tcl/target/stm32(f7/h7)x: do not assume presence of the reset

[fw/openocd] / tcl / board / stm32h747i-disco.cfg

# This is a stm32h747i-disco with a single STM32H747XIH6 chip.
# www.st.com/en/product/stm32h747i-disco.html
#

# This is for using the onboard STLINK
source [find interface/stlink.cfg]

transport select hla_swd

set CHIPNAME stm32h747xih6

# enable stmqspi
if {![info exists QUADSPI]} {
        set QUADSPI 1
}

source [find target/stm32h7x_dual_bank.cfg]

reset_config srst_only

# QUADSPI initialization
# qpi: 4-line mode
proc qspi_init { qpi } {
        global a
        mmw 0x580244E0 0x000007FF 0                             ;# RCC_AHB4ENR |= GPIOAEN-GPIOKEN (enable clocks)
        mmw 0x580244D4 0x00004000 0                             ;# RCC_AHB3ENR |= QSPIEN (enable clock)
        sleep 1                                                                 ;# Wait for clock startup

        # PG06: BK1_NCS, PB02: CLK, PF06: BK1_IO3, PF07: BK1_IO2, PF09: BK1_IO1, PD11: BK1_IO0,
        # PG14: BK2_IO3, PG09: BK2_IO2, PH03: BK2_IO1, PH02: BK2_IO0

        # PB02:AF09:V, PD11:AF09:V, PF09:AF10:V, PF07:AF09:V, PF06:AF09:V, PG14:AF09:H
        # PG09:AF09:V, PG06:AF10:H, PH03:AF09:V, PH02:AF09:V

        # Port B: PB02:AF09:V
        mmw 0x58020400 0x00000020 0x00000010    ;# MODER
        mmw 0x58020408 0x00000030 0x00000000    ;# OSPEEDR
        mmw 0x58020420 0x00000900 0x00000600    ;# AFRL
        # Port D: PD11:AF09:V
        mmw 0x58020C00 0x00800000 0x00400000    ;# MODER
        mmw 0x58020C08 0x00C00000 0x00000000    ;# OSPEEDR
        mmw 0x58020C24 0x00009000 0x00006000    ;# AFRH
        # Port F: PF09:AF10:V, PF07:AF09:V, PF06:AF09:V
        mmw 0x58021400 0x0008A000 0x00045000    ;# MODER
        mmw 0x58021408 0x000CF000 0x00000000    ;# OSPEEDR
        mmw 0x58021420 0x99000000 0x66000000    ;# AFRL
        mmw 0x58021424 0x000000A0 0x00000050    ;# AFRH
        # Port G: PG14:AF09:H, PG09:AF09:V, PG06:AF10:H
        mmw 0x58021800 0x20082000 0x10041000    ;# MODER
        mmw 0x58021808 0x200C2000 0x10001000    ;# OSPEEDR
        mmw 0x58021820 0x0A000000 0x05000000    ;# AFRL
        mmw 0x58021824 0x09000090 0x06000060    ;# AFRH
        # Port H: PH03:AF09:V, PH02:AF09:V
        mmw 0x58021C00 0x000000A0 0x00000050    ;# MODER
        mmw 0x58021C08 0x000000F0 0x00000000    ;# OSPEEDR
        mmw 0x58021C20 0x00009900 0x00006600    ;# AFRL

        # correct FSIZE is 0x1A, however, this causes trouble when
        # reading the last bytes at end of bank in *memory mapped* mode

        # for dual flash mode 2 * mt25ql512
        mww 0x52005000 0x05500058                               ;# QUADSPI_CR: PRESCALER=5, APMS=1, FTHRES=0, FSEL=0, DFM=1, SSHIFT=1, TCEN=1
        mww 0x52005004 0x001A0200                               ;# QUADSPI_DCR: FSIZE=0x1A, CSHT=0x02, CKMODE=0

        mww 0x52005030 0x00001000                               ;# QUADSPI_LPTR: deactivate CS after 4096 clocks when FIFO is full
        mww 0x52005014 0x0D002503                               ;# QUADSPI_CCR: FMODE=0x3, DMODE=0x1, DCYC=0x0, ADSIZE=0x3, ADMODE=0x1, IMODE=0x1
        mmw 0x52005000 0x00000001 0                             ;# QUADSPI_CR: EN=1

        # Exit QPI mode
        mmw 0x52005000 0x00000002 0                             ;# QUADSPI_CR: ABORT=1
        mww 0x52005014 0x000003F5                               ;# QUADSPI_CCR: FMODE=0x0, DMODE=0x0, DCYC=0x0, ADSIZE=0x0, ADMODE=0x0, IMODE=0x3, INSTR=Exit QPI
        sleep 1

        if { $qpi == 1 } {
                # Write Enable
                mmw 0x52005000 0x00000002 0                     ;# QUADSPI_CR: ABORT=1
                mww 0x52005014 0x00000106                       ;# QUADSPI_CCR: FMODE=0x0, DMODE=0x0, DCYC=0x0, ADSIZE=0x0, ADMODE=0x0, IMODE=0x1, INSTR=Write Enable
                sleep 1

