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Packit	08bd4c	`/*-`
Packit	08bd4c	`* Copyright (c) 2014 Michihiro NAKAJIMA`
Packit	08bd4c	`* All rights reserved.`
Packit	08bd4c	`*`
Packit	08bd4c	`* Redistribution and use in source and binary forms, with or without`
Packit	08bd4c	`* modification, are permitted provided that the following conditions`
Packit	08bd4c	`* are met:`
Packit	08bd4c	`* 1. Redistributions of source code must retain the above copyright`
Packit	08bd4c	`* notice, this list of conditions and the following disclaimer.`
Packit	08bd4c	`* 2. Redistributions in binary form must reproduce the above copyright`
Packit	08bd4c	`* notice, this list of conditions and the following disclaimer in the`
Packit	08bd4c	`* documentation and/or other materials provided with the distribution.`
Packit	08bd4c	`*`
Packit	08bd4c	* THIS SOFTWARE IS PROVIDED BY THE AUTHOR(S) ``AS IS'' AND ANY EXPRESS OR
Packit	08bd4c	`* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES`
Packit	08bd4c	`* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.`
Packit	08bd4c	`* IN NO EVENT SHALL THE AUTHOR(S) BE LIABLE FOR ANY DIRECT, INDIRECT,`
Packit	08bd4c	`* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT`
Packit	08bd4c	`* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,`
Packit	08bd4c	`* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY`
Packit	08bd4c	`* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT`
Packit	08bd4c	`* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF`
Packit	08bd4c	`* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.`
Packit	08bd4c	`*/`
Packit	08bd4c
Packit	08bd4c	`#include "archive_platform.h"`
Packit	08bd4c
Packit	08bd4c	`#ifdef HAVE_STRING_H`
Packit	08bd4c	`#include <string.h>`
Packit	08bd4c	`#endif`
Packit	08bd4c	`#include "archive.h"`
Packit	08bd4c	`#include "archive_cryptor_private.h"`
Packit	08bd4c
Packit	08bd4c	`/*`
Packit	08bd4c	`* On systems that do not support any recognized crypto libraries,`
Packit	08bd4c	`* this file will normally define no usable symbols.`
Packit	08bd4c	`*`
Packit	08bd4c	`* But some compilers and linkers choke on empty object files, so`
Packit	08bd4c	`* define a public symbol that will always exist. This could`
Packit	08bd4c	`* be removed someday if this file gains another always-present`
Packit	08bd4c	`* symbol definition.`
Packit	08bd4c	`*/`
Packit	08bd4c	`int __libarchive_cryptor_build_hack(void) {`
Packit	08bd4c	`return 0;`
Packit	08bd4c	`}`
Packit	08bd4c
Packit	08bd4c	`#ifdef ARCHIVE_CRYPTOR_USE_Apple_CommonCrypto`
Packit	08bd4c
Packit	08bd4c	`static int`
