X-Git-Url: https://git.gag.com/?a=blobdiff_plain;f=doc%2Fopenocd.texi;h=a6da1675e250182e1e2173a8135ecc838d2f971b;hb=5a0b4889d0d46639b38effd24102f0d5fca1ca31;hp=5aab4ba1df0b6adde60c6b53ec3aa81a218209ae;hpb=2fdf6788e20d53f8368f508de5ff39627d8ce27a;p=fw%2Fopenocd

diff --git a/doc/openocd.texi b/doc/openocd.texi
index 5aab4ba1d..a6da1675e 100644
--- a/doc/openocd.texi
+++ b/doc/openocd.texi
@@ -265,7 +265,7 @@ listed in the Doxyfile configuration at the top of the source tree.
 All changes in the OpenOCD Git repository go through the web-based Gerrit
 Code Review System:
 
-@uref{http://openocd.zylin.com/}
+@uref{https://review.openocd.org/}
 
 After a one-time registration and repository setup, anyone can push commits
 from their local Git repository directly into Gerrit.
@@ -2459,7 +2459,7 @@ This driver is for adapters using the MPSSE (Multi-Protocol Synchronous Serial
 Engine) mode built into many FTDI chips, such as the FT2232, FT4232 and FT232H.
 
 The driver is using libusb-1.0 in asynchronous mode to talk to the FTDI device,
-bypassing intermediate libraries like libftdi or D2XX.
+bypassing intermediate libraries like libftdi.
 
 Support for new FTDI based adapters can be added completely through
 configuration files, without the need to patch and rebuild OpenOCD.
@@ -2632,47 +2632,47 @@ FT232R
 These interfaces have several commands, used to configure the driver
 before initializing the JTAG scan chain:
 
-@deffn {Config Command} {ft232r_vid_pid} @var{vid} @var{pid}
+@deffn {Config Command} {ft232r vid_pid} @var{vid} @var{pid}
 The vendor ID and product ID of the adapter. If not specified, default
 0x0403:0x6001 is used.
 @end deffn
 
-@deffn {Config Command} {ft232r_serial_desc} @var{serial}
+@deffn {Config Command} {ft232r serial_desc} @var{serial}
 Specifies the @var{serial} of the adapter to use, in case the
 vendor provides unique IDs and more than one adapter is connected to
 the host. If not specified, serial numbers are not considered.
 @end deffn
 
-@deffn {Config Command} {ft232r_jtag_nums} @var{tck} @var{tms} @var{tdi} @var{tdo}
+@deffn {Config Command} {ft232r jtag_nums} @var{tck} @var{tms} @var{tdi} @var{tdo}
 Set four JTAG GPIO numbers at once.
 If not specified, default 0 3 1 2 or TXD CTS RXD RTS is used.
 @end deffn
 
-@deffn {Config Command} {ft232r_tck_num} @var{tck}
+@deffn {Config Command} {ft232r tck_num} @var{tck}
 Set TCK GPIO number. If not specified, default 0 or TXD is used.
 @end deffn
 
-@deffn {Config Command} {ft232r_tms_num} @var{tms}
+@deffn {Config Command} {ft232r tms_num} @var{tms}
 Set TMS GPIO number. If not specified, default 3 or CTS is used.
 @end deffn
 
-@deffn {Config Command} {ft232r_tdi_num} @var{tdi}
+@deffn {Config Command} {ft232r tdi_num} @var{tdi}
 Set TDI GPIO number. If not specified, default 1 or RXD is used.
 @end deffn
 
-@deffn {Config Command} {ft232r_tdo_num} @var{tdo}
+@deffn {Config Command} {ft232r tdo_num} @var{tdo}
 Set TDO GPIO number. If not specified, default 2 or RTS is used.
 @end deffn
 
-@deffn {Config Command} {ft232r_trst_num} @var{trst}
+@deffn {Config Command} {ft232r trst_num} @var{trst}
 Set TRST GPIO number. If not specified, default 4 or DTR is used.
 @end deffn
 
-@deffn {Config Command} {ft232r_srst_num} @var{srst}
+@deffn {Config Command} {ft232r srst_num} @var{srst}
 Set SRST GPIO number. If not specified, default 6 or DCD is used.
 @end deffn
 
