No King But Jesus

http://www.truthinhistory.org/no-king-but-jesus-2.html

The crisis of the ages demands that we renew the historic battle-cry of our Christian Forefathers: "We Have No King But King Jesus!"

"Remove not the ancient landmarks which thy fathers have set."

-- Proverbs 22:28

The Historic Battle-Cry of

the Christian Church is:

"AND HE HATH ON HIS VESTURE AND ON HIS THIGH, A NAME WRITTEN, KING OF KINGS AND LORD OF LORDS."

-- Revelation 19:16

by Charles A. Jennings

The glorious annals of sacred history of the Christian Church record the heroic deeds of many of our forefathers in their struggle against the ungodly dictates of religious and political tyrants. Their unrelenting devotion and allegiance to Jesus Christ as not only prophet and priest, but as the only rightful king resulted in their confrontation with the ungodly political, social and religious authorities. There are numerous historical accounts which offer irrefutable proof that human governments have demanded the total allegiance of their 'subjects,' at the expense of individual God-given rights of personal liberties, political philosophy and religious beliefs.

Early in the life of the first century Church, both the Jewish religious and Roman political authorities attempted to stop the Apostles in their proclamation that Jesus Christ and He alone was and is the only Lord and Savior (Acts 2:36). The Apostle Peter declared; "neither is there salvation in any other: For there is none other name under heaven given among men, whereby we must be saved" (Acts 4:12). One of the official accusations brought by the Roman government against many members of the Apostolic Church was the charge of ‘atheism,’ because they refused to recognize and worship Caesar as God.

THE APOSTOLIC DECLARATION

"We ought to obey God rather than men"

Peter and the other Apostles

-- Acts 5:29


In the 17th century there was another clear example of staunch Christian believers defending the "Crown Rights" of Jesus Christ. They willingly resolved to give total allegiance to their Savior in spite of the disfavor of the English Crown which resulted in the bloody martyrdom of thousands of Scottish saints. In 1560 the Reform Faith was established as the national religion of Scotland. Forty-three years later in 1603 James VI of Scotland became James I of England. In 1618 the king tried to conform the worship of the Scottish churches to the pattern of the Anglican Church, which policy was pursued by his son Charles I in 1625. The Scottish Presbyterians rejected this royal usurpation by signing the National Covenant in 1638 which declared religious independence from the state church. Again they signed the Solemn League and Covenant in 1643 which pledged themselves in their worship and allegiance only to the Crown Rights of Jesus Christ. Thus they became known as the Scottish Covenanters. They opposed the theory of the Divine Right of Kings and taught that limitless sovereignty pertains to God alone.



In Paul Revere's midnight ride to Lexington to announce the coming of British Regulars, he warned two patriot leaders, the gray-haired Sam Adams and John Hancock who were staying at the home of Parson Jonas Clarke.


Such dissenting views brought strong opposition from King Charles II in 1662 and Presbyterianism was outlawed and the Covenants were denounced as illegal. Following the Biblical admonition of obedience to the Sovereign God instead of an earthly king made the Covenanters ‘rebels’ to the state. Many Scottish preachers, driven from their pulpits, resorted to field preaching. Thousands of Covenanters were hunted down, jailed (sometimes without trial), brutally tortured and killed. In spite of severe persecution and deprivations, many of these despised religious ‘rebels’ met their vicious attackers proudly waving their banners which read:

‘FOR THE WORD OF GOD AND THE TESTIMONY OF JESUS’ and "FOR CHRIST’S CROWN AND COVENANT."

In spite of certain death, a bleeding remnant of 200 Scottish Covenanters at Blackgannoch Moss in May 1685, loudly proclaimed their fervent declaration of faith:

"LET KING JESUS REIGN, AND ALL HIS ENEMIES BE SCATTERED!"

Another historical example of the Church’s declaration of the Crown Rights of Jesus Christ is clearly seen in the theology of the Puritan Fathers as follows. "Basic in Puritan political thought is the doctrine of divine sovereignty. It was the sovereign God who created the state and gave to it its powers and functions. The earthly magistrate held his position and exercised his power by a divine decree. He was a minister of God under common grace for the execution of the laws of God among the people at large, for the main tenancy of law and order, and for so ruling the state that it would provide an atmosphere favorable for the preaching of the Gospel. He was to so rule that the people of God, the elect, could live individually and collectively a life that was truly Christian."

(From: A Theological Interpretation of American History" by C. Gregg Singer)

The Christian doctrine of the sovereignty of God and the Crown Rights of Jesus Christ was prevalent in the minds of many patriots preceding and during the American Revolution in their struggle against King George III.