Packit	08bd4c	`pbkdf2_sha1(const char pw, size_t pw_len, const uint8_t salt,`
Packit	08bd4c	`size_t salt_len, unsigned rounds, uint8_t *derived_key,`
Packit	08bd4c	`size_t derived_key_len)`
Packit	08bd4c	`{`
Packit	08bd4c	`CCKeyDerivationPBKDF(kCCPBKDF2, (const char *)pw,`
Packit	08bd4c	`pw_len, salt, salt_len, kCCPRFHmacAlgSHA1, rounds,`
Packit	08bd4c	`derived_key, derived_key_len);`
Packit	08bd4c	`return 0;`
Packit	08bd4c	`}`
Packit	08bd4c
Packit	08bd4c	`#elif defined(_WIN32) && !defined(__CYGWIN__) && defined(HAVE_BCRYPT_H)`
Packit	08bd4c	`#ifdef _MSC_VER`
Packit	08bd4c	`#pragma comment(lib, "Bcrypt.lib")`
Packit	08bd4c	`#endif`
Packit	08bd4c
Packit	08bd4c	`static int`
Packit	08bd4c	`pbkdf2_sha1(const char pw, size_t pw_len, const uint8_t salt,`
Packit	08bd4c	`size_t salt_len, unsigned rounds, uint8_t *derived_key,`
Packit	08bd4c	`size_t derived_key_len)`
Packit	08bd4c	`{`
Packit	08bd4c	`NTSTATUS status;`
Packit	08bd4c	`BCRYPT_ALG_HANDLE hAlg;`
Packit	08bd4c
Packit	08bd4c	`status = BCryptOpenAlgorithmProvider(&hAlg, BCRYPT_SHA1_ALGORITHM,`
Packit	08bd4c	`MS_PRIMITIVE_PROVIDER, BCRYPT_ALG_HANDLE_HMAC_FLAG);`
Packit	08bd4c	`if (!BCRYPT_SUCCESS(status))`
Packit	08bd4c	`return -1;`
Packit	08bd4c
Packit	08bd4c	`status = BCryptDeriveKeyPBKDF2(hAlg,`
Packit	08bd4c	`(PUCHAR)(uintptr_t)pw, (ULONG)pw_len,`
Packit	08bd4c	`(PUCHAR)(uintptr_t)salt, (ULONG)salt_len, rounds,`
Packit	08bd4c	`(PUCHAR)derived_key, (ULONG)derived_key_len, 0);`
Packit	08bd4c
Packit	08bd4c	`BCryptCloseAlgorithmProvider(hAlg, 0);`
Packit	08bd4c
Packit	08bd4c	`return (BCRYPT_SUCCESS(status)) ? 0: -1;`
Packit	08bd4c	`}`
Packit	08bd4c
Packit	08bd4c	`#elif defined(HAVE_LIBNETTLE) && defined(HAVE_NETTLE_PBKDF2_H)`
Packit	08bd4c
Packit	08bd4c	`static int`
Packit	08bd4c	`pbkdf2_sha1(const char pw, size_t pw_len, const uint8_t salt,`
Packit	08bd4c	`size_t salt_len, unsigned rounds, uint8_t *derived_key,`
Packit	08bd4c	`size_t derived_key_len) {`
Packit	08bd4c	`pbkdf2_hmac_sha1((unsigned)pw_len, (const uint8_t *)pw, rounds,`
Packit	08bd4c	`salt_len, salt, derived_key_len, derived_key);`
Packit	08bd4c	`return 0;`
Packit	08bd4c	`}`
Packit	08bd4c
Packit	08bd4c	`#elif defined(HAVE_LIBCRYPTO) && defined(HAVE_PKCS5_PBKDF2_HMAC_SHA1)`
Packit	08bd4c
Packit	08bd4c	`static int`
Packit	08bd4c	`pbkdf2_sha1(const char pw, size_t pw_len, const uint8_t salt,`
Packit	08bd4c	`size_t salt_len, unsigned rounds, uint8_t *derived_key,`
Packit	08bd4c	`size_t derived_key_len) {`
Packit	08bd4c
Packit	08bd4c	`PKCS5_PBKDF2_HMAC_SHA1(pw, pw_len, salt, salt_len, rounds,`
Packit	08bd4c	`derived_key_len, derived_key);`
