core/fs/pxe/pxe.c - pub/scm/boot/syslinux/syslinux - Git at Google

 #include <dprintf.h>
 #include <stdio.h>
 #include <string.h>
 #include <core.h>
 #include <fs.h>
 #include <fcntl.h>
 #include <sys/cpu.h>
 #include "pxe.h"
 #include "thread.h"
 #include "url.h"
 #include "tftp.h"
 #include <net.h>

 __lowmem t_PXENV_UNDI_GET_INFORMATION pxe_undi_info;
 __lowmem t_PXENV_UNDI_GET_IFACE_INFO  pxe_undi_iface;

 uint8_t MAC[MAC_MAX];		   /* Actual MAC address */
 uint8_t MAC_len;                   /* MAC address len */
 uint8_t MAC_type;                  /* MAC address type */

 char boot_file[256];		   /* From DHCP */
 char path_prefix[256];		   /* From DHCP */

 bool have_uuid = false;

 /*
  * Allocate a local UDP port structure and assign it a local port number.
  * Return the inode pointer if success, or null if failure
  */
 static struct inode *allocate_socket(struct fs_info *fs)
 {
     struct inode *inode = alloc_inode(fs, 0, sizeof(struct pxe_pvt_inode));

     if (!inode) {
 	malloc_error("socket structure");
     } else {
 	inode->mode = DT_REG;	/* No other types relevant for PXE */
     }

     return inode;
 }

 void free_socket(struct inode *inode)
 {
     struct pxe_pvt_inode *socket = PVT(inode);

     free(socket->tftp_pktbuf);	/* If we allocated a buffer, free it now */
     free_inode(inode);
 }

 static void pxe_close_file(struct file *file)
 {
     struct inode *inode = file->inode;
     struct pxe_pvt_inode *socket = PVT(inode);

     if (!inode)
 	return;

     if (!socket->tftp_goteof) {
 	socket->ops->close(inode);
     }

     free_socket(inode);
 }

 /*
  * Tests an IP address in _ip_ for validity; return with 0 for bad, 1 for good.
  * We used to refuse class E, but class E addresses are likely to become
  * assignable unicast addresses in the near future.
  *
  */
 bool ip_ok(uint32_t ip)
 {
     uint8_t ip_hi = (uint8_t)ip; /* First octet of the ip address */

     if (ip == 0xffffffff ||	/* Refuse the all-ones address */
 	ip_hi == 0 ||		/* Refuse network zero */
 	ip_hi == 127 ||		/* Refuse the loopback network */
 	(ip_hi & 240) == 224)	/* Refuse class D */
 	return false;

     return true;
 }


 /*
  * Take an IP address (in network byte order) in _ip_ and
  * output a dotted quad string to _dst_, returns the length
  * of the dotted quad ip string.
  *
  */
 static int gendotquad(char *dst, uint32_t ip)
 {
     return sprintf(dst, "%u.%u.%u.%u",
 		   ((const uint8_t *)&ip)[0],
 		   ((const uint8_t *)&ip)[1],
 		   ((const uint8_t *)&ip)[2],
 		   ((const uint8_t *)&ip)[3]);
 }

 /*
  * the ASM pxenv function wrapper, return 1 if error, or 0
  *
  */
 __export int pxe_call(int opcode, void *data)
 {
     static DECLARE_INIT_SEMAPHORE(pxe_sem, 1);
     extern void pxenv(void);
     com32sys_t regs;

     sem_down(&pxe_sem, 0);

 #if 0
     dprintf("pxe_call op %04x data %p\n", opcode, data);
 #endif

     memset(&regs, 0, sizeof regs);
     regs.ebx.w[0] = opcode;
     regs.es       = SEG(data);
     regs.edi.w[0] = OFFS(data);
     call16(pxenv, &regs, &regs);

     sem_up(&pxe_sem);

     return regs.eflags.l & EFLAGS_CF;  /* CF SET if fail */
 }

 /*
  * mangle a filename pointed to by _src_ into a buffer pointed
  * to by _dst_; ends on encountering any whitespace.
  *
  * This deliberately does not attempt to do any conversion of
  * pathname separators.
  *
  */
 static void pxe_mangle_name(char *dst, const char *src)
 {
     size_t len = FILENAME_MAX-1;

     while (len-- && not_whitespace(*src))
 	*dst++ = *src++;

     *dst = '\0';
 }

 /*
  * Read a single character from the specified pxe inode.
  * Very useful for stepping through http streams and
  * parsing their headers.
  */
 int pxe_getc(struct inode *inode)
 {
     struct pxe_pvt_inode *socket = PVT(inode);
     unsigned char byte;

     while (!socket->tftp_bytesleft) {
 	if (socket->tftp_goteof)
 	    return -1;

 	socket->ops->fill_buffer(inode);
     }

     byte = *socket->tftp_dataptr;
     socket->tftp_bytesleft -= 1;
     socket->tftp_dataptr += 1;

     return byte;
 }

 /*
  * Get a fresh packet if the buffer is drained, and we haven't hit
  * EOF yet.  The buffer should be filled immediately after draining!
  */
 static void fill_buffer(struct inode *inode)
 {
     struct pxe_pvt_inode *socket = PVT(inode);
     if (socket->tftp_bytesleft || socket->tftp_goteof)
         return;

