#!/usr/bin/perl # SPDX-License-Identifier: GPL-2.0-or-later # # Helper for generating GPIO setup for STM32F0, F4, F7, H7, L0, L1, L4, L4+ # and F1 (for 'stmqspi' and 'cmspi' drivers). # # Each pin is configured by "PortAndBit:Conf:Speed" # 'PortAndBit' specifies Port and bit number # 'Conf' is one of 'AFx' (alternate), 'P' (output), 'IN' (input), # (each optionally by 'P' (push-pull) or 'O' (open-drain)), # (all optionally followed by 'UP' (pull-up), or 'DO' (pull-down)) # 'Speed' is one of 'L' (low), 'M' (medium), 'H' (high), 'V' (very high) # # Port configuration can be given on command line as a single string (pins separated by commas) # or via CubeMX generated file. The latter must consist of the quadspi.c / octospi.c and the # corresponding header. The precise spelling in these files doesn't seem to be consistent, though ... # # Pins have to be ordered this way: # - I2C: SDA, SCL # - SPI (1 line): NCS, CLK, IO1/MISO, IO0/MOSI # - DPI (2 lines): NCS, CLK, IO1/MISO, IO0/MOSI # - QPI (4 lines): NCS, CLK, IO3/NHOLD, IO2/NWP, IO1/MISO, IO0/MOSI # For dual flash: BK_1 first, then BK_2. If single NCS for both, omit NCS in BK_2 # For octal flash: NCS, CLK, DQS, IO7 down to IO0 use strict; use Getopt::Std; my $GPIO_BASE; my $Conf; my $STM32F1 = 0; # "Blue-Pill stm32f103cbt6 board w/ cmspi #$STM32F1 = 1; #$GPIO_BASE = 0x40010800; #$Conf = "PB12:PP:M, PB13:PP:V, PB14:INUP:V, PB15:INUP:V"; #$Conf = "PB12:PP:M, PB13:PP:V, PB14:INUP:V, PB01:INUP:V"; #$STM32F1 = 1; #$GPIO_BASE = 0x40010800; #$Conf = "PB07:INUP:V, PB06:INUP:V"; # mini-stm32f030f4p6 board w/ cmspi #$GPIO_BASE = 0x48000000; #$Conf = "PB01:PP:V, PA05:PP:V, PA06:INUP:V, PA07:INUP:V"; # stm32f407vet6 board w/ cmspi #$GPIO_BASE = 0x40020000; #$Conf = "PB00:PP:M, PB03:PP:V, PB04:INUP:V, PB05:INUP:V"; # stm32f412g-disco quad #$GPIO_BASE = 0x40020000; #$Conf = "PB02:AF09:V, PF09:AF10:V, PF08:AF10:V, PF07:AF09:V, PF06:AF09:V, PG06:AF10:V"; # stm32f413h-disco #$GPIO_BASE = 0x40020000; #$Conf = "PB02:AF09:V, PD13:AF09:V, PE02:AF09:V, PF09:AF10:V, PF08:AF10:V, PG06:AF10:V"; # stm32f469i-disco quad #$GPIO_BASE = 0x40020000; #$Conf = "PB06:AF10:V, PF10:AF09:V, PF09:AF10:V, PF08:AF10:V, PF07:AF09:V, PF06:AF09:V"; # w/ cmspi #$Conf = "PB06:PP:M, PF10:PP:V, PF06:INUP:V, PF07:INUP:V, PF09:INUP:V, PF08:INUP:V"; # stm32f723e-disco quad #$GPIO_BASE = 0x40020000; #$Conf = "PB06:AF10:V, PB02:AF09:V, PC10:AF09:V, PC09:AF09:V, PD13:AF09:V, PE02:AF09:V"; # stm32f746g-disco quad #$GPIO_BASE = 0x40020000; #Conf = "PB06:AF10:V, PB02:AF09:V, PD13:AF09:V, PE02:AF09:V, PD12:AF09:V, PD11:AF09:V"; # w/ cmspi #$Conf = "PB06:PP:M, PB02:PP:V, PD13:INUP:V, PE02:INUP:V, PD12:INUP:V, PD11:INUP:V"; # stm32f769i-disco quad #$GPIO_BASE = 0x40020000; #$Conf = "PB06:AF10:V, PB02:AF09:V, PC10:AF09:V, PC09:AF09:V, PD13:AF09:V, PE02:AF09:V"; # w/ cmspi #$Conf = "PB06:PP:M, PB02:PP:V, PD13:INUP:V, PE02:INUP:V, PC10:INUP:V, PC09:INUP:V, "; # b-l475e-iot01a quad #$GPIO_BASE = 0x48000000; #$Conf = "PE15:AF10:V, PE14:AF10:V, PE13:AF10:V, PE12:AF10:V, PE11:AF10:V, PE10:AF10:V"; # stm32l476g-disco quad #$GPIO_BASE = 0x48000000; #$Conf = "PE15:AF10:V, PE14:AF10:V, PE13:AF10:V, PE12:AF10:V, PE11:AF10:V, PE10:AF10:V"; # stm32l496g-disco quad #$GPIO_BASE = 0x48000000; #$Conf = "PA07:AF10:V, PA06:AF10:V, PA03:AF10:V, PB11:AF10:V, PB01:AF10:V, PB00:AF10:V"; # stm32l4r9i-disco octal #$GPIO_BASE = 0x48000000; #$Conf = "PG15:AF05:V, PG12:AF05:V, PG10:AF05:V, PG09:AF05:V, PH10:AF05:V, PH09:AF05:V, " # . "PH08:AF05:V, PI11:AF05:V, PI10:AF05:V, PI09:AF05:V, PI06:AF05:V"; # stm32l4p5g-disco octal/octal #$GPIO_BASE = 0x48000000; #$Conf = "PA07:AF10:V, PA06:AF10:V, PC03:AF10:V, PD07:AF10:V, PD05:AF10:V, PD04:AF10:V, " # . "PE13:AF10:V, PE12:AF10:V, PE11:AF10:V, PE10:AF10:V, PG06:AF03:V"; #$Conf = "PF12:AF05:V, PF04:AF05:V, PF03:AF05:V, PF02:AF05:V, PF01:AF05:V, PF00:AF05:V, " # . "PG12:AF05:V, PG10:AF05:V, PG09:AF05:V, PG01:AF05:V, PG00:AF05:V"; # nucleo-f767zi dual quad #$GPIO_BASE = 0x40020000; #$Conf = "PB06:AF10:V, PB02:AF09:V, PC11:AF09:V, PD13:AF09:V, PE02:AF09:V, PD12:AF09:V, " # . "PD11:AF09:V, PE10:AF10:V, PE09:AF10:V, PE08:AF10:V, PE07:AF10:V"; # w/ cmspi #$Conf = "PB10:PPUP:M, PB02:PPUP:V, PD13:INPUP:V, PE02:INPUP:V, PD12:INPUP:V, PD11:INPUP:V"; #$Conf = "PC11:PPUP:M, PB02:PPUP:V, PE10:INPUP:V, PE09:INPUP:V, PE08:INPUP:V, PE07:INPUP:V"; # nucleo-h743zi dual quad #$GPIO_BASE = 0x58020000; #$Conf = "PB10:AF09:V, PB02:AF09:V, PC11:AF09:V, PD13:AF09:V, PE02:AF09:V, PD12:AF09:V, " # . "PD11:AF09:V, PE10:AF10:V, PE09:AF10:V, PE08:AF10:V, PE07:AF10:V"; # w/ cmspi #$Conf = "PB10:PPUP:M, PB02:PPUP:V, PD13:INPUP:V, PE02:INPUP:V, PD12:INPUP:V, PD11:INPUP:V"; #$Conf = "PC11:PPUP:M, PB02:PPUP:V, PE10:INPUP:V, PE09:INPUP:V, PE08:INPUP:V, PE07:INPUP:V"; # nucleo-h7a3zi dual quad #$GPIO_BASE = 