                # Configure dummy clocks via volatile configuration register
                mmw 0x52005000 0x00000002 0                     ;# QUADSPI_CR: ABORT=1
                mww 0x52005010 0x00000001                       ;# QUADSPI_DLR: 2 data bytes
                mww 0x52005014 0x01000181                       ;# QUADSPI_CCR: FMODE=0x0, DMODE=0x1, DCYC=0x0, ADSIZE=0x0, ADMODE=0x0, IMODE=0x1, INSTR=Write Volatile Conf. Reg.
                mwh 0x52005020 0xABAB                           ;# QUADSPI_DR: 0xAB 0xAB for 10 dummy clocks
                sleep 1

                # Write Enable
                mmw 0x52005000 0x00000002 0                     ;# QUADSPI_CR: ABORT=1
                mww 0x52005014 0x00000106                       ;# QUADSPI_CCR: FMODE=0x0, DMODE=0x0, DCYC=0x0, ADSIZE=0x0, ADMODE=0x0, IMODE=0x1, INSTR=Write Enable
                sleep 1

                # Enable QPI mode via enhanced volatile configuration register
                mmw 0x52005000 0x00000002 0                     ;# QUADSPI_CR: ABORT=1
                mww 0x52005010 0x00000001                       ;# QUADSPI_DLR: 2 data bytes
                mww 0x52005014 0x01000161                       ;# QUADSPI_CCR: FMODE=0x0, DMODE=0x1, DCYC=0x0, ADSIZE=0x0, ADMODE=0x0, IMODE=0x1, INSTR=Write Enhanced Conf. Reg.
                mwh 0x52005020 0x3F3F                           ;# QUADSPI_DR: 0x3F 0x3F to enable QPI and DPI mode
                sleep 1

                # Enter QPI mode
                mmw 0x52005000 0x00000002 0                     ;# QUADSPI_CR: ABORT=1
                mww 0x52005014 0x00000135                       ;# QUADSPI_CCR: FMODE=0x0, DMODE=0x0, DCYC=0x0, ADSIZE=0x0, ADMODE=0x0, IMODE=0x1, INSTR=Enter QPI
                sleep 1

                # memory-mapped fast read mode with 4-byte addresses and 10 dummy cycles (for read only)
                mmw 0x52005000 0x00000002 0                     ;# QUADSPI_CR: ABORT=1
                mww 0x52005014 0x0F283FEC                       ;# QUADSPI_CCR: FMODE=0x3, DMODE=0x3, DCYC=0xA, ADSIZE=0x3, ADMODE=0x3, IMODE=0x3, INSTR=Fast READ
        } else {
                # memory-mapped read mode with 4-byte addresses
                mmw 0x52005000 0x00000002 0                     ;# QUADSPI_CR: ABORT=1
                mww 0x52005014 0x0D003513                       ;# QUADSPI_CCR: FMODE=0x3, DMODE=0x1, DCYC=0x0, ADSIZE=0x3, ADMODE=0x1, IMODE=0x1, INSTR=READ
        }
}

$_CHIPNAME.cpu0 configure -event reset-init {
        global QUADSPI

        mmw 0x52002000 0x00000004 0x0000000B    ;# FLASH_ACR: 4 WS for 192 MHZ HCLK

        mmw 0x58024400 0x00000001 0x00000018    ;# RCC_CR: HSIDIV=1, HSI on
        mmw 0x58024410 0x10000000 0xEE000007    ;# RCC_CFGR: MCO2=system, MCO2PRE=8, HSI as system clock
        mww 0x58024418 0x00000040                               ;# RCC_D1CFGR: D1CPRE=1, D1PPRE=2, HPRE=1
        mww 0x5802441C 0x00000440                               ;# RCC_D2CFGR: D2PPRE2=2, D2PPRE1=2
        mww 0x58024420 0x00000040                               ;# RCC_D3CFGR: D3PPRE=2
        mww 0x58024428 0x00000040                               ;# RCC_PPLCKSELR: DIVM3=0, DIVM2=0, DIVM1=4, PLLSRC=HSI
        mmw 0x5802442C 0x0001000C 0x00000002    ;# RCC_PLLCFGR: PLL1RGE=8MHz to 16MHz, PLL1VCOSEL=wide
        mww 0x58024430 0x01070217                               ;# RCC_PLL1DIVR: 192 MHz: DIVR1=2, DIVQ=8, DIVP1=2, DIVN1=24
        mmw 0x58024400 0x01000000 0                             ;# RCC_CR: PLL1ON=1
        sleep 1
        mmw 0x58024410 0x00000003 0                             ;# RCC_CFGR: PLL1 as system clock
        sleep 1

        adapter speed 24000

        if { $QUADSPI } {
                qspi_init 1
        }
}