Packit	08bd4c	`return 0;`
Packit	08bd4c	`}`
Packit	08bd4c
Packit	08bd4c	`#else`
Packit	08bd4c
Packit	08bd4c	`/* Stub */`
Packit	08bd4c	`static int`
Packit	08bd4c	`pbkdf2_sha1(const char pw, size_t pw_len, const uint8_t salt,`
Packit	08bd4c	`size_t salt_len, unsigned rounds, uint8_t *derived_key,`
Packit	08bd4c	`size_t derived_key_len) {`
Packit	08bd4c	`(void)pw; /* UNUSED */`
Packit	08bd4c	`(void)pw_len; /* UNUSED */`
Packit	08bd4c	`(void)salt; /* UNUSED */`
Packit	08bd4c	`(void)salt_len; /* UNUSED */`
Packit	08bd4c	`(void)rounds; /* UNUSED */`
Packit	08bd4c	`(void)derived_key; /* UNUSED */`
Packit	08bd4c	`(void)derived_key_len; /* UNUSED */`
Packit	08bd4c	`return -1; /* UNSUPPORTED */`
Packit	08bd4c	`}`
Packit	08bd4c
Packit	08bd4c	`#endif`
Packit	08bd4c
Packit	08bd4c	`#ifdef ARCHIVE_CRYPTOR_USE_Apple_CommonCrypto`
Packit	08bd4c	`# if MAC_OS_X_VERSION_MAX_ALLOWED < 1090`
Packit	08bd4c	`# define kCCAlgorithmAES kCCAlgorithmAES128`
Packit	08bd4c	`# endif`
Packit	08bd4c
Packit	08bd4c	`static int`
Packit	08bd4c	`aes_ctr_init(archive_crypto_ctx ctx, const uint8_t key, size_t key_len)`
Packit	08bd4c	`{`
Packit	08bd4c	`CCCryptorStatus r;`
Packit	08bd4c
Packit	08bd4c	`ctx->key_len = key_len;`
Packit	08bd4c	`memcpy(ctx->key, key, key_len);`
Packit	08bd4c	`memset(ctx->nonce, 0, sizeof(ctx->nonce));`
Packit	08bd4c	`ctx->encr_pos = AES_BLOCK_SIZE;`
Packit	08bd4c	`r = CCCryptorCreateWithMode(kCCEncrypt, kCCModeECB, kCCAlgorithmAES,`
Packit	08bd4c	`ccNoPadding, NULL, key, key_len, NULL, 0, 0, 0, &ctx->ctx);`
Packit	08bd4c	`return (r == kCCSuccess)? 0: -1;`
Packit	08bd4c	`}`
Packit	08bd4c
Packit	08bd4c	`static int`
Packit	08bd4c	`aes_ctr_encrypt_counter(archive_crypto_ctx *ctx)`
Packit	08bd4c	`{`
Packit	08bd4c	`CCCryptorRef ref = ctx->ctx;`
Packit	08bd4c	`CCCryptorStatus r;`
Packit	08bd4c
Packit	08bd4c	`r = CCCryptorReset(ref, NULL);`
Packit	08bd4c	`if (r != kCCSuccess)`
Packit	08bd4c	`return -1;`
Packit	08bd4c	`r = CCCryptorUpdate(ref, ctx->nonce, AES_BLOCK_SIZE, ctx->encr_buf,`
Packit	08bd4c	`AES_BLOCK_SIZE, NULL);`
Packit	08bd4c	`return (r == kCCSuccess)? 0: -1;`
Packit	08bd4c	`}`
Packit	08bd4c
Packit	08bd4c	`static int`
Packit	08bd4c	`aes_ctr_release(archive_crypto_ctx *ctx)`
Packit	08bd4c	`{`
Packit	08bd4c	`memset(ctx->key, 0, ctx->key_len);`
Packit	08bd4c	`memset(ctx->nonce, 0, sizeof(ctx->nonce));`
Packit	08bd4c	`return 0;`
Packit	08bd4c	`}`
Packit	08bd4c
Packit	08bd4c	`#elif defined(_WIN32) && !defined(__CYGWIN__) && defined(HAVE_BCRYPT_H)`
Packit	08bd4c
Packit	08bd4c	`static int`
Packit	08bd4c	`aes_ctr_init(archive_crypto_ctx ctx, const uint8_t key, size_t key_len)`