The men of Marlborough, MA unanimously proclaimed in January 1773 that "Death is more eligible than slavery. A free-born people are not required by the religion of Jesus Christ to submit to tyranny...(we) implore the Ruler above the skies, that He would make bare His arm in defense of His Church and people, and let Israel go."

(From: "The Light and the Glory" by Peter Marshall and David Manuel)

Not only from pulpit and town hall came the cries for liberty, but now the average colonist blended his voice in support of total independence from King George. Most Crown-appointed governors remained loyal to their king. One wrote to the Board of Trade in England saying: "If you ask an American, who is his master? He will tell you he has none, nor any governor but Jesus Christ." ("The Myth of Separation" by David Barton) This may have been the incident which gave rise to the cry which was carried by the messengers of the newly formed Committee for Intercolonial Correspondence:

"NO KING BUT KING JESUS"

Either your God will be your King or your king will be your god.


On April 18, 1775 John Adams and John Hancock were at the home of Rev. Jonas Clarke, a Lexington pastor and militia leader.

That same night Paul Revere arrived to warn them of the approaching Redcoats.

The next morning British Major Pitcairn shouted to an assembled regiment of Minutemen; "Disperse, ye villains, lay down your arms in the name of George the Sovereign King of England."

The immediate response of Rev. Jonas Clarke or one of his company was:

"We recognize no Sovereign but God and no King but Jesus."

In this crucial hour of our nation’s history it is past time that the true saints of God give total allegiance to the Kingship of our Savior, the Lord Jesus Christ. The crisis of the ages demands that we renew the historic battle-cry of our Christian Forefathers –

"WE HAVE NO KING BUT KING JESUS!"

"It cannot be emphasized too strongly or too often that this great nation was founded, not by religionists, but by Christians; not on religions, but on the gospel of Jesus Christ!"

Patrick Henry

"Providence has given to our people the choice of their rulers, and it is the duty...of our Christian nation to select and prefer Christians for their rulers."

John Jay, First Chief Justice of the United States Supreme Court

"And the seventh angel sounded; and there were great voices in heaven, saying, The kingdoms f this world are become the kingdoms of our Lord and of his Christ, and he shall reign for ever and ever."

-- Revelation 11:15


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Comment by fireguy on July 13, 2010 at 7:29pm
Good one Mark. Use that 1st amendment brother. Free speech for everyone.

Love you.
Comment by Marklar on July 13, 2010 at 6:32pm
In today's commercial environment, establishing a framework for the authentication <1> of computer-based information requires a familiarity with concepts and professional skills from both the legal and computer security fields. Combining these two disciplines is not an easy task. Concepts from the information security field often correspond only loosely to concepts from the legal field, even in situations where the terminology is similar. For example, from the information security point of view, "digital signature" means the result of applying to specific information certain specific technical processes described below. The historical legal concept of "signature" is broader. It recognizes any mark made with the intention of authenticating the marked document. <2> In a digital setting, today's broad legal concept of "signature" may well include markings as diverse as digitized images of paper signatures, typed notations such as "/s/ John Smith," or even addressing notations, such as electronic mail origination headers.

From an information security viewpoint, these simple "electronic signatures" are distinct from the "digital signatures" described in this tutorial and in the technical literature, although "digital signature" is sometimes used to mean any form of computer- based signature. These Guidelines use "digital signature" only as it is used in information security terminology, as meaning the result of applying the technical processes described in this tutorial.

To explain the value of digital signatures in legal applications, this tutorial begins with an overview of the legal significance of signatures. It then sets forth the basics of digital signature technology, and examines how, with some legal and institutional infrastructure, digital signature technology can be applied as a robust computer-based alternative to traditional signatures.

Signatures and the Law
A signature is not part of the substance of a transaction, but rather of its representation or form. Signing writings serve the following general purposes:<3>

* Evidence: A signature authenticates a writing by identifying the signer with the signed document. When the signer makes a mark in a distinctive manner, the writing becomes attributable to the signer.<4>
* Ceremony: The act of signing a document calls to the signer's attention the legal significance of the signer's act, and thereby helps prevent "inconsiderate engagements.<5>
* Approval: In certain contexts defined by law or custom, a signature expresses the signer's approval or authorization of the writing, or the signer's intention that it have legal effect.<6>
* Efficiency and logistics: A signature on a written document often imparts a sense of clarity and finality to the transaction and may lessen the subsequent need to inquire beyond the face of a document.<7> Negotiable instruments, for example, rely upon formal requirements, including a signature, for their ability to change hands with ease, rapidity, and minimal interruption.<8>

The formal requirements for legal transactions, including the need for signatures, vary in different legal systems, and also vary with the passage of time. There is also variance in the legal consequences of failure to cast the transaction in a required form. The statute of frauds of the common law tradition, for example, does not render a transaction invalid for lack of a "writing signed by the party to be charged," but rather makes it unenforceable in court,<9> a distinction which has caused the practical application of the statute to be greatly limited in case law.