0x58020000; #$Conf = "PB10:AF09:V, PB02:AF09:V, PD13:AF09:V, PE02:AF09:V, PD12:AF09:V, PD11:AF09:V, " # . "PC11:AF09:V, PE10:AF10:V, PD06:AF10:V, PE08:AF10:V, PE07:AF10:V"; # w/ cmspi #$Conf = "PB10:PPUP:M, PB02:PPUP:V, PD13:INPUP:V, PE02:INPUP:V, PD12:INPUP:V, PD11:INPUP:V"; #$Conf = "PC11:PPUP:M, PB02:PPUP:V, PE10:INPUP:V, PD06:INPUP:V, PE08:INPUP:V, PE07:INPUP:V"; # nucleo-l4r5zi one dual quad single NCS #$GPIO_BASE = 0x48000000; #$Conf = "PA02:AF10:V, PE10:AF10:V, PD07:AF10:V, PD06:AF10:V, PD05:AF10:V, PD04:AF10:V, " # . "PE15:AF10:V, PE14:AF10:V, PE13:AF10:V, PE12:AF10:V"; # w/ cmspi #$Conf = "PA02:PPUP:M, PE10:PPUP:V, PD07:INPDO:V, PD06:INPDO:V, PD05:INPDO:V, PD04:INPDO:V"; #$Conf = "PA02:PPUP:M, PE10:PPUP:V, PE15:INPDO:V, PE14:INPDO:V, PE13:INPDO:V, PE12:INPDO:V"; # nucleo-l552ze-q dual quad with single NCS #$GPIO_BASE = 0x42020000; #$Conf = "PA02:AF10:V, PE10:AF10:V, PD07:AF10:V, PD06:AF10:V, PD05:AF10:V, PD04:AF10:V, " # . "PE15:AF10:V, PE14:AF10:V, PE13:AF10:V, PE12:AF10:V"; # w/ cmspi #$Conf = "PA02:PPUP:M, PE10:PPUP:V, PD07:INPDO:V, PD06:INPDO:V, PD05:INPDO:V, PD04:INPDO:V"; #$Conf = "PA02:PPUP:M, PE10:PPUP:V, PE15:INPDO:V, PE14:INPDO:V, PE13:INPDO:V, PE12:INPDO:V"; # nucleo-g071rb dual quad #$GPIO_BASE = 0x50000000; #$Conf = "PA00:PPUP:H, PA04:PPUP:V, PB03:INPUP:V, PA10:INPUP:V, PB11:INPUP:H, PB01:INPUP:H"; #$Conf = "PA01:PPUP:H, PA04:PPUP:V, PA08:INPUP:V, PB14:INPUP:V, PB04:INPUP:V, PB05:INPUP:V"; # nucleo-g474re dual quad with single NCS #$GPIO_BASE = 0x48000000; #$Conf = "PB11:AF10:H, PB10:AF10:V, PA06:AF10:V, PA07:AF10:V, PB00:AF10:V, PB01:AF10:V, " # . "PC04:AF10:V, PC03:AF10:V, PC02:AF10:V, PC01:AF10:V"; # w/ cmspi #$Conf = "PB11:PPUP:H, PB10:PPUP:V, PA06:INPUP:V, PA07:INPUP:V, PB00:INPUP:V, PB01:INPUP:V"; #$Conf = "PB11:PPUP:H, PB10:PPUP:V, PC04:INPUP:V, PC03:INPUP:V, PC02:INPUP:V, PC01:INPUP:V"; # stm32h745i-disco dual quad with single NCS #$GPIO_BASE = 0x58020000; #$Conf = "PG06:AF10:H, PF10:AF09:V, PF06:AF09:V, PF07:AF09:V, PF09:AF10:V, PD11:AF09:V, " # . "PG14:AF09:H, PG09:AF09:V, PH03:AF09:V, PH02:AF09:V"; # stm32h747i-disco dual quad with single NCS #GPIO_BASE = 0x58020000; #$Conf = "PG06:AF10:H, PB02:AF09:V, PF06:AF09:V, PF07:AF09:V, PF09:AF10:V, PD11:AF09:V, " # . "PG14:AF09:H, PG09:AF09:V, PH03:AF09:V, PH02:AF09:V"; # stm32h7b3i-disco octal #$GPIO_BASE = 0x58020000; #$Conf = "PG06:AF10:V, PB02:AF09:V, PC05:AF10:V, PD07:AF10:V, PG09:AF09:V, PH03:AF09:V, PC01:AF10:V, " # . "PF06:AF10:V, PF07:AF10:V, PF09:AF10:V, PD11:AF09:V"; # stm32h735g-disco octal #$GPIO_BASE = 0x58020000; #$Conf = "PG06:AF10:V, PF10:AF09:V, PB02:AF10:V, PD07:AF10:V, PG09:AF09:V, PD05:AF10:V, PD04:AF10:V, " # . "PD13:AF09:V, PE02:AF09:V, PD12:AF09:V, PD11:AF09:V"; # stm32l562e-disco octal #$GPIO_BASE = 0x42020000; #$Conf = "PA02:AF10:V, PA03:AF10:V, PB02:AF10:V, PC00:AF03:V, PC03:AF10:V, PC02:AF10:V, PC01:AF10:V, " # . "PA06:AF10:V, PA07:AF10:V, PB00:AF10:V, PB01:AF10:V"; &getopts('b:c:f:t'); if ($Getopt::Std::opt_b eq '') { if ($GPIO_BASE eq '') { die("usage: $0 [ -1 ] -b io_base [ -c port_configuration ] [ -f conf_file ]"); } } else { $GPIO_BASE = eval $Getopt::Std::opt_b; } if ($Getopt::Std::opt_c eq '') { if (($Conf eq '') && ($Getopt::Std::opt_f eq '')) { die("usage: $0 [ -b io_base ] ( -c port_configuration | -f conf_file )"); } }# else { $Conf = $Getopt::Std::opt_c . ','; } $STM32F1 = $Getopt::Std::opt_t; my $Sep = "\t"; my $Form = "${Sep}mmw 0x%08X 0x%08X 0x%08X\t;# "; my $GPIO_OFFS; my $GPIO_CRL; my $GPIO_CRH; my $GPIO_MODER; my $GPIO_OTYPER; my $GPIO_OSPEEDR; my $GPIO_PUPDR; my $GPIO_IDR; my $GPIO_ODR; my $GPIO_AFRL; my $GPIO_AFRH; if ($STM32F1) { # offsets for F1 devices $GPIO_OFFS = 0x400; $GPIO_CRL = 0x00; $GPIO_CRH = 0x04; $GPIO_IDR = 0x08; $GPIO_ODR = 0x0C; } else { # these offsets are identical on all F0, F4, F7, H7, L4, L4+ devices up to now $GPIO_OFFS = 0x400; $GPIO_MODER = 0x00; $GPIO_OTYPER = 0x04; $GPIO_OSPEEDR = 0x08; $GPIO_PUPDR = 0x0C; $GPIO_IDR = 0x10; $GPIO_ODR = 0x14; $GPIO_AFRL = 0x20; $GPIO_AFRH = 0x24; } my @Out = ( { }, { }, { }, { }, { }, { }, { }, { }, { }, { }, { } ); my @Port = ( ); my $Exor; my %Conf; my $Pins = "${Sep}#"; my $pins; my $altn; my %defs; if ($Getopt::Std::opt_f ne '') { open(CONF_FILE, '<', $Getopt::Std::opt_f) || die("can't open $Getopt::Std::opt_f"); while (my $line = ) { if ($line =~ /^\s*#define\s+.?(QSPI|QUAD_?SPI|OCTOSPI[^_]*)\w+_(Port|Pin)\s/) { if ($line =~ /#define\s+(\w+)\s+(\w+)/) { $defs{$1} = $2; } else { die($line); } } elsif ($line =~ /^\s*(P[A-Z])([0-9]+)\s*-+>\s+.?(QSPI|QUAD_?SPI|OCTO_?SPI[^_]*)_(\w+)/) { $Conf{$4} = sprintf("%s%02d", $1, $2); } elsif ($line =~ /^\s*GPIO_InitStruct.Pin\s*=\s*([^;]+\w)/) { $pins = $1; while ($line !~ /;/) { $line = ; $line =~ /^\s*([^;]+\w)/; $pins .