pc-bios/s390-ccw/netmain.c - qemu - Git at Google

 /*
  * S390 virtio-ccw network boot loading program
  *
  * Copyright 2017 Thomas Huth, Red Hat Inc.
  *
  * Based on the S390 virtio-ccw loading program (main.c)
  * Copyright (c) 2013 Alexander Graf <agraf@suse.de>
  *
  * And based on the network loading code from SLOF (netload.c)
  * Copyright (c) 2004, 2008 IBM Corporation
  *
  * This code is free software; you can redistribute it and/or modify it
  * under the terms of the GNU General Public License as published by the
  * Free Software Foundation; either version 2 of the License, or (at your
  * option) any later version.
  */

 #include <stdint.h>
 #include <stdbool.h>
 #include <stdio.h>
 #include <stdlib.h>
 #include <string.h>
 #include <unistd.h>

 #include <tftp.h>
 #include <ethernet.h>
 #include <dhcp.h>
 #include <dhcpv6.h>
 #include <ipv4.h>
 #include <ipv6.h>
 #include <dns.h>
 #include <time.h>

 #include "s390-ccw.h"
 #include "virtio.h"

 #define DEFAULT_BOOT_RETRIES 10
 #define DEFAULT_TFTP_RETRIES 20

 extern char _start[];

 #define KERNEL_ADDR             ((void *)0L)
 #define KERNEL_MAX_SIZE         ((long)_start)

 char stack[PAGE_SIZE * 8] __attribute__((aligned(PAGE_SIZE)));
 IplParameterBlock iplb __attribute__((aligned(PAGE_SIZE)));
 static char cfgbuf[2048];

 static SubChannelId net_schid = { .one = 1 };
 static int ip_version = 4;
 static uint64_t dest_timer;

 static uint64_t get_timer_ms(void)
 {
     uint64_t clk;

     asm volatile(" stck %0 " : : "Q"(clk) : "memory");

     /* Bit 51 is incremented each microsecond */
     return (clk >> (63 - 51)) / 1000;
 }

 void set_timer(int val)
 {
     dest_timer = get_timer_ms() + val;
 }

 int get_timer(void)
 {
     return dest_timer - get_timer_ms();
 }

 int get_sec_ticks(void)
 {
     return 1000;    /* number of ticks in 1 second */
 }

 /**
  * Obtain IP and configuration info from DHCP server (either IPv4 or IPv6).
  * @param  fn_ip     contains the following configuration information:
  *                   client MAC, client IP, TFTP-server MAC, TFTP-server IP,
  *                   boot file name
  * @param  retries   Number of DHCP attempts
  * @return           0 : IP and configuration info obtained;
  *                   non-0 : error condition occurred.
  */
 static int dhcp(struct filename_ip *fn_ip, int retries)
 {
     int i = retries + 1;
     int rc = -1;

     printf("  Requesting information via DHCP:     ");

     dhcpv4_generate_transaction_id();
     dhcpv6_generate_transaction_id();

     do {
         printf("\b\b\b%03d", i - 1);
         if (!--i) {
             printf("\nGiving up after %d DHCP requests\n", retries);
             return -1;
         }
         ip_version = 4;
         rc = dhcpv4(NULL, fn_ip);
         if (rc == -1) {
             ip_version = 6;
             set_ipv6_address(fn_ip->fd, 0);
             rc = dhcpv6(NULL, fn_ip);
             if (rc == 0) {
                 memcpy(&fn_ip->own_ip6, get_ipv6_address(), 16);
                 break;
             }
         }
         if (rc != -1) {    /* either success or non-dhcp failure */
             break;
         }
     } while (1);
     printf("\b\b\b\bdone\n");

     return rc;
 }

 /**
  * Seed the random number generator with our mac and current timestamp
  */
 static void seed_rng(uint8_t mac[])
 {
     uint64_t seed;

     asm volatile(" stck %0 " : : "Q"(seed) : "memory");
     seed ^= (mac[2] << 24) | (mac[3] << 16) | (mac[4] << 8) | mac[5];
     srand(seed);
 }

 static int tftp_load(filename_ip_t *fnip, void *buffer, int len)
 {
     tftp_err_t tftp_err;
     int rc;