During this century, most legal systems have reduced formal requirements,<10> or at least have minimized the consequences of failure to satisfy formal requirements. Nevertheless, sound practice still calls for transactions to be formalized in a manner which assures the parties of their validity and enforceability.<11> In current practice, formalization usually involves documenting the transaction on paper and signing or authenticating the paper. Traditional methods, however, are undergoing fundamental change. Documents continue to be written on paper, but sometimes merely to satisfy the need for a legally recognized form. In many instances, the information exchanged to effect a transaction never takes paper form. Computer-based information can also be utilized differently than its paper counterpart. For example, computers can "read" digital information and transform the information or take programmable actions based on the information. Information stored as bits rather than as atoms of ink and paper can travel near the speed of light, may be duplicated without limit and with insignificant cost.

Although the basic nature of transactions has not changed, the law has only begun to adapt to advances in technology. The legal and business communities must develop rules and practices which use new technology to achieve and surpass the effects historically expected from paper forms.

To achieve the basic purposes of signatures outlined above, a signature must have the following attributes:<12>

* Signer authentication: A signature should indicate who signed a document, message or record,<13> and should be difficult for another person to produce without authorization.
* Document authentication: <14> A signature should identify what is signed, <15> making it impracticable to falsify or alter either the signed matter or the signature without detection.

Signer authentication and document authentication are tools used to exclude impersonators and forgers and are essential ingredients of what is often called a "nonrepudiation service" in the terminology of the information security profession. A nonrepudiation service provides assurance of the origin or delivery of data in order to protect the sender against false denial by the recipient that the data has been received, or to protect the recipient against false denial by the sender that the data has been sent. <16> Thus, a nonrepudiation service provides evidence to prevent a person from unilaterally modifying or terminating legal obligations arising out of a transaction effected by computer-based means. <17>

* Affirmative act: The affixing of the signature should be an affirmative act which serves the ceremonial and approval functions of a signature and establishes the sense of having legally consummated a transaction.
* Efficiency: Optimally, a signature and its creation and verification processes should provide the greatest possible assurance of both signer authenticity and document authenticy, with the least possible expenditure of resources.

Digital signature technology generally surpasses paper technology in all these attributes. <18> To understand why, one must first understand how digital signature technology works.

How Digital Signature Technology Works

Digital signatures are created and verified by cryptography, the branch of applied mathematics that concerns itself with transforming messages into seemingly unintelligible forms and back again. Digital signatures use what is known as "public key cryptography," which employs an algorithm using two different but mathematically related "keys;" one for creating a digital signature or transforming data into a seemingly unintelligible form, and another key for verifying a digital signature or returning the message to its original form. <19> Computer equipment and software utilizing two such keys are often collectively termed an "asymmetric cryptosystem."

The complementary keys of an asymmetric cryptosystem for digital signatures are arbitrarily termed the private key, which is known only to the signer <20> and used to create the digital signature, and the public key, which is ordinarily more widely known and is used by a relying party to verify the digital signature. If many people need to verify the signer's digital signatures, the public key must be available or distributed to all of them, perhaps by publication in an on-line repository or directory where it is easily accessible. Although the keys <21> of the pair are mathematically related, if the asymmetric cryptosystem has been designed and implemented securely <22> it is "computationally infeasible <23> to derive the private key from knowledge of the public key. Thus, although many people may know the public key of a given signer and use it to verify that signer's signatures, they cannot discover that signer's private key and use it to forge digital signatures. This is sometimes referred to as the principle of "irreversibility."

Another fundamental process, termed a "hash function," is used in both creating and verifying a digital signature. A hash function is an algorithm which creates a digital representation or "fingerprint" in the form of a "hash value" or "hash result" of a standard length which is usually much smaller than the message but nevertheless substantially unique to it. <24> Any change to the message invariably produces a different hash result when the same hash function is used. In the case of a secure hash function, sometimes termed a "one-way hash function," it is computationally infeasible <25> to derive the original message from knowledge of its hash value. Hash functions therefore enable the software for creating digital signatures to operate on smaller and predictable amounts of data, while still providing robust evidentiary correlation to the original message content, thereby efficiently providing assurance that there has been no modification of the message since it was digitally signed.

