panda3d.core.HTTPClient

class HTTPClient

Bases: ReferenceCount

Handles contacting an HTTP server and retrieving a document. Each HTTPClient object represents a separate context, and stores its own list of cookies, passwords, and certificates; however, a given HTTPClient is capable of making multiple simultaneous requests to the same or different servers.

It is up to the programmer whether one HTTPClient should be used to retrieve all documents, or a separate one should be created each time. There is a default, global HTTPClient available in HTTPClient.getGlobalPtr().

Inheritance diagram

Inheritance diagram of HTTPClient

__init__() → None
__init__(copy: HTTPClient) → None
assign(copy: HTTPClient) → HTTPClient
Return type

HTTPClient

static initRandomSeed() → None

This may be called once, presumably at the beginning of an application, to initialize OpenSSL’s random seed. On Windows, it is particularly important to call this at startup if you are going to be performing any https operations or otherwise use encryption, since the Windows algorithm for getting a random seed takes 2-3 seconds at startup, but can take 30 seconds or more after you have opened a 3-D graphics window and started rendering.

There is no harm in calling this method multiple times, or in not calling it at all.

setProxySpec(proxy_spec: str) → None

Specifies the complete set of proxies to use for all schemes. This is either a semicolon-delimited set of hostname:ports, or a semicolon- delimited set of pairs of the form “scheme=hostname:port”, or a combination. Use the keyword DIRECT, or an empty string, to represent a direct connection. A particular scheme and/or proxy host may be listed more than once. This is a convenience function that can be used in place of explicit calls to addProxy() for each scheme/proxy pair.

getProxySpec() → str

Returns the complete set of proxies to use for all schemes. This is a string of the form specified by setProxySpec(), above. Note that the string returned by this function may not be exactly the same as the string passed into setProxySpec(), since the string is regenerated from the internal storage structures and may therefore be reordered.

setDirectHostSpec(direct_host_spec: str) → None

Specifies the set of hosts that should be connected to directly, without using a proxy. This is a semicolon-separated list of hostnames that may contain wildcard characters (“*”).

getDirectHostSpec() → str

Returns the set of hosts that should be connected to directly, without using a proxy, as a semicolon-separated list of hostnames that may contain wildcard characters (“*”).

setTryAllDirect(try_all_direct: bool) → None

If this is set true, then after a connection attempt through a proxy fails, we always try a direct connection, regardless of whether the host is listed on the direct_host_spec list. If this is false, a direct attempt is not made when we have a proxy in effect, even if the proxy fails.

getTryAllDirect() → bool

Returns whether a failed connection through a proxy will be followed up by a direct connection attempt, false otherwise.

clearProxy() → None

Resets the proxy spec to empty. Subsequent calls to addProxy() may be made to build up the set of proxy servers.

addProxy(scheme: str, proxy: URLSpec) → None

Adds the indicated proxy host as a proxy for communications on the given scheme. Usually the scheme is “http” or “https”. It may be the empty string to indicate a general proxy. The proxy string may be the empty URL to indicate a direct connection.

clearDirectHost() → None

Resets the set of direct hosts to empty. Subsequent calls to addDirectHost() may be made to build up the list of hosts that do not require a proxy connection.

addDirectHost(hostname: str) → None

Adds the indicated name to the set of hostnames that are connected to directly, without using a proxy. This name may be either a DNS name or an IP address, and it may include the * as a wildcard character.

getProxiesForUrl(url: URLSpec) → str

Returns a semicolon-delimited list of proxies, in the order in which they should be tried, that are appropriate for the indicated URL. The keyword DIRECT indicates a direct connection should be tried.

setUsername(server: str, realm: str, username: str) → None

Specifies the username:password string corresponding to a particular server and/or realm, when demanded by the server. Either or both of the server or realm may be empty; if so, they match anything. Also, the server may be set to the special string “*proxy”, which will match any proxy server.

