pinebuds/platform/hal/hal_norflaship_v2.c
Ben V. Brown 75381150fd Formatting
Formatting Pass 1

Lots of fixups to adding stdint and stdbool all over the place

Formatting Pass 2
Formatting Pass 3
Formatting Pass 4

Update app_bt_stream.cpp
2023-02-02 07:56:49 +11:00

519 lines
14 KiB
C

/***************************************************************************
*
* Copyright 2015-2019 BES.
* All rights reserved. All unpublished rights reserved.
*
* No part of this work may be used or reproduced in any form or by any
* means, or stored in a database or retrieval system, without prior written
* permission of BES.
*
* Use of this work is governed by a license granted by BES.
* This work contains confidential and proprietary information of
* BES. which is protected by copyright, trade secret,
* trademark and other intellectual property rights.
*
****************************************************************************/
#if (CHIP_FLASH_CTRL_VER >= 2)
#include "cmsis.h"
#include "hal_norflaship.h"
#include "plat_addr_map.h"
#include "plat_types.h"
#include "reg_norflaship_v2.h"
#ifdef PROGRAMMER
#include "task_schedule.h"
#else
#define TASK_SCHEDULE true
#endif
//====================================================================================
// Flash IP Operations
//====================================================================================
/*
Supported Command List (Based on GD25Q32C):
parameter WRSR1 = 8'h01 ;
parameter PP = 8'h02 ;
parameter READ = 8'h03 ;
parameter WRDI = 8'h04 ;
parameter RDSR1 = 8'h05 ;
parameter WREN = 8'h06 ;
parameter FREAD = 8'h0B ;
parameter WRSR3 = 8'h11 ;
parameter RDSR3 = 8'h15 ;
parameter SE = 8'h20 ;
parameter WRSR2 = 8'h31 ;
parameter QPP = 8'h32 ;
parameter RDSR2 = 8'h35 ;
parameter DOR = 8'h3B ;
parameter PSR = 8'h42 ;
parameter ESR = 8'h44 ;
parameter RSR = 8'h48 ;
parameter WEVSR = 8'h50 ;
parameter BE32 = 8'h52 ;
parameter RSFDP = 8'h5A ;
parameter CE = 8'h60 ;
parameter RSTE = 8'h66 ;
parameter QOR = 8'h6B ;
parameter PES = 8'h75 ;
parameter SBW = 8'h77 ;
parameter PER = 8'h7A ;
parameter REMS = 8'h90 ;
parameter DREAD_ID = 8'h92 ;
parameter QREAD_ID = 8'h94 ;
parameter RST = 8'h99 ;
parameter RDID = 8'h9F ;
parameter HPM = 8'hA3 ;
parameter RDI = 8'hAB ;
parameter DP = 8'hB9 ;
parameter DIOR = 8'hBB ;
parameter BE64 = 8'hD8 ;
parameter QIOWR = 8'hE7 ;
parameter QIOR = 8'hEB ;
parameter FPP = 8'hF2 ;
*/
static struct NORFLASH_CTRL_T *const norflash =
(struct NORFLASH_CTRL_T *)FLASH_CTRL_BASE;
#if 0
static const uint8_t line_mode[8] = {
NEW_CMD_LINE_1X, NEW_CMD_LINE_1X, NEW_CMD_LINE_2X, NEW_CMD_LINE_1X,
NEW_CMD_LINE_4X, NEW_CMD_LINE_1X, NEW_CMD_LINE_1X, NEW_CMD_LINE_1X,