= $1; } } elsif ($line =~ /^\s*GPIO_InitStruct.Alternate\s*=\s*GPIO_AF([0-9]+)/) { $altn = $1; } elsif ($line =~ /^\s*HAL_GPIO_Init\s*\(\s*(\w+)\s*,/) { my $port = $1; if ($port =~ /GPIO([A-Z])/) { $port = $1; } elsif (exists($defs{$port})) { $defs{$port} =~ /GPIO([A-Z])/; $port = $1; } else { printf("\n"); next; } my @pin = split(/\s*\|\s*/, $pins); foreach my $pin (@pin) { my $bit; if (exists($defs{$pin})) { $defs{$pin} =~ /GPIO_PIN_([0-9]+)/; $bit = $1; } else { $pin =~ /GPIO_PIN_([0-9]+)/; $bit = $1; } $Conf .= sprintf("P%s%02d:AF%02d:V, ", $port, $bit, $altn); } $pins = ''; $altn = 0; } } close(CONF_FILE); } else { my @names = ( ); my @conf = split(/\s*,\s*/, $Conf); if (@conf == 2) { push(@names, 'SDA', 'SCL'); } else { if (@conf == 3) { push(@names, 'NCS', 'CLK', 'IO0/DIO'); } elsif (@conf == 4) { push(@names, 'NCS', 'CLK','IO1/MISO', 'IO0/MOSI'); } elsif (@conf == 6) { push(@names, 'NCS', 'CLK', 'IO3/NHOLD', 'IO2/NWP', 'IO1/MISO', 'IO0/MOSI'); } elsif (@conf == 10) { push(@names, 'NCS', 'CLK', 'BK_1_IO3/NHOLD', 'BK1_IO2/NWP', 'BK1_IO1/MISO', 'BK1_IO0/MOSI'); push(@names, 'BK_2_IO3/NHOLD', 'BK2_IO2/NWP', 'BK2_IO1/MISO', 'BK2_IO0/MOSI'); } elsif (@conf == 11) { push(@names, 'BK_1_NCS', 'CLK', 'BK_1_IO3/NHOLD', 'BK1_IO2/NWP', 'BK1_IO1/MISO', 'BK1_IO0/MOSI'); push(@names, 'BK_2_NCS', 'BK_2_IO3/NHOLD', 'BK2_IO2/NWP', 'BK2_IO1/MISO', 'BK2_IO0/MOSI'); } else { die("invalid config"); } } for (my $index = 0; $index < @conf; $index++) { uc($conf[$index]) =~ /^P([A-K])([0-9]+):\s*([A-Z0-9]+):(L|M|H|V)$/; $Pins .= sprintf(" %s: P%s%02d,", $names[$index], $1, $2); } chop($Pins); } if (exists $Conf{'BK1_IO0'}) { # QuadSPI on F4, F7, H7 my $line; for my $i ('NCS', 'BK1_NCS', 'CLK', 'BK1_IO3', 'BK1_IO2', 'BK1_IO1', 'BK1_IO0') { (exists $Conf{$i}) && ($Pins .= sprintf(" %s: %s,", $Conf{$i}, $i)); } } if (exists $Conf{'BK2_IO0'}) { # QuadSPI on F4, F7, H7 my $line; for my $i ('NCS', 'BK2_NCS', 'CLK', 'BK2_IO3', 'BK2_IO2', 'BK2_IO1', 'BK2_IO0') { (exists $Conf{$i}) && ($Pins .= sprintf(" %s: %s,", $Conf{$i}, $i)); } } if (exists $Conf{'P1_IO0'}) { # OctoSPI on L4+, L5, H7 my $line; for my $i ('P1_NCS', 'P1_CLK', 'P1_DQS', 'P1_IO7', 'P1_IO6', 'P1_IO5', 'P1_IO4', 'P1_IO3', 'P1_IO2', 'P1_IO1', 'P1_IO0') { (exists $Conf{$i}) && ($Pins .= sprintf(" %s: %s,", $Conf{$i}, $i)); } } if (exists $Conf{'P2_IO0'}) { # OctoSPI on L4+, H7 my $line; for my $i ('P2_NCS', 'P2_CLK', 'P2_DQS', 'P2_IO7', 'P2_IO6', 'P2_IO5', 'P2_IO4', 'P2_IO3', 'P2_IO2', 'P2_IO1', 'P2_IO0') { (exists $Conf{$i}) && ($Pins .