-@deffn {Config Command} {ft232r_restore_serial} @var{word}
+@deffn {Config Command} {ft232r restore_serial} @var{word}
 Restore serial port after JTAG. This USB bitmode control word
 (16-bit) will be sent before quit. Lower byte should
 set GPIO direction register to a "sane" state:
@@ -2728,28 +2728,21 @@ USB JTAG/USB-Blaster compatibles over one of the userspace libraries
 for FTDI chips. These interfaces have several commands, used to
 configure the driver before initializing the JTAG scan chain:
 
-@deffn {Config Command} {usb_blaster_device_desc} description
-Provides the USB device description (the @emph{iProduct string})
-of the FTDI FT245 device. If not
-specified, the FTDI default value is used. This setting is only valid
-if compiled with FTD2XX support.
-@end deffn
-
-@deffn {Config Command} {usb_blaster_vid_pid} vid pid
+@deffn {Config Command} {usb_blaster vid_pid} vid pid
 The vendor ID and product ID of the FTDI FT245 device. If not specified,
 default values are used.
 Currently, only one @var{vid}, @var{pid} pair may be given, e.g. for
 Altera USB-Blaster (default):
 @example
-usb_blaster_vid_pid 0x09FB 0x6001
+usb_blaster vid_pid 0x09FB 0x6001
 @end example
 The following VID/PID is for Kolja Waschk's USB JTAG:
 @example
-usb_blaster_vid_pid 0x16C0 0x06AD
+usb_blaster vid_pid 0x16C0 0x06AD
 @end example
 @end deffn
 
-@deffn {Command} {usb_blaster_pin} (@option{pin6}|@option{pin8}) (@option{0}|@option{1}|@option{s}|@option{t})
+@deffn {Command} {usb_blaster pin} (@option{pin6}|@option{pin8}) (@option{0}|@option{1}|@option{s}|@option{t})
 Sets the state or function of the unused GPIO pins on USB-Blasters
 (pins 6 and 8 on the female JTAG header). These pins can be used as
 SRST and/or TRST provided the appropriate connections are made on the
@@ -2757,18 +2750,18 @@ target board.
 
 For example, to use pin 6 as SRST:
 @example
-usb_blaster_pin pin6 s
+usb_blaster pin pin6 s
 reset_config srst_only
 @end example
 @end deffn
 
-@deffn {Config Command} {usb_blaster_lowlevel_driver} (@option{ftdi}|@option{ublast2})
+@deffn {Config Command} {usb_blaster lowlevel_driver} (@option{ftdi}|@option{ublast2})
 Chooses the low level access method for the adapter. If not specified,
 @option{ftdi} is selected unless it wasn't enabled during the
 configure stage. USB-Blaster II needs @option{ublast2}.
 @end deffn
 
-@deffn {Config Command} {usb_blaster_firmware} @var{path}
+@deffn {Config Command} {usb_blaster firmware} @var{path}
 This command specifies @var{path} to access USB-Blaster II firmware
 image. To be used with USB-Blaster II only.
 @end deffn
@@ -3131,6 +3124,26 @@ Specifies the serial number of the adapter.
 @deffn {Config Command} {st-link vid_pid} [vid pid]+
 Pairs of vendor IDs and product IDs of the device.
 @end deffn
+
+@deffn {Command} {st-link cmd} rx_n (tx_byte)+
+Sends an arbitrary command composed by the sequence of bytes @var{tx_byte}
+and receives @var{rx_n} bytes.
+
+For example, the command to read the target's supply voltage is one byte 0xf7 followed
+by 15 bytes zero. It returns 8 bytes, where the first 4 bytes represent the ADC sampling
+of the reference voltage 1.2V and the last 4 bytes represent the ADC sampling of half
+the target's supply voltage.
+@example
+> st-link cmd 8 0xf7 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
+0xf1 0x05 0x00 0x00 0x0b 0x08 0x00 0x00
+@end example
+The result can be converted to Volts (ignoring the most significant bytes, always zero)
+@example
+> set a [st-link cmd 8 0xf7 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0]
+> echo [expr 2*1.2*([lindex $a 4]+256*[lindex $a 5])/([lindex $a 0]+256*[lindex $a 1])]
+3.24891518738
+@end example
+@end deffn
 @end deffn
 
 @deffn {Interface Driver} {opendous}
@@ -3194,6 +3207,8 @@ able to coexist nicely with both sysfs bitbanging and various
 peripherals' kernel drivers. The driver restores the previous
 configuration on exit.
 