};
#endif
uint8_t norflaship_continuous_read_mode_bit(uint8_t mode_bit) {
norflaship_busy_wait();
norflash->REG_004 =
SET_BITFIELD(norflash->REG_004, REG_004_MODEBIT, mode_bit);
return 0;
}
uint8_t norflaship_continuous_read_off(void) {
norflaship_busy_wait();
norflash->REG_004 &= ~REG_004_CONTINUOUS_MODE;
return 0;
}
uint8_t norflaship_continuous_read_on(void) {
norflaship_busy_wait();
norflash->REG_004 |= REG_004_CONTINUOUS_MODE;
return 0;
}
uint8_t norflaship_read_txfifo_empty_count(void) {
return GET_BITFIELD(norflash->REG_00C, REG_00C_TXFIFO_EMPCNT);
}
uint32_t norflaship_write_txfifo(const uint8_t *val, uint32_t len) {
uint32_t avail = norflaship_read_txfifo_empty_count();
while (len > 0 && avail > 0) {
#if 0
if (len >= 4 && ((uint32_t)val & 3) == 0) {
norflash->REG_008.TXWORD = *(uint32_t *)val;
val += 4;
len -= 4;
} else if (len >= 2 && ((uint32_t)val & 1) == 0) {
norflash->REG_008.TXHALFWORD = *(uint16_t *)val;
val += 2;
len -= 2;
} else
#endif
{
norflash->REG_008.TXBYTE = *(uint8_t *)val;
val += 1;
len -= 1;
}
avail -= 1;
}
return len;
}
uint8_t norflaship_read_rxfifo_count(void) {
return GET_BITFIELD(norflash->REG_00C, REG_00C_RXFIFO_COUNT);
}
uint8_t norflaship_read_rxfifo(void) { return norflash->REG_010; }
void norflaship_blksize(uint32_t blksize) {
norflash->REG_004 =
SET_BITFIELD(norflash->REG_004, REG_004_BLOCK_SIZE, blksize);
}
void norflaship_cmd_addr(uint8_t cmd, uint32_t address) {
norflaship_busy_wait();
norflash->REG_004 &= ~REG_004_NEW_CMD_EN;
norflash->REG_000 = REG_000_CMD(cmd) | REG_000_ADDR(address);
}
void norflaship_ext_tx_cmd(uint8_t cmd, uint32_t tx_len) {
norflaship_busy_wait();
norflash->REG_004 =
SET_BITFIELD(norflash->REG_004, REG_004_BLOCK_SIZE, tx_len) |
REG_004_NEW_CMD_EN;
norflash->REG_000 = REG_000_CMD(cmd);
}
void norflaship_ext_rx_cmd(uint8_t cmd, uint32_t tx_len, uint32_t rx_len) {
norflaship_busy_wait();
norflash->REG_004 =
SET_BITFIELD(norflash->REG_004, REG_004_BLOCK_SIZE, tx_len) |
REG_004_NEW_CMD_EN;
norflash->REG_000 =
REG_000_CMD(cmd) | REG_000_NEW_CMD_RX_EN | REG_000_NEW_CMD_RX_LEN(rx_len);
}
void norflaship_cmd_done(void) {
norflaship_busy_wait();
norflash->REG_004 &= ~REG_004_NEW_CMD_EN;
}
void norflaship_rxfifo_count_wait(uint8_t cnt) {
while ((norflaship_read_rxfifo_count() < cnt) && TASK_SCHEDULE)
;
}
void norflaship_rxfifo_empty_wait(void) {
while ((norflash->REG_00C & REG_00C_RXFIFO_EMPTY) && TASK_SCHEDULE)
;
}
int norflaship_txfifo_is_full(void) {
return !!(norflash->REG_00C & REG_00C_TXFIFO_FULL);
}
void norflaship_busy_wait(void) {
while ((norflash->REG_00C & REG_00C_BUSY) && TASK_SCHEDULE)
;
}