     return socket->ops->fill_buffer(inode);
 }


 /**
  * getfssec: Get multiple clusters from a file, given the starting cluster.
  * In this case, get multiple blocks from a specific TCP connection.
  *
  * @param: fs, the fs_info structure address, in pxe, we don't use this.
  * @param: buf, buffer to store the read data
  * @param: openfile, TFTP socket pointer
  * @param: blocks, 512-byte block count; 0FFFFh = until end of file
  *
  * @return: the bytes read
  *
  */
 static uint32_t pxe_getfssec(struct file *file, char *buf,
 			     int blocks, bool *have_more)
 {
     struct inode *inode = file->inode;
     struct pxe_pvt_inode *socket = PVT(inode);
     int count = blocks;
     int chunk;
     int bytes_read = 0;

     count <<= TFTP_BLOCKSIZE_LG2;
     while (count) {
         fill_buffer(inode); /* If we have no 'fresh' buffer, get it */
         if (!socket->tftp_bytesleft)
             break;

         chunk = count;
         if (chunk > socket->tftp_bytesleft)
             chunk = socket->tftp_bytesleft;
         socket->tftp_bytesleft -= chunk;
         memcpy(buf, socket->tftp_dataptr, chunk);
 	socket->tftp_dataptr += chunk;
         buf += chunk;
         bytes_read += chunk;
         count -= chunk;
     }


     if (socket->tftp_bytesleft || (socket->tftp_filepos < inode->size)) {
 	fill_buffer(inode);
         *have_more = 1;
     } else if (socket->tftp_goteof) {
         /*
          * The socket is closed and the buffer drained; the caller will
 	 * call close_file and therefore free the socket.
          */
         *have_more = 0;
     }

     return bytes_read;
 }

 /*
  * Assign an IP address to a URL
  */
 static void url_set_ip(struct url_info *url)
 {
     url->ip = 0;
     if (url->host)
 	url->ip = pxe_dns(url->host);
     if (!url->ip)
 	url->ip = IPInfo.serverip;
 }

 /**
  * Open the specified connection
  *
  * @param:filename, the file we wanna open
  *
  * @out: open_file_t structure, stores in file->open_file
  * @out: the lenght of this file, stores in file->file_len
  *
  */
 static void __pxe_searchdir(const char *filename, int flags, struct file *file);
 extern uint16_t PXERetry;

 static void pxe_searchdir(const char *filename, int flags, struct file *file)
 {
     int i = PXERetry;

     do {
 	dprintf("PXE: file = %p, retries left = %d: ", file, i);
 	__pxe_searchdir(filename, flags, file);
 	dprintf("%s\n", file->inode ? "ok" : "failed");
     } while (!file->inode && i--);
 }
 static void __pxe_searchdir(const char *filename, int flags, struct file *file)
 {
     struct fs_info *fs = file->fs;
     struct inode *inode;
     char fullpath[2*FILENAME_MAX];
 #if GPXE
     char urlsave[2*FILENAME_MAX];
 #endif
     struct url_info url;
     const struct url_scheme *us = NULL;
     int redirect_count = 0;
     bool found_scheme = false;

     inode = file->inode = NULL;

     while (filename) {
 	if (redirect_count++ > 5)
 	    break;

 	strlcpy(fullpath, filename, sizeof fullpath);
 #if GPXE
 	strcpy(urlsave, fullpath);
 #endif
 	parse_url(&url, fullpath);
 	if (url.type == URL_SUFFIX) {
 	    snprintf(fullpath, sizeof fullpath, "%s%s", fs->cwd_name, filename);
 #if GPXE
 	    strcpy(urlsave, fullpath);
 #endif
 	    parse_url(&url, fullpath);
 	}

 	inode = allocate_socket(fs);
 	if (!inode)
 	    return;			/* Allocation failure */

 	url_set_ip(&url);

 	filename = NULL;
 	found_scheme = false;
 	for (us = url_schemes; us->name; us++) {
 	    if (!strcmp(us->name, url.scheme)) {
 		if ((flags & ~us->ok_flags & OK_FLAGS_MASK) == 0)
 		    us->open(&url, flags, inode, &filename);
 		found_scheme = true;
 		break;
 	    }
 	}

 	/* filename here is set on a redirect */
     }

     if (!found_scheme) {
 #if GPXE
 	/* No URL scheme found, hand it to GPXE */
 	gpxe_open(inode, urlsave);
 #endif
     }

     if (inode->size) {
 	file->inode = inode;
 	file->inode->mode = (flags & O_DIRECTORY) ? DT_DIR : DT_REG;
     } else {
         free_socket(inode);
     }

     return;
 }


 /*
  * Store standard filename prefix
  */
 static void get_prefix(void)
 {
     int len;
     char *p;
     char c;

     if (!(DHCPMagic & 0x04)) {
 	/* No path prefix option, derive from boot file */

 	strlcpy(path_prefix, boot_file, sizeof path_prefix);
 	len = strlen(path_prefix);
 	p = &path_prefix[len - 1];

 	while (len--) {
 	    c = *p--;
 	    c |= 0x20;

 	    c = (c >= '0' && c <= '9') ||
 		(c >= 'a' && c <= 'z') ||
 		(c == '.' || c == '-');
 	    if (!c)
 		break;
 	};

 	if (len < 0)
 	    p --;

