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@ -1,8 +1,48 @@ |
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extern crate clap; |
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extern crate zecpaperlib; |
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extern crate lodepng; |
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extern crate printpdf; |
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extern crate image; |
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extern crate qrcode; |
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use qrcode::QrCode; |
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use qrcode::types::Color; |
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use std::io::BufWriter; |
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use std::convert::From; |
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use std::fs::File; |
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use clap::{Arg, App}; |
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use zecpaperlib::paper::*; |
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use printpdf::*; |
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// imports the `image` library with the exact version that we are using
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//use printpdf::*;
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fn get_qrcode_scaled(data: &str) -> (Vec<u8>, usize) { |
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let code = QrCode::new(data.as_bytes()).unwrap(); |
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let output_size = code.width(); |
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println!("Total QR Code Modules: {}", output_size); |
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let imgdata = code.to_colors(); |
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// Scale it to 10x
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let scalefactor = 10; |
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let padding = 10; |
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let scaledsize = output_size * scalefactor; |
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let finalsize = scaledsize + (2 * padding); |
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// Build a scaled image
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let scaledimg: Vec<u8> = (0..(finalsize*finalsize)).flat_map( |i| { |
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let x = i / finalsize; |
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let y = i % finalsize; |
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if x < padding || y < padding || x >= (padding+scaledsize) || y >= (padding+scaledsize) { |
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vec![255u8; 3] |
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} else { |
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if imgdata[(x - padding)/scalefactor * output_size + (y - padding)/scalefactor] != Color::Light {vec![0u8; 3] } else { vec![255u8; 3] } |
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} |
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}).collect(); |
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return (scaledimg, finalsize); |
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} |
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fn main() {
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let matches = App::new("zecpaperwaller") |
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@ -44,6 +84,104 @@ fn main() { |
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} |
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let num_addresses = matches.value_of("num_addresses").unwrap().parse::<i32>().unwrap(); |
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let addresses = gen_addresses_as_json(testnet, num_addresses);
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println!("{}", addresses); |
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// let path = &Path::new("write_test.png");
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// // Use number of QR modules to specify the image dimensions.
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// if let Err(e) = lodepng::encode_file(path, &scaledimg, finalsize, finalsize, ColorType::RGB, 8) {
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// panic!("failed to write png: {:?}", e);
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// }
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let (doc, page1, layer1) = PdfDocument::new("Zec Sapling Paper Wallet", Mm(210.0), Mm(297.0), "Layer 1"); |
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let current_layer = doc.get_page(page1).get_layer(layer1); |
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let font = doc.add_builtin_font(BuiltinFont::Courier).unwrap(); |
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let font_bold = doc.add_builtin_font(BuiltinFont::CourierBold).unwrap(); |
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let keys = json::parse(&addresses).unwrap(); |
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for kv in keys.members() { |
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add_address_to_page(¤t_layer, &font, &font_bold, kv["address"].as_str().unwrap(), 0); |
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add_pk_to_page(¤t_layer, &font, &font_bold, kv["private_key"].as_str().unwrap(), 1); |
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// Is the shape stroked? Is the shape closed? Is the shape filled?
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let line1 = Line { |
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points: vec![(Point::new(Mm(5.0), Mm(160.0)), false), (Point::new(Mm(205.0), Mm(160.0)), false)], |
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is_closed: true, |
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has_fill: false, |
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has_stroke: true, |
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is_clipping_path: false, |
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}; |
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let outline_color = printpdf::Color::Rgb(Rgb::new(0.0, 0.0, 0.0, None)); |
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current_layer.set_outline_color(outline_color); |
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current_layer.set_outline_thickness(2.0); |
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// Draw first line
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current_layer.add_shape(line1); |
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}; |
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println!("{}", gen_addresses_as_json(testnet, num_addresses)); |
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doc.save(&mut BufWriter::new(File::create("test_working.pdf").unwrap())).unwrap(); |
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} |
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fn add_address_to_page(current_layer: &PdfLayerReference, font: &IndirectFontRef, font_bold: &IndirectFontRef,address: &str, pos: u32) { |
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let (scaledimg, finalsize) = get_qrcode_scaled(address); |
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let ypos = 297.0 - 5.0 - (50.0 * ((pos+1) as f64)); |
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add_qrcode_image_to_page(current_layer, scaledimg, finalsize, Mm(10.0), Mm(ypos)); |
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current_layer.use_text("Address", 14, Mm(55.0), Mm(ypos+27.5), &font_bold); |
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let strs = split_to_max(&address, 44); |
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for i in 0..strs.len() { |
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current_layer.use_text(strs[i].clone(), 12, Mm(55.0), Mm(ypos+15.0-((i*5) as f64)), &font); |
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} |
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} |
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fn add_pk_to_page(current_layer: &PdfLayerReference, font: &IndirectFontRef, font_bold: &IndirectFontRef, pk: &str, pos: u32) { |
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let (scaledimg, finalsize) = get_qrcode_scaled(pk); |
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let ypos = 297.0 - 5.0 - (50.0 * ((pos+1) as f64)); |
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add_qrcode_image_to_page(current_layer, scaledimg, finalsize, Mm(145.0), Mm(ypos-17.5)); |
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current_layer.use_text("Private Key", 14, Mm(10.0), Mm(ypos+27.5), &font_bold); |
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let strs = split_to_max(&pk, 51); |
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for i in 0..strs.len() { |
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current_layer.use_text(strs[i].clone(), 12, Mm(10.0), Mm(ypos+15.0-((i*5) as f64)), &font); |
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} |
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} |
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fn add_qrcode_image_to_page(current_layer: &PdfLayerReference, qr: Vec<u8>, qrsize: usize, x: Mm, y: Mm) { |
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// you can also construct images manually from your data:
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let image_file_2 = ImageXObject { |
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width: Px(qrsize), |
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height: Px(qrsize), |
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color_space: ColorSpace::Rgb, |
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bits_per_component: ColorBits::Bit8, |
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interpolate: true, |
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/* put your bytes here. Make sure the total number of bytes =
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width * height * (bytes per component * number of components) |
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(e.g. 2 (bytes) x 3 (colors) for RGB 16bit) */ |
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image_data: qr, |
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image_filter: None, /* does not work yet */ |
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clipping_bbox: None, /* doesn't work either, untested */ |
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}; |
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let image2 = Image::from(image_file_2); |
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image2.add_to_layer(current_layer.clone(), Some(x), Some(y), None, None, None, None); |
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} |
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fn split_to_max(s: &str, max: usize) -> Vec<String> { |
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let mut ans: Vec<String> = Vec::new(); |
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for i in 0..((s.len() / max)+1) { |
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let start = i * max; |
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let end = if start + max > s.len() { s.len() } else { start + max }; |
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ans.push(s[start..end].to_string()); |
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} |
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return ans; |
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} |