keychron_qmk_firmware/keyboards/system76/launch_1/usb_mux.c

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[Keyboard] Add system76/launch_1 keyboard (#15395) * WIP: virgo keyboard * Finish layout * Enable debugging and format * Debug keypresses * Add function layer * Fix whitespace * Fix some more whitespace * Add Jeremy's map * Add left split ortho 2U board * Enabled extrakeys for volume & media control * More work on split ortho 2U... ...but still not complete * Finish default layout * Fix many issues by renaming the keyboard * Add right half as a keyboard * Update config for right side * WIP: Add split ortho 2U board * WIP: Correct rules & config * More work on split ortho * More work on split ortho 2u * Nearing completion on split ortho * Remove left and right separate keyboards. Split ortho 2U is complete and they are not needed. * Add uglydense keyboard * Rename directory for uglydense * Swap right Fn and right ctrl keys * Add jeremy's layout * Add ian layout * Add reset key, which is very useful for flashing. * Add Levi's layout * Update Levi's layout * Fix Levi's Layout * Fix Levi's layout again * Add a README with some basic information * Add keymap customization info to uglydense readme * Make the readme make a little more sense. * Make John a layout with left fn and left super swapped * Update John's layout * Add Carl's layout * Add Sean's layout * Add reset keys to all layouts * Swap LALT & LGUI on default layout * shpurk keyboard: initial commit * Add nathaniel & shpurk layouts * Update instructions to include necesarry dependencies * Add Lrrr keyboard, ruler of Omicron Persei 8 * Update README for Lrrr * Update Lrrr it uses Caterina bootloader Also B1 wasn't working for Row 6, so I changed that to F6 * Swap RCTL & RALT * Un-swap RCTL and RALT, making RCTL closer to right thumb * Add printscreen to my layout * Rename lrrr to Launch, enbiggen L-Shift to 2U * Add layout files for Launch * Rename launch to launch_1 * Add levi layout for ortho_split_2u * Update carl keymap * Add launch testboard * Implement keyboard keycode reading using raw hid * Enable dynamic keymap * Add config support to launch_1 * Implement probe command, make logical key names match configurator * Update logical key names again * Add layout generator for keyboard configurator * Add board name and version * Add board name and version to test board * Fix issues with compiling board and version commands * Rename uglydense to launch_alpha_1 and launch_1 to launch_alpha_2 * Generate layouts for other launch prototypes * Fix launch_alpha_1 logical names * Add launch_beta_1 * Fix building production hex file with atmel-dfu bootloader * Limit backlight brightness * USB mux handling * Allow repeat start * Do USB MUX init before bootmagic * Fixes for mux init * Fix register write size for programmable function control * Ensure bit shifts are correct * Improve documentation * Fix when i2c read ack condition happens * Fix extra start in i2c_set * Add ISP instructions * Add fuse information * Refactor * Add RGB matrix support * Fix RGB matrix * Update Jeremy layout * Enable audio controls * Update Jeremy layout * Ensure that n-key rollover is used * Port changes to other launch boards * Configuration values for starting HSV and speed (#7740) * Define default HSV and speed for RGB matrix. * Documentation for configuration values RGB_MATRIX_STARTUP_HUE, RGB_MATRIX_STARTUP_SAT and RGB_MATRIX_STARTUP_VAL. * Document RGB_MATRIX_STARTUP_SPD. * Preserve the ordering. * Set default RGB mode, hue, and saturation * Reduce AVR clock to 8MHz * Update launch_beta_1 with new USB ID * Update default LED mode * Set default hue * Disable RGB while suspended * Add led value and color commands * Add max value to CMD_LED_GET_VALUE * Do not save custom mode to eeprom * Add reset to bootloader command for Launch keyboard * Rename launch_beta_1 to launch_1 * Enable LTO when compiling for launch_1 * Allow setting individual LED's * Convert tabs to spaces * Unlock on RESET keypress: - Display unlock pattern - Disable LED get/set functions - Enable reset to bootloader function * Reduce brightness of rainbow backdrop in unlock pattern * Add hid commands for setting led matrix mode This changes the color