If the username is set to the empty string, this clears the password for the particular server/realm pair.

getUsername(server: str, realm: str) → str

Returns the username:password string set for this server/realm pair, or empty string if nothing has been set. See setUsername().

setCookie(cookie: HTTPCookie) → None

Stores the indicated cookie in the client’s list of cookies, as if it had been received from a server.

clearCookie(cookie: HTTPCookie) → bool

Removes the cookie with the matching domain/path/name from the client’s list of cookies. Returns true if it was removed, false if the cookie was not matched.

clearAllCookies() → None

Removes the all stored cookies from the client.

hasCookie(cookie: HTTPCookie) → bool

Returns true if there is a cookie in the client matching the given cookie’s domain/path/name, false otherwise.

getCookie(cookie: HTTPCookie) → HTTPCookie

Looks up and returns the cookie in the client matching the given cookie’s domain/path/name. If there is no matching cookie, returns an empty cookie.

Return type

HTTPCookie

copyCookiesFrom(other: HTTPClient) → None

Copies all the cookies from the indicated HTTPClient into this one. Existing cookies in this client are not affected, unless they are shadowed by the new cookies.

writeCookies(out: ostream) → None

Outputs the complete list of cookies stored on the client, for all domains, including the expired cookies (which will normally not be sent back to a host).

sendCookies(out: ostream, url: URLSpec) → None

Writes to the indicated ostream a “Cookie” header line for sending the cookies appropriate to the indicated URL along with an HTTP request. This also removes expired cookies.

setClientCertificateFilename(filename: Filename) → None

Sets the filename of the pem-formatted file that will be read for the client public and private keys if an SSL server requests a certificate. Either this or setClientCertificatePem() may be used to specify a client certificate.

setClientCertificatePem(pem: str) → None

Sets the pem-formatted contents of the certificate that will be parsed for the client public and private keys if an SSL server requests a certificate. Either this or setClientCertificateFilename() may be used to specify a client certificate.

setClientCertificatePassphrase(passphrase: str) → None

Sets the passphrase used to decrypt the private key in the certificate named by setClientCertificateFilename() or setClientCertificatePem().

loadClientCertificate() → bool

Attempts to load the certificate named by setClientCertificateFilename() immediately, and returns true if successful, false otherwise.

Normally this need not be explicitly called, since it will be called automatically if the server requests a certificate, but it may be useful to determine ahead of time if the certificate can be loaded correctly.

addPreapprovedServerCertificateFilename(url: URLSpec, filename: Filename) → bool

Adds the certificate defined in the indicated PEM filename as a “pre- approved” certificate for the indicated server, defined by the hostname and port (only) from the given URL.

If the server offers this particular certificate on a secure connection, it will be accepted without question. This is particularly useful for communicating with a server using a known self-signed certificate.

See also the similar addPreapprovedServerCertificatePem(), and the weaker addPreapprovedServerCertificateName().

addPreapprovedServerCertificatePem(url: URLSpec, pem: str) → bool

Adds the certificate defined in the indicated data string, formatted as a PEM block, as a “pre-approved” certificate for the indicated server, defined by the hostname and port (only) from the given URL.

If the server offers this particular certificate on a secure connection, it will be accepted without question. This is particularly useful for communicating with a server using a known self-signed certificate.

See also the similar addPreapprovedServerCertificateFilename(), and the weaker addPreapprovedServerCertificateName().

addPreapprovedServerCertificateName(url: URLSpec, name: str) → bool

Adds the certificate name only, as a “pre-approved” certificate name for the indicated server, defined by the hostname and port (only) from the given URL.

This is a weaker function than addPreapprovedServerCertificateFilename(). This checks only the subject name of the certificate, without checking for a particular certificate by key. This means that a variety of server certificates may match the indicated name.

Because this is a weaker verification, it only applies to server certificates that are signed by a recognized certificate authority. Thus, it cannot be used to pre-approve self-signed certificates, but it can be used to accept a server certificate offered by a different hostname than the one in the cert itself.