 	*(p + 2) = 0;                /* Zero-terminate after delimiter */
     }

     ddprintf("TFTP prefix: %s\n", path_prefix);

     if (url_type(path_prefix) == URL_SUFFIX) {
 	/*
 	 * Construct a ::-style TFTP path.
 	 *
 	 * We may have moved out of the root directory at the time
 	 * this function is invoked, but to maintain compatibility
 	 * with versions of Syslinux < 5.00, path_prefix must be
 	 * relative to "::".
 	 */
 	p = strdup(path_prefix);
 	if (!p)
 	    return;

 	snprintf(path_prefix, sizeof path_prefix, "::%s", p);
 	free(p);
     }

     chdir(path_prefix);
 }

 /*
  * realpath for PXE
  */
 static size_t pxe_realpath(struct fs_info *fs, char *dst, const char *src,
 			   size_t bufsize)
 {
     return snprintf(dst, bufsize, "%s%s",
 		    url_type(src) == URL_SUFFIX ? fs->cwd_name : "", src);
 }

 /*
  * chdir for PXE
  */
 static int pxe_chdir(struct fs_info *fs, const char *src)
 {
     /* The cwd for PXE is just a text prefix */
     enum url_type path_type = url_type(src);

     if (path_type == URL_SUFFIX)
 	strlcat(fs->cwd_name, src, sizeof fs->cwd_name);
     else
 	strlcpy(fs->cwd_name, src, sizeof fs->cwd_name);
     return 0;

     dprintf("cwd = \"%s\"\n", fs->cwd_name);
     return 0;
 }

 static int pxe_chdir_start(void)
 {
 	get_prefix();
 	return 0;
 }

 /* Load the config file, return -1 if failed, or 0 */
 static int pxe_open_config(struct com32_filedata *filedata)
 {
     const char *cfgprefix = "pxelinux.cfg/";
     const char *default_str = "default";
     char *config_file;
     char *last;
     int tries = 8;

     chdir(path_prefix);
     if (DHCPMagic & 0x02) {
         /* We got a DHCP option, try it first */
 	if (open_file(ConfigName, O_RDONLY, filedata) >= 0)
 	    return 0;
     }

     /*
      * Have to guess config file name ...
      */
     config_file = stpcpy(ConfigName, cfgprefix);

     /* Try loading by UUID */
     if (sysappend_strings[SYSAPPEND_SYSUUID]) {
 	strcpy(config_file, sysappend_strings[SYSAPPEND_SYSUUID]+8);
 	if (open_file(ConfigName, O_RDONLY, filedata) >= 0)
             return 0;
     }

     /* Try loading by MAC address */
     strcpy(config_file, sysappend_strings[SYSAPPEND_BOOTIF]+7);
     if (open_file(ConfigName, O_RDONLY, filedata) >= 0)
         return 0;

     /* Nope, try hexadecimal IP prefixes... */
     sprintf(config_file, "%08X", ntohl(IPInfo.myip));
     last = &config_file[8];
     while (tries) {
         *last = '\0';        /* Zero-terminate string */
 	if (open_file(ConfigName, O_RDONLY, filedata) >= 0)
             return 0;
         last--;           /* Drop one character */
         tries--;
     };

     /* Final attempt: "default" string */
     strcpy(config_file, default_str);
     if (open_file(ConfigName, O_RDONLY, filedata) >= 0)
         return 0;

     ddprintf("%-68s\n", "Unable to locate configuration file");
     kaboom();
 }

 /*
  * Generate the bootif string.
  */
 static void make_bootif_string(void)
 {
     static char bootif_str[7+3*(MAC_MAX+1)];
     const uint8_t *src;
     char *dst = bootif_str;
     int i;

     dst += sprintf(dst, "BOOTIF=%02x", MAC_type);
     src = MAC;
     for (i = MAC_len; i; i--)
 	dst += sprintf(dst, "-%02x", *src++);

     sysappend_strings[SYSAPPEND_BOOTIF] = bootif_str;
 }

 /*
  * Generate an ip=<client-ip>:<boot-server-ip>:<gw-ip>:<netmask>
  * option into IPOption based on DHCP information in IPInfo.
  *
  */
 static void genipopt(void)
 {
     static char ip_option[3+4*16];
     const uint32_t *v = &IPInfo.myip;
     char *p;
     int i;

     p = stpcpy(ip_option, "ip=");

     for (i = 0; i < 4; i++) {
 	p += gendotquad(p, *v++);
 	*p++ = ':';
     }
     *--p = '\0';

     sysappend_strings[SYSAPPEND_IP] = ip_option;
 }


 /* Generate ip= option and print the ip adress */
 static void ip_init(void)
 {
     uint32_t ip = IPInfo.myip;
     char dot_quad_buf[16];

     genipopt();
     gendotquad(dot_quad_buf, ip);

     ip = ntohl(ip);
     ddprintf("My IP address seems to be %08X %s\n", ip, dot_quad_buf);
 }

