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soc_info.c
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soc_info.c
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/*
* Copyright (C) 2012 Henrik Nordstrom <henrik@henriknordstrom.net>
* Copyright (C) 2015 Siarhei Siamashka <siarhei.siamashka@gmail.com>
* Copyright (C) 2016 Bernhard Nortmann <bernhard.nortmann@web.de>
*
* 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, see <http://www.gnu.org/licenses/>.
*/
/**********************************************************************
* SoC information and retrieval of soc_sram_info
**********************************************************************/
#include "soc_info.h"
#include <stdio.h>
#include <string.h>
/*
* The FEL code from BROM in A10/A13/A20 sets up two stacks for itself. One
* at 0x2000 (and growing down) for the IRQ handler. And another one at 0x7000
* (and also growing down) for the regular code. In order to use the whole
* 32 KiB in the A1/A2 sections of SRAM, we need to temporarily move these
* stacks elsewhere. And the addresses 0x7D00-0x7FFF contain something
* important too (overwriting them kills FEL). On A10/A13/A20 we can use
* the SRAM sections A3/A4 (0x8000-0xBFFF) for this purpose.
*/
sram_swap_buffers a10_a13_a20_sram_swap_buffers[] = {
/* 0x1C00-0x1FFF (IRQ stack) */
{ .buf1 = 0x1C00, .buf2 = 0xA400, .size = 0x0400 },
/* 0x5C00-0x6FFF (Stack) */
{ .buf1 = 0x5C00, .buf2 = 0xA800, .size = 0x1400 },
/* 0x7C00-0x7FFF (Something important) */
{ .buf1 = 0x7C00, .buf2 = 0xBC00, .size = 0x0400 },
{ .size = 0 } /* End of the table */
};
/*
* A31 is very similar to A10/A13/A20, except that it has no SRAM at 0x8000.
* So we use the SRAM section B at 0x20000-0x2FFFF instead. In the FEL mode,
* the MMU translation table is allocated by the BROM at 0x20000. But we can
* also safely use it as the backup storage because the MMU is temporarily
* disabled during the time of the SPL execution.
*/
sram_swap_buffers a31_sram_swap_buffers[] = {
{ .buf1 = 0x1800, .buf2 = 0x20000, .size = 0x800 },
{ .buf1 = 0x5C00, .buf2 = 0x20800, .size = 0x8000 - 0x5C00 },
{ .size = 0 } /* End of the table */
};
/*
* A64 has 32KiB of SRAM A at 0x10000 and a large SRAM C at 0x18000. SRAM A
* and SRAM C reside in the address space back-to-back without any gaps, thus
* representing a singe large contiguous area. The BROM FEL code memory areas
* are the same as on A10/A13/A20, but just shifted by 0x10000.
* We put the backup buffers towards the end of SRAM C, in a location that
* is also available on the H5.
*/
sram_swap_buffers a64_sram_swap_buffers[] = {
/* 0x11C00-0x11FFF (IRQ stack) */
{ .buf1 = 0x11C00, .buf2 = 0x31400, .size = 0x0400 },
/* 0x15C00-0x16FFF (Stack) */
{ .buf1 = 0x15C00, .buf2 = 0x31800, .size = 0x1400 },
/* 0x17C00-0x17FFF (Something important) */
{ .buf1 = 0x17C00, .buf2 = 0x32c00, .size = 0x0400 },
{ .size = 0 } /* End of the table */
};
/*
* Use the SRAM section at 0x44000 as the backup storage. This is the memory,
* which is normally shared with the OpenRISC core (should we do an extra check
* to ensure that this core is powered off and can't interfere?).
*/
sram_swap_buffers ar100_abusing_sram_swap_buffers[] = {
{ .buf1 = 0x1800, .buf2 = 0x44000, .size = 0x800 },
{ .buf1 = 0x5C00, .buf2 = 0x44800, .size = 0x8000 - 0x5C00 },
{ .size = 0 } /* End of the table */
};
/*
* A80 has 40KiB SRAM A1 at 0x10000 where the SPL has to be loaded to. The
* secure SRAM B at 0x20000 is used as backup area for FEL stacks and data.
