549 lines
14 KiB
C
549 lines
14 KiB
C
// SPDX-License-Identifier: GPL-2.0-or-later
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/*
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* DRM driver for 2.7" Sharp Memory LCD
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*
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* Copyright 2023 Andrew D'Angelo
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*/
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#include <linux/delay.h>
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#include <linux/gpio.h>
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#include <linux/module.h>
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#include <linux/property.h>
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#include <linux/sched/clock.h>
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#include <linux/spi/spi.h>
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#include <drm/drm_atomic_helper.h>
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#include <drm/drm_connector.h>
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#include <drm/drm_damage_helper.h>
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#include <drm/drm_drv.h>
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#include <drm/drm_fb_dma_helper.h>
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#include <drm/drm_fb_helper.h>
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#include <drm/drm_format_helper.h>
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#include <drm/drm_framebuffer.h>
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#include <drm/drm_gem_atomic_helper.h>
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#include <drm/drm_gem_dma_helper.h>
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#include <drm/drm_gem_framebuffer_helper.h>
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#include <drm/drm_managed.h>
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#include <drm/drm_modes.h>
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#include <drm/drm_rect.h>
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#include <drm/drm_probe_helper.h>
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#include <drm/drm_simple_kms_helper.h>
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#include "params_iface.h"
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#include "ioctl_iface.h"
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#include "drm_iface.h"
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#define GPIO_DISP 22
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#define GPIO_SCS 8
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#define GPIO_VCOM 23
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#define CMD_WRITE_LINE 0b10000000
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#define CMD_CLEAR_SCREEN 0b00100000
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struct sharp_memory_panel {
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struct drm_device drm;
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struct drm_simple_display_pipe pipe;
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const struct drm_display_mode *mode;
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struct drm_connector connector;
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struct spi_device *spi;
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struct drm_framebuffer *fb;
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struct timer_list vcom_timer;
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unsigned int height;
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unsigned int width;
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unsigned char *buf;
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struct spi_transfer *spi_3_xfers;
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unsigned char *cmd_buf;
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unsigned char *trailer_buf;
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};
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static struct sharp_memory_panel* g_panel = NULL;
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static inline struct sharp_memory_panel *drm_to_panel(struct drm_device *drm)
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{
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return container_of(drm, struct sharp_memory_panel, drm);
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}
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static void vcom_timer_callback(struct timer_list *t)
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{
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static u8 vcom_setting = 0;
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struct sharp_memory_panel *panel = from_timer(panel, t, vcom_timer);
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// Toggle the GPIO pin
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vcom_setting = (vcom_setting) ? 0 : 1;
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gpio_set_value(GPIO_VCOM, vcom_setting);
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// Reschedule the timer
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mod_timer(&panel->vcom_timer, jiffies + msecs_to_jiffies(1000));
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}
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static int sharp_memory_spi_clear_screen(struct sharp_memory_panel *panel)
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{
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int rc;
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// Create screen clear command SPI transfer
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panel->cmd_buf[0] = CMD_CLEAR_SCREEN;
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panel->spi_3_xfers[0].tx_buf = panel->cmd_buf;
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panel->spi_3_xfers[0].len = 1;
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panel->trailer_buf[0] = 0;
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panel->spi_3_xfers[1].tx_buf = panel->trailer_buf;
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panel->spi_3_xfers[1].len = 1;
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// Write clear screen command
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ndelay(80);
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gpio_set_value(GPIO_SCS, 1);
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rc = spi_sync_transfer(panel->spi, panel->spi_3_xfers, 2);
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gpio_set_value(GPIO_SCS, 0);
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return rc;
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}
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static inline u8 sharp_memory_reverse_byte(u8 b)
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{
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b = (b & 0xF0) >> 4 | (b & 0x0F) << 4;
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b = (b & 0xCC) >> 2 | (b & 0x33) << 2;
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b = (b & 0xAA) >> 1 | (b & 0x55) << 1;
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return b;
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}
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static int sharp_memory_spi_write_tagged_lines(struct sharp_memory_panel *panel,
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void *line_data, size_t len)
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{
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int rc;
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// Write line command
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panel->cmd_buf[0] = 0b10000000;
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panel->spi_3_xfers[0].tx_buf = panel->cmd_buf;
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panel->spi_3_xfers[0].len = 1;
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// Line data
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panel->spi_3_xfers[1].tx_buf = line_data;
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panel->spi_3_xfers[1].len = len;
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// Trailer
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panel->trailer_buf[0] = 0;
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panel->spi_3_xfers[2].tx_buf = panel->trailer_buf;
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panel->spi_3_xfers[2].len = 1;
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ndelay(80);
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gpio_set_value(GPIO_SCS, 1);
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rc = spi_sync_transfer(panel->spi, panel->spi_3_xfers, 3);
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gpio_set_value(GPIO_SCS, 0);
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return rc;
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}
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static size_t sharp_memory_gray8_to_mono_tagged(u8 *buf, int width, int height, int y0)
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{
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int line, b8, b1;
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unsigned char d;
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int const tagged_line_len = 2 + width / 8;
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// Iterate over lines from [0, height)
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for (line = 0; line < height; line++) {
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// Iterate over chunks of 8 source grayscale bytes
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// Each 8-byte source chunk will map to one destination mono byte
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for (b8 = 0; b8 < width; b8 += 8) {
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d = 0;
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// Iterate over each of the 8 grayscale bytes in the chunk
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// Build up the destination mono byte
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for (b1 = 0; b1 < 8; b1++) {
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// Change at what gray level the mono pixel is active here
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if (buf[(line * width) + b8 + b1] >= g_param_mono_cutoff) {
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d |= 0b10000000 >> b1;
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}
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}
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// Apply inversion
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if (g_param_mono_invert) {
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d = ~d;
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}
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// Without the line number and trailer tags, each destination
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// mono line would have a length `width / 8`. However, we are
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// inserting the line number at the beginning of the line and
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// the zero-byte trailer at the end.