int norflaship_is_busy(void) { return !!(norflash->REG_00C & REG_00C_BUSY); }
void norflaship_clear_fifos(void) {
norflaship_busy_wait();
norflash->REG_018 = REG_018_TXFIFOCLR | REG_018_RXFIFOCLR;
norflaship_busy_wait();
}
void norflaship_clear_rxfifo(void) {
norflaship_busy_wait();
norflash->REG_018 = REG_018_RXFIFOCLR;
norflaship_busy_wait();
}
void norflaship_clear_txfifo(void) {
norflaship_busy_wait();
norflash->REG_018 = REG_018_TXFIFOCLR;
norflaship_busy_wait();
}
void norflaship_div(uint32_t div) {
norflaship_busy_wait();
#ifdef CHIP_BEST2300P
norflash->REG_014 =
SET_BITFIELD(norflash->REG_014, REG_014_CLKDIV, div) | EXTRA_TCHSH_EN_O;
#else
norflash->REG_014 = SET_BITFIELD(norflash->REG_014, REG_014_CLKDIV, div);
#endif
}
uint32_t norflaship_get_div(void) {
return GET_BITFIELD(norflash->REG_014, REG_014_CLKDIV);
}
void norflaship_cmdquad(uint32_t v) {
norflaship_busy_wait();
#ifdef CHIP_BEST2300P
if (v) {
norflash->REG_014 |= REG_014_CMDQUAD | EXTRA_TCHSH_EN_O;
} else {
norflash->REG_014 =
(norflash->REG_014 & ~REG_014_CMDQUAD) | EXTRA_TCHSH_EN_O;
}
#else
if (v) {
norflash->REG_014 |= REG_014_CMDQUAD;
} else {
norflash->REG_014 &= ~REG_014_CMDQUAD;
}
#endif
}
uint32_t norflaship_get_samdly(void) {
return GET_BITFIELD(norflash->REG_014, REG_014_SAMPLESEL);
}
void norflaship_samdly(uint32_t v) {
norflaship_busy_wait();
#ifdef CHIP_BEST2300P
norflash->REG_014 =
SET_BITFIELD(norflash->REG_014, REG_014_SAMPLESEL, v) | EXTRA_TCHSH_EN_O;
#else
norflash->REG_014 = SET_BITFIELD(norflash->REG_014, REG_014_SAMPLESEL, v);
#endif
}
void norflaship_dual_mode(uint32_t v) {
norflaship_busy_wait();
#ifdef CHIP_BEST2300P
if (v) {
norflash->REG_014 |= REG_014_RAM_DUALMODE | EXTRA_TCHSH_EN_O;
} else {
norflash->REG_014 =
(norflash->REG_014 & ~REG_014_RAM_DUALMODE) | EXTRA_TCHSH_EN_O;
}
#else
if (v) {
norflash->REG_014 |= REG_014_RAM_DUALMODE;
} else {
norflash->REG_014 &= ~REG_014_RAM_DUALMODE;
}
#endif
}
void norflaship_hold_pin(uint32_t v) {
#ifdef CHIP_BEST2300P
if (v) {
norflash->REG_014 |= REG_014_HOLDPIN | EXTRA_TCHSH_EN_O;
} else {
norflash->REG_014 =
(norflash->REG_014 & ~REG_014_HOLDPIN) | EXTRA_TCHSH_EN_O;
}
#else
if (v) {
norflash->REG_014 |= REG_014_HOLDPIN;
} else {
norflash->REG_014 &= ~REG_014_HOLDPIN;
}
#endif
}
void norflaship_wpr_pin(uint32_t v) {
#ifdef CHIP_BEST2300P
if (v) {
norflash->REG_014 |= REG_014_WPROPIN | EXTRA_TCHSH_EN_O;
} else {
norflash->REG_014 =
(norflash->REG_014 & ~REG_014_WPROPIN) | EXTRA_TCHSH_EN_O;
}
#else
if (v) {
norflash->REG_014 |= REG_014_WPROPIN;
} else {
norflash->REG_014 &= ~REG_014_WPROPIN;
}
#endif
}
void norflaship_quad_mode(uint32_t v) {
norflaship_busy_wait();