*/
sram_swap_buffers a80_sram_swap_buffers[] = {
{ .buf1 = 0x11800, .buf2 = 0x20000, .size = 0x800 },
{ .buf1 = 0x15400, .buf2 = 0x20800, .size = 0x18000 - 0x15400 },
{ .size = 0 } /* End of the table */
};
/*
* H6 has 32KiB of SRAM A at 0x20000 and a large SRAM C at 0x28000. SRAM A
* and SRAM C reside in the address space back-to-back without any gaps, thus
* representing a singe large contiguous area. Everything is the same as on
* A10/A13/A20, but just shifted by 0x20000.
*/
sram_swap_buffers h6_sram_swap_buffers[] = {
/* 0x21C00-0x21FFF (IRQ stack) */
{ .buf1 = 0x21C00, .buf2 = 0x42400, .size = 0x0400 },
/* 0x25C00-0x26FFF (Stack) */
{ .buf1 = 0x25C00, .buf2 = 0x42800, .size = 0x1400 },
/* 0x27C00-0x27FFF (Something important) */
{ .buf1 = 0x27C00, .buf2 = 0x43c00, .size = 0x0400 },
{ .size = 0 } /* End of the table */
};
/*
* T7 SRAM layout:
*
* SRAM A1: 0x0002_0000 - 0x0002_7fff, 32K contains stacks
* SRAM C: 0x0002_8000 - 0x0004_ffff, 160K full access
* SRAM A2: 0x0010_0000 - 0x0010_3fff, 16K OpenRISC
* 0x0010_4000 - 0x0011_ffff, 112K full access
*/
sram_swap_buffers t7_sram_swap_buffers[] = {
/* 0x21C00-0x21FFF (IRQ stack) */
{ .buf1 = 0x21C00, .buf2 = 0x4e400, .size = 0x0400 },
/* 0x25C00-0x26FFF (Stack) */
{ .buf1 = 0x25C00, .buf2 = 0x4e800, .size = 0x1400 },
/* 0x27C00-0x27FFF (Something important) */
{ .buf1 = 0x27C00, .buf2 = 0x4fc00, .size = 0x0400 },
{ .size = 0 } /* End of the table */
};
/*
* V831 has 96KiB SRAM A1 at 0x20000 where the SPL has to be loaded to.
* SRAM C is continuous with SRAM A1, and both SRAMs are tried to be used
* by BROM. Memory space is allocated both from the start of SRAM A1 and
* the end of SRAM C.
* The start of SRAM C is in between these areas, and can serve as backup
* of IRQ stack, which is inside the first 32KiB of SRAM A1. Other areas
* that are critical on older SoCs seem to be already in SRAM C, which
* we do not need to preserve.
*/
sram_swap_buffers v831_sram_swap_buffers[] = {
{ .buf1 = 0x21000, .buf2 = 0x38000, .size = 0x1000 },
{ .size = 0 } /* End of the table */
};
/* H616 situation is the same as V831 one, except it has 32 KiB of SRAM A1. */
sram_swap_buffers h616_sram_swap_buffers[] = {
{ .buf1 = 0x21000, .buf2 = 0x52a00, .size = 0x1000 },
{ .size = 0 } /* End of the table */
};
/*
* R329 has no SRAM A1, but a huge SRAM A2 at 0x100000. SPL and BROM uses
* this SRAM A2's first part like how other SoCs use SRAM A1. The sp and
* sp_irq values checked with thunk are 0x13c2c8 and 0x101400, which looks
* similar to the situation of V831, in which the stack is quite high.
*/
sram_swap_buffers r329_sram_swap_buffers[] = {
/* 0x101000-0x101400 (IRQ stack) */
{ .buf1 = 0x101000, .buf2 = 0x13bc00, .size = 0x0400 },
{ .size = 0 } /* End of the table */
};
/*
* The FEL code from BROM in F1C100s also uses SRAM A in a similar way
* with A10/A13/A20.
* Unfortunately the SRAM layout of F1C100s is not documented at all, so
* we can only try by r/w under FEL mode.
* The result is that there's a contingous SRAM zone from 0x8800 to 0xb5ff.