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// So the destination mono line is at index
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// `line * tagged_line_len = line * (2 + width / 8)`
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// The destination mono byte is offset by 1 to make room for
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// the line tag, written at the end of converting the current
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// line.
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buf[(line * tagged_line_len) + 1 + (b8 / 8)] = d;
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}
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// Write the line number and trailer tags
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buf[line * tagged_line_len] = sharp_memory_reverse_byte((u8)(y0 + 1)); // Indexed from 1
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buf[(line * tagged_line_len) + tagged_line_len - 1] = 0;
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y0++;
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}
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return height * tagged_line_len;
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}
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// Use DMA to get grayscale representation, then convert to mono
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// with line number and trailer tags suitable for multi-line write
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// Output is stored in `buf`, which must be at least W*H bytes
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static int sharp_memory_clip_mono_tagged(size_t* result_len, u8* buf,
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struct drm_framebuffer *fb, struct drm_rect const* clip)
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{
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int rc;
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struct drm_gem_dma_object *dma_obj;
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struct iosys_map dst, vmap;
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// Get GEM memory manager
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dma_obj = drm_fb_dma_get_gem_obj(fb, 0);
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// Start DMA area
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rc = drm_gem_fb_begin_cpu_access(fb, DMA_FROM_DEVICE);
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if (rc) {
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return rc;
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}
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// Initialize destination (buf) and source (video)
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iosys_map_set_vaddr(&dst, buf);
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iosys_map_set_vaddr(&vmap, dma_obj->vaddr);
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// DMA `clip` into `buf` and convert to 8-bit grayscale
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drm_fb_xrgb8888_to_gray8(&dst, NULL, &vmap, fb, clip);
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// End DMA area
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drm_gem_fb_end_cpu_access(fb, DMA_FROM_DEVICE);
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// Convert in-place from 8-bit grayscale to mono
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*result_len = sharp_memory_gray8_to_mono_tagged(buf,
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(clip->x2 - clip->x1), (clip->y2 - clip->y1), clip->y1);
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// Success
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return 0;
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}
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static int sharp_memory_fb_dirty(struct drm_framebuffer *fb,
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struct drm_rect const* dirty_rect)
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{
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int rc;
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struct drm_rect clip;
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struct sharp_memory_panel *panel;
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int drm_idx;
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size_t buf_len;
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// Clip dirty region rows
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clip.x1 = 0;
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clip.x2 = fb->width;
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clip.y1 = dirty_rect->y1;
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clip.y2 = dirty_rect->y2;
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// Get panel info from DRM struct
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panel = drm_to_panel(fb->dev);
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// Enter DRM device resource area
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if (!drm_dev_enter(fb->dev, &drm_idx)) {
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return -ENODEV;
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}
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// Convert `clip` from framebuffer to mono with line number tags
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rc = sharp_memory_clip_mono_tagged(&buf_len, panel->buf, fb, &clip);
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if (rc) {
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goto out_exit;
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}
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// Write mono data to display
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rc = sharp_memory_spi_write_tagged_lines(panel, panel->buf, buf_len);
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out_exit:
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// Exit DRM device resource area
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drm_dev_exit(drm_idx);
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return rc;
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}
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static void power_off(struct sharp_memory_panel *panel)
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{
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printk(KERN_INFO "sharp_memory: powering off\n");
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/* Turn off power and all signals */
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gpio_set_value(GPIO_SCS, 0);
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gpio_set_value(GPIO_DISP, 0);
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gpio_set_value(GPIO_VCOM, 0);
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}
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static void sharp_memory_pipe_enable(struct drm_simple_display_pipe *pipe,
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struct drm_crtc_state *crtc_state, struct drm_plane_state *plane_state)
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{
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struct sharp_memory_panel *panel;
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struct spi_device *spi;
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int drm_idx;
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printk(KERN_INFO "sharp_memory: entering sharp_memory_pipe_enable\n");
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// Get panel and SPI device structs
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panel = drm_to_panel(pipe->crtc.dev);
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spi = panel->spi;
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// Enter DRM resource area
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if (!drm_dev_enter(pipe->crtc.dev, &drm_idx)) {
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return;
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}
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// Power up sequence