The certificate name should be formatted in the form type0=value0/type1=value1/type2=…

clearPreapprovedServerCertificates(url: URLSpec) → None

Removes all preapproved server certificates for the indicated server and port.

clearAllPreapprovedServerCertificates() → None

Removes all preapproved server certificates for all servers.

setHttpVersion(version: HTTPVersion) → None

Specifies the version of HTTP that the client uses to identify itself to the server. The default is HV_11, or HTTP 1.0; you can set this to HV_10 (HTTP 1.0) to request the server use the older interface.

getHttpVersion() → HTTPVersion

Returns the client’s current setting for HTTP version. See setHttpVersion().

Return type

HTTPVersion

getHttpVersionString() → str

Returns the current HTTP version setting as a string, e.g. “HTTP/1.0” or “HTTP/1.1”.

static parseHttpVersionString(version: str) → HTTPVersion

Matches the string representing a particular HTTP version against any of the known versions and returns the appropriate enumerated value, or HV_other if the version is unknown.

Return type

HTTPVersion

loadCertificates(filename: Filename) → bool

Reads the certificate(s) (delimited by —–BEGIN CERTIFICATE—– and —–END CERTIFICATE—–) from the indicated file and makes them known as trusted public keys for validating future connections. Returns true on success, false otherwise.

setVerifySsl(verify_ssl: VerifySSL) → None

Specifies whether the client will insist on verifying the identity of the servers it connects to via SSL (that is, https).

The parameter value is an enumerated type which indicates the level of security to which the client will insist upon.

getVerifySsl() → VerifySSL

Returns whether the client will insist on verifying the identity of the servers it connects to via SSL (that is, https). See setVerifySsl().

Return type

VerifySSL

setCipherList(cipher_list: str) → None

Specifies the set of ciphers that are to be made available for SSL connections. This is a string as described in the ciphers(1) man page of the OpenSSL documentation (or see https://www.openssl.org/docs/apps/ciphers.html ). If this isn’t specified, the default is provided by the Config file. You may also specify “DEFAULT” to use the built-in OpenSSL default value.

getCipherList() → str

Returns the set of ciphers as set by setCipherList(). See setCipherList().

makeChannel(persistent_connection: bool) → HTTPChannel

Returns a new HTTPChannel object that may be used for reading multiple documents using the same connection, for greater network efficiency than calling HTTPClient.getDocument() repeatedly (which would force a new connection for each document).

Also, HTTPChannel has some additional, less common interface methods than the basic interface methods that exist on HTTPClient; if you wish to call any of these methods you must first obtain an HTTPChannel.

Pass true for persistent_connection to gain this network efficiency. If, on the other hand, your intention is to use the channel to retrieve only one document, then pass false to inform the server that we will be dropping the connection after the first document.

Return type

HTTPChannel

postForm(url: URLSpec, body: str) → HTTPChannel

Posts form data to a particular URL and retrieves the response. Returns a new HTTPChannel object whether the document is successfully read or not; you can test is_valid() and get_return_code() to determine whether the document was retrieved.

Return type

HTTPChannel

getDocument(url: URLSpec) → HTTPChannel

Opens the named document for reading. Returns a new HTTPChannel object whether the document is successfully read or not; you can test is_valid() and get_return_code() to determine whether the document was retrieved.

Return type

HTTPChannel

getHeader(url: URLSpec) → HTTPChannel

Like getDocument(), except only the header associated with the document is retrieved. This may be used to test for existence of the document; it might also return the size of the document (if the server gives us this information).

Return type

HTTPChannel

static base64Encode(s: str) → str

Implements HTTPAuthorization::base64_encode(). This is provided here just as a convenient place to publish it for access by the scripting language; C++ code should probably use HTTPAuthorization directly.

static base64Decode(s: str) → str

Implements HTTPAuthorization::base64_decode(). This is provided here just as a convenient place to publish it for access by the scripting language; C++ code should probably use HTTPAuthorization directly.

static getGlobalPtr() → HTTPClient

Returns the default global HTTPClient.

Return type

HTTPClient

enum VerifySSL
enumerator VS_no_verify = 0

Don’t care who we talk to

enumerator VS_no_date_check = 1

Must identify certs, but old, expired certs are OK

enumerator VS_normal = 2

Identify certs and also check expiration dates.