     rc = tftp(fnip, buffer, len, DEFAULT_TFTP_RETRIES, &tftp_err, 1, 1428,
               ip_version);

     if (rc < 0) {
         /* Make sure that error messages are put into a new line */
         printf("\n  ");
     }

     if (rc > 1024) {
         printf("  TFTP: Received %s (%d KBytes)\n", fnip->filename, rc / 1024);
     } else if (rc > 0) {
         printf("  TFTP: Received %s (%d Bytes)\n", fnip->filename, rc);
     } else if (rc == -1) {
         puts("unknown TFTP error");
     } else if (rc == -2) {
         printf("TFTP buffer of %d bytes is too small for %s\n",
             len, fnip->filename);
     } else if (rc == -3) {
         printf("file not found: %s\n", fnip->filename);
     } else if (rc == -4) {
         puts("TFTP access violation");
     } else if (rc == -5) {
         puts("illegal TFTP operation");
     } else if (rc == -6) {
         puts("unknown TFTP transfer ID");
     } else if (rc == -7) {
         puts("no such TFTP user");
     } else if (rc == -8) {
         puts("TFTP blocksize negotiation failed");
     } else if (rc == -9) {
         puts("file exceeds maximum TFTP transfer size");
     } else if (rc <= -10 && rc >= -15) {
         const char *icmp_err_str;
         switch (rc) {
         case -ICMP_NET_UNREACHABLE - 10:
             icmp_err_str = "net unreachable";
             break;
         case -ICMP_HOST_UNREACHABLE - 10:
             icmp_err_str = "host unreachable";
             break;
         case -ICMP_PROTOCOL_UNREACHABLE - 10:
             icmp_err_str = "protocol unreachable";
             break;
         case -ICMP_PORT_UNREACHABLE - 10:
             icmp_err_str = "port unreachable";
             break;
         case -ICMP_FRAGMENTATION_NEEDED - 10:
             icmp_err_str = "fragmentation needed and DF set";
             break;
         case -ICMP_SOURCE_ROUTE_FAILED - 10:
             icmp_err_str = "source route failed";
             break;
         default:
             icmp_err_str = " UNKNOWN";
             break;
         }
         printf("ICMP ERROR \"%s\"\n", icmp_err_str);
     } else if (rc == -40) {
         printf("TFTP error occurred after %d bad packets received",
             tftp_err.bad_tftp_packets);
     } else if (rc == -41) {
         printf("TFTP error occurred after missing %d responses",
             tftp_err.no_packets);
     } else if (rc == -42) {
         printf("TFTP error missing block %d, expected block was %d",
             tftp_err.blocks_missed,
             tftp_err.blocks_received);
     }

     return rc;
 }

 static int net_init(filename_ip_t *fn_ip)
 {
     uint8_t mac[6];
     int rc;

     memset(fn_ip, 0, sizeof(filename_ip_t));

     rc = virtio_net_init(mac);
     if (rc < 0) {
         puts("Could not initialize network device");
         return -101;
     }
     fn_ip->fd = rc;

     printf("  Using MAC address: %02x:%02x:%02x:%02x:%02x:%02x\n",
            mac[0], mac[1], mac[2], mac[3], mac[4], mac[5]);

     set_mac_address(mac);    /* init ethernet layer */
     seed_rng(mac);

     rc = dhcp(fn_ip, DEFAULT_BOOT_RETRIES);
     if (rc >= 0) {
         if (ip_version == 4) {
             set_ipv4_address(fn_ip->own_ip);
         }
     } else {
         puts("Could not get IP address");
         return -101;
     }

     if (ip_version == 4) {
         printf("  Using IPv4 address: %d.%d.%d.%d\n",
               (fn_ip->own_ip >> 24) & 0xFF, (fn_ip->own_ip >> 16) & 0xFF,
               (fn_ip->own_ip >>  8) & 0xFF, fn_ip->own_ip & 0xFF);
     } else if (ip_version == 6) {
         char ip6_str[40];
         ipv6_to_str(fn_ip->own_ip6.addr, ip6_str);
         printf("  Using IPv6 address: %s\n", ip6_str);
     }

