+2011-1-10 signed off by Jason Fleischli <jason.fleischli@hp.com>
+ * Uptake of SUSE patches
+ - add sysfs support for efi vars (formerly /proc/efi/vars)
+ - fix strncpy overflow
+ - fix bzimage alloc
+ - cleanups
+ - support longer command line
+ - yet some more mac fixes
+ - align elilo with latest kernel boot protocol format.
+ - new memory management strategy for initrd and kernel image loading.
+ * add force text mode command line option.
+ * replace error output on GOP handle failed, downgraded to normal
+ print status with more informative output.
+
2009-10-22 signed off by Jason Fleischli <jason.fleischli@hp.com>
* elilo 3.12 release commit
* Added additional #defines for debug levels to reduce the output
subtree
* bugfix loader_probe now correctly errors out if no loaders
registered.
+
2008-01-11 signed off by Jason Fleischli <jason.fleischli@hp.com>
* Various compile warning cleanups.
+
2008-01-03 signed off by Jason Fleischli <jason.fleischli@hp.com>
* Patch contribution from Scott Davilla <davilla@4pi.com>
when x is zero for the first call to add_memory_region, e820_map[-1]
above the e820_map[0] location that should have been zeroed by the
bootloader, the code should not access outside the bounds of
structures.
+
2008-01-03 Jason Fleischli <jason.fleischli@hp.com>
* initrd.c -- Let the allocator decide where to grab the memory from
the efi memory map. Current start_addr=image->start_addr forces the
the image->start_addr resulting in an elilo hang. Leaving start_addr
NULL at initialization forces alloc_pages to get a memory region
sufficient for the size of the initrd image.
+
2007-12-19 Jason Fleischli <jason.fleischli@hp.com>
* bumping version string to 3.8
+
2007-12-19 Jason Fleischli <jason.fleischli@hp.com>
* MORE PATCHES FROM INTEL FOR IA32 X86_64.
* Fix compile warning for cmdline_addr assignment.
EFI framebuffer type ID setting code in ELILO is changed accordingly.
* E820 memory map is added to IA32 to make it possible for
Linux kernel not to depend on EFI memory map on EFI 32.
+
2007-09-27 Jason Fleischli <jason.fleischli@hp.com>
* updating changelog for last commit that was omitted
* incorporating AGriffis patches to enhance parsing
passes root= option to kernel options and accounts for -- option
designation.
+
2007-07-19 Jason Fleischli <jason.fleischli@hp.com>
* Integrated x86_64 support patches from Chandramouli Narayanan
<mouli@linux.intel.com> changes summarized in following bullets.
* x86_64/sysdeps.c -- new file, system stuff for x86_64
* elilo.txt -- documentation update, add Intel to copyright
* README.gnu-efi -- documentation update for x86_64
+
2006-01-27 Alex Williamson <alex.williamson@hp.com>
* Found a couple more places where vmcode isn't zeroed, causing the
option to get carried over to labels it shouldn't.
+
2006-01-09 Brett Johnson <brett@hp.com>
* Released 3.6
+
2005-12-22 Alex Williamson <alex.williamson@hp.com>
* Fixed vmcode_name initialization in textmenu chooser
+
2005-12-01 Alex Williamson <alex.williamson@hp.com>
* Applied patch from Fred Yang <fred.yang@intel.com> to support the
vmm= boot option. This option specifies the kernel image for a
image will be uncompressed into memory before it is provided to the
hypervisor. Any combination of compressed and uncompressed images
can be used for the image and vmm options.
+
2005-09-15 Brett Johnson <brett@hp.com>
* Applied patch from Tristan Gingold to add dcache flush and sync with
icache to gzip and plain loaders. This ommision was just noticed now
due to the much larger caches in Montecito, and the smaller size of
Xen (as compared to the linux kernel).
+
2004-09-27 Brett Johnson <brett@hp.com>
* Increase the hardcoded size of the texmenu chooser menu from 16 to 64
+
2004-09-23 Brett Johnson <brett@hp.com>
* Fix for 924147. Thanks to Stephanie Schaaf <sas@sgi.com> for a patch
that the fix is based on.
+
2004-02-19 Brett Johnson <brett@hp.com>
* Fixed bug where default image initrd would carry over to another
image that was selected interactively (iff the newly selected image
did not have an initrd).
* Added support for subnet-specific config files in netfs.
+
2004-02-17 Brett Johnson <brett@hp.com>
* integrated ia32 compressed kernel support from Matt Tolentino
<matthew.e.tolentino@intel.com>
+
2003-08-20 Stephane Eranian <eranian@hpl.hp.com>
* released 3.4
+
2003-08-19 Stephane Eranian <eranian@hpl.hp.com>
* integrated ia32 updates from Matt
Tolentino <matthew.e.tolentino@intel.com>
+
2003-08-13 Stephane Eranian <eranian@hpl.hp.com>
* updated elilo.txt and netbooting.txt
* fix a bug in choosers/simple.c:print_infos().
* updated simple chooser set of builtin command keys
* command keys are only valid if first on the line
* increase default buffer size and increment when netbooting
+
2003-06-04 Stephane Eranian <eranian@hpl.hp.com>
* fix fs/netfs.c to work with recent version
of EFI (14.61 or higher) which do not have the
TFTP problem anymore. fix submitted by Guy Laborde
+
2003-04-21 Stephane Eranian <eranian@hpl.hp.com>
* ext2fs support is turned off by default to avoid
problems with ext3-formatted partitions.
* added gcc version check. MUST use 3.0 or higher
+
2003-03-03 Stephane Eranian <eranian@hpl.hp.com>
* added check on dev_tab in fs/*fs.c:*_uninstall()
+
2003-02-07 Stephane Eranian <eranian@hpl.hp.com>
* clean up in glue_localfs.c w.r.t. CHAR16 in set_default_path()
* added support for extracting basename of bootloader path
when using BOOTP (DHCP) only. The prefix is then used for all files
open via netfs. Suggestion and initial patch by Guy Laborde from HP.
+
2003-01-28 Stephane Eranian <eranian@hpl.hp.com>
* fix the set_default_path() routine in glue_localfs.c. It would not
correctly get the basename of the devpath. This caused the
elilo.conf not to be found sometimes.
+
2003-01-21 Stephane Eranian <eranian@hpl.hp.com>
* fix bug in glue_netfs.c convert_ip2decstr() which caused some IP
addresses to be incorrectly converted to strings.
+
2002-11-01 Stephane Eranian <eranian@hpl.hp.com>
* fix bug in -r option for IA64. There is no argument to this option.
+
2002-10-15 Stephane Eranian <eranian@hpl.hp.com>
* fixed a double free bug for the kernel memory in case of abort.
(bug spotted by Levent Akyl from Intel)
* released 3.3a
+
2002-09-14 Stephane Eranian <eranian@hpl.hp.com>
* applied patch from Andreas Schwab <schwab@suse.de> to eliloalt.c.
eliloalt dynamically selects a variable in /proc/efi/vars.
+
2002-09-12 Stephane Eranian <eranian@hpl.hp.com>
* removed extra free() from fs/ext2fs.c:ext2fs_init_state().
Bug report and fix by NOMURA Jun'ichi <j-nomura@ce.jp.nec.com>
was bigger than the 128KB limit of EFI causing some weird fimrware
errors. bug reported by OMURA Jun'ichi <j-nomura@ce.jp.nec.com>
* on IA-64 forbid the use of f32-f127 by the compiler (EFI spec)
+
2002-09-10 Stephane Eranian <eranian@hpl.hp.com>
* fix a bug in argify() that was causing an EFI assertion
when aborting at the elilo prompt when netbooted.
+
2002-08-26 Stephane Eranian <eranian@hpl.hp.com>
* fixed devschemes/simple.c to use SPrint() instead of its own buggy
conversion code (spotted by Richard Hirst).
* fix bug in argify() when there was no NULL character in the string.