Thus, use of digital signatures usually involves two processes, one performed by the signer and the other by the receiver of the digital signature:

* Digital signature creation uses a hash result derived from and unique to both the signed message and a given private key. For the hash result to be secure, there must be only a negligible possibility that the same digital signature could be created by the combination of any other message or private key.
* Digital signature verification is the process of checking the digital signature by reference to the original message and a given public key, thereby determining whether the digital signa ture was created for that same message using the private key that corresponds to the referenced public key.

To sign a document or any other item of information, the signer first delimits precisely the borders of what is to be signed. The delimited information to be signed is termed the "message" in these Guidelines. Then a hash function in the signer's software computes a hash result unique (for all practical purposes) to the message. The signer's software then transforms the hash result into a digital signature using the signer's private key. <26> The resulting digital signature is thus unique to both the message and the private key used to create it.

Typically, a digital signature (a digitally signed hash result of the message) is attached to its message and stored or transmitted with its message. However, it may also be sent or stored as a separate data element, so long as it maintains a reliable association with its message. Since a digital signature is unique to its message, it is useless if wholly disassociated from its message.

Verification of a digital signature is accomplished by computing a new hash result of the original message by means of the same hash function used to create the digital signature. Then, using the public key and the new hash result, the verifier checks: (1) whether the digital signature was created using the corresponding private key; and (2) whether the newly computed hash result matches the original hash result which was transformed into the digital signature during the signing process. The verification software will confirm the digital signature as "verified" if: (1) the signer's private key was used to digitally sign the message, which is known to be the case if the signer's public key was used to verify the signature because the signer's public key will verify only a digital signature created with the signer's private key; <27> and (2) the message was unaltered, which is known to be the case if the hash result computed by the verifier is identical to the hash result extracted from the digital signature during the verification process.

Various asymmetric cryptosystems create and verify digital signatures using different algorithms and procedures, but share this overall operational pattern.

The processes of creating a digital signature and verifying it accomplish the essential effects desired of a signature for many legal purposes:

* Signer authentication: If a public and private key pair is associated with an identified signer, the digital signature attributes the message to the signer. The digital signature cannot be forged, unless the signer loses control of the private key (a "compromise" of the private key), such as by divulging it or losing the media or device in which it is contained.
* Message authentication: The digital signature also identifies the signed message, typically with far greater certainty and precision than paper signatures. Verification reveals any tampering, since the comparison of the hash results (one made at signing and the other made at verifying) shows whether the message is the same as when signed.
* Affirmative act: Creating a digital signature requires the signer to use the signer's private key. This act can perform the "ceremonial" function of alerting the signer to the fact that the signer is consummating a transaction with legal consequences. <28>
* Efficiency: The processes of creating and verifying a digital signature provide a high level of assurance that the digital signature is genuinely the signer's. As with the case of modern electronic data interchange ("EDI") the creation and verification processes are capable of complete automation (sometimes referred to as "machinable"), with human interaction required on an exception basis only. Compared to paper methods such as checking specimen signature cards -- methods so tedious and labor-intensive that they are rarely actually used in practice -- digital signatures yield a high degree of assurance without adding greatly to the resources required for processing.

The processes used for digital signatures have undergone thorough technological peer review for over a decade. Digital signatures have been accepted in several national and international standards developed in cooperation with and accepted by many corporations, banks, and government agencies. <29> The likelihood of malfunction or a security problem in a digital signature cryptosystem designed and implemented as prescribed in the industry standards is extremely remote, <30> and is far less than the risk of undetected forgery or alteration on paper or of using other less secure electronic signature techniques.
Public Key Certificates

To verify a digital signature, the verifier must have access to the signer's public key and have assurance that it corresponds to the signer's private key. However, a public and private key pair has no intrinsic association with any person; it is simply a pair of numbers. Some convincing strategy is necessary to reliably associate a particular person or entity to the key pair.

In a transaction involving only two parties, each party can simply communicate (by a relatively secure "out-of-band" channel such as a courier or a secure voice telephone) the public key of the key pair each party will use. Such an identification strategy is no small task, especially when the parties are geographically distant from each other, normally conduct communication over a convenient but insecure channel such as the Internet, are not natural persons but rather corporations or similar artificial entities, and act through agents whose authority must be ascertained. As electronic commerce increasingly moves from a bilateral setting to the many-on-many architecture of the World Wide Web on the Internet, where significant transactions will occur among strangers who have no prior contractual relationship and will never deal with each other again, the problem of authentication/nonrepudiation becomes not merely one of efficiency, but also of reliability. An open system of communication such as the Internet needs a system of identity authentication to handle this scenario.