= sprintf(" %s: %s,", $Conf{$i}, $i)); } } my @Col = ( ); my @conf = split(/\s*,\s*/, $Conf); if (@conf == 3) { splice(@conf, 2, 0, 'NONE', 'NONE', 'NONE'); } elsif (@conf == 4) { splice(@conf, 2, 0, 'NONE', 'NONE'); } foreach my $line (@conf) { $line = uc($line); $line =~ /^P([A-K])([0-9]+):\s*([A-Z0-9]+):(L|M|H|V)$/; my $port = $1; my $pin = $2; my $conf = $3; my $speed = $4; my $MODER = 0x0; my $OTYPER = 0x0; my $OSPEEDR = 0x0; my $PUPDR = 0x0; my $AFR = 0x0; my $num = ord(${port}) - ord('A'); my $out = $Out[$num]; (exists $$out{'DEF'}) || ($$out{'DEF'} = 0); if ($conf eq '') { if ($line ne 'NONE') { printf(STDERR "invalid conf %s\n", $line); } next; } elsif ($conf =~ /^AF([0-9]+)(|P|O)(|UP|DO)$/) { if ($STM32F1) { printf(STDERR "no alternate %s for F1 family\n", $line); next; } if (($1 < 0) || ($1 > 15)) { printf(STDERR "invalid alternate %s\n", $line); next; } $MODER = 0x2; $AFR = $1; if ($pin <= 7) { $$out{'AFRL_H'} |= ($AFR << (${pin} << 2)); $$out{'AFRL_L'} |= (($AFR ^ 0xF) << (${pin} << 2)); } else { $$out{'AFRH_H'} |= ($AFR << ((${pin} - 8) << 2)); $$out{'AFRH_L'} |= (($AFR ^ 0xF) << ((${pin} - 8) << 2)); } if ($2 ne '') { $OTYPER = ($1 eq 'O') ? 0x1 : 0x0; $$out{'OTYPER_H'} |= ($OTYPER << $pin); $$out{'OTYPER_L'} |= (($OTYPER ^ 0x1) << $pin); } $PUPDR = ($3 eq 'UP') ? 0x1 : (($3 eq 'DO') ? 0x2 : 0x0); $$out{'PUPDR_H'} |= ($PUPDR << (${pin} << 1)); $$out{'PUPDR_L'} |= (($PUPDR ^0x3) << (${pin} << 1)); $conf = sprintf("AF%02d%s%s", $AFR, $2, $3); } elsif ($conf =~ /^IN(|P|O)(|UP|DO)$/) { if ($STM32F1) { $MODER = ($1 eq '') ? 0x4 : 0x8; ($2 eq 'UP') && ($$out{'PUPDR_H'} |= (1 << ${pin})); ($2 eq 'DO') && ($$out{'PUPDR_L'} |= (1 << ${pin})); } else { $MODER = 0x0; if ($1 ne '') { $OTYPER = ($1 eq 'O') ? 0x1 : 0x0; $$out{'OTYPER_H'} |= ($OTYPER << $pin); $$out{'OTYPER_L'} |= (($OTYPER ^ 0x1) << $pin); } $PUPDR = ($2 eq 'UP') ? 0x1 : (($2 eq 'DO') ? 0x2 : 0x0); $$out{'PUPDR_H'} |= ($PUPDR << (${pin} << 1)); $$out{'PUPDR_L'} |= (($PUPDR ^0x3) << (${pin} << 1)); } ($2 eq 'UP') && ($$out{'ODR_H'} |= (1 << ${pin})); ($2 eq 'DO') && ($$out{'ODR_L'} |= (1 << ${pin})); } elsif ($conf =~ /^P(P|O)(|UP|DO)$/) { if ($STM32F1) { $MODER = ($1 eq 'O') ? 0x4 : 0x0; $MODER |= (($speed eq 'V') ? 0x03 : (($speed eq 'L') ? 