* released 3.3
+
2002-08-19 Stephane Eranian <eranian@hpl.hp.com>
* added fpswa.txt in the docs directory
* updated elilo.txt
+
2002-08-15 Stephane Eranian <eranian@hpl.hp.com>
* added -F file option for IA-64 to allow a specific fpswa driver to be loaded
* fixed fpswa.c to try and load the driver from all accessible partitions
* added support to load (plain or gzipped) big-endian ELF/ia64 binaries using p_paddr.
* fixed problem in fs/netfs.c causing large (>4MB) binaries to fail the Mftp() call
+
2002-06-13 Stephane Eranian <eranian@hpl.hp.com>
* Changed the despecialization character for the variables from \\ to &
to avoid conflicts with \\ as a path separator
+
2002-06-11 Stephane Eranian <eranian@hpl.hp.com>
* fixed the return value in efi_main(). elilo was always returning
success even in case of failure. Bug reported by Egan Ford <egan@sense.net>
compliant with EFI spec with regards to where it looks for files.
With this patch, elilo will look in the directory it was loaded
from, not on the root of the partition anymore.
+
2002-03-04 Stephane Eranian <eranian@hpl.hp.com>
* released version 3.2
* cleanup some GNU extension in fs/ext2fs.c (variable size array)
* updated all documentation. Added netbooting.txt, simple_chooser.txt,
eliloalt.txt, elilovar.txt
+
2002-02-21 Stephane Eranian <eranian@hpl.hp.com>
* added a Linux utility program (elilovar in tools) to set/read/delete
the EliloAlt EFI variable used to specify an alternate kernel to boot.
* added support for hostname,domain name extraction in fs/netfs.c
* fixed all known bugs in alternate.c
* integrated patch from SGI to fix load offset for relocatable kernels (Jack Steiner, Brent Casavant)
+
2002-02-21 Michael Johnston <michael.johnston@intel.com> and Chris Ahna <christopher.j.ahna@intel.com>
* major update to ia32 support: can now boot 2.4.x, and 2.2.x kernels
+
2002-02-20 Stephane Eranian <eranian@hpl.hp.com>
* fixed missing netfs_fd_free() in case of file not found in netfs.c
+
2002-02-19 Stephane Eranian <eranian@hpl.hp.com>
* added support for substitution variables (vars.c)
* changed the bootparam structure size back to 4kB
* added support to simple to print final command line option with tab key
* got rid of all the \r characters in strings use only \n (adjust emulator)
* added EFICRT0 variable in Makefile to indicate location of loader script+crt0
+
2002-02-14 Stephane Eranian <eranian@hpl.hp.com>
* added support for message= option to simple chooser
* added support for description= option to simple chooser
+
2002-02-13 Stephane Eranian <eranian@hpl.hp.com>
* choosers/textmenu.c: new textmenu chooser (by rhirst@linuxcare.com) used by Debian
* config.c: added support for dynamic global/per-image option management
mode was specified in config file. In this case, we now autoboot
and ignore the prompt directive.
* updated elilo.txt
+
2001-08-15 Brent Casavant <bcasavan@sgi.com>
* fix a bug in config.c:find_option() where it would do
a strXcmp() on a NULL string.
OPTIMFLAGS = -O2
DEBUGFLAGS = -Wall
-CFLAGS = $(OPTIMFLAGS) -fno-strict-aliasing -fpic -fshort-wchar $(DEBUGFLAGS)
+CFLAGS = $(OPTIMFLAGS) -fno-stack-protector -fno-strict-aliasing -fpic -fshort-wchar $(DEBUGFLAGS)
LDFLAGS = -nostdlib -znocombreloc
INSTALL = install
elilo.so: $(FILES)
-elilo.o : elilo.c
+elilo.o : elilo.c $(ARCH)/sysdeps.h
fileops.o : Make.defaults
chooser.o : Make.defaults
}
alloc_add(tmp, size, ALLOC_POOL);
#ifdef DEBUG_MEM
- DBG_PRT((L"alloc: allocated %d bytes @[" PTR_FMT "-" PTR_FMT "]\n", size, tmp, tmp+size));
+ DBG_PRT((L"alloc: allocated %d bytes @[" PTR_FMT "-" PTR_FMT "]", size, tmp, tmp+size));
#endif
return tmp;
}
alloc_add(addr, pgcnt, ALLOC_PAGES);
- DBG_PRT((L"allocator: allocated %d pages @0x%lx\n", pgcnt, tmp));
+ DBG_PRT((L"allocator: allocated %d pages @" PTR_FMT, pgcnt, tmp));
return addr;
}
return;
found:
#ifdef DEBUG_MEM
- DBG_PRT((L"free: %s @" PTR_FMT " size=%d\n",
+ DBG_PRT((L"free: %s @" PTR_FMT " size=%d",
p->type == ALLOC_POOL ? L"Pool": L"Page",
addr, p->size));
#endif
while(used_allocs) {
#ifdef DEBUG_MEM
- DBG_PRT((L"free_all %a @ " PTR_FMT "\n", used_allocs->type == ALLOC_POOL ? "pool" : "pages", used_allocs->addr));
+ DBG_PRT((L"free_all %a @ " PTR_FMT, used_allocs->type == ALLOC_POOL ? "pool" : "pages", used_allocs->addr));
#endif
if (used_allocs->type == ALLOC_POOL)
uefi_call_wrapper(BS->FreePool, 1, used_allocs->addr);
alloc_kmem_anywhere(VOID **start_addr, UINTN pgcnt)
{
void * tmp;
- if ((tmp = alloc_pages(pgcnt, EfiLoaderData, AllocateAnyPages, *start_addr)) == 0) return -1;
+ /*
+ * During "AllocateAnyPages" *start_addr will be ignored.
+ * Therefore we can safely subvert it to reuse this function with
+ * an alloc_kmem_anyhwere_below() semantic...