Packit	08bd4c	`{`
Packit	08bd4c	`BCRYPT_ALG_HANDLE hAlg;`
Packit	08bd4c	`BCRYPT_KEY_HANDLE hKey;`
Packit	08bd4c	`DWORD keyObj_len, aes_key_len;`
Packit	08bd4c	`PBYTE keyObj;`
Packit	08bd4c	`ULONG result;`
Packit	08bd4c	`NTSTATUS status;`
Packit	08bd4c	`BCRYPT_KEY_LENGTHS_STRUCT key_lengths;`
Packit	08bd4c
Packit	08bd4c	`ctx->hAlg = NULL;`
Packit	08bd4c	`ctx->hKey = NULL;`
Packit	08bd4c	`ctx->keyObj = NULL;`
Packit	08bd4c	`switch (key_len) {`
Packit	08bd4c	`case 16: aes_key_len = 128; break;`
Packit	08bd4c	`case 24: aes_key_len = 192; break;`
Packit	08bd4c	`case 32: aes_key_len = 256; break;`
Packit	08bd4c	`default: return -1;`
Packit	08bd4c	`}`
Packit	08bd4c	`status = BCryptOpenAlgorithmProvider(&hAlg, BCRYPT_AES_ALGORITHM,`
Packit	08bd4c	`MS_PRIMITIVE_PROVIDER, 0);`
Packit	08bd4c	`if (!BCRYPT_SUCCESS(status))`
Packit	08bd4c	`return -1;`
Packit	08bd4c	`status = BCryptGetProperty(hAlg, BCRYPT_KEY_LENGTHS, (PUCHAR)&key_lengths,`
Packit	08bd4c	`sizeof(key_lengths), &result, 0);`
Packit	08bd4c	`if (!BCRYPT_SUCCESS(status)) {`
Packit	08bd4c	`BCryptCloseAlgorithmProvider(hAlg, 0);`
Packit	08bd4c	`return -1;`
Packit	08bd4c	`}`
Packit	08bd4c	`if (key_lengths.dwMinLength > aes_key_len`
Packit	08bd4c	`\|\| key_lengths.dwMaxLength < aes_key_len) {`
Packit	08bd4c	`BCryptCloseAlgorithmProvider(hAlg, 0);`
Packit	08bd4c	`return -1;`
Packit	08bd4c	`}`
Packit	08bd4c	`status = BCryptGetProperty(hAlg, BCRYPT_OBJECT_LENGTH, (PUCHAR)&keyObj_len,`
Packit	08bd4c	`sizeof(keyObj_len), &result, 0);`
Packit	08bd4c	`if (!BCRYPT_SUCCESS(status)) {`
Packit	08bd4c	`BCryptCloseAlgorithmProvider(hAlg, 0);`
Packit	08bd4c	`return -1;`
Packit	08bd4c	`}`
Packit	08bd4c	`keyObj = (PBYTE)HeapAlloc(GetProcessHeap(), 0, keyObj_len);`
Packit	08bd4c	`if (keyObj == NULL) {`
Packit	08bd4c	`BCryptCloseAlgorithmProvider(hAlg, 0);`
Packit	08bd4c	`return -1;`
Packit	08bd4c	`}`
Packit	08bd4c	`status = BCryptSetProperty(hAlg, BCRYPT_CHAINING_MODE,`
Packit	08bd4c	`(PUCHAR)BCRYPT_CHAIN_MODE_ECB, sizeof(BCRYPT_CHAIN_MODE_ECB), 0);`
Packit	08bd4c	`if (!BCRYPT_SUCCESS(status)) {`
Packit	08bd4c	`BCryptCloseAlgorithmProvider(hAlg, 0);`
Packit	08bd4c	`HeapFree(GetProcessHeap(), 0, keyObj);`
Packit	08bd4c	`return -1;`
Packit	08bd4c	`}`
Packit	08bd4c	`status = BCryptGenerateSymmetricKey(hAlg, &hKey,`
Packit	08bd4c	`keyObj, keyObj_len,`
Packit	08bd4c	`(PUCHAR)(uintptr_t)key, (ULONG)key_len, 0);`
Packit	08bd4c	`if (!BCRYPT_SUCCESS(status)) {`
Packit	08bd4c	`BCryptCloseAlgorithmProvider(hAlg, 0);`
Packit	08bd4c	`HeapFree(GetProcessHeap(), 0, keyObj);`
Packit	08bd4c	`return -1;`
Packit	08bd4c	`}`
Packit	08bd4c
Packit	08bd4c	`ctx->hAlg = hAlg;`
Packit	08bd4c	`ctx->hKey = hKey;`
Packit	08bd4c	`ctx->keyObj = keyObj;`
Packit	08bd4c	`ctx->keyObj_len = keyObj_len;`
Packit	08bd4c	`ctx->encr_pos = AES_BLOCK_SIZE;`
Packit	08bd4c
Packit	08bd4c	`return 0;`
Packit	08bd4c	`}`
Packit	08bd4c
Packit	08bd4c	`static int`
Packit	08bd4c	`aes_ctr_encrypt_counter(archive_crypto_ctx *ctx)`
Packit	08bd4c	`{`
Packit	08bd4c	`NTSTATUS status;`
Packit	08bd4c	`ULONG result;`
Packit	08bd4c
Packit	08bd4c	`status = BCryptEncrypt(ctx->hKey, (PUCHAR)ctx->nonce, AES_BLOCK_SIZE,`
Packit	08bd4c	`NULL, NULL, 0, (PUCHAR)ctx->encr_buf, AES_BLOCK_SIZE,`
Packit	08bd4c	`&result, 0);`
Packit	08bd4c	`return BCRYPT_SUCCESS(status) ? 0 : -1;`
Packit	08bd4c	`}`
Packit	08bd4c
Packit	08bd4c	`static int`
Packit	08bd4c	`aes_ctr_release(archive_crypto_ctx *ctx)`
Packit	08bd4c	`{`
Packit	08bd4c
Packit	08bd4c	`if (ctx->hAlg != NULL) {`
Packit	08bd4c	`BCryptCloseAlgorithmProvider(ctx->hAlg, 0);`
Packit	08bd4c	`ctx->hAlg = NULL;`
Packit	08bd4c	`BCryptDestroyKey(ctx->hKey);`
Packit	08bd4c	`ctx->hKey = NULL;`
Packit	08bd4c	`HeapFree(GetProcessHeap(), 0, ctx->keyObj);`
Packit	08bd4c	`ctx->keyObj = NULL;`
Packit	08bd4c	`}`
Packit	08bd4c	`memset(ctx, 0, sizeof(*ctx));`
Packit	08bd4c	`return 0;`
Packit	08bd4c	`}`
Packit	08bd4c
Packit	08bd4c	`#elif defined(HAVE_LIBNETTLE) && defined(HAVE_NETTLE_AES_H)`
Packit	08bd4c
Packit	08bd4c	`static int`
Packit	08bd4c	`aes_ctr_init(archive_crypto_ctx ctx, const uint8_t key, size_t key_len)`
Packit	08bd4c	`{`
Packit	08bd4c	`ctx->key_len = key_len;`
Packit	08bd4c	`memcpy(ctx->key, key, key_len);`
Packit	08bd4c	`memset(ctx->nonce, 0, sizeof(ctx->nonce));`
Packit	08bd4c	`ctx->encr_pos = AES_BLOCK_SIZE;`
Packit	08bd4c	`memset(&ctx->ctx, 0, sizeof(ctx->ctx));`
Packit	08bd4c	`return 0;`
Packit	08bd4c	`}`
Packit	08bd4c
Packit	08bd4c	`static int`
Packit	08bd4c	`aes_ctr_encrypt_counter(archive_crypto_ctx *ctx)`
Packit	08bd4c	`{`
Packit	08bd4c	`aes_set_encrypt_key(&ctx->ctx, ctx->key_len, ctx->key);`
Packit	08bd4c	`aes_encrypt(&ctx->ctx, AES_BLOCK_SIZE, ctx->encr_buf, ctx->nonce);`
Packit	08bd4c	`return 0;`
Packit	08bd4c	`}`
Packit	08bd4c
Packit	08bd4c	`static int`
Packit	08bd4c	`aes_ctr_release(archive_crypto_ctx *ctx)`
Packit	08bd4c	`{`
Packit	08bd4c	`memset(ctx, 0, sizeof(*ctx));`
Packit	08bd4c	`return 0;`
Packit	08bd4c	`}`
Packit	08bd4c
Packit	08bd4c	`#elif defined(HAVE_LIBCRYPTO)`
Packit	08bd4c
Packit	08bd4c	`static int`
Packit	08bd4c	`aes_ctr_init(archive_crypto_ctx ctx, const uint8_t key, size_t key_len)`
Packit	08bd4c	`{`