setting to not change the mode, and set the hue and saturation for QMK effects. * Fix `CMD_LED_GET_MODE` * Add Levi's Launch layout * Fix layer mistake in Levi's Launch layout * Add matrix command * Define default RGB matrix speed * Add active_keys effect * Move definition of RGB modes inside ifdef testing for custom RGB modes * RGB parameters per layer * fix: Call `system76_ec_rgb_layer` after setting mode * Include layer 3 and 4 in default layout for launch_1 I added support for layer 3 and 4 to the Configurator, but it seems to load bogus values. `dynamic_keymap_reset()` has a comment saying: ``` // Reset the keymaps in EEPROM to what is in flash. // All keyboards using dynamic keymaps should define a layout // for the same number of layers as DYNAMIC_KEYMAP_LAYER_COUNT ``` Other keyboards seem to have default layouts that only list the first two layers while setting `DYNAMIC_KEYMAP_LAYER_COUNT` to 4, but whatever. This appears to make the Configurator behave as expected with layer 3 and 4. * Use EEPROM to store RGB parameters * Add layer 2 and 3 to other keymaps * Add LED_SAVE command * Use eeprom_update_block to improve performance * Revert "Configuration values for starting HSV and speed (#7740)" This reverts commit de1f60fd370b4769336b8a707ee12657aee46412. * Update launch_1 rules.mk for changes in Qmk * WIP keycodes matching EC behavior * Modify default layout to match design * Apply updates to jeremy layout * Improvements to RGB keycodes * system76_ec: Add mode to disable layer backlight * launch_1: Use `KC_NO` instead of `KC_TRNS` for default layout * Revert "launch_1: Use `KC_NO` instead of `KC_TRNS` for default layout" This reverts commit f71c5e7ac3cecbbb1a1f8934db1f329407fef041. * Fix building bootloader * Workaround for upstream orientation * Custom USB IDs for USB hubs, disable USB hub feature controller * Set USB mux orientation in a loop for one second * Set mux orientation 100 times with 10 ms delay * Update Jeremy's keymap * Update Levi's Launch keymap * Update flashing instructions and rewrite layout design instructions * Update README.md * Add a system76_ec command to disable input events For testing purposes. * Enable system76/launch_1 keyboard to work with QMK Firmware 0.15.3 - Migrate system76/launch_1 from 0.7.103: - Explicitly enable used RGB matrix effects - Initialize flags field of `rgb_config_t` union/struct - Account for header and source file location changes - Update AVR platform makefile with Atmel DFU bootloader option - Update ATmega32U4 bootloader to latest from Microchip - Format C sources with ClangFormat - Format Markdown text with Prettier * Remove System76 pre-release or test keyboards and keymaps * Add licensing and replace guards in headers for system76/launch_1 * Remove options impact for system76/launch_1 * Revert AVR platform changes for `atmel-dfu` bootloader * Update system76/launch_1 README * Add system76/launch_1 information JSON file * Replace `util/delay.h` timing abstractions in system76/launch_1 * Use I2C QMK abstractions in system76/launch_1 * Fully revert AVR platform changes for `atmel-dfu` bootloader * Move `layouts.sh` into `keyboards/system76` * Implement GitHub PR suggestions for system76/launch_1 * Make additional system76/launch_1 updates * Implement minor system76/launch_1 change requests * Add custom version of Bootmagic Lite and document fuse values for system76/launch_1 * Remove the RESET HID command from system76/launch_1 * Reorder `process_record_user` in system76/launch_1 * Add `post_rules.mk` to system76/launch_1 * Fix overlapping key in sytem76/launch_1
2022-01-11 07:39:10 +06:00
/*
* Copyright (C) 2021 System76
* Copyright (C) 2021 Jimmy Cassis <KernelOops@outlook.com>
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>.
*/
#include "usb_mux.h"
#include <stdbool.h>
#include "i2c_master.h"
#include "wait.h"
#define REG_PF1_CTL 0xBF800C04
#define REG_PIO64_OEN 0xBF800908
#define REG_PIO64_OUT 0xBF800928
#define REG_VID 0xBF803000
#define REG_PRT_SWAP 0xBF8030FA
#define REG_USB3_HUB_VID 0xBFD2E548
#define REG_RUNTIME_FLAGS2 0xBFD23408
#define REG_I2S_FEAT_SEL 0xBFD23412
struct USB7206 {
uint8_t addr;
};
struct USB7206 usb_hub = {.addr = 0x2D};
// Perform USB7206 register access.