+ */
+ tmp = alloc_pages(pgcnt, EfiLoaderData,
+ (*start_addr) ? AllocateMaxAddress : AllocateAnyPages,
+ *start_addr);
+ if (tmp == NULL) return -1;
kmem_addr = tmp;
kmem_pgcnt = pgcnt;
free_kmem(VOID)
{
#ifdef DEBUG_MEM
- DBG_PRT((L"free_kmem before (" PTR_FMT ", %d)\n", kmem_addr, kmem_pgcnt));
+ DBG_PRT((L"free_kmem before (" PTR_FMT ", %d)", kmem_addr, kmem_pgcnt));
#endif
if (kmem_addr && kmem_pgcnt != 0) {
free(kmem_addr);
kmem_pgcnt = 0;
}
#ifdef DEBUG_MEM
- DBG_PRT((L"free_kmem after (" PTR_FMT ", %d)\n", kmem_addr, kmem_pgcnt));
+ DBG_PRT((L"free_kmem after (" PTR_FMT ", %d)", kmem_addr, kmem_pgcnt));
#endif
}
*/
Memset(bp, 0, BOOT_PARAM_MEMSIZE);
+ U2ascii(args, cp, cmdline_size);
+
if (sysdeps_create_boot_params(bp, cp, initrd, vmcode, cookie) == -1) return 0;
/*
all: $(TARGET)
-$(TARGET): check-choosers $(TOPDIR)/Make.defaults $(FILES)
+$(TARGET): $(TOPDIR)/Make.defaults $(FILES)
+ @if [ -z "$(FILES)" ]; then \
+ echo "You need to define at least one chooser in Make.defaults"; \
+ exit 1; \
+ fi
$(LD) -o $@ -r $(FILES)
clean:
$(RM) -f $(TARGET) $(FILES)
-
-check-choosers:
- @if [ -n "$(FILES)" ]; then \
- exit 0; \
- else \
- echo "You need to define at least one chooser in Make.defaults"; \
- exit 1; \
- fi
display_label_info(CHAR16 *name)
{
CHAR16 *desc;
- CHAR16 initrd_name[CMDLINE_MAXLEN];
- CHAR16 vmcode_name[CMDLINE_MAXLEN];
+ CHAR16 initrd_name[PATHNAME_MAXLEN];
+ CHAR16 vmcode_name[PATHNAME_MAXLEN];
CHAR16 options_tmp[CMDLINE_MAXLEN];
CHAR16 options[CMDLINE_MAXLEN];
CHAR16 kname[FILENAME_MAXLEN];
# define BOOT_IMG_STR L"BOOT_IMAGE="
CHAR16 buffer[CMDLINE_MAXLEN];
CHAR16 alt_buffer[CMDLINE_MAXLEN];
- CHAR16 initrd_name[CMDLINE_MAXLEN];
- CHAR16 vmcode_name[CMDLINE_MAXLEN];
+ CHAR16 initrd_name[PATHNAME_MAXLEN];
+ CHAR16 vmcode_name[PATHNAME_MAXLEN];
CHAR16 args[CMDLINE_MAXLEN];
- CHAR16 devname[CMDLINE_MAXLEN];
+ CHAR16 devname[PATHNAME_MAXLEN];
CHAR16 dpath[FILENAME_MAXLEN];
CHAR16 *slash_pos, *colon_pos, *backslash_pos;
UINTN len;
if (elilo_opt.prompt) {
console_textmode();
- ret = select_kernel(buffer, sizeof(buffer));
+ ret = select_kernel(buffer, CMDLINE_MAXLEN);
if (ret == -1) return -1;
+ /* this function takes really the number of bytes ... */
argc = argify(buffer,sizeof(buffer), argv);
index = 0;
}
{
# define BOOT_IMG_STR L"BOOT_IMAGE="
CHAR16 label[CMDLINE_MAXLEN];
- CHAR16 initrd_name[CMDLINE_MAXLEN];
- CHAR16 vmcode_name[CMDLINE_MAXLEN];
+ CHAR16 initrd_name[PATHNAME_MAXLEN];
+ CHAR16 vmcode_name[PATHNAME_MAXLEN];
CHAR16 args[CMDLINE_MAXLEN];
- CHAR16 devname[CMDLINE_MAXLEN];
+ CHAR16 devname[PATHNAME_MAXLEN];
CHAR16 dpath[FILENAME_MAXLEN];
CHAR16 *slash_pos, *colon_pos, *backslash_pos;
UINTN len;
*/
#define ELILO_DEFAULT_CONFIG L"elilo.conf"
-#define MAX_STRING CMDLINE_MAXLEN
+#define MAX_STRING 512
#define CONFIG_BUFSIZE 512 /* input buffer size */
/*
struct boot_image *next;
CHAR16 label[MAX_STRING];
CHAR16 kname[FILENAME_MAXLEN];
- CHAR16 options[MAX_STRING];
+ CHAR16 options[CMDLINE_MAXLEN];
CHAR16 initrd[FILENAME_MAXLEN];
CHAR16 vmcode[FILENAME_MAXLEN];
CHAR16 root[FILENAME_MAXLEN];
CHAR16 root[FILENAME_MAXLEN]; /* globally defined root fs */
CHAR16 initrd[FILENAME_MAXLEN];/* globally defined initrd */
CHAR16 vmcode[FILENAME_MAXLEN];/* globally defined boot-time module */
- CHAR16 options[MAX_STRING];
+ CHAR16 options[CMDLINE_MAXLEN];
CHAR16 default_image_name[MAX_STRING];
CHAR16 message_file[MAX_MESSAGES][FILENAME_MAXLEN];
CHAR16 chooser[FILENAME_MAXLEN];/* which image chooser to use */
{
boot_image_t *img, *dfl = global_config.default_image;
- if (dfl) Print(L"\t%s\n", dfl->label);
+ if (dfl) Print(L" %s\n", dfl->label);
for (img = image_list; img; img = img->next) {
- if (img != dfl) Print(L"\t%s\n", img->label);
+ if (img != dfl) Print(L" %s\n", img->label);
}
}
INTN
kernel_load(EFI_HANDLE image, CHAR16 *kname, kdesc_t *kd, memdesc_t *imem, memdesc_t *mmem)
{
- CHAR16 kernel[CMDLINE_MAXLEN];
+ CHAR16 kernel[FILENAME_MAXLEN];
/*
* Do the vm image switch here
#ifndef __ELILO_H__
#define __ELILO_H__
-#define ELILO_VERSION L"3.12"
+#define ELILO_VERSION L"3.14"
#include <efi.h>
#define ROUNDUP(x,a) (((x) + (a) - 1) & ~((a) - 1))
#define ROUNDDOWN(x,a) ((x) & ~((a) - 1))
+#ifndef UINT32_MAX
+#define UINT32_MAX ((UINT32)-1)
+#endif
+
/*
* Elilo Boot modes
*/
#define ELILO_DEFAULT_TIMEOUT ELILO_TIMEOUT_INFINITY
#define ELILO_TIMEOUT_INFINITY (~0UL)
-#define CMDLINE_MAXLEN 512 /* needed by ia32 */
+#define CMDLINE_MAXLEN 2048
+#define PATHNAME_MAXLEN 512
#define FILENAME_MAXLEN 256
#define MAX_ARGS 256
/* Just pick an arbitrary number that's high enough for now :o) */
extern INTN sysdeps_getopt(INTN, INTN, CHAR16 *);
extern VOID sysdeps_print_cmdline_opts(VOID);
extern INTN sysdeps_register_options(VOID);
+extern VOID *sysdeps_checkfix_initrd(VOID *, memdesc_t *);
#define CHAR_SLASH L'/'
#define CHAR_BACKSLASH L'\\'
str2 = str == NULL ? L"Unknown" : str;
- DBG_PRT((L"%s : %-8s : %s\n", dev_tab[idx].name,
+ DBG_PRT((L"%s : %-8s : %s", dev_tab[idx].name,
(dev_tab[idx].fops ? dev_tab[idx].fops->name: L"N/A"), str2));
if (str) FreePool(str);
# XXX: does not trigger recompile when changing filesystem selection
# without doing make clean.
#
-$(TARGET): check-filesystems $(TOPDIR)/Make.defaults $(FILES)
+$(TARGET): $(TOPDIR)/Make.defaults $(FILES)
+ @if [ -z "$(FILES)" ]; then \
+ echo "You need to define at least one filesystem in Make.defaults"; \
+ exit 1; \
+ fi
$(LD) -r -o $@ $(FILES)
clean:
$(RM) -f $(TARGET) $(FILES)
-check-filesystems:
- @if [ -n "$(FILES)" ]; then \
- exit 0; \
- else \
- echo "You need to define at least one filesystem in Make.defaults"; \
- exit 1; \
- fi
-
DBG_PRT((L"localfs_open on %s\n", name));
- status = uefi_call_wrapper(lfs->volume->Open, 5, lfs->volume, &fh, name, EFI_FILE_MODE_READ, 0);
+ status = uefi_call_wrapper(lfs->volume->Open, 5, lfs->volume, &fh, name, EFI_FILE_MODE_READ, (UINT64)0);
if (status == EFI_SUCCESS) {
*fd = LOCALFS_F2FD(fh);
}
static CHAR16 *hexa=L"0123456789ABCDEF";
+static VOID
+convert_mac2hex(UINT8 *hw_addr,INTN l, CHAR16 *str)
+{
+ UINTN i;
+
+ for (i=0 ; i < l; i++) {
+ str[3*i] = hexa[(hw_addr[i] & 0xf0)>>4];
+ str[3*i+1] = hexa[hw_addr[i] & 0x0f];
+ str[3*i+2] = ':';
+ }
+ str[3*l-1]='\0';
+}
+
static VOID
convert_ip2hex(UINT8 *ip, INTN l, CHAR16 *str)
{
set_var(VAR_NETFS_DOMAINAME, info.domainame);
if (info.using_pxe) {
+ DBG_PRT((L"netfs_setdefaults: using_pxe"));
+
status = netfs->netfs_query_layer(netfs, 0, NETFS_CONFIG_LAYER, maxlen, config[0].fname);
if (EFI_ERROR(status)) {
StrnCpy(config[0].fname, NETFS_DEFAULT_CONFIG, maxlen-1);
# endif
# define CONFIG_EXTENSION L".conf\0"
+
+ DBG_PRT((L"netfs_setdefaults: machine specific (!using_pxe)"));
/*
* will try machine/subnet specific files first.