*/
sram_swap_buffers f1c100s_sram_swap_buffers[] = {
/* 0x1C00-0x1FFF (IRQ stack) */
{ .buf1 = 0x1C00, .buf2 = 0x9000, .size = 0x0400 },
/* 0x5C00-0x6FFF (Stack) */
{ .buf1 = 0x5C00, .buf2 = 0x9400, .size = 0x1400 },
/* 0x7C00-0x7FFF (Something important) */
{ .buf1 = 0x7C00, .buf2 = 0xa800, .size = 0x0400 },
{ .size = 0 } /* End of the table */
};
/*
* Some SoCs put both stacks, BSS and data segments at the end of a comparably
* large SRAM, so we don't need to move anything around.
*/
sram_swap_buffers no_sram_swap_buffers[] = {
{ .size = 0 } /* End of the table */
};
const watchdog_info wd_a10_compat = {
.reg_mode = 0x01C20C94,
.reg_mode_value = 3,
};
const watchdog_info wd_h3_compat = {
.reg_mode = 0x01C20Cb8,
.reg_mode_value = 1,
};
const watchdog_info wd_a80 = {
.reg_mode = 0x06000CB8,
.reg_mode_value = 1,
};
const watchdog_info wd_h6_compat = {
.reg_mode = 0x030090b8,
.reg_mode_value = 1,
};
const watchdog_info wd_v853_compat = {
.reg_mode = 0x020500b8,
.reg_mode_value = 0x16aa0001,
};
const watchdog_info wd_a523_compat = {
.reg_mode = 0x02050008,
.reg_mode_value = 0x16aa0001,
};
static const sid_section r40_sid_maps[] = {
SID_SECTION("chipid", 0x00, 128),
SID_SECTION("in", 0x10, 256),
SID_SECTION("ssk", 0x30, 128),
SID_SECTION("thermal", 0x40, 32),
SID_SECTION("ft_zone", 0x44, 64),
SID_SECTION("tvout", 0x4c, 128),
SID_SECTION("rssk", 0x5c, 256),
SID_SECTION("hdcp_hash",0x7c, 128),
SID_SECTION("reserved", 0x90, 896),
SID_SECTION(NULL, 0, 0),
};
static const sid_section h3_sid_maps[] = {
SID_SECTION("chipid", 0x00, 128),
SID_SECTION("oem_program", 0x10, 32),
SID_SECTION("nv1", 0x14, 32),
SID_SECTION("nv2", 0x18, 64),
SID_SECTION("rsakey_hash", 0x20, 160),
SID_SECTION("thermal", 0x34, 64),
SID_SECTION("renewability", 0x3c, 64),
SID_SECTION("huk", 0x44, 256),
SID_SECTION("rotpk_hash", 0x64, 256),
SID_SECTION("ssk", 0x84, 128),
SID_SECTION("rssk", 0x94, 256),
SID_SECTION("hdcp_hash", 0xb4, 128),
SID_SECTION("ek_hash", 0xc4, 128),
SID_SECTION("sn", 0xd4, 192),
SID_SECTION("nv2_backup", 0xec, 64),
SID_SECTION("lcjs", 0xf4, 32),
SID_SECTION("debug", 0xf8, 32),
SID_SECTION("chip_config", 0xfc, 32),
SID_SECTION(NULL, 0, 0),
};
static const sid_section h6_sid_maps[] = {
SID_SECTION("chipid", 0x00, 128),
SID_SECTION("brom_config", 0x10, 32),
SID_SECTION("thermal", 0x14, 64),
SID_SECTION("tf_zone", 0x1c, 128),
SID_SECTION("oem_program", 0x2c, 96),
SID_SECTION("mac-addr", 0x38, 64),
SID_SECTION("write_protect", 0x40, 32),
SID_SECTION("read-protect", 0x44, 32),
SID_SECTION("lcjs", 0x48, 32),
SID_SECTION("attr", 0x4c, 32),
SID_SECTION("huk", 0x50, 96),
SID_SECTION("vendor_id", 0x5c, 32),
SID_SECTION("huk2", 0x60, 128),
SID_SECTION("rotpk_hash", 0x70, 256),
SID_SECTION("ssk", 0x90, 128),
SID_SECTION("rssk", 0xa0, 256),
SID_SECTION("hdcp_hash", 0xc0, 128),
SID_SECTION("ek_hash", 0xd0, 128),
SID_SECTION("sn", 0xe0, 192),
SID_SECTION("nv1", 0xf8, 32),
SID_SECTION("nv2", 0xfc, 224),
