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|
/*
* This file is part of the coreboot project.
*
* Copyright (C) 2015 Timothy Pearson <tpearson@raptorengineeringinc.com>, Raptor Engineering
* Copyright (C) 2009 Rudolf Marek <r.marek@assembler.cz>
*
* 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; version 2 of the License.
*
* 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.
*/
/* How much nesting do we support? */
#define ACPIGEN_LENSTACK_SIZE 10
/*
* If you need to change this, change acpigen_write_len_f and
* acpigen_pop_len
*/
#define ACPIGEN_MAXLEN 0xfffff
#include <lib.h>
#include <string.h>
#include <arch/acpigen.h>
#include <console/console.h>
#include <device/device.h>
static char *gencurrent;
char *len_stack[ACPIGEN_LENSTACK_SIZE];
int ltop = 0;
void acpigen_write_len_f(void)
{
ASSERT(ltop < (ACPIGEN_LENSTACK_SIZE - 1))
len_stack[ltop++] = gencurrent;
acpigen_emit_byte(0);
acpigen_emit_byte(0);
acpigen_emit_byte(0);
}
void acpigen_pop_len(void)
{
int len;
ASSERT(ltop > 0)
char *p = len_stack[--ltop];
len = gencurrent - p;
ASSERT(len <= ACPIGEN_MAXLEN)
/* generate store length for 0xfffff max */
p[0] = (0x80 | (len & 0xf));
p[1] = (len >> 4 & 0xff);
p[2] = (len >> 12 & 0xff);
}
void acpigen_set_current(char *curr)
{
gencurrent = curr;
}
char *acpigen_get_current(void)
{
return gencurrent;
}
void acpigen_emit_byte(unsigned char b)
{
(*gencurrent++) = b;
}
void acpigen_emit_ext_op(uint8_t op)
{
acpigen_emit_byte(EXT_OP_PREFIX);
acpigen_emit_byte(op);
}
void acpigen_emit_word(unsigned int data)
{
acpigen_emit_byte(data & 0xff);
acpigen_emit_byte((data >> 8) & 0xff);
}
void acpigen_emit_dword(unsigned int data)
{
acpigen_emit_byte(data & 0xff);
acpigen_emit_byte((data >> 8) & 0xff);
acpigen_emit_byte((data >> 16) & 0xff);
acpigen_emit_byte((data >> 24) & 0xff);
}
char *acpigen_write_package(int nr_el)
{
char *p;
acpigen_emit_byte(PACKAGE_OP);
acpigen_write_len_f();
p = acpigen_get_current();
acpigen_emit_byte(nr_el);
return p;
}
void acpigen_write_byte(unsigned int data)
{
acpigen_emit_byte(BYTE_PREFIX);
acpigen_emit_byte(data & 0xff);
}
void acpigen_write_word(unsigned int data)
{
acpigen_emit_byte(WORD_PREFIX);
acpigen_emit_word(data);
}
void acpigen_write_dword(unsigned int data)
{
acpigen_emit_byte(DWORD_PREFIX);
acpigen_emit_dword(data);
}
void acpigen_write_qword(uint64_t data)
{
acpigen_emit_byte(QWORD_PREFIX);
acpigen_emit_dword(data & 0xffffffff);
acpigen_emit_dword((data >> 32) & 0xffffffff);
}
void acpigen_write_zero(void)
{
acpigen_emit_byte(ZERO_OP);
}
void acpigen_write_one(void)
{
acpigen_emit_byte(ONE_OP);
}
void acpigen_write_ones(void)
{
acpigen_emit_byte(ONES_OP);
}
void acpigen_write_integer(uint64_t data)
{
if (data == 0)
acpigen_write_zero();
else if (data == 1)
acpigen_write_one();
else if (data <= 0xff)
acpigen_write_byte((unsigned char)data);
else if (data <= 0xffff)
acpigen_write_word((unsigned int)data);
else if (data <= 0xffffffff)
acpigen_write_dword((unsigned int)data);
else
acpigen_write_qword(data);
}
void acpigen_write_name_zero(const char *name)
{
acpigen_write_name(name);
acpigen_write_one();
}
void acpigen_write_name_one(const char *name)
{
acpigen_write_name(name);
acpigen_write_zero();
}
void acpigen_write_name_byte(const char *name, uint8_t val)
{
acpigen_write_name(name);
acpigen_write_byte(val);
}
void acpigen_write_name_dword(const char *name, uint32_t val)
{
acpigen_write_name(name);
acpigen_write_dword(val);
}
void acpigen_write_name_qword(const char *name, uint64_t val)
{
acpigen_write_name(name);
acpigen_write_qword(val);
}
void acpigen_write_name_integer(const char *name, uint64_t val)
{
acpigen_write_name(name);
acpigen_write_integer(val);
}
void acpigen_write_name_string(const char *name, const char *string)
{
acpigen_write_name(name);
acpigen_write_string(string);
}
void acpigen_emit_stream(const char *data, int size)
{
int i;
for (i = 0; i < size; i++) {
acpigen_emit_byte(data[i]);
}
}
void acpigen_emit_string(const char *string)
{
acpigen_emit_stream(string, string ? strlen(string) : 0);
acpigen_emit_byte('\0'); /* NUL */
}
void acpigen_write_string(const char *string)
{
acpigen_emit_byte(STRING_PREFIX);
acpigen_emit_string(string);
}
void acpigen_write_coreboot_hid(enum coreboot_acpi_ids id)
{
char hid[9]; /* CORExxxx */
snprintf(hid, sizeof(hid), "%.4s%04X", COREBOOT_ACPI_ID, id);
acpigen_write_name_string("_HID", hid);
}
/*
* The naming conventions for ACPI namespace names are a bit tricky as
* each element has to be 4 chars wide ("All names are a fixed 32 bits.")