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gpio_set_value(GPIO_SCS, 0);
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gpio_set_value(GPIO_DISP, 1);
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gpio_set_value(GPIO_VCOM, 0);
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usleep_range(5000, 10000);
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// Clear display
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if (sharp_memory_spi_clear_screen(panel)) {
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gpio_set_value(GPIO_DISP, 0); // Power down display, VCOM is not running
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goto out_exit;
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}
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// Initialize and schedule the VCOM timer
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timer_setup(&panel->vcom_timer, vcom_timer_callback, 0);
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mod_timer(&panel->vcom_timer, jiffies + msecs_to_jiffies(500));
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printk(KERN_INFO "sharp_memory: completed sharp_memory_pipe_enable\n");
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out_exit:
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drm_dev_exit(drm_idx);
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}
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static void sharp_memory_pipe_disable(struct drm_simple_display_pipe *pipe)
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{
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struct sharp_memory_panel *panel;
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struct spi_device *spi;
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printk(KERN_INFO "sharp_memory: sharp_memory_pipe_disable\n");
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// Get panel and SPI device structs
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panel = drm_to_panel(pipe->crtc.dev);
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spi = panel->spi;
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// Cancel the timer
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del_timer_sync(&panel->vcom_timer);
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power_off(panel);
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}
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static void sharp_memory_pipe_update(struct drm_simple_display_pipe *pipe,
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struct drm_plane_state *old_state)
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{
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struct drm_plane_state *state = pipe->plane.state;
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struct drm_rect rect;
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if (!pipe->crtc.state->active) {
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return;
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}
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if (drm_atomic_helper_damage_merged(old_state, state, &rect)) {
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sharp_memory_fb_dirty(state->fb, &rect);
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}
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}
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static const struct drm_simple_display_pipe_funcs sharp_memory_pipe_funcs = {
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.enable = sharp_memory_pipe_enable,
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.disable = sharp_memory_pipe_disable,
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.update = sharp_memory_pipe_update,
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.prepare_fb = drm_gem_simple_display_pipe_prepare_fb,
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};
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static int sharp_memory_connector_get_modes(struct drm_connector *connector)
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{
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struct sharp_memory_panel *panel = drm_to_panel(connector->dev);
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return drm_connector_helper_get_modes_fixed(connector, panel->mode);
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}
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static struct drm_framebuffer* create_and_store_fb(struct drm_device *dev, struct drm_file *file,
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const struct drm_mode_fb_cmd2 *mode_cmd)
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{
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struct drm_framebuffer* fb;
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// Initialize framebuffer
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fb = drm_gem_fb_create_with_dirty(dev, file, mode_cmd);
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// Store global framebuffer for external operations
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if (g_panel) {
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g_panel->fb = fb;
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}
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return fb;
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}
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static const struct drm_connector_helper_funcs sharp_memory_connector_hfuncs = {
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.get_modes = sharp_memory_connector_get_modes,
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};
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static const struct drm_connector_funcs sharp_memory_connector_funcs = {
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.reset = drm_atomic_helper_connector_reset,
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.fill_modes = drm_helper_probe_single_connector_modes,
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.destroy = drm_connector_cleanup,
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.atomic_duplicate_state = drm_atomic_helper_connector_duplicate_state,
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.atomic_destroy_state = drm_atomic_helper_connector_destroy_state,
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};
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static const struct drm_mode_config_funcs sharp_memory_mode_config_funcs = {
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.fb_create = create_and_store_fb,
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.atomic_check = drm_atomic_helper_check,
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.atomic_commit = drm_atomic_helper_commit,
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};
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static const uint32_t sharp_memory_formats[] = {
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DRM_FORMAT_XRGB8888,
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};
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static const struct drm_display_mode sharp_memory_ls027b7dh01_mode = {
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DRM_SIMPLE_MODE(400, 240, 59, 35),
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};
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DEFINE_DRM_GEM_DMA_FOPS(sharp_memory_fops);
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static const struct drm_driver sharp_memory_driver = {
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.driver_features = DRIVER_GEM | DRIVER_MODESET | DRIVER_ATOMIC,
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.fops = &sharp_memory_fops,
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DRM_GEM_DMA_DRIVER_OPS_VMAP,
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.name = "sharp_memory",
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.desc = "Sharp Memory LCD panel",
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.date = "20230526",
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.major = 1,