// Returns zero on success or a negative number on error.
i2c_status_t usb7206_register_access(struct USB7206* self) {
uint8_t register_access[3] = {
0x99,
0x37,
0x00,
};
return i2c_transmit(self->addr << 1, register_access, sizeof(register_access), I2C_TIMEOUT);
}
// Read data from USB7206 register region.
// Returns number of bytes read on success or a negative number on error.
i2c_status_t usb7206_read_reg(struct USB7206* self, uint32_t addr, uint8_t* data, int length) {
i2c_status_t status;
uint8_t register_read[9] = {
0x00, // Buffer address MSB: always 0
0x00, // Buffer address LSB: always 0
0x06, // Number of bytes to write to command block buffer area
0x01, // Direction: 0 = write, 1 = read
(uint8_t)length, // Number of bytes to read from register
(uint8_t)(addr >> 24), // Register address byte 3
(uint8_t)(addr >> 16), // Register address byte 2
(uint8_t)(addr >> 8), // Register address byte 1
(uint8_t)(addr >> 0), // Register address byte 0
};
status = i2c_transmit(self->addr << 1, register_read, sizeof(register_read), I2C_TIMEOUT);
if (status < 0) {
return status;
}
status = usb7206_register_access(self);
if (status < 0) {
return status;
}
uint8_t read[2] = {
0x00, // Buffer address MSB: always 0
0x06, // Buffer address LSB: 6 to skip header
};
status = i2c_start((self->addr << 1) | I2C_WRITE, I2C_TIMEOUT);
if (status >= 0) {
for (uint16_t i = 0; i < sizeof(read); i++) {
status = i2c_write(read[i], I2C_TIMEOUT);
if (status < 0) {
goto error;
}
}
} else {
goto error;
}
status = i2c_start((self->addr << 1) | I2C_READ, I2C_TIMEOUT);
if (status < 0) {
goto error;
}
// Read and ignore buffer length
status = i2c_read_ack(I2C_TIMEOUT);
if (status < 0) {
goto error;
}
for (uint16_t i = 0; i < (length - 1) && status >= 0; i++) {
status = i2c_read_ack(I2C_TIMEOUT);
if (status >= 0) {
data[i] = (uint8_t)status;
}
}
if (status >= 0) {
status = i2c_read_nack(I2C_TIMEOUT);
if (status >= 0) {
data[(length - 1)] = (uint8_t)status;
}
}
error:
i2c_stop();
return (status < 0) ? status : length;
}
// Read 32-bit value from USB7206 register region.
// Returns number of bytes read on success or a negative number on error.
i2c_status_t usb7206_read_reg_32(struct USB7206* self, uint32_t addr, uint32_t* data) {
i2c_status_t status;
// First byte is available length
uint8_t bytes[4] = {0, 0, 0, 0};
status = usb7206_read_reg(self, addr, bytes, sizeof(bytes));
if (status < 0) {
return status;
}
// Convert from little endian
*data = (((uint32_t)bytes[0]) << 0) | (((uint32_t)bytes[1]) << 8) | (((uint32_t)bytes[2]) << 16) | (((uint32_t)bytes[3]) << 24);
return status;
}
// Write data to USB7206 register region.
// Returns number of bytes written on success or a negative number on error.
i2c_status_t usb7206_write_reg(struct USB7206* self, uint32_t addr, uint8_t* data, int length) {
i2c_status_t status;
uint8_t register_write[9] = {
0x00, // Buffer address MSB: always 0
0x00, // Buffer address LSB: always 0
((uint8_t)length) + 6, // Number of bytes to write to command block buffer area
0x00, // Direction: 0 = write, 1 = read
(uint8_t)length, // Number of bytes to write to register
(uint8_t)(addr >> 24), // Register address byte 3
(uint8_t)(addr >> 16), // Register address byte 2
(uint8_t)(addr >> 8), // Register address byte 1
(uint8_t)(addr >> 0), // Register address byte 0
};
status = i2c_start((self->addr << 1) | I2C_WRITE, I2C_TIMEOUT);
if (status >= 0) {
for (uint16_t i = 0; i < sizeof(register_write); i++) {
status = i2c_write(register_write[i], I2C_TIMEOUT);
if (status < 0) {
goto error;
}
}
for (uint16_t i = 0; i < length; i++) {
status = i2c_write(data[i], I2C_TIMEOUT);
if (status < 0) {
goto error;
}
}
} else {
goto error;
}
i2c_stop();
status = usb7206_register_access(self);
if (status < 0) {
goto error;
}
error:
i2c_stop();
return (status < 0) ? status : length;
}
// Write 8-bit value to USB7206 register region.
