/* Offsets of words containing ROM's CS and size (in 512 byte blocks) * from start of floppy boot block at 0x7c00 * Offsets must match those in etherboot.h */ #define FLOPPY_SEGMENT 0x7c0 #define PXENV_UNDI_CLEANUP 0x02 #define PXENV_UNDI_SHUTDOWN 0x05 #define PXENV_STOP_UNDI 0x15 #define PXENV_UNLOAD_STACK 0x70 #define PXENV_STOP_BASE 0x76 #define PUSHA_SIZE 16 #define PXE_STACK_MAGIC 0x57ac /* 'STac' */ .text .code16 .arch i386 .org 0 .section ".prefix", "ax", @progbits .globl _prefix /***************************************************************************** * Entry point: set cs, ds, bp, print welcome message ***************************************************************************** */ _prefix: jmp $FLOPPY_SEGMENT, $code_start-_prefix 10: .asciz "PXE->EB " code_start: pusha /* Preserve all registers */ push %ds movw %sp, %bp /* %bp must be preserved, hence do * this after the pusha */ push $PXE_STACK_MAGIC /* PXE stack magic marker */ push %cs /* Set up data segment */ pop %ds mov $0x40, %cx /* Set up %fs for access to 40:13 */ mov %cx, %fs movw $10b-_prefix, %si /* Print welcome message */ call print_message /***************************************************************************** * Detect type of PXE available (!PXE, PXENV+ or none) ***************************************************************************** */ detect_pxe: les 4+PUSHA_SIZE+2(%bp), %di /* !PXE structure */ cmpl $0x45585021, %es:(%di) /* '!PXE' signature */ je detected_pxe mov $0x5650, %ax int $0x1a cmp $0x564e, %ax jne detected_nothing cmpl $0x4e455850, %es:(%bx) /* 'PXEN' signature */ jne detected_nothing cmpw $0x2b56, %es:4(%bx) /* 'V+' signature */ je detected_pxenv detected_nothing: movw $10f-_prefix, %si call print_message jmp finished_with_error 10: .asciz "No PXE " detected_pxenv: /* es:bx points to PXENV+ structure */ push %es push %bx push %es:0x24(%bx) /* UNDI code segment */ push %es:0x26(%bx) /* UNDI code size */ push %es:0x20(%bx) /* UNDI data segment */ push %es:0x22(%bx) /* UNDI data size */ les %es:0x0a(%bx), %di /* Entry point to %es:%di */ movw $10f-_prefix, %si jmp pxe_setup_done 10: .asciz "PXENV+ " detected_pxe: /* es:di points to !PXE structure */ push %es push %di push %es:0x30(%di) /* UNDI code segment */ push %es:0x36(%di) /* UNDI code size */ push %es:0x28(%di) /* UNDI data segment */ push %es:0x2e(%di) /* UNDI data size */ les %es:0x10(%di), %di /* Entry point to %es:%di */ movw $10f-_prefix, %si jmp pxe_setup_done 10: .asciz "!PXE " pxe_setup_done: mov %es, pxe_entry_segment - _prefix mov %di, pxe_entry_offset - _prefix pop %ax mov %ax, undi_data_size - _prefix pop %ax mov %ax, undi_data_segment - _prefix pop %ax mov %ax, undi_code_size - _prefix pop %ax mov %ax, undi_code_segment - _prefix call print_message pop %di pop %es /* Exit with %es:%di containing structure address */ /***************************************************************************** * Print information about located structure ***************************************************************************** */ print_structure_information: call print_segoff /* %es:%di contains address of structure */ les %ds:(pxe_entry_segoff - _prefix), %di call print_segoff les %ds:(undi_code_segoff - _prefix), %di call print_segoff les %ds:(undi_data_segoff - _prefix), %di call print_segoff /***************************************************************************** * Unload PXE base code and UNDI driver ***************************************************************************** */ #ifdef PXELOADER_KEEP_ALL xor %ax, %ax /* Force zero flag to show success */ jmp do_not_free_base_mem /* Skip the unloading */ #endif /* PXELOADER_KEEP_ALL */ unload_pxe: mov $PXENV_UNLOAD_STACK, %bx call pxe_call mov $PXENV_STOP_UNDI, %bx call pxe_call pushfw /* Ignore PXENV_UNDI_CLEANUP errors */ mov $PXENV_UNDI_CLEANUP, %bx call pxe_call popfw /* On exit, zero flag is set iff all calls were successful */ /***************************************************************************** * Free base memory ***************************************************************************** */ free_base_mem: jnz do_not_free_base_mem /* Using zero flag from unload_pxe */ mov undi_code_segment - _prefix, %bx mov undi_data_segment - _prefix, %cx mov undi_code_size - _prefix, %ax cmp %bx, %cx jb 1f mov %cx, %bx mov undi_data_size - _prefix, %ax 1: add $0x0f, %ax /* Round up to next segment */ shr $4, %ax add %bx, %ax /* Highest segment address into %ax */ add $(1024 / 16 - 1), %ax /* Round up to next kb */ shr $6, %ax /* New free basemem size in %ax */ mov %fs:(0x13), %bx /* Old free base memory in %bx */ mov %ax, %fs:(0x13) /* Store new free base memory size */ /* Note that zero_mem_loop will also zero out our stack, so make * sure the stack is empty at this point. */ mov %ax, %dx sub %bx, %dx /* numberof kb to zero in %dx */ shl $6, %bx /* Segment address into %bx */ zero_mem_loop: mov %bx, %es /* kB boundary into %es:00 */ xor %ax, %ax xor %di, %di mov $0x400, %cx rep stosb /* fill kB with zeroes */ add $(1024 / 16), %bx dec %dx jnz zero_mem_loop /* Will exit here with zero flag set, so no need to set it explicitly * in order to indicate success. */ do_not_free_base_mem: pushf /* Save success (zero) flag status */ mov %fs:(0x13), %ax /* Free base memory in %ax */ call print_hex_word /* Print free base memory */ popf /* Restore success (zero) flag */ /***************************************************************************** * Exit point * Jump to finished