X-Git-Url: https://review.openocd.org/gitweb?p=openocd.git;a=blobdiff_plain;f=doc%2Fopenocd.texi;h=40a3f2791bcec6efd4c91c692cc8f19560b84b3e;hp=9c94c7168e98ddf98a16e28bd6635dc40a7d49f8;hb=cb97a4e82171dcf81fce8d012554b99344787836;hpb=385eedfc6f0b82c5d6715c740ee40bdce983ef04

diff --git a/doc/openocd.texi b/doc/openocd.texi
index 9c94c7168e..40a3f2791b 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.
@@ -2728,13 +2728,6 @@ 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
 The vendor ID and product ID of the FTDI FT245 device. If not specified,
 default values are used.
@@ -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.
 
@@ -4389,6 +4404,20 @@ A DAP may also provide optional @var{configparams}:
 register during initial examination and when checking the sticky error bit.
 This bit is normally checked after setting the CSYSPWRUPREQ bit, but some
 devices do not set the ack bit until sometime later.
+
+@item @code{-dp-id} @var{number}
+@*Debug port identification number for SWD DPv2 multidrop.
+The @var{number} is written to bits 0..27 of DP TARGETSEL during DP selection.
+To find the id number of a single connected device read DP TARGETID:
+@code{device.dap dpreg 0x24}
+Use bits 0..27 of TARGETID.
+
+@item @code{-instance-id} @var{number}
+@*Instance identification number for SWD DPv2 multidrop.
+The @var{number} is written to bits 28..31 of DP TARGETSEL during DP selection.
+To find the instance number of a single connected device read DP DLPIDR:
+@code{device.dap dpreg 0x34}
+The instance number is in bits 28..31 of DLPIDR value.
 @end itemize
 @end deffn
 
@@ -5565,6 +5594,10 @@ 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 +5610,29 @@ 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}
@@ -7078,8 +7134,8 @@ 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.
 
@@ -7348,18 +7404,15 @@ 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}.
-@end deffn
 
-@deffn Command {stm32l4x flashloader} num [@option{enable} | @option{disable}]
-Enables or disables the flashloader usage (enabled by default),
-when disabled it will fall back to direct memory access to program the Flash or OTP memories.
-if neither @option{enabled} nor @option{disable} are specified, the command will display
-the current configuration.
+@emph{Note:} To apply the protection change immediately, use @command{stm32l4x option_load}.
 @end deffn
 
 @deffn {Command} {stm32l4x mass_erase} num
@@ -7390,6 +7443,8 @@ 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
@@ -10144,11 +10199,6 @@ Set the maximum time to wait for a hart to come out of reset after reset is
 deasserted.
 @end deffn
 
-@deffn {Command} {riscv set_scratch_ram} none|[address]
-Set the address of 16 bytes of scratch RAM the debugger can use, or 'none'.
-This is used to access 64-bit floating point registers on 32-bit targets.
-@end deffn
-
 @deffn {Command} {riscv set_prefer_sba} on|off
 When on, prefer to use System Bus Access to access memory.  When off (default),
 prefer to use the Program Buffer to access memory.