Packit	08bd4c	`if ((ctx->ctx = EVP_CIPHER_CTX_new()) == NULL)`
Packit	08bd4c	`return -1;`
Packit	08bd4c
Packit	08bd4c	`switch (key_len) {`
Packit	08bd4c	`case 16: ctx->type = EVP_aes_128_ecb(); break;`
Packit	08bd4c	`case 24: ctx->type = EVP_aes_192_ecb(); break;`
Packit	08bd4c	`case 32: ctx->type = EVP_aes_256_ecb(); break;`
Packit	08bd4c	`default: ctx->type = NULL; return -1;`
Packit	08bd4c	`}`
Packit	08bd4c
Packit	08bd4c	`ctx->key_len = key_len;`
Packit	08bd4c	`memcpy(ctx->key, key, key_len);`
Packit	08bd4c	`memset(ctx->nonce, 0, sizeof(ctx->nonce));`
Packit	08bd4c	`ctx->encr_pos = AES_BLOCK_SIZE;`
Packit	08bd4c	`EVP_CIPHER_CTX_init(ctx->ctx);`
Packit	08bd4c	`return 0;`
Packit	08bd4c	`}`
Packit	08bd4c
Packit	08bd4c	`static int`
Packit	08bd4c	`aes_ctr_encrypt_counter(archive_crypto_ctx *ctx)`
Packit	08bd4c	`{`
Packit	08bd4c	`int outl = 0;`
Packit	08bd4c	`int r;`
Packit	08bd4c
Packit	08bd4c	`r = EVP_EncryptInit_ex(ctx->ctx, ctx->type, NULL, ctx->key, NULL);`
Packit	08bd4c	`if (r == 0)`
Packit	08bd4c	`return -1;`
Packit	08bd4c	`r = EVP_EncryptUpdate(ctx->ctx, ctx->encr_buf, &outl, ctx->nonce,`
Packit	08bd4c	`AES_BLOCK_SIZE);`
Packit	08bd4c	`if (r == 0 \|\| outl != AES_BLOCK_SIZE)`
Packit	08bd4c	`return -1;`
Packit	08bd4c	`return 0;`
Packit	08bd4c	`}`
Packit	08bd4c
Packit	08bd4c	`static int`
Packit	08bd4c	`aes_ctr_release(archive_crypto_ctx *ctx)`
Packit	08bd4c	`{`
Packit	08bd4c	`EVP_CIPHER_CTX_free(ctx->ctx);`
Packit	08bd4c	`memset(ctx->key, 0, ctx->key_len);`
Packit	08bd4c	`memset(ctx->nonce, 0, sizeof(ctx->nonce));`
Packit	08bd4c	`return 0;`
Packit	08bd4c	`}`
Packit	08bd4c
Packit	08bd4c	`#else`
Packit	08bd4c
Packit	08bd4c	`#define ARCHIVE_CRYPTOR_STUB`
Packit	08bd4c	`/* Stub */`
Packit	08bd4c	`static int`
Packit	08bd4c	`aes_ctr_init(archive_crypto_ctx ctx, const uint8_t key, size_t key_len)`
Packit	08bd4c	`{`
Packit	08bd4c	`(void)ctx; /* UNUSED */`
Packit	08bd4c	`(void)key; /* UNUSED */`
Packit	08bd4c	`(void)key_len; /* UNUSED */`
Packit	08bd4c	`return -1;`
Packit	08bd4c	`}`
Packit	08bd4c
Packit	08bd4c	`static int`
Packit	08bd4c	`aes_ctr_encrypt_counter(archive_crypto_ctx *ctx)`
Packit	08bd4c	`{`
Packit	08bd4c	`(void)ctx; /* UNUSED */`
Packit	08bd4c	`return -1;`
Packit	08bd4c	`}`
Packit	08bd4c
Packit	08bd4c	`static int`
Packit	08bd4c	`aes_ctr_release(archive_crypto_ctx *ctx)`
Packit	08bd4c	`{`
Packit	08bd4c	`(void)ctx; /* UNUSED */`
Packit	08bd4c	`return 0;`
Packit	08bd4c	`}`
Packit	08bd4c
Packit	08bd4c	`#endif`
Packit	08bd4c
Packit	08bd4c	`#ifdef ARCHIVE_CRYPTOR_STUB`
Packit	08bd4c	`static int`
Packit	08bd4c	`aes_ctr_update(archive_crypto_ctx ctx, const uint8_t const in,`
