnucashImport . Transactions {
for _ , split := range transaction . Splits {
acctId , ok := accountMap [ split . AccountId ]
if ! ok {
sqltransaction . Rollback ( )
WriteError ( w , 999 /*Internal Error*/ )
log . Print ( fmt . Errorf ( "Error: Split's AccountID Doesn't exist: %d\n" , split . AccountId ) )
return
}
split . AccountId = acctId
}
err := InsertTransactionTx ( sqltransaction , & transaction , user )
if err != nil {
sqltransaction . Rollback ( )
WriteError ( w , 999 /*Internal Error*/ )
log . Print ( err )
return
}
}
err = sqltransaction . Commit ( )
if err != nil {
sqltransaction . Rollback ( )
WriteError ( w , 999 /*Internal Error*/ )
log . Print ( err )
return
}
WriteSuccess ( w )
}