* the filenames are constructed based on the IP(v4) address
StrnCpy(config[6].fname, str, maxlen-1);
StrnCpy(config[6].fname+2, CONFIG_EXTENSION, 6);
+
+ /* use the MAC address as a possible file name as well */
+ convert_mac2hex(info.hw_addr,6,str);
+ StrnCpy(config[7].fname, str, maxlen-1);
+ StrnCpy(config[7].fname+17, CONFIG_EXTENSION, 6);
+
#else
StrnCpy(config[0].fname, NETFS_DEFAULT_CONFIG, maxlen-1);
config[0].fname[maxlen-1] = CHAR_NULL;
kernel_start));
}
- kernel_load_address = kernel_start;
+ kernel_load_address = NULL; /* allocate anywhere! */
if (alloc_kmem(kernel_start, EFI_SIZE_TO_PAGES(kernel_size)) != 0) {
/*
return 0;
}
+VOID *
+sysdeps_checkfix_initrd(VOID *start_addr, memdesc_t *imem)
+{
+ return start_addr;
+}
+
VOID
sysdeps_free_boot_params(boot_params_t *bp)
{
(VOID **)Gop_handle);
if (EFI_ERROR(efi_status) && efi_status != EFI_BUFFER_TOO_SMALL) {
- ERR_PRT((L"LocateHandle GopProtocol failed."));
+ Print(L"LocateHandle GopProtocol failed.\n");
+ Print(L"--Either no graphics head is installed,\n" \
+ "--efi console is set to serial, or,\n" \
+ "--the EFI firmware version of this machine is\n" \
+ "--older than UEFI 2.0. and does not support GOP");
+ Print(L"you can SAFELY IGNORE this error. elilo will\n" \
+ "default to text-mode.\n Alternatively you can " \
+ "now force text mode by setting config variable\n" \
+ "text_mode=1 for x86 in elilo.conf or via cmdline.\n\n");
+ Print(L"However if this is the last text output you see\n" \
+ "ensure that your kernel console command line\n " \
+ "variable matches up with the actual efi boot menu\n" \
+ "console output settings. for example efi console\n\n");
return -1;
}
Gop_handle = alloc(size, 0);
return 0;
}
+VOID *
+sysdeps_checkfix_initrd(VOID *start_addr, memdesc_t *imem)
+{
+ return start_addr;
+}
+
/* Flush data cache [addr; addr + len], and sync with icache. */
void
flush_dcache (CHAR8 *addr, UINT64 len)
load_file(CHAR16 *filename, memdesc_t *image)
{
EFI_STATUS status;
- VOID *start_addr = NULL;
+ /*
+ * Actually using the value from sysdeps_initrd_get_addr()
+ * instead of NULL is no change for ia64!
+ */
+ VOID *start_addr = image->start_addr;
UINTN pgcnt;
UINT64 size = 0;
fops_fd_t fd;
/* round up to get required number of pages (4KB) */
image->pgcnt = pgcnt = EFI_SIZE_TO_PAGES(image->size);
- start_addr = alloc_pages(pgcnt, EfiLoaderData, start_addr ? AllocateAddress : AllocateAnyPages, 0 );
+ start_addr = alloc_pages(pgcnt, EfiLoaderData,
+ start_addr ? AllocateAddress : AllocateAnyPages, start_addr);
+
+ start_addr = sysdeps_checkfix_initrd(start_addr, image);
+
if (start_addr == NULL) {
ERR_PRT((L"Failed to allocate %d pages for %s image", pgcnt,
filename));
{
CHAR16 *res = dst;
- while (size-- && (*dst++ = *src++) != CHAR_NULL);
+ while (size && size-- && (*dst++ = *src++) != CHAR_NULL);
/*
* does the null padding
*/
- while (size-- > 0) *dst++ = CHAR_NULL;
+ while (size && size-- > 0) *dst++ = CHAR_NULL;
return res;
}
{
CHAR8 *res = dst;
- while (size-- && (*dst++ = (CHAR8)*src++) != '\0');
+ while (size && size-- && (*dst++ = (CHAR8)*src++) != '\0');
/*
* does the null padding
*/
- while (size-- > 0) *dst++ = '\0';
+ while (size && size-- > 0) *dst++ = '\0';
return res;
}
{
CHAR8 *res = dst;
- while (size-- && (*dst++ = *src++) != '\0');
+ while (size && size-- && (*dst++ = *src++) != '\0');
/*
* does the null padding
*/
- while (size-- > 0) *dst++ = '\0';
+ while (size && size-- > 0) *dst++ = '\0';
return res;
}
#define ELILOALT_VERSION "0.02"
#define ELILO_ALT_NAME "EliloAlt"
-#define EFIVAR_DIR "/proc/efi/vars"
+#define EFIVAR_DIR "/sys/firmware/efi/vars"
+#define OFIVAR_DIR "/proc/efi/vars"
#define ELILO_ALTVAR EFIVAR_DIR"/"ELILO_ALT_NAME"-00000000-0000-0000-0000-000000000000"
+#define OLILO_ALTVAR OFIVAR_DIR"/"ELILO_ALT_NAME"-00000000-0000-0000-0000-000000000000"
#define EFI_VARIABLE_NON_VOLATILE 0x0000000000000001
#define EFI_VARIABLE_BOOTSERVICE_ACCESS 0x0000000000000002
uint32_t attributes;
} __attribute__((packed)) efi_variable_t;
+static char *efivar_dir = EFIVAR_DIR;
static char *elilo_alt_name = ELILO_ALT_NAME;
+static char *elilo_altvar = ELILO_ALTVAR;
static struct option cmd_options[]={
{ "version", 0, 0, 1},
if (getuid() != 0) {
fatal_error("This program must be run as root\n");
}
- efi_vars = opendir(EFIVAR_DIR);
+ efi_vars = opendir(efivar_dir);
if (efi_vars == NULL) {
- fatal_error("Cannot access %s\n", EFIVAR_DIR);
+ efivar_dir = OFIVAR_DIR;
+ elilo_altvar = OLILO_ALTVAR;
+ efi_vars = opendir(efivar_dir);
+ }
+ if (efi_vars == NULL) {
+ fatal_error("Can access neither %s nor %s\n",
+ EFIVAR_DIR, efivar_dir);
}
if (!find_entry) {
closedir(efi_vars);
break;
}
if (entry == NULL) {
- fatal_error("Cannot find entry in %s\n", EFIVAR_DIR);
+ fatal_error("Cannot find entry in %s\n", efivar_dir);
}
- sprintf(name, "%s/%s", EFIVAR_DIR, entry->d_name);
+ snprintf(name, 1023, "%s/%s", efivar_dir, entry->d_name);
+ name[1023] = 0;
closedir(efi_vars);
return name;
}
check_proc_efi(0);
- fd = open(ELILO_ALTVAR, O_WRONLY);
+ fd = open(elilo_altvar, O_WRONLY);
if (fd == -1) {
fatal_error("variable not defined\n");
}
r = write(fd, &var, sizeof(var));
if (r != sizeof(var)) {
- fatal_error("Variable %s defined but invalid content\n", ELILO_ALTVAR);
+ fatal_error("Variable %s defined but invalid content\n", elilo_altvar);
}
close(fd);
}
check_proc_efi(0);
- fd = open(ELILO_ALTVAR, O_RDONLY);
+ fd = open(elilo_altvar, O_RDONLY);
if (fd == -1) {
fatal_error("variable not defined\n");
}
r = read(fd, &var, sizeof(var));
if (r != sizeof(var)) {
- fatal_error("Variable %s defined but invalid content\n", ELILO_ALTVAR);
+ fatal_error("Variable %s defined but invalid content\n", elilo_altvar);
}
printf("EliloAlt=\"");
for(i=0; i < var.datasize; i+=1){
fd = open(name, O_WRONLY);
if (fd == -1) {
- fatal_error("can't open %s: %s\n", ELILO_ALTVAR, strerror(errno));
+ fatal_error("can't open %s: %s\n", elilo_altvar, strerror(errno));
}
memset(&var, 0, sizeof(var));
r = write(fd, &var, sizeof(var));
if (r != sizeof(var)) {
- fatal_error("Variable %s defined but invalid content %d\n", ELILO_ALTVAR, r);
+ fatal_error("Variable %s defined but invalid content %d\n", elilo_altvar, r);
}
close(fd);
UINTN kernel_size = 0x800000; /* 8M (default x86_64 bzImage size limit) */
+static VOID *
+bzImage_alloc()
+{
+ UINTN pages = EFI_SIZE_TO_PAGES(kernel_size);
+ int reloc_kernel = 0;
+ VOID *kla, *kend = kernel_start + kernel_size;
+ UINT32 kalign, kmask;
+ boot_params_t *ps = param_start;
+
+ /*
+ * Get address for kernel from header, if applicable & available.