SID_SECTION("hdcp_pkf", 0x118, 128),
SID_SECTION("hdcp_duk", 0x128, 128),
SID_SECTION("backup_key", 0x138, 576),
SID_SECTION("sck0", 0x180, 256),
SID_SECTION("sck0_mask", 0x1a0, 256),
SID_SECTION("sck1", 0x1c0, 256),
SID_SECTION("sck1_mask", 0x1e0, 256),
SID_SECTION(NULL, 0, 0)
};
static const sid_section t7_sid_maps[] = {
SID_SECTION("chipid", 0x00, 128),
SID_SECTION("brom_config", 0x10, 32),
SID_SECTION("thermal", 0x14, 96),
SID_SECTION("tf_zone", 0x20, 128),
SID_SECTION("oem", 0x30, 128),
SID_SECTION("jtag-security", 0x48, 32),
SID_SECTION("jtag-attr", 0x4c, 32),
SID_SECTION("in", 0x50, 192),
SID_SECTION("operator-id", 0x68, 32),
SID_SECTION("id", 0x6c, 32),
SID_SECTION("rotpk", 0x70, 256),
SID_SECTION("ssk", 0x90, 128),
SID_SECTION("rssk", 0xa0, 256),
SID_SECTION("reserved", 0xc0, 128),
SID_SECTION("ek_hash", 0xd0, 128),
SID_SECTION("sn", 0xe0, 192),
SID_SECTION("nv1", 0xf8, 32),
SID_SECTION("nv2", 0xfc, 224),
SID_SECTION("reserved2", 0x118, 320),
SID_SECTION(NULL, 0, 0)
};
/* Placeholder for SoCs without a known SID map */
static const sid_section generic_2k_sid_maps[] = {
SID_SECTION("chipid", 0x00, 128),
SID_SECTION("unknown", 0x10, 1920),
SID_SECTION(NULL, 0, 0),
};
soc_info_t soc_info_table[] = {
{
.soc_id = 0x1623, /* Allwinner A10 */
.name = "A10",
.scratch_addr = 0x1000,
.thunk_addr = 0xA200, .thunk_size = 0x200,
.swap_buffers = a10_a13_a20_sram_swap_buffers,
.sram_size = 48 * 1024,
.needs_l2en = true,
.sid_base = 0x01C23800,
.watchdog = &wd_a10_compat,
},{
.soc_id = 0x1625, /* Allwinner A10s, A13, R8 */
.name = "A13",
.scratch_addr = 0x1000,
.thunk_addr = 0xA200, .thunk_size = 0x200,
.swap_buffers = a10_a13_a20_sram_swap_buffers,
.sram_size = 48 * 1024,
.needs_l2en = true,
.sid_base = 0x01C23800,
.watchdog = &wd_a10_compat,
},{
.soc_id = 0x1651, /* Allwinner A20 */
.name = "A20",
.scratch_addr = 0x1000,
.thunk_addr = 0xA200, .thunk_size = 0x200,
.swap_buffers = a10_a13_a20_sram_swap_buffers,
.sram_size = 48 * 1024,
.sid_base = 0x01C23800,
.sid_sections = generic_2k_sid_maps,
.watchdog = &wd_a10_compat,
},{
.soc_id = 0x1650, /* Allwinner A23 */
.name = "A23",
.scratch_addr = 0x1000,
.thunk_addr = 0x46E00, .thunk_size = 0x200,
.swap_buffers = ar100_abusing_sram_swap_buffers,
.sram_size = 64 * 1024,
.sid_base = 0x01C23800,
.sid_sections = generic_2k_sid_maps,
.watchdog = &wd_h3_compat,
},{
.soc_id = 0x1633, /* Allwinner A31 */
.name = "A31",
.scratch_addr = 0x1000,
.thunk_addr = 0x22E00, .thunk_size = 0x200,
.swap_buffers = a31_sram_swap_buffers,
.sram_size = 32 * 1024,
.watchdog = &wd_h3_compat,
},{
.soc_id = 0x1667, /* Allwinner A33, R16 */
.name = "A33",
.scratch_addr = 0x1000,
.thunk_addr = 0x46E00, .thunk_size = 0x200,
.swap_buffers = ar100_abusing_sram_swap_buffers,
.sram_size = 32 * 1024,
.sid_base = 0x01C23800,
.sid_sections = generic_2k_sid_maps,
.watchdog = &wd_h3_compat,
},{
.soc_id = 0x1689, /* Allwinner A64 */
.name = "A64",
.spl_addr = 0x10000,