     if (rc == -2) {
         printf("ARP request to TFTP server (%d.%d.%d.%d) failed\n",
                (fn_ip->server_ip >> 24) & 0xFF, (fn_ip->server_ip >> 16) & 0xFF,
                (fn_ip->server_ip >>  8) & 0xFF, fn_ip->server_ip & 0xFF);
         return -102;
     }
     if (rc == -4 || rc == -3) {
         puts("Can't obtain TFTP server IP address");
         return -107;
     }

     printf("  Using TFTP server: ");
     if (ip_version == 4) {
         printf("%d.%d.%d.%d\n",
                (fn_ip->server_ip >> 24) & 0xFF, (fn_ip->server_ip >> 16) & 0xFF,
                (fn_ip->server_ip >>  8) & 0xFF, fn_ip->server_ip & 0xFF);
     } else if (ip_version == 6) {
         char ip6_str[40];
         ipv6_to_str(fn_ip->server_ip6.addr, ip6_str);
         printf("%s\n", ip6_str);
     }

     if (strlen((char *)fn_ip->filename) > 0) {
         printf("  Bootfile name: '%s'\n", fn_ip->filename);
     }

     return rc;
 }

 static void net_release(filename_ip_t *fn_ip)
 {
     if (ip_version == 4) {
         dhcp_send_release(fn_ip->fd);
     }
 }

 /**
  * Load via information from a .INS file (which can be found on CD-ROMs
  * for example)
  */
 static int handle_ins_cfg(filename_ip_t *fn_ip, char *cfg, int cfgsize)
 {
     char *ptr;
     int rc = -1, llen;
     void *destaddr;
     char *insbuf = cfg;

     ptr = strchr(insbuf, '\n');
     if (!ptr) {
         puts("Does not seem to be a valid .INS file");
         return -1;
     }

     *ptr = 0;
     printf("\nParsing .INS file:\n %s\n", &insbuf[2]);

     insbuf = ptr + 1;
     while (*insbuf && insbuf < cfg + cfgsize) {
         ptr = strchr(insbuf, '\n');
         if (ptr) {
             *ptr = 0;
         }
         llen = strlen(insbuf);
         if (!llen) {
             insbuf = ptr + 1;
             continue;
         }
         ptr = strchr(insbuf, ' ');
         if (!ptr) {
             puts("Missing space separator in .INS file");
             return -1;
         }
         *ptr = 0;
         strncpy((char *)fn_ip->filename, insbuf, sizeof(fn_ip->filename));
         destaddr = (char *)atol(ptr + 1);
         rc = tftp_load(fn_ip, destaddr, (long)_start - (long)destaddr);
         if (rc <= 0) {
             break;
         }
         insbuf += llen + 1;
     }

     return rc;
 }

 static int net_try_direct_tftp_load(filename_ip_t *fn_ip)
 {
     int rc;
     void *loadaddr = (void *)0x2000;  /* Load right after the low-core */

     rc = tftp_load(fn_ip, loadaddr, KERNEL_MAX_SIZE - (long)loadaddr);
     if (rc < 0) {
         return rc;
     } else if (rc < 8) {
         printf("'%s' is too small (%i bytes only).\n", fn_ip->filename, rc);
         return -1;
     }

     /* Check whether it is a configuration file instead of a kernel */
     if (rc < sizeof(cfgbuf) - 1) {
         memcpy(cfgbuf, loadaddr, rc);
         cfgbuf[rc] = 0;    /* Make sure that it is NUL-terminated */
         if (!strncmp("* ", cfgbuf, 2)) {
             return handle_ins_cfg(fn_ip, cfgbuf, rc);
         }
     }

     /* Move kernel to right location */
     memmove(KERNEL_ADDR, loadaddr, rc);

     return rc;
 }

 void panic(const char *string)
 {
     sclp_print(string);
     for (;;) {
         disabled_wait();
     }
 }

 void write_subsystem_identification(void)
 {
     SubChannelId *schid = (SubChannelId *) 184;
     uint32_t *zeroes = (uint32_t *) 188;