 /*
  * Network-specific initialization
  */
 static void network_init(void)
 {
     net_parse_dhcp();

     make_bootif_string();
     /* If DMI and DHCP disagree, which one should we set? */
     if (have_uuid)
 	sysappend_set_uuid(uuid);
     ip_init();

     /* print_sysappend(); */
     /*
      * Check to see if we got any PXELINUX-specific DHCP options; in particular,
      * if we didn't get the magic enable, do not recognize any other options.
      */
     if ((DHCPMagic & 1) == 0)
         DHCPMagic = 0;

     net_core_init();
 }

 /*
  * Initialize pxe fs
  *
  */
 static int pxe_fs_init(struct fs_info *fs)
 {
     (void)fs;    /* drop the compile warning message */

     /* Prepare for handling pxe interrupts */
     pxe_init_isr();

     /* This block size is actually arbitrary... */
     fs->sector_shift = fs->block_shift = TFTP_BLOCKSIZE_LG2;
     fs->sector_size  = fs->block_size  = 1 << TFTP_BLOCKSIZE_LG2;

     /* Find the PXE stack */
     if (pxe_init(false))
 	kaboom();

     /* See if we also have a gPXE stack */
     gpxe_init();

     /* Network-specific initialization */
     network_init();

     /* Initialize network-card-specific idle handling */
     pxe_idle_init();

     /* Our name for the root */
     strcpy(fs->cwd_name, "::");

     return 0;
 }

 /*
  * Look to see if we are on an EFI CSM system.  Some EFI
  * CSM systems put the BEV stack in low memory, which means
  * a return to the PXE stack will crash the system.  However,
  * INT 18h works reliably, so in that case hack the stack and
  * point the "return address" to an INT 18h instruction.
  *
  * Hack the stack instead of the much simpler "just invoke INT 18h
  * if we want to reset", so that chainloading other NBPs will work.
  *
  * This manipulates the real-mode InitStack directly.  It relies on this
  * *not* being a currently active stack, i.e. the former
  * USE_PXE_PROVIDED_STACK no longer works.
  *
  * XXX: Disable this until we can find a better way to discriminate
  * between BIOSes that are broken on BEV return and BIOSes which are
  * broken on INT 18h.  Keying on the EFI CSM turns out to cause more
  * problems than it solves.
  */
 extern far_ptr_t InitStack;

 struct efi_struct {
     uint32_t magic;
     uint8_t  csum;
     uint8_t  len;
 } __attribute__((packed));
 #define EFI_MAGIC (('$' << 24)+('E' << 16)+('F' << 8)+'I')

 static inline bool is_efi(const struct efi_struct *efi)
 {
     /*
      * We don't verify the checksum, because it seems some CSMs leave
      * it at zero, sigh...
      */
     return (efi->magic == EFI_MAGIC) && (efi->len >= 83);
 }

 #if 0
 static void install_int18_hack(void)
 {
     static const uint8_t int18_hack[] =
     {
 	0xcd, 0x18,			/* int $0x18 */
 	0xea, 0xf0, 0xff, 0x00, 0xf0,	/* ljmpw $0xf000,$0xfff0 */
 	0xf4				/* hlt */
     };
     uint16_t *retcode;

     retcode = GET_PTR(*(far_ptr_t *)((char *)GET_PTR(InitStack) + 44));

     /* Don't do this if the return already points to int $0x18 */
     if (*retcode != 0x18cd) {
 	uint32_t efi_ptr;
 	bool efi = false;

 	for (efi_ptr = 0xe0000 ; efi_ptr < 0x100000 ; efi_ptr += 16) {
 	    if (is_efi((const struct efi_struct *)efi_ptr)) {
 		efi = true;
 		break;
 	    }
 	}

 	if (efi) {
 	    uint8_t *src = GET_PTR(InitStack);
 	    uint8_t *dst = src - sizeof int18_hack;

 	    memmove(dst, src, 52);
 	    memcpy(dst+52, int18_hack, sizeof int18_hack);
 	    InitStack.offs -= sizeof int18_hack;

 	    /* Clobber the return address */
 	    *(uint16_t *)(dst+44) = OFFS_WRT(dst+52, InitStack.seg);
 	    *(uint16_t *)(dst+46) = InitStack.seg;
 	}
     }
 }
 #endif

 static int pxe_readdir(struct file *file, struct dirent *dirent)
 {
     struct inode *inode = file->inode;
     struct pxe_pvt_inode *socket = PVT(inode);

     if (socket->ops->readdir)
 	return socket->ops->readdir(inode, dirent);
     else
 	return -1;		/* No such operation */
 }

 const struct fs_ops pxe_fs_ops = {
     .fs_name       = "pxe",
     .fs_flags      = FS_NODEV,
     .fs_init       = pxe_fs_init,
     .searchdir     = pxe_searchdir,
     .chdir         = pxe_chdir,
     .realpath      = pxe_realpath,
     .getfssec      = pxe_getfssec,
     .close_file    = pxe_close_file,
     .mangle_name   = pxe_mangle_name,
     .chdir_start   = pxe_chdir_start,
     .open_config   = pxe_open_config,
     .readdir	   = pxe_readdir,
     .fs_uuid       = NULL,
 };
	#include <dprintf.h>
	#include <stdio.h>
	#include <string.h>
	#include <core.h>
	#include <fs.h>
	#include <fcntl.h>
	#include <sys/cpu.h>
	#include "pxe.h"
	#include "thread.h"
	#include "url.h"
	#include "tftp.h"
	#include <net.h>