.scratch_addr = 0x11000,
.thunk_addr = 0x31200, .thunk_size = 0x200,
.swap_buffers = a64_sram_swap_buffers,
.sram_size = 140 * 1024,
.sid_base = 0x01C14000,
.sid_offset = 0x200,
.sid_sections = h3_sid_maps,
.rvbar_reg = 0x017000A0,
/* Check L.NOP in the OpenRISC reset vector */
.needs_smc_workaround_if_zero_word_at_addr = 0x40004,
.watchdog = &wd_h3_compat,
},{
.soc_id = 0x1639, /* Allwinner A80 */
.name = "A80",
.spl_addr = 0x10000,
.scratch_addr = 0x11000,
.thunk_addr = 0x23400, .thunk_size = 0x200,
.swap_buffers = a80_sram_swap_buffers,
.sram_size = 40 * 1024,
.sid_base = 0X01C0E000,
.sid_offset = 0x200,
.sid_sections = generic_2k_sid_maps,
.watchdog = &wd_a80,
},{
.soc_id = 0x1663, /* Allwinner F1C100s (all new sun3i?) */
.name = "F1C100s",
.scratch_addr = 0x1000,
.thunk_addr = 0xb400, .thunk_size = 0x200,
.swap_buffers = f1c100s_sram_swap_buffers,
.sram_size = 32 * 1024,
/* No SID */
.watchdog = &wd_h3_compat,
},{
.soc_id = 0x1673, /* Allwinner A83T */
.name = "A83T",
.scratch_addr = 0x1000,
.mmu_tt_addr = 0x44000,
.thunk_addr = 0x46E00, .thunk_size = 0x200,
.swap_buffers = ar100_abusing_sram_swap_buffers,
.sram_size = 32 * 1024,
.sid_base = 0x01C14000,
.sid_offset = 0x200,
.sid_sections = generic_2k_sid_maps,
.watchdog = &wd_h3_compat,
},{
.soc_id = 0x1680, /* Allwinner H3, H2+ */
.name = "H3",
.scratch_addr = 0x1000,
.mmu_tt_addr = 0x8000,
.thunk_addr = 0xA200, .thunk_size = 0x200,
.swap_buffers = a10_a13_a20_sram_swap_buffers,
.sram_size = 108 * 1024,
.sid_base = 0x01C14000,
.sid_offset = 0x200,
.sid_fix = true,
.sid_sections = h3_sid_maps,
/* Check L.NOP in the OpenRISC reset vector */
.needs_smc_workaround_if_zero_word_at_addr = 0x40004,
.watchdog = &wd_h3_compat,
},{
.soc_id = 0x1681, /* Allwinner V3s */
.name = "V3s",
.scratch_addr = 0x1000,
.mmu_tt_addr = 0x8000,
.thunk_addr = 0xA200, .thunk_size = 0x200,
.swap_buffers = a10_a13_a20_sram_swap_buffers,
.sram_size = 60 * 1024,
.sid_base = 0x01C23800,
.sid_sections = generic_2k_sid_maps,
.watchdog = &wd_h3_compat,
},{
.soc_id = 0x1708, /* Allwinner T7 */
.name = "T7",
.spl_addr = 0x20000,
.scratch_addr = 0x21000,
.thunk_addr = 0x4e200, .thunk_size = 0x200,
.swap_buffers = t7_sram_swap_buffers,
.sram_size = 184 * 1024,
.sid_base = 0x03006000,
.sid_offset = 0x200,
.sid_sections = t7_sid_maps,
.watchdog = &wd_h6_compat,
},{
.soc_id = 0x1718, /* Allwinner H5 */
.name = "H5",
.spl_addr = 0x10000,
.scratch_addr = 0x11000,
.thunk_addr = 0x31200, .thunk_size = 0x200,
.swap_buffers = a64_sram_swap_buffers,
.sram_size = 140 * 1024,
.sid_base = 0x01C14000,
.sid_offset = 0x200,
.sid_sections = h3_sid_maps,
.rvbar_reg = 0x017000A0,
/* Check L.NOP in the OpenRISC reset vector */
.needs_smc_workaround_if_zero_word_at_addr = 0x40004,
.watchdog = &wd_h3_compat,
},{
.soc_id = 0x1701, /* Allwinner R40 */
.name = "R40",
.scratch_addr = 0x1000,
.thunk_addr = 0xA200, .thunk_size = 0x200,
.swap_buffers = a10_a13_a20_sram_swap_buffers,