     *schid = net_schid;
     *zeroes = 0;
 }

 static bool find_net_dev(Schib *schib, int dev_no)
 {
     int i, r;

     for (i = 0; i < 0x10000; i++) {
         net_schid.sch_no = i;
         r = stsch_err(net_schid, schib);
         if (r == 3 || r == -EIO) {
             break;
         }
         if (!schib->pmcw.dnv) {
             continue;
         }
         if (!virtio_is_supported(net_schid)) {
             continue;
         }
         if (virtio_get_device_type() != VIRTIO_ID_NET) {
             continue;
         }
         if (dev_no < 0 || schib->pmcw.dev == dev_no) {
             return true;
         }
     }

     return false;
 }

 static void virtio_setup(void)
 {
     Schib schib;
     int ssid;
     bool found = false;
     uint16_t dev_no;

     /*
      * We unconditionally enable mss support. In every sane configuration,
      * this will succeed; and even if it doesn't, stsch_err() can deal
      * with the consequences.
      */
     enable_mss_facility();

     if (store_iplb(&iplb)) {
         IPL_assert(iplb.pbt == S390_IPL_TYPE_CCW, "IPL_TYPE_CCW expected");
         dev_no = iplb.ccw.devno;
         debug_print_int("device no. ", dev_no);
         net_schid.ssid = iplb.ccw.ssid & 0x3;
         debug_print_int("ssid ", net_schid.ssid);
         found = find_net_dev(&schib, dev_no);
     } else {
         for (ssid = 0; ssid < 0x3; ssid++) {
             net_schid.ssid = ssid;
             found = find_net_dev(&schib, -1);
             if (found) {
                 break;
             }
         }
     }

     IPL_assert(found, "No virtio net device found");
 }

 void main(void)
 {
     filename_ip_t fn_ip;
     int rc, fnlen;

     sclp_setup();
     sclp_print("Network boot starting...\n");

     virtio_setup();

     rc = net_init(&fn_ip);
     if (rc) {
         panic("Network initialization failed. Halting.\n");
     }

     fnlen = strlen((char *)fn_ip.filename);
     if (fnlen > 0 && fn_ip.filename[fnlen - 1] != '/') {
         rc = net_try_direct_tftp_load(&fn_ip);
     }

     net_release(&fn_ip);

     if (rc > 0) {
         sclp_print("Network loading done, starting kernel...\n");
         jump_to_low_kernel();
     }

     panic("Failed to load OS from network\n");
 }
	/*
	* S390 virtio-ccw network boot loading program
	*
	* Copyright 2017 Thomas Huth, Red Hat Inc.
	*
	* Based on the S390 virtio-ccw loading program (main.c)
	* Copyright (c) 2013 Alexander Graf <agraf@suse.de>
	*
	* And based on the network loading code from SLOF (netload.c)
	* Copyright (c) 2004, 2008 IBM Corporation
	*
	* This code is free software; you can redistribute it and/or modify it
	* under the terms of the GNU General Public License as published by the
	* Free Software Foundation; either version 2 of the License, or (at your
	* option) any later version.
	*/

	#include <stdint.h>
	#include <stdbool.h>
	#include <stdio.h>
	#include <stdlib.h>
	#include <string.h>
	#include <unistd.h>

	#include <tftp.h>
	#include <ethernet.h>
	#include <dhcp.h>
	#include <dhcpv6.h>
	#include <ipv4.h>
	#include <ipv6.h>
	#include <dns.h>
	#include <time.h>

	#include "s390-ccw.h"
	#include "virtio.h"

	#define DEFAULT_BOOT_RETRIES 10
	#define DEFAULT_TFTP_RETRIES 20

	extern char _start[];

	#define KERNEL_ADDR ((void *)0L)
	#define KERNEL_MAX_SIZE ((long)_start)

	char stack[PAGE_SIZE * 8] __attribute__((aligned(PAGE_SIZE)));
	IplParameterBlock iplb __attribute__((aligned(PAGE_SIZE)));
	static char cfgbuf[2048];

	static SubChannelId net_schid = { .one = 1 };
	static int ip_version = 4;
	static uint64_t dest_timer;

	static uint64_t get_timer_ms(void)
	{
	uint64_t clk;

	asm volatile(" stck %0 " : : "Q"(clk) : "memory");