* and "By convention, when an ASL compiler pads a name shorter than 4
* characters, it is done so with trailing underscores ('_')".
*
* Check sections 5.3, 18.2.2 and 18.4 of ACPI spec 3.0 for details.
*/
static void acpigen_emit_simple_namestring(const char *name) {
int i;
char ud[] = "____";
for (i = 0; i < 4; i++) {
if ((name[i] == '\0') || (name[i] == '.')) {
acpigen_emit_stream(ud, 4 - i);
break;
} else {
acpigen_emit_byte(name[i]);
}
}
}
static void acpigen_emit_double_namestring(const char *name, int dotpos) {
acpigen_emit_byte(DUAL_NAME_PREFIX);
acpigen_emit_simple_namestring(name);
acpigen_emit_simple_namestring(&name[dotpos + 1]);
}
static void acpigen_emit_multi_namestring(const char *name) {
int count = 0;
unsigned char *pathlen;
acpigen_emit_byte(MULTI_NAME_PREFIX);
acpigen_emit_byte(ZERO_OP);
pathlen = ((unsigned char *) acpigen_get_current()) - 1;
while (name[0] != '\0') {
acpigen_emit_simple_namestring(name);
/* find end or next entity */
while ((name[0] != '.') && (name[0] != '\0'))
name++;
/* forward to next */
if (name[0] == '.')
name++;
count++;
}
pathlen[0] = count;
}
void acpigen_emit_namestring(const char *namepath) {
int dotcount = 0, i;
int dotpos = 0;
/* We can start with a '\'. */
if (namepath[0] == '\\') {
acpigen_emit_byte('\\');
namepath++;
}
/* And there can be any number of '^' */
while (namepath[0] == '^') {
acpigen_emit_byte('^');
namepath++;
}
/* If we have only \\ or only ^...^. Then we need to put a null
name (0x00). */
if (namepath[0] == '\0') {
acpigen_emit_byte(ZERO_OP);
return;
}
i = 0;
while (namepath[i] != '\0') {
if (namepath[i] == '.') {
dotcount++;
dotpos = i;
}
i++;
}
if (dotcount == 0) {
acpigen_emit_simple_namestring(namepath);
} else if (dotcount == 1) {
acpigen_emit_double_namestring(namepath, dotpos);
} else {
acpigen_emit_multi_namestring(namepath);
}
}
void acpigen_write_name(const char *name)
{
acpigen_emit_byte(NAME_OP);
acpigen_emit_namestring(name);
}
void acpigen_write_scope(const char *name)
{
acpigen_emit_byte(SCOPE_OP);
acpigen_write_len_f();
acpigen_emit_namestring(name);
}
void acpigen_write_processor(u8 cpuindex, u32 pblock_addr, u8 pblock_len)
{
/*
Processor (\_PR.CPUcpuindex, cpuindex, pblock_addr, pblock_len)
{
*/
char pscope[16];
acpigen_emit_ext_op(PROCESSOR_OP);
acpigen_write_len_f();
snprintf(pscope, sizeof(pscope),
"\\_PR.CP%02d", (unsigned int) cpuindex);
acpigen_emit_namestring(pscope);
acpigen_emit_byte(cpuindex);
acpigen_emit_dword(pblock_addr);
acpigen_emit_byte(pblock_len);
}
/*
* Generate ACPI AML code for OperationRegion
* Arg0: Pointer to struct opregion opreg = OPREGION(rname, space, offset, len)
* where rname is region name, space is region space, offset is region offset &
* len is region length.