+ */
+ if ((ps->s.hdr_major < 2) ||
+ (ps->s.hdr_major == 2 && ps->s.hdr_minor < 5)) {
+ reloc_kernel = 0;
+ } else {
+ if (ps->s.kernel_start >= DEFAULT_KERNEL_START)
+ kernel_start = (void *)(UINT64)ps->s.kernel_start;
+ reloc_kernel = ps->s.relocatable_kernel;
+ kalign = ps->s.kernel_alignment;
+ kmask = kalign - 1;
+ VERB_PRT(3, Print(L"kernel header (%d.%d) suggests kernel "
+ "start at address "PTR_FMT" (%srelocatable!)\n",
+ ps->s.hdr_major, ps->s.hdr_minor, ps->s.kernel_start,
+ (reloc_kernel ? L"": L"not ")));
+ }
+
+ /*
+ * Best effort for old (< 2.6.20) and non-relocatable kernels
+ */
+ if (alloc_kmem(kernel_start, pages) == 0) {
+ VERB_PRT(3, Print(L"kernel_start: "PTR_FMT" kernel_size: %d\n",
+ kernel_start, kernel_size));
+ return kernel_start;
+ } else if ( ! reloc_kernel ) {
+ /*
+ * Couldn't get desired address--just load it anywhere and
+ * (try to) move it later. It's the only chance for non-
+ * relocatable kernels, but it breaks occassionally...
+ */
+ ERR_PRT((L"Kernel header (%d.%d) suggests kernel "
+ "start at address "PTR_FMT" (non relocatable!)\n"
+ "This address is not available, so an attempt"
+ "is made to copy the kernel there later on\n"
+ "BEWARE: this is unsupported and may not work. "
+ "Please update your kernel.\n",
+ ps->s.hdr_major, ps->s.hdr_minor, ps->s.kernel_start));
+ kla = (VOID *)(UINT32_MAX - kernel_size);
+ /* NULL would preserve the "anywhere" semantic, */
+ /* but it would not prevent allocation above 4GB! */
+
+ if (alloc_kmem_anywhere(&kla, pages) != 0) {
+ /* out of luck */
+ return NULL;
+ }
+ VERB_PRT(3, Print(L"kernel_start: "PTR_FMT
+ " kernel_size: %d loading at: "PTR_FMT"\n",
+ kernel_start, kernel_size, kla));
+ return kla;
+ }
+
+
+ /* Is 'ps->s.kernel_alignment' guaranteed to be sane? */
+ if (kalign < EFI_PAGE_SIZE) {
+ kalign = EFI_PAGE_SIZE;
+ kmask = EFI_PAGE_MASK;
+ }
+ DBG_PRT((L"alignment: kernel=0x%x efi_page=0x%x : 0x%x\n",
+ ps->s.kernel_alignment, EFI_PAGE_SIZE, kalign));
+
+ /*
+ * Couldn't get the preferred address, but luckily it's
+ * a relocatable kernel, so ...
+ *
+ * 1. use 'find_kernel_memory()' (like Itanium)
+ * 2. try out the 16 lowest possible aligned addresses (> 0)
+ * 3. get enough memory to align "creatively"
+ * 4. forget alignment (and start praying)...
+ */
+
+ /* 1. */
+ if ((find_kernel_memory(kernel_start, kend, kalign, &kla) != 0) ||
+ (alloc_kmem(kla, pages) != 0)) {
+ kla = NULL;
+ }
+
+ /* 2. */
+ if ( ! kla && (UINT64)kernel_start < kalign ) {
+ int i;
+ for ( i = 1; i < 16 && !kla; i++ ) {
+ VOID *tmp = (VOID *)((UINT64)kalign * i);
+ if (alloc_kmem(tmp, pages) == 0) {
+ kla = tmp;
+ }
+ }
+ }
+
+ /* 3. */
+ if ( ! kla ) {
+ UINTN apages = EFI_SIZE_TO_PAGES(kernel_size + kmask);
+ kla = (VOID *)(UINT32_MAX - kernel_size - kmask);
+
+ if (alloc_kmem_anywhere(&kla, apages) == 0) {
+ kla = (VOID *)(((UINT64)kla + kmask) & ~kmask);
+ } else {
+ kla = NULL;
+ }
+ }
+
+ /* 4. last resort */
+ if ( ! kla ) {
+ kla = (VOID *)(UINT32_MAX - kernel_size);
+ if (alloc_kmem_anywhere(&kla, pages) != 0) {
+ return NULL;
+ }
+ }
+
+ kernel_start = kla;
+ VERB_PRT(1, Print(L"relocating kernel_start: "PTR_FMT
+ " kernel_size: %d\n", kernel_start, kernel_size));
+ return kla;
+}
+
static INTN
bzImage_probe(CHAR16 *kname)
{
* Allocate memory for kernel.
*/
- /*
- * Get correct address for kernel from header, if applicable & available.
- */
- if ((param_start->s.hdr_major == 2) &&
- (param_start->s.hdr_minor >= 6) &&
- (param_start->s.kernel_start >= DEFAULT_KERNEL_START)) {
- kernel_start = (void *)param_start->s.kernel_start;
- VERB_PRT(3, Print(L"kernel header suggests kernel start at address "PTR_FMT"\n",
- kernel_start));
- }
-
- kernel_load_address = kernel_start;
-
- if (alloc_kmem(kernel_start, EFI_SIZE_TO_PAGES(kernel_size)) != 0) {
- /*
- * Couldn't get desired address--just load it anywhere and move it later.
- * (Easier than relocating kernel, and also works with non-relocatable kernels.)
- */
- if (alloc_kmem_anywhere(&kernel_load_address, EFI_SIZE_TO_PAGES(kernel_size)) != 0) {
- ERR_PRT((L"Could not allocate memory for kernel."));
- free(param_start);
- param_start = NULL;
- param_size = 0;
- fops_close(fd);
- return -1;
- }
+ kernel_load_address = bzImage_alloc();
+ if ( ! kernel_load_address ) {
+ ERR_PRT((L"Could not allocate memory for kernel."));
+ free(param_start);
+ param_start = NULL;
+ param_size = 0;
+ fops_close(fd);
+ return -1;
}
- VERB_PRT(3, Print(L"kernel_start: "PTR_FMT" kernel_size: %d loading at: "PTR_FMT"\n",
- kernel_start, kernel_size, kernel_load_address));
-
/*
* Now read the rest of the kernel image into memory.