0x2 : 0x1)); if ($2 ne '') { printf(STDERR "WARNING: no output w/ pull-up/pull-down for F1 family %s\n", $line); } } else { $MODER = 0x1; $OTYPER = ($1 eq 'O') ? 0x1 : 0x0; $$out{'OTYPER_H'} |= ($OTYPER << $pin); $$out{'OTYPER_L'} |= (($OTYPER ^ 0x1) << $pin); $PUPDR = ($2 eq 'UP') ? 0x1 : (($2 eq 'DO') ? 0x2 : 0x0); $$out{'PUPDR_H'} |= ($PUPDR << ($pin << 1)); $$out{'PUPDR_L'} |= (($PUPDR ^ 0x3) << ($pin << 1)); } ($2 eq 'UP') && ($$out{'ODR_H'} |= (1 << ${pin})); ($2 eq 'DO') && ($$out{'ODR_L'} |= (1 << ${pin})); } else { printf(STDERR "invalid conf %s\n", $line); next; } if ($$out{'DEF'} & (1<< ${pin})) { printf(STDERR "redefinition: %s\n", $line); } if ($STM32F1) { if ($pin >= 8) { $$out{'CRH_H'} |= ($MODER << (($pin & 0x7) << 2)); $$out{'CRH_L'} |= (($MODER ^ 0xF) << (($pin & 0x7) << 2)); } else { $$out{'CRL_H'} |= ($MODER << (($pin & 0x7) << 2)); $$out{'CRL_L'} |= (($MODER ^ 0xF) << (($pin & 0x7) << 2)); } $Exor = sprintf("0x%08X %2d", ${GPIO_BASE} + (ord($port) - ord('A')) * ${GPIO_OFFS} + ${GPIO_ODR}, $pin); my $exor = 0xB << (($pin & 0x7) << 2); (($MODER & 0x3) == 0x0) && ($Exor .= sprintf(" 0x%03X 0x%03X 0x%08X", ((($pin >= 8) ? ${GPIO_CRH} : ${GPIO_CRL})-${GPIO_ODR}) & 0x3FF, ((($pin >= 8) ? ${GPIO_CRH} : ${GPIO_CRL})-${GPIO_ODR}) & 0x3FF, $exor)); } else { $$out{'DEF'} |= (1 << ${pin}); $$out{'MODER_H'} |= ($MODER << (${pin} << 1)); $$out{'MODER_L'} |= (($MODER ^ 0x3) << (${pin} << 1)); $OSPEEDR = (($speed eq 'V') ? 0x3 : (($speed eq 'H') ? 0x2 : (($speed eq 'M') ? 0x1 : 0x0))); $$out{'OSPEEDR_H'} |= ($OSPEEDR << (${pin} << 1)); $$out{'OSPEEDR_L'} |= (($OSPEEDR ^ 0x3) << (${pin} << 1)); $Exor = sprintf("0x%08X %2d", ${GPIO_BASE} + (ord($port) - ord('A')) * ${GPIO_OFFS} + ${GPIO_ODR}, $pin); my $exor = (0x1 << ($pin << 1)); ($MODER == 0x0) && ($Exor .= sprintf(" 0x%03X 0x%03X 0x%08X", (${GPIO_MODER}-${GPIO_ODR}) & 0x3FF, (${GPIO_MODER}-${GPIO_ODR}) & 0x3FF, $exor)); } push(@{$Port[$num]}, sprintf("P%s%02d:%s:%s", $port, $pin, $conf, $speed)); push(@Col, $Exor); } my $Col = sprintf("${Sep}0x%03X ", (${GPIO_IDR}-${GPIO_ODR}) & 0x3FF); for (my $i = 0; $i < @Col; $i++) { if (($i != 0) && (($i % 2) == 0)) { (($i + 1) < @Col) && ($Col .= "\\\n${Sep}"); } $Col .= sprintf("%s ", $Col[$i]); } printf("%s\n", $Col); my @Col = ( ); my $Set; for (my $i = 0; $i < @Out; $i++) { my $out = $Out[$i]; my $addr = ${GPIO_BASE} + $i * ${GPIO_OFFS}; my $count = 0; if ($STM32F1) { if (($$out{'CRH_H'} | $$out{'CRH_L'} | $$out{'CRL_H'} | $$out{'CRL_L'} | $$out{'PUPDR_H'} | $$out{'PUPDR_L'}) != 0) { push(@Col, sort({ $b cmp $a } @{$Port[$i]})); $Set .