* OperationRegion(regionname, regionspace, regionoffset, regionlength)
*/
void acpigen_write_opregion(struct opregion *opreg)
{
/* OpregionOp */
acpigen_emit_ext_op(OPREGION_OP);
/* NameString 4 chars only */
acpigen_emit_simple_namestring(opreg->name);
/* RegionSpace */
acpigen_emit_byte(opreg->regionspace);
/* RegionOffset & RegionLen, it can be byte word or double word */
acpigen_write_integer(opreg->regionoffset);
acpigen_write_integer(opreg->regionlen);
}
static void acpigen_write_field_offset(uint32_t offset,
uint32_t current_bit_pos)
{
uint32_t diff_bits;
uint8_t i, j;
uint8_t emit[4];
if (offset < current_bit_pos) {
printk(BIOS_WARNING, "%s: Cannot move offset backward",
__func__);
return;
}
diff_bits = offset - current_bit_pos;
/* Upper limit */
if (diff_bits > 0xFFFFFFF) {
printk(BIOS_WARNING, "%s: Offset very large to encode",
__func__);
return;
}
i = 1;
if (diff_bits < 0x40) {
emit[0] = diff_bits & 0x3F;
} else {
emit[0] = diff_bits & 0xF;
diff_bits >>= 4;
while (diff_bits) {
emit[i] = diff_bits & 0xFF;
i++;
diff_bits >>= 8;
}
}
/* Update bit 7:6 : Number of bytes followed by emit[0] */
emit[0] |= (i - 1) << 6;
acpigen_emit_byte(0);
for (j = 0; j < i; j++)
acpigen_emit_byte(emit[j]);
}
/*
* Generate ACPI AML code for Field
* Arg0: region name
* Arg1: Pointer to struct fieldlist.
* Arg2: no. of entries in Arg1
* Arg3: flags which indicate filed access type, lock rule & update rule.
* Example with fieldlist
* struct fieldlist l[] = {
* FIELDLIST_OFFSET(0x84),
* FIELDLIST_NAMESTR("PMCS", 2),
* };
* acpigen_write_field("UART", l ,ARRAY_SIZE(l), FIELD_ANYACC | FIELD_NOLOCK |
* FIELD_PRESERVE);
* Output:
* Field (UART, AnyAcc, NoLock, Preserve)
* {
* Offset (0x84),
* PMCS, 2
* }
*/
void acpigen_write_field(const char *name, struct fieldlist *l, size_t count,
uint8_t flags)
{
uint16_t i;
uint32_t current_bit_pos = 0;
/* FieldOp */
acpigen_emit_ext_op(FIELD_OP);
/* Package Length */
acpigen_write_len_f();
/* NameString 4 chars only */
acpigen_emit_simple_namestring(name);
/* Field Flag */
acpigen_emit_byte(flags);
for (i = 0; i < count; i++) {
switch (l[i].type) {
case NAME_STRING:
acpigen_emit_simple_namestring(l[i].name);
acpigen_emit_byte(l[i].bits);
current_bit_pos += l[i].bits;
break;
case OFFSET:
acpigen_write_field_offset(l[i].bits, current_bit_pos);
current_bit_pos = l[i].bits;
break;
default:
printk(BIOS_ERR, "%s: Invalid field type 0x%X\n"
, __func__, l[i].type);
break;
}
}
acpigen_pop_len();
}
void acpigen_write_empty_PCT(void)
{
/*
Name (_PCT, Package (0x02)
{
ResourceTemplate ()
{
Register (FFixedHW,
0x00, // Bit Width
0x00, // Bit Offset
0x0000000000000000, // Address
,)
},
ResourceTemplate ()
{
Register (FFixedHW,
0x00, // Bit Width
0x00, // Bit Offset
0x0000000000000000, // Address
,)
}
})
*/
static char stream[] = {
0x08, 0x5F, 0x50, 0x43, 0x54, 0x12, 0x2C, /* 00000030 "0._PCT.," */
0x02, 0x11, 0x14, 0x0A, 0x11, 0x82, 0x0C, 0x00, /* 00000038 "........" */
0x7F, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, /* 00000040 "........" */
0x00, 0x00, 0x00, 0x00, 0x79, 0x00, 0x11, 0x14, /* 00000048 "....y..." */
0x0A, 0x11, 0x82, 0x0C, 0x00, 0x7F, 0x00, 0x00, /* 00000050 "........" */
0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, 0x00, /* 00000058 "........" */
0x00, 0x79, 0x00
};
acpigen_emit_stream(stream, ARRAY_SIZE(stream));
}
void acpigen_write_empty_PTC(void)
{
/*
Name (_PTC, Package (0x02)
{
ResourceTemplate ()
{
Register (FFixedHW,
0x00, // Bit Width
0x00, // Bit Offset
0x0000000000000000, // Address
,)
},
ResourceTemplate ()
{
Register (FFixedHW,
0x00, // Bit Width
0x00, // Bit Offset
0x0000000000000000, // Address
,)
}
})
*/
acpi_addr_t addr = {
.space_id = ACPI_ADDRESS_SPACE_FIXED,
.bit_width = 0,
.bit_offset = 0,
{
.resv = 0
},
.addrl = 0,
.addrh = 0,
};
acpigen_write_name("_PTC");
acpigen_write_package(2);
/* ControlRegister */
acpigen_write_resourcetemplate_header();
acpigen_write_register(&addr);
acpigen_write_resourcetemplate_footer();
/* StatusRegister */
acpigen_write_resourcetemplate_header();
acpigen_write_register(&addr);
acpigen_write_resourcetemplate_footer();
acpigen_pop_len();
}
static void __acpigen_write_method(const char *name, uint8_t flags)
{
acpigen_emit_byte(METHOD_OP);
acpigen_write_len_f();
acpigen_emit_namestring(name);
acpigen_emit_byte(flags);
}
/* Method (name, nargs, NotSerialized) */
void acpigen_write_method(const char *name, int nargs)
{
__acpigen_write_method(name, (nargs & 7));
}
/* Method (name, nargs, Serialized) */
void acpigen_write_method_serialized(const char *name, int nargs)
{
__acpigen_write_method(name, (nargs & 7) | (1 << 3));
}
void acpigen_write_device(const char *name)
{
acpigen_emit_ext_op(DEVICE_OP);
acpigen_write_len_f();
acpigen_emit_namestring(name);
}
void acpigen_write_STA(uint8_t status)
{
/*
* Method (_STA, 0, NotSerialized) { Return (status) }
*/
acpigen_write_method("_STA", 0);
acpigen_emit_byte(RETURN_OP);
acpigen_write_byte(status);
acpigen_pop_len();
}
/*
* Generates a func with max supported P-states.
*/
void acpigen_write_PPC(u8 nr)
{
/*
Method (_PPC, 0, NotSerialized)
{
Return (nr)
}
*/
acpigen_write_method("_PPC", 0);
acpigen_emit_byte(RETURN_OP);
/* arg */
acpigen_write_byte(nr);
acpigen_pop_len();
}
/*
* Generates a func with max supported P-states saved
* in the variable PPCM.
*/
void acpigen_write_PPC_NVS(void)
{
/*
Method (_PPC, 0, NotSerialized)
{
Return (PPCM)
}
*/
acpigen_write_method("_PPC", 0);
acpigen_emit_byte(RETURN_OP);
/* arg */
acpigen_emit_namestring("PPCM");
acpigen_pop_len();
}
void acpigen_write_TPC(const char *gnvs_tpc_limit)
{
/*
// Sample _TPC method
Method (_TPC, 0, NotSerialized)
{
Return (\TLVL)
}
*/
acpigen_write_method("_TPC", 0);
acpigen_emit_byte(RETURN_OP);
acpigen_emit_namestring(gnvs_tpc_limit);
acpigen_pop_len();
}
void acpigen_write_PRW(u32 wake, u32 level)
{
/*
* Name (_PRW, Package () { wake, level }
*/
acpigen_write_name("_PRW");
acpigen_write_package(2);
acpigen_write_integer(wake);
acpigen_write_integer(level);
acpigen_pop_len();
}
void acpigen_write_PSS_package(u32 coreFreq, u32 power, u32 transLat,
u32 busmLat, u32 control, u32 status)
{
acpigen_write_package(6);
acpigen_write_dword(coreFreq);
acpigen_write_dword(power);
acpigen_write_dword(transLat);
acpigen_write_dword(busmLat);
acpigen_write_dword(control);
acpigen_write_dword(status);
acpigen_pop_len();
printk(BIOS_DEBUG, "PSS: %uMHz power %u control 0x%x status 0x%x\n",
coreFreq, power, control, status);
}
void acpigen_write_PSD_package(u32 domain, u32 numprocs, PSD_coord coordtype)
{
acpigen_write_name("_PSD");
acpigen_write_package(1);
acpigen_write_package(5);
acpigen_write_byte(5); // 5 values
acpigen_write_byte(0); // revision 0
acpigen_write_dword(domain);
acpigen_write_dword(coordtype);
acpigen_write_dword(numprocs);
acpigen_pop_len();
acpigen_pop_len();
}
void acpigen_write_CST_package_entry(acpi_cstate_t *cstate)
{
acpigen_write_package(4);
acpigen_write_resourcetemplate_header();
acpigen_write_register(&cstate->resource);
acpigen_write_resourcetemplate_footer();
acpigen_write_dword(cstate->ctype);
acpigen_write_dword(cstate->latency);
acpigen_write_dword(cstate->power);
acpigen_pop_len();
}
void acpigen_write_CST_package(acpi_cstate_t *cstate, int nentries)
{
int i;
acpigen_write_name("_CST");
acpigen_write_package(nentries+1);
acpigen_write_dword(nentries);
for (i = 0; i < nentries; i++)
acpigen_write_CST_package_entry(cstate + i);