with the zero flag set to indicate success, or to * finished_with_error to always report an error ***************************************************************************** */ finished: movw $10f-_prefix, %si jz 1f finished_with_error: movw $20f-_prefix, %si 1: call print_message jmp 99f 10: .asciz " ok\n" 20: .asciz " err\n" /* We place a stack here. It doesn't get used until after all * the above code is finished, so we can happily write all * over it. Putting the stack here ensures that it doesn't * accidentally go over the 512 byte threshold, which would * cause problems when returning via start32's prefix * relocation mechanism. */ _estack: 99: /***************************************************************************** * Run Etherboot main code ***************************************************************************** */ run_etherboot: /* Very temporarily switch stacks to one internal to the * prefix. Do this because the stack provided by the PXE ROM * could be absolutely anywhere, including in an area of * memory that the call to prelocate will vapourise... */ pushw %ss /* PXE stack pointer to ES:DI */ popw %es movw %sp, %di pushw %ds /* Set up stack in "safe" area */ popw %ss movw $_estack-_prefix, %sp pushw %es /* Record PXE stack pointer */ pushw %di /* Relocate payload and stack to claimed base memory */ pushw $4 /* Preserve old PXE stack pointer */ call prelocate popw %ax /* Remove parameter */ pushl $4 /* Preserve old PXE stack pointer */ pushw $0 /* Indicate prefix exit mechanism */ jmp _start /* Run Etherboot */ .section ".text16", "ax", @progbits .globl prefix_exit prefix_exit: pushw %cs /* Set %ds, %bp for access to text */ popw %ds call 1f 1: popw %bp popw %di /* Old PXE stack to %es:di */ popw %es cmpw $PXE_STACK_MAGIC, %es:0(%di) /* See if PXE stack intact */ jne exit_via_int18 exit_via_pxe: /* Stack OK, return to PXE */ push %es /* Restore PXE stack pointer */ pop %ss mov %di, %sp pop %ax /* Discard PXE_STACK_MAGIC marker */ leaw (10f-1b)(%bp), %si call print_exit_message pop %ds /* Restore PXE's DS */ popa /* Restore PXE's other registers */ movw $0, %ax /* Return PXENV_STATUS_SUCCESS */ lret /* Return control to PXE ROM */ 10: .asciz "EB->PXE\r\n" exit_via_int18: /* Stack damaged, do int 18 */ leaw (10f-1b)(%bp), %si call print_exit_message int $0x18 10: .asciz "EB->BIOS\r\n" print_exit_message: movw $0x0007, %bx /* page 0, attribute 7 (normal) */ movb $0x0e, %ah /* write char, tty mode */ 1: lodsb testb %al, %al je 2f int $0x10 jmp 1b 2: ret .globl prefix_exit_end prefix_exit_end: .previous /***************************************************************************** * Subroutine: print character in %al (with LF -> LF,CR translation) ***************************************************************************** */ print_character: movw $0x0007, %bx /* page 0, attribute 7 (normal) */ movb $0x0e, %ah /* write char, tty mode */ cmpb $0x0a, %al /* '\n'? */ jne 1f int $0x10 movb $0x0d, %al 1: int $0x10 ret /***************************************************************************** * Subroutine: print a zero-terminated message starting at %si ***************************************************************************** */ print_message: 1: lodsb testb %al, %al je 2f call print_character jmp 1b 2: ret /***************************************************************************** * Subroutine: print hex word in %ax ***************************************************************************** */ print_hex_word: mov $4, %cx 1: push %ax shr $12, %ax /* Courtesy of Norbert Juffa */ cmp $10, %al sbb $0x69, %al das call print_character pop %ax shl $4, %ax loop 1b ret /***************************************************************************** * Subroutine: print segment:offset address in %es:%di ***************************************************************************** */ print_segoff: push %di push %es pop %ax call print_hex_word movb $0x3a,%al /* ':' */ call print_character pop %ax call print_hex_word mov $0x20, %al /* ' ' */ call print_character ret /***************************************************************************** * Make a PXE API call. Works with either !PXE or PXENV+ API. * Opcode in %bx. pxe_parameter_structure always used. * Returns status code (not exit code) in %bx and prints it. * ORs status code with overall status code in pxe_overall_status, returns * with zero flag set iff all PXE API calls have been successful. ***************************************************************************** */ pxe_call: /* Set up registers for PXENV+ API. %bx already set up */ push %ds pop %es mov $pxe_parameter_structure - _prefix, %di /* Set up stack for !PXE API */ pushw %cs pushw %di pushw %bx /* Make the API call */ lcall *(pxe_entry_segoff - _prefix) /* Reset the stack */ add $6, %sp mov pxe_parameter_structure - _prefix, %ax push %ax call print_hex_word mov $0x20, %ax /* ' ' */ call print_character pop %bx or %bx, pxe_overall_status - _prefix ret /***************************************************************************** * PXE data structures ***************************************************************************** */ pxe_overall_status: .word 0 pxe_entry_segoff: pxe_entry_offset: .word 0 pxe_entry_segment: .word 0 undi_code_segoff: undi_code_size: .word 0 undi_code_segment: .word 0 undi_data_segoff: undi_data_size: .word 0 undi_data_segment: .word 0 pxe_parameter_structure: .word 0 .word 0,0,0,0,0 end_of_pxeloader: .balign 16, 0 payload: