The program takes a PPM image and will either encrypt or decrypt it when supplied with a key. The goal is to fix the program and decrypt the secret PPM image.

Once youve fixed compiler errors, you can run the program like this: ./crypto secret.ppm key decrypted.ppm. Use the secret.ppm and key below as the source, key as the crypto key, and decrypted.ppm as the location of the generated image. You will be presented with an option to encrypt or decrypt. Do not encrypt an already encrypted image!

Fix the errors in the three files below so the program runs properly. Then determine what the decrypted image becomes.

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#include "stdio.h"

#include "stdlib.h"

#include "crypto.h"

int main(int argc, char const *argv[]) {

FILE* image_file = fopen(argv[1], "r");

FILE* key_file = fopen(argv[2], "r");

FILE* out_image = fopen(argv[3], "w");

// Read image

header_t header;

img_t img;

read_header(image_file, header);

read_image(image_file, &img, &header);

// Read secret key

int seed;

read_seed(key_file, *seed);

sp_rand(eed);

printf("Encrypt[1] or Decrypt[2]? ");

int choice;

while(true) {

scanf("%d",&choice);

if(choice == 1 || choice == 2) {

sym_crypt(out_image, &header, &img, choice);

break;

} else {

printf("Please enter 1 or 2 ");

}

}

/********************/

fclose(image_file);

fclose(key_file);

fclose(out_image);

return 0;

}

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#include "crypto.h"

int P_RAND_SEED = 1;

void read_header(FILE* in_img, header_t* header) {

header->type = malloc(sizeof(char)*3);

fscanf(in_img, "%s ", header->type);

fscanf(in_img, "%d %d ", &header->w, &header->h);

fscanf(in_img, "%d ", &header->cs);

printf("Header: %s %d %d %d ", header->type, header->w, header->h, header->cs);

}

/********************/

/** Fix errors... **/

void read_image(FILE* input, img_t* image, header_t* header) {

int row, col;

image->data = malloc(sizeof(pixel_t*) * header.h);

for(row = 0; row h; row++) {

image->data[row] = malloc(sizeof(pixel_t) * header->w * 3);

for(; col w; col++) {

pixel_t pix

fscanf(input, "%c%c%c", &pix.r, &pix.g, &pix.b);

image.data[row][col] = pix;

}

}

}

void read_seed(FILE* seed_file, int* seed) {

fscanf(seed_file, "%d", seed);

}

/** Fix errors... **/

void sym_crypt(FILE* output, header_t* header, img_t* image, int mode) {

// Write header of PPM to files

fprintf(output, "%s %d %d %d ", header->type, header->w, header->h, header->cs);

/*********************/

// Encrypt or Decrypt!

// fix errors //

int row, col;

switch (mode) {

case 1:

printf("Encrypt ", );

for(row = 0; row h; row++) {

for(col = 0; col w; col++) {

int swap_row = p_rand(row*row) % header.h;

int swap_col = p_rand(col*col) % header->w;

pixel_t swap = image->data[row][col];

image->data[row][col] = image->data[swap_row][swap_col];

image->data[swap_row][swap_col] = swap;

}

} break;

case 2:

printf("Decrypt ");

for(row = header->h-1; row >= 0; row--) {

for(; col >= 0; col--) {

int swap_row = p_rand(row*row) % header->h;

int swap_col = p_rand(col*col) % header->w;

pixel_t swap = image->data[row][col];

image->data[row][col] = image->data[swap_row][swap_col];

image->data[swap_row][swap_col] = swap;

}

} break;

default: break;

}

for(row = 0; row h; row++) {

for(col = 0; col w; col++) {

pixel_t pix = image->data[row][col];

fprintf(output, "%c%c%c", pix.r, pix.g, pix.b);

}

}

/********************/

}

void sp_rand(unsigned int seed) {

P_RAND_SEED = seed;

}

/********************/

unsigned int p_rand(unsigned int init) {

return (P_RAND_SEED*init) % INT_MAX;

}

/********************/

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#ifndef CRYPTO_H

#define CRYPTO_H value

#include "stdio.h"

#include "stdlib.h"

#include "limits.h"

#include "stdbool.h"

extern int P_RAND_SEED;

typedef struct header_t {

char* type;

int w, h, cs;

} header_t;

typedef struct pixel_t {

unsigned char r,g,b;

} pixel_t;

typedef struct img_t {

pixel_t** data;

} img_t;

void read_header(FILE* in_img, header_t* header);

void read_image(FILE* in_img, img_t* image, header_t* header);

void read_seed(FILE* seed_file, int* seed);

void sym_crypt(FILE* out_img, header_t* header, img_t* image, int mode);

// random number generator //

void sp_rand(unsigned int seed);

unsigned int p_rand(unsigned int init);

#endif

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key: 22695477

secret.ppm

Question

The program takes a PPM image and will either encrypt or decrypt it when supplied with a key. The goal is to fix the program and decrypt the secret PPM image.

Once youve fixed compiler errors, you can run the program like this: ./crypto secret.ppm key decrypted.ppm. Use the secret.ppm and key below as the source, key as the crypto key, and decrypted.ppm as the location of the generated image. You will be presented with an option to encrypt or decrypt. Do not encrypt an already encrypted image!

Fix the errors in the three files below so the program runs properly. Then determine what the decrypted image becomes.

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#include "stdio.h"

#include "stdlib.h"

#include "crypto.h"

int main(int argc, char const *argv[]) {

FILE* image_file = fopen(argv[1], "r");

FILE* key_file = fopen(argv[2], "r");

FILE* out_image = fopen(argv[3], "w");

// Read image

header_t header;

img_t img;

read_header(image_file, header);

read_image(image_file, &img, &header);

// Read secret key

int seed;

read_seed(key_file, *seed);

sp_rand(eed);

printf("Encrypt[1] or Decrypt[2]? ");

int choice;

while(true) {

scanf("%d",&choice);

if(choice == 1 || choice == 2) {

sym_crypt(out_image, &header, &img, choice);

break;

} else {

printf("Please enter 1 or 2 ");

}

/********************/

fclose(image_file);

fclose(key_file);

fclose(out_image);

return 0;

}

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#include "crypto.h"

int P_RAND_SEED = 1;

void read_header(FILE* in_img, header_t* header) {

header->type = malloc(sizeof(char)*3);

fscanf(in_img, "%s ", header->type);

fscanf(in_img, "%d %d ", &header->w, &header->h);

fscanf(in_img, "%d ", &header->cs);

printf("Header: %s %d %d %d ", header->type, header->w, header->h, header->cs);

}

/********************/

/** Fix errors... **/

void read_image(FILE* input, img_t* image, header_t* header) {

int row, col;

image->data = malloc(sizeof(pixel_t*) * header.h);

for(row = 0; row h; row++) {

image->data[row] = malloc(sizeof(pixel_t) * header->w * 3);

for(; col w; col++) {

pixel_t pix

fscanf(input, "%c%c%c", &pix.r, &pix.g, &pix.b);

image.data[row][col] = pix;

}

void read_seed(FILE* seed_file, int* seed) {

fscanf(seed_file, "%d", seed);

}

/** Fix errors... **/

void sym_crypt(FILE* output, header_t* header, img_t* image, int mode) {

// Write header of PPM to files

fprintf(output, "%s %d %d %d ", header->type, header->w, header->h, header->cs);

/*********************/

// Encrypt or Decrypt!

// fix errors //

int row, col;

switch (mode) {

case 1:

printf("Encrypt ", );

for(row = 0; row h; row++) {

for(col = 0; col w; col++) {

int swap_row = p_rand(row*row) % header.h;

int swap_col = p_rand(col*col) % header->w;

pixel_t swap = image->data[row][col];

image->data[row][col] = image->data[swap_row][swap_col];

image->data[swap_row][swap_col] = swap;

}

} break;

case 2:

printf("Decrypt ");

for(row = header->h-1; row >= 0; row--) {

for(; col >= 0; col--) {

int swap_row = p_rand(row*row) % header->h;

int swap_col = p_rand(col*col) % header->w;

pixel_t swap = image->data[row][col];

image->data[row][col] = image->data[swap_row][swap_col];

image->data[swap_row][swap_col] = swap;

}

} break;

default: break;

}

for(row = 0; row h; row++) {

for(col = 0; col w; col++) {

pixel_t pix = image->data[row][col];

fprintf(output, "%c%c%c", pix.r, pix.g, pix.b);

}

/********************/

}

void sp_rand(unsigned int seed) {

P_RAND_SEED = seed;

}

/********************/

unsigned int p_rand(unsigned int init) {

return (P_RAND_SEED*init) % INT_MAX;

}

/********************/

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#ifndef CRYPTO_H

#define CRYPTO_H value

#include "stdio.h"

#include "stdlib.h"

#include "limits.h"

#include "stdbool.h"

extern int P_RAND_SEED;

typedef struct header_t {

char* type;

int w, h, cs;

} header_t;

typedef struct pixel_t {

unsigned char r,g,b;

} pixel_t;

typedef struct img_t {

pixel_t** data;

} img_t;

void read_header(FILE* in_img, header_t* header);

void read_image(FILE* in_img, img_t* image, header_t* header);

void read_seed(FILE* seed_file, int* seed);

void sym_crypt(FILE* out_img, header_t* header, img_t* image, int mode);

// random number generator //

void sp_rand(unsigned int seed);

unsigned int p_rand(unsigned int init);

#endif

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key: 22695477

secret.ppm

image text in transcribed

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Question

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