*/
- DBG_PRT((L"reading kernel image...\n"));
+ Print(L"Loading kernel %s... ", kname);
size = kernel_size;
efi_status = fops_read(fd, kernel_load_address, &size);
if (EFI_ERROR(efi_status) || size < 0x10000) {
- ERR_PRT((L"Error reading kernel image %s.", kname));
+ ERR_PRT((L"Error reading kernel image (0x%x).", efi_status));
free(param_start);
param_start = NULL;
param_size = 0;
fops_close(fd);
free_kmem();
return -1;
+ } else {
+ Print(L" done\n");
}
DBG_PRT((L"kernel image read: %d bytes, %d Kbytes\n", size, size / 1024));
typedef struct {
UINTN legacy_free_boot;
+ UINTN text_mode;
} x86_64_global_config_t;
+#define x86_64_opt_offsetof(option) (&((sys_img_options_t *)(0x0))->option)
+
static x86_64_global_config_t x86_64_gconf;
static config_option_t sysdeps_global_options[]={
{OPT_BOOL, OPT_GLOBAL, L"legacy-free", NULL, NULL, &x86_64_gconf.legacy_free_boot}
};
+static config_option_t sysdeps_image_options[]={
+ {OPT_BOOL, OPT_IMAGE_SYS, L"text-mode", NULL, NULL, x86_64_opt_offsetof(text_mode)}
+};
+
+
/*
* X86_64 operations that need to be done only once and just before
* entering the main loop of the loader
return x86_64_gconf.legacy_free_boot ? 1 : 0;
}
+
+INTN
+x86_64_text_mode(VOID)
+{
+ return (elilo_opt.sys_img_opts &&
+ elilo_opt.sys_img_opts->text_mode == TRUE) ? 1 : 0;
+}
+
INTN
sysdeps_register_options(VOID)
{
ret = register_config_options(sysdeps_global_options,
sizeof(sysdeps_global_options)/sizeof(config_option_t),
OPTIONS_GROUP_GLOBAL);
-#if 0
- /* no per image options yet */
if (ret == -1 ) return ret;
ret = register_config_options(sysdeps_image_options,
sizeof(sysdeps_image_options)/sizeof(config_option_t),
OPTIONS_GROUP_IMAGE);
-#endif
return ret;
}
/* 0x06 */ UINT8 orig_video_mode; /* LDR */
/* 0x07 */ UINT8 orig_video_cols; /* LDR */
-/* 0x08 */ UINT16 unused_1; /* unused */
+/* 0x08 */ UINT16 pad_1; /* unused */
/* %%TBD */
/* 0x0A */ UINT16 orig_ega_bx; /* LDR */
-/* 0x0C */ UINT16 unused_2; /* unused */
+/* 0x0C */ UINT16 pad_2; /* unused */
/* Screen height before passing control to kernel. */
/* 0x0E */ UINT8 orig_video_rows; /* LDR */
/* 0x4E */ UINT32 bios_code_len; /* LDR */
/* 0x52 */ UINT16 bios_data_len; /* LDR */
-/* 0x54 */ UINT8 unused_3[0x2C]; /* unused */
+/* 0x54 */ UINT8 pad_3[0x2C]; /* unused */
/* %%TBD */
/* 0x80 */ UINT8 hd0_info[0x10]; /* LDR */
/* 0xA0 */ UINT16 mca_info_len; /* LDR */
/* 0xA2 */ UINT8 mca_info_buf[0x10]; /* LDR */
-/* 0xB2 */ UINT8 unused_4[0x10E]; /* unused */
+/* 0xB2 */ UINT8 pad_4[0x10E]; /* unused */
/* EFI boot loader signature. */
/* 0x1C0 */ UINT8 efi_loader_sig[4]; /* LDR */
/* Available contiguous extended memory in KB. */
/* 0x1E0 */ UINT32 alt_mem_k; /* LDR */
-/* 0x1E4 */ UINT32 unused_51; /* unused */
+/* 0x1E4 */ UINT32 pad_51; /* unused */
/* 0x1E8 */ UINT8 e820_nrmap;
-/* 0x1E9 */ UINT32 unused_52[2]; /* unused */
+/* 0x1E9 */ UINT32 pad_52[2]; /* unused */
/* Size of setup code in sectors (1 sector == 512 bytes). */
/* 0x1F1 */ UINT8 setup_sectors; /* BLD */
/* 0x1F2 */ UINT16 mount_root_rdonly; /* BLD */
/* %%TBD */
-/* 0x1F4 */ UINT16 sys_size; /* BLD */
+/* 0x1F4 */ UINT32 sys_size; /* BLD */
/* %%TBD */
-/* 0x1F6 */ UINT16 swap_dev; /* BLD */
-
-/* %%TBD */
-/* 0x1F8 */ UINT16 ramdisk_flags; /* BLD */
-#define RAMDISK_PROMPT 0x8000
-#define RAMDISK_LOAD 0x4000
+/* 0x1F8 */ UINT16 ram_size_DNU; /* BLD */
/* %%TBD */
/* 0x1FA */ UINT16 video_mode_flag; /* BLD */
/* %%TBD */
/* 0x1FC */ UINT16 orig_root_dev; /* BLD */
-/* 0x1FE */ UINT8 unused_6; /* unused */
-
/* %%TBD */
-/* 0x1FF */ UINT8 aux_dev_info; /* LDR */
-#define NO_MOUSE 0x00
-#define FOUND_MOUSE 0xAA
+/* 0x1FE */ UINT16 boot_flag; /* ? */
/* Jump past setup data (not used in EFI). */
/* 0x200 */ UINT16 jump; /* BLD */
/* 0x21C */ UINT32 initrd_size; /* LDR */
/* %%TBD */
-/* 0x220 */ UINT32 bootsect_helper; /* BLD */
+/* 0x220 */ UINT32 bootsect_helper_DNU; /* BLD */
/* %%TBD */
/* 0x224 */ UINT16 heap_end_ptr; /* LDR */
/* %%TBD */
-/* 0x226 */ UINT16 unused_7; /* LDR */
+/* 0x226 */ UINT8 ext_loader_ver; /* LDR */
+/* 0x227 */ UINT8 ext_loader_type; /* LDR */
/* 0x228 */ UINT32 cmdline_addr; /* LDR */
-/* 0x22C */ UINT32 unused_8[41];
+/* 0x22C */ UINT32 initrd_addr_max; /* BLD */
+/* 0x230 */ UINT32 kernel_alignment; /* BLD */
+/* 0x234 */ UINT8 relocatable_kernel; /* BLD */
+/* 0x235 */ UINT8 pad_8[3];
+/* 0x238 */ UINT32 pad_9[38];
/* 0x2D0 */ UINT8 e820_map[2560];
} s;
} boot_params_t;
extern UINTN rmswitch_size;
extern INTN x86_64_use_legacy_free_boot();
+extern INTN x86_64_text_mode();
/*
* How to jump to kernel code
UINT16 kernel_cs;
} jumpvector;
VOID *jump_start;
- uint64_t temp;
/*
* Disable interrupts.
asm volatile ( "cli" : : );
/*
- * Relocate kernel (if needed), and initrd (if present).
- * Copy kernel first, in case kernel was loaded overlapping where we're
- * planning to copy the initrd. This assumes that the initrd didn't
- * get loaded overlapping where we're planning to copy the kernel, but
- * that's pretty unlikely since we couldn't alloc that space for the
- * kernel (or the kernel would already be there).
+ * Relocate kernel (if needed).
+ * This assumes that the initrd didn't get loaded overlapping where
+ * we're planning to copy the kernel, but that's pretty unlikely
+ * since we couldn't alloc that space for the kernel (or the kernel
+ * would already be there).