Packit	08bd4c	`size_t in_len, uint8_t * const out, size_t *out_len)`
Packit	08bd4c	`{`
Packit	08bd4c	`(void)ctx; /* UNUSED */`
Packit	08bd4c	`(void)in; /* UNUSED */`
Packit	08bd4c	`(void)in_len; /* UNUSED */`
Packit	08bd4c	`(void)out; /* UNUSED */`
Packit	08bd4c	`(void)out_len; /* UNUSED */`
Packit	08bd4c	`aes_ctr_encrypt_counter(ctx); /* UNUSED / / Fix unused function warning */`
Packit	08bd4c	`return -1;`
Packit	08bd4c	`}`
Packit	08bd4c
Packit	08bd4c	`#else`
Packit	08bd4c	`static void`
Packit	08bd4c	`aes_ctr_increase_counter(archive_crypto_ctx *ctx)`
Packit	08bd4c	`{`
Packit	08bd4c	`uint8_t *const nonce = ctx->nonce;`
Packit	08bd4c	`int j;`
Packit	08bd4c
Packit	08bd4c	`for (j = 0; j < 8; j++) {`
Packit	08bd4c	`if (++nonce[j])`
Packit	08bd4c	`break;`
Packit	08bd4c	`}`
Packit	08bd4c	`}`
Packit	08bd4c
Packit	08bd4c	`static int`
Packit	08bd4c	`aes_ctr_update(archive_crypto_ctx ctx, const uint8_t const in,`
Packit	08bd4c	`size_t in_len, uint8_t * const out, size_t *out_len)`
Packit	08bd4c	`{`
Packit	08bd4c	`uint8_t *const ebuf = ctx->encr_buf;`
Packit	08bd4c	`unsigned pos = ctx->encr_pos;`
Packit	08bd4c	`unsigned max = (unsigned)((in_len < out_len)? in_len: out_len);`
Packit	08bd4c	`unsigned i;`
Packit	08bd4c
Packit	08bd4c	`for (i = 0; i < max; ) {`
Packit	08bd4c	`if (pos == AES_BLOCK_SIZE) {`
Packit	08bd4c	`aes_ctr_increase_counter(ctx);`
Packit	08bd4c	`if (aes_ctr_encrypt_counter(ctx) != 0)`
Packit	08bd4c	`return -1;`
Packit	08bd4c	`while (max -i >= AES_BLOCK_SIZE) {`
Packit	08bd4c	`for (pos = 0; pos < AES_BLOCK_SIZE; pos++)`
Packit	08bd4c	`out[i+pos] = in[i+pos] ^ ebuf[pos];`
Packit	08bd4c	`i += AES_BLOCK_SIZE;`
Packit	08bd4c	`aes_ctr_increase_counter(ctx);`
Packit	08bd4c	`if (aes_ctr_encrypt_counter(ctx) != 0)`
Packit	08bd4c	`return -1;`
Packit	08bd4c	`}`
Packit	08bd4c	`pos = 0;`
Packit	08bd4c	`if (i >= max)`
Packit	08bd4c	`break;`
Packit	08bd4c	`}`
Packit	08bd4c	`out[i] = in[i] ^ ebuf[pos++];`
Packit	08bd4c	`i++;`
Packit	08bd4c	`}`
Packit	08bd4c	`ctx->encr_pos = pos;`
Packit	08bd4c	`*out_len = i;`
Packit	08bd4c
Packit	08bd4c	`return 0;`
Packit	08bd4c	`}`
Packit	08bd4c	`#endif /* ARCHIVE_CRYPTOR_STUB */`
Packit	08bd4c
Packit	08bd4c
Packit	08bd4c	`const struct archive_cryptor __archive_cryptor =`
Packit	08bd4c	`{`
Packit	08bd4c	`&pbkdf2_sha1,`
Packit	08bd4c	`&aes_ctr_init,`
Packit	08bd4c	`&aes_ctr_update,`
Packit	08bd4c	`&aes_ctr_release,`
Packit	08bd4c	`&aes_ctr_init,`
Packit	08bd4c	`&aes_ctr_update,`
Packit	08bd4c	`&aes_ctr_release,`
Packit	08bd4c	`};`

source-git / libarchive

Source Code

Blame libarchive/archive_cryptor.c