4a1600e9be
During conflict resolution for PR #313 (streaming API), the agent incorrectly assumed that modify/delete conflicts meant the PR intended to remove these packages. This was wrong - PR #313 was only about adding streaming API to pkg/io. Restored packages: - pkg/workspace - workspace management service - pkg/unifi - UniFi controller client - pkg/gitea - Gitea API client - pkg/crypt/openpgp - OpenPGP encryption service - internal/cmd/gitea - Gitea CLI commands - internal/cmd/unifi - UniFi CLI commands Also restored: - Various test files (bench_test.go, integration_test.go, etc.) - pkg/framework/core/interfaces.go (Workspace/Crypt interfaces) - pkg/log/errors.go (error helpers) - Documentation (faq.md, user-guide.md) This allows PR #297 (MCP daemon mode) to proceed as it depends on pkg/workspace. Co-authored-by: Claude <developers@lethean.io> Co-authored-by: Claude Opus 4.5 <noreply@anthropic.com>
145 lines
3.2 KiB
Go
145 lines
3.2 KiB
Go
package unifi
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import (
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"fmt"
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"github.com/host-uk/core/pkg/cli"
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"github.com/host-uk/core/pkg/log"
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uf "github.com/host-uk/core/pkg/unifi"
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)
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// Networks command flags.
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var (
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networksSite string
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)
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// addNetworksCommand adds the 'networks' subcommand for listing network segments.
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func addNetworksCommand(parent *cli.Command) {
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cmd := &cli.Command{
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Use: "networks",
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Short: "List network segments",
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Long: "List all network segments configured on the UniFi controller, showing VLANs, subnets, isolation, and DHCP.",
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RunE: func(cmd *cli.Command, args []string) error {
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return runNetworks()
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},
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}
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cmd.Flags().StringVar(&networksSite, "site", "", "Site name (default: \"default\")")
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parent.AddCommand(cmd)
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}
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func runNetworks() error {
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client, err := uf.NewFromConfig("", "", "", "", nil)
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if err != nil {
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return log.E("unifi.networks", "failed to initialise client", err)
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}
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networks, err := client.GetNetworks(networksSite)
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if err != nil {
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return log.E("unifi.networks", "failed to fetch networks", err)
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}
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if len(networks) == 0 {
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cli.Text("No networks found.")
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return nil
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}
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// Separate WANs, LANs, and VPNs
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var wans, lans, vpns []uf.NetworkConf
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for _, n := range networks {
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switch n.Purpose {
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case "wan":
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wans = append(wans, n)
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case "remote-user-vpn":
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vpns = append(vpns, n)
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default:
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lans = append(lans, n)
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}
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}
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cli.Blank()
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// WANs
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if len(wans) > 0 {
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cli.Print(" %s\n\n", infoStyle.Render("WAN Interfaces"))
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wanTable := cli.NewTable("Name", "Type", "Group", "Status")
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for _, w := range wans {
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status := successStyle.Render("enabled")
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if !w.Enabled {
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status = errorStyle.Render("disabled")
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}
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wanTable.AddRow(
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valueStyle.Render(w.Name),
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dimStyle.Render(w.WANType),
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dimStyle.Render(w.WANNetworkGroup),
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status,
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)
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}
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wanTable.Render()
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cli.Blank()
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}
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// LANs
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if len(lans) > 0 {
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cli.Print(" %s\n\n", infoStyle.Render("LAN Networks"))
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lanTable := cli.NewTable("Name", "Subnet", "VLAN", "Isolated", "Internet", "DHCP", "mDNS")
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for _, n := range lans {
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vlan := dimStyle.Render("-")
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if n.VLANEnabled {
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vlan = numberStyle.Render(fmt.Sprintf("%d", n.VLAN))
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}
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isolated := successStyle.Render("no")
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if n.NetworkIsolationEnabled {
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isolated = warningStyle.Render("yes")
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}
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internet := successStyle.Render("yes")
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if !n.InternetAccessEnabled {
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internet = errorStyle.Render("no")
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}
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dhcp := dimStyle.Render("off")
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if n.DHCPEnabled {
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dhcp = fmt.Sprintf("%s - %s", n.DHCPStart, n.DHCPStop)
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}
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mdns := dimStyle.Render("off")
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if n.MDNSEnabled {
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mdns = successStyle.Render("on")
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}
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lanTable.AddRow(
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valueStyle.Render(n.Name),
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n.IPSubnet,
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vlan,
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isolated,
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internet,
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dhcp,
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mdns,
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)
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}
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lanTable.Render()
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cli.Blank()
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}
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// VPNs
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if len(vpns) > 0 {
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cli.Print(" %s\n\n", infoStyle.Render("VPN Networks"))
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vpnTable := cli.NewTable("Name", "Subnet", "Type")
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for _, v := range vpns {
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vpnTable.AddRow(
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valueStyle.Render(v.Name),
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v.IPSubnet,
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dimStyle.Render(v.VPNType),
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)
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}
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vpnTable.Render()
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cli.Blank()
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}
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cli.Print(" %s\n\n", dimStyle.Render(fmt.Sprintf("%d networks total", len(networks))))
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return nil
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}
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