	__lowmem t_PXENV_UNDI_GET_INFORMATION pxe_undi_info;
	__lowmem t_PXENV_UNDI_GET_IFACE_INFO pxe_undi_iface;

	uint8_t MAC[MAC_MAX]; /* Actual MAC address */
	uint8_t MAC_len; /* MAC address len */
	uint8_t MAC_type; /* MAC address type */

	char boot_file[256]; /* From DHCP */
	char path_prefix[256]; /* From DHCP */

	bool have_uuid = false;

	/*
	* Allocate a local UDP port structure and assign it a local port number.
	* Return the inode pointer if success, or null if failure
	*/
	static struct inode allocate_socket(struct fs_info fs)
	{
	struct inode *inode = alloc_inode(fs, 0, sizeof(struct pxe_pvt_inode));

	if (!inode) {
	malloc_error("socket structure");
	} else {
	inode->mode = DT_REG; /* No other types relevant for PXE */
	}

	return inode;
	}

	void free_socket(struct inode *inode)
	{
	struct pxe_pvt_inode *socket = PVT(inode);

	free(socket->tftp_pktbuf); /* If we allocated a buffer, free it now */
	free_inode(inode);
	}

	static void pxe_close_file(struct file *file)
	{
	struct inode *inode = file->inode;
	struct pxe_pvt_inode *socket = PVT(inode);

	if (!inode)
	return;

	if (!socket->tftp_goteof) {
	socket->ops->close(inode);
	}

	free_socket(inode);
	}

	/*
	* Tests an IP address in _ip_ for validity; return with 0 for bad, 1 for good.
	* We used to refuse class E, but class E addresses are likely to become
	* assignable unicast addresses in the near future.
	*
	*/
	bool ip_ok(uint32_t ip)
	{
	uint8_t ip_hi = (uint8_t)ip; /* First octet of the ip address */

	if (ip == 0xffffffff \|\| /* Refuse the all-ones address */
	ip_hi == 0 \|\| /* Refuse network zero */
	ip_hi == 127 \|\| /* Refuse the loopback network */
	(ip_hi & 240) == 224) /* Refuse class D */
	return false;

	return true;
	}


	/*
	* Take an IP address (in network byte order) in _ip_ and
	* output a dotted quad string to _dst_, returns the length
	* of the dotted quad ip string.
	*
	*/
	static int gendotquad(char *dst, uint32_t ip)
	{
	return sprintf(dst, "%u.%u.%u.%u",
	((const uint8_t *)&ip)[0],
	((const uint8_t *)&ip)[1],
	((const uint8_t *)&ip)[2],
	((const uint8_t *)&ip)[3]);
	}

	/*
	* the ASM pxenv function wrapper, return 1 if error, or 0
	*
	*/
	__export int pxe_call(int opcode, void *data)
	{
	static DECLARE_INIT_SEMAPHORE(pxe_sem, 1);
	extern void pxenv(void);
	com32sys_t regs;

	sem_down(&pxe_sem, 0);

	#if 0
	dprintf("pxe_call op %04x data %p\n", opcode, data);
	#endif

	memset(&regs, 0, sizeof regs);
	regs.ebx.w[0] = opcode;
	regs.es = SEG(data);
	regs.edi.w[0] = OFFS(data);
	call16(pxenv, &regs, &regs);

	sem_up(&pxe_sem);

	return regs.eflags.l & EFLAGS_CF; /* CF SET if fail */
	}

	/*
	* mangle a filename pointed to by _src_ into a buffer pointed
	* to by _dst_; ends on encountering any whitespace.
	*
	* This deliberately does not attempt to do any conversion of
	* pathname separators.
	*
	*/
	static void pxe_mangle_name(char dst, const char src)
	{
	size_t len = FILENAME_MAX-1;

	while (len-- && not_whitespace(*src))
	dst++ = src++;