	/* Bit 51 is incremented each microsecond */
	return (clk >> (63 - 51)) / 1000;
	}

	void set_timer(int val)
	{
	dest_timer = get_timer_ms() + val;
	}

	int get_timer(void)
	{
	return dest_timer - get_timer_ms();
	}

	int get_sec_ticks(void)
	{
	return 1000; /* number of ticks in 1 second */
	}

	/**
	* Obtain IP and configuration info from DHCP server (either IPv4 or IPv6).
	* @param fn_ip contains the following configuration information:
	* client MAC, client IP, TFTP-server MAC, TFTP-server IP,
	* boot file name
	* @param retries Number of DHCP attempts
	* @return 0 : IP and configuration info obtained;
	* non-0 : error condition occurred.
	*/
	static int dhcp(struct filename_ip *fn_ip, int retries)
	{
	int i = retries + 1;
	int rc = -1;

	printf(" Requesting information via DHCP: ");

	dhcpv4_generate_transaction_id();
	dhcpv6_generate_transaction_id();

	do {
	printf("\b\b\b%03d", i - 1);
	if (!--i) {
	printf("\nGiving up after %d DHCP requests\n", retries);
	return -1;
	}
	ip_version = 4;
	rc = dhcpv4(NULL, fn_ip);
	if (rc == -1) {
	ip_version = 6;
	set_ipv6_address(fn_ip->fd, 0);
	rc = dhcpv6(NULL, fn_ip);
	if (rc == 0) {
	memcpy(&fn_ip->own_ip6, get_ipv6_address(), 16);
	break;
	}
	}
	if (rc != -1) { /* either success or non-dhcp failure */
	break;
	}
	} while (1);
	printf("\b\b\b\bdone\n");

	return rc;
	}

	/**
	* Seed the random number generator with our mac and current timestamp
	*/
	static void seed_rng(uint8_t mac[])
	{
	uint64_t seed;

	asm volatile(" stck %0 " : : "Q"(seed) : "memory");
	seed ^= (mac[2] << 24) \| (mac[3] << 16) \| (mac[4] << 8) \| mac[5];
	srand(seed);
	}

	static int tftp_load(filename_ip_t fnip, void buffer, int len)
	{
	tftp_err_t tftp_err;
	int rc;

	rc = tftp(fnip, buffer, len, DEFAULT_TFTP_RETRIES, &tftp_err, 1, 1428,
	ip_version);

	if (rc < 0) {
	/* Make sure that error messages are put into a new line */
	printf("\n ");
	}

	if (rc > 1024) {
	printf(" TFTP: Received %s (%d KBytes)\n", fnip->filename, rc / 1024);
	} else if (rc > 0) {
	printf(" TFTP: Received %s (%d Bytes)\n", fnip->filename, rc);
	} else if (rc == -1) {
	puts("unknown TFTP error");
	} else if (rc == -2) {
	printf("TFTP buffer of %d bytes is too small for %s\n",
	len, fnip->filename);
	} else if (rc == -3) {
	printf("file not found: %s\n", fnip->filename);
	} else if (rc == -4) {
	puts("TFTP access violation");
	} else if (rc == -5) {
	puts("illegal TFTP operation");
	} else if (rc == -6) {
	puts("unknown TFTP transfer ID");
	} else if (rc == -7) {
	puts("no such TFTP user");
	} else if (rc == -8) {
	puts("TFTP blocksize negotiation failed");
	} else if (rc == -9) {
	puts("file exceeds maximum TFTP transfer size");
	} else if (rc <= -10 && rc >= -15) {
	const char *icmp_err_str;
	switch (rc) {
	case -ICMP_NET_UNREACHABLE - 10:
	icmp_err_str = "net unreachable";
	break;
	case -ICMP_HOST_UNREACHABLE - 10:
	icmp_err_str = "host unreachable";
	break;
	case -ICMP_PROTOCOL_UNREACHABLE - 10:
	icmp_err_str = "protocol unreachable";
	break;
	case -ICMP_PORT_UNREACHABLE - 10:
	icmp_err_str = "port unreachable";
	break;
	case -ICMP_FRAGMENTATION_NEEDED - 10:
	icmp_err_str = "fragmentation needed and DF set";
	break;
	case -ICMP_SOURCE_ROUTE_FAILED - 10:
	icmp_err_str = "source route failed";
	break;
	default:
	icmp_err_str = " UNKNOWN";
	break;
	}
	printf("ICMP ERROR \"%s\"\n", icmp_err_str);
	} else if (rc == -40) {
	printf("TFTP error occurred after %d bad packets received",
	tftp_err.bad_tftp_packets);
	} else if (rc == -41) {
	printf("TFTP error occurred after missing %d responses",
	tftp_err.no_packets);
	} else if (rc == -42) {
	printf("TFTP error missing block %d, expected block was %d",
	tftp_err.blocks_missed,
	tftp_err.blocks_received);
	}

