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mirror of https://github.com/aclindsa/moneygo.git synced 2024-11-13 02:30:05 -05:00
moneygo/gnucash.go

391 lines
11 KiB
Go

package main
import (
"encoding/xml"
"errors"
"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
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
} else {
if gxc.Fraction > 0 {
gc.Precision = int(math.Ceil(math.Log10(float64(gxc.Fraction))))
} else {
gc.Precision = 0
}
}
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"`
Status string `xml:"http://www.gnucash.org/XML/split reconciled-state"`
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
if security, ok := securityMap[ga.Commodity.Name]; ok {
a.SecurityId = security.SecurityId
} 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
for j := range gt.Splits {
gs := gt.Splits[j]
s := new(Split)
s.Memo = gs.Memo
switch gs.Status {
default: // 'n', or not present
s.Status = Imported
case "c":
s.Status = Cleared
case "y":
s.Status = Reconciled
}
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
}
// Assume there is only one 'part' and it's the one we care about
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 {
securityId := security.SecurityId // save off because it could be updated
s, err := ImportGetCreateSecurity(sqltransaction, user.UserId, &security)
if err != nil {
sqltransaction.Rollback()
WriteError(w, 6 /*Import Error*/)
log.Print(err)
log.Print(security)
return
}
securityMap[securityId] = s.SecurityId
}
// 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)
}