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73774def6b
This patch adds a simple non-driver protection domain sample to serve as an example for defining other non-driver protection domains. It simply performs a ping-pong test of protection domain switching latency during boot, including optional accesses to a private metadata region, and prints out the results.
195 lines
6.5 KiB
Plaintext
195 lines
6.5 KiB
Plaintext
/*
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* Copyright (C) 2015, Intel Corporation. All rights reserved.
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*
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* Redistribution and use in source and binary forms, with or without
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* modification, are permitted provided that the following conditions
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* are met:
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* 1. Redistributions of source code must retain the above copyright
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* notice, this list of conditions and the following disclaimer.
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* 2. Redistributions in binary form must reproduce the above copyright
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* notice, this list of conditions and the following disclaimer in the
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* documentation and/or other materials provided with the distribution.
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*
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* 3. Neither the name of the copyright holder nor the names of its
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* contributors may be used to endorse or promote products derived
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* from this software without specific prior written permission.
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*
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* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
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* ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
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* LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
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* FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
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* COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
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* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
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* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
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* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
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* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
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* STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
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* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED
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* OF THE POSSIBILITY OF SUCH DAMAGE.
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*/
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OUTPUT_FORMAT("elf32-i386")
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ENTRY(start)
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/*
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The TSS-based protection domain implementation does not explicitly reference
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these symbols, so we list them here to prevent them from being garbage-
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collected.
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*/
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EXTERN(stacks_int)
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EXTERN(stacks_exc)
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PHDRS {
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boot_text PT_LOAD;
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text PT_LOAD;
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data PT_LOAD;
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}
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SECTIONS {
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/*
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OS-Dev Wiki says it is common for kernels to start at 1M. Addresses before that
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are used by BIOS/EFI, the bootloader and memory-mapped I/O.
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The UEFI GenFw program inserts a 0x220 byte offset between the image base and
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the .text section. We add that same offset here to align the symbols in the
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UEFI DLL with those in the final UEFI binary to make debugging easier.
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*/
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. = 1M + 0x220;
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/*
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The GenFw program in the EDK2 UEFI toolchain outputs UEFI images with a
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section alignment of at least 32 bytes. Thus, it is desirable to use at
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least that alignment granularity to avoid symbols being shifted from the
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intermediate DLL to the final UEFI image. Such shifting may make
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debugging more difficult by preventing the DLL from being a useful
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source of symbol information. The debugging symbols are not included in
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the final UEFI image.
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*/
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.text.boot : ALIGN (32)
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{
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*(.multiboot)
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/*
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The initial bootstrap code expects to operate in a flat address
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space with an identity mapping between linear and physical
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addresses.
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*/
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*(.boot_text)
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} :boot_text
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/* The post-boot code segments define tight bounds around the code
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section, so this directive resets the virtual address to 0. */
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. = 0;
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/* The virtual address differs from the load address. */
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.text : AT(LOADADDR(.text.boot) + ALIGN(SIZEOF(.text.boot), 32)) ALIGN (32)
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{
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/*
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These BYTE directives emit a UD2 instruction to cause execution to
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halt if the control flow ever deviates to address 0. This also
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prevents other code from being placed at address 0. Some code
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considers a function pointer to address 0 to be a null function
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pointer.
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*/
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BYTE(0x0F);
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BYTE(0x0B);
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*(.text*)
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/*
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An alternative design to eliminate the need for ALIGN directives
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within the AT directives in later sections could have padded
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each section out to a 32-byte boundary. However, that would have
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enabled unneeded software accesses to the padding past the end of actual
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code/data in each section, since segments are also configured based on
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the values of the SIZEOF expressions. As a general principle, accesses
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should be as restricted as is feasible.
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*/
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} :text
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_stext_addr = LOADADDR(.text);
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_etext_addr = LOADADDR(.text) + SIZEOF(.text);
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. = 0;
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.data : AT(ALIGN(_etext_addr, 32)) ALIGN (32)
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{
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*(.main_stack)
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*(.int_stack)
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*(.exc_stack)
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*(.rodata*)
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*(.data*)
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_sdata_kern_startup_func = .;
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KEEP(*(.kern_startup_func))
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_edata_kern_startup_func = .;
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/*
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These could alternatively be treated as read-only data to prevent tampering
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from the user privilege level.
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*/
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_sdata_shared_isr = .;
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KEEP(*(.shared_isr_data*))
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_edata_shared_isr = .;
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} :data
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.bss : ALIGN (32)
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{
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*(COMMON)
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*(.bss*)
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}
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_sdata_addr = LOADADDR(.data);
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_edata_addr = LOADADDR(.bss) + SIZEOF(.bss);
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. = 0;
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.bss.kern (NOLOAD) : AT(ALIGN(_edata_addr, 32)) ALIGN (32)
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{
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/*
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This directive prevents any data from being allocated at address
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zero, since the address 0 is commonly used to represent null
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pointers.
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*/
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LONG(0);
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*(.kern_bss)
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syscalls_entrypoints = .;
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*(.syscall_bss)
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syscalls_entrypoints_end = .;
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}
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_ebss_syscall_addr = LOADADDR(.bss.kern) + SIZEOF(.bss.kern);
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.bss.kern_priv (NOLOAD) : ALIGN (32)
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{
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prot_domains_kern_data = .;
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/*
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The kernel and app protection domain control structures must always
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be placed in the first two slots in this order, so that they have
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well-known protection domain IDs:
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*/
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*(.kern_prot_dom_bss)
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*(.app_prot_dom_bss)
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*(.prot_dom_bss)
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prot_domains_kern_data_end = .;
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*(.gdt_bss_start)
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KEEP(*(.gdt_bss_mid))
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*(.gdt_bss)
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_ebss_gdt_addr = .;
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}
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_sbss_kern_addr = LOADADDR(.bss.kern);
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_ebss_kern_addr = LOADADDR(.bss.kern_priv) + SIZEOF(.bss.kern_priv);
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. = _ebss_kern_addr;
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.bss.meta (NOLOAD) : AT(ALIGN(_ebss_kern_addr, 32)) ALIGN (32)
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{
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*(.meta_bss)
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}
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/* .bss.meta may be empty, so this uses .bss.kern_priv as a base instead: */
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_ebss_pre_dma_addr = ALIGN(ALIGN(_ebss_kern_addr, 32) + SIZEOF(.bss.meta), 32);
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}
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