// Returns number of bytes written on success or a negative number on error.
i2c_status_t usb7206_write_reg_8(struct USB7206* self, uint32_t addr, uint8_t data) { return usb7206_write_reg(self, addr, &data, sizeof(data)); }
// Write 32-bit value to USB7206 register region.
// Returns number of bytes written on success or a negative number on error.
i2c_status_t usb7206_write_reg_32(struct USB7206* self, uint32_t addr, uint32_t data) {
// Convert to little endian
uint8_t bytes[4] = {
(uint8_t)(data >> 0),
(uint8_t)(data >> 8),
(uint8_t)(data >> 16),
(uint8_t)(data >> 24),
};
return usb7206_write_reg(self, addr, bytes, sizeof(bytes));
}
// Initialize USB7206.
// Returns zero on success or a negative number on error.
int usb7206_init(struct USB7206* self) {
i2c_status_t status;
uint32_t data;
// DM and DP are swapped on ports 2 and 3
status = usb7206_write_reg_8(self, REG_PRT_SWAP, 0x0C);
if (status < 0) {
return status;
}
// Disable audio
status = usb7206_write_reg_8(self, REG_I2S_FEAT_SEL, 0);
if (status < 0) {
return status;
}
// Set HFC_DISABLE
data = 0;
status = usb7206_read_reg_32(self, REG_RUNTIME_FLAGS2, &data);
if (status < 0) {
return status;
}
data |= 1;
status = usb7206_write_reg_32(self, REG_RUNTIME_FLAGS2, data);
if (status < 0) {
return status;
}
// Set Vendor ID and Product ID of USB 2 hub
status = usb7206_write_reg_32(self, REG_VID, 0x00033384);
if (status < 0) {
return status;
}
// Set Vendor ID and Product ID of USB 3 hub
status = usb7206_write_reg_32(self, REG_USB3_HUB_VID, 0x00043384);
if (status < 0) {
return status;
}
return 0;
}
// Attach USB7206.
// Returns bytes written on success or a negative number on error.
i2c_status_t usb7206_attach(struct USB7206* self) {
uint8_t data[3] = {
0xAA,
0x56,
0x00,
};
return i2c_transmit(self->addr << 1, data, sizeof(data), I2C_TIMEOUT);
}
struct USB7206_GPIO {
struct USB7206* usb7206;
uint32_t pf;
};
struct USB7206_GPIO usb_gpio_sink = {.usb7206 = &usb_hub, .pf = 29}; // UP_SEL = PF29 = GPIO93
struct USB7206_GPIO usb_gpio_source_left = {.usb7206 = &usb_hub, .pf = 10}; // CL_SEL = PF10 = GPIO74
struct USB7206_GPIO usb_gpio_source_right = {.usb7206 = &usb_hub, .pf = 25}; // CR_SEL = PF25 = GPIO88
// Set USB7206 GPIO to specified value.
// Returns zero on success or negative number on error.
i2c_status_t usb7206_gpio_set(struct USB7206_GPIO* self, bool value) {
i2c_status_t status;
uint32_t data;
data = 0;
status = usb7206_read_reg_32(self->usb7206, REG_PIO64_OUT, &data);
if (status < 0) {
return status;
}
if (value) {
data |= (((uint32_t)1) << self->pf);
} else {
data &= ~(((uint32_t)1) << self->pf);
}
status = usb7206_write_reg_32(self->usb7206, REG_PIO64_OUT, data);
if (status < 0) {
return status;
}
return 0;
}
// Initialize USB7206 GPIO.