	*dst = '\0';
	}

	/*
	* Read a single character from the specified pxe inode.
	* Very useful for stepping through http streams and
	* parsing their headers.
	*/
	int pxe_getc(struct inode *inode)
	{
	struct pxe_pvt_inode *socket = PVT(inode);
	unsigned char byte;

	while (!socket->tftp_bytesleft) {
	if (socket->tftp_goteof)
	return -1;

	socket->ops->fill_buffer(inode);
	}

	byte = *socket->tftp_dataptr;
	socket->tftp_bytesleft -= 1;
	socket->tftp_dataptr += 1;

	return byte;
	}

	/*
	* Get a fresh packet if the buffer is drained, and we haven't hit
	* EOF yet. The buffer should be filled immediately after draining!
	*/
	static void fill_buffer(struct inode *inode)
	{
	struct pxe_pvt_inode *socket = PVT(inode);
	if (socket->tftp_bytesleft \|\| socket->tftp_goteof)
	return;

	return socket->ops->fill_buffer(inode);
	}


	/**
	* getfssec: Get multiple clusters from a file, given the starting cluster.
	* In this case, get multiple blocks from a specific TCP connection.
	*
	* @param: fs, the fs_info structure address, in pxe, we don't use this.
	* @param: buf, buffer to store the read data
	* @param: openfile, TFTP socket pointer
	* @param: blocks, 512-byte block count; 0FFFFh = until end of file
	*
	* @return: the bytes read
	*
	*/
	static uint32_t pxe_getfssec(struct file file, char buf,
	int blocks, bool *have_more)
	{
	struct inode *inode = file->inode;
	struct pxe_pvt_inode *socket = PVT(inode);
	int count = blocks;
	int chunk;
	int bytes_read = 0;

	count <<= TFTP_BLOCKSIZE_LG2;
	while (count) {
	fill_buffer(inode); /* If we have no 'fresh' buffer, get it */
	if (!socket->tftp_bytesleft)
	break;

	chunk = count;
	if (chunk > socket->tftp_bytesleft)
	chunk = socket->tftp_bytesleft;
	socket->tftp_bytesleft -= chunk;
	memcpy(buf, socket->tftp_dataptr, chunk);
	socket->tftp_dataptr += chunk;
	buf += chunk;
	bytes_read += chunk;
	count -= chunk;
	}


	if (socket->tftp_bytesleft \|\| (socket->tftp_filepos < inode->size)) {
	fill_buffer(inode);
	*have_more = 1;
	} else if (socket->tftp_goteof) {
	/*
	* The socket is closed and the buffer drained; the caller will
	* call close_file and therefore free the socket.
	*/
	*have_more = 0;
	}

	return bytes_read;
	}

	/*
	* Assign an IP address to a URL
	*/
	static void url_set_ip(struct url_info *url)
	{
	url->ip = 0;
	if (url->host)
	url->ip = pxe_dns(url->host);
	if (!url->ip)
	url->ip = IPInfo.serverip;
	}

	/**
	* Open the specified connection
	*
	* @param:filename, the file we wanna open
	*
	* @out: open_file_t structure, stores in file->open_file
	* @out: the lenght of this file, stores in file->file_len
	*
	*/
	static void __pxe_searchdir(const char filename, int flags, struct file file);
	extern uint16_t PXERetry;

	static void pxe_searchdir(const char filename, int flags, struct file file)
	{
	int i = PXERetry;

	do {
	dprintf("PXE: file = %p, retries left = %d: ", file, i);
	__pxe_searchdir(filename, flags, file);
	dprintf("%s\n", file->inode ? "ok" : "failed");
	} while (!file->inode && i--);
	}
	static void __pxe_searchdir(const char filename, int flags, struct file file)
	{
	struct fs_info *fs = file->fs;
	struct inode *inode;
	char fullpath[2*FILENAME_MAX];
	#if GPXE
	char urlsave[2*FILENAME_MAX];
	#endif
	struct url_info url;
	const struct url_scheme *us = NULL;
	int redirect_count = 0;
	bool found_scheme = false;

	inode = file->inode = NULL;

	while (filename) {
	if (redirect_count++ > 5)
	break;

	strlcpy(fullpath, filename, sizeof fullpath);
	#if GPXE
	strcpy(urlsave, fullpath);
	#endif
	parse_url(&url, fullpath);
	if (url.type == URL_SUFFIX) {
	snprintf(fullpath, sizeof fullpath, "%s%s", fs->cwd_name, filename);
	#if GPXE
	strcpy(urlsave, fullpath);
	#endif
	parse_url(&url, fullpath);
	}

	inode = allocate_socket(fs);
	if (!inode)
	return; /* Allocation failure */

	url_set_ip(&url);

	filename = NULL;
	found_scheme = false;
	for (us = url_schemes; us->name; us++) {
	if (!strcmp(us->name, url.scheme)) {
	if ((flags & ~us->ok_flags & OK_FLAGS_MASK) == 0)
	us->open(&url, flags, inode, &filename);
	found_scheme = true;
	break;
	}
	}

	/* filename here is set on a redirect */
	}

	if (!found_scheme) {
	#if GPXE
	/* No URL scheme found, hand it to GPXE */
	gpxe_open(inode, urlsave);
	#endif
	}

	if (inode->size) {
	file->inode = inode;
	file->inode->mode = (flags & O_DIRECTORY) ? DT_DIR : DT_REG;
	} else {
	free_socket(inode);
	}

	return;
	}


	/*
	* Store standard filename prefix
	*/
	static void get_prefix(void)
	{
	int len;
	char *p;
	char c;

	if (!(DHCPMagic & 0x04)) {
	/* No path prefix option, derive from boot file */

	strlcpy(path_prefix, boot_file, sizeof path_prefix);
	len = strlen(path_prefix);
	p = &path_prefix[len - 1];

	while (len--) {
	c = *p--;
	c \|= 0x20;

	c = (c >= '0' && c <= '9') \|\|
	(c >= 'a' && c <= 'z') \|\|
	(c == '.' \|\| c == '-');
	if (!c)
	break;
	};

	if (len < 0)
	p --;