.sram_size = 48 * 1024,
.sid_base = 0x01C1B000,
.sid_offset = 0x200,
.sid_sections = r40_sid_maps,
.watchdog = &wd_a10_compat,
},{
.soc_id = 0x1719, /* Allwinner A63 */
.name = "A63",
.spl_addr = 0x20000,
.scratch_addr = 0x21000,
.thunk_addr = 0x42200, .thunk_size = 0x200,
.swap_buffers = h6_sram_swap_buffers,
.sram_size = 144 * 1024,
.sid_base = 0x03006000,
.sid_offset = 0x200,
.sid_sections = generic_2k_sid_maps,
.rvbar_reg = 0x09010040,
.watchdog = &wd_h6_compat,
},{
.soc_id = 0x1728, /* Allwinner H6 */
.name = "H6",
.spl_addr = 0x20000,
.scratch_addr = 0x21000,
.thunk_addr = 0x42200, .thunk_size = 0x200,
.swap_buffers = h6_sram_swap_buffers,
.sram_size = 144 * 1024,
.sid_base = 0x03006000,
.sid_offset = 0x200,
.sid_sections = h6_sid_maps,
.rvbar_reg = 0x09010040,
/* Check L.NOP in the OpenRISC reset vector */
.needs_smc_workaround_if_zero_word_at_addr = 0x100004,
.watchdog = &wd_h6_compat,
},{
.soc_id = 0x1816, /* Allwinner V536 */
.name = "V536",
.spl_addr = 0x20000,
.scratch_addr = 0x21000,
.thunk_addr = 0x2A200, .thunk_size = 0x200,
.swap_buffers = v831_sram_swap_buffers,
.sram_size = 228 * 1024,
.sid_base = 0x03006000,
.sid_offset = 0x200,
.sid_sections = generic_2k_sid_maps,
.watchdog = &wd_h6_compat,
},{
.soc_id = 0x1817, /* Allwinner V831 */
.name = "V831",
.spl_addr = 0x20000,
.scratch_addr = 0x21000,
.thunk_addr = 0x2A200, .thunk_size = 0x200,
.swap_buffers = v831_sram_swap_buffers,
.sram_size = 228 * 1024,
.sid_base = 0x03006000,
.sid_offset = 0x200,
.sid_sections = generic_2k_sid_maps,
.watchdog = &wd_h6_compat,
},{
.soc_id = 0x1823, /* Allwinner H616 */
.name = "H616",
.spl_addr = 0x20000,
.scratch_addr = 0x21000,
.thunk_addr = 0x53a00, .thunk_size = 0x200,
.swap_buffers = h616_sram_swap_buffers,
.sram_size = 207 * 1024,
.sid_base = 0x03006000,
.sid_offset = 0x200,
.sid_sections = generic_2k_sid_maps,
.rvbar_reg = 0x09010040,
.rvbar_reg_alt= 0x08100040,
.ver_reg = 0x03000024,
.watchdog = &wd_h6_compat,
},{
.soc_id = 0x1851, /* Allwinner R329 */
.name = "R329",
.spl_addr = 0x100000,
.scratch_addr = 0x101000,
.mmu_tt_addr = 0x130000,
.thunk_addr = 0x13ba00, .thunk_size = 0x200,
.swap_buffers = r329_sram_swap_buffers,
.sram_size = 1856 * 1024,
.sid_base = 0x03006000,
.sid_offset = 0x200,
.sid_sections = generic_2k_sid_maps,
.rvbar_reg = 0x08100040,
.watchdog = &wd_h6_compat,
},{
.soc_id = 0x1886, /* Allwinner V853 */
.name = "V853",
.spl_addr = 0x20000,
.scratch_addr = 0x21000,
.thunk_addr = 0x3A200, .thunk_size = 0x200,
.swap_buffers = v831_sram_swap_buffers,
.sram_size = 132 * 1024,
.sid_base = 0x03006000,
.sid_offset = 0x200,
.sid_sections = generic_2k_sid_maps,
.icache_fix = true,
.watchdog = &wd_v853_compat,
},{
.soc_id = 0x1859, /* Allwinner D1/D1s/R528/T113-S3 */
.name = "R528",
.spl_addr = 0x20000,
.scratch_addr = 0x21000,
.thunk_addr = 0x3a200, .thunk_size = 0x200,
.swap_buffers = v831_sram_swap_buffers,
.sram_size = 160 * 1024,
.sid_base = 0x03006000,