#ifdef CHIP_BEST2300P
if (v) {
norflash->REG_014 |= REG_014_RAM_QUADMODE | EXTRA_TCHSH_EN_O;
} else {
norflash->REG_014 =
(norflash->REG_014 & ~REG_014_RAM_QUADMODE) | EXTRA_TCHSH_EN_O;
}
#else
if (v) {
norflash->REG_014 |= REG_014_RAM_QUADMODE;
} else {
norflash->REG_014 &= ~REG_014_RAM_QUADMODE;
}
#endif
}
void norflaship_addrbyte4(uint32_t v) {
#ifdef CHIP_BEST2300P
if (v) {
norflash->REG_014 |= REG_014_FOUR_BYTE_ADDR_EN | EXTRA_TCHSH_EN_O;
} else {
norflash->REG_014 =
(norflash->REG_014 & ~REG_014_FOUR_BYTE_ADDR_EN) | EXTRA_TCHSH_EN_O;
}
#else
if (v) {
norflash->REG_014 |= REG_014_FOUR_BYTE_ADDR_EN;
} else {
norflash->REG_014 &= ~REG_014_FOUR_BYTE_ADDR_EN;
}
#endif
}
void norflaship_ruen(uint32_t v) {
norflash->REG_034 = SET_BITFIELD(norflash->REG_034, REG_034_SPI_RUEN, v);
}
void norflaship_rden(uint32_t v) {
norflash->REG_034 = SET_BITFIELD(norflash->REG_034, REG_034_SPI_RDEN, v);
}
void norflaship_dualiocmd(uint32_t v) {
norflash->REG_020 = SET_BITFIELD(norflash->REG_020, REG_020_DUALCMD, v);
}
void norflaship_rdcmd(uint32_t v) {
norflash->REG_020 = SET_BITFIELD(norflash->REG_020, REG_020_READCMD, v);
}
void norflaship_frdcmd(uint32_t v) {
norflash->REG_020 = SET_BITFIELD(norflash->REG_020, REG_020_FREADCMD, v);
}
void norflaship_qrdcmd(uint32_t v) {
norflash->REG_020 = SET_BITFIELD(norflash->REG_020, REG_020_QUADCMD, v);
}
uint32_t norflaship_get_rdcmd(void) {
return GET_BITFIELD(norflash->REG_020, REG_020_READCMD);
}
void norflaship_set_idle_io_dir(uint32_t v) {
#ifdef NORFLASHIP_HAS_IDLE_IO_CTRL
norflash->REG_034 = SET_BITFIELD(norflash->REG_034, REG_034_SPI_IOEN, v);
#endif
}
void norflaship_sleep(void) {
#ifndef NORFLASHIP_HAS_IDLE_IO_CTRL
norflash->REG_034 |= REG_034_SPI_IORES(1 << 2);
#endif
}
void norflaship_wakeup(void) {
#ifndef NORFLASHIP_HAS_IDLE_IO_CTRL
norflash->REG_034 &= ~REG_034_SPI_IORES(1 << 2);
#endif
}
void norflaship_dec_index(uint32_t idx) {
#ifdef NORFLASHIP_HAS_SECURITY
norflash->REG_058 = SET_BITFIELD(norflash->REG_058, REG_058_IDX, idx);
#endif
}
void norflaship_dec_saddr(uint32_t addr) {
#ifdef NORFLASHIP_HAS_SECURITY
norflash->REG_060 = ((addr & 0x000000ff) << 24) | ((addr & 0x0000ff00) << 8) |
((addr & 0x00ff0000) >> 8) | ((addr & 0xff000000) >> 24);
#endif
}
void norflaship_dec_eaddr(uint32_t addr) {
#ifdef NORFLASHIP_HAS_SECURITY
norflash->REG_064 = ((addr & 0x000000ff) << 24) | ((addr & 0x0000ff00) << 8) |
((addr & 0x00ff0000) >> 8) | ((addr & 0xff000000) >> 24);
#endif
}
void norflaship_dec_enable(void) {
#ifdef NORFLASHIP_HAS_SECURITY
norflash->REG_06C |= REG_06C_DEC_ENABLE;
#endif
}
void norflaship_dec_disable(void) {
#ifdef NORFLASHIP_HAS_SECURITY