	(p + 2) = 0; / Zero-terminate after delimiter */
	}

	ddprintf("TFTP prefix: %s\n", path_prefix);

	if (url_type(path_prefix) == URL_SUFFIX) {
	/*
	* Construct a ::-style TFTP path.
	*
	* We may have moved out of the root directory at the time
	* this function is invoked, but to maintain compatibility
	* with versions of Syslinux < 5.00, path_prefix must be
	* relative to "::".
	*/
	p = strdup(path_prefix);
	if (!p)
	return;

	snprintf(path_prefix, sizeof path_prefix, "::%s", p);
	free(p);
	}

	chdir(path_prefix);
	}

	/*
	* realpath for PXE
	*/
	static size_t pxe_realpath(struct fs_info fs, char dst, const char *src,
	size_t bufsize)
	{
	return snprintf(dst, bufsize, "%s%s",
	url_type(src) == URL_SUFFIX ? fs->cwd_name : "", src);
	}

	/*
	* chdir for PXE
	*/
	static int pxe_chdir(struct fs_info fs, const char src)
	{
	/* The cwd for PXE is just a text prefix */
	enum url_type path_type = url_type(src);

	if (path_type == URL_SUFFIX)
	strlcat(fs->cwd_name, src, sizeof fs->cwd_name);
	else
	strlcpy(fs->cwd_name, src, sizeof fs->cwd_name);
	return 0;

	dprintf("cwd = \"%s\"\n", fs->cwd_name);
	return 0;
	}

	static int pxe_chdir_start(void)
	{
	get_prefix();
	return 0;
	}

	/* Load the config file, return -1 if failed, or 0 */
	static int pxe_open_config(struct com32_filedata *filedata)
	{
	const char *cfgprefix = "pxelinux.cfg/";
	const char *default_str = "default";
	char *config_file;
	char *last;
	int tries = 8;

	chdir(path_prefix);
	if (DHCPMagic & 0x02) {
	/* We got a DHCP option, try it first */
	if (open_file(ConfigName, O_RDONLY, filedata) >= 0)
	return 0;
	}

	/*
	* Have to guess config file name ...
	*/
	config_file = stpcpy(ConfigName, cfgprefix);

	/* Try loading by UUID */
	if (sysappend_strings[SYSAPPEND_SYSUUID]) {
	strcpy(config_file, sysappend_strings[SYSAPPEND_SYSUUID]+8);
	if (open_file(ConfigName, O_RDONLY, filedata) >= 0)
	return 0;
	}

	/* Try loading by MAC address */
	strcpy(config_file, sysappend_strings[SYSAPPEND_BOOTIF]+7);
	if (open_file(ConfigName, O_RDONLY, filedata) >= 0)
	return 0;

	/* Nope, try hexadecimal IP prefixes... */
	sprintf(config_file, "%08X", ntohl(IPInfo.myip));
	last = &config_file[8];
	while (tries) {
	last = '\0'; / Zero-terminate string */
	if (open_file(ConfigName, O_RDONLY, filedata) >= 0)
	return 0;
	last--; /* Drop one character */
	tries--;
	};

	/* Final attempt: "default" string */
	strcpy(config_file, default_str);
	if (open_file(ConfigName, O_RDONLY, filedata) >= 0)
	return 0;

	ddprintf("%-68s\n", "Unable to locate configuration file");
	kaboom();
	}

	/*
	* Generate the bootif string.
	*/
	static void make_bootif_string(void)
	{
	static char bootif_str[7+3*(MAC_MAX+1)];
	const uint8_t *src;
	char *dst = bootif_str;
	int i;

	dst += sprintf(dst, "BOOTIF=%02x", MAC_type);
	src = MAC;
	for (i = MAC_len; i; i--)
	dst += sprintf(dst, "-%02x", *src++);

	sysappend_strings[SYSAPPEND_BOOTIF] = bootif_str;
	}

	/*
	* Generate an ip=<client-ip>:<boot-server-ip>:<gw-ip>:<netmask>
	* option into IPOption based on DHCP information in IPInfo.
	*
	*/
	static void genipopt(void)
	{
	static char ip_option[3+4*16];
	const uint32_t *v = &IPInfo.myip;
	char *p;
	int i;

	p = stpcpy(ip_option, "ip=");

	for (i = 0; i < 4; i++) {
	p += gendotquad(p, *v++);
	*p++ = ':';
	}
	*--p = '\0';

	sysappend_strings[SYSAPPEND_IP] = ip_option;
	}


	/* Generate ip= option and print the ip adress */
	static void ip_init(void)
	{
	uint32_t ip = IPInfo.myip;
	char dot_quad_buf[16];

	genipopt();
	gendotquad(dot_quad_buf, ip);

	ip = ntohl(ip);
	ddprintf("My IP address seems to be %08X %s\n", ip, dot_quad_buf);
	}

