Coverity cleanups.
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40
hmac.cc
40
hmac.cc
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@ -39,50 +39,58 @@ namespace emsha {
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// These constants are used to keep track of the state of the HMAC.
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// These constants are used to keep track of the state of the HMAC.
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// HMAC is in a clean-slate state following a call to Reset().
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// HMAC is in a clean-slate state following a call to Reset().
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constexpr uint8_t HMAC_INIT = 0;
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constexpr uint8_t HMAC_INIT = 0U;
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// The ipad constants have been XOR'd into the key and written to the
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// The ipad constants have been XOR'd into the key and written to the
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// SHA-256 context.
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// SHA-256 context.
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constexpr uint8_t HMAC_IPAD = 1;
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constexpr uint8_t HMAC_IPAD = 1U;
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// The opad constants have been XOR'd into the key and written to the
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// The opad constants have been XOR'd into the key and written to the
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// SHA-256 context.
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// SHA-256 context.
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constexpr uint8_t HMAC_OPAD = 2;
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constexpr uint8_t HMAC_OPAD = 2U;
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// HMAC has been finalised
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// HMAC has been finalised
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constexpr uint8_t HMAC_FIN = 3;
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constexpr uint8_t HMAC_FIN = 3U;
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// HMAC is in an invalid state.
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// HMAC is in an invalid state.
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constexpr uint8_t HMAC_INVALID = 4;
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constexpr uint8_t HMAC_INVALID = 4U;
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static constexpr uint8_t ipad = 0x36;
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static constexpr uint8_t ipad = 0x36U;
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static constexpr uint8_t opad = 0x5c;
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static constexpr uint8_t opad = 0x5cU;
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HMAC::HMAC(const uint8_t *ik, uint32_t ikl)
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HMAC::HMAC(const uint8_t *ik, uint32_t ikl)
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: hstate(HMAC_INIT), k{0}, buf{0}
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: hstate(HMAC_INIT), k{0U}, buf{0U}
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{
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{
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std::fill(this->k, this->k+HMAC_KEY_LENGTH, 0);
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std::fill(this->k, this->k+HMAC_KEY_LENGTH, 0);
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if (ikl < HMAC_KEY_LENGTH) {
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if (ikl < HMAC_KEY_LENGTH) {
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for (uint32_t i = 0; i < ikl; i++) {
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for (uint32_t i = 0U; i < ikl; i++) {
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this->k[i] = ik[i];
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this->k[i] = ik[i];
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}
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}
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while (ikl < HMAC_KEY_LENGTH) {
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while (ikl < HMAC_KEY_LENGTH) {
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this->k[ikl++] = 0;
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this->k[ikl++] = 0U;
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}
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}
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} else if (ikl > HMAC_KEY_LENGTH) {
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} else if (ikl > HMAC_KEY_LENGTH) {
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this->ctx.Update(ik, ikl);
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if (this->ctx.Update(ik, ikl) != EMSHAResult::OK) {
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this->ctx.Result(this->k);
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this->hstate = HMAC_INVALID;
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this->ctx.Reset();
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} else if (this->ctx.Result(this->k) != EMSHAResult::OK) {
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this->hstate = HMAC_INVALID;
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} else if (this->ctx.Reset() != EMSHAResult::OK) {
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this->hstate = HMAC_INVALID;
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} else {
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} else {
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for (uint32_t i = 0; i < ikl; i++) {
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this->hstate = HMAC_INIT;
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}
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} else {
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for (uint32_t i = 0U; i < ikl; i++) {
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this->k[i] = ik[i];
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this->k[i] = ik[i];
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}
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}
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}
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}
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this->reset();
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if (this->reset() != EMSHAResult::OK) {
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this->hstate = HMAC_INVALID;
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}
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}
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}
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@ -91,7 +99,7 @@ HMAC::HMAC(const uint8_t *ik, uint32_t ikl)
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*/
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*/
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HMAC::~HMAC()
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HMAC::~HMAC()
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{
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{
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this->reset();
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(void)this->reset();
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std::fill(this->k, this->k + HMAC_KEY_LENGTH, 0);
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std::fill(this->k, this->k + HMAC_KEY_LENGTH, 0);
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}
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}
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@ -405,7 +405,7 @@ SHA256::Result(std::uint8_t *digest)
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if (nullptr == digest) { res = EMSHAResult::NullPointer; }
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if (nullptr == digest) { res = EMSHAResult::NullPointer; }
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// If the SHA256 object is in a bad state, don't proceed.
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// If the SHA256 object is in a bad state, don't proceed.
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else if (EMSHAResult::OK != this->hStatus) { res = this->hStatus; }
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else if (this->hStatus != EMSHAResult::OK) { res = this->hStatus; }
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// Invariants satisfied by here.
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// Invariants satisfied by here.
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else if (this->hComplete == 0U) {
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else if (this->hComplete == 0U) {
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