	return rc;
	}

	static int net_init(filename_ip_t *fn_ip)
	{
	uint8_t mac[6];
	int rc;

	memset(fn_ip, 0, sizeof(filename_ip_t));

	rc = virtio_net_init(mac);
	if (rc < 0) {
	puts("Could not initialize network device");
	return -101;
	}
	fn_ip->fd = rc;

	printf(" Using MAC address: %02x:%02x:%02x:%02x:%02x:%02x\n",
	mac[0], mac[1], mac[2], mac[3], mac[4], mac[5]);

	set_mac_address(mac); /* init ethernet layer */
	seed_rng(mac);

	rc = dhcp(fn_ip, DEFAULT_BOOT_RETRIES);
	if (rc >= 0) {
	if (ip_version == 4) {
	set_ipv4_address(fn_ip->own_ip);
	}
	} else {
	puts("Could not get IP address");
	return -101;
	}

	if (ip_version == 4) {
	printf(" Using IPv4 address: %d.%d.%d.%d\n",
	(fn_ip->own_ip >> 24) & 0xFF, (fn_ip->own_ip >> 16) & 0xFF,
	(fn_ip->own_ip >> 8) & 0xFF, fn_ip->own_ip & 0xFF);
	} else if (ip_version == 6) {
	char ip6_str[40];
	ipv6_to_str(fn_ip->own_ip6.addr, ip6_str);
	printf(" Using IPv6 address: %s\n", ip6_str);
	}

	if (rc == -2) {
	printf("ARP request to TFTP server (%d.%d.%d.%d) failed\n",
	(fn_ip->server_ip >> 24) & 0xFF, (fn_ip->server_ip >> 16) & 0xFF,
	(fn_ip->server_ip >> 8) & 0xFF, fn_ip->server_ip & 0xFF);
	return -102;
	}
	if (rc == -4 \|\| rc == -3) {
	puts("Can't obtain TFTP server IP address");
	return -107;
	}

	printf(" Using TFTP server: ");
	if (ip_version == 4) {
	printf("%d.%d.%d.%d\n",
	(fn_ip->server_ip >> 24) & 0xFF, (fn_ip->server_ip >> 16) & 0xFF,
	(fn_ip->server_ip >> 8) & 0xFF, fn_ip->server_ip & 0xFF);
	} else if (ip_version == 6) {
	char ip6_str[40];
	ipv6_to_str(fn_ip->server_ip6.addr, ip6_str);
	printf("%s\n", ip6_str);
	}

	if (strlen((char *)fn_ip->filename) > 0) {
	printf(" Bootfile name: '%s'\n", fn_ip->filename);
	}

	return rc;
	}

	static void net_release(filename_ip_t *fn_ip)
	{
	if (ip_version == 4) {
	dhcp_send_release(fn_ip->fd);
	}
	}

	/**
	* Load via information from a .INS file (which can be found on CD-ROMs
	* for example)
	*/
	static int handle_ins_cfg(filename_ip_t fn_ip, char cfg, int cfgsize)
	{
	char *ptr;
	int rc = -1, llen;
	void *destaddr;
	char *insbuf = cfg;

	ptr = strchr(insbuf, '\n');
	if (!ptr) {
	puts("Does not seem to be a valid .INS file");
	return -1;
	}