	/*
	* Network-specific initialization
	*/
	static void network_init(void)
	{
	net_parse_dhcp();

	make_bootif_string();
	/* If DMI and DHCP disagree, which one should we set? */
	if (have_uuid)
	sysappend_set_uuid(uuid);
	ip_init();

	/* print_sysappend(); */
	/*
	* Check to see if we got any PXELINUX-specific DHCP options; in particular,
	* if we didn't get the magic enable, do not recognize any other options.
	*/
	if ((DHCPMagic & 1) == 0)
	DHCPMagic = 0;

	net_core_init();
	}

	/*
	* Initialize pxe fs
	*
	*/
	static int pxe_fs_init(struct fs_info *fs)
	{
	(void)fs; /* drop the compile warning message */

	/* Prepare for handling pxe interrupts */
	pxe_init_isr();

	/* This block size is actually arbitrary... */
	fs->sector_shift = fs->block_shift = TFTP_BLOCKSIZE_LG2;
	fs->sector_size = fs->block_size = 1 << TFTP_BLOCKSIZE_LG2;

	/* Find the PXE stack */
	if (pxe_init(false))
	kaboom();

	/* See if we also have a gPXE stack */
	gpxe_init();

	/* Network-specific initialization */
	network_init();

	/* Initialize network-card-specific idle handling */
	pxe_idle_init();

	/* Our name for the root */
	strcpy(fs->cwd_name, "::");

	return 0;
	}

	/*
	* Look to see if we are on an EFI CSM system. Some EFI
	* CSM systems put the BEV stack in low memory, which means
	* a return to the PXE stack will crash the system. However,
	* INT 18h works reliably, so in that case hack the stack and
	* point the "return address" to an INT 18h instruction.
	*
	* Hack the stack instead of the much simpler "just invoke INT 18h
	* if we want to reset", so that chainloading other NBPs will work.
	*
	* This manipulates the real-mode InitStack directly. It relies on this
	* not being a currently active stack, i.e. the former
	* USE_PXE_PROVIDED_STACK no longer works.
	*
	* XXX: Disable this until we can find a better way to discriminate
	* between BIOSes that are broken on BEV return and BIOSes which are
	* broken on INT 18h. Keying on the EFI CSM turns out to cause more
	* problems than it solves.
	*/
	extern far_ptr_t InitStack;

	struct efi_struct {
	uint32_t magic;
	uint8_t csum;
	uint8_t len;
	} __attribute__((packed));
	#define EFI_MAGIC (('$' << 24)+('E' << 16)+('F' << 8)+'I')

	static inline bool is_efi(const struct efi_struct *efi)
	{
	/*
	* We don't verify the checksum, because it seems some CSMs leave
	* it at zero, sigh...
	*/
	return (efi->magic == EFI_MAGIC) && (efi->len >= 83);
	}

	#if 0
	static void install_int18_hack(void)
	{
	static const uint8_t int18_hack[] =
	{
	0xcd, 0x18, /* int $0x18 */
	0xea, 0xf0, 0xff, 0x00, 0xf0, /* ljmpw $0xf000,$0xfff0 */
	0xf4 /* hlt */
	};
	uint16_t *retcode;

	retcode = GET_PTR((far_ptr_t )((char *)GET_PTR(InitStack) + 44));

	/* Don't do this if the return already points to int $0x18 */
	if (*retcode != 0x18cd) {
	uint32_t efi_ptr;
	bool efi = false;

	for (efi_ptr = 0xe0000 ; efi_ptr < 0x100000 ; efi_ptr += 16) {
	if (is_efi((const struct efi_struct *)efi_ptr)) {
	efi = true;
	break;
	}
	}

	if (efi) {
	uint8_t *src = GET_PTR(InitStack);
	uint8_t *dst = src - sizeof int18_hack;

	memmove(dst, src, 52);
	memcpy(dst+52, int18_hack, sizeof int18_hack);
	InitStack.offs -= sizeof int18_hack;

	/* Clobber the return address */
	(uint16_t )(dst+44) = OFFS_WRT(dst+52, InitStack.seg);
	(uint16_t )(dst+46) = InitStack.seg;
	}
	}
	}
	#endif

	static int pxe_readdir(struct file file, struct dirent dirent)
	{
	struct inode *inode = file->inode;
	struct pxe_pvt_inode *socket = PVT(inode);

	if (socket->ops->readdir)
	return socket->ops->readdir(inode, dirent);
	else
	return -1; /* No such operation */
	}

	const struct fs_ops pxe_fs_ops = {
	.fs_name = "pxe",
	.fs_flags = FS_NODEV,
	.fs_init = pxe_fs_init,
	.searchdir = pxe_searchdir,
	.chdir = pxe_chdir,
	.realpath = pxe_realpath,
	.getfssec = pxe_getfssec,
	.close_file = pxe_close_file,
	.mangle_name = pxe_mangle_name,
	.chdir_start = pxe_chdir_start,
	.open_config = pxe_open_config,
	.readdir = pxe_readdir,
	.fs_uuid = NULL,
	};