*/
if (kernel_start != kernel_load_address) {
MEMCPY(kernel_start, kernel_load_address, kernel_size);
}
- if (bp->s.initrd_start) {
- temp = bp->s.initrd_start;
- MEMCPY(INITRD_START, temp , bp->s.initrd_size);
- bp->s.initrd_start = INITRD_START;
- }
/*
* Copy boot sector, setup data and command line
* to final resting place. We need to copy
}
typedef struct sys_img_options {
- UINT8 nothing_yet;
+ UINT8 dummy; /* forces non-zero offset for first field */
+ UINT8 text_mode; /* do not try to initialize Graphics Output Protocol */
} sys_img_options_t;
#endif /* __ELILO_SYSDEPS_X86_64_H__ */
*/
#include <efi.h>
#include <efilib.h>
+#include <string.h>
#include "elilo.h"
#include "loader.h"
#include "rmswitch.h"
+#define DEBUG_CREATE_BOOT_PARAMS 0
+#if DEBUG_CREATE_BOOT_PARAMS
+#define DPR(a) do { if (elilo_opt.debug) { Print a; } } while ( 0 )
+#else
+#define DPR(a)
+#endif
+
extern loader_ops_t bzimage_loader, plain_loader, gzip_loader;
/*
UINTN high_ext_mem = 32 * 1024 * 1024;
/* This starting address will hold true for all of the loader types for now */
-VOID *kernel_start = (void *)DEFAULT_KERNEL_START;
+VOID *kernel_start = (VOID *)DEFAULT_KERNEL_START;
/* The kernel may load elsewhere if EFI firmware reserves kernel_start */
-VOID *kernel_load_address = DEFAULT_KERNEL_START;
+VOID *kernel_load_address = (VOID *)DEFAULT_KERNEL_START;
VOID *initrd_start = NULL;
UINTN initrd_size = 0;
+INTN e820_map_overflow = 0;
+
INTN
sysdeps_init(EFI_HANDLE dev)
{
/*
* initrd_get_addr()
* Compute a starting address for the initial RAMdisk image.
- * For now, this image is placed immediately after the end of
- * the kernel memory. Inside the start_kernel() code, the
- * RAMdisk image will be relocated to the top of available
- * extended memory.
+ * For now we suggest 'initrd_addr_max' with room for 32MB,
+ * as image->pgcnt is not initialized yet.
*/
INTN
sysdeps_initrd_get_addr(kdesc_t *kd, memdesc_t *imem)
return -1;
}
- VERB_PRT(3, Print(L"kstart="PTR_FMT" kentry="PTR_FMT" kend="PTR_FMT"\n",
- kd->kstart, kd->kentry, kd->kend));
+ VERB_PRT(3, Print(L"initrd_addr_max="PTR_FMT" reserve=%d\n",
+ param_start->s.initrd_addr_max, 32*MB));
- imem->start_addr = kd->kend;
+ imem->start_addr = (VOID *)
+ (((UINT64)param_start->s.initrd_addr_max - 32*MB + 1)
+ & ~EFI_PAGE_MASK);
VERB_PRT(3, Print(L"initrd start_addr="PTR_FMT" pgcnt=%d\n",
imem->start_addr, imem->pgcnt));
return 0;
}
+
+/*
+ * checkfix_initrd()
+ * Check and possibly fix allocation of initrd memory.
+ */
+VOID *
+sysdeps_checkfix_initrd(VOID *start_addr, memdesc_t *imem)
+{
+ UINTN pgcnt = EFI_SIZE_TO_PAGES(imem->size);
+ UINT64 initrd_addr_max = (UINT64)param_start->s.initrd_addr_max;
+ UINT64 ki_max = initrd_addr_max - imem->size + 1;
+ VOID *ki_max_addr;
+
+ VERB_PRT( 3, Print(L"loadfile: start_addr="PTR_FMT
+ " ki_max_addr="PTR_FMT"\n", start_addr, (VOID *)ki_max));
+ if (ki_max > UINT32_MAX) {
+ ERR_PRT((L"Force kernel specified initrd_addr_max="PTR_FMT
+ " below 4GB\n", (VOID *)initrd_addr_max));
+ ki_max = UINT32_MAX - imem->size + 1;
+ }
+ ki_max_addr = (VOID *)ki_max;
+
+ if ((UINT64)start_addr > ki_max) {
+ VERB_PRT(1, Print(L"initrd start_addr="PTR_FMT" above "
+ "limit="PTR_FMT"\n", start_addr, ki_max_addr));
+ free(start_addr);
+ start_addr = NULL;
+ }
+ /* so either the initial allocation failed or it's been to high! */
+ if (start_addr == NULL) {
+ start_addr = alloc_pages(pgcnt, EfiLoaderData,
+ AllocateMaxAddress, ki_max_addr);
+ }
+ if ((UINT64)start_addr > ki_max) {
+ ERR_PRT((L"Failed to allocate %d pages below %dMB",
+ pgcnt, (param_start->s.initrd_addr_max+1)>>20));
+ free(start_addr);
+ start_addr = NULL;
+ }
+ return start_addr;
+}
+
VOID
sysdeps_free_boot_params(boot_params_t *bp)
{
UINTN size1;
UINT8 i;
+ if (x86_64_text_mode() == 1) {
+ Print((L"Skip GOP init, force text-mode.\n"));
+ return -1;
+ }
efi_status = uefi_call_wrapper(
BS->LocateHandle,
5,
(VOID **)Gop_handle);
if (EFI_ERROR(efi_status) && efi_status != EFI_BUFFER_TOO_SMALL) {
- ERR_PRT((L"LocateHandle GopProtocol failed."));
+ Print(L"LocateHandle GopProtocol failed.\n");
+ Print(L"--Either no graphics head is installed,\n" \
+ "--efi console is set to serial, or,\n" \
+ "--the EFI firmware version of this machine is\n" \
+ "--older than UEFI 2.0. and does not support GOP");
+ Print(L"you can SAFELY IGNORE this error. elilo will\n" \
+ "default to text-mode.\n Alternatively you can " \
+ "now force text mode by setting config variable\n" \
+ "text_mode=1 for x86 in elilo.conf or via cmdline.\n\n");
+ Print(L"However if this is the last text output you see\n" \
+ "ensure that your kernel console command line\n " \
+ "variable matches up with the actual efi boot menu\n" \
+ "console output settings.\n\n");
return -1;
}
Gop_handle = alloc(size, 0);
return 0;
}
+CHAR16 *
+StrStr(IN const CHAR16 *h, IN const CHAR16 *n)
+{
+ const CHAR16 *t = h;
+ CHAR16 *res;
+ int len = 0, i;
+
+ len = StrLen((CHAR16 *)n);
+ while(*t != CHAR_NULL) {
+ res = StrChr( t, n[0]);
+ if (!res) return res;
+ for( i = 1; i < len && res[i] != CHAR_NULL && res[i] == n[i]; i++);
+ if ( i == len ) return res;
+ t = res + 1;
+ if (t > h + CMDLINE_MAXLEN) return (CHAR16 *)0;
+ }
+
+ return (CHAR16 *)0;
+}
+
+CHAR8 *
+StrStr8(IN const CHAR8 *h, IN const CHAR8 *n)
+{
+ const CHAR8 *t = h;
+ CHAR8 *res;
+ int len = 0, i;
+
+ len = strlena((CHAR8 *)n);
+ while(*t != 0) {
+ res = strchra( t, n[0]);
+ if (!res) return res;
+ for( i = 1; i < len && res[i] != 0 && res[i] == n[i]; i++);
+ if ( i == len ) return res;
+ t = res + 1;
+ if (t > (h + CMDLINE_MAXLEN)) return (CHAR8 *)0;
+ }
+
+ return (CHAR8 *)0;
+}
+
/* Convert EFI memory map to E820 map for the operating system
* This code is based on a Linux kernel patch submitted by Edgar Hucek
*/
+#if DEBUG_CREATE_BOOT_PARAMS
+static int e820_max = 6;
+#else
+static int e820_max = E820_MAX;
+#endif
+
/* Add a memory region to the e820 map */
static void add_memory_region (struct e820entry *e820_map,
int *e820_nr_map,
unsigned int type)
{
int x = *e820_nr_map;
+ static unsigned long long estart = 0ULL;
+ static unsigned long esize = 0L;
+ static unsigned int etype = -1;
+ static int merge = 0;
- if (x == E820_MAX) {
- Print(L"Too many entries in the memory map!\n");
- return;
- }
+ if (x == 0)
+ DPR((L"AMR: %3s %4s %16s/%12s/%s\n",
+ L"idx", L" ", L"start", L"size", L"type"));
+ /* merge adjacent regions of same type */
if ((x > 0) && e820_map[x-1].addr + e820_map[x-1].size == start
- && e820_map[x-1].type == type)
+ && e820_map[x-1].type == type) {
e820_map[x-1].size += size;
- else {
+ estart = e820_map[x-1].addr;
+ esize = e820_map[x-1].size;
+ etype = e820_map[x-1].type;
+ merge++;
+ return;
+ }
+ /* fill up to E820_MAX */
+ if ( x < e820_max ) {
e820_map[x].addr = start;
e820_map[x].size = size;
e820_map[x].type = type;
(*e820_nr_map)++;
+ if (merge) DPR((L"AMR: %3d ==> %016llx/%012lx/%d (%d)\n",
+ x-1, estart, esize, etype, merge));
+ merge=0;
+ DPR((L"AMR: %3d add %016llx/%012lx/%d\n",
+ x, start, size, type));
+ return;
}
+ /* different type means another region didn't fit */
+ /* or same type, but there's a hole */
+ if (etype != type || (estart + esize) != start) {
+ if (merge) DPR((L"AMR: %3d ===> %016llx/%012lx/%d (%d)\n",
+ e820_map_overflow, estart, esize, etype, merge));
+ merge = 0;
+ estart = start;
+ esize = size;
+ etype = type;
+ e820_map_overflow++;
+ DPR((L"AMR: %3d OVER %016llx/%012lx/%d\n",
+ e820_map_overflow, start, size, type));
+ return;
+ }
+ /* same type and no hole, merge it */
+ estart += esize;
+ esize += size;
+ merge++;
}
void fill_e820map(boot_params_t *bp, mmap_desc_t *mdesc)
break;
default:
/* We should not hit this case */
+ DBG_PRT((L"hit default!?"));
add_memory_region(e820_map, &e820_nr_map,
md->PhysicalStart,
md->NumberOfPages << EFI_PAGE_SHIFT,
/*
* x86_64 specific boot parameters initialization routine
+ *
+ * Note: debug and verbose messages have already been turned off!