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.minor = 0,
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};
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int drm_probe(struct spi_device *spi)
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{
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const struct drm_display_mode *mode;
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struct device *dev;
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struct sharp_memory_panel *panel;
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struct drm_device *drm;
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int ret;
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printk(KERN_INFO "sharp_memory: entering drm_probe\n");
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// Get DRM device from SPI struct
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dev = &spi->dev;
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// The SPI device is used to allocate DMA memory
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if (!dev->coherent_dma_mask) {
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ret = dma_coerce_mask_and_coherent(dev, DMA_BIT_MASK(32));
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if (ret) {
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dev_warn(dev, "Failed to set dma mask %d\n", ret);
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return ret;
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}
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}
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// Allocate panel storage
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panel = devm_drm_dev_alloc(dev, &sharp_memory_driver,
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struct sharp_memory_panel, drm);
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if (IS_ERR(panel)) {
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printk(KERN_ERR "sharp_memory: failed to allocate panel\n");
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return PTR_ERR(panel);
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}
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g_panel = panel;
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// Initalize DRM mode
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drm = &panel->drm;
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ret = drmm_mode_config_init(drm);
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if (ret) {
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return ret;
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}
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drm->mode_config.funcs = &sharp_memory_mode_config_funcs;
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// Initialize panel contents
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panel->spi = spi;
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mode = &sharp_memory_ls027b7dh01_mode;
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panel->mode = mode;
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panel->width = mode->hdisplay;
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panel->height = mode->vdisplay;
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// Allocate reused heap buffers suitable for SPI source
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panel->buf = devm_kzalloc(dev, panel->width * panel->height, GFP_KERNEL);
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panel->spi_3_xfers = devm_kzalloc(dev, sizeof(struct spi_transfer) * 3, GFP_KERNEL);
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panel->cmd_buf = devm_kzalloc(dev, 1, GFP_KERNEL);
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panel->trailer_buf = devm_kzalloc(dev, 1, GFP_KERNEL);
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// DRM mode settings
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drm->mode_config.min_width = mode->hdisplay;
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drm->mode_config.max_width = mode->hdisplay;
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drm->mode_config.min_height = mode->vdisplay;
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drm->mode_config.max_height = mode->vdisplay;
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// Configure DRM connector
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ret = drm_connector_init(drm, &panel->connector, &sharp_memory_connector_funcs,
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DRM_MODE_CONNECTOR_SPI);
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if (ret) {
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return ret;
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}
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drm_connector_helper_add(&panel->connector, &sharp_memory_connector_hfuncs);
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// Initialize DRM pipe
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ret = drm_simple_display_pipe_init(drm, &panel->pipe, &sharp_memory_pipe_funcs,
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sharp_memory_formats, ARRAY_SIZE(sharp_memory_formats),
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NULL, &panel->connector);
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if (ret) {
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return ret;
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}
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// Enable damaged screen area clips
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drm_plane_enable_fb_damage_clips(&panel->pipe.plane);
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drm_mode_config_reset(drm);
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printk(KERN_INFO "sharp_memory: registering DRM device\n");
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ret = drm_dev_register(drm, 0);
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if (ret) {
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return ret;
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}
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// fbdev setup
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spi_set_drvdata(spi, drm);
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drm_fbdev_generic_setup(drm, 0);
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printk(KERN_INFO "sharp_memory: successful probe\n");
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return 0;
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}
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|
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void drm_remove(struct spi_device *spi)
|
|
{
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|
struct drm_device *drm;
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|
struct sharp_memory_panel *panel;
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|
|
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printk(KERN_DEBUG "sharp_memory: drm_remove\n");
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|
|
|
// Clear global panel
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|
g_panel = NULL;
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|
|
|
// Get DRM and panel device from SPI
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|
drm = spi_get_drvdata(spi);
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|
panel = drm_to_panel(drm);
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|
|
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drm_dev_unplug(drm);
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|
drm_atomic_helper_shutdown(drm);
|
|
}
|
|
|
|
void drm_shutdown(struct spi_device *spi)
|
|
{
|
|
drm_atomic_helper_shutdown(spi_get_drvdata(spi));
|
|
}
|
|
|
|
int drm_refresh(void)
|
|
{
|
|
struct drm_rect dirty_rect;
|
|
|
|
if (g_panel && g_panel->fb) {
|
|
|
|
// Refresh framebuffer
|
|
dirty_rect.x1 = 0;
|
|
dirty_rect.x2 = g_panel->fb->width;
|
|
dirty_rect.y1 = 0;
|
|
dirty_rect.y2 = g_panel->fb->height;
|
|
return sharp_memory_fb_dirty(g_panel->fb, &dirty_rect);
|
|
}
|
|
|
|
return 0;
|
|
}
|