acpigen_pop_len();
}
void acpigen_write_CSD_package(u32 domain, u32 numprocs, CSD_coord coordtype, u32 index)
{
acpigen_write_name("_CSD");
acpigen_write_package(1);
acpigen_write_package(6);
acpigen_write_byte(6); // 6 values
acpigen_write_byte(0); // revision 0
acpigen_write_dword(domain);
acpigen_write_dword(coordtype);
acpigen_write_dword(numprocs);
acpigen_write_dword(index);
acpigen_pop_len();
acpigen_pop_len();
}
void acpigen_write_TSS_package(int entries, acpi_tstate_t *tstate_list)
{
/*
Sample _TSS package with 100% and 50% duty cycles
Name (_TSS, Package (0x02)
{
Package(){100, 1000, 0, 0x00, 0)
Package(){50, 520, 0, 0x18, 0)
})
*/
int i;
acpi_tstate_t *tstate = tstate_list;
acpigen_write_name("_TSS");
acpigen_write_package(entries);
for (i = 0; i < entries; i++) {
acpigen_write_package(5);
acpigen_write_dword(tstate->percent);
acpigen_write_dword(tstate->power);
acpigen_write_dword(tstate->latency);
acpigen_write_dword(tstate->control);
acpigen_write_dword(tstate->status);
acpigen_pop_len();
tstate++;
}
acpigen_pop_len();
}
void acpigen_write_TSD_package(u32 domain, u32 numprocs, PSD_coord coordtype)
{
acpigen_write_name("_TSD");
acpigen_write_package(1);
acpigen_write_package(5);
acpigen_write_byte(5); // 5 values
acpigen_write_byte(0); // revision 0
acpigen_write_dword(domain);
acpigen_write_dword(coordtype);
acpigen_write_dword(numprocs);
acpigen_pop_len();
acpigen_pop_len();
}
void acpigen_write_mem32fixed(int readwrite, u32 base, u32 size)
{
/*
* ACPI 4.0 section 6.4.3.4: 32-Bit Fixed Memory Range Descriptor
* Byte 0:
* Bit7 : 1 => big item
* Bit6-0: 0000110 (0x6) => 32-bit fixed memory
*/
acpigen_emit_byte(0x86);
/* Byte 1+2: length (0x0009) */
acpigen_emit_byte(0x09);
acpigen_emit_byte(0x00);
/* bit1-7 are ignored */
acpigen_emit_byte(readwrite ? 0x01 : 0x00);
acpigen_emit_dword(base);
acpigen_emit_dword(size);
}
void acpigen_write_register(acpi_addr_t *addr)
{
acpigen_emit_byte(0x82); /* Register Descriptor */
acpigen_emit_byte(0x0c); /* Register Length 7:0 */
acpigen_emit_byte(0x00); /* Register Length 15:8 */
acpigen_emit_byte(addr->space_id); /* Address Space ID */
acpigen_emit_byte(addr->bit_width); /* Register Bit Width */
acpigen_emit_byte(addr->bit_offset); /* Register Bit Offset */
acpigen_emit_byte(addr->resv); /* Register Access Size */
acpigen_emit_dword(addr->addrl); /* Register Address Low */
acpigen_emit_dword(addr->addrh); /* Register Address High */
}
void acpigen_write_irq(u16 mask)
{
/*
* ACPI 3.0b section 6.4.2.1: IRQ Descriptor
* Byte 0:
* Bit7 : 0 => small item
* Bit6-3: 0100 (0x4) => IRQ port descriptor
* Bit2-0: 010 (0x2) => 2 Bytes long
*/
acpigen_emit_byte(0x22);
acpigen_emit_byte(mask & 0xff);
acpigen_emit_byte((mask >> 8) & 0xff);
}
void acpigen_write_io16(u16 min, u16 max, u8 align, u8 len, u8 decode16)
{
/*
* ACPI 4.0 section 6.4.2.6: I/O Port Descriptor
* Byte 0:
* Bit7 : 0 => small item
* Bit6-3: 1000 (0x8) => I/O port descriptor
* Bit2-0: 111 (0x7) => 7 Bytes long
*/
acpigen_emit_byte(0x47);
/* Does the device decode all 16 or just 10 bits? */
/* bit1-7 are ignored */
acpigen_emit_byte(decode16 ? 0x01 : 0x00);
/* minimum base address the device may be configured for */
acpigen_emit_byte(min & 0xff);
acpigen_emit_byte((min >> 8) & 0xff);
/* maximum base address the device may be configured for */
acpigen_emit_byte(max & 0xff);
acpigen_emit_byte((max >> 8) & 0xff);
/* alignment for min base */
acpigen_emit_byte(align & 0xff);
acpigen_emit_byte(len & 0xff);
}
void acpigen_write_resourcetemplate_header(void)
{
/*
* A ResourceTemplate() is a Buffer() with a
* (Byte|Word|DWord) containing the length, followed by one or more
* resource items, terminated by the end tag.