= sprintf("\n%s# Port %s: %s\n", ${Sep}, chr($i + ord('A')), join(", ", sort({ $b cmp $a } @{$Port[$i]}))); (($$out{'CRL_H'} | $$out{'CRL_L'}) != 0) && ($Set .= sprintf("${Form}CRL\n", $addr + ${GPIO_CRL}, $$out{'CRL_H'}, $$out{'CRL_L'})); (($$out{'CRH_H'} | $$out{'CRH_L'}) != 0) && ($Set .= sprintf("${Form}CRH\n", $addr + ${GPIO_CRH}, $$out{'CRH_H'}, $$out{'CRH_L'})); (($$out{'ODR_H'} | $$out{'ODR_L'}) != 0) && ($Set .= sprintf("${Form}ODR/PUPDR\n", $addr + ${GPIO_ODR}, $$out{'ODR_H'}, $$out{'ODR_L'})); } } else { if (($$out{'MODER_H'} | $$out{'MODER_L'} | $$out{'OTYPER_H'} | $$out{'OTYPER_L'} | $$out{'OSPEEDR_H'} | $$out{'OSPEEDR_L'} | $$out{'PUPDR_H'} | $$out{'PUPDR_L'} | $$out{'ODR_H'} | $$out{'ODR_L'} | $$out{'AFRL_H'} | $$out{'AFRL_L'} | $$out{'AFRH_H'} | $$out{'AFRH_L'}) != 0) { push(@Col, sort({ $b cmp $a } @{$Port[$i]})); $Set .= sprintf("%s# Port %s: %s\n", ${Sep}, chr($i + ord('A')), join(", ", sort({ $b cmp $a } @{$Port[$i]}))); (($$out{'MODER_H'} | $$out{'MODER_L'}) != 0) && ($Set .= sprintf("${Form}MODER\n", $addr + ${GPIO_MODER}, $$out{'MODER_H'}, $$out{'MODER_L'})); (($$out{'OTYPER_H'} | $$out{'OTYPER_L'}) != 0) && ($Set .= sprintf("${Form}OTYPER\n", $addr + ${GPIO_OTYPER}, $$out{'OTYPER_H'}, $$out{'OTYPER_L'})); (($$out{'OSPEEDR_H'} | $$out{'OSPEEDR_L'}) != 0) && ($Set .= sprintf("${Form}OSPEEDR\n", $addr + ${GPIO_OSPEEDR}, $$out{'OSPEEDR_H'}, $$out{'OSPEEDR_L'})); (($$out{'PUPDR_H'} | $$out{'PUPDR_L'}) != 0) && ($Set .= sprintf("${Form}PUPDR\n", $addr + ${GPIO_PUPDR}, $$out{'PUPDR_H'}, $$out{'PUPDR_L'})); (($$out{'ODR_H'} | $$out{'ODR_L'}) != 0) && ($Set .= sprintf("${Form}ODR\n", $addr + ${GPIO_ODR}, $$out{'ODR_H'}, $$out{'ODR_L'})); (($$out{'AFRL_H'} | $$out{'AFRL_L'}) != 0) && ($Set .= sprintf("${Form}AFRL\n", $addr + ${GPIO_AFRL}, $$out{'AFRL_H'}, $$out{'AFRL_L'})); (($$out{'AFRH_H'} | $$out{'AFRH_L'}) != 0) && ($Set .= sprintf("${Form}AFRH\n", $addr + ${GPIO_AFRH}, $$out{'AFRH_H'}, $$out{'AFRH_L'})); } } } my $Col = ''; for (my $i = 0; $i < @Col; $i++) { if (($i % 6) == 0) { chop($Col); (($i + 1) < @Col) && ($Col .= "\n${Sep}#"); } $Col .= sprintf(" %s,", $Col[$i]); } chop($Col); #printf("\n%s\n", $Pins); printf("%s\n", $Col); printf("%s\n", $Set);