+GPIO numbers >= 32 can't be used for performance reasons.
+
 See @file{interface/raspberrypi-native.cfg} for a sample config and
 pinout.
 
@@ -3339,21 +3354,21 @@ It uses a simple data protocol over a serial port connection.
 Most hardware development boards have a UART, a real serial port, or a virtual USB serial device, so this driver
 allows you to start building your own JTAG adapter without the complexity of a custom USB connection.
 
-@deffn {Config Command} {buspirate_port} serial_port
+@deffn {Config Command} {buspirate port} serial_port
 Specify the serial port's filename. For example:
 @example
-buspirate_port /dev/ttyUSB0
+buspirate port /dev/ttyUSB0
 @end example
 @end deffn
 
-@deffn {Config Command} {buspirate_speed} (normal|fast)
+@deffn {Config Command} {buspirate speed} (normal|fast)
 Set the communication speed to 115k (normal) or 1M (fast). For example:
 @example
-buspirate_mode normal
+buspirate speed normal
 @end example
 @end deffn
 
-@deffn {Config Command} {buspirate_mode} (normal|open-drain)
+@deffn {Config Command} {buspirate mode} (normal|open-drain)
 Set the Bus Pirate output mode.
 @itemize @minus
 @item In normal mode (push/pull), do not enable the pull-ups, and do not connect I/O header pin VPU to JTAG VREF.
@@ -3361,33 +3376,33 @@ Set the Bus Pirate output mode.
 @end itemize
 For example:
 @example
-buspirate_mode normal
+buspirate mode normal
 @end example
 @end deffn
 
-@deffn {Config Command} {buspirate_pullup} (0|1)
+@deffn {Config Command} {buspirate pullup} (0|1)
 Whether to connect (1) or not (0) the I/O header pin VPU (JTAG VREF)
 to the pull-up/pull-down resistors on MOSI (JTAG TDI), CLK (JTAG TCK), MISO (JTAG TDO) and CS (JTAG TMS).
 For example:
 @example
-buspirate_pullup 0
+buspirate pullup 0
 @end example
 @end deffn
 
-@deffn {Config Command} {buspirate_vreg} (0|1)
+@deffn {Config Command} {buspirate vreg} (0|1)
 Whether to enable (1) or disable (0) the built-in voltage regulator,
 which can be used to supply power to a test circuit through
 I/O header pins +3V3 and +5V. For example:
 @example
-buspirate_vreg 0
+buspirate vreg 0
 @end example
 @end deffn
 
-@deffn {Command} {buspirate_led} (0|1)
+@deffn {Command} {buspirate led} (0|1)
 Turns the Bus Pirate's LED on (1) or off (0). For example:
 @end deffn
 @example
-buspirate_led 1
+buspirate led 1
 @end example
 
 @end deffn
@@ -5565,6 +5580,10 @@ will not work. These include all @command{*_image} and
 functionality is available through the @command{flash write_bank},
 @command{flash read_bank}, and @command{flash verify_bank} commands.
 
+According to device size, 1- to 4-byte addresses are sent. However, some
+flash chips additionally have to be switched to 4-byte addresses by an extra
+command, see below.
+
 @itemize
 @item @var{ir} ... is loaded into the JTAG IR to map the flash as the JTAG DR.
 For the bitstreams generated from @file{xilinx_bscan_spi.py} this is the
@@ -5577,6 +5596,29 @@ set _XILINX_USER1 0x02
 flash bank $_FLASHNAME spi 0x0 0 0 0 \
            $_TARGETNAME $_XILINX_USER1
 @end example
+
+@deffn Command {jtagspi set} bank_id name total_size page_size read_cmd unused pprg_cmd mass_erase_cmd sector_size sector_erase_cmd
+Sets flash parameters: @var{name} human readable string, @var{total_size}
+size in bytes, @var{page_size} is write page size. @var{read_cmd} and @var{pprg_cmd}
+are commands for read and page program, respectively. @var{mass_erase_cmd},
+@var{sector_size} and @var{sector_erase_cmd} are optional.
+@example
+jtagspi set 0 w25q128 0x1000000 0x100 0x03 0 0x02 0xC7 0x10000 0xD8
+@end example
+@end deffn
+
+@deffn Command {jtagspi cmd} bank_id resp_num cmd_byte ...
+Sends command @var{cmd_byte} and at most 20 following bytes and reads
+@var{resp_num} bytes afterwards. E.g. for 'Enter 4-byte address mode'
+@example
+jtagspi cmd 0 0 0xB7
+@end example
+@end deffn
+
+@deffn Command {jtagspi always_4byte} bank_id [ on | off ]
+Some devices use 4-byte addresses for all commands except the legacy 0x03 read
+regardless of device size. This command controls the corresponding hack.
+@end deffn
 @end deffn
 
 @deffn {Flash Driver} {xcf}
@@ -6777,6 +6819,17 @@ Show information about flash driver.
 