* (small item 0xf, len 1)
*/
acpigen_emit_byte(BUFFER_OP);
acpigen_write_len_f();
acpigen_emit_byte(WORD_PREFIX);
len_stack[ltop++] = acpigen_get_current();
acpigen_emit_byte(0x00);
acpigen_emit_byte(0x00);
}
void acpigen_write_resourcetemplate_footer(void)
{
char *p = len_stack[--ltop];
int len;
/*
* end tag (acpi 4.0 Section 6.4.2.8)
* 0x79 <checksum>
* 0x00 is treated as a good checksum according to the spec
* and is what iasl generates.
*/
acpigen_emit_byte(0x79);
acpigen_emit_byte(0x00);
len = gencurrent - p;
/* patch len word */
p[0] = len & 0xff;
p[1] = (len >> 8) & 0xff;
/* patch len field */
acpigen_pop_len();
}
static void acpigen_add_mainboard_rsvd_mem32(void *gp, struct device *dev,
struct resource *res)
{
acpigen_write_mem32fixed(0, res->base, res->size);
}
static void acpigen_add_mainboard_rsvd_io(void *gp, struct device *dev,
struct resource *res)
{
resource_t base = res->base;
resource_t size = res->size;
while (size > 0) {
resource_t sz = size > 255 ? 255 : size;
acpigen_write_io16(base, base, 0, sz, 1);
size -= sz;
base += sz;
}
}
void acpigen_write_mainboard_resource_template(void)
{
acpigen_write_resourcetemplate_header();
/* Add reserved memory ranges. */
search_global_resources(
IORESOURCE_MEM | IORESOURCE_RESERVE,
IORESOURCE_MEM | IORESOURCE_RESERVE,
acpigen_add_mainboard_rsvd_mem32, 0);
/* Add reserved io ranges. */
search_global_resources(
IORESOURCE_IO | IORESOURCE_RESERVE,
IORESOURCE_IO | IORESOURCE_RESERVE,
acpigen_add_mainboard_rsvd_io, 0);
acpigen_write_resourcetemplate_footer();
}
void acpigen_write_mainboard_resources(const char *scope, const char *name)
{
acpigen_write_scope(scope);
acpigen_write_name(name);
acpigen_write_mainboard_resource_template();
acpigen_pop_len();
}
static int hex2bin(const char c)
{
if (c >= 'A' && c <= 'F')
return c - 'A' + 10;
if (c >= 'a' && c <= 'f')
return c - 'a' + 10;
return c - '0';
}
void acpigen_emit_eisaid(const char *eisaid)
{
u32 compact = 0;
/* Clamping individual values would be better but
there is a disagreement over what is a valid
EISA id, so accept anything and don't clamp,
parent code should create a valid EISAid.
*/
compact |= (eisaid[0] - 'A' + 1) << 26;
compact |= (eisaid[1] - 'A' + 1) << 21;
compact |= (eisaid[2] - 'A' + 1) << 16;
compact |= hex2bin(eisaid[3]) << 12;
compact |= hex2bin(eisaid[4]) << 8;
compact |= hex2bin(eisaid[5]) << 4;
compact |= hex2bin(eisaid[6]);
acpigen_emit_byte(0xc);
acpigen_emit_byte((compact >> 24) & 0xff);
acpigen_emit_byte((compact >> 16) & 0xff);
acpigen_emit_byte((compact >> 8) & 0xff);
acpigen_emit_byte(compact & 0xff);
}
/*
* ToUUID(uuid)
*
* ACPI 6.1 Section 19.6.136 table 19-385 defines a special output
* order for the bytes that make up a UUID Buffer object.