	*ptr = 0;
	printf("\nParsing .INS file:\n %s\n", &insbuf[2]);

	insbuf = ptr + 1;
	while (*insbuf && insbuf < cfg + cfgsize) {
	ptr = strchr(insbuf, '\n');
	if (ptr) {
	*ptr = 0;
	}
	llen = strlen(insbuf);
	if (!llen) {
	insbuf = ptr + 1;
	continue;
	}
	ptr = strchr(insbuf, ' ');
	if (!ptr) {
	puts("Missing space separator in .INS file");
	return -1;
	}
	*ptr = 0;
	strncpy((char *)fn_ip->filename, insbuf, sizeof(fn_ip->filename));
	destaddr = (char *)atol(ptr + 1);
	rc = tftp_load(fn_ip, destaddr, (long)_start - (long)destaddr);
	if (rc <= 0) {
	break;
	}
	insbuf += llen + 1;
	}

	return rc;
	}

	static int net_try_direct_tftp_load(filename_ip_t *fn_ip)
	{
	int rc;
	void loadaddr = (void )0x2000; /* Load right after the low-core */

	rc = tftp_load(fn_ip, loadaddr, KERNEL_MAX_SIZE - (long)loadaddr);
	if (rc < 0) {
	return rc;
	} else if (rc < 8) {
	printf("'%s' is too small (%i bytes only).\n", fn_ip->filename, rc);
	return -1;
	}

	/* Check whether it is a configuration file instead of a kernel */
	if (rc < sizeof(cfgbuf) - 1) {
	memcpy(cfgbuf, loadaddr, rc);
	cfgbuf[rc] = 0; /* Make sure that it is NUL-terminated */
	if (!strncmp("* ", cfgbuf, 2)) {
	return handle_ins_cfg(fn_ip, cfgbuf, rc);
	}
	}

	/* Move kernel to right location */
	memmove(KERNEL_ADDR, loadaddr, rc);

	return rc;
	}

	void panic(const char *string)
	{
	sclp_print(string);
	for (;;) {
	disabled_wait();
	}
	}

	void write_subsystem_identification(void)
	{
	SubChannelId schid = (SubChannelId ) 184;
	uint32_t zeroes = (uint32_t ) 188;

	*schid = net_schid;
	*zeroes = 0;
	}

	static bool find_net_dev(Schib *schib, int dev_no)
	{
	int i, r;

	for (i = 0; i < 0x10000; i++) {
	net_schid.sch_no = i;
	r = stsch_err(net_schid, schib);
	if (r == 3 \|\| r == -EIO) {
	break;
	}
	if (!schib->pmcw.dnv) {
	continue;
	}
	if (!virtio_is_supported(net_schid)) {
	continue;
	}
	if (virtio_get_device_type() != VIRTIO_ID_NET) {
	continue;
	}
	if (dev_no < 0 \|\| schib->pmcw.dev == dev_no) {
	return true;
	}
	}

	return false;
	}

	static void virtio_setup(void)
	{
	Schib schib;
	int ssid;
	bool found = false;
	uint16_t dev_no;

	/*
	* We unconditionally enable mss support. In every sane configuration,
	* this will succeed; and even if it doesn't, stsch_err() can deal
	* with the consequences.
	*/
	enable_mss_facility();

	if (store_iplb(&iplb)) {
	IPL_assert(iplb.pbt == S390_IPL_TYPE_CCW, "IPL_TYPE_CCW expected");
	dev_no = iplb.ccw.devno;
	debug_print_int("device no. ", dev_no);
	net_schid.ssid = iplb.ccw.ssid & 0x3;
	debug_print_int("ssid ", net_schid.ssid);
	found = find_net_dev(&schib, dev_no);
	} else {
	for (ssid = 0; ssid < 0x3; ssid++) {
	net_schid.ssid = ssid;
	found = find_net_dev(&schib, -1);
	if (found) {
	break;
	}
	}
	}

	IPL_assert(found, "No virtio net device found");
	}

	void main(void)
	{
	filename_ip_t fn_ip;
	int rc, fnlen;

	sclp_setup();
	sclp_print("Network boot starting...\n");

	virtio_setup();

	rc = net_init(&fn_ip);
	if (rc) {
	panic("Network initialization failed. Halting.\n");
	}

	fnlen = strlen((char *)fn_ip.filename);
	if (fnlen > 0 && fn_ip.filename[fnlen - 1] != '/') {
	rc = net_try_direct_tftp_load(&fn_ip);
	}

	net_release(&fn_ip);

	if (rc > 0) {
	sclp_print("Network loading done, starting kernel...\n");
	jump_to_low_kernel();
	}

	panic("Failed to load OS from network\n");
	}