 @end deffn
 
+@deffn {Flash Driver} {npcx}
+All versions of the NPCX microcontroller families from Nuvoton include internal
+flash. The NPCX flash driver supports the NPCX family of devices. The driver
+automatically recognizes the specific version's flash parameters and
+autoconfigures itself. The flash bank starts at address 0x64000000.
+
+@example
+flash bank $_FLASHNAME npcx 0x64000000 0 0 0 $_TARGETNAME
+@end example
+@end deffn
+
 @deffn {Flash Driver} {nrf5}
 All members of the nRF51 microcontroller families from Nordic Semiconductor
 include internal flash and use ARM Cortex-M0 core.
@@ -7067,8 +7120,8 @@ applied to all of them.
 
 @deffn {Flash Driver} {stm32f1x}
 All members of the STM32F0, STM32F1 and STM32F3 microcontroller families
-from STMicroelectronics and all members of the GD32F1x0 and GD32F3x0 microcontroller
-families from GigaDevice include internal flash and use ARM Cortex-M0/M3/M4 cores.
+from STMicroelectronics and all members of the GD32F1x0, GD32F3x0 and GD32E23x microcontroller
+families from GigaDevice include internal flash and use ARM Cortex-M0/M3/M4/M23 cores.
 The driver automatically recognizes a number of these chips using
 the chip identification register, and autoconfigures itself.
 
@@ -7302,7 +7355,7 @@ The @var{num} parameter is a value shown by @command{flash banks}.
 @end deffn
 
 @deffn {Flash Driver} {stm32l4x}
-All members of the STM32 G0, G4, L4, L4+, L5, WB and WL
+All members of the STM32 G0, G4, L4, L4+, L5, U5, WB and WL
 microcontroller families from STMicroelectronics include internal flash
 and use ARM Cortex-M0+, M4 and M33 cores.
 The driver automatically recognizes a number of these chips using
@@ -7337,11 +7390,15 @@ Some stm32l4x-specific commands are defined:
 @deffn {Command} {stm32l4x lock} num
 Locks the entire stm32 device.
 The @var{num} parameter is a value shown by @command{flash banks}.
+
+@emph{Note:} To apply the protection change immediately, use @command{stm32l4x option_load}.
 @end deffn
 
 @deffn {Command} {stm32l4x unlock} num
 Unlocks the entire stm32 device.
 The @var{num} parameter is a value shown by @command{flash banks}.
+
+@emph{Note:} To apply the protection change immediately, use @command{stm32l4x option_load}.
 @end deffn
 
 @deffn {Command} {stm32l4x mass_erase} num
@@ -7372,6 +7429,8 @@ The @var{num} parameter is a value shown by @command{flash banks}, @var{reg_offs
 is the register offset of the Option byte to write, and @var{reg_mask} is the mask
 to apply when writing the register (only bits with a '1' will be touched).
 
+@emph{Note:} To apply the option bytes change immediately, use @command{stm32l4x option_load}.
+
 For example to write the WRP1AR option bytes:
 @example
 stm32l4x option_write 0 0x28 0x00FF0000 0x00FF00FF
@@ -7400,6 +7459,14 @@ write protected areas in a specific @var{device_bank}
 Forces a re-load of the option byte registers. Will cause a system reset of the device.
 The @var{num} parameter is a value shown by @command{flash banks}.
 @end deffn
+
+@deffn Command {stm32l4x trustzone} num [@option{enable} | @option{disable}]
+Enables or disables Global TrustZone Security, using the TZEN option bit.
+If neither @option{enabled} nor @option{disable} are specified, the command will display
+the TrustZone status.
+@emph{Note:} This command works only with devices with TrustZone, eg. STM32L5.
+@emph{Note:} This command will perform an OBL_Launch after modifying the TZEN.
+@end deffn
 @end deffn
 
 @deffn {Flash Driver} {str7x}