* UUID byte order for input:
* aabbccdd-eeff-gghh-iijj-kkllmmnnoopp
* UUID byte order for output:
* ddccbbaa-ffee-hhgg-iijj-kkllmmnnoopp
*/
#define UUID_LEN 16
void acpigen_write_uuid(const char *uuid)
{
uint8_t buf[UUID_LEN];
size_t i, order[UUID_LEN] = { 3, 2, 1, 0, 5, 4, 7, 6,
8, 9, 10, 11, 12, 13, 14, 15 };
/* Parse UUID string into bytes */
if (hexstrtobin(uuid, buf, UUID_LEN) < UUID_LEN)
return;
/* BufferOp */
acpigen_emit_byte(BUFFER_OP);
acpigen_write_len_f();
/* Buffer length in bytes */
acpigen_write_word(UUID_LEN);
/* Output UUID in expected order */
for (i = 0; i < UUID_LEN; i++)
acpigen_emit_byte(buf[order[i]]);
acpigen_pop_len();
}
/*
* Name (_PRx, Package(One) { name })
* ...
* PowerResource (name, level, order)
*/
void acpigen_write_power_res(const char *name, uint8_t level, uint16_t order,
const char *dev_states[], size_t dev_states_count)
{
int i;
for (i = 0; i < dev_states_count; i++) {
acpigen_write_name(dev_states[i]);
acpigen_write_package(1);
acpigen_emit_simple_namestring(name);
acpigen_pop_len(); /* Package */
}
acpigen_emit_ext_op(POWER_RES_OP);
acpigen_write_len_f();
acpigen_emit_simple_namestring(name);
acpigen_emit_byte(level);
acpigen_emit_word(order);
}
/* Sleep (ms) */
void acpigen_write_sleep(uint64_t sleep_ms)
{
acpigen_emit_ext_op(SLEEP_OP);
acpigen_write_integer(sleep_ms);
}
void acpigen_write_store(void)
{
acpigen_emit_byte(STORE_OP);
}
/* Store (src, dst) */
void acpigen_write_store_ops(uint8_t src, uint8_t dst)
{
acpigen_write_store();
acpigen_emit_byte(src);
acpigen_emit_byte(dst);
}
/* Or (arg1, arg2, res) */
void acpigen_write_or(uint8_t arg1, uint8_t arg2, uint8_t res)
{
acpigen_emit_byte(OR_OP);
acpigen_emit_byte(arg1);
acpigen_emit_byte(arg2);
acpigen_emit_byte(res);
}
/* And (arg1, arg2, res) */
void acpigen_write_and(uint8_t arg1, uint8_t arg2, uint8_t res)
{
acpigen_emit_byte(AND_OP);
acpigen_emit_byte(arg1);
acpigen_emit_byte(arg2);
acpigen_emit_byte(res);
}
/* Not (arg, res) */
void acpigen_write_not(uint8_t arg, uint8_t res)
{
acpigen_emit_byte(NOT_OP);
acpigen_emit_byte(arg);
acpigen_emit_byte(res);
}
/* Store (str, DEBUG) */
void acpigen_write_debug_string(const char *str)
{
acpigen_write_store();
acpigen_write_string(str);
acpigen_emit_ext_op(DEBUG_OP);
}
/* Store (val, DEBUG) */
void acpigen_write_debug_integer(uint64_t val)
{
acpigen_write_store();
acpigen_write_integer(val);
acpigen_emit_ext_op(DEBUG_OP);
}
/* Store (op, DEBUG) */
void acpigen_write_debug_op(uint8_t op)
{
acpigen_write_store();
acpigen_emit_byte(op);
acpigen_emit_ext_op(DEBUG_OP);
}
void acpigen_write_if(void)
{
acpigen_emit_byte(IF_OP);
acpigen_write_len_f();
}
/* If (And (arg1, arg2)) */
void acpigen_write_if_and(uint8_t arg1, uint8_t arg2)
{
acpigen_write_if();
acpigen_emit_byte(AND_OP);
acpigen_emit_byte(arg1);
acpigen_emit_byte(arg2);
}
/*
* Generates ACPI code for checking if operand1 and operand2 are equal, where,
* operand1 is ACPI op and operand2 is an integer.
*
* If (Lequal (op, val))
*/
void acpigen_write_if_lequal_op_int(uint8_t op, uint64_t val)
{
acpigen_write_if();
acpigen_emit_byte(LEQUAL_OP);
acpigen_emit_byte(op);
acpigen_write_integer(val);
}
void acpigen_write_else(void)
{
acpigen_emit_byte(ELSE_OP);
acpigen_write_len_f();
}
void acpigen_write_to_buffer(uint8_t src, uint8_t dst)
{
acpigen_emit_byte(TO_BUFFER_OP);
acpigen_emit_byte(src);
acpigen_emit_byte(dst);
}
void acpigen_write_to_integer(uint8_t src, uint8_t dst)
{
acpigen_emit_byte(TO_INTEGER_OP);
acpigen_emit_byte(src);
acpigen_emit_byte(dst);
}
void acpigen_write_byte_buffer(uint8_t *arr, uint8_t size)
{
uint8_t i;
acpigen_emit_byte(BUFFER_OP);
acpigen_write_len_f();
acpigen_write_byte(size);
for (i = 0; i < size; i++)
acpigen_emit_byte(arr[i]);
acpigen_pop_len();
}
void acpigen_write_return_byte_buffer(uint8_t *arr, uint8_t size)
{
acpigen_emit_byte(RETURN_OP);
acpigen_write_byte_buffer(arr, size);
}
void acpigen_write_return_singleton_buffer(uint8_t arg)
{
acpigen_write_return_byte_buffer(&arg, 1);
}
void acpigen_write_return_byte(uint8_t arg)
{
acpigen_emit_byte(RETURN_OP);
acpigen_write_byte(arg);
}
/*
* Generate ACPI AML code for _DSM method.
* This function takes as input uuid for the device, set of callbacks and
* argument to pass into the callbacks. Callbacks should ensure that Local0 and
* Local1 are left untouched. Use of Local2-Local7 is permitted in callbacks.
*
* Arguments passed into _DSM method:
* Arg0 = UUID
* Arg1 = Revision
* Arg2 = Function index
* Arg3 = Function specific arguments
*
* AML code generated would look like:
* Method (_DSM, 4, Serialized) {
* ToBuffer (Arg0, Local0)
* If (LEqual (Local0, ToUUID(uuid))) {
* ToInteger (Arg2, Local1)
* If (LEqual (Local1, 0)) {
* <acpigen by callback[0]>
* } Else {
* ...
* If (LEqual (Local1, n)) {
* <acpigen by callback[n]>
* } Else {
* Return (Buffer (One) { 0x0 })
* }
* }
* } Else {
* Return (Buffer (One) { 0x0 })
* }
* }
*/
void acpigen_write_dsm(const char *uuid, void (*callbacks[])(void *),
size_t count, void *arg)
{
size_t i;
/* Method (_DSM, 4, Serialized) */
acpigen_write_method_serialized("_DSM", 0x4);
/* ToBuffer (Arg0, Local0) */
acpigen_write_to_buffer(ARG0_OP, LOCAL0_OP);
/* If (LEqual (Local0, ToUUID(uuid))) */
acpigen_write_if();
acpigen_emit_byte(LEQUAL_OP);
acpigen_emit_byte(LOCAL0_OP);
acpigen_write_uuid(uuid);
/* ToInteger (Arg2, Local1) */
acpigen_write_to_integer(ARG2_OP, LOCAL1_OP);
acpigen_write_debug_op(LOCAL1_OP);
for (i = 0; i < count; i++) {
/* If (Lequal (Local1, i)) */
acpigen_write_if_lequal_op_int(LOCAL1_OP, i);
/* Callback to write if handler. */
if (callbacks[i])
callbacks[i](arg);
acpigen_pop_len(); /* If */
/* Else */
acpigen_write_else();
}
/* Default case: Return (Buffer (One) { 0x0 }) */
acpigen_write_return_singleton_buffer(0x0);
/* Pop lengths for all the else clauses. */
for (i = 0; i < count; i++)
acpigen_pop_len();
acpigen_pop_len(); /* If (LEqual (Local0, ToUUID(uuid))) */
/* Else */
acpigen_write_else();
/* Return (Buffer (One) { 0x0 }) */
acpigen_write_return_singleton_buffer(0x0);
acpigen_pop_len(); /* Else */
acpigen_pop_len(); /* Method _DSM */
}
/* Soc-implemented functions -- weak definitions. */
int __attribute__((weak)) acpigen_soc_read_rx_gpio(unsigned int gpio_num)
{
printk(BIOS_ERR, "ERROR: %s not implemented\n", __func__);
acpigen_write_debug_string("read_rx_gpio not available");
return -1;
}
int __attribute__((weak)) acpigen_soc_get_tx_gpio(unsigned int gpio_num)
{
printk(BIOS_ERR, "ERROR: %s not implemented\n", __func__);
acpigen_write_debug_string("get_tx_gpio not available");
return -1;
}
int __attribute__((weak)) acpigen_soc_set_tx_gpio(unsigned int gpio_num)
{
printk(BIOS_ERR, "ERROR: %s not implemented\n", __func__);
acpigen_write_debug_string("set_tx_gpio not available");
return -1;
}
int __attribute__((weak)) acpigen_soc_clear_tx_gpio(unsigned int gpio_num)
{
printk(BIOS_ERR, "ERROR: %s not implemented\n", __func__);
acpigen_write_debug_string("clear_tx_gpio not available");
return -1;
}
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