*/
INTN
sysdeps_create_boot_params(
UINT8 row, col;
UINT8 mode;
UINT16 hdr_version;
+ UINT8 e820_map_overflow_warned = 0;
+
+#if DEBUG_CREATE_BOOT_PARAMS
+ elilo_opt.debug=1;
+ elilo_opt.verbose=5;
+#endif
DBG_PRT((L"fill_boot_params()\n"));
hdr_version = (bp->s.hdr_major << 8) | bp->s.hdr_minor;
/*
- * Clear out unused memory in boot sector image.
+ * Do NOT clear out unknown memory in boot sector image.
+ * This breaks boot protocol >= 2.10 (2.6.31).
*/
- bp->s.unused_1 = 0;
- bp->s.unused_2 = 0;
- ZeroMem(&bp->s.unused_3, sizeof bp->s.unused_3);
- ZeroMem(&bp->s.unused_4, sizeof bp->s.unused_4);
- ZeroMem(&bp->s.unused_51, sizeof bp->s.unused_51);
- ZeroMem(&bp->s.unused_52, sizeof bp->s.unused_52);
- bp->s.unused_6 = 0;
- bp->s.unused_7 = 0;
- ZeroMem(bp->s.unused_8, sizeof bp->s.unused_8);
/*
* Tell kernel this was loaded by an advanced loader type.
DBG_PRT((L"initrd->start_addr="PTR_FMT" initrd->pgcnt=%d\n",
initrd->start_addr, initrd->pgcnt));
- /* These RAMdisk flags are not needed, just zero them. */
- bp->s.ramdisk_flags = 0;
+ /* These RAMdisk flags are not needed, just zero them. NOT!*/
+ /* 'ramdisk_flags' (@0x1F8) is called 'ram_size' in the meantime, */
+ /* see Documentation/x86/boot.txt. */
if (initrd->start_addr && initrd->pgcnt) {
+ if ( (UINT64)initrd->start_addr > UINT32_MAX ) {
+ ERR_PRT((L"Start of initrd out of reach (>4GB)."));
+ free_kmem();
+ return -1;
+ }
/* %%TBD - This will probably have to be changed. */
bp->s.initrd_start = (UINT32)(UINT64)initrd->start_addr;
bp->s.initrd_size = (UINT32)(initrd->size);
- /*
- * This is the RAMdisk root device for RedHat 2.2.x
- * kernels (major 0x01, minor 0x00).
- */
-
- bp->s.orig_root_dev = 0x0100;
} else {
bp->s.initrd_start = 0;
bp->s.initrd_size = 0;
bp->s.mca_info_len = 0;
ZeroMem(bp->s.mca_info_buf, sizeof bp->s.mca_info_buf);
- /*
- * Pointing device presence. The kernel will detect this.
- */
- bp->s.aux_dev_info = NO_MOUSE;
-
/*
* EFI loader signature
*/
/*
* Kernel entry point.
*/
+ if ( (UINT64)kernel_start != (UINT32)(UINT64)kernel_start ) {
+ ERR_PRT((L"Start of kernel (will be) out of reach (>4GB)."));
+ free_kmem();
+ return -1;
+ }
bp->s.kernel_start = (UINT32)(UINT64)kernel_start;
/*
CHECK_OFFSET(setup_sectors, 0x1F1, L"%xh");
CHECK_OFFSET(mount_root_rdonly, 0x1F2, L"%xh");
CHECK_OFFSET(sys_size, 0x1F4, L"%xh");
- CHECK_OFFSET(swap_dev, 0x1F6, L"%xh");
- CHECK_OFFSET(ramdisk_flags, 0x1F8, L"%xh");
CHECK_OFFSET(video_mode_flag, 0x1FA, L"%xh");
CHECK_OFFSET(orig_root_dev, 0x1FC, L"%xh");
- CHECK_OFFSET(aux_dev_info, 0x1FF, L"%xh");
+ CHECK_OFFSET(boot_flag, 0x1FE, L"%xh");
CHECK_OFFSET(jump, 0x200, L"%xh");
CHECK_OFFSET(setup_sig, 0x202, L"'%-4.4a'");
CHECK_OFFSET(hdr_minor, 0x206, L"%xh");
CHECK_OFFSET(kernel_start, 0x214, L"%xh");
CHECK_OFFSET(initrd_start, 0x218, L"%xh");
CHECK_OFFSET(initrd_size, 0x21C, L"%xh");
- CHECK_OFFSET(bootsect_helper, 0x220, L"%xh");
CHECK_OFFSET(heap_end_ptr, 0x224, L"%xh");
CHECK_OFFSET(cmdline_addr, 0x228, L"%xh");
+ CHECK_OFFSET(e820_map, 0x2D0, L"%xh");
if (test) {
ERR_PRT((L"Boot sector and/or setup parameter alignment error."));
* and update the bootparam accordingly
*/
fill_e820map(bp, &mdesc);
+
+#if DEBUG_CREATE_BOOT_PARAMS
+ if ( e820_map_overflow == 0 )
+ e820_map_overflow = -1; /* force second get_memmap()! */
+#endif
+ if (e820_map_overflow && !e820_map_overflow_warned) {
+ CHAR8 *aem = (CHAR8 *)"add_efi_memmap";
+ e820_map_overflow_warned++;
+
+#if DEBUG_CREATE_BOOT_PARAMS
+ elilo_opt.debug=0;
+ elilo_opt.verbose=0;
+#endif
+ if (e820_map_overflow == -1 || StrStr8(cmdline, aem)) {
+ /* Print(L"...mapping again, silently!\n"); */
+ goto do_memmap;
+ }
+
+ Print(L"\nCAUTION: EFI memory map has %d more entr%a"
+ " than E820 map supports.\n"
+ "To access all memory, '%a' may be necessary.\n\n",
+ e820_map_overflow, (e820_map_overflow==1)?"y":"ies",
+ aem);
+ goto do_memmap;
+ }
return 0;
}