norflash->REG_06C &= ~REG_06C_DEC_ENABLE;
#endif
}
void norflaship_man_wrap_width(uint32_t width) {
#ifdef NORFLASHIP_HAS_SECURITY
int bits = 0;
if (width == 8)
bits = 0;
else if (width == 16)
bits = 1;
else if (width == 32)
bits = 2;
else if (width == 64)
bits = 3;
else
bits = 1;
norflash->REG_038 =
SET_BITFIELD(norflash->REG_038, REG_038_MAN_WRAP_BITS, bits);
#endif
}
void norflaship_man_wrap_enable(void) {
#ifdef NORFLASHIP_HAS_SECURITY
norflash->REG_038 |= REG_038_MAN_WRAP_ENABLE;
#endif
}
void norflaship_man_wrap_disable(void) {
#ifdef NORFLASHIP_HAS_SECURITY
norflash->REG_038 &= ~REG_038_MAN_WRAP_ENABLE;
#endif
}
void norflaship_auto_wrap_cmd(uint32_t cmd) {
#ifdef NORFLASHIP_HAS_SECURITY
norflash->REG_038 =
SET_BITFIELD(norflash->REG_038, REG_038_AUTO_WRAP_CMD, cmd);
#endif
}
void norflaship_man_mode_enable(void) {
#ifdef NORFLASHIP_HAS_SECURITY
norflash->REG_038 |= REG_038_WRAP_MODE_SEL;
#endif
}
void norflaship_man_mode_disable(void) {
#ifdef NORFLASHIP_HAS_SECURITY
norflash->REG_038 &= ~REG_038_WRAP_MODE_SEL;
#endif
}
int norflaship_config_remap_section(uint32_t id, uint32_t addr, uint32_t len,
uint32_t new_addr) {
#ifdef NORFLASHIP_HAS_REMAP
__IO uint32_t *start, *end, *to;
if (id >= 4) {
return 1;
}
if (len == 0) {
norflash->REG_0B0 &= ~(REG_0B0_ADDR0_REMAP_EN << id);
return 0;
}
if (addr & (REMAP_SECTOR_SIZE - 1)) {
return 2;
}
if (new_addr & (REMAP_SECTOR_SIZE - 1)) {
return 3;
}
if (len < REMAP_SECTOR_SIZE) {
return 4;
}
#ifdef CHIP_BEST2300P
if (len & (len - 1)) {
return 5;
}
uint32_t len_idx;
len_idx = __CLZ(__RBIT(len)) - 9;
norflash->REG_0A0 =
(norflash->REG_0A0 &
~(REG_0A0_LEN_WIDTH0_MASK << (id * REG_0A0_LEN_WIDTH1_SHIFT))) |
(REG_0A0_LEN_WIDTH0(len_idx) << (id * REG_0A0_LEN_WIDTH1_SHIFT));
#else
if (len & (REMAP_SECTOR_SIZE - 1)) {
return 5;
}
#endif
start = &norflash->REG_070 + id;
end = &norflash->REG_080 + id;
to = &norflash->REG_090 + id;
*start = addr;
*end = addr + len - 1;
*to = new_addr;
norflash->REG_0B0 |= (REG_0B0_ADDR0_REMAP_EN << id);
return 0;
#else
return -1;
#endif
}
void norflaship_enable_remap(void) {
#ifdef NORFLASHIP_HAS_REMAP
norflash->REG_0B0 |= REG_0B0_GLB_REMAP_EN;
#endif
}
void norflaship_disable_remap(void) {
#ifdef NORFLASHIP_HAS_REMAP
norflash->REG_0B0 &= ~REG_0B0_GLB_REMAP_EN;
#endif
}
int norflaship_get_remap_status(void) {
#ifdef NORFLASHIP_HAS_REMAP
return (norflash->REG_0B0 & REG_0B0_GLB_REMAP_EN) ? true : false;
#else
return false;
#endif
}
#if (CHIP_FLASH_CTRL_VER >= 3)
void norflaship_dummy_others(uint32_t v) {
norflash->REG_150 = REG_150_DUMMY_OTHERS(v);
}
#endif
void norflaship_fetch_disable() { norflash->REG_02C &= ~REG_02C_FETCH_EN; }
#endif