From a8968330aff45e0b8cf278f49fa337d5fcb9bfd8 Mon Sep 17 00:00:00 2001 From: Alex AUVOLAT Date: Fri, 28 Mar 2014 17:09:15 +0100 Subject: Import and compile code for article 6.5 --- sos-code-article6.5/hwcore/gdt.c | 152 +++++++++++++++++++++++++++++++++++++++ 1 file changed, 152 insertions(+) create mode 100644 sos-code-article6.5/hwcore/gdt.c (limited to 'sos-code-article6.5/hwcore/gdt.c') diff --git a/sos-code-article6.5/hwcore/gdt.c b/sos-code-article6.5/hwcore/gdt.c new file mode 100644 index 0000000..781c9ca --- /dev/null +++ b/sos-code-article6.5/hwcore/gdt.c @@ -0,0 +1,152 @@ +/* Copyright (C) 2004 David Decotigny + Copyright (C) 2003 Thomas Petazzoni + + This program is free software; you can redistribute it and/or + modify it under the terms of the GNU General Public License + as published by the Free Software Foundation; either version 2 + of the License, or (at your option) any later version. + + This program is distributed in the hope that it will be useful, + but WITHOUT ANY WARRANTY; without even the implied warranty of + MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the + GNU General Public License for more details. + + You should have received a copy of the GNU General Public License + along with this program; if not, write to the Free Software + Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, + USA. +*/ +#include "segment.h" + +#include "gdt.h" + + +/** + * The sructure of a segment descriptor. + * + * @see Intel x86 doc, Vol 3, section 3.4.3, figure 3-8. For segment + * types, see section 3.5 + */ +struct x86_segment_descriptor +{ + /* Lowest dword */ + sos_ui16_t limit_15_0; /* Segment limit, bits 15..0 */ + sos_ui16_t base_paged_addr_15_0; /* Base address, bits 15..0 */ + + /* Highest dword */ + sos_ui8_t base_paged_addr_23_16; /* Base address bits 23..16 */ + sos_ui8_t segment_type:4; /* Section 3.4.3.1 (code/data) + and 3.5 (system) of Intel x86 vol 3 */ + sos_ui8_t descriptor_type:1; /* 0=system, 1=Code/Data */ + sos_ui8_t dpl:2; /* Descriptor privilege level */ + sos_ui8_t present:1; + + sos_ui8_t limit_19_16:4; /* Segment limit, bits 19..16 */ + sos_ui8_t custom:1; + sos_ui8_t zero:1; + sos_ui8_t op_size:1; /* 0=16bits instructions, 1=32bits */ + sos_ui8_t granularity:1; /* 0=limit in bytes, 1=limit in pages */ + + sos_ui8_t base_paged_addr_31_24; /* Base address bits 31..24 */ +} __attribute__ ((packed, aligned (8))); + + +/** + * The GDT register, which stores the address and size of the + * GDT. + * + * @see Intel x86 doc vol 3, section 2.4, figure 2-4; and section + * 3.5.1 + */ +struct x86_gdt_register { + /* The maximum GDT offset allowed to access an entry in the GDT */ + sos_ui16_t limit; + + /* This is not exactly a "virtual" address, ie an adddress such as + those of instructions and data; this is a "linear" address, ie an + address in the paged memory. However, in SOS we configure the + segmented memory as a "flat" space: the 0-4GB segment-based (ie + "virtual") addresses directly map to the 0-4GB paged memory (ie + "linear"), so that the "linear" addresses are numerically equal + to the "virtual" addresses: this base_addr will thus be the same + as the address of the gdt array */ + sos_ui32_t base_addr; +} __attribute__((packed, aligned(8))); + + +/** + * Helper macro that builds a Segment descriptor for the virtual + * 0..4GB addresses to be mapped to the linear 0..4GB linear + * addresses. + */ +#define BUILD_GDTE(descr_privilege_level,is_code) \ + ((struct x86_segment_descriptor) { \ + .limit_15_0= 0xffff, \ + .base_paged_addr_15_0= 0, \ + .base_paged_addr_23_16= 0, \ + .segment_type= ((is_code)?0xb:0x3), \ + /* With descriptor_type (below) = 1 (code/data), \ + * see Figure 3-1 of section 3.4.3.1 in Intel \ + * x86 vol 3: \ + * - Code (bit 3 = 1): \ + * bit 0: 1=Accessed \ + * bit 1: 1=Readable \ + * bit 2: 0=Non-Conforming \ + * - Data (bit 3 = 0): \ + * bit 0: 1=Accessed \ + * bit 1: 1=Writable \ + * bit 2: 0=Expand up (stack-related) \ + * For Conforming/non conforming segments, see \ + * Intel x86 Vol 3 section 4.8.1.1 \ + */ \ + .descriptor_type= 1, /* 1=Code/Data */ \ + .dpl= ((descr_privilege_level) & 0x3), \ + .present= 1, \ + .limit_19_16= 0xf, \ + .custom= 0, \ + .op_size= 1, /* 32 bits instr/data */ \ + .granularity= 1 /* limit is in 4kB Pages */ \ + }) + + +/** The actual GDT */ +static struct x86_segment_descriptor gdt[] = { + [SOS_SEG_NULL] = (struct x86_segment_descriptor){ 0, }, + [SOS_SEG_KCODE] = BUILD_GDTE(0, 1), + [SOS_SEG_KDATA] = BUILD_GDTE(0, 0), +}; + +sos_ret_t sos_gdt_subsystem_setup(void) +{ + struct x86_gdt_register gdtr; + + /* Address of the GDT */ + gdtr.base_addr = (sos_ui32_t) gdt; + + /* The limit is the maximum offset in bytes from the base address of + the GDT */ + gdtr.limit = sizeof(gdt) - 1; + + /* Commit the GDT into the CPU, and update the segment + registers. The CS register may only be updated with a long jump + to an absolute address in the given segment (see Intel x86 doc + vol 3, section 4.8.1). */ + asm volatile ("lgdt %0 \n\ + ljmp %1,$1f \n\ + 1: \n\ + movw %2, %%ax \n\ + movw %%ax, %%ss \n\ + movw %%ax, %%ds \n\ + movw %%ax, %%es \n\ + movw %%ax, %%fs \n\ + movw %%ax, %%gs" + : + :"m"(gdtr), + "i"(SOS_BUILD_SEGMENT_REG_VALUE(0, FALSE, SOS_SEG_KCODE)), + "i"(SOS_BUILD_SEGMENT_REG_VALUE(0, FALSE, SOS_SEG_KDATA)) + :"memory","eax"); + + return SOS_OK; +} + + -- cgit v1.2.3