.sid_offset = 0x200,
.sid_sections = generic_2k_sid_maps,
.icache_fix = true,
.watchdog = &wd_v853_compat,
},{
.soc_id = 0x1721, /* Allwinner V5 */
.name = "V5",
.spl_addr = 0x20000,
.scratch_addr = 0x21000,
.thunk_addr = 0x42200, .thunk_size = 0x200,
.swap_buffers = h6_sram_swap_buffers,
.sram_size = 136 * 1024,
.sid_base = 0x03006000,
.sid_offset = 0x200,
.sid_sections = generic_2k_sid_maps,
.watchdog = &wd_h6_compat,
},{
.soc_id = 0x1890, /* Allwinner A523 */
.name = "A523",
.spl_addr = 0x20000,
.scratch_addr = 0x21000,
.thunk_addr = 0x43e00, .thunk_size = 0x200,
.swap_buffers = no_sram_swap_buffers,
.sram_size = 144 * 1024,
.sid_base = 0x03006000,
.sid_offset = 0x200,
.sid_sections = generic_2k_sid_maps,
.rvbar_reg = 0x08000040,
.watchdog = &wd_a523_compat,
},{
.swap_buffers = NULL /* End of the table */
}
};
/*
* This generic record assumes BROM with similar properties to A10/A13/A20/A31,
* but no extra SRAM sections beyond 0x8000. It also assumes that the IRQ
* handler stack usage never exceeds 0x400 bytes.
*
* The users may or may not hope that the 0x7000-0x8000 area is also unused
* by the BROM and re-purpose it for the SPL stack.
*
* The size limit for the ".text + .data" sections is ~21 KiB.
*/
sram_swap_buffers generic_sram_swap_buffers[] = {
{ .buf1 = 0x1C00, .buf2 = 0x5800, .size = 0x400 },
{ .size = 0 } /* End of the table */
};
soc_info_t generic_soc_info = {
.scratch_addr = 0x1000,
.thunk_addr = 0x5680, .thunk_size = 0x180,
.swap_buffers = generic_sram_swap_buffers,
};
/* functions to retrieve SoC information */
soc_info_t *get_soc_info_from_id(uint32_t soc_id)
{
soc_info_t *soc, *result = NULL;
for (soc = soc_info_table; soc->swap_buffers; soc++)
if (soc->soc_id == soc_id) {
result = soc;
break;
}
if (!result) {
printf("Warning: no 'soc_sram_info' data for your SoC (id=%04X)\n",
soc_id);
result = &generic_soc_info;
}
return result;
}
soc_info_t *get_soc_info_from_version(struct aw_fel_version *buf)
{
return get_soc_info_from_id(buf->soc_id);
}
/*
* Iterate through all supported SoCs. The first call will take NULL as
* an argument, subsequent calls pass in the pointer returned by the
* previous call. When we reach the end of the list, the function
* returns NULL.
*/
const soc_info_t *get_next_soc(const soc_info_t *prev)
{
const soc_info_t *soc;
if (prev == NULL)
return &soc_info_table[0];
for (soc = soc_info_table; soc->swap_buffers; soc++) {
if (soc != prev)
continue;
soc++;
if (!soc->swap_buffers) /* end of list? */
return NULL;
return soc;
}
return NULL; /* prev entry not found */
}
void get_soc_name_from_id(soc_name_t buffer, uint32_t soc_id)
{
soc_info_t *soc;
for (soc = soc_info_table; soc->swap_buffers; soc++)
if (soc->soc_id == soc_id && soc->name != NULL) {
strncpy(buffer, soc->name, sizeof(soc_name_t) - 1);
return;
}
/* unknown SoC (or name string missing), use the hexadecimal ID */
snprintf(buffer, sizeof(soc_name_t) - 1, "0x%04X", soc_id);
}