To that end, a prospective signer might issue a public statement, such as: "Signatures verifiable by the following public key are mine." However, others doing business with the signer may for good reason be unwilling to accept the statement, especially where there is no prior contract establishing the legal effect of that published statement with certainty. A party relying upon such an unsupported published statement in an open system would run a great risk of trusting a phantom or an imposter, or of attempting to disprove a false denial of a digital signature ("nonrepudiation") if a transaction should turn out to prove disadvantageous for the purported signer.

The solution to these problems is the use of one or more trusted third parties to associate an identified signer with a specific public key. <31> That trusted third party is referred to as a "certification authority" in most technical standards and in these Guidelines.

To associate a key pair with a prospective signer, a certification authority issues a certificate, an electronic record which lists a public key as the "subject" of the certificate, and confirms that the prospective signer identified in the certificate holds the corresponding private key. The prospective signer is termed the "subscriber. <32> A certificate's principal function is to bind a key pair with a particular subscriber. A "recipient" of the certificate desiring to rely upon a digital signature created by the subscriber named in the certificate (whereupon the recipient becomes a "relying party") can use the public key listed in the certificate to verify that the digital signature was created with the corresponding private key. <33> If such verification is successful, this chain of reasoning provides assurance that the corresponding private key is held by the subscriber named in the certificate, and that the digital signature was created by that particular subscriber.

To assure both message and identity authenticity of the certificate, the certification authority digitally signs it. The issuing certification authority's digital signature on the certificate can be verified by using the public key of the certification authority listed in another certificate by another certificate authority (which may but need not be on a higher level in a hierarchy) <34>, and that other certificate can in turn be authenticated by the public key listed in yet another certificate, and so on, until the person relying on the digital signature is adequately assured of its genuineness. In each case, the issuing certification authority must digitally sign its own certificate during the operational period of the other certificate used to verify the certification authority's digital signature.

A digital signature, whether created by a subscriber to authenticate a message or by a certification authority to authenticate its certificate (in effect a specialized message) should be reliably time-stamped to allow the verifier to determine reliably whether the digital signature was created during the "operational period" stated in the certificate, which is a condition upon verifiability of a digital signature under these Guidelines. <35>

To make a public key and its identification with a specific subscriber readily available for use in verification, the certificate may be published in a repository or made available by other means. Repositories are on-line databases of certificates and other information available for retrieval and use in verifying digital signatures. Retrieval can be accomplished automatically by having the verification program directly inquire of the repository to obtain certificates as needed.

Once issued, a certificate may prove to be unreliable, such as in situations where the subscriber misrepresents his identity to the certification authority. In other situations, a certificate may be reliable enough when issued but come to be unreliable sometime thereafter. If the subscriber loses control of the private key ("compromise" of the private key), the certificate has become unreliable, and the certification authority (either with or without the subscriber's request depending on the circumstances) may suspend (temporarily invalidate) or revoke (permanently invalidate) the certificate. Immediately upon suspending or revoking a certificate, the certification authority must publish notice of the revocation or suspension or notify persons who inquire or who are known to have received a digital signature verifiable by reference to the unreliable certificate.
Challenges and Opportunities

The prospect of fully implementing digital signatures in general commerce presents both benefits and costs. The costs consist mainly of:

* Institutional overhead: The cost of establishing and utilizing certification authorities, repositories, and other important services, as well as assuring quality in the performance of their functions.
* Subscriber and Relying Party Costs: A digital signer will require software, and will probably have to pay a certification authority some price to issue a certificate. Hardware to secure the subscriber's private key may also be advisable. Persons relying on digital signatures will incur expenses for verification software and perhaps for access to certificates and certificate revocation lists (CRL) in a repository.

On the plus side, the principal advantage to be gained is more reliable authentication of messages. Digital signatures, if properly implemented and utilized offer promising solutions to the problems of:

* Imposters, by minimizing the risk of dealing with imposters or persons who attempt to escape responsibility by claiming to have been impersonated;
* Message integrity, by minimizing the risk of undetected message tampering and forgery, and of false claims that a message was altered after it was sent;
* Formal legal requirements, by strengthening the view that legal requirements of form, such as writing, signature, and an original document, are satisfied, since digital signatures are functionally on a par with, or superior to paper forms; and
* Open systems, by retaining a high degree of information security, even for information sent over open, insecure, but inexpensive and widely used channels.

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