// Returns zero on success or a negative number on error.
i2c_status_t usb7206_gpio_init(struct USB7206_GPIO* self) {
i2c_status_t status;
uint32_t data;
// Set programmable function to GPIO
status = usb7206_write_reg_8(self->usb7206, REG_PF1_CTL + (self->pf - 1), 0);
if (status < 0) {
return status;
}
// Set GPIO to false by default
usb7206_gpio_set(self, false);
// Set GPIO to output
data = 0;
status = usb7206_read_reg_32(self->usb7206, REG_PIO64_OEN, &data);
if (status < 0) {
return status;
}
data |= (((uint32_t)1) << self->pf);
status = usb7206_write_reg_32(self->usb7206, REG_PIO64_OEN, data);
if (status < 0) {
return status;
}
return 0;
}
struct PTN5110 {
uint8_t addr;
uint8_t cc;
struct USB7206_GPIO* gpio;
};
struct PTN5110 usb_sink = {.addr = 0x51, .gpio = &usb_gpio_sink};
struct PTN5110 usb_source_left = {.addr = 0x52, .gpio = &usb_gpio_source_left};
struct PTN5110 usb_source_right = {.addr = 0x50, .gpio = &usb_gpio_source_right};
// Initialize PTN5110.
// Returns zero on success or a negative number on error.
i2c_status_t ptn5110_init(struct PTN5110* self) {
// Set last cc to invalid value, to force update
self->cc = 0xFF;
// Initialize GPIO
return usb7206_gpio_init(self->gpio);
}
// Read PTN5110 CC_STATUS.
// Returns zero on success or a negative number on error.
i2c_status_t ptn5110_get_cc_status(struct PTN5110* self, uint8_t* cc) { return i2c_readReg(self->addr << 1, 0x1D, cc, 1, I2C_TIMEOUT); }
// Set PTN5110 SSMUX orientation.
// Returns zero on success or a negative number on error.
i2c_status_t ptn5110_set_ssmux(struct PTN5110* self, bool orientation) { return usb7206_gpio_set(self->gpio, orientation); }
// Write PTN5110 COMMAND.
// Returns zero on success or negative number on error.
i2c_status_t ptn5110_command(struct PTN5110* self, uint8_t command) { return i2c_writeReg(self->addr << 1, 0x23, &command, 1, I2C_TIMEOUT); }
// Set orientation of PTN5110 operating as a sink, call this once.
// Returns zero on success or a negative number on error.
i2c_status_t ptn5110_sink_set_orientation(struct PTN5110* self) {
i2c_status_t status;
uint8_t cc;
status = ptn5110_get_cc_status(self, &cc);
if (status < 0) {
return status;
}
if ((cc & 0x03) == 0) {
status = ptn5110_set_ssmux(self, false);
if (status < 0) {
return status;
}
} else {
status = ptn5110_set_ssmux(self, true);
if (status < 0) {
return status;
}
}
return 0;
}
// Update PTN5110 operating as a source, call this repeatedly.
// Returns zero on success or a negative number on error.
i2c_status_t ptn5110_source_update(struct PTN5110* self) {
i2c_status_t status;
uint8_t cc;
status = ptn5110_get_cc_status(self, &cc);
if (status < 0) {
return status;
}
if (cc != self->cc) {
// WARNING: Setting this here will disable retries
self->cc = cc;
bool connected = false;
bool orientation = false;
if ((cc & 0x03) == 2) {
connected = true;
orientation = true;
} else if (((cc >> 2) & 0x03) == 2) {
connected = true;
orientation = false;
}
if (connected) {
// Set SS mux orientation
status = ptn5110_set_ssmux(self, orientation);
if (status < 0) {
return status;
}
// Enable source Vbus command
status = ptn5110_command(self, 0b01110111);
if (status < 0) {
return status;
}
} else {
// Disable source Vbus command
status = ptn5110_command(self, 0b01100110);
if (status < 0) {
return status;
}
}
}
return 0;
}
void usb_mux_event(void) {
// Run this on every 1000th matrix scan
static int cycle = 0;
if (cycle >= 1000) {
cycle = 0;
ptn5110_source_update(&usb_source_left);
ptn5110_source_update(&usb_source_right);
} else {
cycle += 1;
}
}
void usb_mux_init(void) {
// Run I2C bus at 100 kHz
i2c_init();
// Set up hub
usb7206_init(&usb_hub);
// Set up sink
ptn5110_init(&usb_sink);
ptn5110_sink_set_orientation(&usb_sink);
// Set up sources
ptn5110_init(&usb_source_left);
ptn5110_init(&usb_source_right);
// Attach hub
usb7206_attach(&usb_hub);
// Ensure orientation is correct after attaching hub
// TODO: Find reason why GPIO for sink orientation is reset
for (int i = 0; i < 100; i++) {
ptn5110_sink_set_orientation(&usb_sink);
wait_ms(10);
}
}