/* * Copyright Fen Systems Ltd. 2007. Portions of this code are derived * from IBM Corporation Sample Programs. Copyright IBM Corporation * 2004, 2007. All rights reserved. * * Permission is hereby granted, free of charge, to any person * obtaining a copy of this software and associated documentation * files (the "Software"), to deal in the Software without * restriction, including without limitation the rights to use, copy, * modify, merge, publish, distribute, sublicense, and/or sell copies * of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be * included in all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND * NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS * BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN * ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN * CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. * */ FILE_LICENCE ( BSD2 ); #include #include #include #include #include #include #include #include #include #include #include #include #include #include /** @file * * iSCSI boot firmware table * * The information in this file is derived from the document "iSCSI * Boot Firmware Table (iBFT)" as published by IBM at * * ftp://ftp.software.ibm.com/systems/support/system_x_pdf/ibm_iscsi_boot_firmware_table_v1.02.pdf * */ /** * An iBFT created by iPXE * */ struct ipxe_ibft { /** The fixed section */ struct ibft_table table; /** The Initiator section */ struct ibft_initiator initiator __attribute__ (( aligned ( 16 ) )); /** The NIC section */ struct ibft_nic nic __attribute__ (( aligned ( 16 ) )); /** The Target section */ struct ibft_target target __attribute__ (( aligned ( 16 ) )); /** Strings block */ char strings[0]; } __attribute__ (( packed, aligned ( 16 ) )); /** * iSCSI string block descriptor * * This is an internal structure that we use to keep track of the * allocation of string data. */ struct ibft_strings { /** The iBFT containing these strings */ struct ibft_table *table; /** Offset of first free byte within iBFT */ size_t offset; /** Total length of the iBFT */ size_t len; }; /** * Fill in an IP address field within iBFT * * @v ipaddr IP address field * @v in IPv4 address */ static void ibft_set_ipaddr ( struct ibft_ipaddr *ipaddr, struct in_addr in ) { memset ( ipaddr, 0, sizeof ( *ipaddr ) ); if ( in.s_addr ) { ipaddr->in = in; ipaddr->ones = 0xffff; } } /** * Fill in an IP address within iBFT from configuration setting * * @v settings Parent settings block, or NULL * @v ipaddr IP address field * @v setting Configuration setting * @v count Maximum number of IP addresses */ static void ibft_set_ipaddr_setting ( struct settings *settings, struct ibft_ipaddr *ipaddr, const struct setting *setting, unsigned int count ) { struct in_addr in[count]; unsigned int i; fetch_ipv4_array_setting ( settings, setting, in, count ); for ( i = 0 ; i < count ; i++ ) { ibft_set_ipaddr ( &ipaddr[i], in[i] ); } } /** * Read IP address from iBFT (for debugging) * * @v strings iBFT string block descriptor * @v string String field * @ret ipaddr IP address string */ static const char * ibft_ipaddr ( struct ibft_ipaddr *ipaddr ) { return inet_ntoa ( ipaddr->in ); } /** * Allocate a string within iBFT * * @v strings iBFT string block descriptor * @v string String field to fill in * @v len Length of string to allocate (excluding NUL) * @ret dest String destination, or NULL */ static char * ibft_alloc_string ( struct ibft_strings *strings, struct ibft_string *string, size_t len ) { if ( ( strings->offset + len ) >= strings->len ) return NULL; string->offset = cpu_to_le16 ( strings->offset ); string->len = cpu_to_le16 ( len ); strings->offset += ( len + 1 ); return ( ( ( char * ) strings->table ) + string->offset ); } /** * Fill in a string field within iBFT * * @v strings iBFT string block descriptor * @v string String field * @v data String to fill in, or NULL * @ret rc Return status code */ static int ibft_set_string ( struct ibft_strings *strings, struct ibft_string *string, const char *data ) { char *dest; if ( ! data ) return 0; dest = ibft_alloc_string ( strings, string, strlen ( data ) ); if ( ! dest ) return -ENOBUFS; strcpy ( dest, data ); return 0; } /** * Fill in a string field within iBFT from configuration setting * * @v settings Parent settings block, or NULL * @v strings iBFT string block descriptor * @v string String field * @v setting Configuration setting * @ret rc Return status code */ static int ibft_set_string_setting ( struct settings *settings, struct ibft_strings *strings, struct ibft_string *string, const struct setting *setting ) { struct settings *origin; struct setting fetched; int len; char *dest; len = fetch_setting ( settings, setting, &origin, &fetched, NULL, 0 ); if ( len < 0 ) { string->offset = 0; string->len = 0; return 0; } dest = ibft_alloc_string ( strings, string, len ); if ( ! dest ) return -ENOBUFS; fetch_string_setting ( origin, &fetched, dest, ( len + 1 )); return 0; } /** * Read string from iBFT (for debugging) * * @v strings iBFT string block descriptor * @v string String field * @ret data String content (or "") */ static const char * ibft_string ( struct ibft_strings *strings, struct ibft_string *string ) { return ( string->offset ? ( ( ( char * ) strings->table ) + string->offset ) : NULL ); } /** * Fill in NIC portion of iBFT * * @v nic NIC portion of iBFT * @v strings iBFT string block descriptor * @v netdev Network device * @ret rc Return status code */ static int ibft_fill_nic ( struct ibft_nic *nic, struct ibft_strings *strings, struct net_device *netdev ) { struct ll_protocol *ll_protocol = netdev->ll_protocol; struct in_addr netmask_addr = { 0 }; unsigned int netmask_count = 0; struct settings *parent = netdev_settings ( netdev ); struct settings *origin; int rc; /* Fill in common header */ nic->header.structure_id = IBFT_STRUCTURE_ID_NIC; nic->header.version = 1; nic->header.length = cpu_to_le16 ( sizeof ( *nic ) ); nic->header.flags = ( IBFT_FL_NIC_BLOCK_VALID | IBFT_FL_NIC_FIRMWARE_BOOT_SELECTED ); /* Determine origin of IP address */ fetch_setting ( parent, &ip_setting, &origin, NULL, NULL, 0 ); nic->origin = ( ( origin == parent ) ? IBFT_NIC_ORIGIN_MANUAL : IBFT_NIC_ORIGIN_DHCP ); DBG ( "iBFT NIC origin = %d\n", nic->origin ); /* Extract values from configuration settings */ ibft_set_ipaddr_setting ( parent, &nic->ip_address, &ip_setting, 1 ); DBG ( "iBFT NIC IP = %s\n", ibft_ipaddr ( &nic->ip_address ) ); ibft_set_ipaddr_setting ( parent, &nic->gateway, &gateway_setting, 1 ); DBG ( "iBFT NIC gateway = %s\n", ibft_ipaddr ( &nic->gateway ) ); ibft_set_ipaddr_setting ( NULL, &nic->dns[0], &dns_setting, ( sizeof ( nic->dns ) / sizeof ( nic->dns[0] ) ) ); ibft_set_ipaddr_setting ( parent, &nic->dhcp, &dhcp_server_setting, 1 ); DBG ( "iBFT NIC DNS = %s", ibft_ipaddr ( &nic->dns[0] ) ); DBG ( ", %s\n", ibft_ipaddr ( &nic->dns[1] ) ); if ( ( rc = ibft_set_string_setting ( NULL, strings, &nic->hostname, &hostname_setting ) ) != 0 ) return rc; DBG ( "iBFT NIC hostname = %s\n", ibft_string ( strings, &nic->hostname ) ); /* Derive subnet mask prefix from subnet mask */ fetch_ipv4_setting ( parent, &netmask_setting, &netmask_addr ); while ( netmask_addr.s_addr ) { if ( netmask_addr.s_addr & 0x1 ) netmask_count++; netmask_addr.s_addr >>= 1; } nic->subnet_mask_prefix = netmask_count; DBG ( "iBFT NIC subnet = /%d\n", nic->subnet_mask_prefix ); /* Extract values from net-device configuration */ nic->vlan = cpu_to_le16 ( vlan_tag ( netdev ) ); DBG ( "iBFT NIC VLAN = %02x\n", le16_to_cpu ( nic->vlan ) ); if ( ( rc = ll_protocol->eth_addr ( netdev->ll_addr, nic->mac_address ) ) != 0 ) { DBG ( "Could not determine iBFT MAC: %s\n", strerror ( rc ) ); return rc; } DBG ( "iBFT NIC MAC = %s\n", eth_ntoa ( nic->mac_address ) ); nic->pci_bus_dev_func = cpu_to_le16 ( netdev->dev->desc.location ); DBG ( "iBFT NIC PCI = %04x\n", le16_to_cpu ( nic->pci_bus_dev_func ) ); return 0; } /** * Fill in Initiator portion of iBFT * * @v initiator Initiator portion of iBFT * @v strings iBFT string block descriptor * @v iscsi iSCSI session * @ret rc Return status code */ static int ibft_fill_initiator ( struct ibft_initiator *initiator, struct ibft_strings *strings, struct iscsi_session *iscsi ) { int rc; /* Fill in common header */ initiator->header.structure_id = IBFT_STRUCTURE_ID_INITIATOR; initiator->header.version = 1; initiator->header.length = cpu_to_le16 ( sizeof ( *initiator ) ); initiator->header.flags = ( IBFT_FL_INITIATOR_BLOCK_VALID | IBFT_FL_INITIATOR_FIRMWARE_BOOT_SELECTED ); /* Fill in hostname */ if ( ( rc = ibft_set_string ( strings, &initiator->initiator_name, iscsi->initiator_iqn ) ) != 0 ) return rc; DBG ( "iBFT initiator hostname = %s\n", ibft_string ( strings, &initiator->initiator_name ) ); return 0; } /** * Fill in Target CHAP portion of iBFT * * @v target Target portion of iBFT * @v strings iBFT string block descriptor * @v iscsi iSCSI session * @ret rc Return status code */ static int ibft_fill_target_chap ( struct ibft_target *target, struct ibft_strings *strings, struct iscsi_session *iscsi ) { int rc; if ( ! ( iscsi->status & ISCSI_STATUS_AUTH_FORWARD_REQUIRED ) ) return 0; assert ( iscsi->initiator_username ); assert ( iscsi->initiator_password ); target->chap_type = IBFT_CHAP_ONE_WAY; if ( ( rc = ibft_set_string ( strings, &target->chap_name, iscsi->initiator_username ) ) != 0 ) return rc; DBG ( "iBFT target username = %s\n", ibft_string ( strings, &target->chap_name ) ); if ( ( rc = ibft_set_string ( strings, &target->chap_secret, iscsi->initiator_password ) ) != 0 ) return rc; DBG ( "iBFT target password = \n" ); return 0; } /** * Fill in Target Reverse CHAP portion of iBFT * * @v target Target portion of iBFT * @v strings iBFT string block descriptor * @v iscsi iSCSI session * @ret rc Return status code */ static int ibft_fill_target_reverse_chap ( struct ibft_target *target, struct ibft_strings *strings, struct iscsi_session *iscsi ) { int rc; if ( ! ( iscsi->status & ISCSI_STATUS_AUTH_REVERSE_REQUIRED ) ) return 0; assert ( iscsi->initiator_username ); assert ( iscsi->initiator_password ); assert ( iscsi->target_username ); assert ( iscsi->target_password ); target->chap_type = IBFT_CHAP_MUTUAL; if ( ( rc = ibft_set_string ( strings, &target->reverse_chap_name, iscsi->target_username ) ) != 0 ) return rc; DBG ( "iBFT target reverse username = %s\n", ibft_string ( strings, &target->chap_name ) ); if ( ( rc = ibft_set_string ( strings, &target->reverse_chap_secret, iscsi->target_password ) ) != 0 ) return rc; DBG ( "iBFT target reverse password = \n" ); return 0; } /** * Fill in Target portion of iBFT * * @v target Target portion of iBFT * @v strings iBFT string block descriptor * @v iscsi iSCSI session * @ret rc Return status code */ static int ibft_fill_target ( struct ibft_target *target, struct ibft_strings *strings, struct iscsi_session *iscsi ) { struct sockaddr_in *sin_target = ( struct sockaddr_in * ) &iscsi->target_sockaddr; int rc; /* Fill in common header */ target->header.structure_id = IBFT_STRUCTURE_ID_TARGET; target->header.version = 1; target->header.length = cpu_to_le16 ( sizeof ( *target ) ); target->header.flags = ( IBFT_FL_TARGET_BLOCK_VALID | IBFT_FL_TARGET_FIRMWARE_BOOT_SELECTED ); /* Fill in Target values */ ibft_set_ipaddr ( &target->ip_address, sin_target->sin_addr ); DBG ( "iBFT target IP = %s\n", ibft_ipaddr ( &target->ip_address ) ); target->socket = cpu_to_le16 ( ntohs ( sin_target->sin_port ) ); DBG ( "iBFT target port = %d\n", target->socket ); memcpy ( &target->boot_lun, &iscsi->lun, sizeof ( target->boot_lun ) ); DBG ( "iBFT target boot LUN = " SCSI_LUN_FORMAT "\n", SCSI_LUN_DATA ( target->boot_lun ) ); if ( ( rc = ibft_set_string ( strings, &target->target_name, iscsi->target_iqn ) ) != 0 ) return rc; DBG ( "iBFT target name = %s\n", ibft_string ( strings, &target->target_name ) ); if ( ( rc = ibft_fill_target_chap ( target, strings, iscsi ) ) != 0 ) return rc; if ( ( rc = ibft_fill_target_reverse_chap ( target, strings, iscsi ) ) != 0 ) return rc; return 0; } /** * Fill in iBFT * * @v iscsi iSCSI session * @v acpi ACPI table * @v len Length of ACPI table * @ret rc Return status code */ int ibft_describe ( struct iscsi_session *iscsi, struct acpi_description_header *acpi, size_t len ) { struct ipxe_ibft *ibft = container_of ( acpi, struct ipxe_ibft, table.acpi ); struct ibft_strings strings = { .table = &ibft->table, .offset = offsetof ( typeof ( *ibft ), strings ), .len = len, }; struct net_device *netdev; int rc; /* Ugly hack. Now that we have a generic interface mechanism * that can support ioctls, we can potentially eliminate this. */ netdev = last_opened_netdev(); if ( ! netdev ) { DBGC ( iscsi, "iSCSI %p cannot guess network device\n", iscsi ); return -ENODEV; } /* Fill in ACPI header */ ibft->table.acpi.signature = cpu_to_le32 ( IBFT_SIG ); ibft->table.acpi.length = cpu_to_le32 ( len ); ibft->table.acpi.revision = 1; /* Fill in Control block */ ibft->table.control.header.structure_id = IBFT_STRUCTURE_ID_CONTROL; ibft->table.control.header.version = 1; ibft->table.control.header.length = cpu_to_le16 ( sizeof ( ibft->table.control ) ); ibft->table.control.initiator = cpu_to_le16 ( offsetof ( typeof ( *ibft ), initiator ) ); ibft->table.control.nic_0 = cpu_to_le16 ( offsetof ( typeof ( *ibft ), nic ) ); ibft->table.control.target_0 = cpu_to_le16 ( offsetof ( typeof ( *ibft ), target ) ); /* Fill in NIC, Initiator and Target blocks */ if ( ( rc = ibft_fill_nic ( &ibft->nic, &strings, netdev ) ) != 0 ) return rc; if ( ( rc = ibft_fill_initiator ( &ibft->initiator, &strings, iscsi ) ) != 0 ) return rc; if ( ( rc = ibft_fill_target ( &ibft->target, &strings, iscsi ) ) != 0 ) return rc; return 0; }